1 /* src/vm/jit/codegen-common.cpp - architecture independent code generator stuff
3 Copyright (C) 1996-2005, 2006, 2007, 2008, 2009, 2010
4 CACAOVM - Verein zur Foerderung der freien virtuellen Maschine CACAO
5 Copyright (C) 2009 Theobroma Systems Ltd.
7 This file is part of CACAO.
9 This program is free software; you can redistribute it and/or
10 modify it under the terms of the GNU General Public License as
11 published by the Free Software Foundation; either version 2, or (at
12 your option) any later version.
14 This program is distributed in the hope that it will be useful, but
15 WITHOUT ANY WARRANTY; without even the implied warranty of
16 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
17 General Public License for more details.
19 You should have received a copy of the GNU General Public License
20 along with this program; if not, write to the Free Software
21 Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
24 All functions assume the following code area / data area layout:
28 | code area | code area grows to higher addresses
30 +-----------+ <-- start of procedure
32 | data area | data area grows to lower addresses
36 The functions first write into a temporary code/data area allocated by
37 "codegen_init". "codegen_finish" copies the code and data area into permanent
38 memory. All functions writing values into the data area return the offset
39 relative the begin of the code area (start of procedure).
55 #include "mm/memory.hpp"
57 #include "toolbox/avl.h"
58 #include "toolbox/list.hpp"
59 #include "toolbox/logging.hpp"
61 #include "native/llni.h"
62 #include "native/localref.hpp"
63 #include "native/native.hpp"
65 #include "threads/thread.hpp"
67 #include "vm/jit/builtin.hpp"
68 #include "vm/exceptions.hpp"
69 #include "vm/method.hpp"
70 #include "vm/options.h"
71 #include "vm/statistics.h"
72 #include "vm/string.hpp"
74 #include "vm/jit/abi.h"
75 #include "vm/jit/asmpart.h"
76 #include "vm/jit/code.hpp"
77 #include "vm/jit/codegen-common.hpp"
79 #if defined(ENABLE_DISASSEMBLER)
80 # include "vm/jit/disass.h"
83 #include "vm/jit/dseg.h"
84 #include "vm/jit/emit-common.hpp"
85 #include "vm/jit/jit.hpp"
86 #include "vm/jit/linenumbertable.hpp"
87 #include "vm/jit/methodheader.h"
88 #include "vm/jit/methodtree.h"
89 #include "vm/jit/patcher-common.hpp"
90 #include "vm/jit/replace.hpp"
91 #include "vm/jit/show.hpp"
92 #include "vm/jit/stacktrace.hpp"
93 #include "vm/jit/trace.hpp"
95 #include "vm/jit/optimizing/profile.hpp"
97 #if defined(ENABLE_SSA)
98 # include "vm/jit/optimizing/lsra.h"
99 # include "vm/jit/optimizing/ssa.h"
100 #elif defined(ENABLE_LSRA)
101 # include "vm/jit/allocator/lsra.h"
104 #if defined(ENABLE_INTRP)
105 #include "vm/jit/intrp/intrp.h"
108 #if defined(ENABLE_VMLOG)
109 #include <vmlog_cacao.h>
113 /* codegen_init ****************************************************************
117 *******************************************************************************/
119 void codegen_init(void)
124 /* codegen_setup ***************************************************************
126 Allocates and initialises code area, data area and references.
128 *******************************************************************************/
130 void codegen_setup(jitdata *jd)
135 /* get required compiler data */
140 /* initialize members */
142 // Set flags as requested.
143 if (opt_AlwaysEmitLongBranches) {
144 cd->flags = CODEGENDATA_FLAG_LONGBRANCHES;
150 cd->mcodebase = (u1*) DumpMemory::allocate(MCODEINITSIZE);
151 cd->mcodeend = cd->mcodebase + MCODEINITSIZE;
152 cd->mcodesize = MCODEINITSIZE;
154 /* initialize mcode variables */
156 cd->mcodeptr = cd->mcodebase;
157 cd->lastmcodeptr = cd->mcodebase;
159 #if defined(ENABLE_INTRP)
160 /* native dynamic superinstructions variables */
163 cd->ncodebase = (u1*) DumpMemory::allocate(NCODEINITSIZE);
164 cd->ncodesize = NCODEINITSIZE;
166 /* initialize ncode variables */
168 cd->ncodeptr = cd->ncodebase;
170 cd->lastinstwithoutdispatch = ~0; /* no inst without dispatch */
171 cd->superstarts = NULL;
178 cd->jumpreferences = NULL;
180 #if defined(__I386__) || defined(__X86_64__) || defined(__XDSPCORE__) || defined(__M68K__) || defined(ENABLE_INTRP)
181 cd->datareferences = NULL;
184 cd->brancheslabel = new DumpList<branch_label_ref_t*>();
185 cd->linenumbers = new DumpList<Linenumber>();
189 /* codegen_reset ***************************************************************
191 Resets the codegen data structure so we can recompile the method.
193 *******************************************************************************/
195 static void codegen_reset(jitdata *jd)
201 /* get required compiler data */
206 /* reset error flag */
208 cd->flags &= ~CODEGENDATA_FLAG_ERROR;
210 /* reset some members, we reuse the code memory already allocated
211 as this should have almost the correct size */
213 cd->mcodeptr = cd->mcodebase;
214 cd->lastmcodeptr = cd->mcodebase;
219 cd->jumpreferences = NULL;
221 #if defined(__I386__) || defined(__X86_64__) || defined(__XDSPCORE__) || defined(__M68K__) || defined(ENABLE_INTRP)
222 cd->datareferences = NULL;
225 cd->brancheslabel = new DumpList<branch_label_ref_t*>();
226 cd->linenumbers = new DumpList<Linenumber>();
228 /* We need to clear the mpc and the branch references from all
229 basic blocks as they will definitely change. */
231 for (bptr = jd->basicblocks; bptr != NULL; bptr = bptr->next) {
233 bptr->branchrefs = NULL;
236 /* We need to clear all the patcher references from the codeinfo
237 since they all will be regenerated */
239 patcher_list_reset(code);
241 #if defined(ENABLE_REPLACEMENT)
242 code->rplpoints = NULL;
243 code->rplpointcount = 0;
244 code->regalloc = NULL;
245 code->regalloccount = 0;
246 code->globalcount = 0;
251 /* codegen_generate ************************************************************
