2 * method-to-ir.c: Convert CIL to the JIT internal representation
5 * Paolo Molaro (lupus@ximian.com)
6 * Dietmar Maurer (dietmar@ximian.com)
8 * (C) 2002 Ximian, Inc.
9 * Copyright 2003-2010 Novell, Inc (http://www.novell.com)
10 * Copyright 2011 Xamarin, Inc (http://www.xamarin.com)
11 * Licensed under the MIT license. See LICENSE file in the project root for full license information.
28 #ifdef HAVE_SYS_TIME_H
36 #include <mono/utils/memcheck.h>
38 #include <mono/metadata/abi-details.h>
39 #include <mono/metadata/assembly.h>
40 #include <mono/metadata/attrdefs.h>
41 #include <mono/metadata/loader.h>
42 #include <mono/metadata/tabledefs.h>
43 #include <mono/metadata/class.h>
44 #include <mono/metadata/object.h>
45 #include <mono/metadata/exception.h>
46 #include <mono/metadata/opcodes.h>
47 #include <mono/metadata/mono-endian.h>
48 #include <mono/metadata/tokentype.h>
49 #include <mono/metadata/tabledefs.h>
50 #include <mono/metadata/marshal.h>
51 #include <mono/metadata/debug-helpers.h>
52 #include <mono/metadata/mono-debug.h>
53 #include <mono/metadata/mono-debug-debugger.h>
54 #include <mono/metadata/gc-internals.h>
55 #include <mono/metadata/security-manager.h>
56 #include <mono/metadata/threads-types.h>
57 #include <mono/metadata/security-core-clr.h>
58 #include <mono/metadata/profiler-private.h>
59 #include <mono/metadata/profiler.h>
60 #include <mono/metadata/monitor.h>
61 #include <mono/metadata/debug-mono-symfile.h>
62 #include <mono/utils/mono-compiler.h>
63 #include <mono/utils/mono-memory-model.h>
64 #include <mono/utils/mono-error-internals.h>
65 #include <mono/metadata/mono-basic-block.h>
66 #include <mono/metadata/reflection-internals.h>
72 #include "jit-icalls.h"
74 #include "debugger-agent.h"
75 #include "seq-points.h"
76 #include "aot-compiler.h"
77 #include "mini-llvm.h"
79 #define BRANCH_COST 10
80 #define INLINE_LENGTH_LIMIT 20
82 /* These have 'cfg' as an implicit argument */
83 #define INLINE_FAILURE(msg) do { \
84 if ((cfg->method != cfg->current_method) && (cfg->current_method->wrapper_type == MONO_WRAPPER_NONE)) { \
85 inline_failure (cfg, msg); \
86 goto exception_exit; \
89 #define CHECK_CFG_EXCEPTION do {\
90 if (cfg->exception_type != MONO_EXCEPTION_NONE) \
91 goto exception_exit; \
93 #define METHOD_ACCESS_FAILURE(method, cmethod) do { \
94 method_access_failure ((cfg), (method), (cmethod)); \
95 goto exception_exit; \
97 #define FIELD_ACCESS_FAILURE(method, field) do { \
98 field_access_failure ((cfg), (method), (field)); \
99 goto exception_exit; \
101 #define GENERIC_SHARING_FAILURE(opcode) do { \
102 if (cfg->gshared) { \
103 gshared_failure (cfg, opcode, __FILE__, __LINE__); \
104 goto exception_exit; \
107 #define GSHAREDVT_FAILURE(opcode) do { \
108 if (cfg->gsharedvt) { \
109 gsharedvt_failure (cfg, opcode, __FILE__, __LINE__); \
110 goto exception_exit; \
113 #define OUT_OF_MEMORY_FAILURE do { \
114 mono_cfg_set_exception (cfg, MONO_EXCEPTION_MONO_ERROR); \
115 mono_error_set_out_of_memory (&cfg->error, ""); \
116 goto exception_exit; \
118 #define DISABLE_AOT(cfg) do { \
119 if ((cfg)->verbose_level >= 2) \
120 printf ("AOT disabled: %s:%d\n", __FILE__, __LINE__); \
121 (cfg)->disable_aot = TRUE; \
123 #define LOAD_ERROR do { \
124 break_on_unverified (); \
125 mono_cfg_set_exception (cfg, MONO_EXCEPTION_TYPE_LOAD); \
126 goto exception_exit; \
129 #define TYPE_LOAD_ERROR(klass) do { \
130 cfg->exception_ptr = klass; \
134 #define CHECK_CFG_ERROR do {\
135 if (!mono_error_ok (&cfg->error)) { \
136 mono_cfg_set_exception (cfg, MONO_EXCEPTION_MONO_ERROR); \
137 goto mono_error_exit; \
141 /* Determine whenever 'ins' represents a load of the 'this' argument */
142 #define MONO_CHECK_THIS(ins) (mono_method_signature (cfg->method)->hasthis && ((ins)->opcode == OP_MOVE) && ((ins)->sreg1 == cfg->args [0]->dreg))
144 static int ldind_to_load_membase (int opcode);
145 static int stind_to_store_membase (int opcode);
147 int mono_op_to_op_imm (int opcode);
148 int mono_op_to_op_imm_noemul (int opcode);
150 MONO_API MonoInst* mono_emit_native_call (MonoCompile *cfg, gconstpointer func, MonoMethodSignature *sig, MonoInst **args);
152 static int inline_method (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **sp,
153 guchar *ip, guint real_offset, gboolean inline_always);
155 emit_llvmonly_virtual_call (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, int context_used, MonoInst **sp);
157 /* helper methods signatures */
158 static MonoMethodSignature *helper_sig_domain_get;
159 static MonoMethodSignature *helper_sig_rgctx_lazy_fetch_trampoline;
160 static MonoMethodSignature *helper_sig_llvmonly_imt_thunk;
163 /* type loading helpers */
164 static GENERATE_GET_CLASS_WITH_CACHE (runtime_helpers, System.Runtime.CompilerServices, RuntimeHelpers)
165 static GENERATE_TRY_GET_CLASS_WITH_CACHE (debuggable_attribute, System.Diagnostics, DebuggableAttribute)
168 * Instruction metadata
176 #define MINI_OP(a,b,dest,src1,src2) dest, src1, src2, ' ',
177 #define MINI_OP3(a,b,dest,src1,src2,src3) dest, src1, src2, src3,
183 #if SIZEOF_REGISTER == 8 && SIZEOF_REGISTER == SIZEOF_VOID_P
188 /* keep in sync with the enum in mini.h */
191 #include "mini-ops.h"
196 #define MINI_OP(a,b,dest,src1,src2) ((src2) != NONE ? 2 : ((src1) != NONE ? 1 : 0)),
197 #define MINI_OP3(a,b,dest,src1,src2,src3) ((src3) != NONE ? 3 : ((src2) != NONE ? 2 : ((src1) != NONE ? 1 : 0))),
199 * This should contain the index of the last sreg + 1. This is not the same
200 * as the number of sregs for opcodes like IA64_CMP_EQ_IMM.
202 const gint8 ins_sreg_counts[] = {
203 #include "mini-ops.h"
208 #define MONO_INIT_VARINFO(vi,id) do { \
209 (vi)->range.first_use.pos.bid = 0xffff; \
215 mono_alloc_ireg (MonoCompile *cfg)
217 return alloc_ireg (cfg);
221 mono_alloc_lreg (MonoCompile *cfg)
223 return alloc_lreg (cfg);
227 mono_alloc_freg (MonoCompile *cfg)
229 return alloc_freg (cfg);
233 mono_alloc_preg (MonoCompile *cfg)
235 return alloc_preg (cfg);
239 mono_alloc_dreg (MonoCompile *cfg, MonoStackType stack_type)
241 return alloc_dreg (cfg, stack_type);
245 * mono_alloc_ireg_ref:
247 * Allocate an IREG, and mark it as holding a GC ref.
250 mono_alloc_ireg_ref (MonoCompile *cfg)
252 return alloc_ireg_ref (cfg);
256 * mono_alloc_ireg_mp:
258 * Allocate an IREG, and mark it as holding a managed pointer.
261 mono_alloc_ireg_mp (MonoCompile *cfg)
263 return alloc_ireg_mp (cfg);
267 * mono_alloc_ireg_copy:
269 * Allocate an IREG with the same GC type as VREG.
272 mono_alloc_ireg_copy (MonoCompile *cfg, guint32 vreg)
274 if (vreg_is_ref (cfg, vreg))
275 return alloc_ireg_ref (cfg);
276 else if (vreg_is_mp (cfg, vreg))
277 return alloc_ireg_mp (cfg);
279 return alloc_ireg (cfg);
283 mono_type_to_regmove (MonoCompile *cfg, MonoType *type)
288 type = mini_get_underlying_type (type);
290 switch (type->type) {
303 case MONO_TYPE_FNPTR:
305 case MONO_TYPE_CLASS:
306 case MONO_TYPE_STRING:
307 case MONO_TYPE_OBJECT:
308 case MONO_TYPE_SZARRAY:
309 case MONO_TYPE_ARRAY:
313 #if SIZEOF_REGISTER == 8
319 return cfg->r4fp ? OP_RMOVE : OP_FMOVE;
322 case MONO_TYPE_VALUETYPE:
323 if (type->data.klass->enumtype) {
324 type = mono_class_enum_basetype (type->data.klass);
327 if (MONO_CLASS_IS_SIMD (cfg, mono_class_from_mono_type (type)))
330 case MONO_TYPE_TYPEDBYREF:
332 case MONO_TYPE_GENERICINST:
333 type = &type->data.generic_class->container_class->byval_arg;
337 g_assert (cfg->gshared);
338 if (mini_type_var_is_vt (type))
341 return mono_type_to_regmove (cfg, mini_get_underlying_type (type));
343 g_error ("unknown type 0x%02x in type_to_regstore", type->type);
349 mono_print_bb (MonoBasicBlock *bb, const char *msg)
354 printf ("\n%s %d: [IN: ", msg, bb->block_num);
355 for (i = 0; i < bb->in_count; ++i)
356 printf (" BB%d(%d)", bb->in_bb [i]->block_num, bb->in_bb [i]->dfn);
358 for (i = 0; i < bb->out_count; ++i)
359 printf (" BB%d(%d)", bb->out_bb [i]->block_num, bb->out_bb [i]->dfn);
361 for (tree = bb->code; tree; tree = tree->next)
362 mono_print_ins_index (-1, tree);
366 mono_create_helper_signatures (void)
368 helper_sig_domain_get = mono_create_icall_signature ("ptr");
369 helper_sig_rgctx_lazy_fetch_trampoline = mono_create_icall_signature ("ptr ptr");
370 helper_sig_llvmonly_imt_thunk = mono_create_icall_signature ("ptr ptr ptr");
373 static MONO_NEVER_INLINE void
374 break_on_unverified (void)
376 if (mini_get_debug_options ()->break_on_unverified)
380 static MONO_NEVER_INLINE void
381 method_access_failure (MonoCompile *cfg, MonoMethod *method, MonoMethod *cil_method)
383 char *method_fname = mono_method_full_name (method, TRUE);
384 char *cil_method_fname = mono_method_full_name (cil_method, TRUE);
385 mono_cfg_set_exception (cfg, MONO_EXCEPTION_MONO_ERROR);
386 mono_error_set_generic_error (&cfg->error, "System", "MethodAccessException", "Method `%s' is inaccessible from method `%s'\n", cil_method_fname, method_fname);
387 g_free (method_fname);
388 g_free (cil_method_fname);
391 static MONO_NEVER_INLINE void
392 field_access_failure (MonoCompile *cfg, MonoMethod *method, MonoClassField *field)
394 char *method_fname = mono_method_full_name (method, TRUE);
395 char *field_fname = mono_field_full_name (field);
396 mono_cfg_set_exception (cfg, MONO_EXCEPTION_MONO_ERROR);
397 mono_error_set_generic_error (&cfg->error, "System", "FieldAccessException", "Field `%s' is inaccessible from method `%s'\n", field_fname, method_fname);
398 g_free (method_fname);
399 g_free (field_fname);
402 static MONO_NEVER_INLINE void
403 inline_failure (MonoCompile *cfg, const char *msg)
405 if (cfg->verbose_level >= 2)
406 printf ("inline failed: %s\n", msg);
407 mono_cfg_set_exception (cfg, MONO_EXCEPTION_INLINE_FAILED);
410 static MONO_NEVER_INLINE void
411 gshared_failure (MonoCompile *cfg, int opcode, const char *file, int line)
413 if (cfg->verbose_level > 2) \
414 printf ("sharing failed for method %s.%s.%s/%d opcode %s line %d\n", cfg->current_method->klass->name_space, cfg->current_method->klass->name, cfg->current_method->name, cfg->current_method->signature->param_count, mono_opcode_name ((opcode)), line);
415 mono_cfg_set_exception (cfg, MONO_EXCEPTION_GENERIC_SHARING_FAILED);
418 static MONO_NEVER_INLINE void
419 gsharedvt_failure (MonoCompile *cfg, int opcode, const char *file, int line)
421 cfg->exception_message = g_strdup_printf ("gsharedvt failed for method %s.%s.%s/%d opcode %s %s:%d", cfg->current_method->klass->name_space, cfg->current_method->klass->name, cfg->current_method->name, cfg->current_method->signature->param_count, mono_opcode_name ((opcode)), file, line);
422 if (cfg->verbose_level >= 2)
423 printf ("%s\n", cfg->exception_message);
424 mono_cfg_set_exception (cfg, MONO_EXCEPTION_GENERIC_SHARING_FAILED);
428 * When using gsharedvt, some instatiations might be verifiable, and some might be not. i.e.
429 * foo<T> (int i) { ldarg.0; box T; }
431 #define UNVERIFIED do { \
432 if (cfg->gsharedvt) { \
433 if (cfg->verbose_level > 2) \
434 printf ("gsharedvt method failed to verify, falling back to instantiation.\n"); \
435 mono_cfg_set_exception (cfg, MONO_EXCEPTION_GENERIC_SHARING_FAILED); \
436 goto exception_exit; \
438 break_on_unverified (); \
442 #define GET_BBLOCK(cfg,tblock,ip) do { \
443 (tblock) = cfg->cil_offset_to_bb [(ip) - cfg->cil_start]; \
445 if ((ip) >= end || (ip) < header->code) UNVERIFIED; \
446 NEW_BBLOCK (cfg, (tblock)); \
447 (tblock)->cil_code = (ip); \
448 ADD_BBLOCK (cfg, (tblock)); \
452 #if defined(TARGET_X86) || defined(TARGET_AMD64)
453 #define EMIT_NEW_X86_LEA(cfg,dest,sr1,sr2,shift,imm) do { \
454 MONO_INST_NEW (cfg, dest, OP_X86_LEA); \
455 (dest)->dreg = alloc_ireg_mp ((cfg)); \
456 (dest)->sreg1 = (sr1); \
457 (dest)->sreg2 = (sr2); \
458 (dest)->inst_imm = (imm); \
459 (dest)->backend.shift_amount = (shift); \
460 MONO_ADD_INS ((cfg)->cbb, (dest)); \
464 /* Emit conversions so both operands of a binary opcode are of the same type */
466 add_widen_op (MonoCompile *cfg, MonoInst *ins, MonoInst **arg1_ref, MonoInst **arg2_ref)
468 MonoInst *arg1 = *arg1_ref;
469 MonoInst *arg2 = *arg2_ref;
472 ((arg1->type == STACK_R4 && arg2->type == STACK_R8) ||
473 (arg1->type == STACK_R8 && arg2->type == STACK_R4))) {
476 /* Mixing r4/r8 is allowed by the spec */
477 if (arg1->type == STACK_R4) {
478 int dreg = alloc_freg (cfg);
480 EMIT_NEW_UNALU (cfg, conv, OP_RCONV_TO_R8, dreg, arg1->dreg);
481 conv->type = STACK_R8;
485 if (arg2->type == STACK_R4) {
486 int dreg = alloc_freg (cfg);
488 EMIT_NEW_UNALU (cfg, conv, OP_RCONV_TO_R8, dreg, arg2->dreg);
489 conv->type = STACK_R8;
495 #if SIZEOF_REGISTER == 8
496 /* FIXME: Need to add many more cases */
497 if ((arg1)->type == STACK_PTR && (arg2)->type == STACK_I4) {
500 int dr = alloc_preg (cfg);
501 EMIT_NEW_UNALU (cfg, widen, OP_SEXT_I4, dr, (arg2)->dreg);
502 (ins)->sreg2 = widen->dreg;
507 #define ADD_BINOP(op) do { \
508 MONO_INST_NEW (cfg, ins, (op)); \
510 ins->sreg1 = sp [0]->dreg; \
511 ins->sreg2 = sp [1]->dreg; \
512 type_from_op (cfg, ins, sp [0], sp [1]); \
514 /* Have to insert a widening op */ \
515 add_widen_op (cfg, ins, &sp [0], &sp [1]); \
516 ins->dreg = alloc_dreg ((cfg), (MonoStackType)(ins)->type); \
517 MONO_ADD_INS ((cfg)->cbb, (ins)); \
518 *sp++ = mono_decompose_opcode ((cfg), (ins)); \
521 #define ADD_UNOP(op) do { \
522 MONO_INST_NEW (cfg, ins, (op)); \
524 ins->sreg1 = sp [0]->dreg; \
525 type_from_op (cfg, ins, sp [0], NULL); \
527 (ins)->dreg = alloc_dreg ((cfg), (MonoStackType)(ins)->type); \
528 MONO_ADD_INS ((cfg)->cbb, (ins)); \
529 *sp++ = mono_decompose_opcode (cfg, ins); \
532 #define ADD_BINCOND(next_block) do { \
535 MONO_INST_NEW(cfg, cmp, OP_COMPARE); \
536 cmp->sreg1 = sp [0]->dreg; \
537 cmp->sreg2 = sp [1]->dreg; \
538 type_from_op (cfg, cmp, sp [0], sp [1]); \
540 add_widen_op (cfg, cmp, &sp [0], &sp [1]); \
541 type_from_op (cfg, ins, sp [0], sp [1]); \
542 ins->inst_many_bb = (MonoBasicBlock **)mono_mempool_alloc (cfg->mempool, sizeof(gpointer)*2); \
543 GET_BBLOCK (cfg, tblock, target); \
544 link_bblock (cfg, cfg->cbb, tblock); \
545 ins->inst_true_bb = tblock; \
546 if ((next_block)) { \
547 link_bblock (cfg, cfg->cbb, (next_block)); \
548 ins->inst_false_bb = (next_block); \
549 start_new_bblock = 1; \
551 GET_BBLOCK (cfg, tblock, ip); \
552 link_bblock (cfg, cfg->cbb, tblock); \
553 ins->inst_false_bb = tblock; \
554 start_new_bblock = 2; \
556 if (sp != stack_start) { \
557 handle_stack_args (cfg, stack_start, sp - stack_start); \
558 CHECK_UNVERIFIABLE (cfg); \
560 MONO_ADD_INS (cfg->cbb, cmp); \
561 MONO_ADD_INS (cfg->cbb, ins); \
565 * link_bblock: Links two basic blocks
567 * links two basic blocks in the control flow graph, the 'from'
568 * argument is the starting block and the 'to' argument is the block
569 * the control flow ends to after 'from'.
572 link_bblock (MonoCompile *cfg, MonoBasicBlock *from, MonoBasicBlock* to)
574 MonoBasicBlock **newa;
578 if (from->cil_code) {
580 printf ("edge from IL%04x to IL_%04x\n", from->cil_code - cfg->cil_code, to->cil_code - cfg->cil_code);
582 printf ("edge from IL%04x to exit\n", from->cil_code - cfg->cil_code);
585 printf ("edge from entry to IL_%04x\n", to->cil_code - cfg->cil_code);
587 printf ("edge from entry to exit\n");
592 for (i = 0; i < from->out_count; ++i) {
593 if (to == from->out_bb [i]) {
599 newa = (MonoBasicBlock **)mono_mempool_alloc (cfg->mempool, sizeof (gpointer) * (from->out_count + 1));
600 for (i = 0; i < from->out_count; ++i) {
601 newa [i] = from->out_bb [i];
609 for (i = 0; i < to->in_count; ++i) {
610 if (from == to->in_bb [i]) {
616 newa = (MonoBasicBlock **)mono_mempool_alloc (cfg->mempool, sizeof (gpointer) * (to->in_count + 1));
617 for (i = 0; i < to->in_count; ++i) {
618 newa [i] = to->in_bb [i];
627 mono_link_bblock (MonoCompile *cfg, MonoBasicBlock *from, MonoBasicBlock* to)
629 link_bblock (cfg, from, to);
633 * mono_find_block_region:
635 * We mark each basic block with a region ID. We use that to avoid BB
636 * optimizations when blocks are in different regions.
639 * A region token that encodes where this region is, and information
640 * about the clause owner for this block.
642 * The region encodes the try/catch/filter clause that owns this block
643 * as well as the type. -1 is a special value that represents a block
644 * that is in none of try/catch/filter.
647 mono_find_block_region (MonoCompile *cfg, int offset)
649 MonoMethodHeader *header = cfg->header;
650 MonoExceptionClause *clause;
653 for (i = 0; i < header->num_clauses; ++i) {
654 clause = &header->clauses [i];
655 if ((clause->flags == MONO_EXCEPTION_CLAUSE_FILTER) && (offset >= clause->data.filter_offset) &&
656 (offset < (clause->handler_offset)))
657 return ((i + 1) << 8) | MONO_REGION_FILTER | clause->flags;
659 if (MONO_OFFSET_IN_HANDLER (clause, offset)) {
660 if (clause->flags == MONO_EXCEPTION_CLAUSE_FINALLY)
661 return ((i + 1) << 8) | MONO_REGION_FINALLY | clause->flags;
662 else if (clause->flags == MONO_EXCEPTION_CLAUSE_FAULT)
663 return ((i + 1) << 8) | MONO_REGION_FAULT | clause->flags;
665 return ((i + 1) << 8) | MONO_REGION_CATCH | clause->flags;
668 for (i = 0; i < header->num_clauses; ++i) {
669 clause = &header->clauses [i];
671 if (MONO_OFFSET_IN_CLAUSE (clause, offset))
672 return ((i + 1) << 8) | clause->flags;
679 mono_find_final_block (MonoCompile *cfg, unsigned char *ip, unsigned char *target, int type)
681 MonoMethodHeader *header = cfg->header;
682 MonoExceptionClause *clause;
686 for (i = 0; i < header->num_clauses; ++i) {
687 clause = &header->clauses [i];
688 if (MONO_OFFSET_IN_CLAUSE (clause, (ip - header->code)) &&
689 (!MONO_OFFSET_IN_CLAUSE (clause, (target - header->code)))) {
690 if (clause->flags == type)
691 res = g_list_append (res, clause);
698 mono_create_spvar_for_region (MonoCompile *cfg, int region)
702 var = (MonoInst *)g_hash_table_lookup (cfg->spvars, GINT_TO_POINTER (region));
706 var = mono_compile_create_var (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL);
707 /* prevent it from being register allocated */
708 var->flags |= MONO_INST_VOLATILE;
710 g_hash_table_insert (cfg->spvars, GINT_TO_POINTER (region), var);
714 mono_find_exvar_for_offset (MonoCompile *cfg, int offset)
716 return (MonoInst *)g_hash_table_lookup (cfg->exvars, GINT_TO_POINTER (offset));
720 mono_create_exvar_for_offset (MonoCompile *cfg, int offset)
724 var = (MonoInst *)g_hash_table_lookup (cfg->exvars, GINT_TO_POINTER (offset));
728 var = mono_compile_create_var (cfg, &mono_defaults.object_class->byval_arg, OP_LOCAL);
729 /* prevent it from being register allocated */
730 var->flags |= MONO_INST_VOLATILE;
732 g_hash_table_insert (cfg->exvars, GINT_TO_POINTER (offset), var);
738 * Returns the type used in the eval stack when @type is loaded.
739 * FIXME: return a MonoType/MonoClass for the byref and VALUETYPE cases.
742 type_to_eval_stack_type (MonoCompile *cfg, MonoType *type, MonoInst *inst)
746 type = mini_get_underlying_type (type);
747 inst->klass = klass = mono_class_from_mono_type (type);
749 inst->type = STACK_MP;
754 switch (type->type) {
756 inst->type = STACK_INV;
764 inst->type = STACK_I4;
769 case MONO_TYPE_FNPTR:
770 inst->type = STACK_PTR;
772 case MONO_TYPE_CLASS:
773 case MONO_TYPE_STRING:
774 case MONO_TYPE_OBJECT:
775 case MONO_TYPE_SZARRAY:
776 case MONO_TYPE_ARRAY:
777 inst->type = STACK_OBJ;
781 inst->type = STACK_I8;
784 inst->type = cfg->r4_stack_type;
787 inst->type = STACK_R8;
789 case MONO_TYPE_VALUETYPE:
790 if (type->data.klass->enumtype) {
791 type = mono_class_enum_basetype (type->data.klass);
795 inst->type = STACK_VTYPE;
798 case MONO_TYPE_TYPEDBYREF:
799 inst->klass = mono_defaults.typed_reference_class;
800 inst->type = STACK_VTYPE;
802 case MONO_TYPE_GENERICINST:
803 type = &type->data.generic_class->container_class->byval_arg;
807 g_assert (cfg->gshared);
808 if (mini_is_gsharedvt_type (type)) {
809 g_assert (cfg->gsharedvt);
810 inst->type = STACK_VTYPE;
812 type_to_eval_stack_type (cfg, mini_get_underlying_type (type), inst);
816 g_error ("unknown type 0x%02x in eval stack type", type->type);
821 * The following tables are used to quickly validate the IL code in type_from_op ().
824 bin_num_table [STACK_MAX] [STACK_MAX] = {
825 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
826 {STACK_INV, STACK_I4, STACK_INV, STACK_PTR, STACK_INV, STACK_MP, STACK_INV, STACK_INV},
827 {STACK_INV, STACK_INV, STACK_I8, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
828 {STACK_INV, STACK_PTR, STACK_INV, STACK_PTR, STACK_INV, STACK_MP, STACK_INV, STACK_INV},
829 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_R8, STACK_INV, STACK_INV, STACK_INV, STACK_R8},
830 {STACK_INV, STACK_MP, STACK_INV, STACK_MP, STACK_INV, STACK_PTR, STACK_INV, STACK_INV},
831 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
832 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
833 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_R8, STACK_INV, STACK_INV, STACK_INV, STACK_R4}
838 STACK_INV, STACK_I4, STACK_I8, STACK_PTR, STACK_R8, STACK_INV, STACK_INV, STACK_INV, STACK_R4
841 /* reduce the size of this table */
843 bin_int_table [STACK_MAX] [STACK_MAX] = {
844 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
845 {STACK_INV, STACK_I4, STACK_INV, STACK_PTR, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
846 {STACK_INV, STACK_INV, STACK_I8, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
847 {STACK_INV, STACK_PTR, STACK_INV, STACK_PTR, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
848 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
849 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
850 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
851 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV}
855 bin_comp_table [STACK_MAX] [STACK_MAX] = {
856 /* Inv i L p F & O vt r4 */
858 {0, 1, 0, 1, 0, 0, 0, 0}, /* i, int32 */
859 {0, 0, 1, 0, 0, 0, 0, 0}, /* L, int64 */
860 {0, 1, 0, 1, 0, 2, 4, 0}, /* p, ptr */
861 {0, 0, 0, 0, 1, 0, 0, 0, 1}, /* F, R8 */
862 {0, 0, 0, 2, 0, 1, 0, 0}, /* &, managed pointer */
863 {0, 0, 0, 4, 0, 0, 3, 0}, /* O, reference */
864 {0, 0, 0, 0, 0, 0, 0, 0}, /* vt value type */
865 {0, 0, 0, 0, 1, 0, 0, 0, 1}, /* r, r4 */
868 /* reduce the size of this table */
870 shift_table [STACK_MAX] [STACK_MAX] = {
871 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
872 {STACK_INV, STACK_I4, STACK_INV, STACK_I4, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
873 {STACK_INV, STACK_I8, STACK_INV, STACK_I8, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
874 {STACK_INV, STACK_PTR, STACK_INV, STACK_PTR, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
875 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
876 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
877 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV},
878 {STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV, STACK_INV}
882 * Tables to map from the non-specific opcode to the matching
883 * type-specific opcode.
885 /* handles from CEE_ADD to CEE_SHR_UN (CEE_REM_UN for floats) */
887 binops_op_map [STACK_MAX] = {
888 0, OP_IADD-CEE_ADD, OP_LADD-CEE_ADD, OP_PADD-CEE_ADD, OP_FADD-CEE_ADD, OP_PADD-CEE_ADD, 0, 0, OP_RADD-CEE_ADD
891 /* handles from CEE_NEG to CEE_CONV_U8 */
893 unops_op_map [STACK_MAX] = {
894 0, OP_INEG-CEE_NEG, OP_LNEG-CEE_NEG, OP_PNEG-CEE_NEG, OP_FNEG-CEE_NEG, OP_PNEG-CEE_NEG, 0, 0, OP_RNEG-CEE_NEG
897 /* handles from CEE_CONV_U2 to CEE_SUB_OVF_UN */
899 ovfops_op_map [STACK_MAX] = {
900 0, OP_ICONV_TO_U2-CEE_CONV_U2, OP_LCONV_TO_U2-CEE_CONV_U2, OP_PCONV_TO_U2-CEE_CONV_U2, OP_FCONV_TO_U2-CEE_CONV_U2, OP_PCONV_TO_U2-CEE_CONV_U2, OP_PCONV_TO_U2-CEE_CONV_U2, 0, OP_RCONV_TO_U2-CEE_CONV_U2
903 /* handles from CEE_CONV_OVF_I1_UN to CEE_CONV_OVF_U_UN */
905 ovf2ops_op_map [STACK_MAX] = {
906 0, OP_ICONV_TO_OVF_I1_UN-CEE_CONV_OVF_I1_UN, OP_LCONV_TO_OVF_I1_UN-CEE_CONV_OVF_I1_UN, OP_PCONV_TO_OVF_I1_UN-CEE_CONV_OVF_I1_UN, OP_FCONV_TO_OVF_I1_UN-CEE_CONV_OVF_I1_UN, OP_PCONV_TO_OVF_I1_UN-CEE_CONV_OVF_I1_UN, 0, 0, OP_RCONV_TO_OVF_I1_UN-CEE_CONV_OVF_I1_UN
909 /* handles from CEE_CONV_OVF_I1 to CEE_CONV_OVF_U8 */
911 ovf3ops_op_map [STACK_MAX] = {
912 0, OP_ICONV_TO_OVF_I1-CEE_CONV_OVF_I1, OP_LCONV_TO_OVF_I1-CEE_CONV_OVF_I1, OP_PCONV_TO_OVF_I1-CEE_CONV_OVF_I1, OP_FCONV_TO_OVF_I1-CEE_CONV_OVF_I1, OP_PCONV_TO_OVF_I1-CEE_CONV_OVF_I1, 0, 0, OP_RCONV_TO_OVF_I1-CEE_CONV_OVF_I1
915 /* handles from CEE_BEQ to CEE_BLT_UN */
917 beqops_op_map [STACK_MAX] = {
918 0, OP_IBEQ-CEE_BEQ, OP_LBEQ-CEE_BEQ, OP_PBEQ-CEE_BEQ, OP_FBEQ-CEE_BEQ, OP_PBEQ-CEE_BEQ, OP_PBEQ-CEE_BEQ, 0, OP_FBEQ-CEE_BEQ
921 /* handles from CEE_CEQ to CEE_CLT_UN */
923 ceqops_op_map [STACK_MAX] = {
924 0, OP_ICEQ-OP_CEQ, OP_LCEQ-OP_CEQ, OP_PCEQ-OP_CEQ, OP_FCEQ-OP_CEQ, OP_PCEQ-OP_CEQ, OP_PCEQ-OP_CEQ, 0, OP_RCEQ-OP_CEQ
928 * Sets ins->type (the type on the eval stack) according to the
929 * type of the opcode and the arguments to it.
930 * Invalid IL code is marked by setting ins->type to the invalid value STACK_INV.
932 * FIXME: this function sets ins->type unconditionally in some cases, but
933 * it should set it to invalid for some types (a conv.x on an object)
936 type_from_op (MonoCompile *cfg, MonoInst *ins, MonoInst *src1, MonoInst *src2)
938 switch (ins->opcode) {
945 /* FIXME: check unverifiable args for STACK_MP */
946 ins->type = bin_num_table [src1->type] [src2->type];
947 ins->opcode += binops_op_map [ins->type];
954 ins->type = bin_int_table [src1->type] [src2->type];
955 ins->opcode += binops_op_map [ins->type];
960 ins->type = shift_table [src1->type] [src2->type];
961 ins->opcode += binops_op_map [ins->type];
966 ins->type = bin_comp_table [src1->type] [src2->type] ? STACK_I4: STACK_INV;
967 if ((src1->type == STACK_I8) || ((SIZEOF_VOID_P == 8) && ((src1->type == STACK_PTR) || (src1->type == STACK_OBJ) || (src1->type == STACK_MP))))
968 ins->opcode = OP_LCOMPARE;
969 else if (src1->type == STACK_R4)
970 ins->opcode = OP_RCOMPARE;
971 else if (src1->type == STACK_R8)
972 ins->opcode = OP_FCOMPARE;
974 ins->opcode = OP_ICOMPARE;
976 case OP_ICOMPARE_IMM:
977 ins->type = bin_comp_table [src1->type] [src1->type] ? STACK_I4 : STACK_INV;
978 if ((src1->type == STACK_I8) || ((SIZEOF_VOID_P == 8) && ((src1->type == STACK_PTR) || (src1->type == STACK_OBJ) || (src1->type == STACK_MP))))
979 ins->opcode = OP_LCOMPARE_IMM;
991 ins->opcode += beqops_op_map [src1->type];
994 ins->type = bin_comp_table [src1->type] [src2->type] ? STACK_I4: STACK_INV;
995 ins->opcode += ceqops_op_map [src1->type];
1001 ins->type = (bin_comp_table [src1->type] [src2->type] & 1) ? STACK_I4: STACK_INV;
1002 ins->opcode += ceqops_op_map [src1->type];
1006 ins->type = neg_table [src1->type];
1007 ins->opcode += unops_op_map [ins->type];
1010 if (src1->type >= STACK_I4 && src1->type <= STACK_PTR)
1011 ins->type = src1->type;
1013 ins->type = STACK_INV;
1014 ins->opcode += unops_op_map [ins->type];
1020 ins->type = STACK_I4;
1021 ins->opcode += unops_op_map [src1->type];
1024 ins->type = STACK_R8;
1025 switch (src1->type) {
1028 ins->opcode = OP_ICONV_TO_R_UN;
1031 ins->opcode = OP_LCONV_TO_R_UN;
1035 case CEE_CONV_OVF_I1:
1036 case CEE_CONV_OVF_U1:
1037 case CEE_CONV_OVF_I2:
1038 case CEE_CONV_OVF_U2:
1039 case CEE_CONV_OVF_I4:
1040 case CEE_CONV_OVF_U4:
1041 ins->type = STACK_I4;
1042 ins->opcode += ovf3ops_op_map [src1->type];
1044 case CEE_CONV_OVF_I_UN:
1045 case CEE_CONV_OVF_U_UN:
1046 ins->type = STACK_PTR;
1047 ins->opcode += ovf2ops_op_map [src1->type];
1049 case CEE_CONV_OVF_I1_UN:
1050 case CEE_CONV_OVF_I2_UN:
1051 case CEE_CONV_OVF_I4_UN:
1052 case CEE_CONV_OVF_U1_UN:
1053 case CEE_CONV_OVF_U2_UN:
1054 case CEE_CONV_OVF_U4_UN:
1055 ins->type = STACK_I4;
1056 ins->opcode += ovf2ops_op_map [src1->type];
1059 ins->type = STACK_PTR;
1060 switch (src1->type) {
1062 ins->opcode = OP_ICONV_TO_U;
1066 #if SIZEOF_VOID_P == 8
1067 ins->opcode = OP_LCONV_TO_U;
1069 ins->opcode = OP_MOVE;
1073 ins->opcode = OP_LCONV_TO_U;
1076 ins->opcode = OP_FCONV_TO_U;
1082 ins->type = STACK_I8;
1083 ins->opcode += unops_op_map [src1->type];
1085 case CEE_CONV_OVF_I8:
1086 case CEE_CONV_OVF_U8:
1087 ins->type = STACK_I8;
1088 ins->opcode += ovf3ops_op_map [src1->type];
1090 case CEE_CONV_OVF_U8_UN:
1091 case CEE_CONV_OVF_I8_UN:
1092 ins->type = STACK_I8;
1093 ins->opcode += ovf2ops_op_map [src1->type];
1096 ins->type = cfg->r4_stack_type;
1097 ins->opcode += unops_op_map [src1->type];
1100 ins->type = STACK_R8;
1101 ins->opcode += unops_op_map [src1->type];
1104 ins->type = STACK_R8;
1108 ins->type = STACK_I4;
1109 ins->opcode += ovfops_op_map [src1->type];
1112 case CEE_CONV_OVF_I:
1113 case CEE_CONV_OVF_U:
1114 ins->type = STACK_PTR;
1115 ins->opcode += ovfops_op_map [src1->type];
1118 case CEE_ADD_OVF_UN:
1120 case CEE_MUL_OVF_UN:
1122 case CEE_SUB_OVF_UN:
1123 ins->type = bin_num_table [src1->type] [src2->type];
1124 ins->opcode += ovfops_op_map [src1->type];
1125 if (ins->type == STACK_R8)
1126 ins->type = STACK_INV;
1128 case OP_LOAD_MEMBASE:
1129 ins->type = STACK_PTR;
1131 case OP_LOADI1_MEMBASE:
1132 case OP_LOADU1_MEMBASE:
1133 case OP_LOADI2_MEMBASE:
1134 case OP_LOADU2_MEMBASE:
1135 case OP_LOADI4_MEMBASE:
1136 case OP_LOADU4_MEMBASE:
1137 ins->type = STACK_PTR;
1139 case OP_LOADI8_MEMBASE:
1140 ins->type = STACK_I8;
1142 case OP_LOADR4_MEMBASE:
1143 ins->type = cfg->r4_stack_type;
1145 case OP_LOADR8_MEMBASE:
1146 ins->type = STACK_R8;
1149 g_error ("opcode 0x%04x not handled in type from op", ins->opcode);
1153 if (ins->type == STACK_MP)
1154 ins->klass = mono_defaults.object_class;
1159 STACK_I4, STACK_I4, STACK_I4, STACK_I4, STACK_I4, STACK_I4, STACK_I8, STACK_PTR, STACK_R8, STACK_R8, STACK_OBJ
1165 param_table [STACK_MAX] [STACK_MAX] = {
1170 check_values_to_signature (MonoInst *args, MonoType *this_ins, MonoMethodSignature *sig)
1175 switch (args->type) {
1185 for (i = 0; i < sig->param_count; ++i) {
1186 switch (args [i].type) {
1190 if (!sig->params [i]->byref)
1194 if (sig->params [i]->byref)
1196 switch (sig->params [i]->type) {
1197 case MONO_TYPE_CLASS:
1198 case MONO_TYPE_STRING:
1199 case MONO_TYPE_OBJECT:
1200 case MONO_TYPE_SZARRAY:
1201 case MONO_TYPE_ARRAY:
1208 if (sig->params [i]->byref)
1210 if (sig->params [i]->type != MONO_TYPE_R4 && sig->params [i]->type != MONO_TYPE_R8)
1219 /*if (!param_table [args [i].type] [sig->params [i]->type])
1227 * When we need a pointer to the current domain many times in a method, we
1228 * call mono_domain_get() once and we store the result in a local variable.
1229 * This function returns the variable that represents the MonoDomain*.
1231 inline static MonoInst *
1232 mono_get_domainvar (MonoCompile *cfg)
1234 if (!cfg->domainvar)
1235 cfg->domainvar = mono_compile_create_var (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL);
1236 return cfg->domainvar;
1240 * The got_var contains the address of the Global Offset Table when AOT
1244 mono_get_got_var (MonoCompile *cfg)
1246 if (!cfg->compile_aot || !cfg->backend->need_got_var)
1248 if (!cfg->got_var) {
1249 cfg->got_var = mono_compile_create_var (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL);
1251 return cfg->got_var;
1255 mono_get_vtable_var (MonoCompile *cfg)
1257 g_assert (cfg->gshared);
1259 if (!cfg->rgctx_var) {
1260 cfg->rgctx_var = mono_compile_create_var (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL);
1261 /* force the var to be stack allocated */
1262 cfg->rgctx_var->flags |= MONO_INST_VOLATILE;
1265 return cfg->rgctx_var;
1269 type_from_stack_type (MonoInst *ins) {
1270 switch (ins->type) {
1271 case STACK_I4: return &mono_defaults.int32_class->byval_arg;
1272 case STACK_I8: return &mono_defaults.int64_class->byval_arg;
1273 case STACK_PTR: return &mono_defaults.int_class->byval_arg;
1274 case STACK_R4: return &mono_defaults.single_class->byval_arg;
1275 case STACK_R8: return &mono_defaults.double_class->byval_arg;
1277 return &ins->klass->this_arg;
1278 case STACK_OBJ: return &mono_defaults.object_class->byval_arg;
1279 case STACK_VTYPE: return &ins->klass->byval_arg;
1281 g_error ("stack type %d to monotype not handled\n", ins->type);
1286 static G_GNUC_UNUSED int
1287 type_to_stack_type (MonoCompile *cfg, MonoType *t)
1289 t = mono_type_get_underlying_type (t);
1301 case MONO_TYPE_FNPTR:
1303 case MONO_TYPE_CLASS:
1304 case MONO_TYPE_STRING:
1305 case MONO_TYPE_OBJECT:
1306 case MONO_TYPE_SZARRAY:
1307 case MONO_TYPE_ARRAY:
1313 return cfg->r4_stack_type;
1316 case MONO_TYPE_VALUETYPE:
1317 case MONO_TYPE_TYPEDBYREF:
1319 case MONO_TYPE_GENERICINST:
1320 if (mono_type_generic_inst_is_valuetype (t))
1326 g_assert_not_reached ();
1333 array_access_to_klass (int opcode)
1337 return mono_defaults.byte_class;
1339 return mono_defaults.uint16_class;
1342 return mono_defaults.int_class;
1345 return mono_defaults.sbyte_class;
1348 return mono_defaults.int16_class;
1351 return mono_defaults.int32_class;
1353 return mono_defaults.uint32_class;
1356 return mono_defaults.int64_class;
1359 return mono_defaults.single_class;
1362 return mono_defaults.double_class;
1363 case CEE_LDELEM_REF:
1364 case CEE_STELEM_REF:
1365 return mono_defaults.object_class;
1367 g_assert_not_reached ();
1373 * We try to share variables when possible
1376 mono_compile_get_interface_var (MonoCompile *cfg, int slot, MonoInst *ins)
1381 /* inlining can result in deeper stacks */
1382 if (slot >= cfg->header->max_stack)
1383 return mono_compile_create_var (cfg, type_from_stack_type (ins), OP_LOCAL);
1385 pos = ins->type - 1 + slot * STACK_MAX;
1387 switch (ins->type) {
1394 if ((vnum = cfg->intvars [pos]))
1395 return cfg->varinfo [vnum];
1396 res = mono_compile_create_var (cfg, type_from_stack_type (ins), OP_LOCAL);
1397 cfg->intvars [pos] = res->inst_c0;
1400 res = mono_compile_create_var (cfg, type_from_stack_type (ins), OP_LOCAL);
1406 mono_save_token_info (MonoCompile *cfg, MonoImage *image, guint32 token, gpointer key)
1409 * Don't use this if a generic_context is set, since that means AOT can't
1410 * look up the method using just the image+token.
1411 * table == 0 means this is a reference made from a wrapper.
1413 if (cfg->compile_aot && !cfg->generic_context && (mono_metadata_token_table (token) > 0)) {
1414 MonoJumpInfoToken *jump_info_token = (MonoJumpInfoToken *)mono_mempool_alloc0 (cfg->mempool, sizeof (MonoJumpInfoToken));
1415 jump_info_token->image = image;
1416 jump_info_token->token = token;
1417 g_hash_table_insert (cfg->token_info_hash, key, jump_info_token);
1422 * This function is called to handle items that are left on the evaluation stack
1423 * at basic block boundaries. What happens is that we save the values to local variables
1424 * and we reload them later when first entering the target basic block (with the
1425 * handle_loaded_temps () function).
1426 * A single joint point will use the same variables (stored in the array bb->out_stack or
1427 * bb->in_stack, if the basic block is before or after the joint point).
1429 * This function needs to be called _before_ emitting the last instruction of
1430 * the bb (i.e. before emitting a branch).
1431 * If the stack merge fails at a join point, cfg->unverifiable is set.
1434 handle_stack_args (MonoCompile *cfg, MonoInst **sp, int count)
1437 MonoBasicBlock *bb = cfg->cbb;
1438 MonoBasicBlock *outb;
1439 MonoInst *inst, **locals;
1444 if (cfg->verbose_level > 3)
1445 printf ("%d item(s) on exit from B%d\n", count, bb->block_num);
1446 if (!bb->out_scount) {
1447 bb->out_scount = count;
1448 //printf ("bblock %d has out:", bb->block_num);
1450 for (i = 0; i < bb->out_count; ++i) {
1451 outb = bb->out_bb [i];
1452 /* exception handlers are linked, but they should not be considered for stack args */
1453 if (outb->flags & BB_EXCEPTION_HANDLER)
1455 //printf (" %d", outb->block_num);
1456 if (outb->in_stack) {
1458 bb->out_stack = outb->in_stack;
1464 bb->out_stack = (MonoInst **)mono_mempool_alloc (cfg->mempool, sizeof (MonoInst*) * count);
1465 for (i = 0; i < count; ++i) {
1467 * try to reuse temps already allocated for this purpouse, if they occupy the same
1468 * stack slot and if they are of the same type.
1469 * This won't cause conflicts since if 'local' is used to
1470 * store one of the values in the in_stack of a bblock, then
1471 * the same variable will be used for the same outgoing stack
1473 * This doesn't work when inlining methods, since the bblocks
1474 * in the inlined methods do not inherit their in_stack from
1475 * the bblock they are inlined to. See bug #58863 for an
1478 if (cfg->inlined_method)
1479 bb->out_stack [i] = mono_compile_create_var (cfg, type_from_stack_type (sp [i]), OP_LOCAL);
1481 bb->out_stack [i] = mono_compile_get_interface_var (cfg, i, sp [i]);
1486 for (i = 0; i < bb->out_count; ++i) {
1487 outb = bb->out_bb [i];
1488 /* exception handlers are linked, but they should not be considered for stack args */
1489 if (outb->flags & BB_EXCEPTION_HANDLER)
1491 if (outb->in_scount) {
1492 if (outb->in_scount != bb->out_scount) {
1493 cfg->unverifiable = TRUE;
1496 continue; /* check they are the same locals */
1498 outb->in_scount = count;
1499 outb->in_stack = bb->out_stack;
1502 locals = bb->out_stack;
1504 for (i = 0; i < count; ++i) {
1505 EMIT_NEW_TEMPSTORE (cfg, inst, locals [i]->inst_c0, sp [i]);
1506 inst->cil_code = sp [i]->cil_code;
1507 sp [i] = locals [i];
1508 if (cfg->verbose_level > 3)
1509 printf ("storing %d to temp %d\n", i, (int)locals [i]->inst_c0);
1513 * It is possible that the out bblocks already have in_stack assigned, and
1514 * the in_stacks differ. In this case, we will store to all the different
1521 /* Find a bblock which has a different in_stack */
1523 while (bindex < bb->out_count) {
1524 outb = bb->out_bb [bindex];
1525 /* exception handlers are linked, but they should not be considered for stack args */
1526 if (outb->flags & BB_EXCEPTION_HANDLER) {
1530 if (outb->in_stack != locals) {
1531 for (i = 0; i < count; ++i) {
1532 EMIT_NEW_TEMPSTORE (cfg, inst, outb->in_stack [i]->inst_c0, sp [i]);
1533 inst->cil_code = sp [i]->cil_code;
1534 sp [i] = locals [i];
1535 if (cfg->verbose_level > 3)
1536 printf ("storing %d to temp %d\n", i, (int)outb->in_stack [i]->inst_c0);
1538 locals = outb->in_stack;
1548 emit_runtime_constant (MonoCompile *cfg, MonoJumpInfoType patch_type, gpointer data)
1552 if (cfg->compile_aot) {
1553 EMIT_NEW_AOTCONST (cfg, ins, patch_type, data);
1559 ji.type = patch_type;
1560 ji.data.target = data;
1561 target = mono_resolve_patch_target (NULL, cfg->domain, NULL, &ji, FALSE, &error);
1562 mono_error_assert_ok (&error);
1564 EMIT_NEW_PCONST (cfg, ins, target);
1570 mini_emit_interface_bitmap_check (MonoCompile *cfg, int intf_bit_reg, int base_reg, int offset, MonoClass *klass)
1572 int ibitmap_reg = alloc_preg (cfg);
1573 #ifdef COMPRESSED_INTERFACE_BITMAP
1575 MonoInst *res, *ins;
1576 NEW_LOAD_MEMBASE (cfg, ins, OP_LOAD_MEMBASE, ibitmap_reg, base_reg, offset);
1577 MONO_ADD_INS (cfg->cbb, ins);
1579 args [1] = emit_runtime_constant (cfg, MONO_PATCH_INFO_IID, klass);
1580 res = mono_emit_jit_icall (cfg, mono_class_interface_match, args);
1581 MONO_EMIT_NEW_UNALU (cfg, OP_MOVE, intf_bit_reg, res->dreg);
1583 int ibitmap_byte_reg = alloc_preg (cfg);
1585 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, ibitmap_reg, base_reg, offset);
1587 if (cfg->compile_aot) {
1588 int iid_reg = alloc_preg (cfg);
1589 int shifted_iid_reg = alloc_preg (cfg);
1590 int ibitmap_byte_address_reg = alloc_preg (cfg);
1591 int masked_iid_reg = alloc_preg (cfg);
1592 int iid_one_bit_reg = alloc_preg (cfg);
1593 int iid_bit_reg = alloc_preg (cfg);
1594 MONO_EMIT_NEW_AOTCONST (cfg, iid_reg, klass, MONO_PATCH_INFO_IID);
1595 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_SHR_IMM, shifted_iid_reg, iid_reg, 3);
1596 MONO_EMIT_NEW_BIALU (cfg, OP_PADD, ibitmap_byte_address_reg, ibitmap_reg, shifted_iid_reg);
1597 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADU1_MEMBASE, ibitmap_byte_reg, ibitmap_byte_address_reg, 0);
1598 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_IAND_IMM, masked_iid_reg, iid_reg, 7);
1599 MONO_EMIT_NEW_ICONST (cfg, iid_one_bit_reg, 1);
1600 MONO_EMIT_NEW_BIALU (cfg, OP_ISHL, iid_bit_reg, iid_one_bit_reg, masked_iid_reg);
1601 MONO_EMIT_NEW_BIALU (cfg, OP_IAND, intf_bit_reg, ibitmap_byte_reg, iid_bit_reg);
1603 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI1_MEMBASE, ibitmap_byte_reg, ibitmap_reg, klass->interface_id >> 3);
1604 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_AND_IMM, intf_bit_reg, ibitmap_byte_reg, 1 << (klass->interface_id & 7));
1610 * Emit code which loads into "intf_bit_reg" a nonzero value if the MonoClass
1611 * stored in "klass_reg" implements the interface "klass".
1614 mini_emit_load_intf_bit_reg_class (MonoCompile *cfg, int intf_bit_reg, int klass_reg, MonoClass *klass)
1616 mini_emit_interface_bitmap_check (cfg, intf_bit_reg, klass_reg, MONO_STRUCT_OFFSET (MonoClass, interface_bitmap), klass);
1620 * Emit code which loads into "intf_bit_reg" a nonzero value if the MonoVTable
1621 * stored in "vtable_reg" implements the interface "klass".
1624 mini_emit_load_intf_bit_reg_vtable (MonoCompile *cfg, int intf_bit_reg, int vtable_reg, MonoClass *klass)
1626 mini_emit_interface_bitmap_check (cfg, intf_bit_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, interface_bitmap), klass);
1630 * Emit code which checks whenever the interface id of @klass is smaller than
1631 * than the value given by max_iid_reg.
1634 mini_emit_max_iid_check (MonoCompile *cfg, int max_iid_reg, MonoClass *klass,
1635 MonoBasicBlock *false_target)
1637 if (cfg->compile_aot) {
1638 int iid_reg = alloc_preg (cfg);
1639 MONO_EMIT_NEW_AOTCONST (cfg, iid_reg, klass, MONO_PATCH_INFO_IID);
1640 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, max_iid_reg, iid_reg);
1643 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, max_iid_reg, klass->interface_id);
1645 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBLT_UN, false_target);
1647 MONO_EMIT_NEW_COND_EXC (cfg, LT_UN, "InvalidCastException");
1650 /* Same as above, but obtains max_iid from a vtable */
1652 mini_emit_max_iid_check_vtable (MonoCompile *cfg, int vtable_reg, MonoClass *klass,
1653 MonoBasicBlock *false_target)
1655 int max_iid_reg = alloc_preg (cfg);
1657 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADU2_MEMBASE, max_iid_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, max_interface_id));
1658 mini_emit_max_iid_check (cfg, max_iid_reg, klass, false_target);
1661 /* Same as above, but obtains max_iid from a klass */
1663 mini_emit_max_iid_check_class (MonoCompile *cfg, int klass_reg, MonoClass *klass,
1664 MonoBasicBlock *false_target)
1666 int max_iid_reg = alloc_preg (cfg);
1668 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADU2_MEMBASE, max_iid_reg, klass_reg, MONO_STRUCT_OFFSET (MonoClass, max_interface_id));
1669 mini_emit_max_iid_check (cfg, max_iid_reg, klass, false_target);
1673 mini_emit_isninst_cast_inst (MonoCompile *cfg, int klass_reg, MonoClass *klass, MonoInst *klass_ins, MonoBasicBlock *false_target, MonoBasicBlock *true_target)
1675 int idepth_reg = alloc_preg (cfg);
1676 int stypes_reg = alloc_preg (cfg);
1677 int stype = alloc_preg (cfg);
1679 mono_class_setup_supertypes (klass);
1681 if (klass->idepth > MONO_DEFAULT_SUPERTABLE_SIZE) {
1682 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADU2_MEMBASE, idepth_reg, klass_reg, MONO_STRUCT_OFFSET (MonoClass, idepth));
1683 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, idepth_reg, klass->idepth);
1684 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBLT_UN, false_target);
1686 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, stypes_reg, klass_reg, MONO_STRUCT_OFFSET (MonoClass, supertypes));
1687 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, stype, stypes_reg, ((klass->idepth - 1) * SIZEOF_VOID_P));
1689 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, stype, klass_ins->dreg);
1690 } else if (cfg->compile_aot) {
1691 int const_reg = alloc_preg (cfg);
1692 MONO_EMIT_NEW_CLASSCONST (cfg, const_reg, klass);
1693 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, stype, const_reg);
1695 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, stype, klass);
1697 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, true_target);
1701 mini_emit_isninst_cast (MonoCompile *cfg, int klass_reg, MonoClass *klass, MonoBasicBlock *false_target, MonoBasicBlock *true_target)
1703 mini_emit_isninst_cast_inst (cfg, klass_reg, klass, NULL, false_target, true_target);
1707 mini_emit_iface_cast (MonoCompile *cfg, int vtable_reg, MonoClass *klass, MonoBasicBlock *false_target, MonoBasicBlock *true_target)
1709 int intf_reg = alloc_preg (cfg);
1711 mini_emit_max_iid_check_vtable (cfg, vtable_reg, klass, false_target);
1712 mini_emit_load_intf_bit_reg_vtable (cfg, intf_reg, vtable_reg, klass);
1713 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, intf_reg, 0);
1715 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBNE_UN, true_target);
1717 MONO_EMIT_NEW_COND_EXC (cfg, EQ, "InvalidCastException");
1721 * Variant of the above that takes a register to the class, not the vtable.
1724 mini_emit_iface_class_cast (MonoCompile *cfg, int klass_reg, MonoClass *klass, MonoBasicBlock *false_target, MonoBasicBlock *true_target)
1726 int intf_bit_reg = alloc_preg (cfg);
1728 mini_emit_max_iid_check_class (cfg, klass_reg, klass, false_target);
1729 mini_emit_load_intf_bit_reg_class (cfg, intf_bit_reg, klass_reg, klass);
1730 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, intf_bit_reg, 0);
1732 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBNE_UN, true_target);
1734 MONO_EMIT_NEW_COND_EXC (cfg, EQ, "InvalidCastException");
1738 mini_emit_class_check_inst (MonoCompile *cfg, int klass_reg, MonoClass *klass, MonoInst *klass_inst)
1741 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, klass_reg, klass_inst->dreg);
1743 MonoInst *ins = emit_runtime_constant (cfg, MONO_PATCH_INFO_CLASS, klass);
1744 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, klass_reg, ins->dreg);
1746 MONO_EMIT_NEW_COND_EXC (cfg, NE_UN, "InvalidCastException");
1750 mini_emit_class_check (MonoCompile *cfg, int klass_reg, MonoClass *klass)
1752 mini_emit_class_check_inst (cfg, klass_reg, klass, NULL);
1756 mini_emit_class_check_branch (MonoCompile *cfg, int klass_reg, MonoClass *klass, int branch_op, MonoBasicBlock *target)
1758 if (cfg->compile_aot) {
1759 int const_reg = alloc_preg (cfg);
1760 MONO_EMIT_NEW_CLASSCONST (cfg, const_reg, klass);
1761 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, klass_reg, const_reg);
1763 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, klass_reg, klass);
1765 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, branch_op, target);
1769 mini_emit_castclass (MonoCompile *cfg, int obj_reg, int klass_reg, MonoClass *klass, MonoBasicBlock *object_is_null);
1772 mini_emit_castclass_inst (MonoCompile *cfg, int obj_reg, int klass_reg, MonoClass *klass, MonoInst *klass_inst, MonoBasicBlock *object_is_null)
1775 int rank_reg = alloc_preg (cfg);
1776 int eclass_reg = alloc_preg (cfg);
1778 g_assert (!klass_inst);
1779 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADU1_MEMBASE, rank_reg, klass_reg, MONO_STRUCT_OFFSET (MonoClass, rank));
1780 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, rank_reg, klass->rank);
1781 MONO_EMIT_NEW_COND_EXC (cfg, NE_UN, "InvalidCastException");
1782 // MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
1783 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, eclass_reg, klass_reg, MONO_STRUCT_OFFSET (MonoClass, cast_class));
1784 if (klass->cast_class == mono_defaults.object_class) {
1785 int parent_reg = alloc_preg (cfg);
1786 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, parent_reg, eclass_reg, MONO_STRUCT_OFFSET (MonoClass, parent));
1787 mini_emit_class_check_branch (cfg, parent_reg, mono_defaults.enum_class->parent, OP_PBNE_UN, object_is_null);
1788 mini_emit_class_check (cfg, eclass_reg, mono_defaults.enum_class);
1789 } else if (klass->cast_class == mono_defaults.enum_class->parent) {
1790 mini_emit_class_check_branch (cfg, eclass_reg, mono_defaults.enum_class->parent, OP_PBEQ, object_is_null);
1791 mini_emit_class_check (cfg, eclass_reg, mono_defaults.enum_class);
1792 } else if (klass->cast_class == mono_defaults.enum_class) {
1793 mini_emit_class_check (cfg, eclass_reg, mono_defaults.enum_class);
1794 } else if (klass->cast_class->flags & TYPE_ATTRIBUTE_INTERFACE) {
1795 mini_emit_iface_class_cast (cfg, eclass_reg, klass->cast_class, NULL, NULL);
1797 // Pass -1 as obj_reg to skip the check below for arrays of arrays
1798 mini_emit_castclass (cfg, -1, eclass_reg, klass->cast_class, object_is_null);
1801 if ((klass->rank == 1) && (klass->byval_arg.type == MONO_TYPE_SZARRAY) && (obj_reg != -1)) {
1802 /* Check that the object is a vector too */
1803 int bounds_reg = alloc_preg (cfg);
1804 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, bounds_reg, obj_reg, MONO_STRUCT_OFFSET (MonoArray, bounds));
1805 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, bounds_reg, 0);
1806 MONO_EMIT_NEW_COND_EXC (cfg, NE_UN, "InvalidCastException");
1809 int idepth_reg = alloc_preg (cfg);
1810 int stypes_reg = alloc_preg (cfg);
1811 int stype = alloc_preg (cfg);
1813 mono_class_setup_supertypes (klass);
1815 if (klass->idepth > MONO_DEFAULT_SUPERTABLE_SIZE) {
1816 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADU2_MEMBASE, idepth_reg, klass_reg, MONO_STRUCT_OFFSET (MonoClass, idepth));
1817 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, idepth_reg, klass->idepth);
1818 MONO_EMIT_NEW_COND_EXC (cfg, LT_UN, "InvalidCastException");
1820 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, stypes_reg, klass_reg, MONO_STRUCT_OFFSET (MonoClass, supertypes));
1821 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, stype, stypes_reg, ((klass->idepth - 1) * SIZEOF_VOID_P));
1822 mini_emit_class_check_inst (cfg, stype, klass, klass_inst);
1827 mini_emit_castclass (MonoCompile *cfg, int obj_reg, int klass_reg, MonoClass *klass, MonoBasicBlock *object_is_null)
1829 mini_emit_castclass_inst (cfg, obj_reg, klass_reg, klass, NULL, object_is_null);
1833 mini_emit_memset (MonoCompile *cfg, int destreg, int offset, int size, int val, int align)
1837 g_assert (val == 0);
1842 if ((size <= SIZEOF_REGISTER) && (size <= align)) {
1845 MONO_EMIT_NEW_STORE_MEMBASE_IMM (cfg, OP_STOREI1_MEMBASE_IMM, destreg, offset, val);
1848 MONO_EMIT_NEW_STORE_MEMBASE_IMM (cfg, OP_STOREI2_MEMBASE_IMM, destreg, offset, val);
1851 MONO_EMIT_NEW_STORE_MEMBASE_IMM (cfg, OP_STOREI4_MEMBASE_IMM, destreg, offset, val);
1853 #if SIZEOF_REGISTER == 8
1855 MONO_EMIT_NEW_STORE_MEMBASE_IMM (cfg, OP_STOREI8_MEMBASE_IMM, destreg, offset, val);
1861 val_reg = alloc_preg (cfg);
1863 if (SIZEOF_REGISTER == 8)
1864 MONO_EMIT_NEW_I8CONST (cfg, val_reg, val);
1866 MONO_EMIT_NEW_ICONST (cfg, val_reg, val);
1869 /* This could be optimized further if neccesary */
1871 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI1_MEMBASE_REG, destreg, offset, val_reg);
1878 if (!cfg->backend->no_unaligned_access && SIZEOF_REGISTER == 8) {
1880 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI4_MEMBASE_REG, destreg, offset, val_reg);
1885 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI8_MEMBASE_REG, destreg, offset, val_reg);
1892 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI4_MEMBASE_REG, destreg, offset, val_reg);
1897 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI2_MEMBASE_REG, destreg, offset, val_reg);
1902 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI1_MEMBASE_REG, destreg, offset, val_reg);
1909 mini_emit_memcpy (MonoCompile *cfg, int destreg, int doffset, int srcreg, int soffset, int size, int align)
1916 /*FIXME arbitrary hack to avoid unbound code expansion.*/
1917 g_assert (size < 10000);
1920 /* This could be optimized further if neccesary */
1922 cur_reg = alloc_preg (cfg);
1923 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI1_MEMBASE, cur_reg, srcreg, soffset);
1924 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI1_MEMBASE_REG, destreg, doffset, cur_reg);
1931 if (!cfg->backend->no_unaligned_access && SIZEOF_REGISTER == 8) {
1933 cur_reg = alloc_preg (cfg);
1934 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI8_MEMBASE, cur_reg, srcreg, soffset);
1935 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI8_MEMBASE_REG, destreg, doffset, cur_reg);
1943 cur_reg = alloc_preg (cfg);
1944 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI4_MEMBASE, cur_reg, srcreg, soffset);
1945 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI4_MEMBASE_REG, destreg, doffset, cur_reg);
1951 cur_reg = alloc_preg (cfg);
1952 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI2_MEMBASE, cur_reg, srcreg, soffset);
1953 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI2_MEMBASE_REG, destreg, doffset, cur_reg);
1959 cur_reg = alloc_preg (cfg);
1960 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI1_MEMBASE, cur_reg, srcreg, soffset);
1961 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI1_MEMBASE_REG, destreg, doffset, cur_reg);
1969 emit_tls_set (MonoCompile *cfg, int sreg1, MonoTlsKey tls_key)
1973 if (cfg->compile_aot) {
1974 EMIT_NEW_TLS_OFFSETCONST (cfg, c, tls_key);
1975 MONO_INST_NEW (cfg, ins, OP_TLS_SET_REG);
1977 ins->sreg2 = c->dreg;
1978 MONO_ADD_INS (cfg->cbb, ins);
1980 MONO_INST_NEW (cfg, ins, OP_TLS_SET);
1982 ins->inst_offset = mini_get_tls_offset (tls_key);
1983 MONO_ADD_INS (cfg->cbb, ins);
1990 * Emit IR to push the current LMF onto the LMF stack.
1993 emit_push_lmf (MonoCompile *cfg)
1996 * Emit IR to push the LMF:
1997 * lmf_addr = <lmf_addr from tls>
1998 * lmf->lmf_addr = lmf_addr
1999 * lmf->prev_lmf = *lmf_addr
2002 int lmf_reg, prev_lmf_reg;
2003 MonoInst *ins, *lmf_ins;
2008 if (cfg->lmf_ir_mono_lmf && mini_tls_get_supported (cfg, TLS_KEY_LMF)) {
2009 /* Load current lmf */
2010 lmf_ins = mono_get_lmf_intrinsic (cfg);
2012 MONO_ADD_INS (cfg->cbb, lmf_ins);
2013 EMIT_NEW_VARLOADA (cfg, ins, cfg->lmf_var, NULL);
2014 lmf_reg = ins->dreg;
2015 /* Save previous_lmf */
2016 EMIT_NEW_STORE_MEMBASE (cfg, ins, OP_STORE_MEMBASE_REG, lmf_reg, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf), lmf_ins->dreg);
2018 emit_tls_set (cfg, lmf_reg, TLS_KEY_LMF);
2021 * Store lmf_addr in a variable, so it can be allocated to a global register.
2023 if (!cfg->lmf_addr_var)
2024 cfg->lmf_addr_var = mono_compile_create_var (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL);
2027 ins = mono_get_jit_tls_intrinsic (cfg);
2029 int jit_tls_dreg = ins->dreg;
2031 MONO_ADD_INS (cfg->cbb, ins);
2032 lmf_reg = alloc_preg (cfg);
2033 EMIT_NEW_BIALU_IMM (cfg, lmf_ins, OP_PADD_IMM, lmf_reg, jit_tls_dreg, MONO_STRUCT_OFFSET (MonoJitTlsData, lmf));
2035 lmf_ins = mono_emit_jit_icall (cfg, mono_get_lmf_addr, NULL);
2038 lmf_ins = mono_get_lmf_addr_intrinsic (cfg);
2040 MONO_ADD_INS (cfg->cbb, lmf_ins);
2043 MonoInst *args [16], *jit_tls_ins, *ins;
2045 /* Inline mono_get_lmf_addr () */
2046 /* jit_tls = pthread_getspecific (mono_jit_tls_id); lmf_addr = &jit_tls->lmf; */
2048 /* Load mono_jit_tls_id */
2049 if (cfg->compile_aot)
2050 EMIT_NEW_AOTCONST (cfg, args [0], MONO_PATCH_INFO_JIT_TLS_ID, NULL);
2052 EMIT_NEW_ICONST (cfg, args [0], mono_jit_tls_id);
2053 /* call pthread_getspecific () */
2054 jit_tls_ins = mono_emit_jit_icall (cfg, pthread_getspecific, args);
2055 /* lmf_addr = &jit_tls->lmf */
2056 EMIT_NEW_BIALU_IMM (cfg, ins, OP_PADD_IMM, cfg->lmf_addr_var->dreg, jit_tls_ins->dreg, MONO_STRUCT_OFFSET (MonoJitTlsData, lmf));
2059 lmf_ins = mono_emit_jit_icall (cfg, mono_get_lmf_addr, NULL);
2063 lmf_ins->dreg = cfg->lmf_addr_var->dreg;
2065 EMIT_NEW_VARLOADA (cfg, ins, cfg->lmf_var, NULL);
2066 lmf_reg = ins->dreg;
2068 prev_lmf_reg = alloc_preg (cfg);
2069 /* Save previous_lmf */
2070 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOAD_MEMBASE, prev_lmf_reg, cfg->lmf_addr_var->dreg, 0);
2071 EMIT_NEW_STORE_MEMBASE (cfg, ins, OP_STORE_MEMBASE_REG, lmf_reg, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf), prev_lmf_reg);
2073 EMIT_NEW_STORE_MEMBASE (cfg, ins, OP_STORE_MEMBASE_REG, cfg->lmf_addr_var->dreg, 0, lmf_reg);
2080 * Emit IR to pop the current LMF from the LMF stack.
2083 emit_pop_lmf (MonoCompile *cfg)
2085 int lmf_reg, lmf_addr_reg, prev_lmf_reg;
2091 EMIT_NEW_VARLOADA (cfg, ins, cfg->lmf_var, NULL);
2092 lmf_reg = ins->dreg;
2094 if (cfg->lmf_ir_mono_lmf && mini_tls_get_supported (cfg, TLS_KEY_LMF)) {
2095 /* Load previous_lmf */
2096 prev_lmf_reg = alloc_preg (cfg);
2097 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOAD_MEMBASE, prev_lmf_reg, lmf_reg, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf));
2099 emit_tls_set (cfg, prev_lmf_reg, TLS_KEY_LMF);
2102 * Emit IR to pop the LMF:
2103 * *(lmf->lmf_addr) = lmf->prev_lmf
2105 /* This could be called before emit_push_lmf () */
2106 if (!cfg->lmf_addr_var)
2107 cfg->lmf_addr_var = mono_compile_create_var (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL);
2108 lmf_addr_reg = cfg->lmf_addr_var->dreg;
2110 prev_lmf_reg = alloc_preg (cfg);
2111 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOAD_MEMBASE, prev_lmf_reg, lmf_reg, MONO_STRUCT_OFFSET (MonoLMF, previous_lmf));
2112 EMIT_NEW_STORE_MEMBASE (cfg, ins, OP_STORE_MEMBASE_REG, lmf_addr_reg, 0, prev_lmf_reg);
2117 emit_instrumentation_call (MonoCompile *cfg, void *func)
2119 MonoInst *iargs [1];
2122 * Avoid instrumenting inlined methods since it can
2123 * distort profiling results.
2125 if (cfg->method != cfg->current_method)
2128 if (cfg->prof_options & MONO_PROFILE_ENTER_LEAVE) {
2129 EMIT_NEW_METHODCONST (cfg, iargs [0], cfg->method);
2130 mono_emit_jit_icall (cfg, func, iargs);
2135 ret_type_to_call_opcode (MonoCompile *cfg, MonoType *type, int calli, int virt)
2138 type = mini_get_underlying_type (type);
2139 switch (type->type) {
2140 case MONO_TYPE_VOID:
2141 return calli? OP_VOIDCALL_REG: virt? OP_VOIDCALL_MEMBASE: OP_VOIDCALL;
2148 return calli? OP_CALL_REG: virt? OP_CALL_MEMBASE: OP_CALL;
2152 case MONO_TYPE_FNPTR:
2153 return calli? OP_CALL_REG: virt? OP_CALL_MEMBASE: OP_CALL;
2154 case MONO_TYPE_CLASS:
2155 case MONO_TYPE_STRING:
2156 case MONO_TYPE_OBJECT:
2157 case MONO_TYPE_SZARRAY:
2158 case MONO_TYPE_ARRAY:
2159 return calli? OP_CALL_REG: virt? OP_CALL_MEMBASE: OP_CALL;
2162 return calli? OP_LCALL_REG: virt? OP_LCALL_MEMBASE: OP_LCALL;
2165 return calli? OP_RCALL_REG: virt? OP_RCALL_MEMBASE: OP_RCALL;
2167 return calli? OP_FCALL_REG: virt? OP_FCALL_MEMBASE: OP_FCALL;
2169 return calli? OP_FCALL_REG: virt? OP_FCALL_MEMBASE: OP_FCALL;
2170 case MONO_TYPE_VALUETYPE:
2171 if (type->data.klass->enumtype) {
2172 type = mono_class_enum_basetype (type->data.klass);
2175 return calli? OP_VCALL_REG: virt? OP_VCALL_MEMBASE: OP_VCALL;
2176 case MONO_TYPE_TYPEDBYREF:
2177 return calli? OP_VCALL_REG: virt? OP_VCALL_MEMBASE: OP_VCALL;
2178 case MONO_TYPE_GENERICINST:
2179 type = &type->data.generic_class->container_class->byval_arg;
2182 case MONO_TYPE_MVAR:
2184 return calli? OP_VCALL_REG: virt? OP_VCALL_MEMBASE: OP_VCALL;
2186 g_error ("unknown type 0x%02x in ret_type_to_call_opcode", type->type);
2191 //XXX this ignores if t is byref
2192 #define MONO_TYPE_IS_PRIMITIVE_SCALAR(t) ((((((t)->type >= MONO_TYPE_BOOLEAN && (t)->type <= MONO_TYPE_U8) || ((t)->type >= MONO_TYPE_I && (t)->type <= MONO_TYPE_U)))))
2195 * target_type_is_incompatible:
2196 * @cfg: MonoCompile context
2198 * Check that the item @arg on the evaluation stack can be stored
2199 * in the target type (can be a local, or field, etc).
2200 * The cfg arg can be used to check if we need verification or just
2203 * Returns: non-0 value if arg can't be stored on a target.
2206 target_type_is_incompatible (MonoCompile *cfg, MonoType *target, MonoInst *arg)
2208 MonoType *simple_type;
2211 if (target->byref) {
2212 /* FIXME: check that the pointed to types match */
2213 if (arg->type == STACK_MP) {
2214 if (cfg->verbose_level) printf ("ok\n");
2215 /* This is needed to handle gshared types + ldaddr. We lower the types so we can handle enums and other typedef-like types. */
2216 MonoClass *target_class_lowered = mono_class_from_mono_type (mini_get_underlying_type (&mono_class_from_mono_type (target)->byval_arg));
2217 MonoClass *source_class_lowered = mono_class_from_mono_type (mini_get_underlying_type (&arg->klass->byval_arg));
2219 /* if the target is native int& or same type */
2220 if (target->type == MONO_TYPE_I || target_class_lowered == source_class_lowered)
2223 /* Both are primitive type byrefs and the source points to a larger type that the destination */
2224 if (MONO_TYPE_IS_PRIMITIVE_SCALAR (&target_class_lowered->byval_arg) && MONO_TYPE_IS_PRIMITIVE_SCALAR (&source_class_lowered->byval_arg) &&
2225 mono_class_instance_size (target_class_lowered) <= mono_class_instance_size (source_class_lowered))
2229 if (arg->type == STACK_PTR)
2234 simple_type = mini_get_underlying_type (target);
2235 switch (simple_type->type) {
2236 case MONO_TYPE_VOID:
2244 if (arg->type != STACK_I4 && arg->type != STACK_PTR)
2248 /* STACK_MP is needed when setting pinned locals */
2249 if (arg->type != STACK_I4 && arg->type != STACK_PTR && arg->type != STACK_MP)
2254 case MONO_TYPE_FNPTR:
2256 * Some opcodes like ldloca returns 'transient pointers' which can be stored in
2257 * in native int. (#688008).
2259 if (arg->type != STACK_I4 && arg->type != STACK_PTR && arg->type != STACK_MP)
2262 case MONO_TYPE_CLASS:
2263 case MONO_TYPE_STRING:
2264 case MONO_TYPE_OBJECT:
2265 case MONO_TYPE_SZARRAY:
2266 case MONO_TYPE_ARRAY:
2267 if (arg->type != STACK_OBJ)
2269 /* FIXME: check type compatibility */
2273 if (arg->type != STACK_I8)
2277 if (arg->type != cfg->r4_stack_type)
2281 if (arg->type != STACK_R8)
2284 case MONO_TYPE_VALUETYPE:
2285 if (arg->type != STACK_VTYPE)
2287 klass = mono_class_from_mono_type (simple_type);
2288 if (klass != arg->klass)
2291 case MONO_TYPE_TYPEDBYREF:
2292 if (arg->type != STACK_VTYPE)
2294 klass = mono_class_from_mono_type (simple_type);
2295 if (klass != arg->klass)
2298 case MONO_TYPE_GENERICINST:
2299 if (mono_type_generic_inst_is_valuetype (simple_type)) {
2300 MonoClass *target_class;
2301 if (arg->type != STACK_VTYPE)
2303 klass = mono_class_from_mono_type (simple_type);
2304 target_class = mono_class_from_mono_type (target);
2305 /* The second cases is needed when doing partial sharing */
2306 if (klass != arg->klass && target_class != arg->klass && target_class != mono_class_from_mono_type (mini_get_underlying_type (&arg->klass->byval_arg)))
2310 if (arg->type != STACK_OBJ)
2312 /* FIXME: check type compatibility */
2316 case MONO_TYPE_MVAR:
2317 g_assert (cfg->gshared);
2318 if (mini_type_var_is_vt (simple_type)) {
2319 if (arg->type != STACK_VTYPE)
2322 if (arg->type != STACK_OBJ)
2327 g_error ("unknown type 0x%02x in target_type_is_incompatible", simple_type->type);
2333 * Prepare arguments for passing to a function call.
2334 * Return a non-zero value if the arguments can't be passed to the given
2336 * The type checks are not yet complete and some conversions may need
2337 * casts on 32 or 64 bit architectures.
2339 * FIXME: implement this using target_type_is_incompatible ()
2342 check_call_signature (MonoCompile *cfg, MonoMethodSignature *sig, MonoInst **args)
2344 MonoType *simple_type;
2348 if (args [0]->type != STACK_OBJ && args [0]->type != STACK_MP && args [0]->type != STACK_PTR)
2352 for (i = 0; i < sig->param_count; ++i) {
2353 if (sig->params [i]->byref) {
2354 if (args [i]->type != STACK_MP && args [i]->type != STACK_PTR)
2358 simple_type = mini_get_underlying_type (sig->params [i]);
2360 switch (simple_type->type) {
2361 case MONO_TYPE_VOID:
2370 if (args [i]->type != STACK_I4 && args [i]->type != STACK_PTR)
2376 case MONO_TYPE_FNPTR:
2377 if (args [i]->type != STACK_I4 && args [i]->type != STACK_PTR && args [i]->type != STACK_MP && args [i]->type != STACK_OBJ)
2380 case MONO_TYPE_CLASS:
2381 case MONO_TYPE_STRING:
2382 case MONO_TYPE_OBJECT:
2383 case MONO_TYPE_SZARRAY:
2384 case MONO_TYPE_ARRAY:
2385 if (args [i]->type != STACK_OBJ)
2390 if (args [i]->type != STACK_I8)
2394 if (args [i]->type != cfg->r4_stack_type)
2398 if (args [i]->type != STACK_R8)
2401 case MONO_TYPE_VALUETYPE:
2402 if (simple_type->data.klass->enumtype) {
2403 simple_type = mono_class_enum_basetype (simple_type->data.klass);
2406 if (args [i]->type != STACK_VTYPE)
2409 case MONO_TYPE_TYPEDBYREF:
2410 if (args [i]->type != STACK_VTYPE)
2413 case MONO_TYPE_GENERICINST:
2414 simple_type = &simple_type->data.generic_class->container_class->byval_arg;
2417 case MONO_TYPE_MVAR:
2419 if (args [i]->type != STACK_VTYPE)
2423 g_error ("unknown type 0x%02x in check_call_signature",
2431 callvirt_to_call (int opcode)
2434 case OP_CALL_MEMBASE:
2436 case OP_VOIDCALL_MEMBASE:
2438 case OP_FCALL_MEMBASE:
2440 case OP_RCALL_MEMBASE:
2442 case OP_VCALL_MEMBASE:
2444 case OP_LCALL_MEMBASE:
2447 g_assert_not_reached ();
2454 callvirt_to_call_reg (int opcode)
2457 case OP_CALL_MEMBASE:
2459 case OP_VOIDCALL_MEMBASE:
2460 return OP_VOIDCALL_REG;
2461 case OP_FCALL_MEMBASE:
2462 return OP_FCALL_REG;
2463 case OP_RCALL_MEMBASE:
2464 return OP_RCALL_REG;
2465 case OP_VCALL_MEMBASE:
2466 return OP_VCALL_REG;
2467 case OP_LCALL_MEMBASE:
2468 return OP_LCALL_REG;
2470 g_assert_not_reached ();
2476 /* Either METHOD or IMT_ARG needs to be set */
2478 emit_imt_argument (MonoCompile *cfg, MonoCallInst *call, MonoMethod *method, MonoInst *imt_arg)
2482 if (COMPILE_LLVM (cfg)) {
2484 method_reg = alloc_preg (cfg);
2485 MONO_EMIT_NEW_UNALU (cfg, OP_MOVE, method_reg, imt_arg->dreg);
2487 MonoInst *ins = emit_runtime_constant (cfg, MONO_PATCH_INFO_METHODCONST, method);
2488 method_reg = ins->dreg;
2492 call->imt_arg_reg = method_reg;
2494 mono_call_inst_add_outarg_reg (cfg, call, method_reg, MONO_ARCH_IMT_REG, FALSE);
2499 method_reg = alloc_preg (cfg);
2500 MONO_EMIT_NEW_UNALU (cfg, OP_MOVE, method_reg, imt_arg->dreg);
2502 MonoInst *ins = emit_runtime_constant (cfg, MONO_PATCH_INFO_METHODCONST, method);
2503 method_reg = ins->dreg;
2506 mono_call_inst_add_outarg_reg (cfg, call, method_reg, MONO_ARCH_IMT_REG, FALSE);
2509 static MonoJumpInfo *
2510 mono_patch_info_new (MonoMemPool *mp, int ip, MonoJumpInfoType type, gconstpointer target)
2512 MonoJumpInfo *ji = (MonoJumpInfo *)mono_mempool_alloc (mp, sizeof (MonoJumpInfo));
2516 ji->data.target = target;
2522 mini_class_check_context_used (MonoCompile *cfg, MonoClass *klass)
2525 return mono_class_check_context_used (klass);
2531 mini_method_check_context_used (MonoCompile *cfg, MonoMethod *method)
2534 return mono_method_check_context_used (method);
2540 * check_method_sharing:
2542 * Check whenever the vtable or an mrgctx needs to be passed when calling CMETHOD.
2545 check_method_sharing (MonoCompile *cfg, MonoMethod *cmethod, gboolean *out_pass_vtable, gboolean *out_pass_mrgctx)
2547 gboolean pass_vtable = FALSE;
2548 gboolean pass_mrgctx = FALSE;
2550 if (((cmethod->flags & METHOD_ATTRIBUTE_STATIC) || cmethod->klass->valuetype) &&
2551 (cmethod->klass->generic_class || cmethod->klass->generic_container)) {
2552 gboolean sharable = FALSE;
2554 if (mono_method_is_generic_sharable_full (cmethod, TRUE, TRUE, TRUE))
2558 * Pass vtable iff target method might
2559 * be shared, which means that sharing
2560 * is enabled for its class and its
2561 * context is sharable (and it's not a
2564 if (sharable && !(mini_method_get_context (cmethod) && mini_method_get_context (cmethod)->method_inst))
2568 if (mini_method_get_context (cmethod) &&
2569 mini_method_get_context (cmethod)->method_inst) {
2570 g_assert (!pass_vtable);
2572 if (mono_method_is_generic_sharable_full (cmethod, TRUE, TRUE, TRUE)) {
2575 if (cfg->gsharedvt && mini_is_gsharedvt_signature (mono_method_signature (cmethod)))
2580 if (out_pass_vtable)
2581 *out_pass_vtable = pass_vtable;
2582 if (out_pass_mrgctx)
2583 *out_pass_mrgctx = pass_mrgctx;
2586 inline static MonoCallInst *
2587 mono_emit_call_args (MonoCompile *cfg, MonoMethodSignature *sig,
2588 MonoInst **args, int calli, int virtual_, int tail, int rgctx, int unbox_trampoline)
2592 #ifdef MONO_ARCH_SOFT_FLOAT_FALLBACK
2600 emit_instrumentation_call (cfg, mono_profiler_method_leave);
2602 MONO_INST_NEW_CALL (cfg, call, OP_TAILCALL);
2604 MONO_INST_NEW_CALL (cfg, call, ret_type_to_call_opcode (cfg, sig->ret, calli, virtual_));
2607 call->signature = sig;
2608 call->rgctx_reg = rgctx;
2609 sig_ret = mini_get_underlying_type (sig->ret);
2611 type_to_eval_stack_type ((cfg), sig_ret, &call->inst);
2614 if (mini_type_is_vtype (sig_ret)) {
2615 call->vret_var = cfg->vret_addr;
2616 //g_assert_not_reached ();
2618 } else if (mini_type_is_vtype (sig_ret)) {
2619 MonoInst *temp = mono_compile_create_var (cfg, sig_ret, OP_LOCAL);
2622 temp->backend.is_pinvoke = sig->pinvoke;
2625 * We use a new opcode OP_OUTARG_VTRETADDR instead of LDADDR for emitting the
2626 * address of return value to increase optimization opportunities.
2627 * Before vtype decomposition, the dreg of the call ins itself represents the
2628 * fact the call modifies the return value. After decomposition, the call will
2629 * be transformed into one of the OP_VOIDCALL opcodes, and the VTRETADDR opcode
2630 * will be transformed into an LDADDR.
2632 MONO_INST_NEW (cfg, loada, OP_OUTARG_VTRETADDR);
2633 loada->dreg = alloc_preg (cfg);
2634 loada->inst_p0 = temp;
2635 /* We reference the call too since call->dreg could change during optimization */
2636 loada->inst_p1 = call;
2637 MONO_ADD_INS (cfg->cbb, loada);
2639 call->inst.dreg = temp->dreg;
2641 call->vret_var = loada;
2642 } else if (!MONO_TYPE_IS_VOID (sig_ret))
2643 call->inst.dreg = alloc_dreg (cfg, (MonoStackType)call->inst.type);
2645 #ifdef MONO_ARCH_SOFT_FLOAT_FALLBACK
2646 if (COMPILE_SOFT_FLOAT (cfg)) {
2648 * If the call has a float argument, we would need to do an r8->r4 conversion using
2649 * an icall, but that cannot be done during the call sequence since it would clobber
2650 * the call registers + the stack. So we do it before emitting the call.
2652 for (i = 0; i < sig->param_count + sig->hasthis; ++i) {
2654 MonoInst *in = call->args [i];
2656 if (i >= sig->hasthis)
2657 t = sig->params [i - sig->hasthis];
2659 t = &mono_defaults.int_class->byval_arg;
2660 t = mono_type_get_underlying_type (t);
2662 if (!t->byref && t->type == MONO_TYPE_R4) {
2663 MonoInst *iargs [1];
2667 conv = mono_emit_jit_icall (cfg, mono_fload_r4_arg, iargs);
2669 /* The result will be in an int vreg */
2670 call->args [i] = conv;
2676 call->need_unbox_trampoline = unbox_trampoline;
2679 if (COMPILE_LLVM (cfg))
2680 mono_llvm_emit_call (cfg, call);
2682 mono_arch_emit_call (cfg, call);
2684 mono_arch_emit_call (cfg, call);
2687 cfg->param_area = MAX (cfg->param_area, call->stack_usage);
2688 cfg->flags |= MONO_CFG_HAS_CALLS;
2694 set_rgctx_arg (MonoCompile *cfg, MonoCallInst *call, int rgctx_reg, MonoInst *rgctx_arg)
2696 mono_call_inst_add_outarg_reg (cfg, call, rgctx_reg, MONO_ARCH_RGCTX_REG, FALSE);
2697 cfg->uses_rgctx_reg = TRUE;
2698 call->rgctx_reg = TRUE;
2700 call->rgctx_arg_reg = rgctx_reg;
2704 inline static MonoInst*
2705 mono_emit_calli (MonoCompile *cfg, MonoMethodSignature *sig, MonoInst **args, MonoInst *addr, MonoInst *imt_arg, MonoInst *rgctx_arg)
2710 gboolean check_sp = FALSE;
2712 if (cfg->check_pinvoke_callconv && cfg->method->wrapper_type == MONO_WRAPPER_MANAGED_TO_NATIVE) {
2713 WrapperInfo *info = mono_marshal_get_wrapper_info (cfg->method);
2715 if (info && info->subtype == WRAPPER_SUBTYPE_PINVOKE)
2720 rgctx_reg = mono_alloc_preg (cfg);
2721 MONO_EMIT_NEW_UNALU (cfg, OP_MOVE, rgctx_reg, rgctx_arg->dreg);
2725 if (!cfg->stack_inbalance_var)
2726 cfg->stack_inbalance_var = mono_compile_create_var (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL);
2728 MONO_INST_NEW (cfg, ins, OP_GET_SP);
2729 ins->dreg = cfg->stack_inbalance_var->dreg;
2730 MONO_ADD_INS (cfg->cbb, ins);
2733 call = mono_emit_call_args (cfg, sig, args, TRUE, FALSE, FALSE, rgctx_arg ? TRUE : FALSE, FALSE);
2735 call->inst.sreg1 = addr->dreg;
2738 emit_imt_argument (cfg, call, NULL, imt_arg);
2740 MONO_ADD_INS (cfg->cbb, (MonoInst*)call);
2745 sp_reg = mono_alloc_preg (cfg);
2747 MONO_INST_NEW (cfg, ins, OP_GET_SP);
2749 MONO_ADD_INS (cfg->cbb, ins);
2751 /* Restore the stack so we don't crash when throwing the exception */
2752 MONO_INST_NEW (cfg, ins, OP_SET_SP);
2753 ins->sreg1 = cfg->stack_inbalance_var->dreg;
2754 MONO_ADD_INS (cfg->cbb, ins);
2756 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, cfg->stack_inbalance_var->dreg, sp_reg);
2757 MONO_EMIT_NEW_COND_EXC (cfg, NE_UN, "ExecutionEngineException");
2761 set_rgctx_arg (cfg, call, rgctx_reg, rgctx_arg);
2763 return (MonoInst*)call;
2767 emit_get_gsharedvt_info_klass (MonoCompile *cfg, MonoClass *klass, MonoRgctxInfoType rgctx_type);
2770 emit_get_rgctx_method (MonoCompile *cfg, int context_used, MonoMethod *cmethod, MonoRgctxInfoType rgctx_type);
2772 emit_get_rgctx_klass (MonoCompile *cfg, int context_used, MonoClass *klass, MonoRgctxInfoType rgctx_type);
2775 mono_emit_method_call_full (MonoCompile *cfg, MonoMethod *method, MonoMethodSignature *sig, gboolean tail,
2776 MonoInst **args, MonoInst *this_ins, MonoInst *imt_arg, MonoInst *rgctx_arg)
2778 #ifndef DISABLE_REMOTING
2779 gboolean might_be_remote = FALSE;
2781 gboolean virtual_ = this_ins != NULL;
2782 gboolean enable_for_aot = TRUE;
2785 MonoInst *call_target = NULL;
2787 gboolean need_unbox_trampoline;
2790 sig = mono_method_signature (method);
2792 if (cfg->llvm_only && (method->klass->flags & TYPE_ATTRIBUTE_INTERFACE))
2793 g_assert_not_reached ();
2796 rgctx_reg = mono_alloc_preg (cfg);
2797 MONO_EMIT_NEW_UNALU (cfg, OP_MOVE, rgctx_reg, rgctx_arg->dreg);
2800 if (method->string_ctor) {
2801 /* Create the real signature */
2802 /* FIXME: Cache these */
2803 MonoMethodSignature *ctor_sig = mono_metadata_signature_dup_mempool (cfg->mempool, sig);
2804 ctor_sig->ret = &mono_defaults.string_class->byval_arg;
2809 context_used = mini_method_check_context_used (cfg, method);
2811 #ifndef DISABLE_REMOTING
2812 might_be_remote = this_ins && sig->hasthis &&
2813 (mono_class_is_marshalbyref (method->klass) || method->klass == mono_defaults.object_class) &&
2814 !(method->flags & METHOD_ATTRIBUTE_VIRTUAL) && (!MONO_CHECK_THIS (this_ins) || context_used);
2816 if (might_be_remote && context_used) {
2819 g_assert (cfg->gshared);
2821 addr = emit_get_rgctx_method (cfg, context_used, method, MONO_RGCTX_INFO_REMOTING_INVOKE_WITH_CHECK);
2823 return mono_emit_calli (cfg, sig, args, addr, NULL, NULL);
2827 if (cfg->llvm_only && !call_target && virtual_ && (method->flags & METHOD_ATTRIBUTE_VIRTUAL))
2828 return emit_llvmonly_virtual_call (cfg, method, sig, 0, args);
2830 need_unbox_trampoline = method->klass == mono_defaults.object_class || (method->klass->flags & TYPE_ATTRIBUTE_INTERFACE);
2832 call = mono_emit_call_args (cfg, sig, args, FALSE, virtual_, tail, rgctx_arg ? TRUE : FALSE, need_unbox_trampoline);
2834 #ifndef DISABLE_REMOTING
2835 if (might_be_remote)
2836 call->method = mono_marshal_get_remoting_invoke_with_check (method);
2839 call->method = method;
2840 call->inst.flags |= MONO_INST_HAS_METHOD;
2841 call->inst.inst_left = this_ins;
2842 call->tail_call = tail;
2845 int vtable_reg, slot_reg, this_reg;
2848 this_reg = this_ins->dreg;
2850 if (!cfg->llvm_only && (method->klass->parent == mono_defaults.multicastdelegate_class) && !strcmp (method->name, "Invoke")) {
2851 MonoInst *dummy_use;
2853 MONO_EMIT_NULL_CHECK (cfg, this_reg);
2855 /* Make a call to delegate->invoke_impl */
2856 call->inst.inst_basereg = this_reg;
2857 call->inst.inst_offset = MONO_STRUCT_OFFSET (MonoDelegate, invoke_impl);
2858 MONO_ADD_INS (cfg->cbb, (MonoInst*)call);
2860 /* We must emit a dummy use here because the delegate trampoline will
2861 replace the 'this' argument with the delegate target making this activation
2862 no longer a root for the delegate.
2863 This is an issue for delegates that target collectible code such as dynamic
2864 methods of GC'able assemblies.
2866 For a test case look into #667921.
2868 FIXME: a dummy use is not the best way to do it as the local register allocator
2869 will put it on a caller save register and spil it around the call.
2870 Ideally, we would either put it on a callee save register or only do the store part.
2872 EMIT_NEW_DUMMY_USE (cfg, dummy_use, args [0]);
2874 return (MonoInst*)call;
2877 if ((!cfg->compile_aot || enable_for_aot) &&
2878 (!(method->flags & METHOD_ATTRIBUTE_VIRTUAL) ||
2879 (MONO_METHOD_IS_FINAL (method) &&
2880 method->wrapper_type != MONO_WRAPPER_REMOTING_INVOKE_WITH_CHECK)) &&
2881 !(mono_class_is_marshalbyref (method->klass) && context_used)) {
2883 * the method is not virtual, we just need to ensure this is not null
2884 * and then we can call the method directly.
2886 #ifndef DISABLE_REMOTING
2887 if (mono_class_is_marshalbyref (method->klass) || method->klass == mono_defaults.object_class) {
2889 * The check above ensures method is not gshared, this is needed since
2890 * gshared methods can't have wrappers.
2892 method = call->method = mono_marshal_get_remoting_invoke_with_check (method);
2896 if (!method->string_ctor)
2897 MONO_EMIT_NEW_CHECK_THIS (cfg, this_reg);
2899 call->inst.opcode = callvirt_to_call (call->inst.opcode);
2900 } else if ((method->flags & METHOD_ATTRIBUTE_VIRTUAL) && MONO_METHOD_IS_FINAL (method)) {
2902 * the method is virtual, but we can statically dispatch since either
2903 * it's class or the method itself are sealed.
2904 * But first we need to ensure it's not a null reference.
2906 MONO_EMIT_NEW_CHECK_THIS (cfg, this_reg);
2908 call->inst.opcode = callvirt_to_call (call->inst.opcode);
2909 } else if (call_target) {
2910 vtable_reg = alloc_preg (cfg);
2911 MONO_EMIT_NEW_LOAD_MEMBASE_FAULT (cfg, vtable_reg, this_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
2913 call->inst.opcode = callvirt_to_call_reg (call->inst.opcode);
2914 call->inst.sreg1 = call_target->dreg;
2915 call->inst.flags &= !MONO_INST_HAS_METHOD;
2917 vtable_reg = alloc_preg (cfg);
2918 MONO_EMIT_NEW_LOAD_MEMBASE_FAULT (cfg, vtable_reg, this_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
2919 if (method->klass->flags & TYPE_ATTRIBUTE_INTERFACE) {
2920 guint32 imt_slot = mono_method_get_imt_slot (method);
2921 emit_imt_argument (cfg, call, call->method, imt_arg);
2922 slot_reg = vtable_reg;
2923 offset = ((gint32)imt_slot - MONO_IMT_SIZE) * SIZEOF_VOID_P;
2925 slot_reg = vtable_reg;
2926 offset = MONO_STRUCT_OFFSET (MonoVTable, vtable) +
2927 ((mono_method_get_vtable_index (method)) * (SIZEOF_VOID_P));
2929 g_assert (mono_method_signature (method)->generic_param_count);
2930 emit_imt_argument (cfg, call, call->method, imt_arg);
2934 call->inst.sreg1 = slot_reg;
2935 call->inst.inst_offset = offset;
2936 call->is_virtual = TRUE;
2940 MONO_ADD_INS (cfg->cbb, (MonoInst*)call);
2943 set_rgctx_arg (cfg, call, rgctx_reg, rgctx_arg);
2945 return (MonoInst*)call;
2949 mono_emit_method_call (MonoCompile *cfg, MonoMethod *method, MonoInst **args, MonoInst *this_ins)
2951 return mono_emit_method_call_full (cfg, method, mono_method_signature (method), FALSE, args, this_ins, NULL, NULL);
2955 mono_emit_native_call (MonoCompile *cfg, gconstpointer func, MonoMethodSignature *sig,
2962 call = mono_emit_call_args (cfg, sig, args, FALSE, FALSE, FALSE, FALSE, FALSE);
2965 MONO_ADD_INS (cfg->cbb, (MonoInst*)call);
2967 return (MonoInst*)call;
2971 mono_emit_jit_icall (MonoCompile *cfg, gconstpointer func, MonoInst **args)
2973 MonoJitICallInfo *info = mono_find_jit_icall_by_addr (func);
2977 return mono_emit_native_call (cfg, mono_icall_get_wrapper (info), info->sig, args);
2981 * mono_emit_abs_call:
2983 * Emit a call to the runtime function described by PATCH_TYPE and DATA.
2985 inline static MonoInst*
2986 mono_emit_abs_call (MonoCompile *cfg, MonoJumpInfoType patch_type, gconstpointer data,
2987 MonoMethodSignature *sig, MonoInst **args)
2989 MonoJumpInfo *ji = mono_patch_info_new (cfg->mempool, 0, patch_type, data);
2993 * We pass ji as the call address, the PATCH_INFO_ABS resolving code will
2996 if (cfg->abs_patches == NULL)
2997 cfg->abs_patches = g_hash_table_new (NULL, NULL);
2998 g_hash_table_insert (cfg->abs_patches, ji, ji);
2999 ins = mono_emit_native_call (cfg, ji, sig, args);
3000 ((MonoCallInst*)ins)->fptr_is_patch = TRUE;
3004 static MonoMethodSignature*
3005 sig_to_rgctx_sig (MonoMethodSignature *sig)
3007 // FIXME: memory allocation
3008 MonoMethodSignature *res;
3011 res = (MonoMethodSignature *)g_malloc (MONO_SIZEOF_METHOD_SIGNATURE + (sig->param_count + 1) * sizeof (MonoType*));
3012 memcpy (res, sig, MONO_SIZEOF_METHOD_SIGNATURE);
3013 res->param_count = sig->param_count + 1;
3014 for (i = 0; i < sig->param_count; ++i)
3015 res->params [i] = sig->params [i];
3016 res->params [sig->param_count] = &mono_defaults.int_class->this_arg;
3020 /* Make an indirect call to FSIG passing an additional argument */
3022 emit_extra_arg_calli (MonoCompile *cfg, MonoMethodSignature *fsig, MonoInst **orig_args, int arg_reg, MonoInst *call_target)
3024 MonoMethodSignature *csig;
3025 MonoInst *args_buf [16];
3027 int i, pindex, tmp_reg;
3029 /* Make a call with an rgctx/extra arg */
3030 if (fsig->param_count + 2 < 16)
3033 args = (MonoInst **)mono_mempool_alloc0 (cfg->mempool, sizeof (MonoInst*) * (fsig->param_count + 2));
3036 args [pindex ++] = orig_args [0];
3037 for (i = 0; i < fsig->param_count; ++i)
3038 args [pindex ++] = orig_args [fsig->hasthis + i];
3039 tmp_reg = alloc_preg (cfg);
3040 EMIT_NEW_UNALU (cfg, args [pindex], OP_MOVE, tmp_reg, arg_reg);
3041 csig = sig_to_rgctx_sig (fsig);
3042 return mono_emit_calli (cfg, csig, args, call_target, NULL, NULL);
3045 /* Emit an indirect call to the function descriptor ADDR */
3047 emit_llvmonly_calli (MonoCompile *cfg, MonoMethodSignature *fsig, MonoInst **args, MonoInst *addr)
3049 int addr_reg, arg_reg;
3050 MonoInst *call_target;
3052 g_assert (cfg->llvm_only);
3055 * addr points to a <addr, arg> pair, load both of them, and
3056 * make a call to addr, passing arg as an extra arg.
3058 addr_reg = alloc_preg (cfg);
3059 EMIT_NEW_LOAD_MEMBASE (cfg, call_target, OP_LOAD_MEMBASE, addr_reg, addr->dreg, 0);
3060 arg_reg = alloc_preg (cfg);
3061 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, arg_reg, addr->dreg, sizeof (gpointer));
3063 return emit_extra_arg_calli (cfg, fsig, args, arg_reg, call_target);
3067 direct_icalls_enabled (MonoCompile *cfg)
3069 /* LLVM on amd64 can't handle calls to non-32 bit addresses */
3071 if (cfg->compile_llvm)
3074 if (cfg->gen_sdb_seq_points || cfg->disable_direct_icalls)
3080 mono_emit_jit_icall_by_info (MonoCompile *cfg, MonoJitICallInfo *info, MonoInst **args)
3083 * Call the jit icall without a wrapper if possible.
3084 * The wrapper is needed for the following reasons:
3085 * - to handle exceptions thrown using mono_raise_exceptions () from the
3086 * icall function. The EH code needs the lmf frame pushed by the
3087 * wrapper to be able to unwind back to managed code.
3088 * - to be able to do stack walks for asynchronously suspended
3089 * threads when debugging.
3091 if (info->no_raise && direct_icalls_enabled (cfg)) {
3095 if (!info->wrapper_method) {
3096 name = g_strdup_printf ("__icall_wrapper_%s", info->name);
3097 info->wrapper_method = mono_marshal_get_icall_wrapper (info->sig, name, info->func, TRUE);
3099 mono_memory_barrier ();
3103 * Inline the wrapper method, which is basically a call to the C icall, and
3104 * an exception check.
3106 costs = inline_method (cfg, info->wrapper_method, NULL,
3107 args, NULL, cfg->real_offset, TRUE);
3108 g_assert (costs > 0);
3109 g_assert (!MONO_TYPE_IS_VOID (info->sig->ret));
3113 return mono_emit_native_call (cfg, mono_icall_get_wrapper (info), info->sig, args);
3118 mono_emit_widen_call_res (MonoCompile *cfg, MonoInst *ins, MonoMethodSignature *fsig)
3120 if (!MONO_TYPE_IS_VOID (fsig->ret)) {
3121 if ((fsig->pinvoke || LLVM_ENABLED) && !fsig->ret->byref) {
3125 * Native code might return non register sized integers
3126 * without initializing the upper bits.
3128 switch (mono_type_to_load_membase (cfg, fsig->ret)) {
3129 case OP_LOADI1_MEMBASE:
3130 widen_op = OP_ICONV_TO_I1;
3132 case OP_LOADU1_MEMBASE:
3133 widen_op = OP_ICONV_TO_U1;
3135 case OP_LOADI2_MEMBASE:
3136 widen_op = OP_ICONV_TO_I2;
3138 case OP_LOADU2_MEMBASE:
3139 widen_op = OP_ICONV_TO_U2;
3145 if (widen_op != -1) {
3146 int dreg = alloc_preg (cfg);
3149 EMIT_NEW_UNALU (cfg, widen, widen_op, dreg, ins->dreg);
3150 widen->type = ins->type;
3160 get_memcpy_method (void)
3162 static MonoMethod *memcpy_method = NULL;
3163 if (!memcpy_method) {
3164 memcpy_method = mono_class_get_method_from_name (mono_defaults.string_class, "memcpy", 3);
3166 g_error ("Old corlib found. Install a new one");
3168 return memcpy_method;
3172 create_write_barrier_bitmap (MonoCompile *cfg, MonoClass *klass, unsigned *wb_bitmap, int offset)
3174 MonoClassField *field;
3175 gpointer iter = NULL;
3177 while ((field = mono_class_get_fields (klass, &iter))) {
3180 if (field->type->attrs & FIELD_ATTRIBUTE_STATIC)
3182 foffset = klass->valuetype ? field->offset - sizeof (MonoObject): field->offset;
3183 if (mini_type_is_reference (mono_field_get_type (field))) {
3184 g_assert ((foffset % SIZEOF_VOID_P) == 0);
3185 *wb_bitmap |= 1 << ((offset + foffset) / SIZEOF_VOID_P);
3187 MonoClass *field_class = mono_class_from_mono_type (field->type);
3188 if (field_class->has_references)
3189 create_write_barrier_bitmap (cfg, field_class, wb_bitmap, offset + foffset);
3195 emit_write_barrier (MonoCompile *cfg, MonoInst *ptr, MonoInst *value)
3197 int card_table_shift_bits;
3198 gpointer card_table_mask;
3200 MonoInst *dummy_use;
3201 int nursery_shift_bits;
3202 size_t nursery_size;
3204 if (!cfg->gen_write_barriers)
3207 card_table = mono_gc_get_card_table (&card_table_shift_bits, &card_table_mask);
3209 mono_gc_get_nursery (&nursery_shift_bits, &nursery_size);
3211 if (cfg->backend->have_card_table_wb && !cfg->compile_aot && card_table && nursery_shift_bits > 0 && !COMPILE_LLVM (cfg)) {
3214 MONO_INST_NEW (cfg, wbarrier, OP_CARD_TABLE_WBARRIER);
3215 wbarrier->sreg1 = ptr->dreg;
3216 wbarrier->sreg2 = value->dreg;
3217 MONO_ADD_INS (cfg->cbb, wbarrier);
3218 } else if (card_table && !cfg->compile_aot && !mono_gc_card_table_nursery_check ()) {
3219 int offset_reg = alloc_preg (cfg);
3223 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_SHR_UN_IMM, offset_reg, ptr->dreg, card_table_shift_bits);
3224 if (card_table_mask)
3225 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_PAND_IMM, offset_reg, offset_reg, card_table_mask);
3227 /*We can't use PADD_IMM since the cardtable might end up in high addresses and amd64 doesn't support
3228 * IMM's larger than 32bits.
3230 ins = emit_runtime_constant (cfg, MONO_PATCH_INFO_GC_CARD_TABLE_ADDR, NULL);
3231 card_reg = ins->dreg;
3233 MONO_EMIT_NEW_BIALU (cfg, OP_PADD, offset_reg, offset_reg, card_reg);
3234 MONO_EMIT_NEW_STORE_MEMBASE_IMM (cfg, OP_STOREI1_MEMBASE_IMM, offset_reg, 0, 1);
3236 MonoMethod *write_barrier = mono_gc_get_write_barrier ();
3237 mono_emit_method_call (cfg, write_barrier, &ptr, NULL);
3240 EMIT_NEW_DUMMY_USE (cfg, dummy_use, value);
3244 mono_emit_wb_aware_memcpy (MonoCompile *cfg, MonoClass *klass, MonoInst *iargs[4], int size, int align)
3246 int dest_ptr_reg, tmp_reg, destreg, srcreg, offset;
3247 unsigned need_wb = 0;
3252 /*types with references can't have alignment smaller than sizeof(void*) */
3253 if (align < SIZEOF_VOID_P)
3256 /*This value cannot be bigger than 32 due to the way we calculate the required wb bitmap.*/
3257 if (size > 32 * SIZEOF_VOID_P)
3260 create_write_barrier_bitmap (cfg, klass, &need_wb, 0);
3262 /* We don't unroll more than 5 stores to avoid code bloat. */
3263 if (size > 5 * SIZEOF_VOID_P) {
3264 /*This is harmless and simplify mono_gc_wbarrier_value_copy_bitmap */
3265 size += (SIZEOF_VOID_P - 1);
3266 size &= ~(SIZEOF_VOID_P - 1);
3268 EMIT_NEW_ICONST (cfg, iargs [2], size);
3269 EMIT_NEW_ICONST (cfg, iargs [3], need_wb);
3270 mono_emit_jit_icall (cfg, mono_gc_wbarrier_value_copy_bitmap, iargs);
3274 destreg = iargs [0]->dreg;
3275 srcreg = iargs [1]->dreg;
3278 dest_ptr_reg = alloc_preg (cfg);
3279 tmp_reg = alloc_preg (cfg);
3282 EMIT_NEW_UNALU (cfg, iargs [0], OP_MOVE, dest_ptr_reg, destreg);
3284 while (size >= SIZEOF_VOID_P) {
3285 MonoInst *load_inst;
3286 MONO_INST_NEW (cfg, load_inst, OP_LOAD_MEMBASE);
3287 load_inst->dreg = tmp_reg;
3288 load_inst->inst_basereg = srcreg;
3289 load_inst->inst_offset = offset;
3290 MONO_ADD_INS (cfg->cbb, load_inst);
3292 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREP_MEMBASE_REG, dest_ptr_reg, 0, tmp_reg);
3295 emit_write_barrier (cfg, iargs [0], load_inst);
3297 offset += SIZEOF_VOID_P;
3298 size -= SIZEOF_VOID_P;
3301 /*tmp += sizeof (void*)*/
3302 if (size >= SIZEOF_VOID_P) {
3303 NEW_BIALU_IMM (cfg, iargs [0], OP_PADD_IMM, dest_ptr_reg, dest_ptr_reg, SIZEOF_VOID_P);
3304 MONO_ADD_INS (cfg->cbb, iargs [0]);
3308 /* Those cannot be references since size < sizeof (void*) */
3310 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI4_MEMBASE, tmp_reg, srcreg, offset);
3311 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI4_MEMBASE_REG, destreg, offset, tmp_reg);
3317 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI2_MEMBASE, tmp_reg, srcreg, offset);
3318 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI2_MEMBASE_REG, destreg, offset, tmp_reg);
3324 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI1_MEMBASE, tmp_reg, srcreg, offset);
3325 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI1_MEMBASE_REG, destreg, offset, tmp_reg);
3334 * Emit code to copy a valuetype of type @klass whose address is stored in
3335 * @src->dreg to memory whose address is stored at @dest->dreg.
3338 mini_emit_stobj (MonoCompile *cfg, MonoInst *dest, MonoInst *src, MonoClass *klass, gboolean native)
3340 MonoInst *iargs [4];
3343 MonoMethod *memcpy_method;
3344 MonoInst *size_ins = NULL;
3345 MonoInst *memcpy_ins = NULL;
3349 klass = mono_class_from_mono_type (mini_get_underlying_type (&klass->byval_arg));
3352 * This check breaks with spilled vars... need to handle it during verification anyway.
3353 * g_assert (klass && klass == src->klass && klass == dest->klass);
3356 if (mini_is_gsharedvt_klass (klass)) {
3358 size_ins = emit_get_gsharedvt_info_klass (cfg, klass, MONO_RGCTX_INFO_VALUE_SIZE);
3359 memcpy_ins = emit_get_gsharedvt_info_klass (cfg, klass, MONO_RGCTX_INFO_MEMCPY);
3363 n = mono_class_native_size (klass, &align);
3365 n = mono_class_value_size (klass, &align);
3367 /* if native is true there should be no references in the struct */
3368 if (cfg->gen_write_barriers && (klass->has_references || size_ins) && !native) {
3369 /* Avoid barriers when storing to the stack */
3370 if (!((dest->opcode == OP_ADD_IMM && dest->sreg1 == cfg->frame_reg) ||
3371 (dest->opcode == OP_LDADDR))) {
3377 context_used = mini_class_check_context_used (cfg, klass);
3379 /* It's ok to intrinsify under gsharing since shared code types are layout stable. */
3380 if (!size_ins && (cfg->opt & MONO_OPT_INTRINS) && mono_emit_wb_aware_memcpy (cfg, klass, iargs, n, align)) {
3382 } else if (context_used) {
3383 iargs [2] = emit_get_rgctx_klass (cfg, context_used, klass, MONO_RGCTX_INFO_KLASS);
3385 iargs [2] = emit_runtime_constant (cfg, MONO_PATCH_INFO_CLASS, klass);
3386 if (!cfg->compile_aot)
3387 mono_class_compute_gc_descriptor (klass);
3391 mono_emit_jit_icall (cfg, mono_gsharedvt_value_copy, iargs);
3393 mono_emit_jit_icall (cfg, mono_value_copy, iargs);
3398 if (!size_ins && (cfg->opt & MONO_OPT_INTRINS) && n <= sizeof (gpointer) * 8) {
3399 /* FIXME: Optimize the case when src/dest is OP_LDADDR */
3400 mini_emit_memcpy (cfg, dest->dreg, 0, src->dreg, 0, n, align);
3405 iargs [2] = size_ins;
3407 EMIT_NEW_ICONST (cfg, iargs [2], n);
3409 memcpy_method = get_memcpy_method ();
3411 mono_emit_calli (cfg, mono_method_signature (memcpy_method), iargs, memcpy_ins, NULL, NULL);
3413 mono_emit_method_call (cfg, memcpy_method, iargs, NULL);
3418 get_memset_method (void)
3420 static MonoMethod *memset_method = NULL;
3421 if (!memset_method) {
3422 memset_method = mono_class_get_method_from_name (mono_defaults.string_class, "memset", 3);
3424 g_error ("Old corlib found. Install a new one");
3426 return memset_method;
3430 mini_emit_initobj (MonoCompile *cfg, MonoInst *dest, const guchar *ip, MonoClass *klass)
3432 MonoInst *iargs [3];
3435 MonoMethod *memset_method;
3436 MonoInst *size_ins = NULL;
3437 MonoInst *bzero_ins = NULL;
3438 static MonoMethod *bzero_method;
3440 /* FIXME: Optimize this for the case when dest is an LDADDR */
3441 mono_class_init (klass);
3442 if (mini_is_gsharedvt_klass (klass)) {
3443 size_ins = emit_get_gsharedvt_info_klass (cfg, klass, MONO_RGCTX_INFO_VALUE_SIZE);
3444 bzero_ins = emit_get_gsharedvt_info_klass (cfg, klass, MONO_RGCTX_INFO_BZERO);
3446 bzero_method = mono_class_get_method_from_name (mono_defaults.string_class, "bzero_aligned_1", 2);
3447 g_assert (bzero_method);
3449 iargs [1] = size_ins;
3450 mono_emit_calli (cfg, mono_method_signature (bzero_method), iargs, bzero_ins, NULL, NULL);
3454 klass = mono_class_from_mono_type (mini_get_underlying_type (&klass->byval_arg));
3456 n = mono_class_value_size (klass, &align);
3458 if (n <= sizeof (gpointer) * 8) {
3459 mini_emit_memset (cfg, dest->dreg, 0, n, 0, align);
3462 memset_method = get_memset_method ();
3464 EMIT_NEW_ICONST (cfg, iargs [1], 0);
3465 EMIT_NEW_ICONST (cfg, iargs [2], n);
3466 mono_emit_method_call (cfg, memset_method, iargs, NULL);
3473 * Emit IR to return either the this pointer for instance method,
3474 * or the mrgctx for static methods.
3477 emit_get_rgctx (MonoCompile *cfg, MonoMethod *method, int context_used)
3479 MonoInst *this_ins = NULL;
3481 g_assert (cfg->gshared);
3483 if (!(method->flags & METHOD_ATTRIBUTE_STATIC) &&
3484 !(context_used & MONO_GENERIC_CONTEXT_USED_METHOD) &&
3485 !method->klass->valuetype)
3486 EMIT_NEW_ARGLOAD (cfg, this_ins, 0);
3488 if (context_used & MONO_GENERIC_CONTEXT_USED_METHOD) {
3489 MonoInst *mrgctx_loc, *mrgctx_var;
3491 g_assert (!this_ins);
3492 g_assert (method->is_inflated && mono_method_get_context (method)->method_inst);
3494 mrgctx_loc = mono_get_vtable_var (cfg);
3495 EMIT_NEW_TEMPLOAD (cfg, mrgctx_var, mrgctx_loc->inst_c0);
3498 } else if (method->flags & METHOD_ATTRIBUTE_STATIC || method->klass->valuetype) {
3499 MonoInst *vtable_loc, *vtable_var;
3501 g_assert (!this_ins);
3503 vtable_loc = mono_get_vtable_var (cfg);
3504 EMIT_NEW_TEMPLOAD (cfg, vtable_var, vtable_loc->inst_c0);
3506 if (method->is_inflated && mono_method_get_context (method)->method_inst) {
3507 MonoInst *mrgctx_var = vtable_var;
3510 vtable_reg = alloc_preg (cfg);
3511 EMIT_NEW_LOAD_MEMBASE (cfg, vtable_var, OP_LOAD_MEMBASE, vtable_reg, mrgctx_var->dreg, MONO_STRUCT_OFFSET (MonoMethodRuntimeGenericContext, class_vtable));
3512 vtable_var->type = STACK_PTR;
3520 vtable_reg = alloc_preg (cfg);
3521 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOAD_MEMBASE, vtable_reg, this_ins->dreg, MONO_STRUCT_OFFSET (MonoObject, vtable));
3526 static MonoJumpInfoRgctxEntry *
3527 mono_patch_info_rgctx_entry_new (MonoMemPool *mp, MonoMethod *method, gboolean in_mrgctx, MonoJumpInfoType patch_type, gconstpointer patch_data, MonoRgctxInfoType info_type)
3529 MonoJumpInfoRgctxEntry *res = (MonoJumpInfoRgctxEntry *)mono_mempool_alloc0 (mp, sizeof (MonoJumpInfoRgctxEntry));
3530 res->method = method;
3531 res->in_mrgctx = in_mrgctx;
3532 res->data = (MonoJumpInfo *)mono_mempool_alloc0 (mp, sizeof (MonoJumpInfo));
3533 res->data->type = patch_type;
3534 res->data->data.target = patch_data;
3535 res->info_type = info_type;
3540 static inline MonoInst*
3541 emit_rgctx_fetch_inline (MonoCompile *cfg, MonoInst *rgctx, MonoJumpInfoRgctxEntry *entry)
3543 MonoInst *args [16];
3546 // FIXME: No fastpath since the slot is not a compile time constant
3548 EMIT_NEW_AOTCONST (cfg, args [1], MONO_PATCH_INFO_RGCTX_SLOT_INDEX, entry);
3549 if (entry->in_mrgctx)
3550 call = mono_emit_jit_icall (cfg, mono_fill_method_rgctx, args);
3552 call = mono_emit_jit_icall (cfg, mono_fill_class_rgctx, args);
3556 * FIXME: This can be called during decompose, which is a problem since it creates
3558 * Also, the fastpath doesn't work since the slot number is dynamically allocated.
3560 int i, slot, depth, index, rgctx_reg, val_reg, res_reg;
3562 MonoBasicBlock *is_null_bb, *end_bb;
3563 MonoInst *res, *ins, *call;
3566 slot = mini_get_rgctx_entry_slot (entry);
3568 mrgctx = MONO_RGCTX_SLOT_IS_MRGCTX (slot);
3569 index = MONO_RGCTX_SLOT_INDEX (slot);
3571 index += MONO_SIZEOF_METHOD_RUNTIME_GENERIC_CONTEXT / sizeof (gpointer);
3572 for (depth = 0; ; ++depth) {
3573 int size = mono_class_rgctx_get_array_size (depth, mrgctx);
3575 if (index < size - 1)
3580 NEW_BBLOCK (cfg, end_bb);
3581 NEW_BBLOCK (cfg, is_null_bb);
3584 rgctx_reg = rgctx->dreg;
3586 rgctx_reg = alloc_preg (cfg);
3588 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, rgctx_reg, rgctx->dreg, MONO_STRUCT_OFFSET (MonoVTable, runtime_generic_context));
3589 // FIXME: Avoid this check by allocating the table when the vtable is created etc.
3590 NEW_BBLOCK (cfg, is_null_bb);
3592 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, rgctx_reg, 0);
3593 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, is_null_bb);
3596 for (i = 0; i < depth; ++i) {
3597 int array_reg = alloc_preg (cfg);
3599 /* load ptr to next array */
3600 if (mrgctx && i == 0)
3601 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, array_reg, rgctx_reg, MONO_SIZEOF_METHOD_RUNTIME_GENERIC_CONTEXT);
3603 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, array_reg, rgctx_reg, 0);
3604 rgctx_reg = array_reg;
3605 /* is the ptr null? */
3606 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, rgctx_reg, 0);
3607 /* if yes, jump to actual trampoline */
3608 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, is_null_bb);
3612 val_reg = alloc_preg (cfg);
3613 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, val_reg, rgctx_reg, (index + 1) * sizeof (gpointer));
3614 /* is the slot null? */
3615 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, val_reg, 0);
3616 /* if yes, jump to actual trampoline */
3617 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, is_null_bb);
3620 res_reg = alloc_preg (cfg);
3621 MONO_INST_NEW (cfg, ins, OP_MOVE);
3622 ins->dreg = res_reg;
3623 ins->sreg1 = val_reg;
3624 MONO_ADD_INS (cfg->cbb, ins);
3626 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
3629 MONO_START_BB (cfg, is_null_bb);
3631 EMIT_NEW_ICONST (cfg, args [1], index);
3633 call = mono_emit_jit_icall (cfg, mono_fill_method_rgctx, args);
3635 call = mono_emit_jit_icall (cfg, mono_fill_class_rgctx, args);
3636 MONO_INST_NEW (cfg, ins, OP_MOVE);
3637 ins->dreg = res_reg;
3638 ins->sreg1 = call->dreg;
3639 MONO_ADD_INS (cfg->cbb, ins);
3640 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
3642 MONO_START_BB (cfg, end_bb);
3651 * Emit IR to load the value of the rgctx entry ENTRY from the rgctx
3654 static inline MonoInst*
3655 emit_rgctx_fetch (MonoCompile *cfg, MonoInst *rgctx, MonoJumpInfoRgctxEntry *entry)
3658 return emit_rgctx_fetch_inline (cfg, rgctx, entry);
3660 return mono_emit_abs_call (cfg, MONO_PATCH_INFO_RGCTX_FETCH, entry, helper_sig_rgctx_lazy_fetch_trampoline, &rgctx);
3664 emit_get_rgctx_klass (MonoCompile *cfg, int context_used,
3665 MonoClass *klass, MonoRgctxInfoType rgctx_type)
3667 MonoJumpInfoRgctxEntry *entry = mono_patch_info_rgctx_entry_new (cfg->mempool, cfg->current_method, context_used & MONO_GENERIC_CONTEXT_USED_METHOD, MONO_PATCH_INFO_CLASS, klass, rgctx_type);
3668 MonoInst *rgctx = emit_get_rgctx (cfg, cfg->current_method, context_used);
3670 return emit_rgctx_fetch (cfg, rgctx, entry);
3674 emit_get_rgctx_sig (MonoCompile *cfg, int context_used,
3675 MonoMethodSignature *sig, MonoRgctxInfoType rgctx_type)
3677 MonoJumpInfoRgctxEntry *entry = mono_patch_info_rgctx_entry_new (cfg->mempool, cfg->current_method, context_used & MONO_GENERIC_CONTEXT_USED_METHOD, MONO_PATCH_INFO_SIGNATURE, sig, rgctx_type);
3678 MonoInst *rgctx = emit_get_rgctx (cfg, cfg->current_method, context_used);
3680 return emit_rgctx_fetch (cfg, rgctx, entry);
3684 emit_get_rgctx_gsharedvt_call (MonoCompile *cfg, int context_used,
3685 MonoMethodSignature *sig, MonoMethod *cmethod, MonoRgctxInfoType rgctx_type)
3687 MonoJumpInfoGSharedVtCall *call_info;
3688 MonoJumpInfoRgctxEntry *entry;
3691 call_info = (MonoJumpInfoGSharedVtCall *)mono_mempool_alloc0 (cfg->mempool, sizeof (MonoJumpInfoGSharedVtCall));
3692 call_info->sig = sig;
3693 call_info->method = cmethod;
3695 entry = mono_patch_info_rgctx_entry_new (cfg->mempool, cfg->current_method, context_used & MONO_GENERIC_CONTEXT_USED_METHOD, MONO_PATCH_INFO_GSHAREDVT_CALL, call_info, rgctx_type);
3696 rgctx = emit_get_rgctx (cfg, cfg->current_method, context_used);
3698 return emit_rgctx_fetch (cfg, rgctx, entry);
3702 * emit_get_rgctx_virt_method:
3704 * Return data for method VIRT_METHOD for a receiver of type KLASS.
3707 emit_get_rgctx_virt_method (MonoCompile *cfg, int context_used,
3708 MonoClass *klass, MonoMethod *virt_method, MonoRgctxInfoType rgctx_type)
3710 MonoJumpInfoVirtMethod *info;
3711 MonoJumpInfoRgctxEntry *entry;
3714 info = (MonoJumpInfoVirtMethod *)mono_mempool_alloc0 (cfg->mempool, sizeof (MonoJumpInfoVirtMethod));
3715 info->klass = klass;
3716 info->method = virt_method;
3718 entry = mono_patch_info_rgctx_entry_new (cfg->mempool, cfg->current_method, context_used & MONO_GENERIC_CONTEXT_USED_METHOD, MONO_PATCH_INFO_VIRT_METHOD, info, rgctx_type);
3719 rgctx = emit_get_rgctx (cfg, cfg->current_method, context_used);
3721 return emit_rgctx_fetch (cfg, rgctx, entry);
3725 emit_get_rgctx_gsharedvt_method (MonoCompile *cfg, int context_used,
3726 MonoMethod *cmethod, MonoGSharedVtMethodInfo *info)
3728 MonoJumpInfoRgctxEntry *entry;
3731 entry = mono_patch_info_rgctx_entry_new (cfg->mempool, cfg->current_method, context_used & MONO_GENERIC_CONTEXT_USED_METHOD, MONO_PATCH_INFO_GSHAREDVT_METHOD, info, MONO_RGCTX_INFO_METHOD_GSHAREDVT_INFO);
3732 rgctx = emit_get_rgctx (cfg, cfg->current_method, context_used);
3734 return emit_rgctx_fetch (cfg, rgctx, entry);
3738 * emit_get_rgctx_method:
3740 * Emit IR to load the property RGCTX_TYPE of CMETHOD. If context_used is 0, emit
3741 * normal constants, else emit a load from the rgctx.
3744 emit_get_rgctx_method (MonoCompile *cfg, int context_used,
3745 MonoMethod *cmethod, MonoRgctxInfoType rgctx_type)
3747 if (!context_used) {
3750 switch (rgctx_type) {
3751 case MONO_RGCTX_INFO_METHOD:
3752 EMIT_NEW_METHODCONST (cfg, ins, cmethod);
3754 case MONO_RGCTX_INFO_METHOD_RGCTX:
3755 EMIT_NEW_METHOD_RGCTX_CONST (cfg, ins, cmethod);
3758 g_assert_not_reached ();
3761 MonoJumpInfoRgctxEntry *entry = mono_patch_info_rgctx_entry_new (cfg->mempool, cfg->current_method, context_used & MONO_GENERIC_CONTEXT_USED_METHOD, MONO_PATCH_INFO_METHODCONST, cmethod, rgctx_type);
3762 MonoInst *rgctx = emit_get_rgctx (cfg, cfg->current_method, context_used);
3764 return emit_rgctx_fetch (cfg, rgctx, entry);
3769 emit_get_rgctx_field (MonoCompile *cfg, int context_used,
3770 MonoClassField *field, MonoRgctxInfoType rgctx_type)
3772 MonoJumpInfoRgctxEntry *entry = mono_patch_info_rgctx_entry_new (cfg->mempool, cfg->current_method, context_used & MONO_GENERIC_CONTEXT_USED_METHOD, MONO_PATCH_INFO_FIELD, field, rgctx_type);
3773 MonoInst *rgctx = emit_get_rgctx (cfg, cfg->current_method, context_used);
3775 return emit_rgctx_fetch (cfg, rgctx, entry);
3779 get_gsharedvt_info_slot (MonoCompile *cfg, gpointer data, MonoRgctxInfoType rgctx_type)
3781 MonoGSharedVtMethodInfo *info = cfg->gsharedvt_info;
3782 MonoRuntimeGenericContextInfoTemplate *template_;
3787 for (i = 0; i < info->num_entries; ++i) {
3788 MonoRuntimeGenericContextInfoTemplate *otemplate = &info->entries [i];
3790 if (otemplate->info_type == rgctx_type && otemplate->data == data && rgctx_type != MONO_RGCTX_INFO_LOCAL_OFFSET)
3794 if (info->num_entries == info->count_entries) {
3795 MonoRuntimeGenericContextInfoTemplate *new_entries;
3796 int new_count_entries = info->count_entries ? info->count_entries * 2 : 16;
3798 new_entries = (MonoRuntimeGenericContextInfoTemplate *)mono_mempool_alloc0 (cfg->mempool, sizeof (MonoRuntimeGenericContextInfoTemplate) * new_count_entries);
3800 memcpy (new_entries, info->entries, sizeof (MonoRuntimeGenericContextInfoTemplate) * info->count_entries);
3801 info->entries = new_entries;
3802 info->count_entries = new_count_entries;
3805 idx = info->num_entries;
3806 template_ = &info->entries [idx];
3807 template_->info_type = rgctx_type;
3808 template_->data = data;
3810 info->num_entries ++;
3816 * emit_get_gsharedvt_info:
3818 * This is similar to emit_get_rgctx_.., but loads the data from the gsharedvt info var instead of calling an rgctx fetch trampoline.
3821 emit_get_gsharedvt_info (MonoCompile *cfg, gpointer data, MonoRgctxInfoType rgctx_type)
3826 idx = get_gsharedvt_info_slot (cfg, data, rgctx_type);
3827 /* Load info->entries [idx] */
3828 dreg = alloc_preg (cfg);
3829 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOAD_MEMBASE, dreg, cfg->gsharedvt_info_var->dreg, MONO_STRUCT_OFFSET (MonoGSharedVtMethodRuntimeInfo, entries) + (idx * sizeof (gpointer)));
3835 emit_get_gsharedvt_info_klass (MonoCompile *cfg, MonoClass *klass, MonoRgctxInfoType rgctx_type)
3837 return emit_get_gsharedvt_info (cfg, &klass->byval_arg, rgctx_type);
3841 * On return the caller must check @klass for load errors.
3844 emit_class_init (MonoCompile *cfg, MonoClass *klass)
3846 MonoInst *vtable_arg;
3849 context_used = mini_class_check_context_used (cfg, klass);
3852 vtable_arg = emit_get_rgctx_klass (cfg, context_used,
3853 klass, MONO_RGCTX_INFO_VTABLE);
3855 MonoVTable *vtable = mono_class_vtable (cfg->domain, klass);
3859 EMIT_NEW_VTABLECONST (cfg, vtable_arg, vtable);
3862 if (!COMPILE_LLVM (cfg) && cfg->backend->have_op_generic_class_init) {
3866 * Using an opcode instead of emitting IR here allows the hiding of the call inside the opcode,
3867 * so this doesn't have to clobber any regs and it doesn't break basic blocks.
3869 MONO_INST_NEW (cfg, ins, OP_GENERIC_CLASS_INIT);
3870 ins->sreg1 = vtable_arg->dreg;
3871 MONO_ADD_INS (cfg->cbb, ins);
3873 static int byte_offset = -1;
3874 static guint8 bitmask;
3875 int bits_reg, inited_reg;
3876 MonoBasicBlock *inited_bb;
3877 MonoInst *args [16];
3879 if (byte_offset < 0)
3880 mono_marshal_find_bitfield_offset (MonoVTable, initialized, &byte_offset, &bitmask);
3882 bits_reg = alloc_ireg (cfg);
3883 inited_reg = alloc_ireg (cfg);
3885 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADU1_MEMBASE, bits_reg, vtable_arg->dreg, byte_offset);
3886 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_IAND_IMM, inited_reg, bits_reg, bitmask);
3888 NEW_BBLOCK (cfg, inited_bb);
3890 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, inited_reg, 0);
3891 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_IBNE_UN, inited_bb);
3893 args [0] = vtable_arg;
3894 mono_emit_jit_icall (cfg, mono_generic_class_init, args);
3896 MONO_START_BB (cfg, inited_bb);
3901 emit_seq_point (MonoCompile *cfg, MonoMethod *method, guint8* ip, gboolean intr_loc, gboolean nonempty_stack)
3905 if (cfg->gen_seq_points && cfg->method == method) {
3906 NEW_SEQ_POINT (cfg, ins, ip - cfg->header->code, intr_loc);
3908 ins->flags |= MONO_INST_NONEMPTY_STACK;
3909 MONO_ADD_INS (cfg->cbb, ins);
3914 save_cast_details (MonoCompile *cfg, MonoClass *klass, int obj_reg, gboolean null_check)
3916 if (mini_get_debug_options ()->better_cast_details) {
3917 int vtable_reg = alloc_preg (cfg);
3918 int klass_reg = alloc_preg (cfg);
3919 MonoBasicBlock *is_null_bb = NULL;
3921 int to_klass_reg, context_used;
3924 NEW_BBLOCK (cfg, is_null_bb);
3926 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, obj_reg, 0);
3927 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, is_null_bb);
3930 tls_get = mono_get_jit_tls_intrinsic (cfg);
3932 fprintf (stderr, "error: --debug=casts not supported on this platform.\n.");
3936 MONO_ADD_INS (cfg->cbb, tls_get);
3937 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, vtable_reg, obj_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
3938 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
3940 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, tls_get->dreg, MONO_STRUCT_OFFSET (MonoJitTlsData, class_cast_from), klass_reg);
3942 context_used = mini_class_check_context_used (cfg, klass);
3944 MonoInst *class_ins;
3946 class_ins = emit_get_rgctx_klass (cfg, context_used, klass, MONO_RGCTX_INFO_KLASS);
3947 to_klass_reg = class_ins->dreg;
3949 to_klass_reg = alloc_preg (cfg);
3950 MONO_EMIT_NEW_CLASSCONST (cfg, to_klass_reg, klass);
3952 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, tls_get->dreg, MONO_STRUCT_OFFSET (MonoJitTlsData, class_cast_to), to_klass_reg);
3955 MONO_START_BB (cfg, is_null_bb);
3960 reset_cast_details (MonoCompile *cfg)
3962 /* Reset the variables holding the cast details */
3963 if (mini_get_debug_options ()->better_cast_details) {
3964 MonoInst *tls_get = mono_get_jit_tls_intrinsic (cfg);
3966 MONO_ADD_INS (cfg->cbb, tls_get);
3967 /* It is enough to reset the from field */
3968 MONO_EMIT_NEW_STORE_MEMBASE_IMM (cfg, OP_STORE_MEMBASE_IMM, tls_get->dreg, MONO_STRUCT_OFFSET (MonoJitTlsData, class_cast_from), 0);
3973 * On return the caller must check @array_class for load errors
3976 mini_emit_check_array_type (MonoCompile *cfg, MonoInst *obj, MonoClass *array_class)
3978 int vtable_reg = alloc_preg (cfg);
3981 context_used = mini_class_check_context_used (cfg, array_class);
3983 save_cast_details (cfg, array_class, obj->dreg, FALSE);
3985 MONO_EMIT_NEW_LOAD_MEMBASE_FAULT (cfg, vtable_reg, obj->dreg, MONO_STRUCT_OFFSET (MonoObject, vtable));
3987 if (cfg->opt & MONO_OPT_SHARED) {
3988 int class_reg = alloc_preg (cfg);
3991 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, class_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
3992 ins = emit_runtime_constant (cfg, MONO_PATCH_INFO_CLASS, array_class);
3993 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, class_reg, ins->dreg);
3994 } else if (context_used) {
3995 MonoInst *vtable_ins;
3997 vtable_ins = emit_get_rgctx_klass (cfg, context_used, array_class, MONO_RGCTX_INFO_VTABLE);
3998 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, vtable_reg, vtable_ins->dreg);
4000 if (cfg->compile_aot) {
4004 if (!(vtable = mono_class_vtable (cfg->domain, array_class)))
4006 vt_reg = alloc_preg (cfg);
4007 MONO_EMIT_NEW_VTABLECONST (cfg, vt_reg, vtable);
4008 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, vtable_reg, vt_reg);
4011 if (!(vtable = mono_class_vtable (cfg->domain, array_class)))
4013 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, vtable_reg, vtable);
4017 MONO_EMIT_NEW_COND_EXC (cfg, NE_UN, "ArrayTypeMismatchException");
4019 reset_cast_details (cfg);
4023 * Handles unbox of a Nullable<T>. If context_used is non zero, then shared
4024 * generic code is generated.