253 Generates the code for the currently compiled method.
255 *******************************************************************************/
257 bool codegen_generate(jitdata *jd)
261 /* get required compiler data */
265 /* call the machine-dependent code generation function */
267 if (!codegen_emit(jd))
270 /* check for an error */
272 if (CODEGENDATA_HAS_FLAG_ERROR(cd)) {
273 /* check for long-branches flag, if it is set we recompile the
278 log_message_method("Re-generating code: ", jd->m);
281 /* XXX maybe we should tag long-branches-methods for recompilation */
283 if (CODEGENDATA_HAS_FLAG_LONGBRANCHES(cd)) {
284 /* we have to reset the codegendata structure first */
288 /* and restart the compiler run */
290 if (!codegen_emit(jd))
294 os::abort("codegen_generate: unknown error occurred during codegen_emit: flags=%x\n", cd->flags);
299 log_message_method("Re-generating code done: ", jd->m);
303 /* reallocate the memory and finish the code generation */
307 /* everything's ok */
313 /* codegen_close ***************************************************************
317 *******************************************************************************/
319 void codegen_close(void)
321 /* TODO: release avl tree on i386 and x86_64 */
325 /* codegen_increase ************************************************************
329 *******************************************************************************/
331 void codegen_increase(codegendata *cd)
335 /* save old mcodebase pointer */
337 oldmcodebase = cd->mcodebase;
339 /* reallocate to new, doubled memory */
341 cd->mcodebase = (u1*) DumpMemory::reallocate(cd->mcodebase,
345 cd->mcodeend = cd->mcodebase + cd->mcodesize;
347 /* set new mcodeptr */
349 cd->mcodeptr = cd->mcodebase + (cd->mcodeptr - oldmcodebase);
351 #if defined(__I386__) || defined(__MIPS__) || defined(__X86_64__) || defined(__M68K__) || defined(ENABLE_INTRP) \
352 || defined(__SPARC_64__)
353 /* adjust the pointer to the last patcher position */
355 if (cd->lastmcodeptr != NULL)
356 cd->lastmcodeptr = cd->mcodebase + (cd->lastmcodeptr - oldmcodebase);
361 /* codegen_ncode_increase ******************************************************
365 *******************************************************************************/
367 #if defined(ENABLE_INTRP)
368 u1 *codegen_ncode_increase(codegendata *cd, u1 *ncodeptr)
372 /* save old ncodebase pointer */
374 oldncodebase = cd->ncodebase;
376 /* reallocate to new, doubled memory */
378 cd->ncodebase = DMREALLOC(cd->ncodebase,
384 /* return the new ncodeptr */
386 return (cd->ncodebase + (ncodeptr - oldncodebase));
391 /* codegen_add_branch_ref ******************************************************
393 Prepends an branch to the list.
395 *******************************************************************************/
397 void codegen_add_branch_ref(codegendata *cd, basicblock *target, s4 condition, s4 reg, u4 options)
402 STATISTICS(count_branches_unresolved++);
404 /* calculate the mpc of the branch instruction */
406 branchmpc = cd->mcodeptr - cd->mcodebase;
408 br = (branchref*) DumpMemory::allocate(sizeof(branchref));
410 br->branchmpc = branchmpc;
411 br->condition = condition;
413 br->options = options;
414 br->next = target->branchrefs;
416 target->branchrefs = br;
420 /* codegen_resolve_branchrefs **************************************************
422 Resolves and patches the branch references of a given basic block.
424 *******************************************************************************/
426 void codegen_resolve_branchrefs(codegendata *cd, basicblock *bptr)
431 /* Save the mcodeptr because in the branch emitting functions
432 we generate code somewhere inside already generated code,
433 but we're still in the actual code generation phase. */
435 mcodeptr = cd->mcodeptr;
437 /* just to make sure */
439 assert(bptr->mpc >= 0);
441 for (br = bptr->branchrefs; br != NULL; br = br->next) {
442 /* temporary set the mcodeptr */
444 cd->mcodeptr = cd->mcodebase + br->branchmpc;
446 /* emit_bccz and emit_branch emit the correct code, even if we
447 pass condition == BRANCH_UNCONDITIONAL or reg == -1. */
449 emit_bccz(cd, bptr, br->condition, br->reg, br->options);
452 /* restore mcodeptr */
454 cd->mcodeptr = mcodeptr;
458 /* codegen_branch_label_add ****************************************************
460 Append an branch to the label-branch list.
462 *******************************************************************************/
464 void codegen_branch_label_add(codegendata *cd, s4 label, s4 condition, s4 reg, u4 options)
466 // Calculate the current mpc.
467 int32_t mpc = cd->mcodeptr - cd->mcodebase;
469 branch_label_ref_t* br = (branch_label_ref_t*) DumpMemory::allocate(sizeof(branch_label_ref_t));
473 br->condition = condition;
475 br->options = options;
477 // Add the branch to the list.
478 cd->brancheslabel->push_back(br);
482 /* codegen_set_replacement_point_notrap ****************************************
484 Record the position of a non-trappable replacement point.
486 *******************************************************************************/
488 #if defined(ENABLE_REPLACEMENT)
490 void codegen_set_replacement_point_notrap(codegendata *cd, s4 type)
492 void codegen_set_replacement_point_notrap(codegendata *cd)
495 assert(cd->replacementpoint);
496 assert(cd->replacementpoint->type == type);
497 assert(cd->replacementpoint->flags & RPLPOINT_FLAG_NOTRAP);
499 cd->replacementpoint->pc = (u1*) (ptrint) (cd->mcodeptr - cd->mcodebase);
501 cd->replacementpoint++;
503 #endif /* defined(ENABLE_REPLACEMENT) */
506 /* codegen_set_replacement_point ***********************************************
508 Record the position of a trappable replacement point.
510 *******************************************************************************/
512 #if defined(ENABLE_REPLACEMENT)
514 void codegen_set_replacement_point(codegendata *cd, s4 type)
516 void codegen_set_replacement_point(codegendata *cd)
519 assert(cd->replacementpoint);
520 assert(cd->replacementpoint->type == type);
521 assert(!(cd->replacementpoint->flags & RPLPOINT_FLAG_NOTRAP));
523 cd->replacementpoint->pc = (u1*) (ptrint) (cd->mcodeptr - cd->mcodebase);
525 cd->replacementpoint++;
528 /* XXX actually we should use an own REPLACEMENT_NOPS here! */
529 if (opt_TestReplacement)
533 /* XXX assert(cd->lastmcodeptr <= cd->mcodeptr); */
535 cd->lastmcodeptr = cd->mcodeptr + PATCHER_CALL_SIZE;
537 #endif /* defined(ENABLE_REPLACEMENT) */
540 /* codegen_finish **************************************************************
542 Finishes the code generation. A new memory, large enough for both
543 data and code, is allocated and data and code are copied together
544 to their final layout, unresolved jumps are resolved, ...