4027 handle_unbox_nullable (MonoCompile* cfg, MonoInst* val, MonoClass* klass, int context_used)
4029 MonoMethod* method = mono_class_get_method_from_name (klass, "Unbox", 1);
4032 MonoInst *rgctx, *addr;
4034 /* FIXME: What if the class is shared? We might not
4035 have to get the address of the method from the
4037 addr = emit_get_rgctx_method (cfg, context_used, method,
4038 MONO_RGCTX_INFO_GENERIC_METHOD_CODE);
4039 if (cfg->llvm_only && cfg->gsharedvt) {
4040 return emit_llvmonly_calli (cfg, mono_method_signature (method), &val, addr);
4042 rgctx = emit_get_rgctx (cfg, cfg->current_method, context_used);
4044 return mono_emit_calli (cfg, mono_method_signature (method), &val, addr, NULL, rgctx);
4047 gboolean pass_vtable, pass_mrgctx;
4048 MonoInst *rgctx_arg = NULL;
4050 check_method_sharing (cfg, method, &pass_vtable, &pass_mrgctx);
4051 g_assert (!pass_mrgctx);
4054 MonoVTable *vtable = mono_class_vtable (cfg->domain, method->klass);
4057 EMIT_NEW_VTABLECONST (cfg, rgctx_arg, vtable);
4060 return mono_emit_method_call_full (cfg, method, NULL, FALSE, &val, NULL, NULL, rgctx_arg);
4065 handle_unbox (MonoCompile *cfg, MonoClass *klass, MonoInst **sp, int context_used)
4069 int vtable_reg = alloc_dreg (cfg ,STACK_PTR);
4070 int klass_reg = alloc_dreg (cfg ,STACK_PTR);
4071 int eclass_reg = alloc_dreg (cfg ,STACK_PTR);
4072 int rank_reg = alloc_dreg (cfg ,STACK_I4);
4074 obj_reg = sp [0]->dreg;
4075 MONO_EMIT_NEW_LOAD_MEMBASE_FAULT (cfg, vtable_reg, obj_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
4076 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADU1_MEMBASE, rank_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, rank));
4078 /* FIXME: generics */
4079 g_assert (klass->rank == 0);
4082 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, rank_reg, 0);
4083 MONO_EMIT_NEW_COND_EXC (cfg, NE_UN, "InvalidCastException");
4085 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
4086 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, eclass_reg, klass_reg, MONO_STRUCT_OFFSET (MonoClass, element_class));
4089 MonoInst *element_class;
4091 /* This assertion is from the unboxcast insn */
4092 g_assert (klass->rank == 0);
4094 element_class = emit_get_rgctx_klass (cfg, context_used,
4095 klass, MONO_RGCTX_INFO_ELEMENT_KLASS);
4097 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, eclass_reg, element_class->dreg);
4098 MONO_EMIT_NEW_COND_EXC (cfg, NE_UN, "InvalidCastException");
4100 save_cast_details (cfg, klass->element_class, obj_reg, FALSE);
4101 mini_emit_class_check (cfg, eclass_reg, klass->element_class);
4102 reset_cast_details (cfg);
4105 NEW_BIALU_IMM (cfg, add, OP_ADD_IMM, alloc_dreg (cfg, STACK_MP), obj_reg, sizeof (MonoObject));
4106 MONO_ADD_INS (cfg->cbb, add);
4107 add->type = STACK_MP;
4114 handle_unbox_gsharedvt (MonoCompile *cfg, MonoClass *klass, MonoInst *obj)
4116 MonoInst *addr, *klass_inst, *is_ref, *args[16];
4117 MonoBasicBlock *is_ref_bb, *is_nullable_bb, *end_bb;
4121 klass_inst = emit_get_gsharedvt_info_klass (cfg, klass, MONO_RGCTX_INFO_KLASS);
4127 args [1] = klass_inst;
4130 obj = mono_emit_jit_icall (cfg, mono_object_castclass_unbox, args);
4132 NEW_BBLOCK (cfg, is_ref_bb);
4133 NEW_BBLOCK (cfg, is_nullable_bb);
4134 NEW_BBLOCK (cfg, end_bb);
4135 is_ref = emit_get_gsharedvt_info_klass (cfg, klass, MONO_RGCTX_INFO_CLASS_BOX_TYPE);
4136 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, is_ref->dreg, MONO_GSHAREDVT_BOX_TYPE_REF);
4137 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_IBEQ, is_ref_bb);
4139 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, is_ref->dreg, MONO_GSHAREDVT_BOX_TYPE_NULLABLE);
4140 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_IBEQ, is_nullable_bb);
4142 /* This will contain either the address of the unboxed vtype, or an address of the temporary where the ref is stored */
4143 addr_reg = alloc_dreg (cfg, STACK_MP);
4147 NEW_BIALU_IMM (cfg, addr, OP_ADD_IMM, addr_reg, obj->dreg, sizeof (MonoObject));
4148 MONO_ADD_INS (cfg->cbb, addr);
4150 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
4153 MONO_START_BB (cfg, is_ref_bb);
4155 /* Save the ref to a temporary */
4156 dreg = alloc_ireg (cfg);
4157 EMIT_NEW_VARLOADA_VREG (cfg, addr, dreg, &klass->byval_arg);
4158 addr->dreg = addr_reg;
4159 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, addr->dreg, 0, obj->dreg);
4160 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
4163 MONO_START_BB (cfg, is_nullable_bb);
4166 MonoInst *addr = emit_get_gsharedvt_info_klass (cfg, klass, MONO_RGCTX_INFO_NULLABLE_CLASS_UNBOX);
4167 MonoInst *unbox_call;
4168 MonoMethodSignature *unbox_sig;
4170 unbox_sig = (MonoMethodSignature *)mono_mempool_alloc0 (cfg->mempool, MONO_SIZEOF_METHOD_SIGNATURE + (1 * sizeof (MonoType *)));
4171 unbox_sig->ret = &klass->byval_arg;
4172 unbox_sig->param_count = 1;
4173 unbox_sig->params [0] = &mono_defaults.object_class->byval_arg;
4176 unbox_call = emit_llvmonly_calli (cfg, unbox_sig, &obj, addr);
4178 unbox_call = mono_emit_calli (cfg, unbox_sig, &obj, addr, NULL, NULL);
4180 EMIT_NEW_VARLOADA_VREG (cfg, addr, unbox_call->dreg, &klass->byval_arg);
4181 addr->dreg = addr_reg;
4184 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
4187 MONO_START_BB (cfg, end_bb);
4190 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, &klass->byval_arg, addr_reg, 0);
4196 * Returns NULL and set the cfg exception on error.
4199 handle_alloc (MonoCompile *cfg, MonoClass *klass, gboolean for_box, int context_used)
4201 MonoInst *iargs [2];
4206 MonoRgctxInfoType rgctx_info;
4207 MonoInst *iargs [2];
4208 gboolean known_instance_size = !mini_is_gsharedvt_klass (klass);
4210 MonoMethod *managed_alloc = mono_gc_get_managed_allocator (klass, for_box, known_instance_size);
4212 if (cfg->opt & MONO_OPT_SHARED)
4213 rgctx_info = MONO_RGCTX_INFO_KLASS;
4215 rgctx_info = MONO_RGCTX_INFO_VTABLE;
4216 data = emit_get_rgctx_klass (cfg, context_used, klass, rgctx_info);
4218 if (cfg->opt & MONO_OPT_SHARED) {
4219 EMIT_NEW_DOMAINCONST (cfg, iargs [0]);
4221 alloc_ftn = ves_icall_object_new;
4224 alloc_ftn = ves_icall_object_new_specific;
4227 if (managed_alloc && !(cfg->opt & MONO_OPT_SHARED)) {
4228 if (known_instance_size) {
4229 int size = mono_class_instance_size (klass);
4230 if (size < sizeof (MonoObject))
4231 g_error ("Invalid size %d for class %s", size, mono_type_get_full_name (klass));
4233 EMIT_NEW_ICONST (cfg, iargs [1], size);
4235 return mono_emit_method_call (cfg, managed_alloc, iargs, NULL);
4238 return mono_emit_jit_icall (cfg, alloc_ftn, iargs);
4241 if (cfg->opt & MONO_OPT_SHARED) {
4242 EMIT_NEW_DOMAINCONST (cfg, iargs [0]);
4243 EMIT_NEW_CLASSCONST (cfg, iargs [1], klass);
4245 alloc_ftn = ves_icall_object_new;
4246 } else if (cfg->compile_aot && cfg->cbb->out_of_line && klass->type_token && klass->image == mono_defaults.corlib && !klass->generic_class) {
4247 /* This happens often in argument checking code, eg. throw new FooException... */
4248 /* Avoid relocations and save some space by calling a helper function specialized to mscorlib */
4249 EMIT_NEW_ICONST (cfg, iargs [0], mono_metadata_token_index (klass->type_token));
4250 return mono_emit_jit_icall (cfg, mono_helper_newobj_mscorlib, iargs);
4252 MonoVTable *vtable = mono_class_vtable (cfg->domain, klass);
4253 MonoMethod *managed_alloc = NULL;
4257 mono_cfg_set_exception (cfg, MONO_EXCEPTION_TYPE_LOAD);
4258 cfg->exception_ptr = klass;
4262 managed_alloc = mono_gc_get_managed_allocator (klass, for_box, TRUE);
4264 if (managed_alloc) {
4265 int size = mono_class_instance_size (klass);
4266 if (size < sizeof (MonoObject))
4267 g_error ("Invalid size %d for class %s", size, mono_type_get_full_name (klass));
4269 EMIT_NEW_VTABLECONST (cfg, iargs [0], vtable);
4270 EMIT_NEW_ICONST (cfg, iargs [1], size);
4271 return mono_emit_method_call (cfg, managed_alloc, iargs, NULL);
4273 alloc_ftn = mono_class_get_allocation_ftn (vtable, for_box, &pass_lw);
4275 guint32 lw = vtable->klass->instance_size;
4276 lw = ((lw + (sizeof (gpointer) - 1)) & ~(sizeof (gpointer) - 1)) / sizeof (gpointer);
4277 EMIT_NEW_ICONST (cfg, iargs [0], lw);
4278 EMIT_NEW_VTABLECONST (cfg, iargs [1], vtable);
4281 EMIT_NEW_VTABLECONST (cfg, iargs [0], vtable);
4285 return mono_emit_jit_icall (cfg, alloc_ftn, iargs);
4289 * Returns NULL and set the cfg exception on error.
4292 handle_box (MonoCompile *cfg, MonoInst *val, MonoClass *klass, int context_used)
4294 MonoInst *alloc, *ins;
4296 if (mono_class_is_nullable (klass)) {
4297 MonoMethod* method = mono_class_get_method_from_name (klass, "Box", 1);
4300 if (cfg->llvm_only && cfg->gsharedvt) {
4301 MonoInst *addr = emit_get_rgctx_method (cfg, context_used, method,
4302 MONO_RGCTX_INFO_GENERIC_METHOD_CODE);
4303 return emit_llvmonly_calli (cfg, mono_method_signature (method), &val, addr);
4305 /* FIXME: What if the class is shared? We might not
4306 have to get the method address from the RGCTX. */
4307 MonoInst *addr = emit_get_rgctx_method (cfg, context_used, method,
4308 MONO_RGCTX_INFO_GENERIC_METHOD_CODE);
4309 MonoInst *rgctx = emit_get_rgctx (cfg, cfg->current_method, context_used);
4311 return mono_emit_calli (cfg, mono_method_signature (method), &val, addr, NULL, rgctx);
4314 gboolean pass_vtable, pass_mrgctx;
4315 MonoInst *rgctx_arg = NULL;
4317 check_method_sharing (cfg, method, &pass_vtable, &pass_mrgctx);
4318 g_assert (!pass_mrgctx);
4321 MonoVTable *vtable = mono_class_vtable (cfg->domain, method->klass);
4324 EMIT_NEW_VTABLECONST (cfg, rgctx_arg, vtable);
4327 return mono_emit_method_call_full (cfg, method, NULL, FALSE, &val, NULL, NULL, rgctx_arg);
4331 if (mini_is_gsharedvt_klass (klass)) {
4332 MonoBasicBlock *is_ref_bb, *is_nullable_bb, *end_bb;
4333 MonoInst *res, *is_ref, *src_var, *addr;
4336 dreg = alloc_ireg (cfg);
4338 NEW_BBLOCK (cfg, is_ref_bb);
4339 NEW_BBLOCK (cfg, is_nullable_bb);
4340 NEW_BBLOCK (cfg, end_bb);
4341 is_ref = emit_get_gsharedvt_info_klass (cfg, klass, MONO_RGCTX_INFO_CLASS_BOX_TYPE);
4342 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, is_ref->dreg, MONO_GSHAREDVT_BOX_TYPE_REF);
4343 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_IBEQ, is_ref_bb);
4345 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, is_ref->dreg, MONO_GSHAREDVT_BOX_TYPE_NULLABLE);
4346 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_IBEQ, is_nullable_bb);
4349 alloc = handle_alloc (cfg, klass, TRUE, context_used);
4352 EMIT_NEW_STORE_MEMBASE_TYPE (cfg, ins, &klass->byval_arg, alloc->dreg, sizeof (MonoObject), val->dreg);
4353 ins->opcode = OP_STOREV_MEMBASE;
4355 EMIT_NEW_UNALU (cfg, res, OP_MOVE, dreg, alloc->dreg);
4356 res->type = STACK_OBJ;
4358 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
4361 MONO_START_BB (cfg, is_ref_bb);
4363 /* val is a vtype, so has to load the value manually */
4364 src_var = get_vreg_to_inst (cfg, val->dreg);
4366 src_var = mono_compile_create_var_for_vreg (cfg, &klass->byval_arg, OP_LOCAL, val->dreg);
4367 EMIT_NEW_VARLOADA (cfg, addr, src_var, src_var->inst_vtype);
4368 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, dreg, addr->dreg, 0);
4369 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
4372 MONO_START_BB (cfg, is_nullable_bb);
4375 MonoInst *addr = emit_get_gsharedvt_info_klass (cfg, klass,
4376 MONO_RGCTX_INFO_NULLABLE_CLASS_BOX);
4378 MonoMethodSignature *box_sig;
4381 * klass is Nullable<T>, need to call Nullable<T>.Box () using a gsharedvt signature, but we cannot
4382 * construct that method at JIT time, so have to do things by hand.
4384 box_sig = (MonoMethodSignature *)mono_mempool_alloc0 (cfg->mempool, MONO_SIZEOF_METHOD_SIGNATURE + (1 * sizeof (MonoType *)));
4385 box_sig->ret = &mono_defaults.object_class->byval_arg;
4386 box_sig->param_count = 1;
4387 box_sig->params [0] = &klass->byval_arg;
4390 box_call = emit_llvmonly_calli (cfg, box_sig, &val, addr);
4392 box_call = mono_emit_calli (cfg, box_sig, &val, addr, NULL, NULL);
4393 EMIT_NEW_UNALU (cfg, res, OP_MOVE, dreg, box_call->dreg);
4394 res->type = STACK_OBJ;
4398 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
4400 MONO_START_BB (cfg, end_bb);
4404 alloc = handle_alloc (cfg, klass, TRUE, context_used);
4408 EMIT_NEW_STORE_MEMBASE_TYPE (cfg, ins, &klass->byval_arg, alloc->dreg, sizeof (MonoObject), val->dreg);
4414 mini_class_has_reference_variant_generic_argument (MonoCompile *cfg, MonoClass *klass, int context_used)
4417 MonoGenericContainer *container;
4418 MonoGenericInst *ginst;
4420 if (klass->generic_class) {
4421 container = klass->generic_class->container_class->generic_container;
4422 ginst = klass->generic_class->context.class_inst;
4423 } else if (klass->generic_container && context_used) {
4424 container = klass->generic_container;
4425 ginst = container->context.class_inst;
4430 for (i = 0; i < container->type_argc; ++i) {
4432 if (!(mono_generic_container_get_param_info (container, i)->flags & (MONO_GEN_PARAM_VARIANT|MONO_GEN_PARAM_COVARIANT)))
4434 type = ginst->type_argv [i];
4435 if (mini_type_is_reference (type))
4441 static GHashTable* direct_icall_type_hash;
4444 icall_is_direct_callable (MonoCompile *cfg, MonoMethod *cmethod)
4446 /* LLVM on amd64 can't handle calls to non-32 bit addresses */
4447 if (!direct_icalls_enabled (cfg))
4451 * An icall is directly callable if it doesn't directly or indirectly call mono_raise_exception ().
4452 * Whitelist a few icalls for now.
4454 if (!direct_icall_type_hash) {
4455 GHashTable *h = g_hash_table_new (g_str_hash, g_str_equal);
4457 g_hash_table_insert (h, (char*)"Decimal", GUINT_TO_POINTER (1));
4458 g_hash_table_insert (h, (char*)"Number", GUINT_TO_POINTER (1));
4459 g_hash_table_insert (h, (char*)"Buffer", GUINT_TO_POINTER (1));
4460 g_hash_table_insert (h, (char*)"Monitor", GUINT_TO_POINTER (1));
4461 mono_memory_barrier ();
4462 direct_icall_type_hash = h;
4465 if (cmethod->klass == mono_defaults.math_class)
4467 /* No locking needed */
4468 if (cmethod->klass->image == mono_defaults.corlib && g_hash_table_lookup (direct_icall_type_hash, cmethod->klass->name))
4473 #define is_complex_isinst(klass) ((klass->flags & TYPE_ATTRIBUTE_INTERFACE) || klass->rank || mono_class_is_nullable (klass) || mono_class_is_marshalbyref (klass) || (klass->flags & TYPE_ATTRIBUTE_SEALED) || klass->byval_arg.type == MONO_TYPE_VAR || klass->byval_arg.type == MONO_TYPE_MVAR)
4476 emit_castclass_with_cache (MonoCompile *cfg, MonoClass *klass, MonoInst **args)
4478 MonoMethod *mono_castclass;
4481 mono_castclass = mono_marshal_get_castclass_with_cache ();
4483 save_cast_details (cfg, klass, args [0]->dreg, TRUE);
4484 res = mono_emit_method_call (cfg, mono_castclass, args, NULL);
4485 reset_cast_details (cfg);
4491 get_castclass_cache_idx (MonoCompile *cfg)
4493 /* Each CASTCLASS_CACHE patch needs a unique index which identifies the call site */
4494 cfg->castclass_cache_index ++;
4495 return (cfg->method_index << 16) | cfg->castclass_cache_index;
4499 emit_castclass_with_cache_nonshared (MonoCompile *cfg, MonoInst *obj, MonoClass *klass)
4508 EMIT_NEW_CLASSCONST (cfg, args [1], klass);
4511 idx = get_castclass_cache_idx (cfg);
4512 args [2] = emit_runtime_constant (cfg, MONO_PATCH_INFO_CASTCLASS_CACHE, GINT_TO_POINTER (idx));
4514 /*The wrapper doesn't inline well so the bloat of inlining doesn't pay off.*/
4515 return emit_castclass_with_cache (cfg, klass, args);
4519 * Returns NULL and set the cfg exception on error.
4522 handle_castclass (MonoCompile *cfg, MonoClass *klass, MonoInst *src, guint8 *ip, int *inline_costs)
4524 MonoBasicBlock *is_null_bb;
4525 int obj_reg = src->dreg;
4526 int vtable_reg = alloc_preg (cfg);
4528 MonoInst *klass_inst = NULL, *res;
4530 context_used = mini_class_check_context_used (cfg, klass);
4532 if (!context_used && mini_class_has_reference_variant_generic_argument (cfg, klass, context_used)) {
4533 res = emit_castclass_with_cache_nonshared (cfg, src, klass);
4534 (*inline_costs) += 2;
4536 } else if (!context_used && (mono_class_is_marshalbyref (klass) || klass->flags & TYPE_ATTRIBUTE_INTERFACE)) {
4537 MonoMethod *mono_castclass;
4538 MonoInst *iargs [1];
4541 mono_castclass = mono_marshal_get_castclass (klass);
4544 save_cast_details (cfg, klass, src->dreg, TRUE);
4545 costs = inline_method (cfg, mono_castclass, mono_method_signature (mono_castclass),
4546 iargs, ip, cfg->real_offset, TRUE);
4547 reset_cast_details (cfg);
4548 CHECK_CFG_EXCEPTION;
4549 g_assert (costs > 0);
4551 cfg->real_offset += 5;
4553 (*inline_costs) += costs;
4561 if(mini_class_has_reference_variant_generic_argument (cfg, klass, context_used) || is_complex_isinst (klass)) {
4562 MonoInst *cache_ins;
4564 cache_ins = emit_get_rgctx_klass (cfg, context_used, klass, MONO_RGCTX_INFO_CAST_CACHE);
4569 /* klass - it's the second element of the cache entry*/
4570 EMIT_NEW_LOAD_MEMBASE (cfg, args [1], OP_LOAD_MEMBASE, alloc_preg (cfg), cache_ins->dreg, sizeof (gpointer));
4573 args [2] = cache_ins;
4575 return emit_castclass_with_cache (cfg, klass, args);
4578 klass_inst = emit_get_rgctx_klass (cfg, context_used, klass, MONO_RGCTX_INFO_KLASS);
4581 NEW_BBLOCK (cfg, is_null_bb);
4583 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, obj_reg, 0);
4584 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, is_null_bb);
4586 save_cast_details (cfg, klass, obj_reg, FALSE);
4588 if (klass->flags & TYPE_ATTRIBUTE_INTERFACE) {
4589 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, vtable_reg, obj_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
4590 mini_emit_iface_cast (cfg, vtable_reg, klass, NULL, NULL);
4592 int klass_reg = alloc_preg (cfg);
4594 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, vtable_reg, obj_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
4596 if (!klass->rank && !cfg->compile_aot && !(cfg->opt & MONO_OPT_SHARED) && (klass->flags & TYPE_ATTRIBUTE_SEALED)) {
4597 /* the remoting code is broken, access the class for now */
4598 if (0) { /*FIXME what exactly is broken? This change refers to r39380 from 2005 and mention some remoting fixes were due.*/
4599 MonoVTable *vt = mono_class_vtable (cfg->domain, klass);
4601 mono_cfg_set_exception (cfg, MONO_EXCEPTION_TYPE_LOAD);
4602 cfg->exception_ptr = klass;
4605 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, vtable_reg, vt);
4607 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
4608 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, klass_reg, klass);
4610 MONO_EMIT_NEW_COND_EXC (cfg, NE_UN, "InvalidCastException");
4612 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
4613 mini_emit_castclass_inst (cfg, obj_reg, klass_reg, klass, klass_inst, is_null_bb);
4617 MONO_START_BB (cfg, is_null_bb);
4619 reset_cast_details (cfg);
4628 * Returns NULL and set the cfg exception on error.
4631 handle_isinst (MonoCompile *cfg, MonoClass *klass, MonoInst *src, int context_used)
4634 MonoBasicBlock *is_null_bb, *false_bb, *end_bb;
4635 int obj_reg = src->dreg;
4636 int vtable_reg = alloc_preg (cfg);
4637 int res_reg = alloc_ireg_ref (cfg);
4638 MonoInst *klass_inst = NULL;
4643 if(mini_class_has_reference_variant_generic_argument (cfg, klass, context_used) || is_complex_isinst (klass)) {
4644 MonoMethod *mono_isinst = mono_marshal_get_isinst_with_cache ();
4645 MonoInst *cache_ins;
4647 cache_ins = emit_get_rgctx_klass (cfg, context_used, klass, MONO_RGCTX_INFO_CAST_CACHE);
4652 /* klass - it's the second element of the cache entry*/
4653 EMIT_NEW_LOAD_MEMBASE (cfg, args [1], OP_LOAD_MEMBASE, alloc_preg (cfg), cache_ins->dreg, sizeof (gpointer));
4656 args [2] = cache_ins;
4658 return mono_emit_method_call (cfg, mono_isinst, args, NULL);
4661 klass_inst = emit_get_rgctx_klass (cfg, context_used, klass, MONO_RGCTX_INFO_KLASS);
4664 NEW_BBLOCK (cfg, is_null_bb);
4665 NEW_BBLOCK (cfg, false_bb);
4666 NEW_BBLOCK (cfg, end_bb);
4668 /* Do the assignment at the beginning, so the other assignment can be if converted */
4669 EMIT_NEW_UNALU (cfg, ins, OP_MOVE, res_reg, obj_reg);
4670 ins->type = STACK_OBJ;
4673 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, obj_reg, 0);
4674 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_IBEQ, is_null_bb);
4676 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, vtable_reg, obj_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
4678 if (klass->flags & TYPE_ATTRIBUTE_INTERFACE) {
4679 g_assert (!context_used);
4680 /* the is_null_bb target simply copies the input register to the output */
4681 mini_emit_iface_cast (cfg, vtable_reg, klass, false_bb, is_null_bb);
4683 int klass_reg = alloc_preg (cfg);
4686 int rank_reg = alloc_preg (cfg);
4687 int eclass_reg = alloc_preg (cfg);
4689 g_assert (!context_used);
4690 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADU1_MEMBASE, rank_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, rank));
4691 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, rank_reg, klass->rank);
4692 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBNE_UN, false_bb);
4693 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
4694 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, eclass_reg, klass_reg, MONO_STRUCT_OFFSET (MonoClass, cast_class));
4695 if (klass->cast_class == mono_defaults.object_class) {
4696 int parent_reg = alloc_preg (cfg);
4697 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, parent_reg, eclass_reg, MONO_STRUCT_OFFSET (MonoClass, parent));
4698 mini_emit_class_check_branch (cfg, parent_reg, mono_defaults.enum_class->parent, OP_PBNE_UN, is_null_bb);
4699 mini_emit_class_check_branch (cfg, eclass_reg, mono_defaults.enum_class, OP_PBEQ, is_null_bb);
4700 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, false_bb);
4701 } else if (klass->cast_class == mono_defaults.enum_class->parent) {
4702 mini_emit_class_check_branch (cfg, eclass_reg, mono_defaults.enum_class->parent, OP_PBEQ, is_null_bb);
4703 mini_emit_class_check_branch (cfg, eclass_reg, mono_defaults.enum_class, OP_PBEQ, is_null_bb);
4704 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, false_bb);
4705 } else if (klass->cast_class == mono_defaults.enum_class) {
4706 mini_emit_class_check_branch (cfg, eclass_reg, mono_defaults.enum_class, OP_PBEQ, is_null_bb);
4707 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, false_bb);
4708 } else if (klass->cast_class->flags & TYPE_ATTRIBUTE_INTERFACE) {
4709 mini_emit_iface_class_cast (cfg, eclass_reg, klass->cast_class, false_bb, is_null_bb);
4711 if ((klass->rank == 1) && (klass->byval_arg.type == MONO_TYPE_SZARRAY)) {
4712 /* Check that the object is a vector too */
4713 int bounds_reg = alloc_preg (cfg);
4714 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, bounds_reg, obj_reg, MONO_STRUCT_OFFSET (MonoArray, bounds));
4715 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, bounds_reg, 0);
4716 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBNE_UN, false_bb);
4719 /* the is_null_bb target simply copies the input register to the output */
4720 mini_emit_isninst_cast (cfg, eclass_reg, klass->cast_class, false_bb, is_null_bb);
4722 } else if (mono_class_is_nullable (klass)) {
4723 g_assert (!context_used);
4724 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
4725 /* the is_null_bb target simply copies the input register to the output */
4726 mini_emit_isninst_cast (cfg, klass_reg, klass->cast_class, false_bb, is_null_bb);
4728 if (!cfg->compile_aot && !(cfg->opt & MONO_OPT_SHARED) && (klass->flags & TYPE_ATTRIBUTE_SEALED)) {
4729 g_assert (!context_used);
4730 /* the remoting code is broken, access the class for now */
4731 if (0) {/*FIXME what exactly is broken? This change refers to r39380 from 2005 and mention some remoting fixes were due.*/
4732 MonoVTable *vt = mono_class_vtable (cfg->domain, klass);
4734 mono_cfg_set_exception (cfg, MONO_EXCEPTION_TYPE_LOAD);
4735 cfg->exception_ptr = klass;
4738 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, vtable_reg, vt);
4740 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
4741 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, klass_reg, klass);
4743 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBNE_UN, false_bb);
4744 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, is_null_bb);
4746 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
4747 /* the is_null_bb target simply copies the input register to the output */
4748 mini_emit_isninst_cast_inst (cfg, klass_reg, klass, klass_inst, false_bb, is_null_bb);
4753 MONO_START_BB (cfg, false_bb);
4755 MONO_EMIT_NEW_PCONST (cfg, res_reg, 0);
4756 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
4758 MONO_START_BB (cfg, is_null_bb);
4760 MONO_START_BB (cfg, end_bb);
4766 handle_cisinst (MonoCompile *cfg, MonoClass *klass, MonoInst *src)
4768 /* This opcode takes as input an object reference and a class, and returns:
4769 0) if the object is an instance of the class,
4770 1) if the object is not instance of the class,
4771 2) if the object is a proxy whose type cannot be determined */
4774 #ifndef DISABLE_REMOTING
4775 MonoBasicBlock *true_bb, *false_bb, *false2_bb, *end_bb, *no_proxy_bb, *interface_fail_bb;
4777 MonoBasicBlock *true_bb, *false_bb, *end_bb;
4779 int obj_reg = src->dreg;
4780 int dreg = alloc_ireg (cfg);
4782 #ifndef DISABLE_REMOTING
4783 int klass_reg = alloc_preg (cfg);
4786 NEW_BBLOCK (cfg, true_bb);
4787 NEW_BBLOCK (cfg, false_bb);
4788 NEW_BBLOCK (cfg, end_bb);
4789 #ifndef DISABLE_REMOTING
4790 NEW_BBLOCK (cfg, false2_bb);
4791 NEW_BBLOCK (cfg, no_proxy_bb);
4794 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, obj_reg, 0);
4795 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, false_bb);
4797 if (klass->flags & TYPE_ATTRIBUTE_INTERFACE) {
4798 #ifndef DISABLE_REMOTING
4799 NEW_BBLOCK (cfg, interface_fail_bb);
4802 tmp_reg = alloc_preg (cfg);
4803 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, tmp_reg, obj_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
4804 #ifndef DISABLE_REMOTING
4805 mini_emit_iface_cast (cfg, tmp_reg, klass, interface_fail_bb, true_bb);
4806 MONO_START_BB (cfg, interface_fail_bb);
4807 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, tmp_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
4809 mini_emit_class_check_branch (cfg, klass_reg, mono_defaults.transparent_proxy_class, OP_PBNE_UN, false_bb);
4811 tmp_reg = alloc_preg (cfg);
4812 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, tmp_reg, obj_reg, MONO_STRUCT_OFFSET (MonoTransparentProxy, custom_type_info));
4813 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, tmp_reg, 0);
4814 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBNE_UN, false2_bb);
4816 mini_emit_iface_cast (cfg, tmp_reg, klass, false_bb, true_bb);
4819 #ifndef DISABLE_REMOTING
4820 tmp_reg = alloc_preg (cfg);
4821 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, tmp_reg, obj_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
4822 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, tmp_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
4824 mini_emit_class_check_branch (cfg, klass_reg, mono_defaults.transparent_proxy_class, OP_PBNE_UN, no_proxy_bb);
4825 tmp_reg = alloc_preg (cfg);
4826 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, tmp_reg, obj_reg, MONO_STRUCT_OFFSET (MonoTransparentProxy, remote_class));
4827 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, tmp_reg, MONO_STRUCT_OFFSET (MonoRemoteClass, proxy_class));
4829 tmp_reg = alloc_preg (cfg);
4830 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, tmp_reg, obj_reg, MONO_STRUCT_OFFSET (MonoTransparentProxy, custom_type_info));
4831 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, tmp_reg, 0);
4832 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, no_proxy_bb);
4834 mini_emit_isninst_cast (cfg, klass_reg, klass, false2_bb, true_bb);
4835 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, false2_bb);
4837 MONO_START_BB (cfg, no_proxy_bb);
4839 mini_emit_isninst_cast (cfg, klass_reg, klass, false_bb, true_bb);
4841 g_error ("transparent proxy support is disabled while trying to JIT code that uses it");
4845 MONO_START_BB (cfg, false_bb);
4847 MONO_EMIT_NEW_ICONST (cfg, dreg, 1);
4848 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
4850 #ifndef DISABLE_REMOTING
4851 MONO_START_BB (cfg, false2_bb);
4853 MONO_EMIT_NEW_ICONST (cfg, dreg, 2);
4854 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
4857 MONO_START_BB (cfg, true_bb);
4859 MONO_EMIT_NEW_ICONST (cfg, dreg, 0);
4861 MONO_START_BB (cfg, end_bb);
4864 MONO_INST_NEW (cfg, ins, OP_ICONST);
4866 ins->type = STACK_I4;
4872 handle_ccastclass (MonoCompile *cfg, MonoClass *klass, MonoInst *src)
4874 /* This opcode takes as input an object reference and a class, and returns:
4875 0) if the object is an instance of the class,
4876 1) if the object is a proxy whose type cannot be determined
4877 an InvalidCastException exception is thrown otherwhise*/
4880 #ifndef DISABLE_REMOTING
4881 MonoBasicBlock *end_bb, *ok_result_bb, *no_proxy_bb, *interface_fail_bb, *fail_1_bb;
4883 MonoBasicBlock *ok_result_bb;
4885 int obj_reg = src->dreg;
4886 int dreg = alloc_ireg (cfg);
4887 int tmp_reg = alloc_preg (cfg);
4889 #ifndef DISABLE_REMOTING
4890 int klass_reg = alloc_preg (cfg);
4891 NEW_BBLOCK (cfg, end_bb);
4894 NEW_BBLOCK (cfg, ok_result_bb);
4896 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, obj_reg, 0);
4897 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, ok_result_bb);
4899 save_cast_details (cfg, klass, obj_reg, FALSE);
4901 if (klass->flags & TYPE_ATTRIBUTE_INTERFACE) {
4902 #ifndef DISABLE_REMOTING
4903 NEW_BBLOCK (cfg, interface_fail_bb);
4905 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, tmp_reg, obj_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
4906 mini_emit_iface_cast (cfg, tmp_reg, klass, interface_fail_bb, ok_result_bb);
4907 MONO_START_BB (cfg, interface_fail_bb);
4908 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, tmp_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
4910 mini_emit_class_check (cfg, klass_reg, mono_defaults.transparent_proxy_class);
4912 tmp_reg = alloc_preg (cfg);
4913 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, tmp_reg, obj_reg, MONO_STRUCT_OFFSET (MonoTransparentProxy, custom_type_info));
4914 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, tmp_reg, 0);
4915 MONO_EMIT_NEW_COND_EXC (cfg, EQ, "InvalidCastException");
4917 MONO_EMIT_NEW_ICONST (cfg, dreg, 1);
4918 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
4920 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, tmp_reg, obj_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
4921 mini_emit_iface_cast (cfg, tmp_reg, klass, NULL, NULL);
4922 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, ok_result_bb);
4925 #ifndef DISABLE_REMOTING
4926 NEW_BBLOCK (cfg, no_proxy_bb);
4928 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, tmp_reg, obj_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
4929 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, tmp_reg, MONO_STRUCT_OFFSET (MonoVTable, klass));
4930 mini_emit_class_check_branch (cfg, klass_reg, mono_defaults.transparent_proxy_class, OP_PBNE_UN, no_proxy_bb);
4932 tmp_reg = alloc_preg (cfg);
4933 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, tmp_reg, obj_reg, MONO_STRUCT_OFFSET (MonoTransparentProxy, remote_class));
4934 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, tmp_reg, MONO_STRUCT_OFFSET (MonoRemoteClass, proxy_class));
4936 tmp_reg = alloc_preg (cfg);
4937 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, tmp_reg, obj_reg, MONO_STRUCT_OFFSET (MonoTransparentProxy, custom_type_info));
4938 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, tmp_reg, 0);
4939 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, no_proxy_bb);
4941 NEW_BBLOCK (cfg, fail_1_bb);
4943 mini_emit_isninst_cast (cfg, klass_reg, klass, fail_1_bb, ok_result_bb);
4945 MONO_START_BB (cfg, fail_1_bb);
4947 MONO_EMIT_NEW_ICONST (cfg, dreg, 1);
4948 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
4950 MONO_START_BB (cfg, no_proxy_bb);
4952 mini_emit_castclass (cfg, obj_reg, klass_reg, klass, ok_result_bb);
4954 g_error ("Transparent proxy support is disabled while trying to JIT code that uses it");
4958 MONO_START_BB (cfg, ok_result_bb);
4960 MONO_EMIT_NEW_ICONST (cfg, dreg, 0);
4962 #ifndef DISABLE_REMOTING
4963 MONO_START_BB (cfg, end_bb);
4967 MONO_INST_NEW (cfg, ins, OP_ICONST);
4969 ins->type = STACK_I4;
4974 static G_GNUC_UNUSED MonoInst*
4975 handle_enum_has_flag (MonoCompile *cfg, MonoClass *klass, MonoInst *enum_this, MonoInst *enum_flag)
4977 MonoType *enum_type = mono_type_get_underlying_type (&klass->byval_arg);
4978 guint32 load_opc = mono_type_to_load_membase (cfg, enum_type);
4981 switch (enum_type->type) {
4984 #if SIZEOF_REGISTER == 8
4996 MonoInst *load, *and_, *cmp, *ceq;
4997 int enum_reg = is_i4 ? alloc_ireg (cfg) : alloc_lreg (cfg);
4998 int and_reg = is_i4 ? alloc_ireg (cfg) : alloc_lreg (cfg);
4999 int dest_reg = alloc_ireg (cfg);
5001 EMIT_NEW_LOAD_MEMBASE (cfg, load, load_opc, enum_reg, enum_this->dreg, 0);
5002 EMIT_NEW_BIALU (cfg, and_, is_i4 ? OP_IAND : OP_LAND, and_reg, enum_reg, enum_flag->dreg);
5003 EMIT_NEW_BIALU (cfg, cmp, is_i4 ? OP_ICOMPARE : OP_LCOMPARE, -1, and_reg, enum_flag->dreg);
5004 EMIT_NEW_UNALU (cfg, ceq, is_i4 ? OP_ICEQ : OP_LCEQ, dest_reg, -1);
5006 ceq->type = STACK_I4;
5009 load = mono_decompose_opcode (cfg, load);
5010 and_ = mono_decompose_opcode (cfg, and_);
5011 cmp = mono_decompose_opcode (cfg, cmp);
5012 ceq = mono_decompose_opcode (cfg, ceq);
5020 * Returns NULL and set the cfg exception on error.
5022 static G_GNUC_UNUSED MonoInst*
5023 handle_delegate_ctor (MonoCompile *cfg, MonoClass *klass, MonoInst *target, MonoMethod *method, int context_used, gboolean virtual_)
5027 gpointer trampoline;
5028 MonoInst *obj, *method_ins, *tramp_ins;
5032 if (virtual_ && !cfg->llvm_only) {
5033 MonoMethod *invoke = mono_get_delegate_invoke (klass);
5036 if (!mono_get_delegate_virtual_invoke_impl (mono_method_signature (invoke), context_used ? NULL : method))
5040 obj = handle_alloc (cfg, klass, FALSE, mono_class_check_context_used (klass));
5044 /* Inline the contents of mono_delegate_ctor */
5046 /* Set target field */
5047 /* Optimize away setting of NULL target */
5048 if (!(target->opcode == OP_PCONST && target->inst_p0 == 0)) {
5049 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, obj->dreg, MONO_STRUCT_OFFSET (MonoDelegate, target), target->dreg);
5050 if (cfg->gen_write_barriers) {
5051 dreg = alloc_preg (cfg);
5052 EMIT_NEW_BIALU_IMM (cfg, ptr, OP_PADD_IMM, dreg, obj->dreg, MONO_STRUCT_OFFSET (MonoDelegate, target));
5053 emit_write_barrier (cfg, ptr, target);
5057 /* Set method field */
5058 method_ins = emit_get_rgctx_method (cfg, context_used, method, MONO_RGCTX_INFO_METHOD);
5059 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, obj->dreg, MONO_STRUCT_OFFSET (MonoDelegate, method), method_ins->dreg);
5062 * To avoid looking up the compiled code belonging to the target method
5063 * in mono_delegate_trampoline (), we allocate a per-domain memory slot to
5064 * store it, and we fill it after the method has been compiled.
5066 if (!method->dynamic && !(cfg->opt & MONO_OPT_SHARED)) {
5067 MonoInst *code_slot_ins;
5070 code_slot_ins = emit_get_rgctx_method (cfg, context_used, method, MONO_RGCTX_INFO_METHOD_DELEGATE_CODE);
5072 domain = mono_domain_get ();
5073 mono_domain_lock (domain);
5074 if (!domain_jit_info (domain)->method_code_hash)
5075 domain_jit_info (domain)->method_code_hash = g_hash_table_new (NULL, NULL);
5076 code_slot = (guint8 **)g_hash_table_lookup (domain_jit_info (domain)->method_code_hash, method);
5078 code_slot = (guint8 **)mono_domain_alloc0 (domain, sizeof (gpointer));
5079 g_hash_table_insert (domain_jit_info (domain)->method_code_hash, method, code_slot);
5081 mono_domain_unlock (domain);
5083 code_slot_ins = emit_runtime_constant (cfg, MONO_PATCH_INFO_METHOD_CODE_SLOT, method);
5085 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, obj->dreg, MONO_STRUCT_OFFSET (MonoDelegate, method_code), code_slot_ins->dreg);
5088 if (cfg->llvm_only) {
5089 MonoInst *args [16];
5094 args [2] = emit_get_rgctx_method (cfg, context_used, method, MONO_RGCTX_INFO_METHOD);
5095 mono_emit_jit_icall (cfg, mono_llvmonly_init_delegate_virtual, args);
5098 mono_emit_jit_icall (cfg, mono_llvmonly_init_delegate, args);
5104 if (cfg->compile_aot) {
5105 MonoDelegateClassMethodPair *del_tramp;
5107 del_tramp = (MonoDelegateClassMethodPair *)mono_mempool_alloc0 (cfg->mempool, sizeof (MonoDelegateClassMethodPair));
5108 del_tramp->klass = klass;
5109 del_tramp->method = context_used ? NULL : method;
5110 del_tramp->is_virtual = virtual_;
5111 EMIT_NEW_AOTCONST (cfg, tramp_ins, MONO_PATCH_INFO_DELEGATE_TRAMPOLINE, del_tramp);
5114 trampoline = mono_create_delegate_virtual_trampoline (cfg->domain, klass, context_used ? NULL : method);
5116 trampoline = mono_create_delegate_trampoline_info (cfg->domain, klass, context_used ? NULL : method);
5117 EMIT_NEW_PCONST (cfg, tramp_ins, trampoline);
5120 /* Set invoke_impl field */
5122 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, obj->dreg, MONO_STRUCT_OFFSET (MonoDelegate, invoke_impl), tramp_ins->dreg);
5124 dreg = alloc_preg (cfg);
5125 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, dreg, tramp_ins->dreg, MONO_STRUCT_OFFSET (MonoDelegateTrampInfo, invoke_impl));
5126 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, obj->dreg, MONO_STRUCT_OFFSET (MonoDelegate, invoke_impl), dreg);
5128 dreg = alloc_preg (cfg);
5129 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, dreg, tramp_ins->dreg, MONO_STRUCT_OFFSET (MonoDelegateTrampInfo, method_ptr));
5130 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, obj->dreg, MONO_STRUCT_OFFSET (MonoDelegate, method_ptr), dreg);
5133 dreg = alloc_preg (cfg);
5134 MONO_EMIT_NEW_ICONST (cfg, dreg, virtual_ ? 1 : 0);
5135 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI1_MEMBASE_REG, obj->dreg, MONO_STRUCT_OFFSET (MonoDelegate, method_is_virtual), dreg);
5137 /* All the checks which are in mono_delegate_ctor () are done by the delegate trampoline */
5143 handle_array_new (MonoCompile *cfg, int rank, MonoInst **sp, unsigned char *ip)
5145 MonoJitICallInfo *info;
5147 /* Need to register the icall so it gets an icall wrapper */
5148 info = mono_get_array_new_va_icall (rank);
5150 cfg->flags |= MONO_CFG_HAS_VARARGS;
5152 /* mono_array_new_va () needs a vararg calling convention */
5153 cfg->exception_message = g_strdup ("array-new");
5154 cfg->disable_llvm = TRUE;
5156 /* FIXME: This uses info->sig, but it should use the signature of the wrapper */
5157 return mono_emit_native_call (cfg, mono_icall_get_wrapper (info), info->sig, sp);
5161 * handle_constrained_gsharedvt_call:
5163 * Handle constrained calls where the receiver is a gsharedvt type.
5164 * Return the instruction representing the call. Set the cfg exception on failure.
5167 handle_constrained_gsharedvt_call (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **sp, MonoClass *constrained_class,
5168 gboolean *ref_emit_widen)
5170 MonoInst *ins = NULL;
5171 gboolean emit_widen = *ref_emit_widen;
5174 * Constrained calls need to behave differently at runtime dependending on whenever the receiver is instantiated as ref type or as a vtype.
5175 * This is hard to do with the current call code, since we would have to emit a branch and two different calls. So instead, we
5176 * pack the arguments into an array, and do the rest of the work in in an icall.
5178 if (((cmethod->klass == mono_defaults.object_class) || (cmethod->klass->flags & TYPE_ATTRIBUTE_INTERFACE) || (!cmethod->klass->valuetype && cmethod->klass->image != mono_defaults.corlib)) &&
5179 (MONO_TYPE_IS_VOID (fsig->ret) || MONO_TYPE_IS_PRIMITIVE (fsig->ret) || MONO_TYPE_IS_REFERENCE (fsig->ret) || MONO_TYPE_ISSTRUCT (fsig->ret) || mini_is_gsharedvt_type (fsig->ret)) &&
5180 (fsig->param_count == 0 || (!fsig->hasthis && fsig->param_count == 1) || (fsig->param_count == 1 && (MONO_TYPE_IS_REFERENCE (fsig->params [0]) || fsig->params [0]->byref || mini_is_gsharedvt_type (fsig->params [0]))))) {
5181 MonoInst *args [16];
5184 * This case handles calls to
5185 * - object:ToString()/Equals()/GetHashCode(),
5186 * - System.IComparable<T>:CompareTo()
5187 * - System.IEquatable<T>:Equals ()
5188 * plus some simple interface calls enough to support AsyncTaskMethodBuilder.
5192 if (mono_method_check_context_used (cmethod))
5193 args [1] = emit_get_rgctx_method (cfg, mono_method_check_context_used (cmethod), cmethod, MONO_RGCTX_INFO_METHOD);
5195 EMIT_NEW_METHODCONST (cfg, args [1], cmethod);
5196 args [2] = emit_get_rgctx_klass (cfg, mono_class_check_context_used (constrained_class), constrained_class, MONO_RGCTX_INFO_KLASS);
5198 /* !fsig->hasthis is for the wrapper for the Object.GetType () icall */
5199 if (fsig->hasthis && fsig->param_count) {
5200 /* Pass the arguments using a localloc-ed array using the format expected by runtime_invoke () */
5201 MONO_INST_NEW (cfg, ins, OP_LOCALLOC_IMM);
5202 ins->dreg = alloc_preg (cfg);
5203 ins->inst_imm = fsig->param_count * sizeof (mgreg_t);
5204 MONO_ADD_INS (cfg->cbb, ins);
5207 if (mini_is_gsharedvt_type (fsig->params [0])) {
5208 int addr_reg, deref_arg_reg;
5210 ins = emit_get_gsharedvt_info_klass (cfg, mono_class_from_mono_type (fsig->params [0]), MONO_RGCTX_INFO_CLASS_BOX_TYPE);
5211 deref_arg_reg = alloc_preg (cfg);
5212 /* deref_arg = BOX_TYPE != MONO_GSHAREDVT_BOX_TYPE_VTYPE */
5213 EMIT_NEW_BIALU_IMM (cfg, args [3], OP_ISUB_IMM, deref_arg_reg, ins->dreg, 1);
5215 EMIT_NEW_VARLOADA_VREG (cfg, ins, sp [1]->dreg, fsig->params [0]);
5216 addr_reg = ins->dreg;
5217 EMIT_NEW_STORE_MEMBASE (cfg, ins, OP_STORE_MEMBASE_REG, args [4]->dreg, 0, addr_reg);
5219 EMIT_NEW_ICONST (cfg, args [3], 0);
5220 EMIT_NEW_STORE_MEMBASE (cfg, ins, OP_STORE_MEMBASE_REG, args [4]->dreg, 0, sp [1]->dreg);
5223 EMIT_NEW_ICONST (cfg, args [3], 0);
5224 EMIT_NEW_ICONST (cfg, args [4], 0);
5226 ins = mono_emit_jit_icall (cfg, mono_gsharedvt_constrained_call, args);
5229 if (mini_is_gsharedvt_type (fsig->ret)) {
5230 ins = handle_unbox_gsharedvt (cfg, mono_class_from_mono_type (fsig->ret), ins);
5231 } else if (MONO_TYPE_IS_PRIMITIVE (fsig->ret) || MONO_TYPE_ISSTRUCT (fsig->ret)) {
5235 NEW_BIALU_IMM (cfg, add, OP_ADD_IMM, alloc_dreg (cfg, STACK_MP), ins->dreg, sizeof (MonoObject));
5236 MONO_ADD_INS (cfg->cbb, add);
5238 NEW_LOAD_MEMBASE_TYPE (cfg, ins, fsig->ret, add->dreg, 0);
5239 MONO_ADD_INS (cfg->cbb, ins);
5240 /* ins represents the call result */
5243 GSHAREDVT_FAILURE (CEE_CALLVIRT);
5246 *ref_emit_widen = emit_widen;
5255 mono_emit_load_got_addr (MonoCompile *cfg)
5257 MonoInst *getaddr, *dummy_use;
5259 if (!cfg->got_var || cfg->got_var_allocated)
5262 MONO_INST_NEW (cfg, getaddr, OP_LOAD_GOTADDR);
5263 getaddr->cil_code = cfg->header->code;
5264 getaddr->dreg = cfg->got_var->dreg;
5266 /* Add it to the start of the first bblock */
5267 if (cfg->bb_entry->code) {
5268 getaddr->next = cfg->bb_entry->code;
5269 cfg->bb_entry->code = getaddr;
5272 MONO_ADD_INS (cfg->bb_entry, getaddr);
5274 cfg->got_var_allocated = TRUE;
5277 * Add a dummy use to keep the got_var alive, since real uses might
5278 * only be generated by the back ends.
5279 * Add it to end_bblock, so the variable's lifetime covers the whole
5281 * It would be better to make the usage of the got var explicit in all
5282 * cases when the backend needs it (i.e. calls, throw etc.), so this
5283 * wouldn't be needed.
5285 NEW_DUMMY_USE (cfg, dummy_use, cfg->got_var);
5286 MONO_ADD_INS (cfg->bb_exit, dummy_use);
5289 static int inline_limit;
5290 static gboolean inline_limit_inited;
5293 mono_method_check_inlining (MonoCompile *cfg, MonoMethod *method)
5295 MonoMethodHeaderSummary header;
5297 #ifdef MONO_ARCH_SOFT_FLOAT_FALLBACK
5298 MonoMethodSignature *sig = mono_method_signature (method);
5302 if (cfg->disable_inline)
5307 if (cfg->inline_depth > 10)
5310 if (!mono_method_get_header_summary (method, &header))
5313 /*runtime, icall and pinvoke are checked by summary call*/
5314 if ((method->iflags & METHOD_IMPL_ATTRIBUTE_NOINLINING) ||
5315 (method->iflags & METHOD_IMPL_ATTRIBUTE_SYNCHRONIZED) ||
5316 (mono_class_is_marshalbyref (method->klass)) ||
5320 /* also consider num_locals? */
5321 /* Do the size check early to avoid creating vtables */
5322 if (!inline_limit_inited) {
5323 if (g_getenv ("MONO_INLINELIMIT"))
5324 inline_limit = atoi (g_getenv ("MONO_INLINELIMIT"));
5326 inline_limit = INLINE_LENGTH_LIMIT;
5327 inline_limit_inited = TRUE;
5329 if (header.code_size >= inline_limit && !(method->iflags & METHOD_IMPL_ATTRIBUTE_AGGRESSIVE_INLINING))
5333 * if we can initialize the class of the method right away, we do,
5334 * otherwise we don't allow inlining if the class needs initialization,
5335 * since it would mean inserting a call to mono_runtime_class_init()
5336 * inside the inlined code
5338 if (!(cfg->opt & MONO_OPT_SHARED)) {
5339 /* The AggressiveInlining hint is a good excuse to force that cctor to run. */
5340 if (method->iflags & METHOD_IMPL_ATTRIBUTE_AGGRESSIVE_INLINING) {
5341 vtable = mono_class_vtable (cfg->domain, method->klass);
5344 if (!cfg->compile_aot) {
5346 if (!mono_runtime_class_init_full (vtable, &error))
5347 mono_error_raise_exception (&error); /* FIXME don't raise here */
5349 } else if (method->klass->flags & TYPE_ATTRIBUTE_BEFORE_FIELD_INIT) {
5350 if (cfg->run_cctors && method->klass->has_cctor) {
5351 /*FIXME it would easier and lazier to just use mono_class_try_get_vtable */
5352 if (!method->klass->runtime_info)
5353 /* No vtable created yet */
5355 vtable = mono_class_vtable (cfg->domain, method->klass);
5358 /* This makes so that inline cannot trigger */
5359 /* .cctors: too many apps depend on them */
5360 /* running with a specific order... */
5361 if (! vtable->initialized)
5364 if (!mono_runtime_class_init_full (vtable, &error))
5365 mono_error_raise_exception (&error); /* FIXME don't raise here */
5367 } else if (mono_class_needs_cctor_run (method->klass, NULL)) {
5368 if (!method->klass->runtime_info)
5369 /* No vtable created yet */
5371 vtable = mono_class_vtable (cfg->domain, method->klass);
5374 if (!vtable->initialized)
5379 * If we're compiling for shared code
5380 * the cctor will need to be run at aot method load time, for example,
5381 * or at the end of the compilation of the inlining method.
5383 if (mono_class_needs_cctor_run (method->klass, NULL) && !((method->klass->flags & TYPE_ATTRIBUTE_BEFORE_FIELD_INIT)))
5387 #ifdef MONO_ARCH_SOFT_FLOAT_FALLBACK
5388 if (mono_arch_is_soft_float ()) {
5390 if (sig->ret && sig->ret->type == MONO_TYPE_R4)
5392 for (i = 0; i < sig->param_count; ++i)
5393 if (!sig->params [i]->byref && sig->params [i]->type == MONO_TYPE_R4)
5398 if (g_list_find (cfg->dont_inline, method))
5405 mini_field_access_needs_cctor_run (MonoCompile *cfg, MonoMethod *method, MonoClass *klass, MonoVTable *vtable)
5407 if (!cfg->compile_aot) {
5409 if (vtable->initialized)
5413 if (klass->flags & TYPE_ATTRIBUTE_BEFORE_FIELD_INIT) {
5414 if (cfg->method == method)
5418 if (!mono_class_needs_cctor_run (klass, method))
5421 if (! (method->flags & METHOD_ATTRIBUTE_STATIC) && (klass == method->klass))
5422 /* The initialization is already done before the method is called */
5429 mini_emit_ldelema_1_ins (MonoCompile *cfg, MonoClass *klass, MonoInst *arr, MonoInst *index, gboolean bcheck)
5433 int mult_reg, add_reg, array_reg, index_reg, index2_reg;
5436 if (mini_is_gsharedvt_variable_klass (klass)) {
5439 mono_class_init (klass);
5440 size = mono_class_array_element_size (klass);
5443 mult_reg = alloc_preg (cfg);
5444 array_reg = arr->dreg;
5445 index_reg = index->dreg;
5447 #if SIZEOF_REGISTER == 8
5448 /* The array reg is 64 bits but the index reg is only 32 */
5449 if (COMPILE_LLVM (cfg)) {
5451 index2_reg = index_reg;
5453 index2_reg = alloc_preg (cfg);
5454 MONO_EMIT_NEW_UNALU (cfg, OP_SEXT_I4, index2_reg, index_reg);
5457 if (index->type == STACK_I8) {
5458 index2_reg = alloc_preg (cfg);
5459 MONO_EMIT_NEW_UNALU (cfg, OP_LCONV_TO_I4, index2_reg, index_reg);
5461 index2_reg = index_reg;
5466 MONO_EMIT_BOUNDS_CHECK (cfg, array_reg, MonoArray, max_length, index2_reg);
5468 #if defined(TARGET_X86) || defined(TARGET_AMD64)
5469 if (size == 1 || size == 2 || size == 4 || size == 8) {
5470 static const int fast_log2 [] = { 1, 0, 1, -1, 2, -1, -1, -1, 3 };
5472 EMIT_NEW_X86_LEA (cfg, ins, array_reg, index2_reg, fast_log2 [size], MONO_STRUCT_OFFSET (MonoArray, vector));
5473 ins->klass = mono_class_get_element_class (klass);
5474 ins->type = STACK_MP;
5480 add_reg = alloc_ireg_mp (cfg);
5483 MonoInst *rgctx_ins;
5486 g_assert (cfg->gshared);
5487 context_used = mini_class_check_context_used (cfg, klass);
5488 g_assert (context_used);
5489 rgctx_ins = emit_get_gsharedvt_info_klass (cfg, klass, MONO_RGCTX_INFO_ARRAY_ELEMENT_SIZE);
5490 MONO_EMIT_NEW_BIALU (cfg, OP_IMUL, mult_reg, index2_reg, rgctx_ins->dreg);
5492 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_MUL_IMM, mult_reg, index2_reg, size);
5494 MONO_EMIT_NEW_BIALU (cfg, OP_PADD, add_reg, array_reg, mult_reg);
5495 NEW_BIALU_IMM (cfg, ins, OP_PADD_IMM, add_reg, add_reg, MONO_STRUCT_OFFSET (MonoArray, vector));
5496 ins->klass = mono_class_get_element_class (klass);
5497 ins->type = STACK_MP;
5498 MONO_ADD_INS (cfg->cbb, ins);
5504 mini_emit_ldelema_2_ins (MonoCompile *cfg, MonoClass *klass, MonoInst *arr, MonoInst *index_ins1, MonoInst *index_ins2)
5506 int bounds_reg = alloc_preg (cfg);
5507 int add_reg = alloc_ireg_mp (cfg);
5508 int mult_reg = alloc_preg (cfg);
5509 int mult2_reg = alloc_preg (cfg);
5510 int low1_reg = alloc_preg (cfg);
5511 int low2_reg = alloc_preg (cfg);
5512 int high1_reg = alloc_preg (cfg);
5513 int high2_reg = alloc_preg (cfg);
5514 int realidx1_reg = alloc_preg (cfg);
5515 int realidx2_reg = alloc_preg (cfg);
5516 int sum_reg = alloc_preg (cfg);
5517 int index1, index2, tmpreg;
5521 mono_class_init (klass);
5522 size = mono_class_array_element_size (klass);
5524 index1 = index_ins1->dreg;
5525 index2 = index_ins2->dreg;
5527 #if SIZEOF_REGISTER == 8
5528 /* The array reg is 64 bits but the index reg is only 32 */
5529 if (COMPILE_LLVM (cfg)) {
5532 tmpreg = alloc_preg (cfg);
5533 MONO_EMIT_NEW_UNALU (cfg, OP_SEXT_I4, tmpreg, index1);
5535 tmpreg = alloc_preg (cfg);
5536 MONO_EMIT_NEW_UNALU (cfg, OP_SEXT_I4, tmpreg, index2);
5540 // FIXME: Do we need to do something here for i8 indexes, like in ldelema_1_ins ?
5544 /* range checking */
5545 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, bounds_reg,
5546 arr->dreg, MONO_STRUCT_OFFSET (MonoArray, bounds));
5548 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI4_MEMBASE, low1_reg,
5549 bounds_reg, MONO_STRUCT_OFFSET (MonoArrayBounds, lower_bound));
5550 MONO_EMIT_NEW_BIALU (cfg, OP_PSUB, realidx1_reg, index1, low1_reg);
5551 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI4_MEMBASE, high1_reg,
5552 bounds_reg, MONO_STRUCT_OFFSET (MonoArrayBounds, length));
5553 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, high1_reg, realidx1_reg);
5554 MONO_EMIT_NEW_COND_EXC (cfg, LE_UN, "IndexOutOfRangeException");
5556 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI4_MEMBASE, low2_reg,
5557 bounds_reg, sizeof (MonoArrayBounds) + MONO_STRUCT_OFFSET (MonoArrayBounds, lower_bound));
5558 MONO_EMIT_NEW_BIALU (cfg, OP_PSUB, realidx2_reg, index2, low2_reg);
5559 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI4_MEMBASE, high2_reg,
5560 bounds_reg, sizeof (MonoArrayBounds) + MONO_STRUCT_OFFSET (MonoArrayBounds, length));
5561 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, high2_reg, realidx2_reg);
5562 MONO_EMIT_NEW_COND_EXC (cfg, LE_UN, "IndexOutOfRangeException");
5564 MONO_EMIT_NEW_BIALU (cfg, OP_PMUL, mult_reg, high2_reg, realidx1_reg);
5565 MONO_EMIT_NEW_BIALU (cfg, OP_PADD, sum_reg, mult_reg, realidx2_reg);
5566 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_PMUL_IMM, mult2_reg, sum_reg, size);
5567 MONO_EMIT_NEW_BIALU (cfg, OP_PADD, add_reg, mult2_reg, arr->dreg);
5568 NEW_BIALU_IMM (cfg, ins, OP_PADD_IMM, add_reg, add_reg, MONO_STRUCT_OFFSET (MonoArray, vector));
5570 ins->type = STACK_MP;
5572 MONO_ADD_INS (cfg->cbb, ins);
5578 mini_emit_ldelema_ins (MonoCompile *cfg, MonoMethod *cmethod, MonoInst **sp, unsigned char *ip, gboolean is_set)
5582 MonoMethod *addr_method;
5584 MonoClass *eclass = cmethod->klass->element_class;
5586 rank = mono_method_signature (cmethod)->param_count - (is_set? 1: 0);
5589 return mini_emit_ldelema_1_ins (cfg, eclass, sp [0], sp [1], TRUE);
5591 /* emit_ldelema_2 depends on OP_LMUL */
5592 if (!cfg->backend->emulate_mul_div && rank == 2 && (cfg->opt & MONO_OPT_INTRINS) && !mini_is_gsharedvt_variable_klass (eclass)) {
5593 return mini_emit_ldelema_2_ins (cfg, eclass, sp [0], sp [1], sp [2]);
5596 if (mini_is_gsharedvt_variable_klass (eclass))
5599 element_size = mono_class_array_element_size (eclass);
5600 addr_method = mono_marshal_get_array_address (rank, element_size);
5601 addr = mono_emit_method_call (cfg, addr_method, sp, NULL);
5606 static MonoBreakPolicy
5607 always_insert_breakpoint (MonoMethod *method)
5609 return MONO_BREAK_POLICY_ALWAYS;
5612 static MonoBreakPolicyFunc break_policy_func = always_insert_breakpoint;
5615 * mono_set_break_policy:
5616 * policy_callback: the new callback function
5618 * Allow embedders to decide wherther to actually obey breakpoint instructions
5619 * (both break IL instructions and Debugger.Break () method calls), for example
5620 * to not allow an app to be aborted by a perfectly valid IL opcode when executing
5621 * untrusted or semi-trusted code.
5623 * @policy_callback will be called every time a break point instruction needs to
5624 * be inserted with the method argument being the method that calls Debugger.Break()
5625 * or has the IL break instruction. The callback should return #MONO_BREAK_POLICY_NEVER
5626 * if it wants the breakpoint to not be effective in the given method.
5627 * #MONO_BREAK_POLICY_ALWAYS is the default.
5630 mono_set_break_policy (MonoBreakPolicyFunc policy_callback)
5632 if (policy_callback)
5633 break_policy_func = policy_callback;
5635 break_policy_func = always_insert_breakpoint;
5639 should_insert_brekpoint (MonoMethod *method) {
5640 switch (break_policy_func (method)) {
5641 case MONO_BREAK_POLICY_ALWAYS:
5643 case MONO_BREAK_POLICY_NEVER:
5645 case MONO_BREAK_POLICY_ON_DBG:
5646 g_warning ("mdb no longer supported");
5649 g_warning ("Incorrect value returned from break policy callback");
5654 /* optimize the simple GetGenericValueImpl/SetGenericValueImpl generic icalls */
5656 emit_array_generic_access (MonoCompile *cfg, MonoMethodSignature *fsig, MonoInst **args, int is_set)
5658 MonoInst *addr, *store, *load;
5659 MonoClass *eklass = mono_class_from_mono_type (fsig->params [2]);
5661 /* the bounds check is already done by the callers */
5662 addr = mini_emit_ldelema_1_ins (cfg, eklass, args [0], args [1], FALSE);
5664 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, load, &eklass->byval_arg, args [2]->dreg, 0);
5665 EMIT_NEW_STORE_MEMBASE_TYPE (cfg, store, &eklass->byval_arg, addr->dreg, 0, load->dreg);
5666 if (mini_type_is_reference (fsig->params [2]))
5667 emit_write_barrier (cfg, addr, load);
5669 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, load, &eklass->byval_arg, addr->dreg, 0);
5670 EMIT_NEW_STORE_MEMBASE_TYPE (cfg, store, &eklass->byval_arg, args [2]->dreg, 0, load->dreg);
5677 generic_class_is_reference_type (MonoCompile *cfg, MonoClass *klass)
5679 return mini_type_is_reference (&klass->byval_arg);
5683 emit_array_store (MonoCompile *cfg, MonoClass *klass, MonoInst **sp, gboolean safety_checks)
5685 if (safety_checks && generic_class_is_reference_type (cfg, klass) &&
5686 !(sp [2]->opcode == OP_PCONST && sp [2]->inst_p0 == NULL)) {
5687 MonoClass *obj_array = mono_array_class_get_cached (mono_defaults.object_class, 1);
5688 MonoMethod *helper = mono_marshal_get_virtual_stelemref (obj_array);
5689 MonoInst *iargs [3];
5692 mono_class_setup_vtable (obj_array);
5693 g_assert (helper->slot);
5695 if (sp [0]->type != STACK_OBJ)
5697 if (sp [2]->type != STACK_OBJ)
5704 return mono_emit_method_call (cfg, helper, iargs, sp [0]);
5708 if (mini_is_gsharedvt_variable_klass (klass)) {
5711 // FIXME-VT: OP_ICONST optimization
5712 addr = mini_emit_ldelema_1_ins (cfg, klass, sp [0], sp [1], TRUE);
5713 EMIT_NEW_STORE_MEMBASE_TYPE (cfg, ins, &klass->byval_arg, addr->dreg, 0, sp [2]->dreg);
5714 ins->opcode = OP_STOREV_MEMBASE;
5715 } else if (sp [1]->opcode == OP_ICONST) {
5716 int array_reg = sp [0]->dreg;
5717 int index_reg = sp [1]->dreg;
5718 int offset = (mono_class_array_element_size (klass) * sp [1]->inst_c0) + MONO_STRUCT_OFFSET (MonoArray, vector);
5720 if (SIZEOF_REGISTER == 8 && COMPILE_LLVM (cfg))
5721 MONO_EMIT_NEW_UNALU (cfg, OP_ZEXT_I4, index_reg, index_reg);
5724 MONO_EMIT_BOUNDS_CHECK (cfg, array_reg, MonoArray, max_length, index_reg);
5725 EMIT_NEW_STORE_MEMBASE_TYPE (cfg, ins, &klass->byval_arg, array_reg, offset, sp [2]->dreg);
5727 MonoInst *addr = mini_emit_ldelema_1_ins (cfg, klass, sp [0], sp [1], safety_checks);
5728 EMIT_NEW_STORE_MEMBASE_TYPE (cfg, ins, &klass->byval_arg, addr->dreg, 0, sp [2]->dreg);
5729 if (generic_class_is_reference_type (cfg, klass))
5730 emit_write_barrier (cfg, addr, sp [2]);
5737 emit_array_unsafe_access (MonoCompile *cfg, MonoMethodSignature *fsig, MonoInst **args, int is_set)
5742 eklass = mono_class_from_mono_type (fsig->params [2]);
5744 eklass = mono_class_from_mono_type (fsig->ret);
5747 return emit_array_store (cfg, eklass, args, FALSE);
5749 MonoInst *ins, *addr = mini_emit_ldelema_1_ins (cfg, eklass, args [0], args [1], FALSE);
5750 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, &eklass->byval_arg, addr->dreg, 0);
5756 is_unsafe_mov_compatible (MonoCompile *cfg, MonoClass *param_klass, MonoClass *return_klass)
5759 int param_size, return_size;
5761 param_klass = mono_class_from_mono_type (mini_get_underlying_type (¶m_klass->byval_arg));
5762 return_klass = mono_class_from_mono_type (mini_get_underlying_type (&return_klass->byval_arg));
5764 if (cfg->verbose_level > 3)
5765 printf ("[UNSAFE-MOV-INTRISIC] %s <- %s\n", return_klass->name, param_klass->name);
5767 //Don't allow mixing reference types with value types
5768 if (param_klass->valuetype != return_klass->valuetype) {
5769 if (cfg->verbose_level > 3)
5770 printf ("[UNSAFE-MOV-INTRISIC]\tone of the args is a valuetype and the other is not\n");
5774 if (!param_klass->valuetype) {
5775 if (cfg->verbose_level > 3)
5776 printf ("[UNSAFE-MOV-INTRISIC]\targs are reference types\n");
5781 if (param_klass->has_references || return_klass->has_references)
5784 /* Avoid mixing structs and primitive types/enums, they need to be handled differently in the JIT */
5785 if ((MONO_TYPE_ISSTRUCT (¶m_klass->byval_arg) && !MONO_TYPE_ISSTRUCT (&return_klass->byval_arg)) ||
5786 (!MONO_TYPE_ISSTRUCT (¶m_klass->byval_arg) && MONO_TYPE_ISSTRUCT (&return_klass->byval_arg))) {
5787 if (cfg->verbose_level > 3)
5788 printf ("[UNSAFE-MOV-INTRISIC]\tmixing structs and scalars\n");
5792 if (param_klass->byval_arg.type == MONO_TYPE_R4 || param_klass->byval_arg.type == MONO_TYPE_R8 ||
5793 return_klass->byval_arg.type == MONO_TYPE_R4 || return_klass->byval_arg.type == MONO_TYPE_R8) {
5794 if (cfg->verbose_level > 3)
5795 printf ("[UNSAFE-MOV-INTRISIC]\tfloat or double are not supported\n");
5799 param_size = mono_class_value_size (param_klass, &align);
5800 return_size = mono_class_value_size (return_klass, &align);
5802 //We can do it if sizes match
5803 if (param_size == return_size) {
5804 if (cfg->verbose_level > 3)
5805 printf ("[UNSAFE-MOV-INTRISIC]\tsame size\n");
5809 //No simple way to handle struct if sizes don't match
5810 if (MONO_TYPE_ISSTRUCT (¶m_klass->byval_arg)) {
5811 if (cfg->verbose_level > 3)
5812 printf ("[UNSAFE-MOV-INTRISIC]\tsize mismatch and type is a struct\n");
5817 * Same reg size category.
5818 * A quick note on why we don't require widening here.
5819 * The intrinsic is "R Array.UnsafeMov<S,R> (S s)".
5821 * Since the source value comes from a function argument, the JIT will already have
5822 * the value in a VREG and performed any widening needed before (say, when loading from a field).
5824 if (param_size <= 4 && return_size <= 4) {
5825 if (cfg->verbose_level > 3)
5826 printf ("[UNSAFE-MOV-INTRISIC]\tsize mismatch but both are of the same reg class\n");
5834 emit_array_unsafe_mov (MonoCompile *cfg, MonoMethodSignature *fsig, MonoInst **args)
5836 MonoClass *param_klass = mono_class_from_mono_type (fsig->params [0]);
5837 MonoClass *return_klass = mono_class_from_mono_type (fsig->ret);
5839 if (mini_is_gsharedvt_variable_type (fsig->ret))
5842 //Valuetypes that are semantically equivalent or numbers than can be widened to
5843 if (is_unsafe_mov_compatible (cfg, param_klass, return_klass))
5846 //Arrays of valuetypes that are semantically equivalent
5847 if (param_klass->rank == 1 && return_klass->rank == 1 && is_unsafe_mov_compatible (cfg, param_klass->element_class, return_klass->element_class))
5854 mini_emit_inst_for_ctor (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
5856 #ifdef MONO_ARCH_SIMD_INTRINSICS
5857 MonoInst *ins = NULL;
5859 if (cfg->opt & MONO_OPT_SIMD) {
5860 ins = mono_emit_simd_intrinsics (cfg, cmethod, fsig, args);
5866 return mono_emit_native_types_intrinsics (cfg, cmethod, fsig, args);
5870 emit_memory_barrier (MonoCompile *cfg, int kind)
5872 MonoInst *ins = NULL;
5873 MONO_INST_NEW (cfg, ins, OP_MEMORY_BARRIER);
5874 MONO_ADD_INS (cfg->cbb, ins);
5875 ins->backend.memory_barrier_kind = kind;
5881 llvm_emit_inst_for_method (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
5883 MonoInst *ins = NULL;
5886 /* The LLVM backend supports these intrinsics */
5887 if (cmethod->klass == mono_defaults.math_class) {
5888 if (strcmp (cmethod->name, "Sin") == 0) {
5890 } else if (strcmp (cmethod->name, "Cos") == 0) {
5892 } else if (strcmp (cmethod->name, "Sqrt") == 0) {
5894 } else if (strcmp (cmethod->name, "Abs") == 0 && fsig->params [0]->type == MONO_TYPE_R8) {
5898 if (opcode && fsig->param_count == 1) {
5899 MONO_INST_NEW (cfg, ins, opcode);
5900 ins->type = STACK_R8;
5901 ins->dreg = mono_alloc_freg (cfg);
5902 ins->sreg1 = args [0]->dreg;
5903 MONO_ADD_INS (cfg->cbb, ins);
5907 if (cfg->opt & MONO_OPT_CMOV) {
5908 if (strcmp (cmethod->name, "Min") == 0) {
5909 if (fsig->params [0]->type == MONO_TYPE_I4)
5911 if (fsig->params [0]->type == MONO_TYPE_U4)
5912 opcode = OP_IMIN_UN;
5913 else if (fsig->params [0]->type == MONO_TYPE_I8)
5915 else if (fsig->params [0]->type == MONO_TYPE_U8)
5916 opcode = OP_LMIN_UN;
5917 } else if (strcmp (cmethod->name, "Max") == 0) {
5918 if (fsig->params [0]->type == MONO_TYPE_I4)
5920 if (fsig->params [0]->type == MONO_TYPE_U4)
5921 opcode = OP_IMAX_UN;
5922 else if (fsig->params [0]->type == MONO_TYPE_I8)
5924 else if (fsig->params [0]->type == MONO_TYPE_U8)
5925 opcode = OP_LMAX_UN;
5929 if (opcode && fsig->param_count == 2) {
5930 MONO_INST_NEW (cfg, ins, opcode);
5931 ins->type = fsig->params [0]->type == MONO_TYPE_I4 ? STACK_I4 : STACK_I8;
5932 ins->dreg = mono_alloc_ireg (cfg);
5933 ins->sreg1 = args [0]->dreg;
5934 ins->sreg2 = args [1]->dreg;
5935 MONO_ADD_INS (cfg->cbb, ins);
5943 mini_emit_inst_for_sharable_method (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
5945 if (cmethod->klass == mono_defaults.array_class) {
5946 if (strcmp (cmethod->name, "UnsafeStore") == 0)
5947 return emit_array_unsafe_access (cfg, fsig, args, TRUE);
5948 else if (strcmp (cmethod->name, "UnsafeLoad") == 0)
5949 return emit_array_unsafe_access (cfg, fsig, args, FALSE);
5950 else if (strcmp (cmethod->name, "UnsafeMov") == 0)
5951 return emit_array_unsafe_mov (cfg, fsig, args);
5958 mini_emit_inst_for_method (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **args)
5960 MonoInst *ins = NULL;
5962 MonoClass *runtime_helpers_class = mono_class_get_runtime_helpers_class ();
5964 if (cmethod->klass == mono_defaults.string_class) {
5965 if (strcmp (cmethod->name, "get_Chars") == 0 && fsig->param_count + fsig->hasthis == 2) {
5966 int dreg = alloc_ireg (cfg);
5967 int index_reg = alloc_preg (cfg);
5968 int add_reg = alloc_preg (cfg);
5970 #if SIZEOF_REGISTER == 8
5971 if (COMPILE_LLVM (cfg)) {
5972 MONO_EMIT_NEW_UNALU (cfg, OP_ZEXT_I4, index_reg, args [1]->dreg);
5974 /* The array reg is 64 bits but the index reg is only 32 */
5975 MONO_EMIT_NEW_UNALU (cfg, OP_SEXT_I4, index_reg, args [1]->dreg);
5978 index_reg = args [1]->dreg;
5980 MONO_EMIT_BOUNDS_CHECK (cfg, args [0]->dreg, MonoString, length, index_reg);
5982 #if defined(TARGET_X86) || defined(TARGET_AMD64)
5983 EMIT_NEW_X86_LEA (cfg, ins, args [0]->dreg, index_reg, 1, MONO_STRUCT_OFFSET (MonoString, chars));
5984 add_reg = ins->dreg;
5985 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOADU2_MEMBASE, dreg,
5988 int mult_reg = alloc_preg (cfg);
5989 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_SHL_IMM, mult_reg, index_reg, 1);
5990 MONO_EMIT_NEW_BIALU (cfg, OP_PADD, add_reg, mult_reg, args [0]->dreg);
5991 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOADU2_MEMBASE, dreg,
5992 add_reg, MONO_STRUCT_OFFSET (MonoString, chars));
5994 type_from_op (cfg, ins, NULL, NULL);
5996 } else if (strcmp (cmethod->name, "get_Length") == 0 && fsig->param_count + fsig->hasthis == 1) {
5997 int dreg = alloc_ireg (cfg);
5998 /* Decompose later to allow more optimizations */
5999 EMIT_NEW_UNALU (cfg, ins, OP_STRLEN, dreg, args [0]->dreg);
6000 ins->type = STACK_I4;
6001 ins->flags |= MONO_INST_FAULT;
6002 cfg->cbb->has_array_access = TRUE;
6003 cfg->flags |= MONO_CFG_HAS_ARRAY_ACCESS;
6008 } else if (cmethod->klass == mono_defaults.object_class) {
6009 if (strcmp (cmethod->name, "GetType") == 0 && fsig->param_count + fsig->hasthis == 1) {
6010 int dreg = alloc_ireg_ref (cfg);
6011 int vt_reg = alloc_preg (cfg);
6012 MONO_EMIT_NEW_LOAD_MEMBASE_FAULT (cfg, vt_reg, args [0]->dreg, MONO_STRUCT_OFFSET (MonoObject, vtable));
6013 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOAD_MEMBASE, dreg, vt_reg, MONO_STRUCT_OFFSET (MonoVTable, type));
6014 type_from_op (cfg, ins, NULL, NULL);
6017 } else if (!cfg->backend->emulate_mul_div && strcmp (cmethod->name, "InternalGetHashCode") == 0 && fsig->param_count == 1 && !mono_gc_is_moving ()) {
6018 int dreg = alloc_ireg (cfg);
6019 int t1 = alloc_ireg (cfg);
6021 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_SHL_IMM, t1, args [0]->dreg, 3);
6022 EMIT_NEW_BIALU_IMM (cfg, ins, OP_MUL_IMM, dreg, t1, 2654435761u);
6023 ins->type = STACK_I4;
6026 } else if (strcmp (cmethod->name, ".ctor") == 0 && fsig->param_count == 0) {
6027 MONO_INST_NEW (cfg, ins, OP_NOP);
6028 MONO_ADD_INS (cfg->cbb, ins);
6032 } else if (cmethod->klass == mono_defaults.array_class) {
6033 if (strcmp (cmethod->name, "GetGenericValueImpl") == 0 && fsig->param_count + fsig->hasthis == 3 && !cfg->gsharedvt)
6034 return emit_array_generic_access (cfg, fsig, args, FALSE);
6035 else if (strcmp (cmethod->name, "SetGenericValueImpl") == 0 && fsig->param_count + fsig->hasthis == 3 && !cfg->gsharedvt)
6036 return emit_array_generic_access (cfg, fsig, args, TRUE);
6038 #ifndef MONO_BIG_ARRAYS
6040 * This is an inline version of GetLength/GetLowerBound(0) used frequently in
6043 else if (((strcmp (cmethod->name, "GetLength") == 0 && fsig->param_count + fsig->hasthis == 2) ||
6044 (strcmp (cmethod->name, "GetLowerBound") == 0 && fsig->param_count + fsig->hasthis == 2)) &&
6045 args [1]->opcode == OP_ICONST && args [1]->inst_c0 == 0) {
6046 int dreg = alloc_ireg (cfg);
6047 int bounds_reg = alloc_ireg_mp (cfg);
6048 MonoBasicBlock *end_bb, *szarray_bb;
6049 gboolean get_length = strcmp (cmethod->name, "GetLength") == 0;
6051 NEW_BBLOCK (cfg, end_bb);
6052 NEW_BBLOCK (cfg, szarray_bb);
6054 EMIT_NEW_LOAD_MEMBASE_FAULT (cfg, ins, OP_LOAD_MEMBASE, bounds_reg,
6055 args [0]->dreg, MONO_STRUCT_OFFSET (MonoArray, bounds));
6056 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, bounds_reg, 0);
6057 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_IBEQ, szarray_bb);
6058 /* Non-szarray case */
6060 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOADI4_MEMBASE, dreg,
6061 bounds_reg, MONO_STRUCT_OFFSET (MonoArrayBounds, length));
6063 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOADI4_MEMBASE, dreg,
6064 bounds_reg, MONO_STRUCT_OFFSET (MonoArrayBounds, lower_bound));
6065 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
6066 MONO_START_BB (cfg, szarray_bb);
6069 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOADI4_MEMBASE, dreg,
6070 args [0]->dreg, MONO_STRUCT_OFFSET (MonoArray, max_length));
6072 MONO_EMIT_NEW_ICONST (cfg, dreg, 0);
6073 MONO_START_BB (cfg, end_bb);
6075 EMIT_NEW_UNALU (cfg, ins, OP_MOVE, dreg, dreg);
6076 ins->type = STACK_I4;
6082 if (cmethod->name [0] != 'g')
6085 if (strcmp (cmethod->name, "get_Rank") == 0 && fsig->param_count + fsig->hasthis == 1) {
6086 int dreg = alloc_ireg (cfg);
6087 int vtable_reg = alloc_preg (cfg);
6088 MONO_EMIT_NEW_LOAD_MEMBASE_OP_FAULT (cfg, OP_LOAD_MEMBASE, vtable_reg,
6089 args [0]->dreg, MONO_STRUCT_OFFSET (MonoObject, vtable));
6090 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOADU1_MEMBASE, dreg,
6091 vtable_reg, MONO_STRUCT_OFFSET (MonoVTable, rank));
6092 type_from_op (cfg, ins, NULL, NULL);
6095 } else if (strcmp (cmethod->name, "get_Length") == 0 && fsig->param_count + fsig->hasthis == 1) {
6096 int dreg = alloc_ireg (cfg);
6098 EMIT_NEW_LOAD_MEMBASE_FAULT (cfg, ins, OP_LOADI4_MEMBASE, dreg,
6099 args [0]->dreg, MONO_STRUCT_OFFSET (MonoArray, max_length));
6100 type_from_op (cfg, ins, NULL, NULL);
6105 } else if (cmethod->klass == runtime_helpers_class) {
6106 if (strcmp (cmethod->name, "get_OffsetToStringData") == 0 && fsig->param_count == 0) {
6107 EMIT_NEW_ICONST (cfg, ins, MONO_STRUCT_OFFSET (MonoString, chars));
6111 } else if (cmethod->klass == mono_defaults.monitor_class) {
6112 gboolean is_enter = FALSE;
6113 gboolean is_v4 = FALSE;
6115 if (!strcmp (cmethod->name, "enter_with_atomic_var") && mono_method_signature (cmethod)->param_count == 2) {
6119 if (!strcmp (cmethod->name, "Enter") && mono_method_signature (cmethod)->param_count == 1)
6124 * To make async stack traces work, icalls which can block should have a wrapper.
6125 * For Monitor.Enter, emit two calls: a fastpath which doesn't have a wrapper, and a slowpath, which does.
6127 MonoBasicBlock *end_bb;
6129 NEW_BBLOCK (cfg, end_bb);
6131 ins = mono_emit_jit_icall (cfg, is_v4 ? (gpointer)mono_monitor_enter_v4_fast : (gpointer)mono_monitor_enter_fast, args);
6132 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_ICOMPARE_IMM, -1, ins->dreg, 0);
6133 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_IBNE_UN, end_bb);
6134 ins = mono_emit_jit_icall (cfg, is_v4 ? (gpointer)mono_monitor_enter_v4 : (gpointer)mono_monitor_enter, args);
6135 MONO_START_BB (cfg, end_bb);
6138 } else if (cmethod->klass == mono_defaults.thread_class) {
6139 if (strcmp (cmethod->name, "SpinWait_nop") == 0 && fsig->param_count == 0) {
6140 MONO_INST_NEW (cfg, ins, OP_RELAXED_NOP);
6141 MONO_ADD_INS (cfg->cbb, ins);
6143 } else if (strcmp (cmethod->name, "MemoryBarrier") == 0 && fsig->param_count == 0) {
6144 return emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_SEQ);
6145 } else if (!strcmp (cmethod->name, "VolatileRead") && fsig->param_count == 1) {
6147 gboolean is_ref = mini_type_is_reference (fsig->params [0]);
6149 if (fsig->params [0]->type == MONO_TYPE_I1)
6150 opcode = OP_LOADI1_MEMBASE;
6151 else if (fsig->params [0]->type == MONO_TYPE_U1)
6152 opcode = OP_LOADU1_MEMBASE;
6153 else if (fsig->params [0]->type == MONO_TYPE_I2)
6154 opcode = OP_LOADI2_MEMBASE;
6155 else if (fsig->params [0]->type == MONO_TYPE_U2)
6156 opcode = OP_LOADU2_MEMBASE;
6157 else if (fsig->params [0]->type == MONO_TYPE_I4)
6158 opcode = OP_LOADI4_MEMBASE;
6159 else if (fsig->params [0]->type == MONO_TYPE_U4)
6160 opcode = OP_LOADU4_MEMBASE;
6161 else if (fsig->params [0]->type == MONO_TYPE_I8 || fsig->params [0]->type == MONO_TYPE_U8)
6162 opcode = OP_LOADI8_MEMBASE;
6163 else if (fsig->params [0]->type == MONO_TYPE_R4)
6164 opcode = OP_LOADR4_MEMBASE;
6165 else if (fsig->params [0]->type == MONO_TYPE_R8)
6166 opcode = OP_LOADR8_MEMBASE;
6167 else if (is_ref || fsig->params [0]->type == MONO_TYPE_I || fsig->params [0]->type == MONO_TYPE_U)
6168 opcode = OP_LOAD_MEMBASE;
6171 MONO_INST_NEW (cfg, ins, opcode);
6172 ins->inst_basereg = args [0]->dreg;
6173 ins->inst_offset = 0;
6174 MONO_ADD_INS (cfg->cbb, ins);
6176 switch (fsig->params [0]->type) {
6183 ins->dreg = mono_alloc_ireg (cfg);
6184 ins->type = STACK_I4;
6188 ins->dreg = mono_alloc_lreg (cfg);
6189 ins->type = STACK_I8;
6193 ins->dreg = mono_alloc_ireg (cfg);
6194 #if SIZEOF_REGISTER == 8
6195 ins->type = STACK_I8;
6197 ins->type = STACK_I4;
6202 ins->dreg = mono_alloc_freg (cfg);
6203 ins->type = STACK_R8;
6206 g_assert (mini_type_is_reference (fsig->params [0]));
6207 ins->dreg = mono_alloc_ireg_ref (cfg);
6208 ins->type = STACK_OBJ;
6212 if (opcode == OP_LOADI8_MEMBASE)
6213 ins = mono_decompose_opcode (cfg, ins);
6215 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_SEQ);
6219 } else if (!strcmp (cmethod->name, "VolatileWrite") && fsig->param_count == 2) {
6221 gboolean is_ref = mini_type_is_reference (fsig->params [0]);
6223 if (fsig->params [0]->type == MONO_TYPE_I1 || fsig->params [0]->type == MONO_TYPE_U1)
6224 opcode = OP_STOREI1_MEMBASE_REG;
6225 else if (fsig->params [0]->type == MONO_TYPE_I2 || fsig->params [0]->type == MONO_TYPE_U2)
6226 opcode = OP_STOREI2_MEMBASE_REG;
6227 else if (fsig->params [0]->type == MONO_TYPE_I4 || fsig->params [0]->type == MONO_TYPE_U4)
6228 opcode = OP_STOREI4_MEMBASE_REG;
6229 else if (fsig->params [0]->type == MONO_TYPE_I8 || fsig->params [0]->type == MONO_TYPE_U8)
6230 opcode = OP_STOREI8_MEMBASE_REG;
6231 else if (fsig->params [0]->type == MONO_TYPE_R4)
6232 opcode = OP_STORER4_MEMBASE_REG;
6233 else if (fsig->params [0]->type == MONO_TYPE_R8)
6234 opcode = OP_STORER8_MEMBASE_REG;
6235 else if (is_ref || fsig->params [0]->type == MONO_TYPE_I || fsig->params [0]->type == MONO_TYPE_U)
6236 opcode = OP_STORE_MEMBASE_REG;
6239 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_SEQ);
6241 MONO_INST_NEW (cfg, ins, opcode);
6242 ins->sreg1 = args [1]->dreg;
6243 ins->inst_destbasereg = args [0]->dreg;
6244 ins->inst_offset = 0;
6245 MONO_ADD_INS (cfg->cbb, ins);
6247 if (opcode == OP_STOREI8_MEMBASE_REG)
6248 ins = mono_decompose_opcode (cfg, ins);
6253 } else if (cmethod->klass->image == mono_defaults.corlib &&
6254 (strcmp (cmethod->klass->name_space, "System.Threading") == 0) &&
6255 (strcmp (cmethod->klass->name, "Interlocked") == 0)) {
6258 #if SIZEOF_REGISTER == 8
6259 if (!cfg->llvm_only && strcmp (cmethod->name, "Read") == 0 && fsig->param_count == 1 && (fsig->params [0]->type == MONO_TYPE_I8)) {
6260 if (!cfg->llvm_only && mono_arch_opcode_supported (OP_ATOMIC_LOAD_I8)) {
6261 MONO_INST_NEW (cfg, ins, OP_ATOMIC_LOAD_I8);
6262 ins->dreg = mono_alloc_preg (cfg);
6263 ins->sreg1 = args [0]->dreg;
6264 ins->type = STACK_I8;
6265 ins->backend.memory_barrier_kind = MONO_MEMORY_BARRIER_SEQ;
6266 MONO_ADD_INS (cfg->cbb, ins);
6270 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_SEQ);
6272 /* 64 bit reads are already atomic */
6273 MONO_INST_NEW (cfg, load_ins, OP_LOADI8_MEMBASE);
6274 load_ins->dreg = mono_alloc_preg (cfg);
6275 load_ins->inst_basereg = args [0]->dreg;
6276 load_ins->inst_offset = 0;
6277 load_ins->type = STACK_I8;
6278 MONO_ADD_INS (cfg->cbb, load_ins);
6280 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_SEQ);
6287 if (strcmp (cmethod->name, "Increment") == 0 && fsig->param_count == 1) {
6288 MonoInst *ins_iconst;
6291 if (fsig->params [0]->type == MONO_TYPE_I4) {
6292 opcode = OP_ATOMIC_ADD_I4;
6293 cfg->has_atomic_add_i4 = TRUE;
6295 #if SIZEOF_REGISTER == 8
6296 else if (fsig->params [0]->type == MONO_TYPE_I8)
6297 opcode = OP_ATOMIC_ADD_I8;
6300 if (!mono_arch_opcode_supported (opcode))
6302 MONO_INST_NEW (cfg, ins_iconst, OP_ICONST);
6303 ins_iconst->inst_c0 = 1;
6304 ins_iconst->dreg = mono_alloc_ireg (cfg);
6305 MONO_ADD_INS (cfg->cbb, ins_iconst);
6307 MONO_INST_NEW (cfg, ins, opcode);
6308 ins->dreg = mono_alloc_ireg (cfg);
6309 ins->inst_basereg = args [0]->dreg;
6310 ins->inst_offset = 0;
6311 ins->sreg2 = ins_iconst->dreg;
6312 ins->type = (opcode == OP_ATOMIC_ADD_I4) ? STACK_I4 : STACK_I8;
6313 MONO_ADD_INS (cfg->cbb, ins);
6315 } else if (strcmp (cmethod->name, "Decrement") == 0 && fsig->param_count == 1) {
6316 MonoInst *ins_iconst;
6319 if (fsig->params [0]->type == MONO_TYPE_I4) {
6320 opcode = OP_ATOMIC_ADD_I4;
6321 cfg->has_atomic_add_i4 = TRUE;
6323 #if SIZEOF_REGISTER == 8
6324 else if (fsig->params [0]->type == MONO_TYPE_I8)
6325 opcode = OP_ATOMIC_ADD_I8;
6328 if (!mono_arch_opcode_supported (opcode))
6330 MONO_INST_NEW (cfg, ins_iconst, OP_ICONST);
6331 ins_iconst->inst_c0 = -1;
6332 ins_iconst->dreg = mono_alloc_ireg (cfg);
6333 MONO_ADD_INS (cfg->cbb, ins_iconst);
6335 MONO_INST_NEW (cfg, ins, opcode);
6336 ins->dreg = mono_alloc_ireg (cfg);
6337 ins->inst_basereg = args [0]->dreg;
6338 ins->inst_offset = 0;
6339 ins->sreg2 = ins_iconst->dreg;
6340 ins->type = (opcode == OP_ATOMIC_ADD_I4) ? STACK_I4 : STACK_I8;
6341 MONO_ADD_INS (cfg->cbb, ins);
6343 } else if (strcmp (cmethod->name, "Add") == 0 && fsig->param_count == 2) {
6346 if (fsig->params [0]->type == MONO_TYPE_I4) {
6347 opcode = OP_ATOMIC_ADD_I4;
6348 cfg->has_atomic_add_i4 = TRUE;
6350 #if SIZEOF_REGISTER == 8
6351 else if (fsig->params [0]->type == MONO_TYPE_I8)
6352 opcode = OP_ATOMIC_ADD_I8;
6355 if (!mono_arch_opcode_supported (opcode))
6357 MONO_INST_NEW (cfg, ins, opcode);
6358 ins->dreg = mono_alloc_ireg (cfg);
6359 ins->inst_basereg = args [0]->dreg;
6360 ins->inst_offset = 0;
6361 ins->sreg2 = args [1]->dreg;
6362 ins->type = (opcode == OP_ATOMIC_ADD_I4) ? STACK_I4 : STACK_I8;
6363 MONO_ADD_INS (cfg->cbb, ins);
6366 else if (strcmp (cmethod->name, "Exchange") == 0 && fsig->param_count == 2) {
6367 MonoInst *f2i = NULL, *i2f;
6368 guint32 opcode, f2i_opcode, i2f_opcode;
6369 gboolean is_ref = mini_type_is_reference (fsig->params [0]);
6370 gboolean is_float = fsig->params [0]->type == MONO_TYPE_R4 || fsig->params [0]->type == MONO_TYPE_R8;
6372 if (fsig->params [0]->type == MONO_TYPE_I4 ||
6373 fsig->params [0]->type == MONO_TYPE_R4) {
6374 opcode = OP_ATOMIC_EXCHANGE_I4;
6375 f2i_opcode = OP_MOVE_F_TO_I4;
6376 i2f_opcode = OP_MOVE_I4_TO_F;
6377 cfg->has_atomic_exchange_i4 = TRUE;
6379 #if SIZEOF_REGISTER == 8
6381 fsig->params [0]->type == MONO_TYPE_I8 ||
6382 fsig->params [0]->type == MONO_TYPE_R8 ||
6383 fsig->params [0]->type == MONO_TYPE_I) {
6384 opcode = OP_ATOMIC_EXCHANGE_I8;
6385 f2i_opcode = OP_MOVE_F_TO_I8;
6386 i2f_opcode = OP_MOVE_I8_TO_F;
6389 else if (is_ref || fsig->params [0]->type == MONO_TYPE_I) {
6390 opcode = OP_ATOMIC_EXCHANGE_I4;
6391 cfg->has_atomic_exchange_i4 = TRUE;
6397 if (!mono_arch_opcode_supported (opcode))
6401 /* TODO: Decompose these opcodes instead of bailing here. */
6402 if (COMPILE_SOFT_FLOAT (cfg))
6405 MONO_INST_NEW (cfg, f2i, f2i_opcode);
6406 f2i->dreg = mono_alloc_ireg (cfg);
6407 f2i->sreg1 = args [1]->dreg;
6408 if (f2i_opcode == OP_MOVE_F_TO_I4)
6409 f2i->backend.spill_var = mini_get_int_to_float_spill_area (cfg);
6410 MONO_ADD_INS (cfg->cbb, f2i);
6413 MONO_INST_NEW (cfg, ins, opcode);
6414 ins->dreg = is_ref ? mono_alloc_ireg_ref (cfg) : mono_alloc_ireg (cfg);
6415 ins->inst_basereg = args [0]->dreg;
6416 ins->inst_offset = 0;
6417 ins->sreg2 = is_float ? f2i->dreg : args [1]->dreg;
6418 MONO_ADD_INS (cfg->cbb, ins);
6420 switch (fsig->params [0]->type) {
6422 ins->type = STACK_I4;
6425 ins->type = STACK_I8;
6428 #if SIZEOF_REGISTER == 8
6429 ins->type = STACK_I8;
6431 ins->type = STACK_I4;
6436 ins->type = STACK_R8;
6439 g_assert (mini_type_is_reference (fsig->params [0]));
6440 ins->type = STACK_OBJ;
6445 MONO_INST_NEW (cfg, i2f, i2f_opcode);
6446 i2f->dreg = mono_alloc_freg (cfg);
6447 i2f->sreg1 = ins->dreg;
6448 i2f->type = STACK_R8;
6449 if (i2f_opcode == OP_MOVE_I4_TO_F)
6450 i2f->backend.spill_var = mini_get_int_to_float_spill_area (cfg);
6451 MONO_ADD_INS (cfg->cbb, i2f);
6456 if (cfg->gen_write_barriers && is_ref)
6457 emit_write_barrier (cfg, args [0], args [1]);
6459 else if ((strcmp (cmethod->name, "CompareExchange") == 0) && fsig->param_count == 3) {
6460 MonoInst *f2i_new = NULL, *f2i_cmp = NULL, *i2f;
6461 guint32 opcode, f2i_opcode, i2f_opcode;
6462 gboolean is_ref = mini_type_is_reference (fsig->params [1]);
6463 gboolean is_float = fsig->params [1]->type == MONO_TYPE_R4 || fsig->params [1]->type == MONO_TYPE_R8;
6465 if (fsig->params [1]->type == MONO_TYPE_I4 ||
6466 fsig->params [1]->type == MONO_TYPE_R4) {
6467 opcode = OP_ATOMIC_CAS_I4;
6468 f2i_opcode = OP_MOVE_F_TO_I4;
6469 i2f_opcode = OP_MOVE_I4_TO_F;
6470 cfg->has_atomic_cas_i4 = TRUE;
6472 #if SIZEOF_REGISTER == 8
6474 fsig->params [1]->type == MONO_TYPE_I8 ||
6475 fsig->params [1]->type == MONO_TYPE_R8 ||
6476 fsig->params [1]->type == MONO_TYPE_I) {
6477 opcode = OP_ATOMIC_CAS_I8;
6478 f2i_opcode = OP_MOVE_F_TO_I8;
6479 i2f_opcode = OP_MOVE_I8_TO_F;
6482 else if (is_ref || fsig->params [1]->type == MONO_TYPE_I) {
6483 opcode = OP_ATOMIC_CAS_I4;
6484 cfg->has_atomic_cas_i4 = TRUE;
6490 if (!mono_arch_opcode_supported (opcode))
6494 /* TODO: Decompose these opcodes instead of bailing here. */
6495 if (COMPILE_SOFT_FLOAT (cfg))
6498 MONO_INST_NEW (cfg, f2i_new, f2i_opcode);
6499 f2i_new->dreg = mono_alloc_ireg (cfg);
6500 f2i_new->sreg1 = args [1]->dreg;
6501 if (f2i_opcode == OP_MOVE_F_TO_I4)
6502 f2i_new->backend.spill_var = mini_get_int_to_float_spill_area (cfg);
6503 MONO_ADD_INS (cfg->cbb, f2i_new);
6505 MONO_INST_NEW (cfg, f2i_cmp, f2i_opcode);
6506 f2i_cmp->dreg = mono_alloc_ireg (cfg);
6507 f2i_cmp->sreg1 = args [2]->dreg;
6508 if (f2i_opcode == OP_MOVE_F_TO_I4)
6509 f2i_cmp->backend.spill_var = mini_get_int_to_float_spill_area (cfg);
6510 MONO_ADD_INS (cfg->cbb, f2i_cmp);
6513 MONO_INST_NEW (cfg, ins, opcode);
6514 ins->dreg = is_ref ? alloc_ireg_ref (cfg) : alloc_ireg (cfg);
6515 ins->sreg1 = args [0]->dreg;
6516 ins->sreg2 = is_float ? f2i_new->dreg : args [1]->dreg;
6517 ins->sreg3 = is_float ? f2i_cmp->dreg : args [2]->dreg;
6518 MONO_ADD_INS (cfg->cbb, ins);
6520 switch (fsig->params [1]->type) {
6522 ins->type = STACK_I4;
6525 ins->type = STACK_I8;
6528 #if SIZEOF_REGISTER == 8
6529 ins->type = STACK_I8;
6531 ins->type = STACK_I4;
6535 ins->type = cfg->r4_stack_type;
6538 ins->type = STACK_R8;
6541 g_assert (mini_type_is_reference (fsig->params [1]));
6542 ins->type = STACK_OBJ;
6547 MONO_INST_NEW (cfg, i2f, i2f_opcode);
6548 i2f->dreg = mono_alloc_freg (cfg);
6549 i2f->sreg1 = ins->dreg;
6550 i2f->type = STACK_R8;
6551 if (i2f_opcode == OP_MOVE_I4_TO_F)
6552 i2f->backend.spill_var = mini_get_int_to_float_spill_area (cfg);
6553 MONO_ADD_INS (cfg->cbb, i2f);
6558 if (cfg->gen_write_barriers && is_ref)
6559 emit_write_barrier (cfg, args [0], args [1]);
6561 else if ((strcmp (cmethod->name, "CompareExchange") == 0) && fsig->param_count == 4 &&
6562 fsig->params [1]->type == MONO_TYPE_I4) {
6563 MonoInst *cmp, *ceq;
6565 if (!mono_arch_opcode_supported (OP_ATOMIC_CAS_I4))
6568 /* int32 r = CAS (location, value, comparand); */
6569 MONO_INST_NEW (cfg, ins, OP_ATOMIC_CAS_I4);
6570 ins->dreg = alloc_ireg (cfg);
6571 ins->sreg1 = args [0]->dreg;
6572 ins->sreg2 = args [1]->dreg;
6573 ins->sreg3 = args [2]->dreg;
6574 ins->type = STACK_I4;
6575 MONO_ADD_INS (cfg->cbb, ins);
6577 /* bool result = r == comparand; */
6578 MONO_INST_NEW (cfg, cmp, OP_ICOMPARE);
6579 cmp->sreg1 = ins->dreg;
6580 cmp->sreg2 = args [2]->dreg;
6581 cmp->type = STACK_I4;
6582 MONO_ADD_INS (cfg->cbb, cmp);
6584 MONO_INST_NEW (cfg, ceq, OP_ICEQ);
6585 ceq->dreg = alloc_ireg (cfg);
6586 ceq->type = STACK_I4;
6587 MONO_ADD_INS (cfg->cbb, ceq);
6589 /* *success = result; */
6590 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREI1_MEMBASE_REG, args [3]->dreg, 0, ceq->dreg);
6592 cfg->has_atomic_cas_i4 = TRUE;
6594 else if (strcmp (cmethod->name, "MemoryBarrier") == 0 && fsig->param_count == 0)
6595 ins = emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_SEQ);
6599 } else if (cmethod->klass->image == mono_defaults.corlib &&
6600 (strcmp (cmethod->klass->name_space, "System.Threading") == 0) &&
6601 (strcmp (cmethod->klass->name, "Volatile") == 0)) {
6604 if (!cfg->llvm_only && !strcmp (cmethod->name, "Read") && fsig->param_count == 1) {
6606 MonoType *t = fsig->params [0];
6608 gboolean is_float = t->type == MONO_TYPE_R4 || t->type == MONO_TYPE_R8;
6610 g_assert (t->byref);
6611 /* t is a byref type, so the reference check is more complicated */
6612 is_ref = mini_type_is_reference (&mono_class_from_mono_type (t)->byval_arg);
6613 if (t->type == MONO_TYPE_I1)
6614 opcode = OP_ATOMIC_LOAD_I1;
6615 else if (t->type == MONO_TYPE_U1 || t->type == MONO_TYPE_BOOLEAN)
6616 opcode = OP_ATOMIC_LOAD_U1;
6617 else if (t->type == MONO_TYPE_I2)
6618 opcode = OP_ATOMIC_LOAD_I2;
6619 else if (t->type == MONO_TYPE_U2)
6620 opcode = OP_ATOMIC_LOAD_U2;
6621 else if (t->type == MONO_TYPE_I4)
6622 opcode = OP_ATOMIC_LOAD_I4;
6623 else if (t->type == MONO_TYPE_U4)
6624 opcode = OP_ATOMIC_LOAD_U4;
6625 else if (t->type == MONO_TYPE_R4)
6626 opcode = OP_ATOMIC_LOAD_R4;
6627 else if (t->type == MONO_TYPE_R8)
6628 opcode = OP_ATOMIC_LOAD_R8;
6629 #if SIZEOF_REGISTER == 8
6630 else if (t->type == MONO_TYPE_I8 || t->type == MONO_TYPE_I)
6631 opcode = OP_ATOMIC_LOAD_I8;
6632 else if (is_ref || t->type == MONO_TYPE_U8 || t->type == MONO_TYPE_U)
6633 opcode = OP_ATOMIC_LOAD_U8;
6635 else if (t->type == MONO_TYPE_I)
6636 opcode = OP_ATOMIC_LOAD_I4;
6637 else if (is_ref || t->type == MONO_TYPE_U)
6638 opcode = OP_ATOMIC_LOAD_U4;
6642 if (!mono_arch_opcode_supported (opcode))
6645 MONO_INST_NEW (cfg, ins, opcode);
6646 ins->dreg = is_ref ? mono_alloc_ireg_ref (cfg) : (is_float ? mono_alloc_freg (cfg) : mono_alloc_ireg (cfg));
6647 ins->sreg1 = args [0]->dreg;
6648 ins->backend.memory_barrier_kind = MONO_MEMORY_BARRIER_ACQ;
6649 MONO_ADD_INS (cfg->cbb, ins);
6652 case MONO_TYPE_BOOLEAN:
6659 ins->type = STACK_I4;
6663 ins->type = STACK_I8;
6667 #if SIZEOF_REGISTER == 8
6668 ins->type = STACK_I8;
6670 ins->type = STACK_I4;
6674 ins->type = cfg->r4_stack_type;
6677 ins->type = STACK_R8;
6681 ins->type = STACK_OBJ;
6687 if (!cfg->llvm_only && !strcmp (cmethod->name, "Write") && fsig->param_count == 2) {
6689 MonoType *t = fsig->params [0];
6692 g_assert (t->byref);
6693 is_ref = mini_type_is_reference (&mono_class_from_mono_type (t)->byval_arg);
6694 if (t->type == MONO_TYPE_I1)
6695 opcode = OP_ATOMIC_STORE_I1;
6696 else if (t->type == MONO_TYPE_U1 || t->type == MONO_TYPE_BOOLEAN)
6697 opcode = OP_ATOMIC_STORE_U1;
6698 else if (t->type == MONO_TYPE_I2)
6699 opcode = OP_ATOMIC_STORE_I2;
6700 else if (t->type == MONO_TYPE_U2)
6701 opcode = OP_ATOMIC_STORE_U2;
6702 else if (t->type == MONO_TYPE_I4)
6703 opcode = OP_ATOMIC_STORE_I4;
6704 else if (t->type == MONO_TYPE_U4)
6705 opcode = OP_ATOMIC_STORE_U4;
6706 else if (t->type == MONO_TYPE_R4)
6707 opcode = OP_ATOMIC_STORE_R4;
6708 else if (t->type == MONO_TYPE_R8)
6709 opcode = OP_ATOMIC_STORE_R8;
6710 #if SIZEOF_REGISTER == 8
6711 else if (t->type == MONO_TYPE_I8 || t->type == MONO_TYPE_I)
6712 opcode = OP_ATOMIC_STORE_I8;
6713 else if (is_ref || t->type == MONO_TYPE_U8 || t->type == MONO_TYPE_U)
6714 opcode = OP_ATOMIC_STORE_U8;
6716 else if (t->type == MONO_TYPE_I)
6717 opcode = OP_ATOMIC_STORE_I4;
6718 else if (is_ref || t->type == MONO_TYPE_U)
6719 opcode = OP_ATOMIC_STORE_U4;
6723 if (!mono_arch_opcode_supported (opcode))
6726 MONO_INST_NEW (cfg, ins, opcode);
6727 ins->dreg = args [0]->dreg;
6728 ins->sreg1 = args [1]->dreg;
6729 ins->backend.memory_barrier_kind = MONO_MEMORY_BARRIER_REL;
6730 MONO_ADD_INS (cfg->cbb, ins);
6732 if (cfg->gen_write_barriers && is_ref)
6733 emit_write_barrier (cfg, args [0], args [1]);
6739 } else if (cmethod->klass->image == mono_defaults.corlib &&
6740 (strcmp (cmethod->klass->name_space, "System.Diagnostics") == 0) &&
6741 (strcmp (cmethod->klass->name, "Debugger") == 0)) {
6742 if (!strcmp (cmethod->name, "Break") && fsig->param_count == 0) {
6743 if (should_insert_brekpoint (cfg->method)) {
6744 ins = mono_emit_jit_icall (cfg, mono_debugger_agent_user_break, NULL);
6746 MONO_INST_NEW (cfg, ins, OP_NOP);
6747 MONO_ADD_INS (cfg->cbb, ins);
6751 } else if (cmethod->klass->image == mono_defaults.corlib &&
6752 (strcmp (cmethod->klass->name_space, "System") == 0) &&
6753 (strcmp (cmethod->klass->name, "Environment") == 0)) {
6754 if (!strcmp (cmethod->name, "get_IsRunningOnWindows") && fsig->param_count == 0) {
6756 EMIT_NEW_ICONST (cfg, ins, 1);
6758 EMIT_NEW_ICONST (cfg, ins, 0);
6761 } else if (cmethod->klass->image == mono_defaults.corlib &&
6762 (strcmp (cmethod->klass->name_space, "System.Reflection") == 0) &&
6763 (strcmp (cmethod->klass->name, "Assembly") == 0)) {
6764 if (cfg->llvm_only && !strcmp (cmethod->name, "GetExecutingAssembly")) {
6765 /* No stack walks are currently available, so implement this as an intrinsic */
6766 MonoInst *assembly_ins;
6768 EMIT_NEW_AOTCONST (cfg, assembly_ins, MONO_PATCH_INFO_IMAGE, cfg->method->klass->image);
6769 ins = mono_emit_jit_icall (cfg, mono_get_assembly_object, &assembly_ins);
6772 } else if (cmethod->klass->image == mono_defaults.corlib &&
6773 (strcmp (cmethod->klass->name_space, "System.Reflection") == 0) &&
6774 (strcmp (cmethod->klass->name, "MethodBase") == 0)) {
6775 if (cfg->llvm_only && !strcmp (cmethod->name, "GetCurrentMethod")) {
6776 /* No stack walks are currently available, so implement this as an intrinsic */
6777 MonoInst *method_ins;
6778 MonoMethod *declaring = cfg->method;
6780 /* This returns the declaring generic method */
6781 if (declaring->is_inflated)
6782 declaring = ((MonoMethodInflated*)cfg->method)->declaring;
6783 EMIT_NEW_AOTCONST (cfg, method_ins, MONO_PATCH_INFO_METHODCONST, declaring);
6784 ins = mono_emit_jit_icall (cfg, mono_get_method_object, &method_ins);
6785 cfg->no_inline = TRUE;
6786 if (cfg->method != cfg->current_method)
6787 inline_failure (cfg, "MethodBase:GetCurrentMethod ()");
6790 } else if (cmethod->klass == mono_defaults.math_class) {
6792 * There is general branchless code for Min/Max, but it does not work for
6794 * http://everything2.com/?node_id=1051618
6796 } else if (((!strcmp (cmethod->klass->image->assembly->aname.name, "MonoMac") ||
6797 !strcmp (cmethod->klass->image->assembly->aname.name, "monotouch")) &&
6798 !strcmp (cmethod->klass->name_space, "XamCore.ObjCRuntime") &&
6799 !strcmp (cmethod->klass->name, "Selector")) ||
6800 (!strcmp (cmethod->klass->image->assembly->aname.name, "Xamarin.iOS") &&
6801 !strcmp (cmethod->klass->name_space, "ObjCRuntime") &&
6802 !strcmp (cmethod->klass->name, "Selector"))
6804 if (cfg->backend->have_objc_get_selector &&
6805 !strcmp (cmethod->name, "GetHandle") && fsig->param_count == 1 &&
6806 (args [0]->opcode == OP_GOT_ENTRY || args [0]->opcode == OP_AOTCONST) &&
6807 cfg->compile_aot && !cfg->llvm_only) {
6809 MonoJumpInfoToken *ji;
6814 cfg->exception_message = g_strdup ("GetHandle");
6815 cfg->disable_llvm = TRUE;
6817 if (args [0]->opcode == OP_GOT_ENTRY) {
6818 pi = (MonoInst *)args [0]->inst_p1;
6819 g_assert (pi->opcode == OP_PATCH_INFO);
6820 g_assert (GPOINTER_TO_INT (pi->inst_p1) == MONO_PATCH_INFO_LDSTR);
6821 ji = (MonoJumpInfoToken *)pi->inst_p0;
6823 g_assert (GPOINTER_TO_INT (args [0]->inst_p1) == MONO_PATCH_INFO_LDSTR);
6824 ji = (MonoJumpInfoToken *)args [0]->inst_p0;
6827 NULLIFY_INS (args [0]);
6830 s = mono_ldstr (cfg->domain, ji->image, mono_metadata_token_index (ji->token));
6831 MONO_INST_NEW (cfg, ins, OP_OBJC_GET_SELECTOR);
6832 ins->dreg = mono_alloc_ireg (cfg);
6834 ins->inst_p0 = mono_string_to_utf8 (s);
6835 MONO_ADD_INS (cfg->cbb, ins);
6840 #ifdef MONO_ARCH_SIMD_INTRINSICS
6841 if (cfg->opt & MONO_OPT_SIMD) {
6842 ins = mono_emit_simd_intrinsics (cfg, cmethod, fsig, args);
6848 ins = mono_emit_native_types_intrinsics (cfg, cmethod, fsig, args);
6852 if (COMPILE_LLVM (cfg)) {
6853 ins = llvm_emit_inst_for_method (cfg, cmethod, fsig, args);
6858 return mono_arch_emit_inst_for_method (cfg, cmethod, fsig, args);
6862 * This entry point could be used later for arbitrary method
6865 inline static MonoInst*
6866 mini_redirect_call (MonoCompile *cfg, MonoMethod *method,
6867 MonoMethodSignature *signature, MonoInst **args, MonoInst *this_ins)
6869 if (method->klass == mono_defaults.string_class) {
6870 /* managed string allocation support */
6871 if (strcmp (method->name, "InternalAllocateStr") == 0 && !(mono_profiler_events & MONO_PROFILE_ALLOCATIONS) && !(cfg->opt & MONO_OPT_SHARED)) {
6872 MonoInst *iargs [2];
6873 MonoVTable *vtable = mono_class_vtable (cfg->domain, method->klass);
6874 MonoMethod *managed_alloc = NULL;
6876 g_assert (vtable); /*Should not fail since it System.String*/
6877 #ifndef MONO_CROSS_COMPILE
6878 managed_alloc = mono_gc_get_managed_allocator (method->klass, FALSE, FALSE);
6882 EMIT_NEW_VTABLECONST (cfg, iargs [0], vtable);
6883 iargs [1] = args [0];
6884 return mono_emit_method_call (cfg, managed_alloc, iargs, this_ins);
6891 mono_save_args (MonoCompile *cfg, MonoMethodSignature *sig, MonoInst **sp)
6893 MonoInst *store, *temp;
6896 for (i = 0; i < sig->param_count + sig->hasthis; ++i) {
6897 MonoType *argtype = (sig->hasthis && (i == 0)) ? type_from_stack_type (*sp) : sig->params [i - sig->hasthis];
6900 * FIXME: We should use *args++ = sp [0], but that would mean the arg
6901 * would be different than the MonoInst's used to represent arguments, and
6902 * the ldelema implementation can't deal with that.
6903 * Solution: When ldelema is used on an inline argument, create a var for
6904 * it, emit ldelema on that var, and emit the saving code below in
6905 * inline_method () if needed.
6907 temp = mono_compile_create_var (cfg, argtype, OP_LOCAL);
6908 cfg->args [i] = temp;
6909 /* This uses cfg->args [i] which is set by the preceeding line */
6910 EMIT_NEW_ARGSTORE (cfg, store, i, *sp);
6911 store->cil_code = sp [0]->cil_code;
6916 #define MONO_INLINE_CALLED_LIMITED_METHODS 1
6917 #define MONO_INLINE_CALLER_LIMITED_METHODS 1
6919 #if (MONO_INLINE_CALLED_LIMITED_METHODS)
6921 check_inline_called_method_name_limit (MonoMethod *called_method)
6924 static const char *limit = NULL;
6926 if (limit == NULL) {
6927 const char *limit_string = g_getenv ("MONO_INLINE_CALLED_METHOD_NAME_LIMIT");
6929 if (limit_string != NULL)
6930 limit = limit_string;
6935 if (limit [0] != '\0') {
6936 char *called_method_name = mono_method_full_name (called_method, TRUE);
6938 strncmp_result = strncmp (called_method_name, limit, strlen (limit));
6939 g_free (called_method_name);
6941 //return (strncmp_result <= 0);
6942 return (strncmp_result == 0);
6949 #if (MONO_INLINE_CALLER_LIMITED_METHODS)
6951 check_inline_caller_method_name_limit (MonoMethod *caller_method)
6954 static const char *limit = NULL;
6956 if (limit == NULL) {
6957 const char *limit_string = g_getenv ("MONO_INLINE_CALLER_METHOD_NAME_LIMIT");
6958 if (limit_string != NULL) {
6959 limit = limit_string;
6965 if (limit [0] != '\0') {
6966 char *caller_method_name = mono_method_full_name (caller_method, TRUE);
6968 strncmp_result = strncmp (caller_method_name, limit, strlen (limit));
6969 g_free (caller_method_name);
6971 //return (strncmp_result <= 0);
6972 return (strncmp_result == 0);
6980 emit_init_rvar (MonoCompile *cfg, int dreg, MonoType *rtype)
6982 static double r8_0 = 0.0;
6983 static float r4_0 = 0.0;
6987 rtype = mini_get_underlying_type (rtype);
6991 MONO_EMIT_NEW_PCONST (cfg, dreg, NULL);
6992 } else if (t >= MONO_TYPE_BOOLEAN && t <= MONO_TYPE_U4) {
6993 MONO_EMIT_NEW_ICONST (cfg, dreg, 0);
6994 } else if (t == MONO_TYPE_I8 || t == MONO_TYPE_U8) {
6995 MONO_EMIT_NEW_I8CONST (cfg, dreg, 0);
6996 } else if (cfg->r4fp && t == MONO_TYPE_R4) {
6997 MONO_INST_NEW (cfg, ins, OP_R4CONST);
6998 ins->type = STACK_R4;
6999 ins->inst_p0 = (void*)&r4_0;
7001 MONO_ADD_INS (cfg->cbb, ins);
7002 } else if (t == MONO_TYPE_R4 || t == MONO_TYPE_R8) {
7003 MONO_INST_NEW (cfg, ins, OP_R8CONST);
7004 ins->type = STACK_R8;
7005 ins->inst_p0 = (void*)&r8_0;
7007 MONO_ADD_INS (cfg->cbb, ins);
7008 } else if ((t == MONO_TYPE_VALUETYPE) || (t == MONO_TYPE_TYPEDBYREF) ||
7009 ((t == MONO_TYPE_GENERICINST) && mono_type_generic_inst_is_valuetype (rtype))) {
7010 MONO_EMIT_NEW_VZERO (cfg, dreg, mono_class_from_mono_type (rtype));
7011 } else if (((t == MONO_TYPE_VAR) || (t == MONO_TYPE_MVAR)) && mini_type_var_is_vt (rtype)) {
7012 MONO_EMIT_NEW_VZERO (cfg, dreg, mono_class_from_mono_type (rtype));
7014 MONO_EMIT_NEW_PCONST (cfg, dreg, NULL);
7019 emit_dummy_init_rvar (MonoCompile *cfg, int dreg, MonoType *rtype)
7023 rtype = mini_get_underlying_type (rtype);
7027 MONO_EMIT_NEW_DUMMY_INIT (cfg, dreg, OP_DUMMY_PCONST);
7028 } else if (t >= MONO_TYPE_BOOLEAN && t <= MONO_TYPE_U4) {
7029 MONO_EMIT_NEW_DUMMY_INIT (cfg, dreg, OP_DUMMY_ICONST);
7030 } else if (t == MONO_TYPE_I8 || t == MONO_TYPE_U8) {
7031 MONO_EMIT_NEW_DUMMY_INIT (cfg, dreg, OP_DUMMY_I8CONST);
7032 } else if (cfg->r4fp && t == MONO_TYPE_R4) {
7033 MONO_EMIT_NEW_DUMMY_INIT (cfg, dreg, OP_DUMMY_R4CONST);
7034 } else if (t == MONO_TYPE_R4 || t == MONO_TYPE_R8) {
7035 MONO_EMIT_NEW_DUMMY_INIT (cfg, dreg, OP_DUMMY_R8CONST);
7036 } else if ((t == MONO_TYPE_VALUETYPE) || (t == MONO_TYPE_TYPEDBYREF) ||
7037 ((t == MONO_TYPE_GENERICINST) && mono_type_generic_inst_is_valuetype (rtype))) {
7038 MONO_EMIT_NEW_DUMMY_INIT (cfg, dreg, OP_DUMMY_VZERO);
7039 } else if (((t == MONO_TYPE_VAR) || (t == MONO_TYPE_MVAR)) && mini_type_var_is_vt (rtype)) {
7040 MONO_EMIT_NEW_DUMMY_INIT (cfg, dreg, OP_DUMMY_VZERO);
7042 emit_init_rvar (cfg, dreg, rtype);
7046 /* If INIT is FALSE, emit dummy initialization statements to keep the IR valid */
7048 emit_init_local (MonoCompile *cfg, int local, MonoType *type, gboolean init)
7050 MonoInst *var = cfg->locals [local];
7051 if (COMPILE_SOFT_FLOAT (cfg)) {
7053 int reg = alloc_dreg (cfg, (MonoStackType)var->type);
7054 emit_init_rvar (cfg, reg, type);
7055 EMIT_NEW_LOCSTORE (cfg, store, local, cfg->cbb->last_ins);
7058 emit_init_rvar (cfg, var->dreg, type);
7060 emit_dummy_init_rvar (cfg, var->dreg, type);
7067 * Return the cost of inlining CMETHOD.
7070 inline_method (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, MonoInst **sp,
7071 guchar *ip, guint real_offset, gboolean inline_always)
7074 MonoInst *ins, *rvar = NULL;
7075 MonoMethodHeader *cheader;
7076 MonoBasicBlock *ebblock, *sbblock;
7078 MonoMethod *prev_inlined_method;
7079 MonoInst **prev_locals, **prev_args;
7080 MonoType **prev_arg_types;
7081 guint prev_real_offset;
7082 GHashTable *prev_cbb_hash;
7083 MonoBasicBlock **prev_cil_offset_to_bb;
7084 MonoBasicBlock *prev_cbb;
7085 unsigned char* prev_cil_start;
7086 guint32 prev_cil_offset_to_bb_len;
7087 MonoMethod *prev_current_method;
7088 MonoGenericContext *prev_generic_context;
7089 gboolean ret_var_set, prev_ret_var_set, prev_disable_inline, virtual_ = FALSE;
7091 g_assert (cfg->exception_type == MONO_EXCEPTION_NONE);
7093 #if (MONO_INLINE_CALLED_LIMITED_METHODS)
7094 if ((! inline_always) && ! check_inline_called_method_name_limit (cmethod))
7097 #if (MONO_INLINE_CALLER_LIMITED_METHODS)
7098 if ((! inline_always) && ! check_inline_caller_method_name_limit (cfg->method))
7103 fsig = mono_method_signature (cmethod);
7105 if (cfg->verbose_level > 2)
7106 printf ("INLINE START %p %s -> %s\n", cmethod, mono_method_full_name (cfg->method, TRUE), mono_method_full_name (cmethod, TRUE));
7108 if (!cmethod->inline_info) {
7109 cfg->stat_inlineable_methods++;
7110 cmethod->inline_info = 1;
7113 /* allocate local variables */
7114 cheader = mono_method_get_header_checked (cmethod, &error);
7116 if (inline_always) {
7117 mono_cfg_set_exception (cfg, MONO_EXCEPTION_MONO_ERROR);
7118 mono_error_move (&cfg->error, &error);
7120 mono_error_cleanup (&error);
7125 /*Must verify before creating locals as it can cause the JIT to assert.*/
7126 if (mono_compile_is_broken (cfg, cmethod, FALSE)) {
7127 mono_metadata_free_mh (cheader);
7131 /* allocate space to store the return value */
7132 if (!MONO_TYPE_IS_VOID (fsig->ret)) {
7133 rvar = mono_compile_create_var (cfg, fsig->ret, OP_LOCAL);
7136 prev_locals = cfg->locals;
7137 cfg->locals = (MonoInst **)mono_mempool_alloc0 (cfg->mempool, cheader->num_locals * sizeof (MonoInst*));
7138 for (i = 0; i < cheader->num_locals; ++i)
7139 cfg->locals [i] = mono_compile_create_var (cfg, cheader->locals [i], OP_LOCAL);
7141 /* allocate start and end blocks */
7142 /* This is needed so if the inline is aborted, we can clean up */
7143 NEW_BBLOCK (cfg, sbblock);
7144 sbblock->real_offset = real_offset;
7146 NEW_BBLOCK (cfg, ebblock);
7147 ebblock->block_num = cfg->num_bblocks++;
7148 ebblock->real_offset = real_offset;
7150 prev_args = cfg->args;
7151 prev_arg_types = cfg->arg_types;
7152 prev_inlined_method = cfg->inlined_method;
7153 cfg->inlined_method = cmethod;
7154 cfg->ret_var_set = FALSE;
7155 cfg->inline_depth ++;
7156 prev_real_offset = cfg->real_offset;
7157 prev_cbb_hash = cfg->cbb_hash;
7158 prev_cil_offset_to_bb = cfg->cil_offset_to_bb;
7159 prev_cil_offset_to_bb_len = cfg->cil_offset_to_bb_len;
7160 prev_cil_start = cfg->cil_start;
7161 prev_cbb = cfg->cbb;
7162 prev_current_method = cfg->current_method;
7163 prev_generic_context = cfg->generic_context;
7164 prev_ret_var_set = cfg->ret_var_set;
7165 prev_disable_inline = cfg->disable_inline;
7167 if (ip && *ip == CEE_CALLVIRT && !(cmethod->flags & METHOD_ATTRIBUTE_STATIC))
7170 costs = mono_method_to_ir (cfg, cmethod, sbblock, ebblock, rvar, sp, real_offset, virtual_);
7172 ret_var_set = cfg->ret_var_set;
7174 cfg->inlined_method = prev_inlined_method;
7175 cfg->real_offset = prev_real_offset;
7176 cfg->cbb_hash = prev_cbb_hash;
7177 cfg->cil_offset_to_bb = prev_cil_offset_to_bb;
7178 cfg->cil_offset_to_bb_len = prev_cil_offset_to_bb_len;
7179 cfg->cil_start = prev_cil_start;
7180 cfg->locals = prev_locals;
7181 cfg->args = prev_args;
7182 cfg->arg_types = prev_arg_types;
7183 cfg->current_method = prev_current_method;
7184 cfg->generic_context = prev_generic_context;
7185 cfg->ret_var_set = prev_ret_var_set;
7186 cfg->disable_inline = prev_disable_inline;
7187 cfg->inline_depth --;
7189 if ((costs >= 0 && costs < 60) || inline_always || (costs >= 0 && (cmethod->iflags & METHOD_IMPL_ATTRIBUTE_AGGRESSIVE_INLINING))) {
7190 if (cfg->verbose_level > 2)
7191 printf ("INLINE END %s -> %s\n", mono_method_full_name (cfg->method, TRUE), mono_method_full_name (cmethod, TRUE));
7193 cfg->stat_inlined_methods++;
7195 /* always add some code to avoid block split failures */
7196 MONO_INST_NEW (cfg, ins, OP_NOP);
7197 MONO_ADD_INS (prev_cbb, ins);
7199 prev_cbb->next_bb = sbblock;
7200 link_bblock (cfg, prev_cbb, sbblock);
7203 * Get rid of the begin and end bblocks if possible to aid local
7206 mono_merge_basic_blocks (cfg, prev_cbb, sbblock);
7208 if ((prev_cbb->out_count == 1) && (prev_cbb->out_bb [0]->in_count == 1) && (prev_cbb->out_bb [0] != ebblock))
7209 mono_merge_basic_blocks (cfg, prev_cbb, prev_cbb->out_bb [0]);
7211 if ((ebblock->in_count == 1) && ebblock->in_bb [0]->out_count == 1) {
7212 MonoBasicBlock *prev = ebblock->in_bb [0];
7214 if (prev->next_bb == ebblock) {
7215 mono_merge_basic_blocks (cfg, prev, ebblock);
7217 if ((prev_cbb->out_count == 1) && (prev_cbb->out_bb [0]->in_count == 1) && (prev_cbb->out_bb [0] == prev)) {
7218 mono_merge_basic_blocks (cfg, prev_cbb, prev);
7219 cfg->cbb = prev_cbb;
7222 /* There could be a bblock after 'prev', and making 'prev' the current bb could cause problems */
7227 * Its possible that the rvar is set in some prev bblock, but not in others.
7233 for (i = 0; i < ebblock->in_count; ++i) {
7234 bb = ebblock->in_bb [i];
7236 if (bb->last_ins && bb->last_ins->opcode == OP_NOT_REACHED) {
7239 emit_init_rvar (cfg, rvar->dreg, fsig->ret);
7249 * If the inlined method contains only a throw, then the ret var is not
7250 * set, so set it to a dummy value.
7253 emit_init_rvar (cfg, rvar->dreg, fsig->ret);
7255 EMIT_NEW_TEMPLOAD (cfg, ins, rvar->inst_c0);
7258 cfg->headers_to_free = g_slist_prepend_mempool (cfg->mempool, cfg->headers_to_free, cheader);
7261 if (cfg->verbose_level > 2)
7262 printf ("INLINE ABORTED %s (cost %d)\n", mono_method_full_name (cmethod, TRUE), costs);
7263 cfg->exception_type = MONO_EXCEPTION_NONE;
7265 /* This gets rid of the newly added bblocks */
7266 cfg->cbb = prev_cbb;
7268 cfg->headers_to_free = g_slist_prepend_mempool (cfg->mempool, cfg->headers_to_free, cheader);
7273 * Some of these comments may well be out-of-date.
7274 * Design decisions: we do a single pass over the IL code (and we do bblock
7275 * splitting/merging in the few cases when it's required: a back jump to an IL
7276 * address that was not already seen as bblock starting point).
7277 * Code is validated as we go (full verification is still better left to metadata/verify.c).
7278 * Complex operations are decomposed in simpler ones right away. We need to let the
7279 * arch-specific code peek and poke inside this process somehow (except when the
7280 * optimizations can take advantage of the full semantic info of coarse opcodes).
7281 * All the opcodes of the form opcode.s are 'normalized' to opcode.
7282 * MonoInst->opcode initially is the IL opcode or some simplification of that
7283 * (OP_LOAD, OP_STORE). The arch-specific code may rearrange it to an arch-specific
7284 * opcode with value bigger than OP_LAST.
7285 * At this point the IR can be handed over to an interpreter, a dumb code generator
7286 * or to the optimizing code generator that will translate it to SSA form.
7288 * Profiling directed optimizations.
7289 * We may compile by default with few or no optimizations and instrument the code
7290 * or the user may indicate what methods to optimize the most either in a config file
7291 * or through repeated runs where the compiler applies offline the optimizations to
7292 * each method and then decides if it was worth it.
7295 #define CHECK_TYPE(ins) if (!(ins)->type) UNVERIFIED
7296 #define CHECK_STACK(num) if ((sp - stack_start) < (num)) UNVERIFIED
7297 #define CHECK_STACK_OVF(num) if (((sp - stack_start) + (num)) > header->max_stack) UNVERIFIED
7298 #define CHECK_ARG(num) if ((unsigned)(num) >= (unsigned)num_args) UNVERIFIED
7299 #define CHECK_LOCAL(num) if ((unsigned)(num) >= (unsigned)header->num_locals) UNVERIFIED
7300 #define CHECK_OPSIZE(size) if (ip + size > end) UNVERIFIED
7301 #define CHECK_UNVERIFIABLE(cfg) if (cfg->unverifiable) UNVERIFIED
7302 #define CHECK_TYPELOAD(klass) if (!(klass) || mono_class_has_failure (klass)) TYPE_LOAD_ERROR ((klass))
7304 /* offset from br.s -> br like opcodes */
7305 #define BIG_BRANCH_OFFSET 13
7308 ip_in_bb (MonoCompile *cfg, MonoBasicBlock *bb, const guint8* ip)
7310 MonoBasicBlock *b = cfg->cil_offset_to_bb [ip - cfg->cil_start];
7312 return b == NULL || b == bb;
7316 get_basic_blocks (MonoCompile *cfg, MonoMethodHeader* header, guint real_offset, unsigned char *start, unsigned char *end, unsigned char **pos)
7318 unsigned char *ip = start;
7319 unsigned char *target;
7322 MonoBasicBlock *bblock;
7323 const MonoOpcode *opcode;
7326 cli_addr = ip - start;
7327 i = mono_opcode_value ((const guint8 **)&ip, end);
7330 opcode = &mono_opcodes [i];
7331 switch (opcode->argument) {
7332 case MonoInlineNone:
7335 case MonoInlineString:
7336 case MonoInlineType:
7337 case MonoInlineField:
7338 case MonoInlineMethod:
7341 case MonoShortInlineR:
7348 case MonoShortInlineVar:
7349 case MonoShortInlineI:
7352 case MonoShortInlineBrTarget:
7353 target = start + cli_addr + 2 + (signed char)ip [1];
7354 GET_BBLOCK (cfg, bblock, target);
7357 GET_BBLOCK (cfg, bblock, ip);
7359 case MonoInlineBrTarget:
7360 target = start + cli_addr + 5 + (gint32)read32 (ip + 1);
7361 GET_BBLOCK (cfg, bblock, target);
7364 GET_BBLOCK (cfg, bblock, ip);
7366 case MonoInlineSwitch: {
7367 guint32 n = read32 (ip + 1);
7370 cli_addr += 5 + 4 * n;
7371 target = start + cli_addr;
7372 GET_BBLOCK (cfg, bblock, target);
7374 for (j = 0; j < n; ++j) {
7375 target = start + cli_addr + (gint32)read32 (ip);
7376 GET_BBLOCK (cfg, bblock, target);
7386 g_assert_not_reached ();
7389 if (i == CEE_THROW) {
7390 unsigned char *bb_start = ip - 1;
7392 /* Find the start of the bblock containing the throw */
7394 while ((bb_start >= start) && !bblock) {
7395 bblock = cfg->cil_offset_to_bb [(bb_start) - start];
7399 bblock->out_of_line = 1;
7409 static inline MonoMethod *
7410 mini_get_method_allow_open (MonoMethod *m, guint32 token, MonoClass *klass, MonoGenericContext *context, MonoError *error)
7414 mono_error_init (error);
7416 if (m->wrapper_type != MONO_WRAPPER_NONE) {
7417 method = (MonoMethod *)mono_method_get_wrapper_data (m, token);
7419 method = mono_class_inflate_generic_method_checked (method, context, error);
7422 method = mono_get_method_checked (m->klass->image, token, klass, context, error);
7428 static inline MonoMethod *
7429 mini_get_method (MonoCompile *cfg, MonoMethod *m, guint32 token, MonoClass *klass, MonoGenericContext *context)
7432 MonoMethod *method = mini_get_method_allow_open (m, token, klass, context, cfg ? &cfg->error : &error);
7434 if (method && cfg && !cfg->gshared && mono_class_is_open_constructed_type (&method->klass->byval_arg)) {
7435 mono_error_set_bad_image (&cfg->error, cfg->method->klass->image, "Method with open type while not compiling gshared");
7439 if (!method && !cfg)
7440 mono_error_cleanup (&error); /* FIXME don't swallow the error */
7445 static inline MonoClass*
7446 mini_get_class (MonoMethod *method, guint32 token, MonoGenericContext *context)
7451 if (method->wrapper_type != MONO_WRAPPER_NONE) {
7452 klass = (MonoClass *)mono_method_get_wrapper_data (method, token);
7454 klass = mono_class_inflate_generic_class_checked (klass, context, &error);
7455 mono_error_cleanup (&error); /* FIXME don't swallow the error */
7458 klass = mono_class_get_and_inflate_typespec_checked (method->klass->image, token, context, &error);
7459 mono_error_cleanup (&error); /* FIXME don't swallow the error */
7462 mono_class_init (klass);
7466 static inline MonoMethodSignature*
7467 mini_get_signature (MonoMethod *method, guint32 token, MonoGenericContext *context)
7469 MonoMethodSignature *fsig;
7471 if (method->wrapper_type != MONO_WRAPPER_NONE) {
7472 fsig = (MonoMethodSignature *)mono_method_get_wrapper_data (method, token);
7474 fsig = mono_metadata_parse_signature (method->klass->image, token);
7478 fsig = mono_inflate_generic_signature(fsig, context, &error);
7480 g_assert(mono_error_ok(&error));
7486 throw_exception (void)
7488 static MonoMethod *method = NULL;
7491 MonoSecurityManager *secman = mono_security_manager_get_methods ();
7492 method = mono_class_get_method_from_name (secman->securitymanager, "ThrowException", 1);
7499 emit_throw_exception (MonoCompile *cfg, MonoException *ex)
7501 MonoMethod *thrower = throw_exception ();
7504 EMIT_NEW_PCONST (cfg, args [0], ex);
7505 mono_emit_method_call (cfg, thrower, args, NULL);
7509 * Return the original method is a wrapper is specified. We can only access
7510 * the custom attributes from the original method.