546 *******************************************************************************/
548 void codegen_finish(jitdata *jd)
551 #if defined(ENABLE_INTRP)
559 /* Get required compiler data. */
561 codeinfo* code = jd->code;
562 codegendata* cd = jd->cd;
563 registerdata* rd = jd->rd;
565 /* prevent compiler warning */
567 #if defined(ENABLE_INTRP)
571 /* calculate the code length */
573 mcodelen = (s4) (cd->mcodeptr - cd->mcodebase);
575 #if defined(ENABLE_STATISTICS)
577 count_code_len += mcodelen;
578 count_data_len += cd->dseglen;
582 alignedmcodelen = MEMORY_ALIGN(mcodelen, MAX_ALIGN);
584 #if defined(ENABLE_INTRP)
586 ncodelen = cd->ncodeptr - cd->ncodebase;
588 ncodelen = 0; /* avoid compiler warning */
592 cd->dseglen = MEMORY_ALIGN(cd->dseglen, MAX_ALIGN);
593 alignedlen = alignedmcodelen + cd->dseglen;
595 #if defined(ENABLE_INTRP)
597 alignedlen += ncodelen;
601 /* allocate new memory */
603 code->mcodelength = mcodelen + cd->dseglen;
604 code->mcode = CNEW(u1, alignedlen);
606 /* set the entrypoint of the method */
608 assert(code->entrypoint == NULL);
609 code->entrypoint = epoint = (code->mcode + cd->dseglen);
611 /* fill the data segment (code->entrypoint must already be set!) */
615 /* copy code to the new location */
617 MCOPY((void *) code->entrypoint, cd->mcodebase, u1, mcodelen);
619 #if defined(ENABLE_INTRP)
620 /* relocate native dynamic superinstruction code (if any) */
623 cd->mcodebase = code->entrypoint;
626 u1 *ncodebase = code->mcode + cd->dseglen + alignedmcodelen;
628 MCOPY((void *) ncodebase, cd->ncodebase, u1, ncodelen);
630 /* flush the instruction and data caches */
632 md_cacheflush(ncodebase, ncodelen);
634 /* set some cd variables for dynamic_super_rerwite */
636 cd->ncodebase = ncodebase;
639 cd->ncodebase = NULL;
642 dynamic_super_rewrite(cd);
646 /* Fill runtime information about generated code. */
648 code->stackframesize = cd->stackframesize;
649 code->synchronizedoffset = rd->memuse * 8;
650 code->savedintcount = INT_SAV_CNT - rd->savintreguse;
651 code->savedfltcount = FLT_SAV_CNT - rd->savfltreguse;
652 #if defined(HAS_ADDRESS_REGISTER_FILE)
653 code->savedadrcount = ADR_SAV_CNT - rd->savadrreguse;
656 /* Create the exception table. */
658 exceptiontable_create(jd);
660 /* Create the linenumber table. */
662 code->linenumbertable = new LinenumberTable(jd);
664 /* jump table resolving */
666 for (jr = cd->jumpreferences; jr != NULL; jr = jr->next)
667 *((functionptr *) ((ptrint) epoint + jr->tablepos)) =
668 (functionptr) ((ptrint) epoint + (ptrint) jr->target->mpc);
670 /* patcher resolving */
674 #if defined(ENABLE_REPLACEMENT)
675 /* replacement point resolving */
680 rp = code->rplpoints;
681 for (i=0; i<code->rplpointcount; ++i, ++rp) {
682 rp->pc = (u1*) ((ptrint) epoint + (ptrint) rp->pc);
685 #endif /* defined(ENABLE_REPLACEMENT) */
687 /* Insert method into methodtree to find the entrypoint. */
689 methodtree_insert(code->entrypoint, code->entrypoint + mcodelen);
691 #if defined(__I386__) || defined(__X86_64__) || defined(__XDSPCORE__) || defined(__M68K__) || defined(ENABLE_INTRP)
692 /* resolve data segment references */
694 dseg_resolve_datareferences(jd);
697 /* flush the instruction and data caches */
699 md_cacheflush(code->mcode, code->mcodelength);
703 /* codegen_start_native_call ***************************************************
705 Prepares the stuff required for a native (JNI) function call:
707 - adds a stackframe info structure to the chain, for stacktraces
708 - prepares the local references table on the stack
710 The layout of the native stub stackframe should look like this:
712 +---------------------------+ <- java SP (of parent Java function)
714 +---------------------------+ <- data SP
716 | stackframe info structure |
718 +---------------------------+
720 | local references table |
722 +---------------------------+
724 | saved registers (if any) |
726 +---------------------------+
728 | arguments (if any) |
730 +---------------------------+ <- current SP (native stub)
732 *******************************************************************************/
734 java_handle_t *codegen_start_native_call(u1 *sp, u1 *pv)
736 stackframeinfo_t *sfi;
747 STATISTICS(count_calls_java_to_native++);
749 // Get information from method header.
750 code = code_get_codeinfo_for_pv(pv);
751 assert(code != NULL);
753 framesize = md_stacktrace_get_framesize(code);
754 assert(framesize >= (int32_t) (sizeof(stackframeinfo_t) + sizeof(localref_table)));
756 // Get the methodinfo.
757 m = code_get_methodinfo_for_pv(pv);
760 /* calculate needed values */
762 #if defined(__ALPHA__) || defined(__ARM__)
763 datasp = sp + framesize - SIZEOF_VOID_P;
764 javasp = sp + framesize;
765 arg_regs = (uint64_t *) sp;
766 arg_stack = (uint64_t *) javasp;
767 #elif defined(__MIPS__)
768 /* MIPS always uses 8 bytes to store the RA */
769 datasp = sp + framesize - 8;
770 javasp = sp + framesize;
771 # if SIZEOF_VOID_P == 8
772 arg_regs = (uint64_t *) sp;
774 arg_regs = (uint64_t *) (sp + 5 * 8);
776 arg_stack = (uint64_t *) javasp;
777 #elif defined(__S390__)
778 datasp = sp + framesize - 8;
779 javasp = sp + framesize;
780 arg_regs = (uint64_t *) (sp + 96);
781 arg_stack = (uint64_t *) javasp;
782 #elif defined(__I386__) || defined(__M68K__) || defined(__X86_64__)
783 datasp = sp + framesize;
784 javasp = sp + framesize + SIZEOF_VOID_P;
785 arg_regs = (uint64_t *) sp;
786 arg_stack = (uint64_t *) javasp;
787 #elif defined(__POWERPC__)
788 datasp = sp + framesize;
789 javasp = sp + framesize;
790 arg_regs = (uint64_t *) (sp + LA_SIZE + 4 * SIZEOF_VOID_P);
791 arg_stack = (uint64_t *) javasp;
792 #elif defined(__POWERPC64__)
793 datasp = sp + framesize;
794 javasp = sp + framesize;
795 arg_regs = (uint64_t *) (sp + PA_SIZE + LA_SIZE + 4 * SIZEOF_VOID_P);
796 arg_stack = (uint64_t *) javasp;
798 /* XXX is was unable to do this port for SPARC64, sorry. (-michi) */
799 /* XXX maybe we need to pass the RA as argument there */
800 os::abort("codegen_start_native_call: unsupported architecture");
803 /* get data structures from stack */
805 sfi = (stackframeinfo_t *) (datasp - sizeof(stackframeinfo_t));
806 lrt = (localref_table *) (datasp - sizeof(stackframeinfo_t) -
807 sizeof(localref_table));
809 #if defined(ENABLE_JNI)
810 /* add current JNI local references table to this thread */
812 localref_table_add(lrt);
816 # if defined(__ALPHA__) || defined(__I386__) || defined(__M68K__) || defined(__MIPS__) || defined(__POWERPC__) || defined(__POWERPC64__) || defined(__S390__) || defined(__X86_64__)
817 /* print the call-trace if necesarry */
818 /* BEFORE: filling the local reference table */
820 if (opt_TraceJavaCalls || opt_TraceBuiltinCalls)
821 trace_java_call_enter(m, arg_regs, arg_stack);
825 #if defined(ENABLE_HANDLES)
826 /* place all references into the local reference table */
827 /* BEFORE: creating stackframeinfo */
829 localref_native_enter(m, arg_regs, arg_stack);
832 /* Add a stackframeinfo for this native method. We don't have RA
833 and XPC here. These are determined in
834 stacktrace_stackframeinfo_add. */
836 stacktrace_stackframeinfo_add(sfi, pv, sp, NULL, NULL);
838 /* Return a wrapped classinfo for static methods. */
840 if (m->flags & ACC_STATIC)
841 return (java_handle_t *) LLNI_classinfo_wrap(m->clazz);
847 /* codegen_finish_native_call **************************************************