7513 get_original_method (MonoMethod *method)
7515 if (method->wrapper_type == MONO_WRAPPER_NONE)
7518 /* native code (which is like Critical) can call any managed method XXX FIXME XXX to validate all usages */
7519 if (method->wrapper_type == MONO_WRAPPER_NATIVE_TO_MANAGED)
7522 /* in other cases we need to find the original method */
7523 return mono_marshal_method_from_wrapper (method);
7527 ensure_method_is_allowed_to_access_field (MonoCompile *cfg, MonoMethod *caller, MonoClassField *field)
7529 /* we can't get the coreclr security level on wrappers since they don't have the attributes */
7530 MonoException *ex = mono_security_core_clr_is_field_access_allowed (get_original_method (caller), field);
7532 emit_throw_exception (cfg, ex);
7536 ensure_method_is_allowed_to_call_method (MonoCompile *cfg, MonoMethod *caller, MonoMethod *callee)
7538 /* we can't get the coreclr security level on wrappers since they don't have the attributes */
7539 MonoException *ex = mono_security_core_clr_is_call_allowed (get_original_method (caller), callee);
7541 emit_throw_exception (cfg, ex);
7545 * Check that the IL instructions at ip are the array initialization
7546 * sequence and return the pointer to the data and the size.
7549 initialize_array_data (MonoMethod *method, gboolean aot, unsigned char *ip, MonoClass *klass, guint32 len, int *out_size, guint32 *out_field_token)
7552 * newarr[System.Int32]
7554 * ldtoken field valuetype ...
7555 * call void class [mscorlib]System.Runtime.CompilerServices.RuntimeHelpers::InitializeArray(class [mscorlib]System.Array, valuetype [mscorlib]System.RuntimeFieldHandle)
7557 if (ip [0] == CEE_DUP && ip [1] == CEE_LDTOKEN && ip [5] == 0x4 && ip [6] == CEE_CALL) {
7559 guint32 token = read32 (ip + 7);
7560 guint32 field_token = read32 (ip + 2);
7561 guint32 field_index = field_token & 0xffffff;
7563 const char *data_ptr;
7565 MonoMethod *cmethod;
7566 MonoClass *dummy_class;
7567 MonoClassField *field = mono_field_from_token_checked (method->klass->image, field_token, &dummy_class, NULL, &error);
7571 mono_error_cleanup (&error); /* FIXME don't swallow the error */
7575 *out_field_token = field_token;
7577 cmethod = mini_get_method (NULL, method, token, NULL, NULL);
7580 if (strcmp (cmethod->name, "InitializeArray") || strcmp (cmethod->klass->name, "RuntimeHelpers") || cmethod->klass->image != mono_defaults.corlib)
7582 switch (mono_type_get_underlying_type (&klass->byval_arg)->type) {
7583 case MONO_TYPE_BOOLEAN:
7587 /* we need to swap on big endian, so punt. Should we handle R4 and R8 as well? */
7588 #if TARGET_BYTE_ORDER == G_LITTLE_ENDIAN
7589 case MONO_TYPE_CHAR:
7606 if (size > mono_type_size (field->type, &dummy_align))
7609 /*g_print ("optimized in %s: size: %d, numelems: %d\n", method->name, size, newarr->inst_newa_len->inst_c0);*/
7610 if (!image_is_dynamic (method->klass->image)) {
7611 field_index = read32 (ip + 2) & 0xffffff;
7612 mono_metadata_field_info (method->klass->image, field_index - 1, NULL, &rva, NULL);
7613 data_ptr = mono_image_rva_map (method->klass->image, rva);
7614 /*g_print ("field: 0x%08x, rva: %d, rva_ptr: %p\n", read32 (ip + 2), rva, data_ptr);*/
7615 /* for aot code we do the lookup on load */
7616 if (aot && data_ptr)
7617 return (const char *)GUINT_TO_POINTER (rva);
7619 /*FIXME is it possible to AOT a SRE assembly not meant to be saved? */
7621 data_ptr = mono_field_get_data (field);
7629 set_exception_type_from_invalid_il (MonoCompile *cfg, MonoMethod *method, unsigned char *ip)
7632 char *method_fname = mono_method_full_name (method, TRUE);
7634 MonoMethodHeader *header = mono_method_get_header_checked (method, &error);
7637 method_code = g_strdup_printf ("could not parse method body due to %s", mono_error_get_message (&error));
7638 mono_error_cleanup (&error);
7639 } else if (header->code_size == 0)
7640 method_code = g_strdup ("method body is empty.");
7642 method_code = mono_disasm_code_one (NULL, method, ip, NULL);
7643 mono_cfg_set_exception_invalid_program (cfg, g_strdup_printf ("Invalid IL code in %s: %s\n", method_fname, method_code));
7644 g_free (method_fname);
7645 g_free (method_code);
7646 cfg->headers_to_free = g_slist_prepend_mempool (cfg->mempool, cfg->headers_to_free, header);
7650 emit_stloc_ir (MonoCompile *cfg, MonoInst **sp, MonoMethodHeader *header, int n)
7653 guint32 opcode = mono_type_to_regmove (cfg, header->locals [n]);
7654 if ((opcode == OP_MOVE) && cfg->cbb->last_ins == sp [0] &&
7655 ((sp [0]->opcode == OP_ICONST) || (sp [0]->opcode == OP_I8CONST))) {
7656 /* Optimize reg-reg moves away */
7658 * Can't optimize other opcodes, since sp[0] might point to
7659 * the last ins of a decomposed opcode.
7661 sp [0]->dreg = (cfg)->locals [n]->dreg;
7663 EMIT_NEW_LOCSTORE (cfg, ins, n, *sp);
7668 * ldloca inhibits many optimizations so try to get rid of it in common
7671 static inline unsigned char *
7672 emit_optimized_ldloca_ir (MonoCompile *cfg, unsigned char *ip, unsigned char *end, int size)
7682 local = read16 (ip + 2);
7686 if (ip + 6 < end && (ip [0] == CEE_PREFIX1) && (ip [1] == CEE_INITOBJ) && ip_in_bb (cfg, cfg->cbb, ip + 1)) {
7687 /* From the INITOBJ case */
7688 token = read32 (ip + 2);
7689 klass = mini_get_class (cfg->current_method, token, cfg->generic_context);
7690 CHECK_TYPELOAD (klass);
7691 type = mini_get_underlying_type (&klass->byval_arg);
7692 emit_init_local (cfg, local, type, TRUE);
7700 emit_llvmonly_virtual_call (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, int context_used, MonoInst **sp)
7702 MonoInst *icall_args [16];
7703 MonoInst *call_target, *ins, *vtable_ins;
7704 int arg_reg, this_reg, vtable_reg;
7705 gboolean is_iface = cmethod->klass->flags & TYPE_ATTRIBUTE_INTERFACE;
7706 gboolean is_gsharedvt = cfg->gsharedvt && mini_is_gsharedvt_variable_signature (fsig);
7707 gboolean variant_iface = FALSE;
7712 * In llvm-only mode, vtables contain function descriptors instead of
7713 * method addresses/trampolines.
7715 MONO_EMIT_NULL_CHECK (cfg, sp [0]->dreg);
7718 slot = mono_method_get_imt_slot (cmethod);
7720 slot = mono_method_get_vtable_index (cmethod);
7722 this_reg = sp [0]->dreg;
7724 if (is_iface && mono_class_has_variant_generic_params (cmethod->klass))
7725 variant_iface = TRUE;
7727 if (!fsig->generic_param_count && !is_iface && !is_gsharedvt) {
7729 * The simplest case, a normal virtual call.
7731 int slot_reg = alloc_preg (cfg);
7732 int addr_reg = alloc_preg (cfg);
7733 int arg_reg = alloc_preg (cfg);
7734 MonoBasicBlock *non_null_bb;
7736 vtable_reg = alloc_preg (cfg);
7737 EMIT_NEW_LOAD_MEMBASE (cfg, vtable_ins, OP_LOAD_MEMBASE, vtable_reg, this_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
7738 offset = MONO_STRUCT_OFFSET (MonoVTable, vtable) + (slot * SIZEOF_VOID_P);
7740 /* Load the vtable slot, which contains a function descriptor. */
7741 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, slot_reg, vtable_reg, offset);
7743 NEW_BBLOCK (cfg, non_null_bb);
7745 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, slot_reg, 0);
7746 cfg->cbb->last_ins->flags |= MONO_INST_LIKELY;
7747 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBNE_UN, non_null_bb);
7750 // FIXME: Make the wrapper use the preserveall cconv
7751 // FIXME: Use one icall per slot for small slot numbers ?
7752 icall_args [0] = vtable_ins;
7753 EMIT_NEW_ICONST (cfg, icall_args [1], slot);
7754 /* Make the icall return the vtable slot value to save some code space */
7755 ins = mono_emit_jit_icall (cfg, mono_init_vtable_slot, icall_args);
7756 ins->dreg = slot_reg;
7757 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, non_null_bb);
7760 MONO_START_BB (cfg, non_null_bb);
7761 /* Load the address + arg from the vtable slot */
7762 EMIT_NEW_LOAD_MEMBASE (cfg, call_target, OP_LOAD_MEMBASE, addr_reg, slot_reg, 0);
7763 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, arg_reg, slot_reg, SIZEOF_VOID_P);
7765 return emit_extra_arg_calli (cfg, fsig, sp, arg_reg, call_target);
7768 if (!fsig->generic_param_count && is_iface && !variant_iface && !is_gsharedvt) {
7770 * A simple interface call
7772 * We make a call through an imt slot to obtain the function descriptor we need to call.
7773 * The imt slot contains a function descriptor for a runtime function + arg.
7775 int slot_reg = alloc_preg (cfg);
7776 int addr_reg = alloc_preg (cfg);
7777 int arg_reg = alloc_preg (cfg);
7778 MonoInst *thunk_addr_ins, *thunk_arg_ins, *ftndesc_ins;
7780 vtable_reg = alloc_preg (cfg);
7781 EMIT_NEW_LOAD_MEMBASE (cfg, vtable_ins, OP_LOAD_MEMBASE, vtable_reg, this_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
7782 offset = ((gint32)slot - MONO_IMT_SIZE) * SIZEOF_VOID_P;
7785 * The slot is already initialized when the vtable is created so there is no need
7789 /* Load the imt slot, which contains a function descriptor. */
7790 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, slot_reg, vtable_reg, offset);
7792 /* Load the address + arg of the imt thunk from the imt slot */
7793 EMIT_NEW_LOAD_MEMBASE (cfg, thunk_addr_ins, OP_LOAD_MEMBASE, addr_reg, slot_reg, 0);
7794 EMIT_NEW_LOAD_MEMBASE (cfg, thunk_arg_ins, OP_LOAD_MEMBASE, arg_reg, slot_reg, SIZEOF_VOID_P);
7796 * IMT thunks in llvm-only mode are C functions which take an info argument
7797 * plus the imt method and return the ftndesc to call.
7799 icall_args [0] = thunk_arg_ins;
7800 icall_args [1] = emit_get_rgctx_method (cfg, context_used,
7801 cmethod, MONO_RGCTX_INFO_METHOD);
7802 ftndesc_ins = mono_emit_calli (cfg, helper_sig_llvmonly_imt_thunk, icall_args, thunk_addr_ins, NULL, NULL);
7804 return emit_llvmonly_calli (cfg, fsig, sp, ftndesc_ins);
7807 if ((fsig->generic_param_count || variant_iface) && !is_gsharedvt) {
7809 * This is similar to the interface case, the vtable slot points to an imt thunk which is
7810 * dynamically extended as more instantiations are discovered.
7811 * This handles generic virtual methods both on classes and interfaces.
7813 int slot_reg = alloc_preg (cfg);
7814 int addr_reg = alloc_preg (cfg);
7815 int arg_reg = alloc_preg (cfg);
7816 int ftndesc_reg = alloc_preg (cfg);
7817 MonoInst *thunk_addr_ins, *thunk_arg_ins, *ftndesc_ins;
7818 MonoBasicBlock *slowpath_bb, *end_bb;
7820 NEW_BBLOCK (cfg, slowpath_bb);
7821 NEW_BBLOCK (cfg, end_bb);
7823 vtable_reg = alloc_preg (cfg);
7824 EMIT_NEW_LOAD_MEMBASE (cfg, vtable_ins, OP_LOAD_MEMBASE, vtable_reg, this_reg, MONO_STRUCT_OFFSET (MonoObject, vtable));
7826 offset = ((gint32)slot - MONO_IMT_SIZE) * SIZEOF_VOID_P;
7828 offset = MONO_STRUCT_OFFSET (MonoVTable, vtable) + (slot * SIZEOF_VOID_P);
7830 /* Load the slot, which contains a function descriptor. */
7831 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, slot_reg, vtable_reg, offset);
7833 /* These slots are not initialized, so fall back to the slow path until they are initialized */
7834 /* That happens when mono_method_add_generic_virtual_invocation () creates an IMT thunk */
7835 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, slot_reg, 0);
7836 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, slowpath_bb);
7839 /* Same as with iface calls */
7840 EMIT_NEW_LOAD_MEMBASE (cfg, thunk_addr_ins, OP_LOAD_MEMBASE, addr_reg, slot_reg, 0);
7841 EMIT_NEW_LOAD_MEMBASE (cfg, thunk_arg_ins, OP_LOAD_MEMBASE, arg_reg, slot_reg, SIZEOF_VOID_P);
7842 icall_args [0] = thunk_arg_ins;
7843 icall_args [1] = emit_get_rgctx_method (cfg, context_used,
7844 cmethod, MONO_RGCTX_INFO_METHOD);
7845 ftndesc_ins = mono_emit_calli (cfg, helper_sig_llvmonly_imt_thunk, icall_args, thunk_addr_ins, NULL, NULL);
7846 ftndesc_ins->dreg = ftndesc_reg;
7848 * Unlike normal iface calls, these imt thunks can return NULL, i.e. when they are passed an instantiation
7849 * they don't know about yet. Fall back to the slowpath in that case.
7851 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, ftndesc_reg, 0);
7852 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, slowpath_bb);
7854 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
7857 MONO_START_BB (cfg, slowpath_bb);
7858 icall_args [0] = vtable_ins;
7859 EMIT_NEW_ICONST (cfg, icall_args [1], slot);
7860 icall_args [2] = emit_get_rgctx_method (cfg, context_used,
7861 cmethod, MONO_RGCTX_INFO_METHOD);
7863 ftndesc_ins = mono_emit_jit_icall (cfg, mono_resolve_generic_virtual_iface_call, icall_args);
7865 ftndesc_ins = mono_emit_jit_icall (cfg, mono_resolve_generic_virtual_call, icall_args);
7866 ftndesc_ins->dreg = ftndesc_reg;
7867 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
7870 MONO_START_BB (cfg, end_bb);
7871 return emit_llvmonly_calli (cfg, fsig, sp, ftndesc_ins);
7875 * Non-optimized cases
7877 icall_args [0] = sp [0];
7878 EMIT_NEW_ICONST (cfg, icall_args [1], slot);
7880 icall_args [2] = emit_get_rgctx_method (cfg, context_used,
7881 cmethod, MONO_RGCTX_INFO_METHOD);
7883 arg_reg = alloc_preg (cfg);
7884 MONO_EMIT_NEW_PCONST (cfg, arg_reg, NULL);
7885 EMIT_NEW_VARLOADA_VREG (cfg, icall_args [3], arg_reg, &mono_defaults.int_class->byval_arg);
7887 g_assert (is_gsharedvt);
7889 call_target = mono_emit_jit_icall (cfg, mono_resolve_iface_call_gsharedvt, icall_args);
7891 call_target = mono_emit_jit_icall (cfg, mono_resolve_vcall_gsharedvt, icall_args);
7894 * Pass the extra argument even if the callee doesn't receive it, most
7895 * calling conventions allow this.
7897 return emit_extra_arg_calli (cfg, fsig, sp, arg_reg, call_target);
7901 is_exception_class (MonoClass *klass)
7904 if (klass == mono_defaults.exception_class)
7906 klass = klass->parent;
7912 * is_jit_optimizer_disabled:
7914 * Determine whenever M's assembly has a DebuggableAttribute with the
7915 * IsJITOptimizerDisabled flag set.
7918 is_jit_optimizer_disabled (MonoMethod *m)
7921 MonoAssembly *ass = m->klass->image->assembly;
7922 MonoCustomAttrInfo* attrs;
7925 gboolean val = FALSE;
7928 if (ass->jit_optimizer_disabled_inited)
7929 return ass->jit_optimizer_disabled;
7931 klass = mono_class_try_get_debuggable_attribute_class ();
7935 ass->jit_optimizer_disabled = FALSE;
7936 mono_memory_barrier ();
7937 ass->jit_optimizer_disabled_inited = TRUE;
7941 attrs = mono_custom_attrs_from_assembly_checked (ass, &error);
7942 mono_error_cleanup (&error); /* FIXME don't swallow the error */
7944 for (i = 0; i < attrs->num_attrs; ++i) {
7945 MonoCustomAttrEntry *attr = &attrs->attrs [i];
7947 MonoMethodSignature *sig;
7949 if (!attr->ctor || attr->ctor->klass != klass)
7951 /* Decode the attribute. See reflection.c */
7952 p = (const char*)attr->data;
7953 g_assert (read16 (p) == 0x0001);
7956 // FIXME: Support named parameters
7957 sig = mono_method_signature (attr->ctor);
7958 if (sig->param_count != 2 || sig->params [0]->type != MONO_TYPE_BOOLEAN || sig->params [1]->type != MONO_TYPE_BOOLEAN)
7960 /* Two boolean arguments */
7964 mono_custom_attrs_free (attrs);
7967 ass->jit_optimizer_disabled = val;
7968 mono_memory_barrier ();
7969 ass->jit_optimizer_disabled_inited = TRUE;
7975 is_supported_tail_call (MonoCompile *cfg, MonoMethod *method, MonoMethod *cmethod, MonoMethodSignature *fsig, int call_opcode)
7977 gboolean supported_tail_call;
7980 supported_tail_call = mono_arch_tail_call_supported (cfg, mono_method_signature (method), mono_method_signature (cmethod));
7982 for (i = 0; i < fsig->param_count; ++i) {
7983 if (fsig->params [i]->byref || fsig->params [i]->type == MONO_TYPE_PTR || fsig->params [i]->type == MONO_TYPE_FNPTR)
7984 /* These can point to the current method's stack */
7985 supported_tail_call = FALSE;
7987 if (fsig->hasthis && cmethod->klass->valuetype)
7988 /* this might point to the current method's stack */
7989 supported_tail_call = FALSE;
7990 if (cmethod->flags & METHOD_ATTRIBUTE_PINVOKE_IMPL)
7991 supported_tail_call = FALSE;
7992 if (cfg->method->save_lmf)
7993 supported_tail_call = FALSE;
7994 if (cmethod->wrapper_type && cmethod->wrapper_type != MONO_WRAPPER_DYNAMIC_METHOD)
7995 supported_tail_call = FALSE;
7996 if (call_opcode != CEE_CALL)
7997 supported_tail_call = FALSE;
7999 /* Debugging support */
8001 if (supported_tail_call) {
8002 if (!mono_debug_count ())
8003 supported_tail_call = FALSE;
8007 return supported_tail_call;
8013 * Handle calls made to ctors from NEWOBJ opcodes.
8016 handle_ctor_call (MonoCompile *cfg, MonoMethod *cmethod, MonoMethodSignature *fsig, int context_used,
8017 MonoInst **sp, guint8 *ip, int *inline_costs)
8019 MonoInst *vtable_arg = NULL, *callvirt_this_arg = NULL, *ins;
8021 if (cmethod->klass->valuetype && mono_class_generic_sharing_enabled (cmethod->klass) &&
8022 mono_method_is_generic_sharable (cmethod, TRUE)) {
8023 if (cmethod->is_inflated && mono_method_get_context (cmethod)->method_inst) {
8024 mono_class_vtable (cfg->domain, cmethod->klass);
8025 CHECK_TYPELOAD (cmethod->klass);
8027 vtable_arg = emit_get_rgctx_method (cfg, context_used,
8028 cmethod, MONO_RGCTX_INFO_METHOD_RGCTX);
8031 vtable_arg = emit_get_rgctx_klass (cfg, context_used,
8032 cmethod->klass, MONO_RGCTX_INFO_VTABLE);
8034 MonoVTable *vtable = mono_class_vtable (cfg->domain, cmethod->klass);
8036 CHECK_TYPELOAD (cmethod->klass);
8037 EMIT_NEW_VTABLECONST (cfg, vtable_arg, vtable);
8042 /* Avoid virtual calls to ctors if possible */
8043 if (mono_class_is_marshalbyref (cmethod->klass))
8044 callvirt_this_arg = sp [0];
8046 if (cmethod && (cfg->opt & MONO_OPT_INTRINS) && (ins = mini_emit_inst_for_ctor (cfg, cmethod, fsig, sp))) {
8047 g_assert (MONO_TYPE_IS_VOID (fsig->ret));
8048 CHECK_CFG_EXCEPTION;
8049 } else if ((cfg->opt & MONO_OPT_INLINE) && cmethod && !context_used && !vtable_arg &&
8050 mono_method_check_inlining (cfg, cmethod) &&
8051 !mono_class_is_subclass_of (cmethod->klass, mono_defaults.exception_class, FALSE)) {
8054 if ((costs = inline_method (cfg, cmethod, fsig, sp, ip, cfg->real_offset, FALSE))) {
8055 cfg->real_offset += 5;
8057 *inline_costs += costs - 5;
8059 INLINE_FAILURE ("inline failure");
8060 // FIXME-VT: Clean this up
8061 if (cfg->gsharedvt && mini_is_gsharedvt_signature (fsig))
8062 GSHAREDVT_FAILURE(*ip);
8063 mono_emit_method_call_full (cfg, cmethod, fsig, FALSE, sp, callvirt_this_arg, NULL, NULL);
8065 } else if (cfg->gsharedvt && mini_is_gsharedvt_signature (fsig)) {
8068 addr = emit_get_rgctx_gsharedvt_call (cfg, context_used, fsig, cmethod, MONO_RGCTX_INFO_METHOD_GSHAREDVT_OUT_TRAMPOLINE);
8070 if (cfg->llvm_only) {
8071 // FIXME: Avoid initializing vtable_arg
8072 emit_llvmonly_calli (cfg, fsig, sp, addr);
8074 mono_emit_calli (cfg, fsig, sp, addr, NULL, vtable_arg);
8076 } else if (context_used &&
8077 ((!mono_method_is_generic_sharable_full (cmethod, TRUE, FALSE, FALSE) ||
8078 !mono_class_generic_sharing_enabled (cmethod->klass)) || cfg->gsharedvt)) {
8079 MonoInst *cmethod_addr;
8081 /* Generic calls made out of gsharedvt methods cannot be patched, so use an indirect call */
8083 if (cfg->llvm_only) {
8084 MonoInst *addr = emit_get_rgctx_method (cfg, context_used, cmethod,
8085 MONO_RGCTX_INFO_GENERIC_METHOD_CODE);
8086 emit_llvmonly_calli (cfg, fsig, sp, addr);
8088 cmethod_addr = emit_get_rgctx_method (cfg, context_used,
8089 cmethod, MONO_RGCTX_INFO_GENERIC_METHOD_CODE);
8091 mono_emit_calli (cfg, fsig, sp, cmethod_addr, NULL, vtable_arg);
8094 INLINE_FAILURE ("ctor call");
8095 ins = mono_emit_method_call_full (cfg, cmethod, fsig, FALSE, sp,
8096 callvirt_this_arg, NULL, vtable_arg);
8103 emit_setret (MonoCompile *cfg, MonoInst *val)
8105 MonoType *ret_type = mini_get_underlying_type (mono_method_signature (cfg->method)->ret);
8108 if (mini_type_to_stind (cfg, ret_type) == CEE_STOBJ) {
8111 if (!cfg->vret_addr) {
8112 EMIT_NEW_VARSTORE (cfg, ins, cfg->ret, ret_type, val);
8114 EMIT_NEW_RETLOADA (cfg, ret_addr);
8116 EMIT_NEW_STORE_MEMBASE (cfg, ins, OP_STOREV_MEMBASE, ret_addr->dreg, 0, val->dreg);
8117 ins->klass = mono_class_from_mono_type (ret_type);
8120 #ifdef MONO_ARCH_SOFT_FLOAT_FALLBACK
8121 if (COMPILE_SOFT_FLOAT (cfg) && !ret_type->byref && ret_type->type == MONO_TYPE_R4) {
8122 MonoInst *iargs [1];
8126 conv = mono_emit_jit_icall (cfg, mono_fload_r4_arg, iargs);
8127 mono_arch_emit_setret (cfg, cfg->method, conv);
8129 mono_arch_emit_setret (cfg, cfg->method, val);
8132 mono_arch_emit_setret (cfg, cfg->method, val);
8138 * mono_method_to_ir:
8140 * Translate the .net IL into linear IR.
8143 mono_method_to_ir (MonoCompile *cfg, MonoMethod *method, MonoBasicBlock *start_bblock, MonoBasicBlock *end_bblock,
8144 MonoInst *return_var, MonoInst **inline_args,
8145 guint inline_offset, gboolean is_virtual_call)
8148 MonoInst *ins, **sp, **stack_start;
8149 MonoBasicBlock *tblock = NULL, *init_localsbb = NULL;
8150 MonoSimpleBasicBlock *bb = NULL, *original_bb = NULL;
8151 MonoMethod *cmethod, *method_definition;
8152 MonoInst **arg_array;
8153 MonoMethodHeader *header;
8155 guint32 token, ins_flag;
8157 MonoClass *constrained_class = NULL;
8158 unsigned char *ip, *end, *target, *err_pos;
8159 MonoMethodSignature *sig;
8160 MonoGenericContext *generic_context = NULL;
8161 MonoGenericContainer *generic_container = NULL;
8162 MonoType **param_types;
8163 int i, n, start_new_bblock, dreg;
8164 int num_calls = 0, inline_costs = 0;
8165 int breakpoint_id = 0;
8167 GSList *class_inits = NULL;
8168 gboolean dont_verify, dont_verify_stloc, readonly = FALSE;
8170 gboolean init_locals, seq_points, skip_dead_blocks;
8171 gboolean sym_seq_points = FALSE;
8172 MonoDebugMethodInfo *minfo;
8173 MonoBitSet *seq_point_locs = NULL;
8174 MonoBitSet *seq_point_set_locs = NULL;
8176 cfg->disable_inline = is_jit_optimizer_disabled (method);
8178 /* serialization and xdomain stuff may need access to private fields and methods */
8179 dont_verify = method->klass->image->assembly->corlib_internal? TRUE: FALSE;
8180 dont_verify |= method->wrapper_type == MONO_WRAPPER_XDOMAIN_INVOKE;
8181 dont_verify |= method->wrapper_type == MONO_WRAPPER_XDOMAIN_DISPATCH;
8182 dont_verify |= method->wrapper_type == MONO_WRAPPER_MANAGED_TO_NATIVE; /* bug #77896 */
8183 dont_verify |= method->wrapper_type == MONO_WRAPPER_COMINTEROP;
8184 dont_verify |= method->wrapper_type == MONO_WRAPPER_COMINTEROP_INVOKE;
8186 /* still some type unsafety issues in marshal wrappers... (unknown is PtrToStructure) */
8187 dont_verify_stloc = method->wrapper_type == MONO_WRAPPER_MANAGED_TO_NATIVE;
8188 dont_verify_stloc |= method->wrapper_type == MONO_WRAPPER_UNKNOWN;
8189 dont_verify_stloc |= method->wrapper_type == MONO_WRAPPER_NATIVE_TO_MANAGED;
8190 dont_verify_stloc |= method->wrapper_type == MONO_WRAPPER_STELEMREF;
8192 image = method->klass->image;
8193 header = mono_method_get_header_checked (method, &cfg->error);
8195 mono_cfg_set_exception (cfg, MONO_EXCEPTION_MONO_ERROR);
8196 goto exception_exit;
8198 generic_container = mono_method_get_generic_container (method);
8199 sig = mono_method_signature (method);
8200 num_args = sig->hasthis + sig->param_count;
8201 ip = (unsigned char*)header->code;
8202 cfg->cil_start = ip;
8203 end = ip + header->code_size;
8204 cfg->stat_cil_code_size += header->code_size;
8206 seq_points = cfg->gen_seq_points && cfg->method == method;
8208 if (method->wrapper_type == MONO_WRAPPER_NATIVE_TO_MANAGED) {
8209 /* We could hit a seq point before attaching to the JIT (#8338) */
8213 if (cfg->gen_sdb_seq_points && cfg->method == method) {
8214 minfo = mono_debug_lookup_method (method);
8216 MonoSymSeqPoint *sps;
8217 int i, n_il_offsets;
8219 mono_debug_get_seq_points (minfo, NULL, NULL, NULL, &sps, &n_il_offsets);
8220 seq_point_locs = mono_bitset_mem_new (mono_mempool_alloc0 (cfg->mempool, mono_bitset_alloc_size (header->code_size, 0)), header->code_size, 0);
8221 seq_point_set_locs = mono_bitset_mem_new (mono_mempool_alloc0 (cfg->mempool, mono_bitset_alloc_size (header->code_size, 0)), header->code_size, 0);
8222 sym_seq_points = TRUE;
8223 for (i = 0; i < n_il_offsets; ++i) {
8224 if (sps [i].il_offset < header->code_size)
8225 mono_bitset_set_fast (seq_point_locs, sps [i].il_offset);
8228 } else if (!method->wrapper_type && !method->dynamic && mono_debug_image_has_debug_info (method->klass->image)) {
8229 /* Methods without line number info like auto-generated property accessors */
8230 seq_point_locs = mono_bitset_mem_new (mono_mempool_alloc0 (cfg->mempool, mono_bitset_alloc_size (header->code_size, 0)), header->code_size, 0);
8231 seq_point_set_locs = mono_bitset_mem_new (mono_mempool_alloc0 (cfg->mempool, mono_bitset_alloc_size (header->code_size, 0)), header->code_size, 0);
8232 sym_seq_points = TRUE;
8237 * Methods without init_locals set could cause asserts in various passes
8238 * (#497220). To work around this, we emit dummy initialization opcodes
8239 * (OP_DUMMY_ICONST etc.) which generate no code. These are only supported
8240 * on some platforms.
8242 if ((cfg->opt & MONO_OPT_UNSAFE) && cfg->backend->have_dummy_init)
8243 init_locals = header->init_locals;
8247 method_definition = method;
8248 while (method_definition->is_inflated) {
8249 MonoMethodInflated *imethod = (MonoMethodInflated *) method_definition;
8250 method_definition = imethod->declaring;
8253 /* SkipVerification is not allowed if core-clr is enabled */
8254 if (!dont_verify && mini_assembly_can_skip_verification (cfg->domain, method)) {
8256 dont_verify_stloc = TRUE;
8259 if (sig->is_inflated)
8260 generic_context = mono_method_get_context (method);
8261 else if (generic_container)
8262 generic_context = &generic_container->context;
8263 cfg->generic_context = generic_context;
8266 g_assert (!sig->has_type_parameters);
8268 if (sig->generic_param_count && method->wrapper_type == MONO_WRAPPER_NONE) {
8269 g_assert (method->is_inflated);
8270 g_assert (mono_method_get_context (method)->method_inst);
8272 if (method->is_inflated && mono_method_get_context (method)->method_inst)
8273 g_assert (sig->generic_param_count);
8275 if (cfg->method == method) {
8276 cfg->real_offset = 0;
8278 cfg->real_offset = inline_offset;
8281 cfg->cil_offset_to_bb = (MonoBasicBlock **)mono_mempool_alloc0 (cfg->mempool, sizeof (MonoBasicBlock*) * header->code_size);
8282 cfg->cil_offset_to_bb_len = header->code_size;
8284 cfg->current_method = method;
8286 if (cfg->verbose_level > 2)
8287 printf ("method to IR %s\n", mono_method_full_name (method, TRUE));
8289 param_types = (MonoType **)mono_mempool_alloc (cfg->mempool, sizeof (MonoType*) * num_args);
8291 param_types [0] = method->klass->valuetype?&method->klass->this_arg:&method->klass->byval_arg;
8292 for (n = 0; n < sig->param_count; ++n)
8293 param_types [n + sig->hasthis] = sig->params [n];
8294 cfg->arg_types = param_types;
8296 cfg->dont_inline = g_list_prepend (cfg->dont_inline, method);
8297 if (cfg->method == method) {
8299 if (cfg->prof_options & MONO_PROFILE_INS_COVERAGE)
8300 cfg->coverage_info = mono_profiler_coverage_alloc (cfg->method, header->code_size);
8303 NEW_BBLOCK (cfg, start_bblock);
8304 cfg->bb_entry = start_bblock;
8305 start_bblock->cil_code = NULL;
8306 start_bblock->cil_length = 0;
8309 NEW_BBLOCK (cfg, end_bblock);
8310 cfg->bb_exit = end_bblock;
8311 end_bblock->cil_code = NULL;
8312 end_bblock->cil_length = 0;
8313 end_bblock->flags |= BB_INDIRECT_JUMP_TARGET;
8314 g_assert (cfg->num_bblocks == 2);
8316 arg_array = cfg->args;
8318 if (header->num_clauses) {
8319 cfg->spvars = g_hash_table_new (NULL, NULL);
8320 cfg->exvars = g_hash_table_new (NULL, NULL);
8322 /* handle exception clauses */
8323 for (i = 0; i < header->num_clauses; ++i) {
8324 MonoBasicBlock *try_bb;
8325 MonoExceptionClause *clause = &header->clauses [i];
8326 GET_BBLOCK (cfg, try_bb, ip + clause->try_offset);
8328 try_bb->real_offset = clause->try_offset;
8329 try_bb->try_start = TRUE;
8330 try_bb->region = ((i + 1) << 8) | clause->flags;
8331 GET_BBLOCK (cfg, tblock, ip + clause->handler_offset);
8332 tblock->real_offset = clause->handler_offset;
8333 tblock->flags |= BB_EXCEPTION_HANDLER;
8336 * Linking the try block with the EH block hinders inlining as we won't be able to
8337 * merge the bblocks from inlining and produce an artificial hole for no good reason.
8339 if (COMPILE_LLVM (cfg))
8340 link_bblock (cfg, try_bb, tblock);
8342 if (*(ip + clause->handler_offset) == CEE_POP)
8343 tblock->flags |= BB_EXCEPTION_DEAD_OBJ;
8345 if (clause->flags == MONO_EXCEPTION_CLAUSE_FINALLY ||
8346 clause->flags == MONO_EXCEPTION_CLAUSE_FILTER ||
8347 clause->flags == MONO_EXCEPTION_CLAUSE_FAULT) {
8348 MONO_INST_NEW (cfg, ins, OP_START_HANDLER);
8349 MONO_ADD_INS (tblock, ins);
8351 if (seq_points && clause->flags != MONO_EXCEPTION_CLAUSE_FINALLY && clause->flags != MONO_EXCEPTION_CLAUSE_FILTER) {
8352 /* finally clauses already have a seq point */
8353 /* seq points for filter clauses are emitted below */
8354 NEW_SEQ_POINT (cfg, ins, clause->handler_offset, TRUE);
8355 MONO_ADD_INS (tblock, ins);
8358 /* todo: is a fault block unsafe to optimize? */
8359 if (clause->flags == MONO_EXCEPTION_CLAUSE_FAULT)
8360 tblock->flags |= BB_EXCEPTION_UNSAFE;
8363 /*printf ("clause try IL_%04x to IL_%04x handler %d at IL_%04x to IL_%04x\n", clause->try_offset, clause->try_offset + clause->try_len, clause->flags, clause->handler_offset, clause->handler_offset + clause->handler_len);
8365 printf ("%s", mono_disasm_code_one (NULL, method, p, &p));
8367 /* catch and filter blocks get the exception object on the stack */
8368 if (clause->flags == MONO_EXCEPTION_CLAUSE_NONE ||
8369 clause->flags == MONO_EXCEPTION_CLAUSE_FILTER) {
8371 /* mostly like handle_stack_args (), but just sets the input args */
8372 /* printf ("handling clause at IL_%04x\n", clause->handler_offset); */
8373 tblock->in_scount = 1;
8374 tblock->in_stack = (MonoInst **)mono_mempool_alloc (cfg->mempool, sizeof (MonoInst*));
8375 tblock->in_stack [0] = mono_create_exvar_for_offset (cfg, clause->handler_offset);
8379 #ifdef MONO_CONTEXT_SET_LLVM_EXC_REG
8380 /* The EH code passes in the exception in a register to both JITted and LLVM compiled code */
8381 if (!cfg->compile_llvm) {
8382 MONO_INST_NEW (cfg, ins, OP_GET_EX_OBJ);
8383 ins->dreg = tblock->in_stack [0]->dreg;
8384 MONO_ADD_INS (tblock, ins);
8387 MonoInst *dummy_use;
8390 * Add a dummy use for the exvar so its liveness info will be
8393 EMIT_NEW_DUMMY_USE (cfg, dummy_use, tblock->in_stack [0]);
8396 if (seq_points && clause->flags == MONO_EXCEPTION_CLAUSE_FILTER) {
8397 NEW_SEQ_POINT (cfg, ins, clause->handler_offset, TRUE);
8398 MONO_ADD_INS (tblock, ins);
8401 if (clause->flags == MONO_EXCEPTION_CLAUSE_FILTER) {
8402 GET_BBLOCK (cfg, tblock, ip + clause->data.filter_offset);
8403 tblock->flags |= BB_EXCEPTION_HANDLER;
8404 tblock->real_offset = clause->data.filter_offset;
8405 tblock->in_scount = 1;
8406 tblock->in_stack = (MonoInst **)mono_mempool_alloc (cfg->mempool, sizeof (MonoInst*));
8407 /* The filter block shares the exvar with the handler block */
8408 tblock->in_stack [0] = mono_create_exvar_for_offset (cfg, clause->handler_offset);
8409 MONO_INST_NEW (cfg, ins, OP_START_HANDLER);
8410 MONO_ADD_INS (tblock, ins);
8414 if (clause->flags != MONO_EXCEPTION_CLAUSE_FILTER &&
8415 clause->data.catch_class &&
8417 mono_class_check_context_used (clause->data.catch_class)) {
8419 * In shared generic code with catch
8420 * clauses containing type variables
8421 * the exception handling code has to
8422 * be able to get to the rgctx.
8423 * Therefore we have to make sure that
8424 * the vtable/mrgctx argument (for
8425 * static or generic methods) or the
8426 * "this" argument (for non-static
8427 * methods) are live.
8429 if ((method->flags & METHOD_ATTRIBUTE_STATIC) ||
8430 mini_method_get_context (method)->method_inst ||
8431 method->klass->valuetype) {
8432 mono_get_vtable_var (cfg);
8434 MonoInst *dummy_use;
8436 EMIT_NEW_DUMMY_USE (cfg, dummy_use, arg_array [0]);
8441 arg_array = (MonoInst **) alloca (sizeof (MonoInst *) * num_args);
8442 cfg->cbb = start_bblock;
8443 cfg->args = arg_array;
8444 mono_save_args (cfg, sig, inline_args);
8447 /* FIRST CODE BLOCK */
8448 NEW_BBLOCK (cfg, tblock);
8449 tblock->cil_code = ip;
8453 ADD_BBLOCK (cfg, tblock);
8455 if (cfg->method == method) {
8456 breakpoint_id = mono_debugger_method_has_breakpoint (method);
8457 if (breakpoint_id) {
8458 MONO_INST_NEW (cfg, ins, OP_BREAK);
8459 MONO_ADD_INS (cfg->cbb, ins);
8463 /* we use a separate basic block for the initialization code */
8464 NEW_BBLOCK (cfg, init_localsbb);
8465 cfg->bb_init = init_localsbb;
8466 init_localsbb->real_offset = cfg->real_offset;
8467 start_bblock->next_bb = init_localsbb;
8468 init_localsbb->next_bb = cfg->cbb;
8469 link_bblock (cfg, start_bblock, init_localsbb);
8470 link_bblock (cfg, init_localsbb, cfg->cbb);
8472 cfg->cbb = init_localsbb;
8474 if (cfg->gsharedvt && cfg->method == method) {
8475 MonoGSharedVtMethodInfo *info;
8476 MonoInst *var, *locals_var;
8479 info = (MonoGSharedVtMethodInfo *)mono_mempool_alloc0 (cfg->mempool, sizeof (MonoGSharedVtMethodInfo));
8480 info->method = cfg->method;
8481 info->count_entries = 16;
8482 info->entries = (MonoRuntimeGenericContextInfoTemplate *)mono_mempool_alloc0 (cfg->mempool, sizeof (MonoRuntimeGenericContextInfoTemplate) * info->count_entries);
8483 cfg->gsharedvt_info = info;
8485 var = mono_compile_create_var (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL);
8486 /* prevent it from being register allocated */
8487 //var->flags |= MONO_INST_VOLATILE;
8488 cfg->gsharedvt_info_var = var;
8490 ins = emit_get_rgctx_gsharedvt_method (cfg, mini_method_check_context_used (cfg, method), method, info);
8491 MONO_EMIT_NEW_UNALU (cfg, OP_MOVE, var->dreg, ins->dreg);
8493 /* Allocate locals */
8494 locals_var = mono_compile_create_var (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL);
8495 /* prevent it from being register allocated */
8496 //locals_var->flags |= MONO_INST_VOLATILE;
8497 cfg->gsharedvt_locals_var = locals_var;
8499 dreg = alloc_ireg (cfg);
8500 MONO_EMIT_NEW_LOAD_MEMBASE_OP (cfg, OP_LOADI4_MEMBASE, dreg, var->dreg, MONO_STRUCT_OFFSET (MonoGSharedVtMethodRuntimeInfo, locals_size));
8502 MONO_INST_NEW (cfg, ins, OP_LOCALLOC);
8503 ins->dreg = locals_var->dreg;
8505 MONO_ADD_INS (cfg->cbb, ins);
8506 cfg->gsharedvt_locals_var_ins = ins;
8508 cfg->flags |= MONO_CFG_HAS_ALLOCA;
8511 ins->flags |= MONO_INST_INIT;
8515 if (mono_security_core_clr_enabled ()) {
8516 /* check if this is native code, e.g. an icall or a p/invoke */
8517 if (method->wrapper_type == MONO_WRAPPER_MANAGED_TO_NATIVE) {
8518 MonoMethod *wrapped = mono_marshal_method_from_wrapper (method);
8520 gboolean pinvk = (wrapped->flags & METHOD_ATTRIBUTE_PINVOKE_IMPL);
8521 gboolean icall = (wrapped->iflags & METHOD_IMPL_ATTRIBUTE_INTERNAL_CALL);
8523 /* if this ia a native call then it can only be JITted from platform code */
8524 if ((icall || pinvk) && method->klass && method->klass->image) {
8525 if (!mono_security_core_clr_is_platform_image (method->klass->image)) {
8526 MonoException *ex = icall ? mono_get_exception_security () :
8527 mono_get_exception_method_access ();
8528 emit_throw_exception (cfg, ex);
8535 CHECK_CFG_EXCEPTION;
8537 if (header->code_size == 0)
8540 if (get_basic_blocks (cfg, header, cfg->real_offset, ip, end, &err_pos)) {
8545 if (cfg->method == method)
8546 mono_debug_init_method (cfg, cfg->cbb, breakpoint_id);
8548 for (n = 0; n < header->num_locals; ++n) {
8549 if (header->locals [n]->type == MONO_TYPE_VOID && !header->locals [n]->byref)
8554 /* We force the vtable variable here for all shared methods
8555 for the possibility that they might show up in a stack
8556 trace where their exact instantiation is needed. */
8557 if (cfg->gshared && method == cfg->method) {
8558 if ((method->flags & METHOD_ATTRIBUTE_STATIC) ||
8559 mini_method_get_context (method)->method_inst ||
8560 method->klass->valuetype) {
8561 mono_get_vtable_var (cfg);
8563 /* FIXME: Is there a better way to do this?
8564 We need the variable live for the duration
8565 of the whole method. */
8566 cfg->args [0]->flags |= MONO_INST_VOLATILE;
8570 /* add a check for this != NULL to inlined methods */
8571 if (is_virtual_call) {
8574 NEW_ARGLOAD (cfg, arg_ins, 0);
8575 MONO_ADD_INS (cfg->cbb, arg_ins);
8576 MONO_EMIT_NEW_CHECK_THIS (cfg, arg_ins->dreg);
8579 skip_dead_blocks = !dont_verify;
8580 if (skip_dead_blocks) {
8581 original_bb = bb = mono_basic_block_split (method, &cfg->error, header);
8586 /* we use a spare stack slot in SWITCH and NEWOBJ and others */
8587 stack_start = sp = (MonoInst **)mono_mempool_alloc0 (cfg->mempool, sizeof (MonoInst*) * (header->max_stack + 1));
8590 start_new_bblock = 0;
8592 if (cfg->method == method)
8593 cfg->real_offset = ip - header->code;
8595 cfg->real_offset = inline_offset;
8600 if (start_new_bblock) {
8601 cfg->cbb->cil_length = ip - cfg->cbb->cil_code;
8602 if (start_new_bblock == 2) {
8603 g_assert (ip == tblock->cil_code);
8605 GET_BBLOCK (cfg, tblock, ip);
8607 cfg->cbb->next_bb = tblock;
8609 start_new_bblock = 0;
8610 for (i = 0; i < cfg->cbb->in_scount; ++i) {
8611 if (cfg->verbose_level > 3)
8612 printf ("loading %d from temp %d\n", i, (int)cfg->cbb->in_stack [i]->inst_c0);
8613 EMIT_NEW_TEMPLOAD (cfg, ins, cfg->cbb->in_stack [i]->inst_c0);
8617 g_slist_free (class_inits);
8620 if ((tblock = cfg->cil_offset_to_bb [ip - cfg->cil_start]) && (tblock != cfg->cbb)) {
8621 link_bblock (cfg, cfg->cbb, tblock);
8622 if (sp != stack_start) {
8623 handle_stack_args (cfg, stack_start, sp - stack_start);
8625 CHECK_UNVERIFIABLE (cfg);
8627 cfg->cbb->next_bb = tblock;
8629 for (i = 0; i < cfg->cbb->in_scount; ++i) {
8630 if (cfg->verbose_level > 3)
8631 printf ("loading %d from temp %d\n", i, (int)cfg->cbb->in_stack [i]->inst_c0);
8632 EMIT_NEW_TEMPLOAD (cfg, ins, cfg->cbb->in_stack [i]->inst_c0);
8635 g_slist_free (class_inits);
8640 if (skip_dead_blocks) {
8641 int ip_offset = ip - header->code;
8643 if (ip_offset == bb->end)
8647 int op_size = mono_opcode_size (ip, end);
8648 g_assert (op_size > 0); /*The BB formation pass must catch all bad ops*/
8650 if (cfg->verbose_level > 3) printf ("SKIPPING DEAD OP at %x\n", ip_offset);
8652 if (ip_offset + op_size == bb->end) {
8653 MONO_INST_NEW (cfg, ins, OP_NOP);
8654 MONO_ADD_INS (cfg->cbb, ins);
8655 start_new_bblock = 1;
8663 * Sequence points are points where the debugger can place a breakpoint.
8664 * Currently, we generate these automatically at points where the IL
8667 if (seq_points && ((!sym_seq_points && (sp == stack_start)) || (sym_seq_points && mono_bitset_test_fast (seq_point_locs, ip - header->code)))) {
8669 * Make methods interruptable at the beginning, and at the targets of
8670 * backward branches.
8671 * Also, do this at the start of every bblock in methods with clauses too,
8672 * to be able to handle instructions with inprecise control flow like
8674 * Backward branches are handled at the end of method-to-ir ().
8676 gboolean intr_loc = ip == header->code || (!cfg->cbb->last_ins && cfg->header->num_clauses);
8677 gboolean sym_seq_point = sym_seq_points && mono_bitset_test_fast (seq_point_locs, ip - header->code);
8679 /* Avoid sequence points on empty IL like .volatile */
8680 // FIXME: Enable this
8681 //if (!(cfg->cbb->last_ins && cfg->cbb->last_ins->opcode == OP_SEQ_POINT)) {
8682 NEW_SEQ_POINT (cfg, ins, ip - header->code, intr_loc);
8683 if ((sp != stack_start) && !sym_seq_point)
8684 ins->flags |= MONO_INST_NONEMPTY_STACK;
8685 MONO_ADD_INS (cfg->cbb, ins);
8688 mono_bitset_set_fast (seq_point_set_locs, ip - header->code);
8691 cfg->cbb->real_offset = cfg->real_offset;
8693 if ((cfg->method == method) && cfg->coverage_info) {
8694 guint32 cil_offset = ip - header->code;
8695 cfg->coverage_info->data [cil_offset].cil_code = ip;
8697 /* TODO: Use an increment here */
8698 #if defined(TARGET_X86)
8699 MONO_INST_NEW (cfg, ins, OP_STORE_MEM_IMM);
8700 ins->inst_p0 = &(cfg->coverage_info->data [cil_offset].count);
8702 MONO_ADD_INS (cfg->cbb, ins);
8704 EMIT_NEW_PCONST (cfg, ins, &(cfg->coverage_info->data [cil_offset].count));
8705 MONO_EMIT_NEW_STORE_MEMBASE_IMM (cfg, OP_STORE_MEMBASE_IMM, ins->dreg, 0, 1);
8709 if (cfg->verbose_level > 3)
8710 printf ("converting (in B%d: stack: %d) %s", cfg->cbb->block_num, (int)(sp - stack_start), mono_disasm_code_one (NULL, method, ip, NULL));
8714 if (seq_points && !sym_seq_points && sp != stack_start) {
8716 * The C# compiler uses these nops to notify the JIT that it should
8717 * insert seq points.
8719 NEW_SEQ_POINT (cfg, ins, ip - header->code, FALSE);
8720 MONO_ADD_INS (cfg->cbb, ins);
8722 if (cfg->keep_cil_nops)
8723 MONO_INST_NEW (cfg, ins, OP_HARD_NOP);
8725 MONO_INST_NEW (cfg, ins, OP_NOP);
8727 MONO_ADD_INS (cfg->cbb, ins);
8730 if (should_insert_brekpoint (cfg->method)) {
8731 ins = mono_emit_jit_icall (cfg, mono_debugger_agent_user_break, NULL);
8733 MONO_INST_NEW (cfg, ins, OP_NOP);
8736 MONO_ADD_INS (cfg->cbb, ins);
8742 CHECK_STACK_OVF (1);
8743 n = (*ip)-CEE_LDARG_0;
8745 EMIT_NEW_ARGLOAD (cfg, ins, n);
8753 CHECK_STACK_OVF (1);
8754 n = (*ip)-CEE_LDLOC_0;
8756 EMIT_NEW_LOCLOAD (cfg, ins, n);
8765 n = (*ip)-CEE_STLOC_0;
8768 if (!dont_verify_stloc && target_type_is_incompatible (cfg, header->locals [n], *sp))
8770 emit_stloc_ir (cfg, sp, header, n);
8777 CHECK_STACK_OVF (1);
8780 EMIT_NEW_ARGLOAD (cfg, ins, n);
8786 CHECK_STACK_OVF (1);
8789 NEW_ARGLOADA (cfg, ins, n);
8790 MONO_ADD_INS (cfg->cbb, ins);
8800 if (!dont_verify_stloc && target_type_is_incompatible (cfg, param_types [ip [1]], *sp))
8802 EMIT_NEW_ARGSTORE (cfg, ins, n, *sp);
8807 CHECK_STACK_OVF (1);
8810 EMIT_NEW_LOCLOAD (cfg, ins, n);
8814 case CEE_LDLOCA_S: {
8815 unsigned char *tmp_ip;
8817 CHECK_STACK_OVF (1);
8818 CHECK_LOCAL (ip [1]);
8820 if ((tmp_ip = emit_optimized_ldloca_ir (cfg, ip, end, 1))) {
8826 EMIT_NEW_LOCLOADA (cfg, ins, ip [1]);
8835 CHECK_LOCAL (ip [1]);
8836 if (!dont_verify_stloc && target_type_is_incompatible (cfg, header->locals [ip [1]], *sp))
8838 emit_stloc_ir (cfg, sp, header, ip [1]);
8843 CHECK_STACK_OVF (1);
8844 EMIT_NEW_PCONST (cfg, ins, NULL);
8845 ins->type = STACK_OBJ;
8850 CHECK_STACK_OVF (1);
8851 EMIT_NEW_ICONST (cfg, ins, -1);
8864 CHECK_STACK_OVF (1);
8865 EMIT_NEW_ICONST (cfg, ins, (*ip) - CEE_LDC_I4_0);
8871 CHECK_STACK_OVF (1);
8873 EMIT_NEW_ICONST (cfg, ins, *((signed char*)ip));
8879 CHECK_STACK_OVF (1);
8880 EMIT_NEW_ICONST (cfg, ins, (gint32)read32 (ip + 1));
8886 CHECK_STACK_OVF (1);
8887 MONO_INST_NEW (cfg, ins, OP_I8CONST);
8888 ins->type = STACK_I8;
8889 ins->dreg = alloc_dreg (cfg, STACK_I8);
8891 ins->inst_l = (gint64)read64 (ip);
8892 MONO_ADD_INS (cfg->cbb, ins);
8898 gboolean use_aotconst = FALSE;
8900 #ifdef TARGET_POWERPC
8901 /* FIXME: Clean this up */
8902 if (cfg->compile_aot)
8903 use_aotconst = TRUE;
8906 /* FIXME: we should really allocate this only late in the compilation process */
8907 f = (float *)mono_domain_alloc (cfg->domain, sizeof (float));
8909 CHECK_STACK_OVF (1);
8915 EMIT_NEW_AOTCONST (cfg, cons, MONO_PATCH_INFO_R4, f);
8917 dreg = alloc_freg (cfg);
8918 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOADR4_MEMBASE, dreg, cons->dreg, 0);
8919 ins->type = cfg->r4_stack_type;
8921 MONO_INST_NEW (cfg, ins, OP_R4CONST);
8922 ins->type = cfg->r4_stack_type;
8923 ins->dreg = alloc_dreg (cfg, STACK_R8);
8925 MONO_ADD_INS (cfg->cbb, ins);
8935 gboolean use_aotconst = FALSE;
8937 #ifdef TARGET_POWERPC
8938 /* FIXME: Clean this up */
8939 if (cfg->compile_aot)
8940 use_aotconst = TRUE;
8943 /* FIXME: we should really allocate this only late in the compilation process */
8944 d = (double *)mono_domain_alloc (cfg->domain, sizeof (double));
8946 CHECK_STACK_OVF (1);
8952 EMIT_NEW_AOTCONST (cfg, cons, MONO_PATCH_INFO_R8, d);
8954 dreg = alloc_freg (cfg);
8955 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOADR8_MEMBASE, dreg, cons->dreg, 0);
8956 ins->type = STACK_R8;
8958 MONO_INST_NEW (cfg, ins, OP_R8CONST);
8959 ins->type = STACK_R8;
8960 ins->dreg = alloc_dreg (cfg, STACK_R8);
8962 MONO_ADD_INS (cfg->cbb, ins);
8971 MonoInst *temp, *store;
8973 CHECK_STACK_OVF (1);
8977 temp = mono_compile_create_var (cfg, type_from_stack_type (ins), OP_LOCAL);
8978 EMIT_NEW_TEMPSTORE (cfg, store, temp->inst_c0, ins);
8980 EMIT_NEW_TEMPLOAD (cfg, ins, temp->inst_c0);
8983 EMIT_NEW_TEMPLOAD (cfg, ins, temp->inst_c0);
8996 if (sp [0]->type == STACK_R8)
8997 /* we need to pop the value from the x86 FP stack */
8998 MONO_EMIT_NEW_UNALU (cfg, OP_X86_FPOP, -1, sp [0]->dreg);
9003 MonoMethodSignature *fsig;
9006 INLINE_FAILURE ("jmp");
9007 GSHAREDVT_FAILURE (*ip);
9010 if (stack_start != sp)
9012 token = read32 (ip + 1);
9013 /* FIXME: check the signature matches */
9014 cmethod = mini_get_method (cfg, method, token, NULL, generic_context);
9017 if (cfg->gshared && mono_method_check_context_used (cmethod))
9018 GENERIC_SHARING_FAILURE (CEE_JMP);
9020 emit_instrumentation_call (cfg, mono_profiler_method_leave);
9022 fsig = mono_method_signature (cmethod);
9023 n = fsig->param_count + fsig->hasthis;
9024 if (cfg->llvm_only) {
9027 args = (MonoInst **)mono_mempool_alloc (cfg->mempool, sizeof (MonoInst*) * n);
9028 for (i = 0; i < n; ++i)
9029 EMIT_NEW_ARGLOAD (cfg, args [i], i);
9030 ins = mono_emit_method_call_full (cfg, cmethod, fsig, TRUE, args, NULL, NULL, NULL);
9032 * The code in mono-basic-block.c treats the rest of the code as dead, but we
9033 * have to emit a normal return since llvm expects it.
9036 emit_setret (cfg, ins);
9037 MONO_INST_NEW (cfg, ins, OP_BR);
9038 ins->inst_target_bb = end_bblock;
9039 MONO_ADD_INS (cfg->cbb, ins);
9040 link_bblock (cfg, cfg->cbb, end_bblock);
9043 } else if (cfg->backend->have_op_tail_call) {
9044 /* Handle tail calls similarly to calls */
9047 MONO_INST_NEW_CALL (cfg, call, OP_TAILCALL);
9048 call->method = cmethod;
9049 call->tail_call = TRUE;
9050 call->signature = mono_method_signature (cmethod);
9051 call->args = (MonoInst **)mono_mempool_alloc (cfg->mempool, sizeof (MonoInst*) * n);
9052 call->inst.inst_p0 = cmethod;
9053 for (i = 0; i < n; ++i)
9054 EMIT_NEW_ARGLOAD (cfg, call->args [i], i);
9056 mono_arch_emit_call (cfg, call);
9057 cfg->param_area = MAX(cfg->param_area, call->stack_usage);
9058 MONO_ADD_INS (cfg->cbb, (MonoInst*)call);
9060 for (i = 0; i < num_args; ++i)
9061 /* Prevent arguments from being optimized away */
9062 arg_array [i]->flags |= MONO_INST_VOLATILE;
9064 MONO_INST_NEW_CALL (cfg, call, OP_JMP);
9065 ins = (MonoInst*)call;
9066 ins->inst_p0 = cmethod;
9067 MONO_ADD_INS (cfg->cbb, ins);
9071 start_new_bblock = 1;
9076 MonoMethodSignature *fsig;
9079 token = read32 (ip + 1);
9083 //GSHAREDVT_FAILURE (*ip);
9088 fsig = mini_get_signature (method, token, generic_context);
9090 if (method->dynamic && fsig->pinvoke) {
9094 * This is a call through a function pointer using a pinvoke
9095 * signature. Have to create a wrapper and call that instead.
9096 * FIXME: This is very slow, need to create a wrapper at JIT time
9097 * instead based on the signature.
9099 EMIT_NEW_IMAGECONST (cfg, args [0], method->klass->image);
9100 EMIT_NEW_PCONST (cfg, args [1], fsig);
9102 addr = mono_emit_jit_icall (cfg, mono_get_native_calli_wrapper, args);
9105 n = fsig->param_count + fsig->hasthis;
9109 //g_assert (!virtual_ || fsig->hasthis);
9113 inline_costs += 10 * num_calls++;
9116 * Making generic calls out of gsharedvt methods.
9117 * This needs to be used for all generic calls, not just ones with a gsharedvt signature, to avoid
9118 * patching gshared method addresses into a gsharedvt method.
9120 if (cfg->gsharedvt && mini_is_gsharedvt_signature (fsig)) {
9122 * We pass the address to the gsharedvt trampoline in the rgctx reg
9124 MonoInst *callee = addr;
9126 if (method->wrapper_type != MONO_WRAPPER_DELEGATE_INVOKE)
9128 GSHAREDVT_FAILURE (*ip);
9132 GSHAREDVT_FAILURE (*ip);
9134 addr = emit_get_rgctx_sig (cfg, context_used,
9135 fsig, MONO_RGCTX_INFO_SIG_GSHAREDVT_OUT_TRAMPOLINE_CALLI);
9136 ins = (MonoInst*)mono_emit_calli (cfg, fsig, sp, addr, NULL, callee);
9140 /* Prevent inlining of methods with indirect calls */
9141 INLINE_FAILURE ("indirect call");
9143 if (addr->opcode == OP_PCONST || addr->opcode == OP_AOTCONST || addr->opcode == OP_GOT_ENTRY) {
9144 MonoJumpInfoType info_type;
9148 * Instead of emitting an indirect call, emit a direct call
9149 * with the contents of the aotconst as the patch info.
9151 if (addr->opcode == OP_PCONST || addr->opcode == OP_AOTCONST) {
9152 info_type = (MonoJumpInfoType)addr->inst_c1;
9153 info_data = addr->inst_p0;
9155 info_type = (MonoJumpInfoType)addr->inst_right->inst_c1;
9156 info_data = addr->inst_right->inst_left;
9159 if (info_type == MONO_PATCH_INFO_ICALL_ADDR) {
9160 ins = (MonoInst*)mono_emit_abs_call (cfg, MONO_PATCH_INFO_ICALL_ADDR_CALL, info_data, fsig, sp);
9163 } else if (info_type == MONO_PATCH_INFO_JIT_ICALL_ADDR) {
9164 ins = (MonoInst*)mono_emit_abs_call (cfg, info_type, info_data, fsig, sp);
9169 ins = (MonoInst*)mono_emit_calli (cfg, fsig, sp, addr, NULL, NULL);
9173 /* End of call, INS should contain the result of the call, if any */
9175 if (!MONO_TYPE_IS_VOID (fsig->ret)) {
9177 *sp++ = mono_emit_widen_call_res (cfg, ins, fsig);
9180 CHECK_CFG_EXCEPTION;
9184 constrained_class = NULL;
9188 case CEE_CALLVIRT: {
9189 MonoInst *addr = NULL;
9190 MonoMethodSignature *fsig = NULL;
9192 int virtual_ = *ip == CEE_CALLVIRT;
9193 gboolean pass_imt_from_rgctx = FALSE;
9194 MonoInst *imt_arg = NULL;
9195 MonoInst *keep_this_alive = NULL;
9196 gboolean pass_vtable = FALSE;
9197 gboolean pass_mrgctx = FALSE;
9198 MonoInst *vtable_arg = NULL;
9199 gboolean check_this = FALSE;
9200 gboolean supported_tail_call = FALSE;
9201 gboolean tail_call = FALSE;
9202 gboolean need_seq_point = FALSE;
9203 guint32 call_opcode = *ip;
9204 gboolean emit_widen = TRUE;
9205 gboolean push_res = TRUE;
9206 gboolean skip_ret = FALSE;
9207 gboolean delegate_invoke = FALSE;
9208 gboolean direct_icall = FALSE;
9209 gboolean constrained_partial_call = FALSE;
9210 MonoMethod *cil_method;
9213 token = read32 (ip + 1);
9217 cmethod = mini_get_method (cfg, method, token, NULL, generic_context);
9220 cil_method = cmethod;
9222 if (constrained_class) {
9223 if ((constrained_class->byval_arg.type == MONO_TYPE_VAR || constrained_class->byval_arg.type == MONO_TYPE_MVAR) && cfg->gshared) {
9224 if (!mini_is_gsharedvt_klass (constrained_class)) {
9225 g_assert (!cmethod->klass->valuetype);
9226 if (!mini_type_is_reference (&constrained_class->byval_arg))
9227 constrained_partial_call = TRUE;
9231 if (method->wrapper_type != MONO_WRAPPER_NONE) {
9232 if (cfg->verbose_level > 2)
9233 printf ("DM Constrained call to %s\n", mono_type_get_full_name (constrained_class));
9234 if (!((constrained_class->byval_arg.type == MONO_TYPE_VAR ||
9235 constrained_class->byval_arg.type == MONO_TYPE_MVAR) &&
9237 cmethod = mono_get_method_constrained_with_method (image, cil_method, constrained_class, generic_context, &cfg->error);
9241 if (cfg->verbose_level > 2)
9242 printf ("Constrained call to %s\n", mono_type_get_full_name (constrained_class));
9244 if ((constrained_class->byval_arg.type == MONO_TYPE_VAR || constrained_class->byval_arg.type == MONO_TYPE_MVAR) && cfg->gshared) {
9246 * This is needed since get_method_constrained can't find
9247 * the method in klass representing a type var.
9248 * The type var is guaranteed to be a reference type in this
9251 if (!mini_is_gsharedvt_klass (constrained_class))
9252 g_assert (!cmethod->klass->valuetype);
9254 cmethod = mono_get_method_constrained_checked (image, token, constrained_class, generic_context, &cil_method, &cfg->error);
9260 if (!dont_verify && !cfg->skip_visibility) {
9261 MonoMethod *target_method = cil_method;
9262 if (method->is_inflated) {
9263 target_method = mini_get_method_allow_open (method, token, NULL, &(mono_method_get_generic_container (method_definition)->context), &cfg->error);
9266 if (!mono_method_can_access_method (method_definition, target_method) &&
9267 !mono_method_can_access_method (method, cil_method))
9268 METHOD_ACCESS_FAILURE (method, cil_method);
9271 if (mono_security_core_clr_enabled ())
9272 ensure_method_is_allowed_to_call_method (cfg, method, cil_method);
9274 if (!virtual_ && (cmethod->flags & METHOD_ATTRIBUTE_ABSTRACT))
9275 /* MS.NET seems to silently convert this to a callvirt */
9280 * MS.NET accepts non virtual calls to virtual final methods of transparent proxy classes and
9281 * converts to a callvirt.
9283 * tests/bug-515884.il is an example of this behavior
9285 const int test_flags = METHOD_ATTRIBUTE_VIRTUAL | METHOD_ATTRIBUTE_FINAL | METHOD_ATTRIBUTE_STATIC;
9286 const int expected_flags = METHOD_ATTRIBUTE_VIRTUAL | METHOD_ATTRIBUTE_FINAL;
9287 if (!virtual_ && mono_class_is_marshalbyref (cmethod->klass) && (cmethod->flags & test_flags) == expected_flags && cfg->method->wrapper_type == MONO_WRAPPER_NONE)
9291 if (!cmethod->klass->inited)
9292 if (!mono_class_init (cmethod->klass))
9293 TYPE_LOAD_ERROR (cmethod->klass);
9295 fsig = mono_method_signature (cmethod);
9298 if (cmethod->iflags & METHOD_IMPL_ATTRIBUTE_INTERNAL_CALL &&
9299 mini_class_is_system_array (cmethod->klass)) {
9300 array_rank = cmethod->klass->rank;
9301 } else if ((cmethod->iflags & METHOD_IMPL_ATTRIBUTE_INTERNAL_CALL) && icall_is_direct_callable (cfg, cmethod)) {
9302 direct_icall = TRUE;
9303 } else if (fsig->pinvoke) {
9304 MonoMethod *wrapper = mono_marshal_get_native_wrapper (cmethod, TRUE, cfg->compile_aot);
9305 fsig = mono_method_signature (wrapper);
9306 } else if (constrained_class) {
9308 fsig = mono_method_get_signature_checked (cmethod, image, token, generic_context, &cfg->error);
9312 if (cfg->llvm_only && !cfg->method->wrapper_type)
9313 cfg->signatures = g_slist_prepend_mempool (cfg->mempool, cfg->signatures, fsig);
9315 /* See code below */
9316 if (cmethod->klass == mono_defaults.monitor_class && !strcmp (cmethod->name, "Enter") && mono_method_signature (cmethod)->param_count == 1) {
9317 MonoBasicBlock *tbb;
9319 GET_BBLOCK (cfg, tbb, ip + 5);
9320 if (tbb->try_start && MONO_REGION_FLAGS(tbb->region) == MONO_EXCEPTION_CLAUSE_FINALLY) {
9322 * We want to extend the try block to cover the call, but we can't do it if the
9323 * call is made directly since its followed by an exception check.
9325 direct_icall = FALSE;
9329 mono_save_token_info (cfg, image, token, cil_method);
9331 if (!(seq_point_locs && mono_bitset_test_fast (seq_point_locs, ip + 5 - header->code)))
9332 need_seq_point = TRUE;
9334 /* Don't support calls made using type arguments for now */
9336 if (cfg->gsharedvt) {
9337 if (mini_is_gsharedvt_signature (fsig))
9338 GSHAREDVT_FAILURE (*ip);
9342 if (cmethod->string_ctor && method->wrapper_type != MONO_WRAPPER_RUNTIME_INVOKE)
9343 g_assert_not_reached ();
9345 n = fsig->param_count + fsig->hasthis;
9347 if (!cfg->gshared && cmethod->klass->generic_container)
9351 g_assert (!mono_method_check_context_used (cmethod));
9355 //g_assert (!virtual_ || fsig->hasthis);
9360 * We have the `constrained.' prefix opcode.
9362 if (constrained_class) {
9363 if (mini_is_gsharedvt_klass (constrained_class)) {
9364 if ((cmethod->klass != mono_defaults.object_class) && constrained_class->valuetype && cmethod->klass->valuetype) {
9365 /* The 'Own method' case below */
9366 } else if (cmethod->klass->image != mono_defaults.corlib && !(cmethod->klass->flags & TYPE_ATTRIBUTE_INTERFACE) && !cmethod->klass->valuetype) {
9367 /* 'The type parameter is instantiated as a reference type' case below. */
9369 ins = handle_constrained_gsharedvt_call (cfg, cmethod, fsig, sp, constrained_class, &emit_widen);
9370 CHECK_CFG_EXCEPTION;
9376 if (constrained_partial_call) {
9377 gboolean need_box = TRUE;
9380 * The receiver is a valuetype, but the exact type is not known at compile time. This means the
9381 * called method is not known at compile time either. The called method could end up being
9382 * one of the methods on the parent classes (object/valuetype/enum), in which case we need
9383 * to box the receiver.
9384 * A simple solution would be to box always and make a normal virtual call, but that would
9385 * be bad performance wise.
9387 if (cmethod->klass->flags & TYPE_ATTRIBUTE_INTERFACE && cmethod->klass->generic_class) {
9389 * The parent classes implement no generic interfaces, so the called method will be a vtype method, so no boxing neccessary.
9394 if (!(cmethod->flags & METHOD_ATTRIBUTE_VIRTUAL) && (cmethod->klass == mono_defaults.object_class || cmethod->klass == mono_defaults.enum_class->parent || cmethod->klass == mono_defaults.enum_class)) {
9395 /* The called method is not virtual, i.e. Object:GetType (), the receiver is a vtype, has to box */
9396 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, &constrained_class->byval_arg, sp [0]->dreg, 0);
9397 ins->klass = constrained_class;
9398 sp [0] = handle_box (cfg, ins, constrained_class, mono_class_check_context_used (constrained_class));
9399 CHECK_CFG_EXCEPTION;
9400 } else if (need_box) {
9402 MonoBasicBlock *is_ref_bb, *end_bb;
9403 MonoInst *nonbox_call;
9406 * Determine at runtime whenever the called method is defined on object/valuetype/enum, and emit a boxing call
9408 * FIXME: It is possible to inline the called method in a lot of cases, i.e. for T_INT,
9409 * the no-box case goes to a method in Int32, while the box case goes to a method in Enum.
9411 addr = emit_get_rgctx_virt_method (cfg, mono_class_check_context_used (constrained_class), constrained_class, cmethod, MONO_RGCTX_INFO_VIRT_METHOD_CODE);
9413 NEW_BBLOCK (cfg, is_ref_bb);
9414 NEW_BBLOCK (cfg, end_bb);
9416 box_type = emit_get_rgctx_virt_method (cfg, mono_class_check_context_used (constrained_class), constrained_class, cmethod, MONO_RGCTX_INFO_VIRT_METHOD_BOX_TYPE);
9417 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, box_type->dreg, MONO_GSHAREDVT_BOX_TYPE_REF);
9418 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_IBEQ, is_ref_bb);
9421 nonbox_call = (MonoInst*)mono_emit_calli (cfg, fsig, sp, addr, NULL, NULL);
9423 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
9426 MONO_START_BB (cfg, is_ref_bb);
9427 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, &constrained_class->byval_arg, sp [0]->dreg, 0);
9428 ins->klass = constrained_class;
9429 sp [0] = handle_box (cfg, ins, constrained_class, mono_class_check_context_used (constrained_class));
9430 ins = (MonoInst*)mono_emit_calli (cfg, fsig, sp, addr, NULL, NULL);
9432 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
9434 MONO_START_BB (cfg, end_bb);
9437 nonbox_call->dreg = ins->dreg;
9440 g_assert (cmethod->klass->flags & TYPE_ATTRIBUTE_INTERFACE);
9441 addr = emit_get_rgctx_virt_method (cfg, mono_class_check_context_used (constrained_class), constrained_class, cmethod, MONO_RGCTX_INFO_VIRT_METHOD_CODE);
9442 ins = (MonoInst*)mono_emit_calli (cfg, fsig, sp, addr, NULL, NULL);
9445 } else if (constrained_class->valuetype && (cmethod->klass == mono_defaults.object_class || cmethod->klass == mono_defaults.enum_class->parent || cmethod->klass == mono_defaults.enum_class)) {
9447 * The type parameter is instantiated as a valuetype,
9448 * but that type doesn't override the method we're
9449 * calling, so we need to box `this'.
9451 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, &constrained_class->byval_arg, sp [0]->dreg, 0);
9452 ins->klass = constrained_class;
9453 sp [0] = handle_box (cfg, ins, constrained_class, mono_class_check_context_used (constrained_class));
9454 CHECK_CFG_EXCEPTION;
9455 } else if (!constrained_class->valuetype) {
9456 int dreg = alloc_ireg_ref (cfg);
9459 * The type parameter is instantiated as a reference
9460 * type. We have a managed pointer on the stack, so
9461 * we need to dereference it here.
9463 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOAD_MEMBASE, dreg, sp [0]->dreg, 0);
9464 ins->type = STACK_OBJ;
9467 if (cmethod->klass->valuetype) {
9470 /* Interface method */
9473 mono_class_setup_vtable (constrained_class);
9474 CHECK_TYPELOAD (constrained_class);
9475 ioffset = mono_class_interface_offset (constrained_class, cmethod->klass);
9477 TYPE_LOAD_ERROR (constrained_class);
9478 slot = mono_method_get_vtable_slot (cmethod);
9480 TYPE_LOAD_ERROR (cmethod->klass);
9481 cmethod = constrained_class->vtable [ioffset + slot];
9483 if (cmethod->klass == mono_defaults.enum_class) {
9484 /* Enum implements some interfaces, so treat this as the first case */
9485 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, &constrained_class->byval_arg, sp [0]->dreg, 0);
9486 ins->klass = constrained_class;
9487 sp [0] = handle_box (cfg, ins, constrained_class, mono_class_check_context_used (constrained_class));
9488 CHECK_CFG_EXCEPTION;
9493 constrained_class = NULL;
9496 if (check_call_signature (cfg, fsig, sp))
9499 if ((cmethod->klass->parent == mono_defaults.multicastdelegate_class) && !strcmp (cmethod->name, "Invoke"))
9500 delegate_invoke = TRUE;
9502 if ((cfg->opt & MONO_OPT_INTRINS) && (ins = mini_emit_inst_for_sharable_method (cfg, cmethod, fsig, sp))) {
9503 if (!MONO_TYPE_IS_VOID (fsig->ret)) {
9504 type_to_eval_stack_type ((cfg), fsig->ret, ins);
9512 * If the callee is a shared method, then its static cctor
9513 * might not get called after the call was patched.
9515 if (cfg->gshared && cmethod->klass != method->klass && cmethod->klass->generic_class && mono_method_is_generic_sharable (cmethod, TRUE) && mono_class_needs_cctor_run (cmethod->klass, method)) {
9516 emit_class_init (cfg, cmethod->klass);
9517 CHECK_TYPELOAD (cmethod->klass);
9520 check_method_sharing (cfg, cmethod, &pass_vtable, &pass_mrgctx);
9523 MonoGenericContext *cmethod_context = mono_method_get_context (cmethod);
9525 context_used = mini_method_check_context_used (cfg, cmethod);
9527 if (context_used && (cmethod->klass->flags & TYPE_ATTRIBUTE_INTERFACE)) {
9528 /* Generic method interface
9529 calls are resolved via a
9530 helper function and don't
9532 if (!cmethod_context || !cmethod_context->method_inst)
9533 pass_imt_from_rgctx = TRUE;
9537 * If a shared method calls another
9538 * shared method then the caller must
9539 * have a generic sharing context
9540 * because the magic trampoline
9541 * requires it. FIXME: We shouldn't
9542 * have to force the vtable/mrgctx
9543 * variable here. Instead there
9544 * should be a flag in the cfg to
9545 * request a generic sharing context.
9548 ((method->flags & METHOD_ATTRIBUTE_STATIC) || method->klass->valuetype))
9549 mono_get_vtable_var (cfg);
9554 vtable_arg = emit_get_rgctx_klass (cfg, context_used, cmethod->klass, MONO_RGCTX_INFO_VTABLE);
9556 MonoVTable *vtable = mono_class_vtable (cfg->domain, cmethod->klass);
9558 CHECK_TYPELOAD (cmethod->klass);
9559 EMIT_NEW_VTABLECONST (cfg, vtable_arg, vtable);
9564 g_assert (!vtable_arg);
9566 if (!cfg->compile_aot) {
9568 * emit_get_rgctx_method () calls mono_class_vtable () so check
9569 * for type load errors before.
9571 mono_class_setup_vtable (cmethod->klass);
9572 CHECK_TYPELOAD (cmethod->klass);
9575 vtable_arg = emit_get_rgctx_method (cfg, context_used, cmethod, MONO_RGCTX_INFO_METHOD_RGCTX);
9577 /* !marshalbyref is needed to properly handle generic methods + remoting */
9578 if ((!(cmethod->flags & METHOD_ATTRIBUTE_VIRTUAL) ||
9579 MONO_METHOD_IS_FINAL (cmethod)) &&
9580 !mono_class_is_marshalbyref (cmethod->klass)) {
9587 if (pass_imt_from_rgctx) {
9588 g_assert (!pass_vtable);
9590 imt_arg = emit_get_rgctx_method (cfg, context_used,
9591 cmethod, MONO_RGCTX_INFO_METHOD);
9595 MONO_EMIT_NEW_CHECK_THIS (cfg, sp [0]->dreg);
9597 /* Calling virtual generic methods */
9598 if (virtual_ && (cmethod->flags & METHOD_ATTRIBUTE_VIRTUAL) &&
9599 !(MONO_METHOD_IS_FINAL (cmethod) &&
9600 cmethod->wrapper_type != MONO_WRAPPER_REMOTING_INVOKE_WITH_CHECK) &&
9601 fsig->generic_param_count &&
9602 !(cfg->gsharedvt && mini_is_gsharedvt_signature (fsig)) &&
9604 MonoInst *this_temp, *this_arg_temp, *store;
9605 MonoInst *iargs [4];
9607 g_assert (fsig->is_inflated);
9609 /* Prevent inlining of methods that contain indirect calls */
9610 INLINE_FAILURE ("virtual generic call");
9612 if (cfg->gsharedvt && mini_is_gsharedvt_signature (fsig))
9613 GSHAREDVT_FAILURE (*ip);
9615 if (cfg->backend->have_generalized_imt_thunk && cfg->backend->gshared_supported && cmethod->wrapper_type == MONO_WRAPPER_NONE) {
9616 g_assert (!imt_arg);
9618 g_assert (cmethod->is_inflated);
9619 imt_arg = emit_get_rgctx_method (cfg, context_used,
9620 cmethod, MONO_RGCTX_INFO_METHOD);
9621 ins = mono_emit_method_call_full (cfg, cmethod, fsig, FALSE, sp, sp [0], imt_arg, NULL);
9623 this_temp = mono_compile_create_var (cfg, type_from_stack_type (sp [0]), OP_LOCAL);
9624 NEW_TEMPSTORE (cfg, store, this_temp->inst_c0, sp [0]);
9625 MONO_ADD_INS (cfg->cbb, store);
9627 /* FIXME: This should be a managed pointer */
9628 this_arg_temp = mono_compile_create_var (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL);
9630 EMIT_NEW_TEMPLOAD (cfg, iargs [0], this_temp->inst_c0);
9631 iargs [1] = emit_get_rgctx_method (cfg, context_used,
9632 cmethod, MONO_RGCTX_INFO_METHOD);
9633 EMIT_NEW_TEMPLOADA (cfg, iargs [2], this_arg_temp->inst_c0);
9634 addr = mono_emit_jit_icall (cfg,
9635 mono_helper_compile_generic_method, iargs);
9637 EMIT_NEW_TEMPLOAD (cfg, sp [0], this_arg_temp->inst_c0);
9639 ins = (MonoInst*)mono_emit_calli (cfg, fsig, sp, addr, NULL, NULL);
9646 * Implement a workaround for the inherent races involved in locking:
9652 * If a thread abort happens between the call to Monitor.Enter () and the start of the
9653 * try block, the Exit () won't be executed, see:
9654 * http://www.bluebytesoftware.com/blog/2007/01/30/MonitorEnterThreadAbortsAndOrphanedLocks.aspx
9655 * To work around this, we extend such try blocks to include the last x bytes
9656 * of the Monitor.Enter () call.
9658 if (cmethod->klass == mono_defaults.monitor_class && !strcmp (cmethod->name, "Enter") && mono_method_signature (cmethod)->param_count == 1) {
9659 MonoBasicBlock *tbb;
9661 GET_BBLOCK (cfg, tbb, ip + 5);
9663 * Only extend try blocks with a finally, to avoid catching exceptions thrown
9664 * from Monitor.Enter like ArgumentNullException.
9666 if (tbb->try_start && MONO_REGION_FLAGS(tbb->region) == MONO_EXCEPTION_CLAUSE_FINALLY) {
9667 /* Mark this bblock as needing to be extended */
9668 tbb->extend_try_block = TRUE;
9672 /* Conversion to a JIT intrinsic */
9673 if ((cfg->opt & MONO_OPT_INTRINS) && (ins = mini_emit_inst_for_method (cfg, cmethod, fsig, sp))) {
9674 if (!MONO_TYPE_IS_VOID (fsig->ret)) {
9675 type_to_eval_stack_type ((cfg), fsig->ret, ins);
9682 if ((cfg->opt & MONO_OPT_INLINE) &&
9683 (!virtual_ || !(cmethod->flags & METHOD_ATTRIBUTE_VIRTUAL) || MONO_METHOD_IS_FINAL (cmethod)) &&
9684 mono_method_check_inlining (cfg, cmethod)) {
9686 gboolean always = FALSE;
9688 if ((cmethod->iflags & METHOD_IMPL_ATTRIBUTE_INTERNAL_CALL) ||
9689 (cmethod->flags & METHOD_ATTRIBUTE_PINVOKE_IMPL)) {
9690 /* Prevent inlining of methods that call wrappers */
9691 INLINE_FAILURE ("wrapper call");
9692 cmethod = mono_marshal_get_native_wrapper (cmethod, TRUE, FALSE);
9696 costs = inline_method (cfg, cmethod, fsig, sp, ip, cfg->real_offset, always);
9698 cfg->real_offset += 5;
9700 if (!MONO_TYPE_IS_VOID (fsig->ret)) {
9701 /* *sp is already set by inline_method */
9706 inline_costs += costs;
9712 /* Tail recursion elimination */
9713 if ((cfg->opt & MONO_OPT_TAILC) && call_opcode == CEE_CALL && cmethod == method && ip [5] == CEE_RET && !vtable_arg) {
9714 gboolean has_vtargs = FALSE;
9717 /* Prevent inlining of methods with tail calls (the call stack would be altered) */
9718 INLINE_FAILURE ("tail call");
9720 /* keep it simple */
9721 for (i = fsig->param_count - 1; i >= 0; i--) {
9722 if (MONO_TYPE_ISSTRUCT (mono_method_signature (cmethod)->params [i]))
9727 for (i = 0; i < n; ++i)
9728 EMIT_NEW_ARGSTORE (cfg, ins, i, sp [i]);
9729 MONO_INST_NEW (cfg, ins, OP_BR);
9730 MONO_ADD_INS (cfg->cbb, ins);
9731 tblock = start_bblock->out_bb [0];
9732 link_bblock (cfg, cfg->cbb, tblock);
9733 ins->inst_target_bb = tblock;
9734 start_new_bblock = 1;
9736 /* skip the CEE_RET, too */
9737 if (ip_in_bb (cfg, cfg->cbb, ip + 5))
9744 inline_costs += 10 * num_calls++;
9747 * Making generic calls out of gsharedvt methods.
9748 * This needs to be used for all generic calls, not just ones with a gsharedvt signature, to avoid
9749 * patching gshared method addresses into a gsharedvt method.
9751 if (cfg->gsharedvt && (mini_is_gsharedvt_signature (fsig) || cmethod->is_inflated || cmethod->klass->generic_class) &&
9752 !(cmethod->klass->rank && cmethod->klass->byval_arg.type != MONO_TYPE_SZARRAY) &&
9753 (!(cfg->llvm_only && virtual_ && (cmethod->flags & METHOD_ATTRIBUTE_VIRTUAL)))) {
9754 MonoRgctxInfoType info_type;
9757 //if (cmethod->klass->flags & TYPE_ATTRIBUTE_INTERFACE)
9758 //GSHAREDVT_FAILURE (*ip);
9759 // disable for possible remoting calls
9760 if (fsig->hasthis && (mono_class_is_marshalbyref (method->klass) || method->klass == mono_defaults.object_class))
9761 GSHAREDVT_FAILURE (*ip);
9762 if (fsig->generic_param_count) {
9763 /* virtual generic call */
9764 g_assert (!imt_arg);
9765 /* Same as the virtual generic case above */
9766 imt_arg = emit_get_rgctx_method (cfg, context_used,
9767 cmethod, MONO_RGCTX_INFO_METHOD);
9768 /* This is not needed, as the trampoline code will pass one, and it might be passed in the same reg as the imt arg */
9770 } else if ((cmethod->klass->flags & TYPE_ATTRIBUTE_INTERFACE) && !imt_arg) {
9771 /* This can happen when we call a fully instantiated iface method */
9772 imt_arg = emit_get_rgctx_method (cfg, context_used,
9773 cmethod, MONO_RGCTX_INFO_METHOD);
9778 if ((cmethod->klass->parent == mono_defaults.multicastdelegate_class) && (!strcmp (cmethod->name, "Invoke")))
9779 keep_this_alive = sp [0];
9781 if (virtual_ && (cmethod->flags & METHOD_ATTRIBUTE_VIRTUAL))
9782 info_type = MONO_RGCTX_INFO_METHOD_GSHAREDVT_OUT_TRAMPOLINE_VIRT;
9784 info_type = MONO_RGCTX_INFO_METHOD_GSHAREDVT_OUT_TRAMPOLINE;
9785 addr = emit_get_rgctx_gsharedvt_call (cfg, context_used, fsig, cmethod, info_type);
9787 if (cfg->llvm_only) {
9788 // FIXME: Avoid initializing vtable_arg
9789 ins = emit_llvmonly_calli (cfg, fsig, sp, addr);
9791 ins = (MonoInst*)mono_emit_calli (cfg, fsig, sp, addr, imt_arg, vtable_arg);
9796 /* Generic sharing */
9799 * Use this if the callee is gsharedvt sharable too, since
9800 * at runtime we might find an instantiation so the call cannot
9801 * be patched (the 'no_patch' code path in mini-trampolines.c).
9803 if (context_used && !imt_arg && !array_rank && !delegate_invoke &&
9804 (!mono_method_is_generic_sharable_full (cmethod, TRUE, FALSE, FALSE) ||
9805 !mono_class_generic_sharing_enabled (cmethod->klass)) &&
9806 (!virtual_ || MONO_METHOD_IS_FINAL (cmethod) ||
9807 !(cmethod->flags & METHOD_ATTRIBUTE_VIRTUAL))) {
9808 INLINE_FAILURE ("gshared");
9810 g_assert (cfg->gshared && cmethod);
9814 * We are compiling a call to a
9815 * generic method from shared code,
9816 * which means that we have to look up
9817 * the method in the rgctx and do an
9821 MONO_EMIT_NEW_CHECK_THIS (cfg, sp [0]->dreg);
9823 if (cfg->llvm_only) {
9824 if (cfg->gsharedvt && mini_is_gsharedvt_variable_signature (fsig))
9825 addr = emit_get_rgctx_method (cfg, context_used, cmethod, MONO_RGCTX_INFO_GSHAREDVT_OUT_WRAPPER);
9827 addr = emit_get_rgctx_method (cfg, context_used, cmethod, MONO_RGCTX_INFO_GENERIC_METHOD_CODE);
9828 // FIXME: Avoid initializing imt_arg/vtable_arg
9829 ins = emit_llvmonly_calli (cfg, fsig, sp, addr);
9831 addr = emit_get_rgctx_method (cfg, context_used, cmethod, MONO_RGCTX_INFO_GENERIC_METHOD_CODE);
9832 ins = (MonoInst*)mono_emit_calli (cfg, fsig, sp, addr, imt_arg, vtable_arg);
9837 /* Direct calls to icalls */
9839 MonoMethod *wrapper;
9842 /* Inline the wrapper */
9843 wrapper = mono_marshal_get_native_wrapper (cmethod, TRUE, cfg->compile_aot);
9845 costs = inline_method (cfg, wrapper, fsig, sp, ip, cfg->real_offset, TRUE);
9846 g_assert (costs > 0);
9847 cfg->real_offset += 5;
9849 if (!MONO_TYPE_IS_VOID (fsig->ret)) {
9850 /* *sp is already set by inline_method */
9855 inline_costs += costs;
9864 if (strcmp (cmethod->name, "Set") == 0) { /* array Set */
9865 MonoInst *val = sp [fsig->param_count];
9867 if (val->type == STACK_OBJ) {
9868 MonoInst *iargs [2];
9873 mono_emit_jit_icall (cfg, mono_helper_stelem_ref_check, iargs);
9876 addr = mini_emit_ldelema_ins (cfg, cmethod, sp, ip, TRUE);
9877 EMIT_NEW_STORE_MEMBASE_TYPE (cfg, ins, fsig->params [fsig->param_count - 1], addr->dreg, 0, val->dreg);
9878 if (cfg->gen_write_barriers && val->type == STACK_OBJ && !(val->opcode == OP_PCONST && val->inst_c0 == 0))
9879 emit_write_barrier (cfg, addr, val);
9880 if (cfg->gen_write_barriers && mini_is_gsharedvt_klass (cmethod->klass))
9881 GSHAREDVT_FAILURE (*ip);
9882 } else if (strcmp (cmethod->name, "Get") == 0) { /* array Get */
9883 addr = mini_emit_ldelema_ins (cfg, cmethod, sp, ip, FALSE);
9885 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, fsig->ret, addr->dreg, 0);
9886 } else if (strcmp (cmethod->name, "Address") == 0) { /* array Address */
9887 if (!cmethod->klass->element_class->valuetype && !readonly)
9888 mini_emit_check_array_type (cfg, sp [0], cmethod->klass);
9889 CHECK_TYPELOAD (cmethod->klass);
9892 addr = mini_emit_ldelema_ins (cfg, cmethod, sp, ip, FALSE);
9895 g_assert_not_reached ();
9902 ins = mini_redirect_call (cfg, cmethod, fsig, sp, virtual_ ? sp [0] : NULL);
9906 /* Tail prefix / tail call optimization */
9908 /* FIXME: Enabling TAILC breaks some inlining/stack trace/etc tests */
9909 /* FIXME: runtime generic context pointer for jumps? */
9910 /* FIXME: handle this for generic sharing eventually */
9911 if ((ins_flag & MONO_INST_TAILCALL) &&
9912 !vtable_arg && !cfg->gshared && is_supported_tail_call (cfg, method, cmethod, fsig, call_opcode))
9913 supported_tail_call = TRUE;
9915 if (supported_tail_call) {
9918 /* Prevent inlining of methods with tail calls (the call stack would be altered) */
9919 INLINE_FAILURE ("tail call");
9921 //printf ("HIT: %s -> %s\n", mono_method_full_name (cfg->method, TRUE), mono_method_full_name (cmethod, TRUE));
9923 if (cfg->backend->have_op_tail_call) {
9924 /* Handle tail calls similarly to normal calls */
9927 emit_instrumentation_call (cfg, mono_profiler_method_leave);
9929 MONO_INST_NEW_CALL (cfg, call, OP_JMP);
9930 call->tail_call = TRUE;
9931 call->method = cmethod;
9932 call->signature = mono_method_signature (cmethod);
9935 * We implement tail calls by storing the actual arguments into the
9936 * argument variables, then emitting a CEE_JMP.
9938 for (i = 0; i < n; ++i) {
9939 /* Prevent argument from being register allocated */
9940 arg_array [i]->flags |= MONO_INST_VOLATILE;
9941 EMIT_NEW_ARGSTORE (cfg, ins, i, sp [i]);
9943 ins = (MonoInst*)call;
9944 ins->inst_p0 = cmethod;
9945 ins->inst_p1 = arg_array [0];
9946 MONO_ADD_INS (cfg->cbb, ins);
9947 link_bblock (cfg, cfg->cbb, end_bblock);
9948 start_new_bblock = 1;
9950 // FIXME: Eliminate unreachable epilogs
9953 * OP_TAILCALL has no return value, so skip the CEE_RET if it is
9954 * only reachable from this call.
9956 GET_BBLOCK (cfg, tblock, ip + 5);
9957 if (tblock == cfg->cbb || tblock->in_count == 0)
9966 * Synchronized wrappers.
9967 * Its hard to determine where to replace a method with its synchronized
9968 * wrapper without causing an infinite recursion. The current solution is
9969 * to add the synchronized wrapper in the trampolines, and to
9970 * change the called method to a dummy wrapper, and resolve that wrapper
9971 * to the real method in mono_jit_compile_method ().
9973 if (cfg->method->wrapper_type == MONO_WRAPPER_SYNCHRONIZED) {
9974 MonoMethod *orig = mono_marshal_method_from_wrapper (cfg->method);
9975 if (cmethod == orig || (cmethod->is_inflated && mono_method_get_declaring_generic_method (cmethod) == orig))
9976 cmethod = mono_marshal_get_synchronized_inner_wrapper (cmethod);
9980 * Virtual calls in llvm-only mode.
9982 if (cfg->llvm_only && virtual_ && cmethod && (cmethod->flags & METHOD_ATTRIBUTE_VIRTUAL)) {
9983 ins = emit_llvmonly_virtual_call (cfg, cmethod, fsig, context_used, sp);
9988 INLINE_FAILURE ("call");
9989 ins = mono_emit_method_call_full (cfg, cmethod, fsig, tail_call, sp, virtual_ ? sp [0] : NULL,
9990 imt_arg, vtable_arg);
9992 if (tail_call && !cfg->llvm_only) {
9993 link_bblock (cfg, cfg->cbb, end_bblock);
9994 start_new_bblock = 1;
9996 // FIXME: Eliminate unreachable epilogs
9999 * OP_TAILCALL has no return value, so skip the CEE_RET if it is
10000 * only reachable from this call.
10002 GET_BBLOCK (cfg, tblock, ip + 5);
10003 if (tblock == cfg->cbb || tblock->in_count == 0)
10010 /* End of call, INS should contain the result of the call, if any */
10012 if (push_res && !MONO_TYPE_IS_VOID (fsig->ret)) {
10015 *sp++ = mono_emit_widen_call_res (cfg, ins, fsig);
10020 if (keep_this_alive) {
10021 MonoInst *dummy_use;
10023 /* See mono_emit_method_call_full () */
10024 EMIT_NEW_DUMMY_USE (cfg, dummy_use, keep_this_alive);
10027 CHECK_CFG_EXCEPTION;
10031 g_assert (*ip == CEE_RET);
10035 constrained_class = NULL;
10036 if (need_seq_point)
10037 emit_seq_point (cfg, method, ip, FALSE, TRUE);
10041 if (cfg->method != method) {
10042 /* return from inlined method */
10044 * If in_count == 0, that means the ret is unreachable due to
10045 * being preceeded by a throw. In that case, inline_method () will
10046 * handle setting the return value
10047 * (test case: test_0_inline_throw ()).
10049 if (return_var && cfg->cbb->in_count) {
10050 MonoType *ret_type = mono_method_signature (method)->ret;
10056 if ((method->wrapper_type == MONO_WRAPPER_DYNAMIC_METHOD || method->wrapper_type == MONO_WRAPPER_NONE) && target_type_is_incompatible (cfg, ret_type, *sp))
10059 //g_assert (returnvar != -1);
10060 EMIT_NEW_TEMPSTORE (cfg, store, return_var->inst_c0, *sp);
10061 cfg->ret_var_set = TRUE;
10064 emit_instrumentation_call (cfg, mono_profiler_method_leave);
10066 if (cfg->lmf_var && cfg->cbb->in_count && !cfg->llvm_only)
10067 emit_pop_lmf (cfg);
10070 MonoType *ret_type = mini_get_underlying_type (mono_method_signature (method)->ret);
10072 if (seq_points && !sym_seq_points) {
10074 * Place a seq point here too even through the IL stack is not
10075 * empty, so a step over on
10078 * will work correctly.
10080 NEW_SEQ_POINT (cfg, ins, ip - header->code, TRUE);
10081 MONO_ADD_INS (cfg->cbb, ins);
10084 g_assert (!return_var);
10088 if ((method->wrapper_type == MONO_WRAPPER_DYNAMIC_METHOD || method->wrapper_type == MONO_WRAPPER_NONE) && target_type_is_incompatible (cfg, ret_type, *sp))
10091 emit_setret (cfg, *sp);
10094 if (sp != stack_start)
10096 MONO_INST_NEW (cfg, ins, OP_BR);
10098 ins->inst_target_bb = end_bblock;
10099 MONO_ADD_INS (cfg->cbb, ins);
10100 link_bblock (cfg, cfg->cbb, end_bblock);
10101 start_new_bblock = 1;
10105 MONO_INST_NEW (cfg, ins, OP_BR);
10107 target = ip + 1 + (signed char)(*ip);
10109 GET_BBLOCK (cfg, tblock, target);
10110 link_bblock (cfg, cfg->cbb, tblock);
10111 ins->inst_target_bb = tblock;
10112 if (sp != stack_start) {
10113 handle_stack_args (cfg, stack_start, sp - stack_start);
10115 CHECK_UNVERIFIABLE (cfg);
10117 MONO_ADD_INS (cfg->cbb, ins);
10118 start_new_bblock = 1;
10119 inline_costs += BRANCH_COST;
10133 MONO_INST_NEW (cfg, ins, *ip + BIG_BRANCH_OFFSET);
10135 target = ip + 1 + *(signed char*)ip;
10138 ADD_BINCOND (NULL);
10141 inline_costs += BRANCH_COST;
10145 MONO_INST_NEW (cfg, ins, OP_BR);
10148 target = ip + 4 + (gint32)read32(ip);
10150 GET_BBLOCK (cfg, tblock, target);
10151 link_bblock (cfg, cfg->cbb, tblock);
10152 ins->inst_target_bb = tblock;
10153 if (sp != stack_start) {
10154 handle_stack_args (cfg, stack_start, sp - stack_start);
10156 CHECK_UNVERIFIABLE (cfg);
10159 MONO_ADD_INS (cfg->cbb, ins);
10161 start_new_bblock = 1;
10162 inline_costs += BRANCH_COST;
10164 case CEE_BRFALSE_S:
10169 gboolean is_short = ((*ip) == CEE_BRFALSE_S) || ((*ip) == CEE_BRTRUE_S);
10170 gboolean is_true = ((*ip) == CEE_BRTRUE_S) || ((*ip) == CEE_BRTRUE);
10171 guint32 opsize = is_short ? 1 : 4;
10173 CHECK_OPSIZE (opsize);
10175 if (sp [-1]->type == STACK_VTYPE || sp [-1]->type == STACK_R8)
10178 target = ip + opsize + (is_short ? *(signed char*)ip : (gint32)read32(ip));
10183 GET_BBLOCK (cfg, tblock, target);
10184 link_bblock (cfg, cfg->cbb, tblock);
10185 GET_BBLOCK (cfg, tblock, ip);
10186 link_bblock (cfg, cfg->cbb, tblock);
10188 if (sp != stack_start) {
10189 handle_stack_args (cfg, stack_start, sp - stack_start);
10190 CHECK_UNVERIFIABLE (cfg);
10193 MONO_INST_NEW(cfg, cmp, OP_ICOMPARE_IMM);
10194 cmp->sreg1 = sp [0]->dreg;
10195 type_from_op (cfg, cmp, sp [0], NULL);
10198 #if SIZEOF_REGISTER == 4
10199 if (cmp->opcode == OP_LCOMPARE_IMM) {
10200 /* Convert it to OP_LCOMPARE */
10201 MONO_INST_NEW (cfg, ins, OP_I8CONST);
10202 ins->type = STACK_I8;
10203 ins->dreg = alloc_dreg (cfg, STACK_I8);
10205 MONO_ADD_INS (cfg->cbb, ins);
10206 cmp->opcode = OP_LCOMPARE;
10207 cmp->sreg2 = ins->dreg;
10210 MONO_ADD_INS (cfg->cbb, cmp);
10212 MONO_INST_NEW (cfg, ins, is_true ? CEE_BNE_UN : CEE_BEQ);
10213 type_from_op (cfg, ins, sp [0], NULL);
10214 MONO_ADD_INS (cfg->cbb, ins);
10215 ins->inst_many_bb = (MonoBasicBlock **)mono_mempool_alloc (cfg->mempool, sizeof(gpointer)*2);
10216 GET_BBLOCK (cfg, tblock, target);
10217 ins->inst_true_bb = tblock;
10218 GET_BBLOCK (cfg, tblock, ip);
10219 ins->inst_false_bb = tblock;
10220 start_new_bblock = 2;
10223 inline_costs += BRANCH_COST;
10238 MONO_INST_NEW (cfg, ins, *ip);
10240 target = ip + 4 + (gint32)read32(ip);
10243 ADD_BINCOND (NULL);
10246 inline_costs += BRANCH_COST;
10250 MonoBasicBlock **targets;
10251 MonoBasicBlock *default_bblock;
10252 MonoJumpInfoBBTable *table;
10253 int offset_reg = alloc_preg (cfg);
10254 int target_reg = alloc_preg (cfg);
10255 int table_reg = alloc_preg (cfg);
10256 int sum_reg = alloc_preg (cfg);
10257 gboolean use_op_switch;
10261 n = read32 (ip + 1);
10264 if ((src1->type != STACK_I4) && (src1->type != STACK_PTR))
10268 CHECK_OPSIZE (n * sizeof (guint32));
10269 target = ip + n * sizeof (guint32);
10271 GET_BBLOCK (cfg, default_bblock, target);
10272 default_bblock->flags |= BB_INDIRECT_JUMP_TARGET;
10274 targets = (MonoBasicBlock **)mono_mempool_alloc (cfg->mempool, sizeof (MonoBasicBlock*) * n);
10275 for (i = 0; i < n; ++i) {
10276 GET_BBLOCK (cfg, tblock, target + (gint32)read32(ip));
10277 targets [i] = tblock;
10278 targets [i]->flags |= BB_INDIRECT_JUMP_TARGET;
10282 if (sp != stack_start) {
10284 * Link the current bb with the targets as well, so handle_stack_args
10285 * will set their in_stack correctly.
10287 link_bblock (cfg, cfg->cbb, default_bblock);
10288 for (i = 0; i < n; ++i)
10289 link_bblock (cfg, cfg->cbb, targets [i]);
10291 handle_stack_args (cfg, stack_start, sp - stack_start);
10293 CHECK_UNVERIFIABLE (cfg);
10295 /* Undo the links */
10296 mono_unlink_bblock (cfg, cfg->cbb, default_bblock);
10297 for (i = 0; i < n; ++i)
10298 mono_unlink_bblock (cfg, cfg->cbb, targets [i]);
10301 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_ICOMPARE_IMM, -1, src1->dreg, n);
10302 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_IBGE_UN, default_bblock);
10304 for (i = 0; i < n; ++i)
10305 link_bblock (cfg, cfg->cbb, targets [i]);
10307 table = (MonoJumpInfoBBTable *)mono_mempool_alloc (cfg->mempool, sizeof (MonoJumpInfoBBTable));
10308 table->table = targets;
10309 table->table_size = n;
10311 use_op_switch = FALSE;
10313 /* ARM implements SWITCH statements differently */
10314 /* FIXME: Make it use the generic implementation */
10315 if (!cfg->compile_aot)
10316 use_op_switch = TRUE;
10319 if (COMPILE_LLVM (cfg))
10320 use_op_switch = TRUE;
10322 cfg->cbb->has_jump_table = 1;
10324 if (use_op_switch) {
10325 MONO_INST_NEW (cfg, ins, OP_SWITCH);
10326 ins->sreg1 = src1->dreg;
10327 ins->inst_p0 = table;
10328 ins->inst_many_bb = targets;
10329 ins->klass = (MonoClass *)GUINT_TO_POINTER (n);
10330 MONO_ADD_INS (cfg->cbb, ins);
10332 if (sizeof (gpointer) == 8)
10333 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_SHL_IMM, offset_reg, src1->dreg, 3);
10335 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_SHL_IMM, offset_reg, src1->dreg, 2);
10337 #if SIZEOF_REGISTER == 8
10338 /* The upper word might not be zero, and we add it to a 64 bit address later */
10339 MONO_EMIT_NEW_UNALU (cfg, OP_ZEXT_I4, offset_reg, offset_reg);
10342 if (cfg->compile_aot) {
10343 MONO_EMIT_NEW_AOTCONST (cfg, table_reg, table, MONO_PATCH_INFO_SWITCH);
10345 MONO_INST_NEW (cfg, ins, OP_JUMP_TABLE);
10346 ins->inst_c1 = MONO_PATCH_INFO_SWITCH;
10347 ins->inst_p0 = table;
10348 ins->dreg = table_reg;
10349 MONO_ADD_INS (cfg->cbb, ins);
10352 /* FIXME: Use load_memindex */
10353 MONO_EMIT_NEW_BIALU (cfg, OP_PADD, sum_reg, table_reg, offset_reg);
10354 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, target_reg, sum_reg, 0);
10355 MONO_EMIT_NEW_UNALU (cfg, OP_BR_REG, -1, target_reg);
10357 start_new_bblock = 1;
10358 inline_costs += (BRANCH_COST * 2);
10371 case CEE_LDIND_REF:
10378 dreg = alloc_freg (cfg);
10381 dreg = alloc_lreg (cfg);
10383 case CEE_LDIND_REF:
10384 dreg = alloc_ireg_ref (cfg);
10387 dreg = alloc_preg (cfg);
10390 NEW_LOAD_MEMBASE (cfg, ins, ldind_to_load_membase (*ip), dreg, sp [0]->dreg, 0);
10391 ins->type = ldind_type [*ip - CEE_LDIND_I1];
10392 if (*ip == CEE_LDIND_R4)
10393 ins->type = cfg->r4_stack_type;
10394 ins->flags |= ins_flag;
10395 MONO_ADD_INS (cfg->cbb, ins);
10397 if (ins_flag & MONO_INST_VOLATILE) {
10398 /* Volatile loads have acquire semantics, see 12.6.7 in Ecma 335 */
10399 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_ACQ);
10404 case CEE_STIND_REF:
10415 if (ins_flag & MONO_INST_VOLATILE) {
10416 /* Volatile stores have release semantics, see 12.6.7 in Ecma 335 */
10417 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_REL);
10420 NEW_STORE_MEMBASE (cfg, ins, stind_to_store_membase (*ip), sp [0]->dreg, 0, sp [1]->dreg);
10421 ins->flags |= ins_flag;
10424 MONO_ADD_INS (cfg->cbb, ins);
10426 if (cfg->gen_write_barriers && *ip == CEE_STIND_REF && method->wrapper_type != MONO_WRAPPER_WRITE_BARRIER && !((sp [1]->opcode == OP_PCONST) && (sp [1]->inst_p0 == 0)))
10427 emit_write_barrier (cfg, sp [0], sp [1]);
10436 MONO_INST_NEW (cfg, ins, (*ip));
10438 ins->sreg1 = sp [0]->dreg;
10439 ins->sreg2 = sp [1]->dreg;
10440 type_from_op (cfg, ins, sp [0], sp [1]);
10442 ins->dreg = alloc_dreg ((cfg), (MonoStackType)(ins)->type);
10444 /* Use the immediate opcodes if possible */
10445 if ((sp [1]->opcode == OP_ICONST) && mono_arch_is_inst_imm (sp [1]->inst_c0)) {
10446 int imm_opcode = mono_op_to_op_imm_noemul (ins->opcode);
10447 if (imm_opcode != -1) {
10448 ins->opcode = imm_opcode;
10449 ins->inst_p1 = (gpointer)(gssize)(sp [1]->inst_c0);
10452 NULLIFY_INS (sp [1]);
10456 MONO_ADD_INS ((cfg)->cbb, (ins));
10458 *sp++ = mono_decompose_opcode (cfg, ins);
10475 MONO_INST_NEW (cfg, ins, (*ip));
10477 ins->sreg1 = sp [0]->dreg;
10478 ins->sreg2 = sp [1]->dreg;
10479 type_from_op (cfg, ins, sp [0], sp [1]);
10481 add_widen_op (cfg, ins, &sp [0], &sp [1]);
10482 ins->dreg = alloc_dreg ((cfg), (MonoStackType)(ins)->type);
10484 /* FIXME: Pass opcode to is_inst_imm */
10486 /* Use the immediate opcodes if possible */
10487 if (((sp [1]->opcode == OP_ICONST) || (sp [1]->opcode == OP_I8CONST)) && mono_arch_is_inst_imm (sp [1]->opcode == OP_ICONST ? sp [1]->inst_c0 : sp [1]->inst_l)) {
10488 int imm_opcode = mono_op_to_op_imm_noemul (ins->opcode);
10489 if (imm_opcode != -1) {
10490 ins->opcode = imm_opcode;
10491 if (sp [1]->opcode == OP_I8CONST) {
10492 #if SIZEOF_REGISTER == 8
10493 ins->inst_imm = sp [1]->inst_l;
10495 ins->inst_ls_word = sp [1]->inst_ls_word;
10496 ins->inst_ms_word = sp [1]->inst_ms_word;
10500 ins->inst_imm = (gssize)(sp [1]->inst_c0);
10503 /* Might be followed by an instruction added by add_widen_op */
10504 if (sp [1]->next == NULL)
10505 NULLIFY_INS (sp [1]);
10508 MONO_ADD_INS ((cfg)->cbb, (ins));
10510 *sp++ = mono_decompose_opcode (cfg, ins);
10523 case CEE_CONV_OVF_I8:
10524 case CEE_CONV_OVF_U8:
10525 case CEE_CONV_R_UN:
10528 /* Special case this earlier so we have long constants in the IR */
10529 if ((((*ip) == CEE_CONV_I8) || ((*ip) == CEE_CONV_U8)) && (sp [-1]->opcode == OP_ICONST)) {
10530 int data = sp [-1]->inst_c0;
10531 sp [-1]->opcode = OP_I8CONST;
10532 sp [-1]->type = STACK_I8;
10533 #if SIZEOF_REGISTER == 8
10534 if ((*ip) == CEE_CONV_U8)
10535 sp [-1]->inst_c0 = (guint32)data;
10537 sp [-1]->inst_c0 = data;
10539 sp [-1]->inst_ls_word = data;
10540 if ((*ip) == CEE_CONV_U8)
10541 sp [-1]->inst_ms_word = 0;
10543 sp [-1]->inst_ms_word = (data < 0) ? -1 : 0;
10545 sp [-1]->dreg = alloc_dreg (cfg, STACK_I8);
10552 case CEE_CONV_OVF_I4:
10553 case CEE_CONV_OVF_I1:
10554 case CEE_CONV_OVF_I2:
10555 case CEE_CONV_OVF_I:
10556 case CEE_CONV_OVF_U:
10559 if (sp [-1]->type == STACK_R8 || sp [-1]->type == STACK_R4) {
10560 ADD_UNOP (CEE_CONV_OVF_I8);
10567 case CEE_CONV_OVF_U1:
10568 case CEE_CONV_OVF_U2:
10569 case CEE_CONV_OVF_U4:
10572 if (sp [-1]->type == STACK_R8 || sp [-1]->type == STACK_R4) {
10573 ADD_UNOP (CEE_CONV_OVF_U8);
10580 case CEE_CONV_OVF_I1_UN:
10581 case CEE_CONV_OVF_I2_UN:
10582 case CEE_CONV_OVF_I4_UN:
10583 case CEE_CONV_OVF_I8_UN:
10584 case CEE_CONV_OVF_U1_UN:
10585 case CEE_CONV_OVF_U2_UN:
10586 case CEE_CONV_OVF_U4_UN:
10587 case CEE_CONV_OVF_U8_UN:
10588 case CEE_CONV_OVF_I_UN:
10589 case CEE_CONV_OVF_U_UN:
10596 CHECK_CFG_EXCEPTION;
10600 case CEE_ADD_OVF_UN:
10602 case CEE_MUL_OVF_UN:
10604 case CEE_SUB_OVF_UN:
10610 GSHAREDVT_FAILURE (*ip);
10613 token = read32 (ip + 1);
10614 klass = mini_get_class (method, token, generic_context);
10615 CHECK_TYPELOAD (klass);
10617 if (generic_class_is_reference_type (cfg, klass)) {
10618 MonoInst *store, *load;
10619 int dreg = alloc_ireg_ref (cfg);
10621 NEW_LOAD_MEMBASE (cfg, load, OP_LOAD_MEMBASE, dreg, sp [1]->dreg, 0);
10622 load->flags |= ins_flag;
10623 MONO_ADD_INS (cfg->cbb, load);
10625 NEW_STORE_MEMBASE (cfg, store, OP_STORE_MEMBASE_REG, sp [0]->dreg, 0, dreg);
10626 store->flags |= ins_flag;
10627 MONO_ADD_INS (cfg->cbb, store);
10629 if (cfg->gen_write_barriers && cfg->method->wrapper_type != MONO_WRAPPER_WRITE_BARRIER)
10630 emit_write_barrier (cfg, sp [0], sp [1]);
10632 mini_emit_stobj (cfg, sp [0], sp [1], klass, FALSE);
10638 int loc_index = -1;
10644 token = read32 (ip + 1);
10645 klass = mini_get_class (method, token, generic_context);
10646 CHECK_TYPELOAD (klass);
10648 /* Optimize the common ldobj+stloc combination */
10651 loc_index = ip [6];
10658 loc_index = ip [5] - CEE_STLOC_0;
10665 if ((loc_index != -1) && ip_in_bb (cfg, cfg->cbb, ip + 5)) {
10666 CHECK_LOCAL (loc_index);
10668 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, &klass->byval_arg, sp [0]->dreg, 0);
10669 ins->dreg = cfg->locals [loc_index]->dreg;
10670 ins->flags |= ins_flag;
10673 if (ins_flag & MONO_INST_VOLATILE) {
10674 /* Volatile loads have acquire semantics, see 12.6.7 in Ecma 335 */
10675 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_ACQ);
10681 /* Optimize the ldobj+stobj combination */
10682 /* The reference case ends up being a load+store anyway */
10683 /* Skip this if the operation is volatile. */
10684 if (((ip [5] == CEE_STOBJ) && ip_in_bb (cfg, cfg->cbb, ip + 5) && read32 (ip + 6) == token) && !generic_class_is_reference_type (cfg, klass) && !(ins_flag & MONO_INST_VOLATILE)) {
10689 mini_emit_stobj (cfg, sp [0], sp [1], klass, FALSE);
10696 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, &klass->byval_arg, sp [0]->dreg, 0);
10697 ins->flags |= ins_flag;
10700 if (ins_flag & MONO_INST_VOLATILE) {
10701 /* Volatile loads have acquire semantics, see 12.6.7 in Ecma 335 */
10702 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_ACQ);
10711 CHECK_STACK_OVF (1);
10713 n = read32 (ip + 1);
10715 if (method->wrapper_type == MONO_WRAPPER_DYNAMIC_METHOD) {
10716 EMIT_NEW_PCONST (cfg, ins, mono_method_get_wrapper_data (method, n));
10717 ins->type = STACK_OBJ;
10720 else if (method->wrapper_type != MONO_WRAPPER_NONE) {
10721 MonoInst *iargs [1];
10722 char *str = (char *)mono_method_get_wrapper_data (method, n);
10724 if (cfg->compile_aot)
10725 EMIT_NEW_LDSTRLITCONST (cfg, iargs [0], str);
10727 EMIT_NEW_PCONST (cfg, iargs [0], str);
10728 *sp = mono_emit_jit_icall (cfg, mono_string_new_wrapper, iargs);
10730 if (cfg->opt & MONO_OPT_SHARED) {
10731 MonoInst *iargs [3];
10733 if (cfg->compile_aot) {
10734 cfg->ldstr_list = g_list_prepend (cfg->ldstr_list, GINT_TO_POINTER (n));
10736 EMIT_NEW_DOMAINCONST (cfg, iargs [0]);
10737 EMIT_NEW_IMAGECONST (cfg, iargs [1], image);
10738 EMIT_NEW_ICONST (cfg, iargs [2], mono_metadata_token_index (n));
10739 *sp = mono_emit_jit_icall (cfg, mono_ldstr, iargs);
10740 mono_ldstr (cfg->domain, image, mono_metadata_token_index (n));
10742 if (cfg->cbb->out_of_line) {
10743 MonoInst *iargs [2];
10745 if (image == mono_defaults.corlib) {
10747 * Avoid relocations in AOT and save some space by using a
10748 * version of helper_ldstr specialized to mscorlib.
10750 EMIT_NEW_ICONST (cfg, iargs [0], mono_metadata_token_index (n));
10751 *sp = mono_emit_jit_icall (cfg, mono_helper_ldstr_mscorlib, iargs);
10753 /* Avoid creating the string object */
10754 EMIT_NEW_IMAGECONST (cfg, iargs [0], image);
10755 EMIT_NEW_ICONST (cfg, iargs [1], mono_metadata_token_index (n));
10756 *sp = mono_emit_jit_icall (cfg, mono_helper_ldstr, iargs);
10760 if (cfg->compile_aot) {
10761 NEW_LDSTRCONST (cfg, ins, image, n);
10763 MONO_ADD_INS (cfg->cbb, ins);
10766 NEW_PCONST (cfg, ins, NULL);
10767 ins->type = STACK_OBJ;
10768 ins->inst_p0 = mono_ldstr (cfg->domain, image, mono_metadata_token_index (n));
10770 OUT_OF_MEMORY_FAILURE;
10773 MONO_ADD_INS (cfg->cbb, ins);
10782 MonoInst *iargs [2];
10783 MonoMethodSignature *fsig;
10786 MonoInst *vtable_arg = NULL;
10789 token = read32 (ip + 1);
10790 cmethod = mini_get_method (cfg, method, token, NULL, generic_context);
10793 fsig = mono_method_get_signature_checked (cmethod, image, token, generic_context, &cfg->error);
10796 mono_save_token_info (cfg, image, token, cmethod);
10798 if (!mono_class_init (cmethod->klass))
10799 TYPE_LOAD_ERROR (cmethod->klass);
10801 context_used = mini_method_check_context_used (cfg, cmethod);
10803 if (mono_security_core_clr_enabled ())
10804 ensure_method_is_allowed_to_call_method (cfg, method, cmethod);
10806 if (cfg->gshared && cmethod && cmethod->klass != method->klass && cmethod->klass->generic_class && mono_method_is_generic_sharable (cmethod, TRUE) && mono_class_needs_cctor_run (cmethod->klass, method)) {
10807 emit_class_init (cfg, cmethod->klass);
10808 CHECK_TYPELOAD (cmethod->klass);
10812 if (cfg->gsharedvt) {
10813 if (mini_is_gsharedvt_variable_signature (sig))
10814 GSHAREDVT_FAILURE (*ip);
10818 n = fsig->param_count;
10822 * Generate smaller code for the common newobj <exception> instruction in
10823 * argument checking code.
10825 if (cfg->cbb->out_of_line && cmethod->klass->image == mono_defaults.corlib &&
10826 is_exception_class (cmethod->klass) && n <= 2 &&
10827 ((n < 1) || (!fsig->params [0]->byref && fsig->params [0]->type == MONO_TYPE_STRING)) &&
10828 ((n < 2) || (!fsig->params [1]->byref && fsig->params [1]->type == MONO_TYPE_STRING))) {
10829 MonoInst *iargs [3];
10833 EMIT_NEW_ICONST (cfg, iargs [0], cmethod->klass->type_token);
10836 *sp ++ = mono_emit_jit_icall (cfg, mono_create_corlib_exception_0, iargs);
10839 iargs [1] = sp [0];
10840 *sp ++ = mono_emit_jit_icall (cfg, mono_create_corlib_exception_1, iargs);
10843 iargs [1] = sp [0];
10844 iargs [2] = sp [1];
10845 *sp ++ = mono_emit_jit_icall (cfg, mono_create_corlib_exception_2, iargs);
10848 g_assert_not_reached ();
10856 /* move the args to allow room for 'this' in the first position */
10862 /* check_call_signature () requires sp[0] to be set */
10863 this_ins.type = STACK_OBJ;
10864 sp [0] = &this_ins;
10865 if (check_call_signature (cfg, fsig, sp))
10870 if (mini_class_is_system_array (cmethod->klass)) {
10871 *sp = emit_get_rgctx_method (cfg, context_used,
10872 cmethod, MONO_RGCTX_INFO_METHOD);
10874 /* Avoid varargs in the common case */
10875 if (fsig->param_count == 1)
10876 alloc = mono_emit_jit_icall (cfg, mono_array_new_1, sp);
10877 else if (fsig->param_count == 2)
10878 alloc = mono_emit_jit_icall (cfg, mono_array_new_2, sp);
10879 else if (fsig->param_count == 3)
10880 alloc = mono_emit_jit_icall (cfg, mono_array_new_3, sp);
10881 else if (fsig->param_count == 4)
10882 alloc = mono_emit_jit_icall (cfg, mono_array_new_4, sp);
10884 alloc = handle_array_new (cfg, fsig->param_count, sp, ip);
10885 } else if (cmethod->string_ctor) {
10886 g_assert (!context_used);
10887 g_assert (!vtable_arg);
10888 /* we simply pass a null pointer */
10889 EMIT_NEW_PCONST (cfg, *sp, NULL);
10890 /* now call the string ctor */
10891 alloc = mono_emit_method_call_full (cfg, cmethod, fsig, FALSE, sp, NULL, NULL, NULL);
10893 if (cmethod->klass->valuetype) {
10894 iargs [0] = mono_compile_create_var (cfg, &cmethod->klass->byval_arg, OP_LOCAL);
10895 emit_init_rvar (cfg, iargs [0]->dreg, &cmethod->klass->byval_arg);
10896 EMIT_NEW_TEMPLOADA (cfg, *sp, iargs [0]->inst_c0);
10901 * The code generated by mini_emit_virtual_call () expects
10902 * iargs [0] to be a boxed instance, but luckily the vcall
10903 * will be transformed into a normal call there.
10905 } else if (context_used) {
10906 alloc = handle_alloc (cfg, cmethod->klass, FALSE, context_used);
10909 MonoVTable *vtable = NULL;
10911 if (!cfg->compile_aot)
10912 vtable = mono_class_vtable (cfg->domain, cmethod->klass);
10913 CHECK_TYPELOAD (cmethod->klass);
10916 * TypeInitializationExceptions thrown from the mono_runtime_class_init
10917 * call in mono_jit_runtime_invoke () can abort the finalizer thread.
10918 * As a workaround, we call class cctors before allocating objects.
10920 if (mini_field_access_needs_cctor_run (cfg, method, cmethod->klass, vtable) && !(g_slist_find (class_inits, cmethod->klass))) {
10921 emit_class_init (cfg, cmethod->klass);
10922 if (cfg->verbose_level > 2)
10923 printf ("class %s.%s needs init call for ctor\n", cmethod->klass->name_space, cmethod->klass->name);
10924 class_inits = g_slist_prepend (class_inits, cmethod->klass);
10927 alloc = handle_alloc (cfg, cmethod->klass, FALSE, 0);
10930 CHECK_CFG_EXCEPTION; /*for handle_alloc*/
10933 MONO_EMIT_NEW_UNALU (cfg, OP_NOT_NULL, -1, alloc->dreg);
10935 /* Now call the actual ctor */
10936 handle_ctor_call (cfg, cmethod, fsig, context_used, sp, ip, &inline_costs);
10937 CHECK_CFG_EXCEPTION;
10940 if (alloc == NULL) {
10942 EMIT_NEW_TEMPLOAD (cfg, ins, iargs [0]->inst_c0);
10943 type_to_eval_stack_type (cfg, &ins->klass->byval_arg, ins);
10951 if (!(seq_point_locs && mono_bitset_test_fast (seq_point_locs, ip - header->code)))
10952 emit_seq_point (cfg, method, ip, FALSE, TRUE);
10955 case CEE_CASTCLASS:
10959 token = read32 (ip + 1);
10960 klass = mini_get_class (method, token, generic_context);
10961 CHECK_TYPELOAD (klass);
10962 if (sp [0]->type != STACK_OBJ)
10965 ins = handle_castclass (cfg, klass, *sp, ip, &inline_costs);
10966 CHECK_CFG_EXCEPTION;
10975 token = read32 (ip + 1);
10976 klass = mini_get_class (method, token, generic_context);
10977 CHECK_TYPELOAD (klass);
10978 if (sp [0]->type != STACK_OBJ)
10981 context_used = mini_class_check_context_used (cfg, klass);
10983 if (!context_used && mini_class_has_reference_variant_generic_argument (cfg, klass, context_used)) {
10984 MonoMethod *mono_isinst = mono_marshal_get_isinst_with_cache ();
10985 MonoInst *args [3];
10992 EMIT_NEW_CLASSCONST (cfg, args [1], klass);
10995 idx = get_castclass_cache_idx (cfg);
10996 args [2] = emit_runtime_constant (cfg, MONO_PATCH_INFO_CASTCLASS_CACHE, GINT_TO_POINTER (idx));
10998 *sp++ = mono_emit_method_call (cfg, mono_isinst, args, NULL);
11001 } else if (!context_used && (mono_class_is_marshalbyref (klass) || klass->flags & TYPE_ATTRIBUTE_INTERFACE)) {
11002 MonoMethod *mono_isinst;
11003 MonoInst *iargs [1];
11006 mono_isinst = mono_marshal_get_isinst (klass);
11007 iargs [0] = sp [0];
11009 costs = inline_method (cfg, mono_isinst, mono_method_signature (mono_isinst),
11010 iargs, ip, cfg->real_offset, TRUE);
11011 CHECK_CFG_EXCEPTION;
11012 g_assert (costs > 0);
11015 cfg->real_offset += 5;
11019 inline_costs += costs;
11022 ins = handle_isinst (cfg, klass, *sp, context_used);
11023 CHECK_CFG_EXCEPTION;
11029 case CEE_UNBOX_ANY: {
11030 MonoInst *res, *addr;
11035 token = read32 (ip + 1);
11036 klass = mini_get_class (method, token, generic_context);
11037 CHECK_TYPELOAD (klass);
11039 mono_save_token_info (cfg, image, token, klass);
11041 context_used = mini_class_check_context_used (cfg, klass);
11043 if (mini_is_gsharedvt_klass (klass)) {
11044 res = handle_unbox_gsharedvt (cfg, klass, *sp);
11046 } else if (generic_class_is_reference_type (cfg, klass)) {
11047 res = handle_castclass (cfg, klass, *sp, ip, &inline_costs);
11048 CHECK_CFG_EXCEPTION;
11049 } else if (mono_class_is_nullable (klass)) {
11050 res = handle_unbox_nullable (cfg, *sp, klass, context_used);
11052 addr = handle_unbox (cfg, klass, sp, context_used);
11054 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, &klass->byval_arg, addr->dreg, 0);
11065 MonoClass *enum_class;
11066 MonoMethod *has_flag;
11072 token = read32 (ip + 1);
11073 klass = mini_get_class (method, token, generic_context);
11074 CHECK_TYPELOAD (klass);
11076 mono_save_token_info (cfg, image, token, klass);
11078 context_used = mini_class_check_context_used (cfg, klass);
11080 if (generic_class_is_reference_type (cfg, klass)) {
11086 if (klass == mono_defaults.void_class)
11088 if (target_type_is_incompatible (cfg, &klass->byval_arg, *sp))
11090 /* frequent check in generic code: box (struct), brtrue */
11095 * <push int/long ptr>
11098 * constrained. MyFlags
11099 * callvirt instace bool class [mscorlib] System.Enum::HasFlag (class [mscorlib] System.Enum)
11101 * If we find this sequence and the operand types on box and constrained
11102 * are equal, we can emit a specialized instruction sequence instead of
11103 * the very slow HasFlag () call.
11105 if ((cfg->opt & MONO_OPT_INTRINS) &&
11106 /* Cheap checks first. */
11107 ip + 5 + 6 + 5 < end &&
11108 ip [5] == CEE_PREFIX1 &&
11109 ip [6] == CEE_CONSTRAINED_ &&
11110 ip [11] == CEE_CALLVIRT &&
11111 ip_in_bb (cfg, cfg->cbb, ip + 5 + 6 + 5) &&
11112 mono_class_is_enum (klass) &&
11113 (enum_class = mini_get_class (method, read32 (ip + 7), generic_context)) &&
11114 (has_flag = mini_get_method (cfg, method, read32 (ip + 12), NULL, generic_context)) &&
11115 has_flag->klass == mono_defaults.enum_class &&
11116 !strcmp (has_flag->name, "HasFlag") &&
11117 has_flag->signature->hasthis &&
11118 has_flag->signature->param_count == 1) {
11119 CHECK_TYPELOAD (enum_class);
11121 if (enum_class == klass) {
11122 MonoInst *enum_this, *enum_flag;
11127 enum_this = sp [0];
11128 enum_flag = sp [1];
11130 *sp++ = handle_enum_has_flag (cfg, klass, enum_this, enum_flag);
11135 // FIXME: LLVM can't handle the inconsistent bb linking
11136 if (!mono_class_is_nullable (klass) &&
11137 !mini_is_gsharedvt_klass (klass) &&
11138 ip + 5 < end && ip_in_bb (cfg, cfg->cbb, ip + 5) &&
11139 (ip [5] == CEE_BRTRUE ||
11140 ip [5] == CEE_BRTRUE_S ||
11141 ip [5] == CEE_BRFALSE ||
11142 ip [5] == CEE_BRFALSE_S)) {
11143 gboolean is_true = ip [5] == CEE_BRTRUE || ip [5] == CEE_BRTRUE_S;
11145 MonoBasicBlock *true_bb, *false_bb;
11149 if (cfg->verbose_level > 3) {
11150 printf ("converting (in B%d: stack: %d) %s", cfg->cbb->block_num, (int)(sp - stack_start), mono_disasm_code_one (NULL, method, ip, NULL));
11151 printf ("<box+brtrue opt>\n");
11156 case CEE_BRFALSE_S:
11159 target = ip + 1 + (signed char)(*ip);
11166 target = ip + 4 + (gint)(read32 (ip));
11170 g_assert_not_reached ();
11174 * We need to link both bblocks, since it is needed for handling stack
11175 * arguments correctly (See test_0_box_brtrue_opt_regress_81102).
11176 * Branching to only one of them would lead to inconsistencies, so
11177 * generate an ICONST+BRTRUE, the branch opts will get rid of them.