849 Removes the stuff required for a native (JNI) function call.
850 Additionally it checks for an exceptions and in case, get the
851 exception object and clear the pointer.
853 *******************************************************************************/
855 java_object_t *codegen_finish_native_call(u1 *sp, u1 *pv)
857 stackframeinfo_t *sfi;
867 // Get information from method header.
868 code = code_get_codeinfo_for_pv(pv);
869 assert(code != NULL);
871 framesize = md_stacktrace_get_framesize(code);
873 // Get the methodinfo.
877 /* calculate needed values */
879 #if defined(__ALPHA__) || defined(__ARM__)
880 datasp = sp + framesize - SIZEOF_VOID_P;
881 ret_regs = (uint64_t *) sp;
882 #elif defined(__MIPS__)
883 /* MIPS always uses 8 bytes to store the RA */
884 datasp = sp + framesize - 8;
885 # if SIZEOF_VOID_P == 8
886 ret_regs = (uint64_t *) sp;
888 ret_regs = (uint64_t *) (sp + 1 * 8);
890 #elif defined(__S390__)
891 datasp = sp + framesize - 8;
892 ret_regs = (uint64_t *) (sp + 96);
893 #elif defined(__I386__)
894 datasp = sp + framesize;
895 ret_regs = (uint64_t *) (sp + 2 * SIZEOF_VOID_P);
896 #elif defined(__M68K__)
897 datasp = sp + framesize;
898 ret_regs = (uint64_t *) (sp + 2 * 8);
899 #elif defined(__X86_64__)
900 datasp = sp + framesize;
901 ret_regs = (uint64_t *) sp;
902 #elif defined(__POWERPC__)
903 datasp = sp + framesize;
904 ret_regs = (uint64_t *) (sp + LA_SIZE + 2 * SIZEOF_VOID_P);
905 #elif defined(__POWERPC64__)
906 datasp = sp + framesize;
907 ret_regs = (uint64_t *) (sp + PA_SIZE + LA_SIZE + 2 * SIZEOF_VOID_P);
909 os::abort("codegen_finish_native_call: unsupported architecture");
912 /* get data structures from stack */
914 sfi = (stackframeinfo_t *) (datasp - sizeof(stackframeinfo_t));
916 /* Remove current stackframeinfo from chain. */
918 stacktrace_stackframeinfo_remove(sfi);
920 #if defined(ENABLE_HANDLES)
921 /* unwrap the return value from the local reference table */
922 /* AFTER: removing the stackframeinfo */
923 /* BEFORE: releasing the local reference table */
925 localref_native_exit(m, ret_regs);
928 /* get and unwrap the exception */
929 /* AFTER: removing the stackframe info */
930 /* BEFORE: releasing the local reference table */
932 e = exceptions_get_and_clear_exception();
935 #if defined(ENABLE_JNI)
936 /* release JNI local references table for this thread */
938 localref_frame_pop_all();
939 localref_table_remove();
943 # if defined(__ALPHA__) || defined(__I386__) || defined(__M68K__) || defined(__MIPS__) || defined(__POWERPC__) || defined(__POWERPC64__) || defined(__S390__) || defined(__X86_64__)
944 /* print the call-trace if necesarry */
945 /* AFTER: unwrapping the return value */
947 if (opt_TraceJavaCalls || opt_TraceBuiltinCalls)
948 trace_java_call_exit(m, ret_regs);
956 /* codegen_reg_of_var **********************************************************
958 This function determines a register, to which the result of an
959 operation should go, when it is ultimatively intended to store the
960 result in pseudoregister v. If v is assigned to an actual
961 register, this register will be returned. Otherwise (when v is
962 spilled) this function returns tempregnum. If not already done,
963 regoff and flags are set in the stack location.
965 *******************************************************************************/
967 s4 codegen_reg_of_var(u2 opcode, varinfo *v, s4 tempregnum)
969 if (!(v->flags & INMEMORY))
976 /* codegen_reg_of_dst **********************************************************
978 This function determines a register, to which the result of an
979 operation should go, when it is ultimatively intended to store the
980 result in iptr->dst.var. If dst.var is assigned to an actual
981 register, this register will be returned. Otherwise (when it is
982 spilled) this function returns tempregnum. If not already done,
983 regoff and flags are set in the stack location.
985 *******************************************************************************/
987 s4 codegen_reg_of_dst(jitdata *jd, instruction *iptr, s4 tempregnum)
989 return codegen_reg_of_var(iptr->opc, VAROP(iptr->dst), tempregnum);
994 * Generates machine code.
996 bool codegen_emit(jitdata *jd)
999 builtintable_entry* bte = 0;
1001 int32_t s1, s2, /*s3,*/ d;
1006 // Get required compiler data.
1007 //methodinfo* m = jd->m;
1008 codeinfo* code = jd->code;
1009 codegendata* cd = jd->cd;
1010 registerdata* rd = jd->rd;
1011 #if defined(ENABLE_SSA)
1012 lsradata* ls = jd->ls;
1013 bool last_cmd_was_goto = false;
1016 // Space to save used callee saved registers.