11179 GET_BBLOCK (cfg, true_bb, target);
11180 GET_BBLOCK (cfg, false_bb, ip);
11182 mono_link_bblock (cfg, cfg->cbb, true_bb);
11183 mono_link_bblock (cfg, cfg->cbb, false_bb);
11185 if (sp != stack_start) {
11186 handle_stack_args (cfg, stack_start, sp - stack_start);
11188 CHECK_UNVERIFIABLE (cfg);
11191 if (COMPILE_LLVM (cfg)) {
11192 dreg = alloc_ireg (cfg);
11193 MONO_EMIT_NEW_ICONST (cfg, dreg, 0);
11194 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, dreg, is_true ? 0 : 1);
11196 MONO_EMIT_NEW_BRANCH_BLOCK2 (cfg, OP_IBEQ, true_bb, false_bb);
11198 /* The JIT can't eliminate the iconst+compare */
11199 MONO_INST_NEW (cfg, ins, OP_BR);
11200 ins->inst_target_bb = is_true ? true_bb : false_bb;
11201 MONO_ADD_INS (cfg->cbb, ins);
11204 start_new_bblock = 1;
11208 *sp++ = handle_box (cfg, val, klass, context_used);
11210 CHECK_CFG_EXCEPTION;
11219 token = read32 (ip + 1);
11220 klass = mini_get_class (method, token, generic_context);
11221 CHECK_TYPELOAD (klass);
11223 mono_save_token_info (cfg, image, token, klass);
11225 context_used = mini_class_check_context_used (cfg, klass);
11227 if (mono_class_is_nullable (klass)) {
11230 val = handle_unbox_nullable (cfg, *sp, klass, context_used);
11231 EMIT_NEW_VARLOADA (cfg, ins, get_vreg_to_inst (cfg, val->dreg), &val->klass->byval_arg);
11235 ins = handle_unbox (cfg, klass, sp, context_used);
11248 MonoClassField *field;
11249 #ifndef DISABLE_REMOTING
11253 gboolean is_instance;
11255 gpointer addr = NULL;
11256 gboolean is_special_static;
11258 MonoInst *store_val = NULL;
11259 MonoInst *thread_ins;
11262 is_instance = (op == CEE_LDFLD || op == CEE_LDFLDA || op == CEE_STFLD);
11264 if (op == CEE_STFLD) {
11267 store_val = sp [1];
11272 if (sp [0]->type == STACK_I4 || sp [0]->type == STACK_I8 || sp [0]->type == STACK_R8)
11274 if (*ip != CEE_LDFLD && sp [0]->type == STACK_VTYPE)
11277 if (op == CEE_STSFLD) {
11280 store_val = sp [0];
11285 token = read32 (ip + 1);
11286 if (method->wrapper_type != MONO_WRAPPER_NONE) {
11287 field = (MonoClassField *)mono_method_get_wrapper_data (method, token);
11288 klass = field->parent;
11291 field = mono_field_from_token_checked (image, token, &klass, generic_context, &cfg->error);
11294 if (!dont_verify && !cfg->skip_visibility && !mono_method_can_access_field (method, field))
11295 FIELD_ACCESS_FAILURE (method, field);
11296 mono_class_init (klass);
11298 /* if the class is Critical then transparent code cannot access it's fields */
11299 if (!is_instance && mono_security_core_clr_enabled ())
11300 ensure_method_is_allowed_to_access_field (cfg, method, field);
11302 /* XXX this is technically required but, so far (SL2), no [SecurityCritical] types (not many exists) have
11303 any visible *instance* field (in fact there's a single case for a static field in Marshal) XXX
11304 if (mono_security_core_clr_enabled ())
11305 ensure_method_is_allowed_to_access_field (cfg, method, field);
11308 ftype = mono_field_get_type (field);
11311 * LDFLD etc. is usable on static fields as well, so convert those cases to
11314 if (is_instance && ftype->attrs & FIELD_ATTRIBUTE_STATIC) {
11326 g_assert_not_reached ();
11328 is_instance = FALSE;
11331 context_used = mini_class_check_context_used (cfg, klass);
11333 /* INSTANCE CASE */
11335 foffset = klass->valuetype? field->offset - sizeof (MonoObject): field->offset;
11336 if (op == CEE_STFLD) {
11337 if (target_type_is_incompatible (cfg, field->type, sp [1]))
11339 #ifndef DISABLE_REMOTING
11340 if ((mono_class_is_marshalbyref (klass) && !MONO_CHECK_THIS (sp [0])) || mono_class_is_contextbound (klass) || klass == mono_defaults.marshalbyrefobject_class) {
11341 MonoMethod *stfld_wrapper = mono_marshal_get_stfld_wrapper (field->type);
11342 MonoInst *iargs [5];
11344 GSHAREDVT_FAILURE (op);
11346 iargs [0] = sp [0];
11347 EMIT_NEW_CLASSCONST (cfg, iargs [1], klass);
11348 EMIT_NEW_FIELDCONST (cfg, iargs [2], field);
11349 EMIT_NEW_ICONST (cfg, iargs [3], klass->valuetype ? field->offset - sizeof (MonoObject) :
11351 iargs [4] = sp [1];
11353 if (cfg->opt & MONO_OPT_INLINE || cfg->compile_aot) {
11354 costs = inline_method (cfg, stfld_wrapper, mono_method_signature (stfld_wrapper),
11355 iargs, ip, cfg->real_offset, TRUE);
11356 CHECK_CFG_EXCEPTION;
11357 g_assert (costs > 0);
11359 cfg->real_offset += 5;
11361 inline_costs += costs;
11363 mono_emit_method_call (cfg, stfld_wrapper, iargs, NULL);
11370 MONO_EMIT_NULL_CHECK (cfg, sp [0]->dreg);
11372 if (mini_is_gsharedvt_klass (klass)) {
11373 MonoInst *offset_ins;
11375 context_used = mini_class_check_context_used (cfg, klass);
11377 offset_ins = emit_get_gsharedvt_info (cfg, field, MONO_RGCTX_INFO_FIELD_OFFSET);
11378 /* The value is offset by 1 */
11379 EMIT_NEW_BIALU_IMM (cfg, ins, OP_PSUB_IMM, offset_ins->dreg, offset_ins->dreg, 1);
11380 dreg = alloc_ireg_mp (cfg);
11381 EMIT_NEW_BIALU (cfg, ins, OP_PADD, dreg, sp [0]->dreg, offset_ins->dreg);
11382 /* The decomposition will call mini_emit_stobj () which will emit a wbarrier if needed */
11383 EMIT_NEW_STORE_MEMBASE_TYPE (cfg, store, field->type, dreg, 0, sp [1]->dreg);
11385 EMIT_NEW_STORE_MEMBASE_TYPE (cfg, store, field->type, sp [0]->dreg, foffset, sp [1]->dreg);
11387 if (sp [0]->opcode != OP_LDADDR)
11388 store->flags |= MONO_INST_FAULT;
11390 if (cfg->gen_write_barriers && mini_type_to_stind (cfg, field->type) == CEE_STIND_REF && !(sp [1]->opcode == OP_PCONST && sp [1]->inst_c0 == 0)) {
11391 /* insert call to write barrier */
11395 dreg = alloc_ireg_mp (cfg);
11396 EMIT_NEW_BIALU_IMM (cfg, ptr, OP_PADD_IMM, dreg, sp [0]->dreg, foffset);
11397 emit_write_barrier (cfg, ptr, sp [1]);
11400 store->flags |= ins_flag;
11407 #ifndef DISABLE_REMOTING
11408 if (is_instance && ((mono_class_is_marshalbyref (klass) && !MONO_CHECK_THIS (sp [0])) || mono_class_is_contextbound (klass) || klass == mono_defaults.marshalbyrefobject_class)) {
11409 MonoMethod *wrapper = (op == CEE_LDFLDA) ? mono_marshal_get_ldflda_wrapper (field->type) : mono_marshal_get_ldfld_wrapper (field->type);
11410 MonoInst *iargs [4];
11412 GSHAREDVT_FAILURE (op);
11414 iargs [0] = sp [0];
11415 EMIT_NEW_CLASSCONST (cfg, iargs [1], klass);
11416 EMIT_NEW_FIELDCONST (cfg, iargs [2], field);
11417 EMIT_NEW_ICONST (cfg, iargs [3], klass->valuetype ? field->offset - sizeof (MonoObject) : field->offset);
11418 if (cfg->opt & MONO_OPT_INLINE || cfg->compile_aot) {
11419 costs = inline_method (cfg, wrapper, mono_method_signature (wrapper),
11420 iargs, ip, cfg->real_offset, TRUE);
11421 CHECK_CFG_EXCEPTION;
11422 g_assert (costs > 0);
11424 cfg->real_offset += 5;
11428 inline_costs += costs;
11430 ins = mono_emit_method_call (cfg, wrapper, iargs, NULL);
11436 if (sp [0]->type == STACK_VTYPE) {
11439 /* Have to compute the address of the variable */
11441 var = get_vreg_to_inst (cfg, sp [0]->dreg);
11443 var = mono_compile_create_var_for_vreg (cfg, &klass->byval_arg, OP_LOCAL, sp [0]->dreg);
11445 g_assert (var->klass == klass);
11447 EMIT_NEW_VARLOADA (cfg, ins, var, &var->klass->byval_arg);
11451 if (op == CEE_LDFLDA) {
11452 if (sp [0]->type == STACK_OBJ) {
11453 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, sp [0]->dreg, 0);
11454 MONO_EMIT_NEW_COND_EXC (cfg, EQ, "NullReferenceException");
11457 dreg = alloc_ireg_mp (cfg);
11459 if (mini_is_gsharedvt_klass (klass)) {
11460 MonoInst *offset_ins;
11462 offset_ins = emit_get_gsharedvt_info (cfg, field, MONO_RGCTX_INFO_FIELD_OFFSET);
11463 /* The value is offset by 1 */
11464 EMIT_NEW_BIALU_IMM (cfg, ins, OP_PSUB_IMM, offset_ins->dreg, offset_ins->dreg, 1);
11465 EMIT_NEW_BIALU (cfg, ins, OP_PADD, dreg, sp [0]->dreg, offset_ins->dreg);
11467 EMIT_NEW_BIALU_IMM (cfg, ins, OP_PADD_IMM, dreg, sp [0]->dreg, foffset);
11469 ins->klass = mono_class_from_mono_type (field->type);
11470 ins->type = STACK_MP;
11475 MONO_EMIT_NULL_CHECK (cfg, sp [0]->dreg);
11477 if (mini_is_gsharedvt_klass (klass)) {
11478 MonoInst *offset_ins;
11480 offset_ins = emit_get_gsharedvt_info (cfg, field, MONO_RGCTX_INFO_FIELD_OFFSET);
11481 /* The value is offset by 1 */
11482 EMIT_NEW_BIALU_IMM (cfg, ins, OP_PSUB_IMM, offset_ins->dreg, offset_ins->dreg, 1);
11483 dreg = alloc_ireg_mp (cfg);
11484 EMIT_NEW_BIALU (cfg, ins, OP_PADD, dreg, sp [0]->dreg, offset_ins->dreg);
11485 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, load, field->type, dreg, 0);
11487 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, load, field->type, sp [0]->dreg, foffset);
11489 load->flags |= ins_flag;
11490 if (sp [0]->opcode != OP_LDADDR)
11491 load->flags |= MONO_INST_FAULT;
11503 context_used = mini_class_check_context_used (cfg, klass);
11505 if (ftype->attrs & FIELD_ATTRIBUTE_LITERAL) {
11506 mono_error_set_field_load (&cfg->error, field->parent, field->name, "Using static instructions with literal field");
11510 /* The special_static_fields field is init'd in mono_class_vtable, so it needs
11511 * to be called here.
11513 if (!context_used && !(cfg->opt & MONO_OPT_SHARED)) {
11514 mono_class_vtable (cfg->domain, klass);
11515 CHECK_TYPELOAD (klass);
11517 mono_domain_lock (cfg->domain);
11518 if (cfg->domain->special_static_fields)
11519 addr = g_hash_table_lookup (cfg->domain->special_static_fields, field);
11520 mono_domain_unlock (cfg->domain);
11522 is_special_static = mono_class_field_is_special_static (field);
11524 if (is_special_static && ((gsize)addr & 0x80000000) == 0)
11525 thread_ins = mono_get_thread_intrinsic (cfg);
11529 /* Generate IR to compute the field address */
11530 if (is_special_static && ((gsize)addr & 0x80000000) == 0 && thread_ins && !(cfg->opt & MONO_OPT_SHARED) && !context_used) {
11532 * Fast access to TLS data
11533 * Inline version of get_thread_static_data () in
11537 int idx, static_data_reg, array_reg, dreg;
11539 GSHAREDVT_FAILURE (op);
11541 MONO_ADD_INS (cfg->cbb, thread_ins);
11542 static_data_reg = alloc_ireg (cfg);
11543 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, static_data_reg, thread_ins->dreg, MONO_STRUCT_OFFSET (MonoInternalThread, static_data));
11545 if (cfg->compile_aot) {
11546 int offset_reg, offset2_reg, idx_reg;
11548 /* For TLS variables, this will return the TLS offset */
11549 EMIT_NEW_SFLDACONST (cfg, ins, field);
11550 offset_reg = ins->dreg;
11551 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_IAND_IMM, offset_reg, offset_reg, 0x7fffffff);
11552 idx_reg = alloc_ireg (cfg);
11553 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_IAND_IMM, idx_reg, offset_reg, 0x3f);
11554 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_ISHL_IMM, idx_reg, idx_reg, sizeof (gpointer) == 8 ? 3 : 2);
11555 MONO_EMIT_NEW_BIALU (cfg, OP_PADD, static_data_reg, static_data_reg, idx_reg);
11556 array_reg = alloc_ireg (cfg);
11557 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, array_reg, static_data_reg, 0);
11558 offset2_reg = alloc_ireg (cfg);
11559 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_ISHR_UN_IMM, offset2_reg, offset_reg, 6);
11560 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_IAND_IMM, offset2_reg, offset2_reg, 0x1ffffff);
11561 dreg = alloc_ireg (cfg);
11562 EMIT_NEW_BIALU (cfg, ins, OP_PADD, dreg, array_reg, offset2_reg);
11564 offset = (gsize)addr & 0x7fffffff;
11565 idx = offset & 0x3f;
11567 array_reg = alloc_ireg (cfg);
11568 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, array_reg, static_data_reg, idx * sizeof (gpointer));
11569 dreg = alloc_ireg (cfg);
11570 EMIT_NEW_BIALU_IMM (cfg, ins, OP_ADD_IMM, dreg, array_reg, ((offset >> 6) & 0x1ffffff));
11572 } else if ((cfg->opt & MONO_OPT_SHARED) ||
11573 (cfg->compile_aot && is_special_static) ||
11574 (context_used && is_special_static)) {
11575 MonoInst *iargs [2];
11577 g_assert (field->parent);
11578 EMIT_NEW_DOMAINCONST (cfg, iargs [0]);
11579 if (context_used) {
11580 iargs [1] = emit_get_rgctx_field (cfg, context_used,
11581 field, MONO_RGCTX_INFO_CLASS_FIELD);
11583 EMIT_NEW_FIELDCONST (cfg, iargs [1], field);
11585 ins = mono_emit_jit_icall (cfg, mono_class_static_field_address, iargs);
11586 } else if (context_used) {
11587 MonoInst *static_data;
11590 g_print ("sharing static field access in %s.%s.%s - depth %d offset %d\n",
11591 method->klass->name_space, method->klass->name, method->name,
11592 depth, field->offset);
11595 if (mono_class_needs_cctor_run (klass, method))
11596 emit_class_init (cfg, klass);
11599 * The pointer we're computing here is
11601 * super_info.static_data + field->offset
11603 static_data = emit_get_rgctx_klass (cfg, context_used,
11604 klass, MONO_RGCTX_INFO_STATIC_DATA);
11606 if (mini_is_gsharedvt_klass (klass)) {
11607 MonoInst *offset_ins;
11609 offset_ins = emit_get_rgctx_field (cfg, context_used, field, MONO_RGCTX_INFO_FIELD_OFFSET);
11610 /* The value is offset by 1 */
11611 EMIT_NEW_BIALU_IMM (cfg, ins, OP_PSUB_IMM, offset_ins->dreg, offset_ins->dreg, 1);
11612 dreg = alloc_ireg_mp (cfg);
11613 EMIT_NEW_BIALU (cfg, ins, OP_PADD, dreg, static_data->dreg, offset_ins->dreg);
11614 } else if (field->offset == 0) {
11617 int addr_reg = mono_alloc_preg (cfg);
11618 EMIT_NEW_BIALU_IMM (cfg, ins, OP_PADD_IMM, addr_reg, static_data->dreg, field->offset);
11620 } else if ((cfg->opt & MONO_OPT_SHARED) || (cfg->compile_aot && addr)) {
11621 MonoInst *iargs [2];
11623 g_assert (field->parent);
11624 EMIT_NEW_DOMAINCONST (cfg, iargs [0]);
11625 EMIT_NEW_FIELDCONST (cfg, iargs [1], field);
11626 ins = mono_emit_jit_icall (cfg, mono_class_static_field_address, iargs);
11628 MonoVTable *vtable = NULL;
11630 if (!cfg->compile_aot)
11631 vtable = mono_class_vtable (cfg->domain, klass);
11632 CHECK_TYPELOAD (klass);
11635 if (mini_field_access_needs_cctor_run (cfg, method, klass, vtable)) {
11636 if (!(g_slist_find (class_inits, klass))) {
11637 emit_class_init (cfg, klass);
11638 if (cfg->verbose_level > 2)
11639 printf ("class %s.%s needs init call for %s\n", klass->name_space, klass->name, mono_field_get_name (field));
11640 class_inits = g_slist_prepend (class_inits, klass);
11643 if (cfg->run_cctors) {
11644 /* This makes so that inline cannot trigger */
11645 /* .cctors: too many apps depend on them */
11646 /* running with a specific order... */
11648 if (! vtable->initialized)
11649 INLINE_FAILURE ("class init");
11650 if (!mono_runtime_class_init_full (vtable, &cfg->error)) {
11651 mono_cfg_set_exception (cfg, MONO_EXCEPTION_MONO_ERROR);
11652 goto exception_exit;
11656 if (cfg->compile_aot)
11657 EMIT_NEW_SFLDACONST (cfg, ins, field);
11660 addr = (char*)mono_vtable_get_static_field_data (vtable) + field->offset;
11662 EMIT_NEW_PCONST (cfg, ins, addr);
11665 MonoInst *iargs [1];
11666 EMIT_NEW_ICONST (cfg, iargs [0], GPOINTER_TO_UINT (addr));
11667 ins = mono_emit_jit_icall (cfg, mono_get_special_static_data, iargs);
11671 /* Generate IR to do the actual load/store operation */
11673 if ((op == CEE_STFLD || op == CEE_STSFLD) && (ins_flag & MONO_INST_VOLATILE)) {
11674 /* Volatile stores have release semantics, see 12.6.7 in Ecma 335 */
11675 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_REL);
11678 if (op == CEE_LDSFLDA) {
11679 ins->klass = mono_class_from_mono_type (ftype);
11680 ins->type = STACK_PTR;
11682 } else if (op == CEE_STSFLD) {
11685 EMIT_NEW_STORE_MEMBASE_TYPE (cfg, store, ftype, ins->dreg, 0, store_val->dreg);
11686 store->flags |= ins_flag;
11688 gboolean is_const = FALSE;
11689 MonoVTable *vtable = NULL;
11690 gpointer addr = NULL;
11692 if (!context_used) {
11693 vtable = mono_class_vtable (cfg->domain, klass);
11694 CHECK_TYPELOAD (klass);
11696 if ((ftype->attrs & FIELD_ATTRIBUTE_INIT_ONLY) && (((addr = mono_aot_readonly_field_override (field)) != NULL) ||
11697 (!context_used && !((cfg->opt & MONO_OPT_SHARED) || cfg->compile_aot) && vtable->initialized))) {
11698 int ro_type = ftype->type;
11700 addr = (char*)mono_vtable_get_static_field_data (vtable) + field->offset;
11701 if (ro_type == MONO_TYPE_VALUETYPE && ftype->data.klass->enumtype) {
11702 ro_type = mono_class_enum_basetype (ftype->data.klass)->type;
11705 GSHAREDVT_FAILURE (op);
11707 /* printf ("RO-FIELD %s.%s:%s\n", klass->name_space, klass->name, mono_field_get_name (field));*/
11710 case MONO_TYPE_BOOLEAN:
11712 EMIT_NEW_ICONST (cfg, *sp, *((guint8 *)addr));
11716 EMIT_NEW_ICONST (cfg, *sp, *((gint8 *)addr));
11719 case MONO_TYPE_CHAR:
11721 EMIT_NEW_ICONST (cfg, *sp, *((guint16 *)addr));
11725 EMIT_NEW_ICONST (cfg, *sp, *((gint16 *)addr));
11730 EMIT_NEW_ICONST (cfg, *sp, *((gint32 *)addr));
11734 EMIT_NEW_ICONST (cfg, *sp, *((guint32 *)addr));
11739 case MONO_TYPE_PTR:
11740 case MONO_TYPE_FNPTR:
11741 EMIT_NEW_PCONST (cfg, *sp, *((gpointer *)addr));
11742 type_to_eval_stack_type ((cfg), field->type, *sp);
11745 case MONO_TYPE_STRING:
11746 case MONO_TYPE_OBJECT:
11747 case MONO_TYPE_CLASS:
11748 case MONO_TYPE_SZARRAY:
11749 case MONO_TYPE_ARRAY:
11750 if (!mono_gc_is_moving ()) {
11751 EMIT_NEW_PCONST (cfg, *sp, *((gpointer *)addr));
11752 type_to_eval_stack_type ((cfg), field->type, *sp);
11760 EMIT_NEW_I8CONST (cfg, *sp, *((gint64 *)addr));
11765 case MONO_TYPE_VALUETYPE:
11775 CHECK_STACK_OVF (1);
11777 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, load, field->type, ins->dreg, 0);
11778 load->flags |= ins_flag;
11784 if ((op == CEE_LDFLD || op == CEE_LDSFLD) && (ins_flag & MONO_INST_VOLATILE)) {
11785 /* Volatile loads have acquire semantics, see 12.6.7 in Ecma 335 */
11786 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_ACQ);
11797 token = read32 (ip + 1);
11798 klass = mini_get_class (method, token, generic_context);
11799 CHECK_TYPELOAD (klass);
11800 if (ins_flag & MONO_INST_VOLATILE) {
11801 /* Volatile stores have release semantics, see 12.6.7 in Ecma 335 */
11802 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_REL);
11804 /* FIXME: should check item at sp [1] is compatible with the type of the store. */
11805 EMIT_NEW_STORE_MEMBASE_TYPE (cfg, ins, &klass->byval_arg, sp [0]->dreg, 0, sp [1]->dreg);
11806 ins->flags |= ins_flag;
11807 if (cfg->gen_write_barriers && cfg->method->wrapper_type != MONO_WRAPPER_WRITE_BARRIER &&
11808 generic_class_is_reference_type (cfg, klass)) {
11809 /* insert call to write barrier */
11810 emit_write_barrier (cfg, sp [0], sp [1]);
11822 const char *data_ptr;
11824 guint32 field_token;
11830 token = read32 (ip + 1);
11832 klass = mini_get_class (method, token, generic_context);
11833 CHECK_TYPELOAD (klass);
11835 context_used = mini_class_check_context_used (cfg, klass);
11837 if (sp [0]->type == STACK_I8 || (SIZEOF_VOID_P == 8 && sp [0]->type == STACK_PTR)) {
11838 MONO_INST_NEW (cfg, ins, OP_LCONV_TO_OVF_U4);
11839 ins->sreg1 = sp [0]->dreg;
11840 ins->type = STACK_I4;
11841 ins->dreg = alloc_ireg (cfg);
11842 MONO_ADD_INS (cfg->cbb, ins);
11843 *sp = mono_decompose_opcode (cfg, ins);
11846 if (context_used) {
11847 MonoInst *args [3];
11848 MonoClass *array_class = mono_array_class_get (klass, 1);
11849 MonoMethod *managed_alloc = mono_gc_get_managed_array_allocator (array_class);
11851 /* FIXME: Use OP_NEWARR and decompose later to help abcrem */
11854 args [0] = emit_get_rgctx_klass (cfg, context_used,
11855 array_class, MONO_RGCTX_INFO_VTABLE);
11860 ins = mono_emit_method_call (cfg, managed_alloc, args, NULL);
11862 ins = mono_emit_jit_icall (cfg, ves_icall_array_new_specific, args);
11864 if (cfg->opt & MONO_OPT_SHARED) {
11865 /* Decompose now to avoid problems with references to the domainvar */
11866 MonoInst *iargs [3];
11868 EMIT_NEW_DOMAINCONST (cfg, iargs [0]);
11869 EMIT_NEW_CLASSCONST (cfg, iargs [1], klass);
11870 iargs [2] = sp [0];
11872 ins = mono_emit_jit_icall (cfg, ves_icall_array_new, iargs);
11874 /* Decompose later since it is needed by abcrem */
11875 MonoClass *array_type = mono_array_class_get (klass, 1);
11876 mono_class_vtable (cfg->domain, array_type);
11877 CHECK_TYPELOAD (array_type);
11879 MONO_INST_NEW (cfg, ins, OP_NEWARR);
11880 ins->dreg = alloc_ireg_ref (cfg);
11881 ins->sreg1 = sp [0]->dreg;
11882 ins->inst_newa_class = klass;
11883 ins->type = STACK_OBJ;
11884 ins->klass = array_type;
11885 MONO_ADD_INS (cfg->cbb, ins);
11886 cfg->flags |= MONO_CFG_HAS_ARRAY_ACCESS;
11887 cfg->cbb->has_array_access = TRUE;
11889 /* Needed so mono_emit_load_get_addr () gets called */
11890 mono_get_got_var (cfg);
11900 * we inline/optimize the initialization sequence if possible.
11901 * we should also allocate the array as not cleared, since we spend as much time clearing to 0 as initializing
11902 * for small sizes open code the memcpy
11903 * ensure the rva field is big enough
11905 if ((cfg->opt & MONO_OPT_INTRINS) && ip + 6 < end && ip_in_bb (cfg, cfg->cbb, ip + 6) && (len_ins->opcode == OP_ICONST) && (data_ptr = initialize_array_data (method, cfg->compile_aot, ip, klass, len_ins->inst_c0, &data_size, &field_token))) {
11906 MonoMethod *memcpy_method = get_memcpy_method ();
11907 MonoInst *iargs [3];
11908 int add_reg = alloc_ireg_mp (cfg);
11910 EMIT_NEW_BIALU_IMM (cfg, iargs [0], OP_PADD_IMM, add_reg, ins->dreg, MONO_STRUCT_OFFSET (MonoArray, vector));
11911 if (cfg->compile_aot) {
11912 EMIT_NEW_AOTCONST_TOKEN (cfg, iargs [1], MONO_PATCH_INFO_RVA, method->klass->image, GPOINTER_TO_UINT(field_token), STACK_PTR, NULL);
11914 EMIT_NEW_PCONST (cfg, iargs [1], (char*)data_ptr);
11916 EMIT_NEW_ICONST (cfg, iargs [2], data_size);
11917 mono_emit_method_call (cfg, memcpy_method, iargs, NULL);
11926 if (sp [0]->type != STACK_OBJ)
11929 MONO_INST_NEW (cfg, ins, OP_LDLEN);
11930 ins->dreg = alloc_preg (cfg);
11931 ins->sreg1 = sp [0]->dreg;
11932 ins->type = STACK_I4;
11933 /* This flag will be inherited by the decomposition */
11934 ins->flags |= MONO_INST_FAULT;
11935 MONO_ADD_INS (cfg->cbb, ins);
11936 cfg->flags |= MONO_CFG_HAS_ARRAY_ACCESS;
11937 cfg->cbb->has_array_access = TRUE;
11945 if (sp [0]->type != STACK_OBJ)
11948 cfg->flags |= MONO_CFG_HAS_LDELEMA;
11950 klass = mini_get_class (method, read32 (ip + 1), generic_context);
11951 CHECK_TYPELOAD (klass);
11952 /* we need to make sure that this array is exactly the type it needs
11953 * to be for correctness. the wrappers are lax with their usage
11954 * so we need to ignore them here
11956 if (!klass->valuetype && method->wrapper_type == MONO_WRAPPER_NONE && !readonly) {
11957 MonoClass *array_class = mono_array_class_get (klass, 1);
11958 mini_emit_check_array_type (cfg, sp [0], array_class);
11959 CHECK_TYPELOAD (array_class);
11963 ins = mini_emit_ldelema_1_ins (cfg, klass, sp [0], sp [1], TRUE);
11968 case CEE_LDELEM_I1:
11969 case CEE_LDELEM_U1:
11970 case CEE_LDELEM_I2:
11971 case CEE_LDELEM_U2:
11972 case CEE_LDELEM_I4:
11973 case CEE_LDELEM_U4:
11974 case CEE_LDELEM_I8:
11976 case CEE_LDELEM_R4:
11977 case CEE_LDELEM_R8:
11978 case CEE_LDELEM_REF: {
11984 if (*ip == CEE_LDELEM) {
11986 token = read32 (ip + 1);
11987 klass = mini_get_class (method, token, generic_context);
11988 CHECK_TYPELOAD (klass);
11989 mono_class_init (klass);
11992 klass = array_access_to_klass (*ip);
11994 if (sp [0]->type != STACK_OBJ)
11997 cfg->flags |= MONO_CFG_HAS_LDELEMA;
11999 if (mini_is_gsharedvt_variable_klass (klass)) {
12000 // FIXME-VT: OP_ICONST optimization
12001 addr = mini_emit_ldelema_1_ins (cfg, klass, sp [0], sp [1], TRUE);
12002 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, &klass->byval_arg, addr->dreg, 0);
12003 ins->opcode = OP_LOADV_MEMBASE;
12004 } else if (sp [1]->opcode == OP_ICONST) {
12005 int array_reg = sp [0]->dreg;
12006 int index_reg = sp [1]->dreg;
12007 int offset = (mono_class_array_element_size (klass) * sp [1]->inst_c0) + MONO_STRUCT_OFFSET (MonoArray, vector);
12009 if (SIZEOF_REGISTER == 8 && COMPILE_LLVM (cfg))
12010 MONO_EMIT_NEW_UNALU (cfg, OP_ZEXT_I4, index_reg, index_reg);
12012 MONO_EMIT_BOUNDS_CHECK (cfg, array_reg, MonoArray, max_length, index_reg);
12013 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, &klass->byval_arg, array_reg, offset);
12015 addr = mini_emit_ldelema_1_ins (cfg, klass, sp [0], sp [1], TRUE);
12016 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, &klass->byval_arg, addr->dreg, 0);
12019 if (*ip == CEE_LDELEM)
12026 case CEE_STELEM_I1:
12027 case CEE_STELEM_I2:
12028 case CEE_STELEM_I4:
12029 case CEE_STELEM_I8:
12030 case CEE_STELEM_R4:
12031 case CEE_STELEM_R8:
12032 case CEE_STELEM_REF:
12037 cfg->flags |= MONO_CFG_HAS_LDELEMA;
12039 if (*ip == CEE_STELEM) {
12041 token = read32 (ip + 1);
12042 klass = mini_get_class (method, token, generic_context);
12043 CHECK_TYPELOAD (klass);
12044 mono_class_init (klass);
12047 klass = array_access_to_klass (*ip);
12049 if (sp [0]->type != STACK_OBJ)
12052 emit_array_store (cfg, klass, sp, TRUE);
12054 if (*ip == CEE_STELEM)
12061 case CEE_CKFINITE: {
12065 if (cfg->llvm_only) {
12066 MonoInst *iargs [1];
12068 iargs [0] = sp [0];
12069 *sp++ = mono_emit_jit_icall (cfg, mono_ckfinite, iargs);
12071 MONO_INST_NEW (cfg, ins, OP_CKFINITE);
12072 ins->sreg1 = sp [0]->dreg;
12073 ins->dreg = alloc_freg (cfg);
12074 ins->type = STACK_R8;
12075 MONO_ADD_INS (cfg->cbb, ins);
12077 *sp++ = mono_decompose_opcode (cfg, ins);
12083 case CEE_REFANYVAL: {
12084 MonoInst *src_var, *src;
12086 int klass_reg = alloc_preg (cfg);
12087 int dreg = alloc_preg (cfg);
12089 GSHAREDVT_FAILURE (*ip);
12092 MONO_INST_NEW (cfg, ins, *ip);
12095 klass = mini_get_class (method, read32 (ip + 1), generic_context);
12096 CHECK_TYPELOAD (klass);
12098 context_used = mini_class_check_context_used (cfg, klass);
12101 src_var = get_vreg_to_inst (cfg, sp [0]->dreg);
12103 src_var = mono_compile_create_var_for_vreg (cfg, &mono_defaults.typed_reference_class->byval_arg, OP_LOCAL, sp [0]->dreg);
12104 EMIT_NEW_VARLOADA (cfg, src, src_var, src_var->inst_vtype);
12105 MONO_EMIT_NEW_LOAD_MEMBASE (cfg, klass_reg, src->dreg, MONO_STRUCT_OFFSET (MonoTypedRef, klass));
12107 if (context_used) {
12108 MonoInst *klass_ins;
12110 klass_ins = emit_get_rgctx_klass (cfg, context_used,
12111 klass, MONO_RGCTX_INFO_KLASS);
12114 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, klass_reg, klass_ins->dreg);
12115 MONO_EMIT_NEW_COND_EXC (cfg, NE_UN, "InvalidCastException");
12117 mini_emit_class_check (cfg, klass_reg, klass);
12119 EMIT_NEW_LOAD_MEMBASE (cfg, ins, OP_LOAD_MEMBASE, dreg, src->dreg, MONO_STRUCT_OFFSET (MonoTypedRef, value));
12120 ins->type = STACK_MP;
12121 ins->klass = klass;
12126 case CEE_MKREFANY: {
12127 MonoInst *loc, *addr;
12129 GSHAREDVT_FAILURE (*ip);
12132 MONO_INST_NEW (cfg, ins, *ip);
12135 klass = mini_get_class (method, read32 (ip + 1), generic_context);
12136 CHECK_TYPELOAD (klass);
12138 context_used = mini_class_check_context_used (cfg, klass);
12140 loc = mono_compile_create_var (cfg, &mono_defaults.typed_reference_class->byval_arg, OP_LOCAL);
12141 EMIT_NEW_TEMPLOADA (cfg, addr, loc->inst_c0);
12143 if (context_used) {
12144 MonoInst *const_ins;
12145 int type_reg = alloc_preg (cfg);
12147 const_ins = emit_get_rgctx_klass (cfg, context_used, klass, MONO_RGCTX_INFO_KLASS);
12148 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREP_MEMBASE_REG, addr->dreg, MONO_STRUCT_OFFSET (MonoTypedRef, klass), const_ins->dreg);
12149 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_ADD_IMM, type_reg, const_ins->dreg, MONO_STRUCT_OFFSET (MonoClass, byval_arg));
12150 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREP_MEMBASE_REG, addr->dreg, MONO_STRUCT_OFFSET (MonoTypedRef, type), type_reg);
12151 } else if (cfg->compile_aot) {
12152 int const_reg = alloc_preg (cfg);
12153 int type_reg = alloc_preg (cfg);
12155 MONO_EMIT_NEW_CLASSCONST (cfg, const_reg, klass);
12156 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREP_MEMBASE_REG, addr->dreg, MONO_STRUCT_OFFSET (MonoTypedRef, klass), const_reg);
12157 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_ADD_IMM, type_reg, const_reg, MONO_STRUCT_OFFSET (MonoClass, byval_arg));
12158 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREP_MEMBASE_REG, addr->dreg, MONO_STRUCT_OFFSET (MonoTypedRef, type), type_reg);
12160 MONO_EMIT_NEW_STORE_MEMBASE_IMM (cfg, OP_STOREP_MEMBASE_IMM, addr->dreg, MONO_STRUCT_OFFSET (MonoTypedRef, type), &klass->byval_arg);
12161 MONO_EMIT_NEW_STORE_MEMBASE_IMM (cfg, OP_STOREP_MEMBASE_IMM, addr->dreg, MONO_STRUCT_OFFSET (MonoTypedRef, klass), klass);
12163 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STOREP_MEMBASE_REG, addr->dreg, MONO_STRUCT_OFFSET (MonoTypedRef, value), sp [0]->dreg);
12165 EMIT_NEW_TEMPLOAD (cfg, ins, loc->inst_c0);
12166 ins->type = STACK_VTYPE;
12167 ins->klass = mono_defaults.typed_reference_class;
12172 case CEE_LDTOKEN: {
12174 MonoClass *handle_class;
12176 CHECK_STACK_OVF (1);
12179 n = read32 (ip + 1);
12181 if (method->wrapper_type == MONO_WRAPPER_DYNAMIC_METHOD ||
12182 method->wrapper_type == MONO_WRAPPER_SYNCHRONIZED) {
12183 handle = mono_method_get_wrapper_data (method, n);
12184 handle_class = (MonoClass *)mono_method_get_wrapper_data (method, n + 1);
12185 if (handle_class == mono_defaults.typehandle_class)
12186 handle = &((MonoClass*)handle)->byval_arg;
12189 handle = mono_ldtoken_checked (image, n, &handle_class, generic_context, &cfg->error);
12194 mono_class_init (handle_class);
12195 if (cfg->gshared) {
12196 if (mono_metadata_token_table (n) == MONO_TABLE_TYPEDEF ||
12197 mono_metadata_token_table (n) == MONO_TABLE_TYPEREF) {
12198 /* This case handles ldtoken
12199 of an open type, like for
12202 } else if (handle_class == mono_defaults.typehandle_class) {
12203 context_used = mini_class_check_context_used (cfg, mono_class_from_mono_type ((MonoType *)handle));
12204 } else if (handle_class == mono_defaults.fieldhandle_class)
12205 context_used = mini_class_check_context_used (cfg, ((MonoClassField*)handle)->parent);
12206 else if (handle_class == mono_defaults.methodhandle_class)
12207 context_used = mini_method_check_context_used (cfg, (MonoMethod *)handle);
12209 g_assert_not_reached ();
12212 if ((cfg->opt & MONO_OPT_SHARED) &&
12213 method->wrapper_type != MONO_WRAPPER_DYNAMIC_METHOD &&
12214 method->wrapper_type != MONO_WRAPPER_SYNCHRONIZED) {
12215 MonoInst *addr, *vtvar, *iargs [3];
12216 int method_context_used;
12218 method_context_used = mini_method_check_context_used (cfg, method);
12220 vtvar = mono_compile_create_var (cfg, &handle_class->byval_arg, OP_LOCAL);
12222 EMIT_NEW_IMAGECONST (cfg, iargs [0], image);
12223 EMIT_NEW_ICONST (cfg, iargs [1], n);
12224 if (method_context_used) {
12225 iargs [2] = emit_get_rgctx_method (cfg, method_context_used,
12226 method, MONO_RGCTX_INFO_METHOD);
12227 ins = mono_emit_jit_icall (cfg, mono_ldtoken_wrapper_generic_shared, iargs);
12229 EMIT_NEW_PCONST (cfg, iargs [2], generic_context);
12230 ins = mono_emit_jit_icall (cfg, mono_ldtoken_wrapper, iargs);
12232 EMIT_NEW_TEMPLOADA (cfg, addr, vtvar->inst_c0);
12234 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, addr->dreg, 0, ins->dreg);
12236 EMIT_NEW_TEMPLOAD (cfg, ins, vtvar->inst_c0);
12238 if ((ip + 5 < end) && ip_in_bb (cfg, cfg->cbb, ip + 5) &&
12239 ((ip [5] == CEE_CALL) || (ip [5] == CEE_CALLVIRT)) &&
12240 (cmethod = mini_get_method (cfg, method, read32 (ip + 6), NULL, generic_context)) &&
12241 (cmethod->klass == mono_defaults.systemtype_class) &&
12242 (strcmp (cmethod->name, "GetTypeFromHandle") == 0)) {
12243 MonoClass *tclass = mono_class_from_mono_type ((MonoType *)handle);
12245 mono_class_init (tclass);
12246 if (context_used) {
12247 ins = emit_get_rgctx_klass (cfg, context_used,
12248 tclass, MONO_RGCTX_INFO_REFLECTION_TYPE);
12249 } else if (cfg->compile_aot) {
12250 if (method->wrapper_type) {
12251 mono_error_init (&error); //got to do it since there are multiple conditionals below
12252 if (mono_class_get_checked (tclass->image, tclass->type_token, &error) == tclass && !generic_context) {
12253 /* Special case for static synchronized wrappers */
12254 EMIT_NEW_TYPE_FROM_HANDLE_CONST (cfg, ins, tclass->image, tclass->type_token, generic_context);
12256 mono_error_cleanup (&error); /* FIXME don't swallow the error */
12257 /* FIXME: n is not a normal token */
12259 EMIT_NEW_PCONST (cfg, ins, NULL);
12262 EMIT_NEW_TYPE_FROM_HANDLE_CONST (cfg, ins, image, n, generic_context);
12265 MonoReflectionType *rt = mono_type_get_object_checked (cfg->domain, (MonoType *)handle, &cfg->error);
12267 EMIT_NEW_PCONST (cfg, ins, rt);
12269 ins->type = STACK_OBJ;
12270 ins->klass = cmethod->klass;
12273 MonoInst *addr, *vtvar;
12275 vtvar = mono_compile_create_var (cfg, &handle_class->byval_arg, OP_LOCAL);
12277 if (context_used) {
12278 if (handle_class == mono_defaults.typehandle_class) {
12279 ins = emit_get_rgctx_klass (cfg, context_used,
12280 mono_class_from_mono_type ((MonoType *)handle),
12281 MONO_RGCTX_INFO_TYPE);
12282 } else if (handle_class == mono_defaults.methodhandle_class) {
12283 ins = emit_get_rgctx_method (cfg, context_used,
12284 (MonoMethod *)handle, MONO_RGCTX_INFO_METHOD);
12285 } else if (handle_class == mono_defaults.fieldhandle_class) {
12286 ins = emit_get_rgctx_field (cfg, context_used,
12287 (MonoClassField *)handle, MONO_RGCTX_INFO_CLASS_FIELD);
12289 g_assert_not_reached ();
12291 } else if (cfg->compile_aot) {
12292 EMIT_NEW_LDTOKENCONST (cfg, ins, image, n, generic_context);
12294 EMIT_NEW_PCONST (cfg, ins, handle);
12296 EMIT_NEW_TEMPLOADA (cfg, addr, vtvar->inst_c0);
12297 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, addr->dreg, 0, ins->dreg);
12298 EMIT_NEW_TEMPLOAD (cfg, ins, vtvar->inst_c0);
12308 MONO_INST_NEW (cfg, ins, OP_THROW);
12310 ins->sreg1 = sp [0]->dreg;
12312 cfg->cbb->out_of_line = TRUE;
12313 MONO_ADD_INS (cfg->cbb, ins);
12314 MONO_INST_NEW (cfg, ins, OP_NOT_REACHED);
12315 MONO_ADD_INS (cfg->cbb, ins);
12318 link_bblock (cfg, cfg->cbb, end_bblock);
12319 start_new_bblock = 1;
12320 /* This can complicate code generation for llvm since the return value might not be defined */
12321 if (COMPILE_LLVM (cfg))
12322 INLINE_FAILURE ("throw");
12324 case CEE_ENDFINALLY:
12325 /* mono_save_seq_point_info () depends on this */
12326 if (sp != stack_start)
12327 emit_seq_point (cfg, method, ip, FALSE, FALSE);
12328 MONO_INST_NEW (cfg, ins, OP_ENDFINALLY);
12329 MONO_ADD_INS (cfg->cbb, ins);
12331 start_new_bblock = 1;
12334 * Control will leave the method so empty the stack, otherwise
12335 * the next basic block will start with a nonempty stack.
12337 while (sp != stack_start) {
12342 case CEE_LEAVE_S: {
12345 if (*ip == CEE_LEAVE) {
12347 target = ip + 5 + (gint32)read32(ip + 1);
12350 target = ip + 2 + (signed char)(ip [1]);
12353 /* empty the stack */
12354 while (sp != stack_start) {
12359 * If this leave statement is in a catch block, check for a
12360 * pending exception, and rethrow it if necessary.
12361 * We avoid doing this in runtime invoke wrappers, since those are called
12362 * by native code which excepts the wrapper to catch all exceptions.
12364 for (i = 0; i < header->num_clauses; ++i) {
12365 MonoExceptionClause *clause = &header->clauses [i];
12368 * Use <= in the final comparison to handle clauses with multiple
12369 * leave statements, like in bug #78024.
12370 * The ordering of the exception clauses guarantees that we find the
12371 * innermost clause.
12373 if (MONO_OFFSET_IN_HANDLER (clause, ip - header->code) && (clause->flags == MONO_EXCEPTION_CLAUSE_NONE) && (ip - header->code + ((*ip == CEE_LEAVE) ? 5 : 2)) <= (clause->handler_offset + clause->handler_len) && method->wrapper_type != MONO_WRAPPER_RUNTIME_INVOKE) {
12375 MonoBasicBlock *dont_throw;
12380 NEW_TEMPLOAD (cfg, load, mono_find_exvar_for_offset (cfg, clause->handler_offset)->inst_c0);
12383 exc_ins = mono_emit_jit_icall (cfg, mono_thread_get_undeniable_exception, NULL);
12385 NEW_BBLOCK (cfg, dont_throw);
12388 * Currently, we always rethrow the abort exception, despite the
12389 * fact that this is not correct. See thread6.cs for an example.
12390 * But propagating the abort exception is more important than
12391 * getting the sematics right.
12393 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, exc_ins->dreg, 0);
12394 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, dont_throw);
12395 MONO_EMIT_NEW_UNALU (cfg, OP_THROW, -1, exc_ins->dreg);
12397 MONO_START_BB (cfg, dont_throw);
12402 cfg->cbb->try_end = (intptr_t)(ip - header->code);
12405 if ((handlers = mono_find_final_block (cfg, ip, target, MONO_EXCEPTION_CLAUSE_FINALLY))) {
12407 MonoExceptionClause *clause;
12409 for (tmp = handlers; tmp; tmp = tmp->next) {
12410 clause = (MonoExceptionClause *)tmp->data;
12411 tblock = cfg->cil_offset_to_bb [clause->handler_offset];
12413 link_bblock (cfg, cfg->cbb, tblock);
12414 MONO_INST_NEW (cfg, ins, OP_CALL_HANDLER);
12415 ins->inst_target_bb = tblock;
12416 ins->inst_eh_block = clause;
12417 MONO_ADD_INS (cfg->cbb, ins);
12418 cfg->cbb->has_call_handler = 1;
12419 if (COMPILE_LLVM (cfg)) {
12420 MonoBasicBlock *target_bb;
12423 * Link the finally bblock with the target, since it will
12424 * conceptually branch there.
12426 GET_BBLOCK (cfg, tblock, cfg->cil_start + clause->handler_offset + clause->handler_len - 1);
12427 GET_BBLOCK (cfg, target_bb, target);
12428 link_bblock (cfg, tblock, target_bb);
12431 g_list_free (handlers);
12434 MONO_INST_NEW (cfg, ins, OP_BR);
12435 MONO_ADD_INS (cfg->cbb, ins);
12436 GET_BBLOCK (cfg, tblock, target);
12437 link_bblock (cfg, cfg->cbb, tblock);
12438 ins->inst_target_bb = tblock;
12440 start_new_bblock = 1;
12442 if (*ip == CEE_LEAVE)
12451 * Mono specific opcodes
12453 case MONO_CUSTOM_PREFIX: {
12455 g_assert (method->wrapper_type != MONO_WRAPPER_NONE);
12459 case CEE_MONO_ICALL: {
12461 MonoJitICallInfo *info;
12463 token = read32 (ip + 2);
12464 func = mono_method_get_wrapper_data (method, token);
12465 info = mono_find_jit_icall_by_addr (func);
12467 g_error ("Could not find icall address in wrapper %s", mono_method_full_name (method, 1));
12470 CHECK_STACK (info->sig->param_count);
12471 sp -= info->sig->param_count;
12473 ins = mono_emit_jit_icall (cfg, info->func, sp);
12474 if (!MONO_TYPE_IS_VOID (info->sig->ret))
12478 inline_costs += 10 * num_calls++;
12482 case CEE_MONO_LDPTR_CARD_TABLE:
12483 case CEE_MONO_LDPTR_NURSERY_START:
12484 case CEE_MONO_LDPTR_NURSERY_BITS:
12485 case CEE_MONO_LDPTR_INT_REQ_FLAG: {
12486 CHECK_STACK_OVF (1);
12489 case CEE_MONO_LDPTR_CARD_TABLE:
12490 ins = emit_runtime_constant (cfg, MONO_PATCH_INFO_GC_CARD_TABLE_ADDR, NULL);
12492 case CEE_MONO_LDPTR_NURSERY_START:
12493 ins = emit_runtime_constant (cfg, MONO_PATCH_INFO_GC_NURSERY_START, NULL);
12495 case CEE_MONO_LDPTR_NURSERY_BITS:
12496 ins = emit_runtime_constant (cfg, MONO_PATCH_INFO_GC_NURSERY_BITS, NULL);
12498 case CEE_MONO_LDPTR_INT_REQ_FLAG:
12499 ins = emit_runtime_constant (cfg, MONO_PATCH_INFO_INTERRUPTION_REQUEST_FLAG, NULL);
12505 inline_costs += 10 * num_calls++;
12508 case CEE_MONO_LDPTR: {
12511 CHECK_STACK_OVF (1);
12513 token = read32 (ip + 2);
12515 ptr = mono_method_get_wrapper_data (method, token);
12516 EMIT_NEW_PCONST (cfg, ins, ptr);
12519 inline_costs += 10 * num_calls++;
12520 /* Can't embed random pointers into AOT code */
12524 case CEE_MONO_JIT_ICALL_ADDR: {
12525 MonoJitICallInfo *callinfo;
12528 CHECK_STACK_OVF (1);
12530 token = read32 (ip + 2);
12532 ptr = mono_method_get_wrapper_data (method, token);
12533 callinfo = mono_find_jit_icall_by_addr (ptr);
12534 g_assert (callinfo);
12535 EMIT_NEW_JIT_ICALL_ADDRCONST (cfg, ins, (char*)callinfo->name);
12538 inline_costs += 10 * num_calls++;
12541 case CEE_MONO_ICALL_ADDR: {
12542 MonoMethod *cmethod;
12545 CHECK_STACK_OVF (1);
12547 token = read32 (ip + 2);
12549 cmethod = (MonoMethod *)mono_method_get_wrapper_data (method, token);
12551 if (cfg->compile_aot) {
12552 EMIT_NEW_AOTCONST (cfg, ins, MONO_PATCH_INFO_ICALL_ADDR, cmethod);
12554 ptr = mono_lookup_internal_call (cmethod);
12556 EMIT_NEW_PCONST (cfg, ins, ptr);
12562 case CEE_MONO_VTADDR: {
12563 MonoInst *src_var, *src;
12569 src_var = get_vreg_to_inst (cfg, sp [0]->dreg);
12570 EMIT_NEW_VARLOADA ((cfg), (src), src_var, src_var->inst_vtype);
12575 case CEE_MONO_NEWOBJ: {
12576 MonoInst *iargs [2];
12578 CHECK_STACK_OVF (1);
12580 token = read32 (ip + 2);
12581 klass = (MonoClass *)mono_method_get_wrapper_data (method, token);
12582 mono_class_init (klass);
12583 NEW_DOMAINCONST (cfg, iargs [0]);
12584 MONO_ADD_INS (cfg->cbb, iargs [0]);
12585 NEW_CLASSCONST (cfg, iargs [1], klass);
12586 MONO_ADD_INS (cfg->cbb, iargs [1]);
12587 *sp++ = mono_emit_jit_icall (cfg, ves_icall_object_new, iargs);
12589 inline_costs += 10 * num_calls++;
12592 case CEE_MONO_OBJADDR:
12595 MONO_INST_NEW (cfg, ins, OP_MOVE);
12596 ins->dreg = alloc_ireg_mp (cfg);
12597 ins->sreg1 = sp [0]->dreg;
12598 ins->type = STACK_MP;
12599 MONO_ADD_INS (cfg->cbb, ins);
12603 case CEE_MONO_LDNATIVEOBJ:
12605 * Similar to LDOBJ, but instead load the unmanaged
12606 * representation of the vtype to the stack.
12611 token = read32 (ip + 2);
12612 klass = (MonoClass *)mono_method_get_wrapper_data (method, token);
12613 g_assert (klass->valuetype);
12614 mono_class_init (klass);
12617 MonoInst *src, *dest, *temp;
12620 temp = mono_compile_create_var (cfg, &klass->byval_arg, OP_LOCAL);
12621 temp->backend.is_pinvoke = 1;
12622 EMIT_NEW_TEMPLOADA (cfg, dest, temp->inst_c0);
12623 mini_emit_stobj (cfg, dest, src, klass, TRUE);
12625 EMIT_NEW_TEMPLOAD (cfg, dest, temp->inst_c0);
12626 dest->type = STACK_VTYPE;
12627 dest->klass = klass;
12633 case CEE_MONO_RETOBJ: {
12635 * Same as RET, but return the native representation of a vtype
12638 g_assert (cfg->ret);
12639 g_assert (mono_method_signature (method)->pinvoke);
12644 token = read32 (ip + 2);
12645 klass = (MonoClass *)mono_method_get_wrapper_data (method, token);
12647 if (!cfg->vret_addr) {
12648 g_assert (cfg->ret_var_is_local);
12650 EMIT_NEW_VARLOADA (cfg, ins, cfg->ret, cfg->ret->inst_vtype);
12652 EMIT_NEW_RETLOADA (cfg, ins);
12654 mini_emit_stobj (cfg, ins, sp [0], klass, TRUE);
12656 if (sp != stack_start)
12659 MONO_INST_NEW (cfg, ins, OP_BR);
12660 ins->inst_target_bb = end_bblock;
12661 MONO_ADD_INS (cfg->cbb, ins);
12662 link_bblock (cfg, cfg->cbb, end_bblock);
12663 start_new_bblock = 1;
12667 case CEE_MONO_CISINST:
12668 case CEE_MONO_CCASTCLASS: {
12673 token = read32 (ip + 2);
12674 klass = (MonoClass *)mono_method_get_wrapper_data (method, token);
12675 if (ip [1] == CEE_MONO_CISINST)
12676 ins = handle_cisinst (cfg, klass, sp [0]);
12678 ins = handle_ccastclass (cfg, klass, sp [0]);
12683 case CEE_MONO_SAVE_LMF:
12684 case CEE_MONO_RESTORE_LMF:
12687 case CEE_MONO_CLASSCONST:
12688 CHECK_STACK_OVF (1);
12690 token = read32 (ip + 2);
12691 EMIT_NEW_CLASSCONST (cfg, ins, mono_method_get_wrapper_data (method, token));
12694 inline_costs += 10 * num_calls++;
12696 case CEE_MONO_NOT_TAKEN:
12697 cfg->cbb->out_of_line = TRUE;
12700 case CEE_MONO_TLS: {
12703 CHECK_STACK_OVF (1);
12705 key = (MonoTlsKey)read32 (ip + 2);
12706 g_assert (key < TLS_KEY_NUM);
12708 ins = mono_create_tls_get (cfg, key);
12710 if (cfg->compile_aot) {
12712 MONO_INST_NEW (cfg, ins, OP_TLS_GET);
12713 ins->dreg = alloc_preg (cfg);
12714 ins->type = STACK_PTR;
12716 g_assert_not_reached ();
12719 ins->type = STACK_PTR;
12720 MONO_ADD_INS (cfg->cbb, ins);
12725 case CEE_MONO_DYN_CALL: {
12726 MonoCallInst *call;
12728 /* It would be easier to call a trampoline, but that would put an
12729 * extra frame on the stack, confusing exception handling. So
12730 * implement it inline using an opcode for now.
12733 if (!cfg->dyn_call_var) {
12734 cfg->dyn_call_var = mono_compile_create_var (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL);
12735 /* prevent it from being register allocated */
12736 cfg->dyn_call_var->flags |= MONO_INST_VOLATILE;
12739 /* Has to use a call inst since it local regalloc expects it */
12740 MONO_INST_NEW_CALL (cfg, call, OP_DYN_CALL);
12741 ins = (MonoInst*)call;
12743 ins->sreg1 = sp [0]->dreg;
12744 ins->sreg2 = sp [1]->dreg;
12745 MONO_ADD_INS (cfg->cbb, ins);
12747 cfg->param_area = MAX (cfg->param_area, cfg->backend->dyn_call_param_area);
12750 inline_costs += 10 * num_calls++;
12754 case CEE_MONO_MEMORY_BARRIER: {
12756 emit_memory_barrier (cfg, (int)read32 (ip + 2));
12760 case CEE_MONO_JIT_ATTACH: {
12761 MonoInst *args [16], *domain_ins;
12762 MonoInst *ad_ins, *jit_tls_ins;
12763 MonoBasicBlock *next_bb = NULL, *call_bb = NULL;
12765 cfg->attach_cookie = mono_compile_create_var (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL);
12766 cfg->attach_dummy = mono_compile_create_var (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL);
12768 if (mono_threads_is_coop_enabled ()) {
12769 /* AOT code is only used in the root domain */
12770 EMIT_NEW_PCONST (cfg, args [0], cfg->compile_aot ? NULL : cfg->domain);
12771 EMIT_NEW_VARLOADA (cfg, args [1], cfg->attach_dummy, cfg->attach_dummy->inst_vtype);
12772 ins = mono_emit_jit_icall (cfg, mono_jit_thread_attach, args);
12773 MONO_EMIT_NEW_UNALU (cfg, OP_MOVE, cfg->attach_cookie->dreg, ins->dreg);
12775 EMIT_NEW_PCONST (cfg, ins, NULL);
12776 MONO_EMIT_NEW_UNALU (cfg, OP_MOVE, cfg->attach_cookie->dreg, ins->dreg);
12778 ad_ins = mono_get_domain_intrinsic (cfg);
12779 jit_tls_ins = mono_get_jit_tls_intrinsic (cfg);
12781 if (cfg->backend->have_tls_get && ad_ins && jit_tls_ins) {
12782 NEW_BBLOCK (cfg, next_bb);
12783 NEW_BBLOCK (cfg, call_bb);
12785 if (cfg->compile_aot) {
12786 /* AOT code is only used in the root domain */
12787 EMIT_NEW_PCONST (cfg, domain_ins, NULL);
12789 EMIT_NEW_PCONST (cfg, domain_ins, cfg->domain);
12791 MONO_ADD_INS (cfg->cbb, ad_ins);
12792 MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, ad_ins->dreg, domain_ins->dreg);
12793 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBNE_UN, call_bb);
12795 MONO_ADD_INS (cfg->cbb, jit_tls_ins);
12796 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, jit_tls_ins->dreg, 0);
12797 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBEQ, call_bb);
12799 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, next_bb);
12800 MONO_START_BB (cfg, call_bb);
12803 /* AOT code is only used in the root domain */
12804 EMIT_NEW_PCONST (cfg, args [0], cfg->compile_aot ? NULL : cfg->domain);
12805 EMIT_NEW_PCONST (cfg, args [1], NULL);
12806 ins = mono_emit_jit_icall (cfg, mono_jit_thread_attach, args);
12807 MONO_EMIT_NEW_UNALU (cfg, OP_MOVE, cfg->attach_cookie->dreg, ins->dreg);
12810 MONO_START_BB (cfg, next_bb);
12816 case CEE_MONO_JIT_DETACH: {
12817 MonoInst *args [16];
12819 /* Restore the original domain */
12820 dreg = alloc_ireg (cfg);
12821 EMIT_NEW_UNALU (cfg, args [0], OP_MOVE, dreg, cfg->attach_cookie->dreg);
12822 EMIT_NEW_VARLOADA (cfg, args [1], cfg->attach_dummy, cfg->attach_dummy->inst_vtype);
12823 mono_emit_jit_icall (cfg, mono_jit_thread_detach, args);
12827 case CEE_MONO_CALLI_EXTRA_ARG: {
12829 MonoMethodSignature *fsig;
12833 * This is the same as CEE_CALLI, but passes an additional argument
12834 * to the called method in llvmonly mode.
12835 * This is only used by delegate invoke wrappers to call the
12836 * actual delegate method.
12838 g_assert (method->wrapper_type == MONO_WRAPPER_DELEGATE_INVOKE);
12841 token = read32 (ip + 2);
12849 fsig = mini_get_signature (method, token, generic_context);
12851 if (cfg->llvm_only)
12852 cfg->signatures = g_slist_prepend_mempool (cfg->mempool, cfg->signatures, fsig);
12854 n = fsig->param_count + fsig->hasthis + 1;
12861 if (cfg->llvm_only) {
12863 * The lowest bit of 'arg' determines whenever the callee uses the gsharedvt
12864 * cconv. This is set by mono_init_delegate ().
12866 if (cfg->gsharedvt && mini_is_gsharedvt_variable_signature (fsig)) {
12867 MonoInst *callee = addr;
12868 MonoInst *call, *localloc_ins;
12869 MonoBasicBlock *is_gsharedvt_bb, *end_bb;
12870 int low_bit_reg = alloc_preg (cfg);
12872 NEW_BBLOCK (cfg, is_gsharedvt_bb);
12873 NEW_BBLOCK (cfg, end_bb);
12875 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_PAND_IMM, low_bit_reg, arg->dreg, 1);
12876 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, low_bit_reg, 0);
12877 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBNE_UN, is_gsharedvt_bb);
12879 /* Normal case: callee uses a normal cconv, have to add an out wrapper */
12880 addr = emit_get_rgctx_sig (cfg, context_used,
12881 fsig, MONO_RGCTX_INFO_SIG_GSHAREDVT_OUT_TRAMPOLINE_CALLI);
12883 * ADDR points to a gsharedvt-out wrapper, have to pass <callee, arg> as an extra arg.
12885 MONO_INST_NEW (cfg, ins, OP_LOCALLOC_IMM);
12886 ins->dreg = alloc_preg (cfg);
12887 ins->inst_imm = 2 * SIZEOF_VOID_P;
12888 MONO_ADD_INS (cfg->cbb, ins);
12889 localloc_ins = ins;
12890 cfg->flags |= MONO_CFG_HAS_ALLOCA;
12891 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, localloc_ins->dreg, 0, callee->dreg);
12892 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, localloc_ins->dreg, SIZEOF_VOID_P, arg->dreg);
12894 call = emit_extra_arg_calli (cfg, fsig, sp, localloc_ins->dreg, addr);
12895 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
12897 /* Gsharedvt case: callee uses a gsharedvt cconv, no conversion is needed */
12898 MONO_START_BB (cfg, is_gsharedvt_bb);
12899 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_PXOR_IMM, arg->dreg, arg->dreg, 1);
12900 ins = emit_extra_arg_calli (cfg, fsig, sp, arg->dreg, callee);
12901 ins->dreg = call->dreg;
12903 MONO_START_BB (cfg, end_bb);
12905 /* Caller uses a normal calling conv */
12907 MonoInst *callee = addr;
12908 MonoInst *call, *localloc_ins;
12909 MonoBasicBlock *is_gsharedvt_bb, *end_bb;
12910 int low_bit_reg = alloc_preg (cfg);
12912 NEW_BBLOCK (cfg, is_gsharedvt_bb);
12913 NEW_BBLOCK (cfg, end_bb);
12915 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_PAND_IMM, low_bit_reg, arg->dreg, 1);
12916 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, low_bit_reg, 0);
12917 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_PBNE_UN, is_gsharedvt_bb);
12919 /* Normal case: callee uses a normal cconv, no conversion is needed */
12920 call = emit_extra_arg_calli (cfg, fsig, sp, arg->dreg, callee);
12921 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
12922 /* Gsharedvt case: callee uses a gsharedvt cconv, have to add an in wrapper */
12923 MONO_START_BB (cfg, is_gsharedvt_bb);
12924 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_PXOR_IMM, arg->dreg, arg->dreg, 1);
12925 NEW_AOTCONST (cfg, addr, MONO_PATCH_INFO_GSHAREDVT_IN_WRAPPER, fsig);
12926 MONO_ADD_INS (cfg->cbb, addr);
12928 * ADDR points to a gsharedvt-in wrapper, have to pass <callee, arg> as an extra arg.
12930 MONO_INST_NEW (cfg, ins, OP_LOCALLOC_IMM);
12931 ins->dreg = alloc_preg (cfg);
12932 ins->inst_imm = 2 * SIZEOF_VOID_P;
12933 MONO_ADD_INS (cfg->cbb, ins);
12934 localloc_ins = ins;
12935 cfg->flags |= MONO_CFG_HAS_ALLOCA;
12936 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, localloc_ins->dreg, 0, callee->dreg);
12937 MONO_EMIT_NEW_STORE_MEMBASE (cfg, OP_STORE_MEMBASE_REG, localloc_ins->dreg, SIZEOF_VOID_P, arg->dreg);
12939 ins = emit_extra_arg_calli (cfg, fsig, sp, localloc_ins->dreg, addr);
12940 ins->dreg = call->dreg;
12941 MONO_EMIT_NEW_BRANCH_BLOCK (cfg, OP_BR, end_bb);
12943 MONO_START_BB (cfg, end_bb);
12946 /* Same as CEE_CALLI */
12947 if (cfg->gsharedvt && mini_is_gsharedvt_signature (fsig)) {
12949 * We pass the address to the gsharedvt trampoline in the rgctx reg
12951 MonoInst *callee = addr;
12953 addr = emit_get_rgctx_sig (cfg, context_used,
12954 fsig, MONO_RGCTX_INFO_SIG_GSHAREDVT_OUT_TRAMPOLINE_CALLI);
12955 ins = (MonoInst*)mono_emit_calli (cfg, fsig, sp, addr, NULL, callee);
12957 ins = (MonoInst*)mono_emit_calli (cfg, fsig, sp, addr, NULL, NULL);
12961 if (!MONO_TYPE_IS_VOID (fsig->ret))
12962 *sp++ = mono_emit_widen_call_res (cfg, ins, fsig);
12964 CHECK_CFG_EXCEPTION;
12968 constrained_class = NULL;
12972 g_error ("opcode 0x%02x 0x%02x not handled", MONO_CUSTOM_PREFIX, ip [1]);
12978 case CEE_PREFIX1: {
12981 case CEE_ARGLIST: {
12982 /* somewhat similar to LDTOKEN */
12983 MonoInst *addr, *vtvar;
12984 CHECK_STACK_OVF (1);
12985 vtvar = mono_compile_create_var (cfg, &mono_defaults.argumenthandle_class->byval_arg, OP_LOCAL);
12987 EMIT_NEW_TEMPLOADA (cfg, addr, vtvar->inst_c0);
12988 EMIT_NEW_UNALU (cfg, ins, OP_ARGLIST, -1, addr->dreg);
12990 EMIT_NEW_TEMPLOAD (cfg, ins, vtvar->inst_c0);
12991 ins->type = STACK_VTYPE;
12992 ins->klass = mono_defaults.argumenthandle_class;
13002 MonoInst *cmp, *arg1, *arg2;
13010 * The following transforms:
13011 * CEE_CEQ into OP_CEQ
13012 * CEE_CGT into OP_CGT
13013 * CEE_CGT_UN into OP_CGT_UN
13014 * CEE_CLT into OP_CLT
13015 * CEE_CLT_UN into OP_CLT_UN
13017 MONO_INST_NEW (cfg, cmp, (OP_CEQ - CEE_CEQ) + ip [1]);
13019 MONO_INST_NEW (cfg, ins, cmp->opcode);
13020 cmp->sreg1 = arg1->dreg;
13021 cmp->sreg2 = arg2->dreg;
13022 type_from_op (cfg, cmp, arg1, arg2);
13024 add_widen_op (cfg, cmp, &arg1, &arg2);
13025 if ((arg1->type == STACK_I8) || ((SIZEOF_VOID_P == 8) && ((arg1->type == STACK_PTR) || (arg1->type == STACK_OBJ) || (arg1->type == STACK_MP))))
13026 cmp->opcode = OP_LCOMPARE;
13027 else if (arg1->type == STACK_R4)
13028 cmp->opcode = OP_RCOMPARE;
13029 else if (arg1->type == STACK_R8)
13030 cmp->opcode = OP_FCOMPARE;
13032 cmp->opcode = OP_ICOMPARE;
13033 MONO_ADD_INS (cfg->cbb, cmp);
13034 ins->type = STACK_I4;
13035 ins->dreg = alloc_dreg (cfg, (MonoStackType)ins->type);
13036 type_from_op (cfg, ins, arg1, arg2);
13038 if (cmp->opcode == OP_FCOMPARE || cmp->opcode == OP_RCOMPARE) {
13040 * The backends expect the fceq opcodes to do the
13043 ins->sreg1 = cmp->sreg1;
13044 ins->sreg2 = cmp->sreg2;
13047 MONO_ADD_INS (cfg->cbb, ins);
13053 MonoInst *argconst;
13054 MonoMethod *cil_method;
13056 CHECK_STACK_OVF (1);
13058 n = read32 (ip + 2);
13059 cmethod = mini_get_method (cfg, method, n, NULL, generic_context);
13062 mono_class_init (cmethod->klass);
13064 mono_save_token_info (cfg, image, n, cmethod);
13066 context_used = mini_method_check_context_used (cfg, cmethod);
13068 cil_method = cmethod;
13069 if (!dont_verify && !cfg->skip_visibility && !mono_method_can_access_method (method, cmethod))
13070 METHOD_ACCESS_FAILURE (method, cil_method);
13072 if (mono_security_core_clr_enabled ())
13073 ensure_method_is_allowed_to_call_method (cfg, method, cmethod);
13076 * Optimize the common case of ldftn+delegate creation
13078 if ((sp > stack_start) && (ip + 6 + 5 < end) && ip_in_bb (cfg, cfg->cbb, ip + 6) && (ip [6] == CEE_NEWOBJ)) {
13079 MonoMethod *ctor_method = mini_get_method (cfg, method, read32 (ip + 7), NULL, generic_context);
13080 if (ctor_method && (ctor_method->klass->parent == mono_defaults.multicastdelegate_class)) {
13081 MonoInst *target_ins, *handle_ins;
13082 MonoMethod *invoke;
13083 int invoke_context_used;
13085 invoke = mono_get_delegate_invoke (ctor_method->klass);
13086 if (!invoke || !mono_method_signature (invoke))
13089 invoke_context_used = mini_method_check_context_used (cfg, invoke);
13091 target_ins = sp [-1];
13093 if (mono_security_core_clr_enabled ())
13094 ensure_method_is_allowed_to_call_method (cfg, method, ctor_method);
13096 if (!(cmethod->flags & METHOD_ATTRIBUTE_STATIC)) {
13097 /*LAME IMPL: We must not add a null check for virtual invoke delegates.*/
13098 if (mono_method_signature (invoke)->param_count == mono_method_signature (cmethod)->param_count) {
13099 MONO_EMIT_NEW_BIALU_IMM (cfg, OP_COMPARE_IMM, -1, target_ins->dreg, 0);
13100 MONO_EMIT_NEW_COND_EXC (cfg, EQ, "ArgumentException");
13104 /* FIXME: SGEN support */
13105 if (invoke_context_used == 0 || cfg->llvm_only) {
13107 if (cfg->verbose_level > 3)
13108 g_print ("converting (in B%d: stack: %d) %s", cfg->cbb->block_num, (int)(sp - stack_start), mono_disasm_code_one (NULL, method, ip, NULL));
13109 if ((handle_ins = handle_delegate_ctor (cfg, ctor_method->klass, target_ins, cmethod, context_used, FALSE))) {
13112 CHECK_CFG_EXCEPTION;
13122 argconst = emit_get_rgctx_method (cfg, context_used, cmethod, MONO_RGCTX_INFO_METHOD);
13123 ins = mono_emit_jit_icall (cfg, mono_ldftn, &argconst);
13127 inline_costs += 10 * num_calls++;
13130 case CEE_LDVIRTFTN: {
13131 MonoInst *args [2];
13135 n = read32 (ip + 2);
13136 cmethod = mini_get_method (cfg, method, n, NULL, generic_context);
13139 mono_class_init (cmethod->klass);
13141 context_used = mini_method_check_context_used (cfg, cmethod);
13143 if (mono_security_core_clr_enabled ())
13144 ensure_method_is_allowed_to_call_method (cfg, method, cmethod);
13147 * Optimize the common case of ldvirtftn+delegate creation
13149 if ((sp > stack_start) && (ip + 6 + 5 < end) && ip_in_bb (cfg, cfg->cbb, ip + 6) && (ip [6] == CEE_NEWOBJ) && (ip > header->code && ip [-1] == CEE_DUP)) {
13150 MonoMethod *ctor_method = mini_get_method (cfg, method, read32 (ip + 7), NULL, generic_context);
13151 if (ctor_method && (ctor_method->klass->parent == mono_defaults.multicastdelegate_class)) {
13152 MonoInst *target_ins, *handle_ins;
13153 MonoMethod *invoke;
13154 int invoke_context_used;
13155 gboolean is_virtual = cmethod->flags & METHOD_ATTRIBUTE_VIRTUAL;
13157 invoke = mono_get_delegate_invoke (ctor_method->klass);
13158 if (!invoke || !mono_method_signature (invoke))
13161 invoke_context_used = mini_method_check_context_used (cfg, invoke);
13163 target_ins = sp [-1];
13165 if (mono_security_core_clr_enabled ())
13166 ensure_method_is_allowed_to_call_method (cfg, method, ctor_method);
13168 /* FIXME: SGEN support */
13169 if (invoke_context_used == 0 || cfg->llvm_only) {
13171 if (cfg->verbose_level > 3)
13172 g_print ("converting (in B%d: stack: %d) %s", cfg->cbb->block_num, (int)(sp - stack_start), mono_disasm_code_one (NULL, method, ip, NULL));
13173 if ((handle_ins = handle_delegate_ctor (cfg, ctor_method->klass, target_ins, cmethod, context_used, is_virtual))) {
13176 CHECK_CFG_EXCEPTION;
13189 args [1] = emit_get_rgctx_method (cfg, context_used,
13190 cmethod, MONO_RGCTX_INFO_METHOD);
13193 *sp++ = mono_emit_jit_icall (cfg, mono_ldvirtfn_gshared, args);
13195 *sp++ = mono_emit_jit_icall (cfg, mono_ldvirtfn, args);
13198 inline_costs += 10 * num_calls++;
13202 CHECK_STACK_OVF (1);
13204 n = read16 (ip + 2);
13206 EMIT_NEW_ARGLOAD (cfg, ins, n);
13211 CHECK_STACK_OVF (1);
13213 n = read16 (ip + 2);
13215 NEW_ARGLOADA (cfg, ins, n);
13216 MONO_ADD_INS (cfg->cbb, ins);
13224 n = read16 (ip + 2);
13226 if (!dont_verify_stloc && target_type_is_incompatible (cfg, param_types [n], *sp))
13228 EMIT_NEW_ARGSTORE (cfg, ins, n, *sp);
13232 CHECK_STACK_OVF (1);
13234 n = read16 (ip + 2);
13236 EMIT_NEW_LOCLOAD (cfg, ins, n);
13241 unsigned char *tmp_ip;
13242 CHECK_STACK_OVF (1);
13244 n = read16 (ip + 2);
13247 if ((tmp_ip = emit_optimized_ldloca_ir (cfg, ip, end, 2))) {
13253 EMIT_NEW_LOCLOADA (cfg, ins, n);
13262 n = read16 (ip + 2);
13264 if (!dont_verify_stloc && target_type_is_incompatible (cfg, header->locals [n], *sp))
13266 emit_stloc_ir (cfg, sp, header, n);
13273 if (sp != stack_start)
13275 if (cfg->method != method)
13277 * Inlining this into a loop in a parent could lead to
13278 * stack overflows which is different behavior than the
13279 * non-inlined case, thus disable inlining in this case.