1017 int32_t savedregs_num = 0;
1018 savedregs_num += (INT_SAV_CNT - rd->savintreguse);
1019 savedregs_num += (FLT_SAV_CNT - rd->savfltreguse);
1020 #ifdef HAS_ADDRESS_REGISTER_FILE
1021 savedregs_num += (ADR_SAV_CNT - rd->savadrreguse);
1024 // Calculate size of stackframe.
1025 cd->stackframesize = rd->memuse + savedregs_num;
1027 // Space to save the return address.
1028 #if STACKFRAME_RA_TOP_OF_FRAME
1029 # if STACKFRAME_LEAFMETHODS_RA_REGISTER
1030 if (!code_is_leafmethod(code))
1032 cd->stackframesize += 1;
1035 // Space to save argument of monitor_enter.
1036 #if defined(ENABLE_THREADS)
1037 if (checksync && code_is_synchronized(code))
1038 # if STACKFRAME_SYNC_NEEDS_TWO_SLOTS
1039 /* On some architectures the stack position for the argument can
1040 not be shared with place to save the return register values to
1041 survive monitor_exit since both values reside in the same register. */
1042 cd->stackframesize += 2;
1044 cd->stackframesize += 1;
1048 // Keep stack of non-leaf functions 16-byte aligned for calls into
1050 if (!code_is_leafmethod(code) || JITDATA_HAS_FLAG_VERBOSECALL(jd))
1051 #if STACKFRMAE_RA_BETWEEN_FRAMES
1052 ALIGN_ODD(cd->stackframesize);
1054 ALIGN_EVEN(cd->stackframesize);
1057 #if defined(SPECIALMEMUSE)
1058 // On architectures having a linkage area, we can get rid of the whole
1059 // stackframe in leaf functions without saved registers.
1060 if (code_is_leafmethod(code) && (cd->stackframesize == LA_SIZE_IN_POINTERS))
1061 cd->stackframesize = 0;
1065 * SECTION 1: Method header generation.
1068 // The method header was reduced to the bare minimum of one pointer
1069 // to the codeinfo structure, which in turn contains all runtime
1070 // information. However this section together with the methodheader.h
1071 // file will be kept alive for historical reasons. It might come in
1072 // handy at some point.
1074 (void) dseg_add_unique_address(cd, code); ///< CodeinfoPointer
1076 // XXX, REMOVEME: We still need it for exception handling in assembler.
1077 // XXX ARM, M68K: (void) dseg_add_unique_s4(cd, cd->stackframesize);
1078 #if defined(__I386__)
1079 int align_off = (cd->stackframesize != 0) ? 4 : 0;
1080 (void) dseg_add_unique_s4(cd, cd->stackframesize * 8 + align_off); /* FrameSize */
1082 (void) dseg_add_unique_s4(cd, cd->stackframesize * 8); /* FrameSize */
1084 // XXX M68K: We use the IntSave as a split field for the adr now
1085 // (void) dseg_add_unique_s4(cd, (ADR_SAV_CNT - rd->savadrreguse) << 16 | (INT_SAV_CNT - rd->savintreguse)); /* IntSave */
1086 (void) dseg_add_unique_s4(cd, code_is_leafmethod(code) ? 1 : 0);
1087 (void) dseg_add_unique_s4(cd, INT_SAV_CNT - rd->savintreguse); /* IntSave */
1088 (void) dseg_add_unique_s4(cd, FLT_SAV_CNT - rd->savfltreguse); /* FltSave */
1091 * SECTION 2: Method prolog generation.
1094 #if defined(ENABLE_PROFILING)
1095 // Generate method profiling code.
1096 if (JITDATA_HAS_FLAG_INSTRUMENT(jd)) {
1098 // Count method frequency.
1099 emit_profile_method(cd, code);
1101 // Start CPU cycle counting.
1102 emit_profile_cycle_start(cd, code);
1106 // Emit code for the method prolog.
1107 codegen_emit_prolog(jd);
1109 #if defined(ENABLE_THREADS)
1110 // Emit code to call monitorenter function.
1111 if (checksync && code_is_synchronized(code))
1112 emit_monitor_enter(jd, rd->memuse * 8);
1115 #if !defined(NDEBUG)
1116 // Call trace function.
1117 if (JITDATA_HAS_FLAG_VERBOSECALL(jd))
1118 emit_verbosecall_enter(jd);
1121 #if defined(ENABLE_SSA)
1122 // With SSA the header is basicblock 0, insert phi moves if necessary.
1124 codegen_emit_phi_moves(jd, ls->basicblocks[0]);
1127 // Create replacement points.
1128 REPLACEMENT_POINTS_INIT(cd, jd);
1131 * SECTION 3: ICMD code generation.
1134 // Walk through all basic blocks.
1135 for (basicblock* bptr = jd->basicblocks; bptr != NULL; bptr = bptr->next) {
1137 bptr->mpc = (s4) (cd->mcodeptr - cd->mcodebase);
1139 // Is this basic block reached?
1140 if (bptr->flags < BBREACHED)
1143 // Branch resolving.
1144 codegen_resolve_branchrefs(cd, bptr);
1146 // Handle replacement points.
1147 REPLACEMENT_POINT_BLOCK_START(cd, bptr);
1149 #if defined(ENABLE_REPLACEMENT) && defined(__I386__)
1150 // Generate countdown trap code.
1151 methodinfo* m = jd->m;
1152 if (bptr->bitflags & BBFLAG_REPLACEMENT) {
1153 if (cd->replacementpoint[-1].flags & RPLPOINT_FLAG_COUNTDOWN) {
1155 emit_trap_countdown(cd, &(m->hitcountdown));
1160 #if defined(ENABLE_PROFILING)
1161 // Generate basicblock profiling code.
1162 if (JITDATA_HAS_FLAG_INSTRUMENT(jd)) {
1164 // Count basicblock frequency.
1165 emit_profile_basicblock(cd, code, bptr);
1167 // If this is an exception handler, start profiling again.
1168 if (bptr->type == BBTYPE_EXH)
1169 emit_profile_cycle_start(cd, code);
1173 // Copy interface registers to their destination.
1174 int32_t indepth = bptr->indepth;
1175 // XXX Check if this is true for all archs.
1176 MCODECHECK(64+indepth); // All
1177 MCODECHECK(128+indepth); // PPC64
1178 MCODECHECK(512); // I386, X86_64, S390
1179 #if defined(ENABLE_SSA)
1180 // XXX Check if this is correct and add a propper comment!
1182 last_cmd_was_goto = false;
1184 #elif defined(ENABLE_LSRA)
1186 while (indepth > 0) {
1188 var = VAR(bptr->invars[indepth]);
1189 if ((indepth == bptr->indepth-1) && (bptr->type == BBTYPE_EXH)) {
1190 if (!IS_INMEMORY(src->flags))
1194 // XXX M68K: Actually this is M_ADRMOVE(REG_ATMP1_XPTR, d);
1195 // XXX Sparc64: Here we use REG_ITMP2_XPTR, fix this!
1196 // XXX S390: Here we use REG_ITMP3_XPTR, fix this!
1197 emit_imove(cd, REG_ITMP1_XPTR, d);
1198 emit_store(jd, NULL, var, d);
1203 while (indepth > 0) {
1205 var = VAR(bptr->invars[indepth]);
1206 if ((indepth == bptr->indepth-1) && (bptr->type == BBTYPE_EXH)) {
1207 d = codegen_reg_of_var(0, var, REG_ITMP1_XPTR);
1208 // XXX M68K: Actually this is M_ADRMOVE(REG_ATMP1_XPTR, d);
1209 // XXX Sparc64: Here we use REG_ITMP2_XPTR, fix this!
1210 // XXX S390: Here we use REG_ITMP3_XPTR, fix this!
1211 emit_imove(cd, REG_ITMP1_XPTR, d);
1212 emit_store(jd, NULL, var, d);
1215 assert((var->flags & INOUT));
1218 #if defined(ENABLE_SSA) || defined(ENABLE_LSRA)
1222 // Walk through all instructions.
1223 int32_t len = bptr->icount;
1224 uint16_t currentline = 0;
1225 for (instruction* iptr = bptr->iinstr; len > 0; len--, iptr++) {
1228 if (iptr->line != currentline) {
1229 linenumbertable_list_entry_add(cd, iptr->line);
1230 currentline = iptr->line;
1233 // An instruction usually needs < 64 words.
1234 // XXX Check if this is true for all archs.
1235 MCODECHECK(64); // All
1236 MCODECHECK(128); // PPC64
1237 MCODECHECK(1024); // I386, X86_64, M68K, S390 /* 1kB should be enough */
1240 switch (iptr->opc) {
1242 case ICMD_NOP: /* ... ==> ... */
1243 case ICMD_POP: /* ..., value ==> ... */
1244 case ICMD_POP2: /* ..., value, value ==> ... */
1247 case ICMD_CHECKNULL: /* ..., objectref ==> ..., objectref */
1249 s1 = emit_load_s1(jd, iptr, REG_ITMP1);
1250 emit_nullpointer_check(cd, iptr, s1);
1253 case ICMD_BREAKPOINT: /* ... ==> ... */
1254 /* sx.val.anyptr = Breakpoint */
1256 patcher_add_patch_ref(jd, PATCHER_breakpoint, iptr->sx.val.anyptr, 0);
1260 #if defined(ENABLE_SSA)
1261 case ICMD_GETEXCEPTION:
1263 d = codegen_reg_of_dst(jd, iptr, REG_ITMP1);
1264 emit_imove(cd, REG_ITMP1, d);
1265 emit_store_dst(jd, iptr, d);
1269 /* inline operations **********************************************/
1271 case ICMD_INLINE_START:
1273 REPLACEMENT_POINT_INLINE_START(cd, iptr);
1276 case ICMD_INLINE_BODY:
1278 REPLACEMENT_POINT_INLINE_BODY(cd, iptr);
1279 linenumbertable_list_entry_add_inline_start(cd, iptr);
1280 linenumbertable_list_entry_add(cd, iptr->line);
1283 case ICMD_INLINE_END:
1285 linenumbertable_list_entry_add_inline_end(cd, iptr);
1286 linenumbertable_list_entry_add(cd, iptr->line);
1290 /* constant operations ********************************************/
1292 case ICMD_ICONST: /* ... ==> ..., constant */
1294 d = codegen_reg_of_dst(jd, iptr, REG_ITMP1);
1295 ICONST(d, iptr->sx.val.i);
1296 emit_store_dst(jd, iptr, d);
1299 case ICMD_LCONST: /* ... ==> ..., constant */
1301 d = codegen_reg_of_dst(jd, iptr, REG_LTMP12);
1302 LCONST(d, iptr->sx.val.l);
1303 emit_store_dst(jd, iptr, d);
1307 /* load/store/copy/move operations ********************************/
1311 case ICMD_ILOAD: /* ... ==> ..., content of local variable */
1312 case ICMD_LLOAD: /* s1 = local variable */
1316 case ICMD_ISTORE: /* ..., value ==> ... */
1321 emit_copy(jd, iptr);
1326 if (!(iptr->flags.bits & INS_FLAG_RETADDR))
1327 emit_copy(jd, iptr);
1331 /* integer operations *********************************************/
1333 case ICMD_FCONST: /* ... ==> ..., constant */
1334 case ICMD_DCONST: /* ... ==> ..., constant */
1335 case ICMD_ACONST: /* ... ==> ..., constant */
1336 case ICMD_INEG: /* ..., value ==> ..., - value */
1337 case ICMD_LNEG: /* ..., value ==> ..., - value */
1338 case ICMD_I2L: /* ..., value ==> ..., value */
1339 case ICMD_L2I: /* ..., value ==> ..., value */
1340 case ICMD_INT2BYTE: /* ..., value ==> ..., value */
1341 case ICMD_INT2CHAR: /* ..., value ==> ..., value */
1342 case ICMD_INT2SHORT: /* ..., value ==> ..., value */
1343 case ICMD_IADD: /* ..., val1, val2 ==> ..., val1 + val2 */
1345 case ICMD_IADDCONST: /* ..., value ==> ..., value + constant */
1346 /* sx.val.i = constant */
1347 case ICMD_LADD: /* ..., val1, val2 ==> ..., val1 + val2 */
1348 case ICMD_LADDCONST: /* ..., value ==> ..., value + constant */
1349 /* sx.val.l = constant */
1350 case ICMD_ISUB: /* ..., val1, val2 ==> ..., val1 - val2 */
1351 case ICMD_ISUBCONST: /* ..., value ==> ..., value + constant */
1352 /* sx.val.i = constant */
1353 case ICMD_LSUB: /* ..., val1, val2 ==> ..., val1 - val2 */
1354 case ICMD_LSUBCONST: /* ..., value ==> ..., value - constant */
1355 /* sx.val.l = constant */
1356 case ICMD_IMUL: /* ..., val1, val2 ==> ..., val1 * val2 */