13281 INLINE_FAILURE("localloc");
13283 MONO_INST_NEW (cfg, ins, OP_LOCALLOC);
13284 ins->dreg = alloc_preg (cfg);
13285 ins->sreg1 = sp [0]->dreg;
13286 ins->type = STACK_PTR;
13287 MONO_ADD_INS (cfg->cbb, ins);
13289 cfg->flags |= MONO_CFG_HAS_ALLOCA;
13291 ins->flags |= MONO_INST_INIT;
13296 case CEE_ENDFILTER: {
13297 MonoExceptionClause *clause, *nearest;
13302 if ((sp != stack_start) || (sp [0]->type != STACK_I4))
13304 MONO_INST_NEW (cfg, ins, OP_ENDFILTER);
13305 ins->sreg1 = (*sp)->dreg;
13306 MONO_ADD_INS (cfg->cbb, ins);
13307 start_new_bblock = 1;
13311 for (cc = 0; cc < header->num_clauses; ++cc) {
13312 clause = &header->clauses [cc];
13313 if ((clause->flags & MONO_EXCEPTION_CLAUSE_FILTER) &&
13314 ((ip - header->code) > clause->data.filter_offset && (ip - header->code) <= clause->handler_offset) &&
13315 (!nearest || (clause->data.filter_offset < nearest->data.filter_offset)))
13318 g_assert (nearest);
13319 if ((ip - header->code) != nearest->handler_offset)
13324 case CEE_UNALIGNED_:
13325 ins_flag |= MONO_INST_UNALIGNED;
13326 /* FIXME: record alignment? we can assume 1 for now */
13330 case CEE_VOLATILE_:
13331 ins_flag |= MONO_INST_VOLATILE;
13335 ins_flag |= MONO_INST_TAILCALL;
13336 cfg->flags |= MONO_CFG_HAS_TAIL;
13337 /* Can't inline tail calls at this time */
13338 inline_costs += 100000;
13345 token = read32 (ip + 2);
13346 klass = mini_get_class (method, token, generic_context);
13347 CHECK_TYPELOAD (klass);
13348 if (generic_class_is_reference_type (cfg, klass))
13349 MONO_EMIT_NEW_STORE_MEMBASE_IMM (cfg, OP_STORE_MEMBASE_IMM, sp [0]->dreg, 0, 0);
13351 mini_emit_initobj (cfg, *sp, NULL, klass);
13355 case CEE_CONSTRAINED_:
13357 token = read32 (ip + 2);
13358 constrained_class = mini_get_class (method, token, generic_context);
13359 CHECK_TYPELOAD (constrained_class);
13363 case CEE_INITBLK: {
13364 MonoInst *iargs [3];
13368 /* Skip optimized paths for volatile operations. */
13369 if ((ip [1] == CEE_CPBLK) && !(ins_flag & MONO_INST_VOLATILE) && (cfg->opt & MONO_OPT_INTRINS) && (sp [2]->opcode == OP_ICONST) && ((n = sp [2]->inst_c0) <= sizeof (gpointer) * 5)) {
13370 mini_emit_memcpy (cfg, sp [0]->dreg, 0, sp [1]->dreg, 0, sp [2]->inst_c0, 0);
13371 } else if ((ip [1] == CEE_INITBLK) && !(ins_flag & MONO_INST_VOLATILE) && (cfg->opt & MONO_OPT_INTRINS) && (sp [2]->opcode == OP_ICONST) && ((n = sp [2]->inst_c0) <= sizeof (gpointer) * 5) && (sp [1]->opcode == OP_ICONST) && (sp [1]->inst_c0 == 0)) {
13372 /* emit_memset only works when val == 0 */
13373 mini_emit_memset (cfg, sp [0]->dreg, 0, sp [2]->inst_c0, sp [1]->inst_c0, 0);
13376 iargs [0] = sp [0];
13377 iargs [1] = sp [1];
13378 iargs [2] = sp [2];
13379 if (ip [1] == CEE_CPBLK) {
13381 * FIXME: It's unclear whether we should be emitting both the acquire
13382 * and release barriers for cpblk. It is technically both a load and
13383 * store operation, so it seems like that's the sensible thing to do.
13385 * FIXME: We emit full barriers on both sides of the operation for
13386 * simplicity. We should have a separate atomic memcpy method instead.
13388 MonoMethod *memcpy_method = get_memcpy_method ();
13390 if (ins_flag & MONO_INST_VOLATILE)
13391 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_SEQ);
13393 call = mono_emit_method_call (cfg, memcpy_method, iargs, NULL);
13394 call->flags |= ins_flag;
13396 if (ins_flag & MONO_INST_VOLATILE)
13397 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_SEQ);
13399 MonoMethod *memset_method = get_memset_method ();
13400 if (ins_flag & MONO_INST_VOLATILE) {
13401 /* Volatile stores have release semantics, see 12.6.7 in Ecma 335 */
13402 emit_memory_barrier (cfg, MONO_MEMORY_BARRIER_REL);
13404 call = mono_emit_method_call (cfg, memset_method, iargs, NULL);
13405 call->flags |= ins_flag;
13416 ins_flag |= MONO_INST_NOTYPECHECK;
13418 ins_flag |= MONO_INST_NORANGECHECK;
13419 /* we ignore the no-nullcheck for now since we
13420 * really do it explicitly only when doing callvirt->call
13424 case CEE_RETHROW: {
13426 int handler_offset = -1;
13428 for (i = 0; i < header->num_clauses; ++i) {
13429 MonoExceptionClause *clause = &header->clauses [i];
13430 if (MONO_OFFSET_IN_HANDLER (clause, ip - header->code) && !(clause->flags & MONO_EXCEPTION_CLAUSE_FINALLY)) {
13431 handler_offset = clause->handler_offset;
13436 cfg->cbb->flags |= BB_EXCEPTION_UNSAFE;
13438 if (handler_offset == -1)
13441 EMIT_NEW_TEMPLOAD (cfg, load, mono_find_exvar_for_offset (cfg, handler_offset)->inst_c0);
13442 MONO_INST_NEW (cfg, ins, OP_RETHROW);
13443 ins->sreg1 = load->dreg;
13444 MONO_ADD_INS (cfg->cbb, ins);
13446 MONO_INST_NEW (cfg, ins, OP_NOT_REACHED);
13447 MONO_ADD_INS (cfg->cbb, ins);
13450 link_bblock (cfg, cfg->cbb, end_bblock);
13451 start_new_bblock = 1;
13459 CHECK_STACK_OVF (1);
13461 token = read32 (ip + 2);
13462 if (mono_metadata_token_table (token) == MONO_TABLE_TYPESPEC && !image_is_dynamic (method->klass->image) && !generic_context) {
13463 MonoType *type = mono_type_create_from_typespec_checked (image, token, &cfg->error);
13466 val = mono_type_size (type, &ialign);
13468 MonoClass *klass = mini_get_class (method, token, generic_context);
13469 CHECK_TYPELOAD (klass);
13471 val = mono_type_size (&klass->byval_arg, &ialign);
13473 if (mini_is_gsharedvt_klass (klass))
13474 GSHAREDVT_FAILURE (*ip);
13476 EMIT_NEW_ICONST (cfg, ins, val);
13481 case CEE_REFANYTYPE: {
13482 MonoInst *src_var, *src;
13484 GSHAREDVT_FAILURE (*ip);
13490 src_var = get_vreg_to_inst (cfg, sp [0]->dreg);
13492 src_var = mono_compile_create_var_for_vreg (cfg, &mono_defaults.typed_reference_class->byval_arg, OP_LOCAL, sp [0]->dreg);
13493 EMIT_NEW_VARLOADA (cfg, src, src_var, src_var->inst_vtype);
13494 EMIT_NEW_LOAD_MEMBASE_TYPE (cfg, ins, &mono_defaults.typehandle_class->byval_arg, src->dreg, MONO_STRUCT_OFFSET (MonoTypedRef, type));
13499 case CEE_READONLY_:
13512 g_warning ("opcode 0xfe 0x%02x not handled", ip [1]);
13522 g_warning ("opcode 0x%02x not handled", *ip);
13526 if (start_new_bblock != 1)
13529 cfg->cbb->cil_length = ip - cfg->cbb->cil_code;
13530 if (cfg->cbb->next_bb) {
13531 /* This could already be set because of inlining, #693905 */
13532 MonoBasicBlock *bb = cfg->cbb;
13534 while (bb->next_bb)
13536 bb->next_bb = end_bblock;
13538 cfg->cbb->next_bb = end_bblock;
13541 if (cfg->method == method && cfg->domainvar) {
13543 MonoInst *get_domain;
13545 cfg->cbb = init_localsbb;
13547 if ((get_domain = mono_get_domain_intrinsic (cfg))) {
13548 MONO_ADD_INS (cfg->cbb, get_domain);
13550 get_domain = mono_emit_jit_icall (cfg, mono_domain_get, NULL);
13552 NEW_TEMPSTORE (cfg, store, cfg->domainvar->inst_c0, get_domain);
13553 MONO_ADD_INS (cfg->cbb, store);
13556 #if defined(TARGET_POWERPC) || defined(TARGET_X86)
13557 if (cfg->compile_aot)
13558 /* FIXME: The plt slots require a GOT var even if the method doesn't use it */
13559 mono_get_got_var (cfg);
13562 if (cfg->method == method && cfg->got_var)
13563 mono_emit_load_got_addr (cfg);
13565 if (init_localsbb) {
13566 cfg->cbb = init_localsbb;
13568 for (i = 0; i < header->num_locals; ++i) {
13569 emit_init_local (cfg, i, header->locals [i], init_locals);
13573 if (cfg->init_ref_vars && cfg->method == method) {
13574 /* Emit initialization for ref vars */
13575 // FIXME: Avoid duplication initialization for IL locals.
13576 for (i = 0; i < cfg->num_varinfo; ++i) {
13577 MonoInst *ins = cfg->varinfo [i];
13579 if (ins->opcode == OP_LOCAL && ins->type == STACK_OBJ)
13580 MONO_EMIT_NEW_PCONST (cfg, ins->dreg, NULL);
13584 if (cfg->lmf_var && cfg->method == method && !cfg->llvm_only) {
13585 cfg->cbb = init_localsbb;
13586 emit_push_lmf (cfg);
13589 cfg->cbb = init_localsbb;
13590 emit_instrumentation_call (cfg, mono_profiler_method_enter);
13593 MonoBasicBlock *bb;
13596 * Make seq points at backward branch targets interruptable.
13598 for (bb = cfg->bb_entry; bb; bb = bb->next_bb)
13599 if (bb->code && bb->in_count > 1 && bb->code->opcode == OP_SEQ_POINT)
13600 bb->code->flags |= MONO_INST_SINGLE_STEP_LOC;
13603 /* Add a sequence point for method entry/exit events */
13604 if (seq_points && cfg->gen_sdb_seq_points) {
13605 NEW_SEQ_POINT (cfg, ins, METHOD_ENTRY_IL_OFFSET, FALSE);
13606 MONO_ADD_INS (init_localsbb, ins);
13607 NEW_SEQ_POINT (cfg, ins, METHOD_EXIT_IL_OFFSET, FALSE);
13608 MONO_ADD_INS (cfg->bb_exit, ins);
13612 * Add seq points for IL offsets which have line number info, but wasn't generated a seq point during JITting because
13613 * the code they refer to was dead (#11880).
13615 if (sym_seq_points) {
13616 for (i = 0; i < header->code_size; ++i) {
13617 if (mono_bitset_test_fast (seq_point_locs, i) && !mono_bitset_test_fast (seq_point_set_locs, i)) {
13620 NEW_SEQ_POINT (cfg, ins, i, FALSE);
13621 mono_add_seq_point (cfg, NULL, ins, SEQ_POINT_NATIVE_OFFSET_DEAD_CODE);
13628 if (cfg->method == method) {
13629 MonoBasicBlock *bb;
13630 for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
13631 bb->region = mono_find_block_region (cfg, bb->real_offset);
13633 mono_create_spvar_for_region (cfg, bb->region);
13634 if (cfg->verbose_level > 2)
13635 printf ("REGION BB%d IL_%04x ID_%08X\n", bb->block_num, bb->real_offset, bb->region);
13639 if (inline_costs < 0) {
13642 /* Method is too large */
13643 mname = mono_method_full_name (method, TRUE);
13644 mono_cfg_set_exception_invalid_program (cfg, g_strdup_printf ("Method %s is too complex.", mname));
13648 if ((cfg->verbose_level > 2) && (cfg->method == method))
13649 mono_print_code (cfg, "AFTER METHOD-TO-IR");
13654 g_assert (!mono_error_ok (&cfg->error));
13658 g_assert (cfg->exception_type != MONO_EXCEPTION_NONE);
13662 set_exception_type_from_invalid_il (cfg, method, ip);
13666 g_slist_free (class_inits);
13667 mono_basic_block_free (original_bb);
13668 cfg->dont_inline = g_list_remove (cfg->dont_inline, method);
13669 cfg->headers_to_free = g_slist_prepend_mempool (cfg->mempool, cfg->headers_to_free, header);
13670 if (cfg->exception_type)
13673 return inline_costs;
13677 store_membase_reg_to_store_membase_imm (int opcode)
13680 case OP_STORE_MEMBASE_REG:
13681 return OP_STORE_MEMBASE_IMM;
13682 case OP_STOREI1_MEMBASE_REG:
13683 return OP_STOREI1_MEMBASE_IMM;
13684 case OP_STOREI2_MEMBASE_REG:
13685 return OP_STOREI2_MEMBASE_IMM;
13686 case OP_STOREI4_MEMBASE_REG:
13687 return OP_STOREI4_MEMBASE_IMM;
13688 case OP_STOREI8_MEMBASE_REG:
13689 return OP_STOREI8_MEMBASE_IMM;
13691 g_assert_not_reached ();
13698 mono_op_to_op_imm (int opcode)
13702 return OP_IADD_IMM;
13704 return OP_ISUB_IMM;
13706 return OP_IDIV_IMM;
13708 return OP_IDIV_UN_IMM;
13710 return OP_IREM_IMM;
13712 return OP_IREM_UN_IMM;
13714 return OP_IMUL_IMM;
13716 return OP_IAND_IMM;
13720 return OP_IXOR_IMM;
13722 return OP_ISHL_IMM;
13724 return OP_ISHR_IMM;
13726 return OP_ISHR_UN_IMM;
13729 return OP_LADD_IMM;
13731 return OP_LSUB_IMM;
13733 return OP_LAND_IMM;
13737 return OP_LXOR_IMM;
13739 return OP_LSHL_IMM;
13741 return OP_LSHR_IMM;
13743 return OP_LSHR_UN_IMM;
13744 #if SIZEOF_REGISTER == 8
13746 return OP_LREM_IMM;
13750 return OP_COMPARE_IMM;
13752 return OP_ICOMPARE_IMM;
13754 return OP_LCOMPARE_IMM;
13756 case OP_STORE_MEMBASE_REG:
13757 return OP_STORE_MEMBASE_IMM;
13758 case OP_STOREI1_MEMBASE_REG:
13759 return OP_STOREI1_MEMBASE_IMM;
13760 case OP_STOREI2_MEMBASE_REG:
13761 return OP_STOREI2_MEMBASE_IMM;
13762 case OP_STOREI4_MEMBASE_REG:
13763 return OP_STOREI4_MEMBASE_IMM;
13765 #if defined(TARGET_X86) || defined (TARGET_AMD64)
13767 return OP_X86_PUSH_IMM;
13768 case OP_X86_COMPARE_MEMBASE_REG:
13769 return OP_X86_COMPARE_MEMBASE_IMM;
13771 #if defined(TARGET_AMD64)
13772 case OP_AMD64_ICOMPARE_MEMBASE_REG:
13773 return OP_AMD64_ICOMPARE_MEMBASE_IMM;
13775 case OP_VOIDCALL_REG:
13776 return OP_VOIDCALL;
13784 return OP_LOCALLOC_IMM;
13791 ldind_to_load_membase (int opcode)
13795 return OP_LOADI1_MEMBASE;
13797 return OP_LOADU1_MEMBASE;
13799 return OP_LOADI2_MEMBASE;
13801 return OP_LOADU2_MEMBASE;
13803 return OP_LOADI4_MEMBASE;
13805 return OP_LOADU4_MEMBASE;
13807 return OP_LOAD_MEMBASE;
13808 case CEE_LDIND_REF:
13809 return OP_LOAD_MEMBASE;
13811 return OP_LOADI8_MEMBASE;
13813 return OP_LOADR4_MEMBASE;
13815 return OP_LOADR8_MEMBASE;
13817 g_assert_not_reached ();
13824 stind_to_store_membase (int opcode)
13828 return OP_STOREI1_MEMBASE_REG;
13830 return OP_STOREI2_MEMBASE_REG;
13832 return OP_STOREI4_MEMBASE_REG;
13834 case CEE_STIND_REF:
13835 return OP_STORE_MEMBASE_REG;
13837 return OP_STOREI8_MEMBASE_REG;
13839 return OP_STORER4_MEMBASE_REG;
13841 return OP_STORER8_MEMBASE_REG;
13843 g_assert_not_reached ();
13850 mono_load_membase_to_load_mem (int opcode)
13852 // FIXME: Add a MONO_ARCH_HAVE_LOAD_MEM macro
13853 #if defined(TARGET_X86) || defined(TARGET_AMD64)
13855 case OP_LOAD_MEMBASE:
13856 return OP_LOAD_MEM;
13857 case OP_LOADU1_MEMBASE:
13858 return OP_LOADU1_MEM;
13859 case OP_LOADU2_MEMBASE:
13860 return OP_LOADU2_MEM;
13861 case OP_LOADI4_MEMBASE:
13862 return OP_LOADI4_MEM;
13863 case OP_LOADU4_MEMBASE:
13864 return OP_LOADU4_MEM;
13865 #if SIZEOF_REGISTER == 8
13866 case OP_LOADI8_MEMBASE:
13867 return OP_LOADI8_MEM;
13876 op_to_op_dest_membase (int store_opcode, int opcode)
13878 #if defined(TARGET_X86)
13879 if (!((store_opcode == OP_STORE_MEMBASE_REG) || (store_opcode == OP_STOREI4_MEMBASE_REG)))
13884 return OP_X86_ADD_MEMBASE_REG;
13886 return OP_X86_SUB_MEMBASE_REG;
13888 return OP_X86_AND_MEMBASE_REG;
13890 return OP_X86_OR_MEMBASE_REG;
13892 return OP_X86_XOR_MEMBASE_REG;
13895 return OP_X86_ADD_MEMBASE_IMM;
13898 return OP_X86_SUB_MEMBASE_IMM;
13901 return OP_X86_AND_MEMBASE_IMM;
13904 return OP_X86_OR_MEMBASE_IMM;
13907 return OP_X86_XOR_MEMBASE_IMM;
13913 #if defined(TARGET_AMD64)
13914 if (!((store_opcode == OP_STORE_MEMBASE_REG) || (store_opcode == OP_STOREI4_MEMBASE_REG) || (store_opcode == OP_STOREI8_MEMBASE_REG)))
13919 return OP_X86_ADD_MEMBASE_REG;
13921 return OP_X86_SUB_MEMBASE_REG;
13923 return OP_X86_AND_MEMBASE_REG;
13925 return OP_X86_OR_MEMBASE_REG;
13927 return OP_X86_XOR_MEMBASE_REG;
13929 return OP_X86_ADD_MEMBASE_IMM;
13931 return OP_X86_SUB_MEMBASE_IMM;
13933 return OP_X86_AND_MEMBASE_IMM;
13935 return OP_X86_OR_MEMBASE_IMM;
13937 return OP_X86_XOR_MEMBASE_IMM;
13939 return OP_AMD64_ADD_MEMBASE_REG;
13941 return OP_AMD64_SUB_MEMBASE_REG;
13943 return OP_AMD64_AND_MEMBASE_REG;
13945 return OP_AMD64_OR_MEMBASE_REG;
13947 return OP_AMD64_XOR_MEMBASE_REG;
13950 return OP_AMD64_ADD_MEMBASE_IMM;
13953 return OP_AMD64_SUB_MEMBASE_IMM;
13956 return OP_AMD64_AND_MEMBASE_IMM;
13959 return OP_AMD64_OR_MEMBASE_IMM;
13962 return OP_AMD64_XOR_MEMBASE_IMM;
13972 op_to_op_store_membase (int store_opcode, int opcode)
13974 #if defined(TARGET_X86) || defined(TARGET_AMD64)
13977 if (store_opcode == OP_STOREI1_MEMBASE_REG)
13978 return OP_X86_SETEQ_MEMBASE;
13980 if (store_opcode == OP_STOREI1_MEMBASE_REG)
13981 return OP_X86_SETNE_MEMBASE;
13989 op_to_op_src1_membase (MonoCompile *cfg, int load_opcode, int opcode)
13992 /* FIXME: This has sign extension issues */
13994 if ((opcode == OP_ICOMPARE_IMM) && (load_opcode == OP_LOADU1_MEMBASE))
13995 return OP_X86_COMPARE_MEMBASE8_IMM;
13998 if (!((load_opcode == OP_LOAD_MEMBASE) || (load_opcode == OP_LOADI4_MEMBASE) || (load_opcode == OP_LOADU4_MEMBASE)))
14003 return OP_X86_PUSH_MEMBASE;
14004 case OP_COMPARE_IMM:
14005 case OP_ICOMPARE_IMM:
14006 return OP_X86_COMPARE_MEMBASE_IMM;
14009 return OP_X86_COMPARE_MEMBASE_REG;
14013 #ifdef TARGET_AMD64
14014 /* FIXME: This has sign extension issues */
14016 if ((opcode == OP_ICOMPARE_IMM) && (load_opcode == OP_LOADU1_MEMBASE))
14017 return OP_X86_COMPARE_MEMBASE8_IMM;
14022 if ((load_opcode == OP_LOAD_MEMBASE && !cfg->backend->ilp32) || (load_opcode == OP_LOADI8_MEMBASE))
14023 return OP_X86_PUSH_MEMBASE;
14025 /* FIXME: This only works for 32 bit immediates
14026 case OP_COMPARE_IMM:
14027 case OP_LCOMPARE_IMM:
14028 if ((load_opcode == OP_LOAD_MEMBASE) || (load_opcode == OP_LOADI8_MEMBASE))
14029 return OP_AMD64_COMPARE_MEMBASE_IMM;
14031 case OP_ICOMPARE_IMM:
14032 if ((load_opcode == OP_LOADI4_MEMBASE) || (load_opcode == OP_LOADU4_MEMBASE))
14033 return OP_AMD64_ICOMPARE_MEMBASE_IMM;
14037 if (cfg->backend->ilp32 && load_opcode == OP_LOAD_MEMBASE)
14038 return OP_AMD64_ICOMPARE_MEMBASE_REG;
14039 if ((load_opcode == OP_LOAD_MEMBASE && !cfg->backend->ilp32) || (load_opcode == OP_LOADI8_MEMBASE))
14040 return OP_AMD64_COMPARE_MEMBASE_REG;
14043 if ((load_opcode == OP_LOADI4_MEMBASE) || (load_opcode == OP_LOADU4_MEMBASE))
14044 return OP_AMD64_ICOMPARE_MEMBASE_REG;
14053 op_to_op_src2_membase (MonoCompile *cfg, int load_opcode, int opcode)
14056 if (!((load_opcode == OP_LOAD_MEMBASE) || (load_opcode == OP_LOADI4_MEMBASE) || (load_opcode == OP_LOADU4_MEMBASE)))
14062 return OP_X86_COMPARE_REG_MEMBASE;
14064 return OP_X86_ADD_REG_MEMBASE;
14066 return OP_X86_SUB_REG_MEMBASE;
14068 return OP_X86_AND_REG_MEMBASE;
14070 return OP_X86_OR_REG_MEMBASE;
14072 return OP_X86_XOR_REG_MEMBASE;
14076 #ifdef TARGET_AMD64
14077 if ((load_opcode == OP_LOADI4_MEMBASE) || (load_opcode == OP_LOADU4_MEMBASE) || (load_opcode == OP_LOAD_MEMBASE && cfg->backend->ilp32)) {
14080 return OP_AMD64_ICOMPARE_REG_MEMBASE;
14082 return OP_X86_ADD_REG_MEMBASE;
14084 return OP_X86_SUB_REG_MEMBASE;
14086 return OP_X86_AND_REG_MEMBASE;
14088 return OP_X86_OR_REG_MEMBASE;
14090 return OP_X86_XOR_REG_MEMBASE;
14092 } else if ((load_opcode == OP_LOADI8_MEMBASE) || (load_opcode == OP_LOAD_MEMBASE && !cfg->backend->ilp32)) {
14096 return OP_AMD64_COMPARE_REG_MEMBASE;
14098 return OP_AMD64_ADD_REG_MEMBASE;
14100 return OP_AMD64_SUB_REG_MEMBASE;
14102 return OP_AMD64_AND_REG_MEMBASE;
14104 return OP_AMD64_OR_REG_MEMBASE;
14106 return OP_AMD64_XOR_REG_MEMBASE;
14115 mono_op_to_op_imm_noemul (int opcode)
14118 #if SIZEOF_REGISTER == 4 && !defined(MONO_ARCH_NO_EMULATE_LONG_SHIFT_OPS)
14124 #if defined(MONO_ARCH_EMULATE_MUL_DIV) || defined(MONO_ARCH_EMULATE_DIV)
14131 #if defined(MONO_ARCH_EMULATE_MUL_DIV)
14136 return mono_op_to_op_imm (opcode);
14141 * mono_handle_global_vregs:
14143 * Make vregs used in more than one bblock 'global', i.e. allocate a variable
14147 mono_handle_global_vregs (MonoCompile *cfg)
14149 gint32 *vreg_to_bb;
14150 MonoBasicBlock *bb;
14153 vreg_to_bb = (gint32 *)mono_mempool_alloc0 (cfg->mempool, sizeof (gint32*) * cfg->next_vreg + 1);
14155 #ifdef MONO_ARCH_SIMD_INTRINSICS
14156 if (cfg->uses_simd_intrinsics)
14157 mono_simd_simplify_indirection (cfg);
14160 /* Find local vregs used in more than one bb */
14161 for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
14162 MonoInst *ins = bb->code;
14163 int block_num = bb->block_num;
14165 if (cfg->verbose_level > 2)
14166 printf ("\nHANDLE-GLOBAL-VREGS BLOCK %d:\n", bb->block_num);
14169 for (; ins; ins = ins->next) {
14170 const char *spec = INS_INFO (ins->opcode);
14171 int regtype = 0, regindex;
14174 if (G_UNLIKELY (cfg->verbose_level > 2))
14175 mono_print_ins (ins);
14177 g_assert (ins->opcode >= MONO_CEE_LAST);
14179 for (regindex = 0; regindex < 4; regindex ++) {
14182 if (regindex == 0) {
14183 regtype = spec [MONO_INST_DEST];
14184 if (regtype == ' ')
14187 } else if (regindex == 1) {
14188 regtype = spec [MONO_INST_SRC1];
14189 if (regtype == ' ')
14192 } else if (regindex == 2) {
14193 regtype = spec [MONO_INST_SRC2];
14194 if (regtype == ' ')
14197 } else if (regindex == 3) {
14198 regtype = spec [MONO_INST_SRC3];
14199 if (regtype == ' ')
14204 #if SIZEOF_REGISTER == 4
14205 /* In the LLVM case, the long opcodes are not decomposed */
14206 if (regtype == 'l' && !COMPILE_LLVM (cfg)) {
14208 * Since some instructions reference the original long vreg,
14209 * and some reference the two component vregs, it is quite hard
14210 * to determine when it needs to be global. So be conservative.
14212 if (!get_vreg_to_inst (cfg, vreg)) {
14213 mono_compile_create_var_for_vreg (cfg, &mono_defaults.int64_class->byval_arg, OP_LOCAL, vreg);
14215 if (cfg->verbose_level > 2)
14216 printf ("LONG VREG R%d made global.\n", vreg);
14220 * Make the component vregs volatile since the optimizations can
14221 * get confused otherwise.
14223 get_vreg_to_inst (cfg, MONO_LVREG_LS (vreg))->flags |= MONO_INST_VOLATILE;
14224 get_vreg_to_inst (cfg, MONO_LVREG_MS (vreg))->flags |= MONO_INST_VOLATILE;
14228 g_assert (vreg != -1);
14230 prev_bb = vreg_to_bb [vreg];
14231 if (prev_bb == 0) {
14232 /* 0 is a valid block num */
14233 vreg_to_bb [vreg] = block_num + 1;
14234 } else if ((prev_bb != block_num + 1) && (prev_bb != -1)) {
14235 if (((regtype == 'i' && (vreg < MONO_MAX_IREGS))) || (regtype == 'f' && (vreg < MONO_MAX_FREGS)))
14238 if (!get_vreg_to_inst (cfg, vreg)) {
14239 if (G_UNLIKELY (cfg->verbose_level > 2))
14240 printf ("VREG R%d used in BB%d and BB%d made global.\n", vreg, vreg_to_bb [vreg], block_num);
14244 if (vreg_is_ref (cfg, vreg))
14245 mono_compile_create_var_for_vreg (cfg, &mono_defaults.object_class->byval_arg, OP_LOCAL, vreg);
14247 mono_compile_create_var_for_vreg (cfg, &mono_defaults.int_class->byval_arg, OP_LOCAL, vreg);
14250 mono_compile_create_var_for_vreg (cfg, &mono_defaults.int64_class->byval_arg, OP_LOCAL, vreg);
14253 mono_compile_create_var_for_vreg (cfg, &mono_defaults.double_class->byval_arg, OP_LOCAL, vreg);
14256 mono_compile_create_var_for_vreg (cfg, &ins->klass->byval_arg, OP_LOCAL, vreg);
14259 g_assert_not_reached ();
14263 /* Flag as having been used in more than one bb */
14264 vreg_to_bb [vreg] = -1;
14270 /* If a variable is used in only one bblock, convert it into a local vreg */
14271 for (i = 0; i < cfg->num_varinfo; i++) {
14272 MonoInst *var = cfg->varinfo [i];
14273 MonoMethodVar *vmv = MONO_VARINFO (cfg, i);
14275 switch (var->type) {
14281 #if SIZEOF_REGISTER == 8
14284 #if !defined(TARGET_X86)
14285 /* Enabling this screws up the fp stack on x86 */
14288 if (mono_arch_is_soft_float ())
14292 if (var->type == STACK_VTYPE && cfg->gsharedvt && mini_is_gsharedvt_variable_type (var->inst_vtype))
14296 /* Arguments are implicitly global */
14297 /* Putting R4 vars into registers doesn't work currently */
14298 /* The gsharedvt vars are implicitly referenced by ldaddr opcodes, but those opcodes are only generated later */
14299 if ((var->opcode != OP_ARG) && (var != cfg->ret) && !(var->flags & (MONO_INST_VOLATILE|MONO_INST_INDIRECT)) && (vreg_to_bb [var->dreg] != -1) && (var->klass->byval_arg.type != MONO_TYPE_R4) && !cfg->disable_vreg_to_lvreg && var != cfg->gsharedvt_info_var && var != cfg->gsharedvt_locals_var && var != cfg->lmf_addr_var) {
14301 * Make that the variable's liveness interval doesn't contain a call, since
14302 * that would cause the lvreg to be spilled, making the whole optimization
14305 /* This is too slow for JIT compilation */
14307 if (cfg->compile_aot && vreg_to_bb [var->dreg]) {
14309 int def_index, call_index, ins_index;
14310 gboolean spilled = FALSE;
14315 for (ins = vreg_to_bb [var->dreg]->code; ins; ins = ins->next) {
14316 const char *spec = INS_INFO (ins->opcode);
14318 if ((spec [MONO_INST_DEST] != ' ') && (ins->dreg == var->dreg))
14319 def_index = ins_index;
14321 if (((spec [MONO_INST_SRC1] != ' ') && (ins->sreg1 == var->dreg)) ||
14322 ((spec [MONO_INST_SRC1] != ' ') && (ins->sreg1 == var->dreg))) {
14323 if (call_index > def_index) {
14329 if (MONO_IS_CALL (ins))
14330 call_index = ins_index;
14340 if (G_UNLIKELY (cfg->verbose_level > 2))
14341 printf ("CONVERTED R%d(%d) TO VREG.\n", var->dreg, vmv->idx);
14342 var->flags |= MONO_INST_IS_DEAD;
14343 cfg->vreg_to_inst [var->dreg] = NULL;
14350 * Compress the varinfo and vars tables so the liveness computation is faster and
14351 * takes up less space.
14354 for (i = 0; i < cfg->num_varinfo; ++i) {
14355 MonoInst *var = cfg->varinfo [i];
14356 if (pos < i && cfg->locals_start == i)
14357 cfg->locals_start = pos;
14358 if (!(var->flags & MONO_INST_IS_DEAD)) {
14360 cfg->varinfo [pos] = cfg->varinfo [i];
14361 cfg->varinfo [pos]->inst_c0 = pos;
14362 memcpy (&cfg->vars [pos], &cfg->vars [i], sizeof (MonoMethodVar));
14363 cfg->vars [pos].idx = pos;
14364 #if SIZEOF_REGISTER == 4
14365 if (cfg->varinfo [pos]->type == STACK_I8) {
14366 /* Modify the two component vars too */
14369 var1 = get_vreg_to_inst (cfg, MONO_LVREG_LS (cfg->varinfo [pos]->dreg));
14370 var1->inst_c0 = pos;
14371 var1 = get_vreg_to_inst (cfg, MONO_LVREG_MS (cfg->varinfo [pos]->dreg));
14372 var1->inst_c0 = pos;
14379 cfg->num_varinfo = pos;
14380 if (cfg->locals_start > cfg->num_varinfo)
14381 cfg->locals_start = cfg->num_varinfo;
14385 * mono_allocate_gsharedvt_vars:
14387 * Allocate variables with gsharedvt types to entries in the MonoGSharedVtMethodRuntimeInfo.entries array.
14388 * Initialize cfg->gsharedvt_vreg_to_idx with the mapping between vregs and indexes.
14391 mono_allocate_gsharedvt_vars (MonoCompile *cfg)
14395 cfg->gsharedvt_vreg_to_idx = (int *)mono_mempool_alloc0 (cfg->mempool, sizeof (int) * cfg->next_vreg);
14397 for (i = 0; i < cfg->num_varinfo; ++i) {
14398 MonoInst *ins = cfg->varinfo [i];
14401 if (mini_is_gsharedvt_variable_type (ins->inst_vtype)) {
14402 if (i >= cfg->locals_start) {
14404 idx = get_gsharedvt_info_slot (cfg, ins->inst_vtype, MONO_RGCTX_INFO_LOCAL_OFFSET);
14405 cfg->gsharedvt_vreg_to_idx [ins->dreg] = idx + 1;
14406 ins->opcode = OP_GSHAREDVT_LOCAL;
14407 ins->inst_imm = idx;
14410 cfg->gsharedvt_vreg_to_idx [ins->dreg] = -1;
14411 ins->opcode = OP_GSHAREDVT_ARG_REGOFFSET;
14418 * mono_spill_global_vars:
14420 * Generate spill code for variables which are not allocated to registers,
14421 * and replace vregs with their allocated hregs. *need_local_opts is set to TRUE if
14422 * code is generated which could be optimized by the local optimization passes.
14425 mono_spill_global_vars (MonoCompile *cfg, gboolean *need_local_opts)
14427 MonoBasicBlock *bb;
14429 int orig_next_vreg;
14430 guint32 *vreg_to_lvreg;
14432 guint32 i, lvregs_len;
14433 gboolean dest_has_lvreg = FALSE;
14434 MonoStackType stacktypes [128];
14435 MonoInst **live_range_start, **live_range_end;
14436 MonoBasicBlock **live_range_start_bb, **live_range_end_bb;
14438 *need_local_opts = FALSE;
14440 memset (spec2, 0, sizeof (spec2));
14442 /* FIXME: Move this function to mini.c */
14443 stacktypes ['i'] = STACK_PTR;
14444 stacktypes ['l'] = STACK_I8;
14445 stacktypes ['f'] = STACK_R8;
14446 #ifdef MONO_ARCH_SIMD_INTRINSICS
14447 stacktypes ['x'] = STACK_VTYPE;
14450 #if SIZEOF_REGISTER == 4
14451 /* Create MonoInsts for longs */
14452 for (i = 0; i < cfg->num_varinfo; i++) {
14453 MonoInst *ins = cfg->varinfo [i];
14455 if ((ins->opcode != OP_REGVAR) && !(ins->flags & MONO_INST_IS_DEAD)) {
14456 switch (ins->type) {
14461 if (ins->type == STACK_R8 && !COMPILE_SOFT_FLOAT (cfg))
14464 g_assert (ins->opcode == OP_REGOFFSET);
14466 tree = get_vreg_to_inst (cfg, MONO_LVREG_LS (ins->dreg));
14468 tree->opcode = OP_REGOFFSET;
14469 tree->inst_basereg = ins->inst_basereg;
14470 tree->inst_offset = ins->inst_offset + MINI_LS_WORD_OFFSET;
14472 tree = get_vreg_to_inst (cfg, MONO_LVREG_MS (ins->dreg));
14474 tree->opcode = OP_REGOFFSET;
14475 tree->inst_basereg = ins->inst_basereg;
14476 tree->inst_offset = ins->inst_offset + MINI_MS_WORD_OFFSET;
14486 if (cfg->compute_gc_maps) {
14487 /* registers need liveness info even for !non refs */
14488 for (i = 0; i < cfg->num_varinfo; i++) {
14489 MonoInst *ins = cfg->varinfo [i];
14491 if (ins->opcode == OP_REGVAR)
14492 ins->flags |= MONO_INST_GC_TRACK;
14496 /* FIXME: widening and truncation */
14499 * As an optimization, when a variable allocated to the stack is first loaded into
14500 * an lvreg, we will remember the lvreg and use it the next time instead of loading
14501 * the variable again.
14503 orig_next_vreg = cfg->next_vreg;
14504 vreg_to_lvreg = (guint32 *)mono_mempool_alloc0 (cfg->mempool, sizeof (guint32) * cfg->next_vreg);
14505 lvregs = (guint32 *)mono_mempool_alloc (cfg->mempool, sizeof (guint32) * 1024);
14509 * These arrays contain the first and last instructions accessing a given
14511 * Since we emit bblocks in the same order we process them here, and we
14512 * don't split live ranges, these will precisely describe the live range of
14513 * the variable, i.e. the instruction range where a valid value can be found
14514 * in the variables location.
14515 * The live range is computed using the liveness info computed by the liveness pass.
14516 * We can't use vmv->range, since that is an abstract live range, and we need
14517 * one which is instruction precise.
14518 * FIXME: Variables used in out-of-line bblocks have a hole in their live range.
14520 /* FIXME: Only do this if debugging info is requested */
14521 live_range_start = g_new0 (MonoInst*, cfg->next_vreg);
14522 live_range_end = g_new0 (MonoInst*, cfg->next_vreg);
14523 live_range_start_bb = g_new (MonoBasicBlock*, cfg->next_vreg);
14524 live_range_end_bb = g_new (MonoBasicBlock*, cfg->next_vreg);
14526 /* Add spill loads/stores */
14527 for (bb = cfg->bb_entry; bb; bb = bb->next_bb) {
14530 if (cfg->verbose_level > 2)
14531 printf ("\nSPILL BLOCK %d:\n", bb->block_num);
14533 /* Clear vreg_to_lvreg array */
14534 for (i = 0; i < lvregs_len; i++)
14535 vreg_to_lvreg [lvregs [i]] = 0;
14539 MONO_BB_FOR_EACH_INS (bb, ins) {
14540 const char *spec = INS_INFO (ins->opcode);
14541 int regtype, srcindex, sreg, tmp_reg, prev_dreg, num_sregs;
14542 gboolean store, no_lvreg;
14543 int sregs [MONO_MAX_SRC_REGS];
14545 if (G_UNLIKELY (cfg->verbose_level > 2))
14546 mono_print_ins (ins);
14548 if (ins->opcode == OP_NOP)
14552 * We handle LDADDR here as well, since it can only be decomposed
14553 * when variable addresses are known.
14555 if (ins->opcode == OP_LDADDR) {
14556 MonoInst *var = (MonoInst *)ins->inst_p0;
14558 if (var->opcode == OP_VTARG_ADDR) {
14559 /* Happens on SPARC/S390 where vtypes are passed by reference */
14560 MonoInst *vtaddr = var->inst_left;
14561 if (vtaddr->opcode == OP_REGVAR) {
14562 ins->opcode = OP_MOVE;
14563 ins->sreg1 = vtaddr->dreg;
14565 else if (var->inst_left->opcode == OP_REGOFFSET) {
14566 ins->opcode = OP_LOAD_MEMBASE;
14567 ins->inst_basereg = vtaddr->inst_basereg;
14568 ins->inst_offset = vtaddr->inst_offset;
14571 } else if (cfg->gsharedvt && cfg->gsharedvt_vreg_to_idx [var->dreg] < 0) {
14572 /* gsharedvt arg passed by ref */
14573 g_assert (var->opcode == OP_GSHAREDVT_ARG_REGOFFSET);
14575 ins->opcode = OP_LOAD_MEMBASE;
14576 ins->inst_basereg = var->inst_basereg;
14577 ins->inst_offset = var->inst_offset;
14578 } else if (cfg->gsharedvt && cfg->gsharedvt_vreg_to_idx [var->dreg]) {
14579 MonoInst *load, *load2, *load3;
14580 int idx = cfg->gsharedvt_vreg_to_idx [var->dreg] - 1;
14581 int reg1, reg2, reg3;
14582 MonoInst *info_var = cfg->gsharedvt_info_var;
14583 MonoInst *locals_var = cfg->gsharedvt_locals_var;
14587 * Compute the address of the local as gsharedvt_locals_var + gsharedvt_info_var->locals_offsets [idx].
14590 g_assert (var->opcode == OP_GSHAREDVT_LOCAL);
14592 g_assert (info_var);
14593 g_assert (locals_var);
14595 /* Mark the instruction used to compute the locals var as used */
14596 cfg->gsharedvt_locals_var_ins = NULL;
14598 /* Load the offset */
14599 if (info_var->opcode == OP_REGOFFSET) {
14600 reg1 = alloc_ireg (cfg);
14601 NEW_LOAD_MEMBASE (cfg, load, OP_LOAD_MEMBASE, reg1, info_var->inst_basereg, info_var->inst_offset);
14602 } else if (info_var->opcode == OP_REGVAR) {
14604 reg1 = info_var->dreg;
14606 g_assert_not_reached ();
14608 reg2 = alloc_ireg (cfg);
14609 NEW_LOAD_MEMBASE (cfg, load2, OP_LOADI4_MEMBASE, reg2, reg1, MONO_STRUCT_OFFSET (MonoGSharedVtMethodRuntimeInfo, entries) + (idx * sizeof (gpointer)));
14610 /* Load the locals area address */
14611 reg3 = alloc_ireg (cfg);
14612 if (locals_var->opcode == OP_REGOFFSET) {
14613 NEW_LOAD_MEMBASE (cfg, load3, OP_LOAD_MEMBASE, reg3, locals_var->inst_basereg, locals_var->inst_offset);
14614 } else if (locals_var->opcode == OP_REGVAR) {
14615 NEW_UNALU (cfg, load3, OP_MOVE, reg3, locals_var->dreg);
14617 g_assert_not_reached ();
14619 /* Compute the address */
14620 ins->opcode = OP_PADD;
14624 mono_bblock_insert_before_ins (bb, ins, load3);
14625 mono_bblock_insert_before_ins (bb, load3, load2);
14627 mono_bblock_insert_before_ins (bb, load2, load);
14629 g_assert (var->opcode == OP_REGOFFSET);
14631 ins->opcode = OP_ADD_IMM;
14632 ins->sreg1 = var->inst_basereg;
14633 ins->inst_imm = var->inst_offset;
14636 *need_local_opts = TRUE;
14637 spec = INS_INFO (ins->opcode);
14640 if (ins->opcode < MONO_CEE_LAST) {
14641 mono_print_ins (ins);
14642 g_assert_not_reached ();
14646 * Store opcodes have destbasereg in the dreg, but in reality, it is an
14650 if (MONO_IS_STORE_MEMBASE (ins)) {
14651 tmp_reg = ins->dreg;
14652 ins->dreg = ins->sreg2;
14653 ins->sreg2 = tmp_reg;
14656 spec2 [MONO_INST_DEST] = ' ';
14657 spec2 [MONO_INST_SRC1] = spec [MONO_INST_SRC1];
14658 spec2 [MONO_INST_SRC2] = spec [MONO_INST_DEST];
14659 spec2 [MONO_INST_SRC3] = ' ';
14661 } else if (MONO_IS_STORE_MEMINDEX (ins))
14662 g_assert_not_reached ();
14667 if (G_UNLIKELY (cfg->verbose_level > 2)) {
14668 printf ("\t %.3s %d", spec, ins->dreg);
14669 num_sregs = mono_inst_get_src_registers (ins, sregs);
14670 for (srcindex = 0; srcindex < num_sregs; ++srcindex)
14671 printf (" %d", sregs [srcindex]);
14678 regtype = spec [MONO_INST_DEST];
14679 g_assert (((ins->dreg == -1) && (regtype == ' ')) || ((ins->dreg != -1) && (regtype != ' ')));
14682 if ((ins->dreg != -1) && get_vreg_to_inst (cfg, ins->dreg)) {
14683 MonoInst *var = get_vreg_to_inst (cfg, ins->dreg);
14684 MonoInst *store_ins;
14686 MonoInst *def_ins = ins;
14687 int dreg = ins->dreg; /* The original vreg */
14689 store_opcode = mono_type_to_store_membase (cfg, var->inst_vtype);
14691 if (var->opcode == OP_REGVAR) {
14692 ins->dreg = var->dreg;
14693 } else if ((ins->dreg == ins->sreg1) && (spec [MONO_INST_DEST] == 'i') && (spec [MONO_INST_SRC1] == 'i') && !vreg_to_lvreg [ins->dreg] && (op_to_op_dest_membase (store_opcode, ins->opcode) != -1)) {
14695 * Instead of emitting a load+store, use a _membase opcode.
14697 g_assert (var->opcode == OP_REGOFFSET);
14698 if (ins->opcode == OP_MOVE) {
14702 ins->opcode = op_to_op_dest_membase (store_opcode, ins->opcode);
14703 ins->inst_basereg = var->inst_basereg;
14704 ins->inst_offset = var->inst_offset;
14707 spec = INS_INFO (ins->opcode);
14711 g_assert (var->opcode == OP_REGOFFSET);
14713 prev_dreg = ins->dreg;
14715 /* Invalidate any previous lvreg for this vreg */
14716 vreg_to_lvreg [ins->dreg] = 0;
14720 if (COMPILE_SOFT_FLOAT (cfg) && store_opcode == OP_STORER8_MEMBASE_REG) {
14722 store_opcode = OP_STOREI8_MEMBASE_REG;
14725 ins->dreg = alloc_dreg (cfg, stacktypes [regtype]);
14727 #if SIZEOF_REGISTER != 8
14728 if (regtype == 'l') {
14729 NEW_STORE_MEMBASE (cfg, store_ins, OP_STOREI4_MEMBASE_REG, var->inst_basereg, var->inst_offset + MINI_LS_WORD_OFFSET, MONO_LVREG_LS (ins->dreg));
14730 mono_bblock_insert_after_ins (bb, ins, store_ins);
14731 NEW_STORE_MEMBASE (cfg, store_ins, OP_STOREI4_MEMBASE_REG, var->inst_basereg, var->inst_offset + MINI_MS_WORD_OFFSET, MONO_LVREG_MS (ins->dreg));
14732 mono_bblock_insert_after_ins (bb, ins, store_ins);
14733 def_ins = store_ins;
14738 g_assert (store_opcode != OP_STOREV_MEMBASE);
14740 /* Try to fuse the store into the instruction itself */
14741 /* FIXME: Add more instructions */
14742 if (!lvreg && ((ins->opcode == OP_ICONST) || ((ins->opcode == OP_I8CONST) && (ins->inst_c0 == 0)))) {
14743 ins->opcode = store_membase_reg_to_store_membase_imm (store_opcode);
14744 ins->inst_imm = ins->inst_c0;
14745 ins->inst_destbasereg = var->inst_basereg;
14746 ins->inst_offset = var->inst_offset;
14747 spec = INS_INFO (ins->opcode);
14748 } else if (!lvreg && ((ins->opcode == OP_MOVE) || (ins->opcode == OP_FMOVE) || (ins->opcode == OP_LMOVE) || (ins->opcode == OP_RMOVE))) {
14749 ins->opcode = store_opcode;
14750 ins->inst_destbasereg = var->inst_basereg;
14751 ins->inst_offset = var->inst_offset;
14755 tmp_reg = ins->dreg;
14756 ins->dreg = ins->sreg2;
14757 ins->sreg2 = tmp_reg;
14760 spec2 [MONO_INST_DEST] = ' ';
14761 spec2 [MONO_INST_SRC1] = spec [MONO_INST_SRC1];
14762 spec2 [MONO_INST_SRC2] = spec [MONO_INST_DEST];
14763 spec2 [MONO_INST_SRC3] = ' ';
14765 } else if (!lvreg && (op_to_op_store_membase (store_opcode, ins->opcode) != -1)) {
14766 // FIXME: The backends expect the base reg to be in inst_basereg
14767 ins->opcode = op_to_op_store_membase (store_opcode, ins->opcode);
14769 ins->inst_basereg = var->inst_basereg;
14770 ins->inst_offset = var->inst_offset;
14771 spec = INS_INFO (ins->opcode);
14773 /* printf ("INS: "); mono_print_ins (ins); */
14774 /* Create a store instruction */
14775 NEW_STORE_MEMBASE (cfg, store_ins, store_opcode, var->inst_basereg, var->inst_offset, ins->dreg);
14777 /* Insert it after the instruction */
14778 mono_bblock_insert_after_ins (bb, ins, store_ins);
14780 def_ins = store_ins;
14783 * We can't assign ins->dreg to var->dreg here, since the
14784 * sregs could use it. So set a flag, and do it after
14787 if ((!cfg->backend->use_fpstack || ((store_opcode != OP_STORER8_MEMBASE_REG) && (store_opcode != OP_STORER4_MEMBASE_REG))) && !((var)->flags & (MONO_INST_VOLATILE|MONO_INST_INDIRECT)))
14788 dest_has_lvreg = TRUE;
14793 if (def_ins && !live_range_start [dreg]) {
14794 live_range_start [dreg] = def_ins;
14795 live_range_start_bb [dreg] = bb;
14798 if (cfg->compute_gc_maps && def_ins && (var->flags & MONO_INST_GC_TRACK)) {
14801 MONO_INST_NEW (cfg, tmp, OP_GC_LIVENESS_DEF);
14802 tmp->inst_c1 = dreg;
14803 mono_bblock_insert_after_ins (bb, def_ins, tmp);
14810 num_sregs = mono_inst_get_src_registers (ins, sregs);
14811 for (srcindex = 0; srcindex < 3; ++srcindex) {
14812 regtype = spec [MONO_INST_SRC1 + srcindex];
14813 sreg = sregs [srcindex];
14815 g_assert (((sreg == -1) && (regtype == ' ')) || ((sreg != -1) && (regtype != ' ')));
14816 if ((sreg != -1) && get_vreg_to_inst (cfg, sreg)) {
14817 MonoInst *var = get_vreg_to_inst (cfg, sreg);
14818 MonoInst *use_ins = ins;
14819 MonoInst *load_ins;
14820 guint32 load_opcode;
14822 if (var->opcode == OP_REGVAR) {
14823 sregs [srcindex] = var->dreg;
14824 //mono_inst_set_src_registers (ins, sregs);
14825 live_range_end [sreg] = use_ins;
14826 live_range_end_bb [sreg] = bb;
14828 if (cfg->compute_gc_maps && var->dreg < orig_next_vreg && (var->flags & MONO_INST_GC_TRACK)) {
14831 MONO_INST_NEW (cfg, tmp, OP_GC_LIVENESS_USE);
14832 /* var->dreg is a hreg */
14833 tmp->inst_c1 = sreg;
14834 mono_bblock_insert_after_ins (bb, ins, tmp);
14840 g_assert (var->opcode == OP_REGOFFSET);
14842 load_opcode = mono_type_to_load_membase (cfg, var->inst_vtype);
14844 g_assert (load_opcode != OP_LOADV_MEMBASE);
14846 if (vreg_to_lvreg [sreg]) {
14847 g_assert (vreg_to_lvreg [sreg] != -1);
14849 /* The variable is already loaded to an lvreg */
14850 if (G_UNLIKELY (cfg->verbose_level > 2))
14851 printf ("\t\tUse lvreg R%d for R%d.\n", vreg_to_lvreg [sreg], sreg);
14852 sregs [srcindex] = vreg_to_lvreg [sreg];
14853 //mono_inst_set_src_registers (ins, sregs);
14857 /* Try to fuse the load into the instruction */
14858 if ((srcindex == 0) && (op_to_op_src1_membase (cfg, load_opcode, ins->opcode) != -1)) {
14859 ins->opcode = op_to_op_src1_membase (cfg, load_opcode, ins->opcode);
14860 sregs [0] = var->inst_basereg;
14861 //mono_inst_set_src_registers (ins, sregs);
14862 ins->inst_offset = var->inst_offset;
14863 } else if ((srcindex == 1) && (op_to_op_src2_membase (cfg, load_opcode, ins->opcode) != -1)) {
14864 ins->opcode = op_to_op_src2_membase (cfg, load_opcode, ins->opcode);
14865 sregs [1] = var->inst_basereg;
14866 //mono_inst_set_src_registers (ins, sregs);
14867 ins->inst_offset = var->inst_offset;
14869 if (MONO_IS_REAL_MOVE (ins)) {
14870 ins->opcode = OP_NOP;
14873 //printf ("%d ", srcindex); mono_print_ins (ins);
14875 sreg = alloc_dreg (cfg, stacktypes [regtype]);
14877 if ((!cfg->backend->use_fpstack || ((load_opcode != OP_LOADR8_MEMBASE) && (load_opcode != OP_LOADR4_MEMBASE))) && !((var)->flags & (MONO_INST_VOLATILE|MONO_INST_INDIRECT)) && !no_lvreg) {
14878 if (var->dreg == prev_dreg) {
14880 * sreg refers to the value loaded by the load
14881 * emitted below, but we need to use ins->dreg
14882 * since it refers to the store emitted earlier.
14886 g_assert (sreg != -1);
14887 vreg_to_lvreg [var->dreg] = sreg;
14888 g_assert (lvregs_len < 1024);
14889 lvregs [lvregs_len ++] = var->dreg;
14893 sregs [srcindex] = sreg;
14894 //mono_inst_set_src_registers (ins, sregs);
14896 #if SIZEOF_REGISTER != 8
14897 if (regtype == 'l') {
14898 NEW_LOAD_MEMBASE (cfg, load_ins, OP_LOADI4_MEMBASE, MONO_LVREG_MS (sreg), var->inst_basereg, var->inst_offset + MINI_MS_WORD_OFFSET);
14899 mono_bblock_insert_before_ins (bb, ins, load_ins);
14900 NEW_LOAD_MEMBASE (cfg, load_ins, OP_LOADI4_MEMBASE, MONO_LVREG_LS (sreg), var->inst_basereg, var->inst_offset + MINI_LS_WORD_OFFSET);
14901 mono_bblock_insert_before_ins (bb, ins, load_ins);
14902 use_ins = load_ins;
14907 #if SIZEOF_REGISTER == 4
14908 g_assert (load_opcode != OP_LOADI8_MEMBASE);
14910 NEW_LOAD_MEMBASE (cfg, load_ins, load_opcode, sreg, var->inst_basereg, var->inst_offset);
14911 mono_bblock_insert_before_ins (bb, ins, load_ins);
14912 use_ins = load_ins;
14916 if (var->dreg < orig_next_vreg) {
14917 live_range_end [var->dreg] = use_ins;
14918 live_range_end_bb [var->dreg] = bb;
14921 if (cfg->compute_gc_maps && var->dreg < orig_next_vreg && (var->flags & MONO_INST_GC_TRACK)) {
14924 MONO_INST_NEW (cfg, tmp, OP_GC_LIVENESS_USE);
14925 tmp->inst_c1 = var->dreg;
14926 mono_bblock_insert_after_ins (bb, ins, tmp);
14930 mono_inst_set_src_registers (ins, sregs);
14932 if (dest_has_lvreg) {
14933 g_assert (ins->dreg != -1);
14934 vreg_to_lvreg [prev_dreg] = ins->dreg;
14935 g_assert (lvregs_len < 1024);
14936 lvregs [lvregs_len ++] = prev_dreg;
14937 dest_has_lvreg = FALSE;
14941 tmp_reg = ins->dreg;
14942 ins->dreg = ins->sreg2;
14943 ins->sreg2 = tmp_reg;
14946 if (MONO_IS_CALL (ins)) {
14947 /* Clear vreg_to_lvreg array */
14948 for (i = 0; i < lvregs_len; i++)
14949 vreg_to_lvreg [lvregs [i]] = 0;
14951 } else if (ins->opcode == OP_NOP) {
14953 MONO_INST_NULLIFY_SREGS (ins);
14956 if (cfg->verbose_level > 2)
14957 mono_print_ins_index (1, ins);
14960 /* Extend the live range based on the liveness info */
14961 if (cfg->compute_precise_live_ranges && bb->live_out_set && bb->code) {
14962 for (i = 0; i < cfg->num_varinfo; i ++) {
14963 MonoMethodVar *vi = MONO_VARINFO (cfg, i);
14965 if (vreg_is_volatile (cfg, vi->vreg))
14966 /* The liveness info is incomplete */
14969 if (mono_bitset_test_fast (bb->live_in_set, i) && !live_range_start [vi->vreg]) {
14970 /* Live from at least the first ins of this bb */
14971 live_range_start [vi->vreg] = bb->code;
14972 live_range_start_bb [vi->vreg] = bb;
14975 if (mono_bitset_test_fast (bb->live_out_set, i)) {
14976 /* Live at least until the last ins of this bb */
14977 live_range_end [vi->vreg] = bb->last_ins;
14978 live_range_end_bb [vi->vreg] = bb;
14985 * Emit LIVERANGE_START/LIVERANGE_END opcodes, the backend will implement them
14986 * by storing the current native offset into MonoMethodVar->live_range_start/end.
14988 if (cfg->backend->have_liverange_ops && cfg->compute_precise_live_ranges && cfg->comp_done & MONO_COMP_LIVENESS) {
14989 for (i = 0; i < cfg->num_varinfo; ++i) {
14990 int vreg = MONO_VARINFO (cfg, i)->vreg;
14993 if (live_range_start [vreg]) {
14994 MONO_INST_NEW (cfg, ins, OP_LIVERANGE_START);
14996 ins->inst_c1 = vreg;
14997 mono_bblock_insert_after_ins (live_range_start_bb [vreg], live_range_start [vreg], ins);
14999 if (live_range_end [vreg]) {
15000 MONO_INST_NEW (cfg, ins, OP_LIVERANGE_END);
15002 ins->inst_c1 = vreg;
15003 if (live_range_end [vreg] == live_range_end_bb [vreg]->last_ins)
15004 mono_add_ins_to_end (live_range_end_bb [vreg], ins);
15006 mono_bblock_insert_after_ins (live_range_end_bb [vreg], live_range_end [vreg], ins);
15011 if (cfg->gsharedvt_locals_var_ins) {
15012 /* Nullify if unused */
15013 cfg->gsharedvt_locals_var_ins->opcode = OP_PCONST;
15014 cfg->gsharedvt_locals_var_ins->inst_imm = 0;
15017 g_free (live_range_start);
15018 g_free (live_range_end);
15019 g_free (live_range_start_bb);
15020 g_free (live_range_end_bb);
15025 * - use 'iadd' instead of 'int_add'
15026 * - handling ovf opcodes: decompose in method_to_ir.
15027 * - unify iregs/fregs
15028 * -> partly done, the missing parts are:
15029 * - a more complete unification would involve unifying the hregs as well, so
15030 * code wouldn't need if (fp) all over the place. but that would mean the hregs
15031 * would no longer map to the machine hregs, so the code generators would need to
15032 * be modified. Also, on ia64 for example, niregs + nfregs > 256 -> bitmasks
15033 * wouldn't work any more. Duplicating the code in mono_local_regalloc () into
15034 * fp/non-fp branches speeds it up by about 15%.
15035 * - use sext/zext opcodes instead of shifts
15037 * - get rid of TEMPLOADs if possible and use vregs instead
15038 * - clean up usage of OP_P/OP_ opcodes
15039 * - cleanup usage of DUMMY_USE
15040 * - cleanup the setting of ins->type for MonoInst's which are pushed on the
15042 * - set the stack type and allocate a dreg in the EMIT_NEW macros
15043 * - get rid of all the <foo>2 stuff when the new JIT is ready.
15044 * - make sure handle_stack_args () is called before the branch is emitted
15045 * - when the new IR is done, get rid of all unused stuff
15046 * - COMPARE/BEQ as separate instructions or unify them ?
15047 * - keeping them separate allows specialized compare instructions like
15048 * compare_imm, compare_membase
15049 * - most back ends unify fp compare+branch, fp compare+ceq
15050 * - integrate mono_save_args into inline_method
15051 * - get rid of the empty bblocks created by MONO_EMIT_NEW_BRACH_BLOCK2
15052 * - handle long shift opts on 32 bit platforms somehow: they require
15053 * 3 sregs (2 for arg1 and 1 for arg2)
15054 * - make byref a 'normal' type.
15055 * - use vregs for bb->out_stacks if possible, handle_global_vreg will make them a
15056 * variable if needed.
15057 * - do not start a new IL level bblock when cfg->cbb is changed by a function call
15058 * like inline_method.
15059 * - remove inlining restrictions
15060 * - fix LNEG and enable cfold of INEG
15061 * - generalize x86 optimizations like ldelema as a peephole optimization
15062 * - add store_mem_imm for amd64
15063 * - optimize the loading of the interruption flag in the managed->native wrappers
15064 * - avoid special handling of OP_NOP in passes
15065 * - move code inserting instructions into one function/macro.
15066 * - try a coalescing phase after liveness analysis
15067 * - add float -> vreg conversion + local optimizations on !x86
15068 * - figure out how to handle decomposed branches during optimizations, ie.
15069 * compare+branch, op_jump_table+op_br etc.
15070 * - promote RuntimeXHandles to vregs
15071 * - vtype cleanups:
15072 * - add a NEW_VARLOADA_VREG macro
15073 * - the vtype optimizations are blocked by the LDADDR opcodes generated for
15074 * accessing vtype fields.
15075 * - get rid of I8CONST on 64 bit platforms
15076 * - dealing with the increase in code size due to branches created during opcode
15078 * - use extended basic blocks
15079 * - all parts of the JIT
15080 * - handle_global_vregs () && local regalloc
15081 * - avoid introducing global vregs during decomposition, like 'vtable' in isinst
15082 * - sources of increase in code size:
15085 * - isinst and castclass
15086 * - lvregs not allocated to global registers even if used multiple times
15087 * - call cctors outside the JIT, to make -v output more readable and JIT timings more
15089 * - check for fp stack leakage in other opcodes too. (-> 'exceptions' optimization)
15090 * - add all micro optimizations from the old JIT
15091 * - put tree optimizations into the deadce pass
15092 * - decompose op_start_handler/op_endfilter/op_endfinally earlier using an arch
15093 * specific function.
15094 * - unify the float comparison opcodes with the other comparison opcodes, i.e.
15095 * fcompare + branchCC.
15096 * - create a helper function for allocating a stack slot, taking into account
15097 * MONO_CFG_HAS_SPILLUP.
15099 * - merge the ia64 switch changes.
15100 * - optimize mono_regstate2_alloc_int/float.
15101 * - fix the pessimistic handling of variables accessed in exception handler blocks.
15102 * - need to write a tree optimization pass, but the creation of trees is difficult, i.e.
15103 * parts of the tree could be separated by other instructions, killing the tree
15104 * arguments, or stores killing loads etc. Also, should we fold loads into other
15105 * instructions if the result of the load is used multiple times ?
15106 * - make the REM_IMM optimization in mini-x86.c arch-independent.
15107 * - LAST MERGE: 108395.
15108 * - when returning vtypes in registers, generate IR and append it to the end of the
15109 * last bb instead of doing it in the epilog.
15110 * - change the store opcodes so they use sreg1 instead of dreg to store the base register.
15118 - When to decompose opcodes:
15119 - earlier: this makes some optimizations hard to implement, since the low level IR
15120 no longer contains the neccessary information. But it is easier to do.
15121 - later: harder to implement, enables more optimizations.
15122 - Branches inside bblocks:
15123 - created when decomposing complex opcodes.
15124 - branches to another bblock: harmless, but not tracked by the branch
15125 optimizations, so need to branch to a label at the start of the bblock.
15126 - branches to inside the same bblock: very problematic, trips up the local
15127 reg allocator. Can be fixed by spitting the current bblock, but that is a
15128 complex operation, since some local vregs can become global vregs etc.
15129 - Local/global vregs:
15130 - local vregs: temporary vregs used inside one bblock. Assigned to hregs by the
15131 local register allocator.
15132 - global vregs: used in more than one bblock. Have an associated MonoMethodVar
15133 structure, created by mono_create_var (). Assigned to hregs or the stack by
15134 the global register allocator.
15135 - When to do optimizations like alu->alu_imm:
15136 - earlier -> saves work later on since the IR will be smaller/simpler
15137 - later -> can work on more instructions
15138 - Handling of valuetypes:
15139 - When a vtype is pushed on the stack, a new temporary is created, an
15140 instruction computing its address (LDADDR) is emitted and pushed on
15141 the stack. Need to optimize cases when the vtype is used immediately as in
15142 argument passing, stloc etc.
15143 - Instead of the to_end stuff in the old JIT, simply call the function handling
15144 the values on the stack before emitting the last instruction of the bb.
15147 #endif /* DISABLE_JIT */