1357 case ICMD_IMULCONST: /* ..., value ==> ..., value * constant */
1358 /* sx.val.i = constant */
1359 case ICMD_IMULPOW2: /* ..., value ==> ..., value * (2 ^ constant) */
1360 /* sx.val.i = constant */
1361 case ICMD_LMUL: /* ..., val1, val2 ==> ..., val1 * val2 */
1362 case ICMD_LMULCONST: /* ..., value ==> ..., value * constant */
1363 /* sx.val.l = constant */
1364 case ICMD_LMULPOW2: /* ..., value ==> ..., value * (2 ^ constant) */
1365 /* sx.val.l = constant */
1366 case ICMD_IDIV: /* ..., val1, val2 ==> ..., val1 / val2 */
1367 case ICMD_IREM: /* ..., val1, val2 ==> ..., val1 % val2 */
1368 case ICMD_IDIVPOW2: /* ..., value ==> ..., value >> constant */
1369 /* sx.val.i = constant */
1370 case ICMD_IREMPOW2: /* ..., value ==> ..., value % constant */
1371 /* sx.val.i = constant */
1372 case ICMD_LDIV: /* ..., val1, val2 ==> ..., val1 / val2 */
1373 case ICMD_LREM: /* ..., val1, val2 ==> ..., val1 % val2 */
1374 case ICMD_LDIVPOW2: /* ..., value ==> ..., value >> constant */
1375 /* sx.val.i = constant */
1376 case ICMD_LREMPOW2: /* ..., value ==> ..., value % constant */
1377 /* sx.val.l = constant */
1378 case ICMD_ISHL: /* ..., val1, val2 ==> ..., val1 << val2 */
1379 case ICMD_ISHLCONST: /* ..., value ==> ..., value << constant */
1380 /* sx.val.i = constant */
1381 case ICMD_ISHR: /* ..., val1, val2 ==> ..., val1 >> val2 */
1382 case ICMD_ISHRCONST: /* ..., value ==> ..., value >> constant */
1383 /* sx.val.i = constant */
1384 case ICMD_IUSHR: /* ..., val1, val2 ==> ..., val1 >>> val2 */
1385 case ICMD_IUSHRCONST: /* ..., value ==> ..., value >>> constant */
1386 /* sx.val.i = constant */
1387 case ICMD_LSHL: /* ..., val1, val2 ==> ..., val1 << val2 */
1388 case ICMD_LSHLCONST: /* ..., value ==> ..., value << constant */
1389 /* sx.val.i = constant */
1390 case ICMD_LSHR: /* ..., val1, val2 ==> ..., val1 >> val2 */
1391 case ICMD_LSHRCONST: /* ..., value ==> ..., value >> constant */
1392 /* sx.val.i = constant */
1393 case ICMD_LUSHR: /* ..., val1, val2 ==> ..., val1 >>> val2 */
1394 case ICMD_LUSHRCONST: /* ..., value ==> ..., value >>> constant */
1395 /* sx.val.l = constant */
1396 case ICMD_IAND: /* ..., val1, val2 ==> ..., val1 & val2 */
1397 case ICMD_IANDCONST: /* ..., value ==> ..., value & constant */
1398 /* sx.val.i = constant */
1399 case ICMD_LAND: /* ..., val1, val2 ==> ..., val1 & val2 */
1400 case ICMD_LANDCONST: /* ..., value ==> ..., value & constant */
1401 /* sx.val.l = constant */
1402 case ICMD_IOR: /* ..., val1, val2 ==> ..., val1 | val2 */
1403 case ICMD_IORCONST: /* ..., value ==> ..., value | constant */
1404 /* sx.val.i = constant */
1405 case ICMD_LOR: /* ..., val1, val2 ==> ..., val1 | val2 */
1406 case ICMD_LORCONST: /* ..., value ==> ..., value | constant */
1407 /* sx.val.l = constant */
1408 case ICMD_IXOR: /* ..., val1, val2 ==> ..., val1 ^ val2 */
1409 case ICMD_IXORCONST: /* ..., value ==> ..., value ^ constant */
1410 /* sx.val.i = constant */
1411 case ICMD_LXOR: /* ..., val1, val2 ==> ..., val1 ^ val2 */
1412 case ICMD_LXORCONST: /* ..., value ==> ..., value ^ constant */
1413 /* sx.val.l = constant */
1415 // Generate architecture specific instructions.
1416 codegen_emit_instruction(jd, iptr);
1420 /* floating operations ********************************************/
1422 #if !defined(ENABLE_SOFTFLOAT)
1423 case ICMD_FNEG: /* ..., value ==> ..., - value */
1425 case ICMD_FADD: /* ..., val1, val2 ==> ..., val1 + val2 */
1427 case ICMD_FSUB: /* ..., val1, val2 ==> ..., val1 - val2 */
1429 case ICMD_FMUL: /* ..., val1, val2 ==> ..., val1 * val2 */
1431 case ICMD_FDIV: /* ..., val1, val2 ==> ..., val1 / val2 */
1433 case ICMD_FREM: /* ..., val1, val2 ==> ..., val1 % val2 */
1435 case ICMD_I2F: /* ..., value ==> ..., (float) value */
1436 case ICMD_I2D: /* ..., value ==> ..., (double) value */
1437 case ICMD_L2F: /* ..., value ==> ..., (float) value */
1438 case ICMD_L2D: /* ..., value ==> ..., (double) value */
1439 case ICMD_F2I: /* ..., value ==> ..., (int) value */
1441 case ICMD_F2L: /* ..., value ==> ..., (long) value */
1443 case ICMD_F2D: /* ..., value ==> ..., (double) value */
1444 case ICMD_D2F: /* ..., value ==> ..., (float) value */
1445 case ICMD_FCMPL: /* ..., val1, val2 ==> ..., val1 fcmpg val2 */
1446 case ICMD_DCMPL: /* == => 0, < => 1, > => -1 */
1447 case ICMD_FCMPG: /* ..., val1, val2 ==> ..., val1 fcmpl val2 */
1448 case ICMD_DCMPG: /* == => 0, < => 1, > => -1 */
1450 // Generate architecture specific instructions.
1451 codegen_emit_instruction(jd, iptr);
1453 #endif /* !defined(ENABLE_SOFTFLOAT) */
1456 /* memory operations **********************************************/
1458 case ICMD_ARRAYLENGTH:/* ..., arrayref ==> ..., length */
1460 s1 = emit_load_s1(jd, iptr, REG_ITMP1);
1461 d = codegen_reg_of_dst(jd, iptr, REG_ITMP2);
1462 /* implicit null-pointer check */
1463 // XXX PPC64: Here we had an explicit null-pointer check
1464 // which I think was obsolete, please confirm. Otherwise:
1465 // emit_nullpointer_check(cd, iptr, s1);
1466 M_ILD(d, s1, OFFSET(java_array_t, size));
1467 emit_store_dst(jd, iptr, d);
1470 case ICMD_BALOAD: /* ..., arrayref, index ==> ..., value */
1471 case ICMD_CALOAD: /* ..., arrayref, index ==> ..., value */
1472 case ICMD_SALOAD: /* ..., arrayref, index ==> ..., value */
1473 case ICMD_IALOAD: /* ..., arrayref, index ==> ..., value */
1474 case ICMD_LALOAD: /* ..., arrayref, index ==> ..., value */
1475 case ICMD_FALOAD: /* ..., arrayref, index ==> ..., value */
1476 case ICMD_DALOAD: /* ..., arrayref, index ==> ..., value */
1477 case ICMD_AALOAD: /* ..., arrayref, index ==> ..., value */
1478 case ICMD_BASTORE: /* ..., arrayref, index, value ==> ... */
1479 case ICMD_CASTORE: /* ..., arrayref, index, value ==> ... */
1480 case ICMD_SASTORE: /* ..., arrayref, index, value ==> ... */
1481 case ICMD_IASTORE: /* ..., arrayref, index, value ==> ... */
1482 case ICMD_LASTORE: /* ..., arrayref, index, value ==> ... */
1483 case ICMD_FASTORE: /* ..., arrayref, index, value ==> ... */
1484 case ICMD_DASTORE: /* ..., arrayref, index, value ==> ... */
1485 case ICMD_AASTORE: /* ..., arrayref, index, value ==> ... */
1486 case ICMD_BASTORECONST: /* ..., arrayref, index ==> ... */
1487 case ICMD_CASTORECONST: /* ..., arrayref, index ==> ... */
1488 case ICMD_SASTORECONST: /* ..., arrayref, index ==> ... */
1489 case ICMD_IASTORECONST: /* ..., arrayref, index ==> ... */
1490 case ICMD_LASTORECONST: /* ..., arrayref, index ==> ... */
1491 case ICMD_FASTORECONST: /* ..., arrayref, index ==> ... */
1492 case ICMD_DASTORECONST: /* ..., arrayref, index ==> ... */
1493 case ICMD_AASTORECONST: /* ..., arrayref, index ==> ... */
1494 case ICMD_GETFIELD: /* ... ==> ..., value */
1495 case ICMD_PUTFIELD: /* ..., value ==> ... */
1496 case ICMD_PUTFIELDCONST: /* ..., objectref ==> ... */
1497 /* val = value (in current instruction) */
1498 case ICMD_PUTSTATICCONST: /* ... ==> ... */
1499 /* val = value (in current instruction) */
1501 // Generate architecture specific instructions.
1502 codegen_emit_instruction(jd, iptr);
1505 case ICMD_GETSTATIC: /* ... ==> ..., value */
1507 #if defined(__I386__)
1508 // Generate architecture specific instructions.
1509 codegen_emit_instruction(jd, iptr);
1515 if (INSTRUCTION_IS_UNRESOLVED(iptr)) {
1516 unresolved_field* uf = iptr->sx.s23.s3.uf;
1517 fieldtype = uf->fieldref->parseddesc.fd->type;
1518 disp = dseg_add_unique_address(cd, 0);
1520 pr = patcher_add_patch_ref(jd, PATCHER_get_putstatic, uf, disp);
1522 fi = NULL; /* Silence compiler warning */
1525 fi = iptr->sx.s23.s3.fmiref->p.field;
1526 fieldtype = fi->type;
1527 disp = dseg_add_address(cd, fi->value);
1529 if (!CLASS_IS_OR_ALMOST_INITIALIZED(fi->clazz)) {
1531 patcher_add_patch_ref(jd, PATCHER_initialize_class, fi->clazz, 0);
1532 PROFILE_CYCLE_START;
1535 pr = NULL; /* Silence compiler warning */
1538 #if defined(USES_PATCHABLE_MEMORY_BARRIER)
1539 codegen_emit_patchable_barrier(iptr, cd, pr, fi);
1542 // XXX X86_64: Here We had this:
1543 /* This approach is much faster than moving the field
1544 address inline into a register. */
1546 M_ALD_DSEG(REG_ITMP1, disp);
1548 switch (fieldtype) {
1550 d = codegen_reg_of_dst(jd, iptr, REG_ITMP2);
1551 M_ALD(d, REG_ITMP1, 0);
1554 #if defined(ENABLE_SOFTFLOAT)
1557 d = codegen_reg_of_dst(jd, iptr, REG_ITMP2);
1558 M_ILD(d, REG_ITMP1, 0);
1561 #if defined(ENABLE_SOFTFLOAT)
1564 d = codegen_reg_of_dst(jd, iptr, REG_LTMP23);
1565 M_LLD(d, REG_ITMP1, 0);
1567 #if !defined(ENABLE_SOFTFLOAT)
1569 d = codegen_reg_of_dst(jd, iptr, REG_FTMP1);
1570 M_FLD(d, REG_ITMP1, 0);
1573 d = codegen_reg_of_dst(jd, iptr, REG_FTMP1);
1574 M_DLD(d, REG_ITMP1, 0);
1578 // Silence compiler warning.
1581 emit_store_dst(jd, iptr, d);
1586 case ICMD_PUTSTATIC: /* ..., value ==> ... */
1588 #if defined(__I386__)
1589 // Generate architecture specific instructions.
1590 codegen_emit_instruction(jd, iptr);
1597 if (INSTRUCTION_IS_UNRESOLVED(iptr)) {
1598 unresolved_field* uf = iptr->sx.s23.s3.uf;
1599 fieldtype = uf->fieldref->parseddesc.fd->type;
1600 disp = dseg_add_unique_address(cd, 0);
1602 pr = patcher_add_patch_ref(jd, PATCHER_get_putstatic, uf, disp);
1604 fi = NULL; /* Silence compiler warning */
1607 fi = iptr->sx.s23.s3.fmiref->p.field;
1608 fieldtype = fi->type;
1609 disp = dseg_add_address(cd, fi->value);
1611 if (!CLASS_IS_OR_ALMOST_INITIALIZED(fi->clazz)) {
1613 patcher_add_patch_ref(jd, PATCHER_initialize_class, fi->clazz, 0);
1614 PROFILE_CYCLE_START;
1617 pr = NULL; /* Silence compiler warning */
1620 // XXX X86_64: Here We had this:
1621 /* This approach is much faster than moving the field
1622 address inline into a register. */
1624 M_ALD_DSEG(REG_ITMP1, disp);
1626 switch (fieldtype) {
1628 s1 = emit_load_s1(jd, iptr, REG_ITMP2);
1629 M_AST(s1, REG_ITMP1, 0);
1632 #if defined(ENABLE_SOFTFLOAT)
1635 s1 = emit_load_s1(jd, iptr, REG_ITMP2);
1636 M_IST(s1, REG_ITMP1, 0);
1639 #if defined(ENABLE_SOFTFLOAT)
1642 s1 = emit_load_s1(jd, iptr, REG_LTMP23);
1643 M_LST(s1, REG_ITMP1, 0);
1645 #if !defined(ENABLE_SOFTFLOAT)
1647 s1 = emit_load_s1(jd, iptr, REG_FTMP2);
1648 M_FST(s1, REG_ITMP1, 0);
1651 s1 = emit_load_s1(jd, iptr, REG_FTMP2);
1652 M_DST(s1, REG_ITMP1, 0);
1656 #if defined(USES_PATCHABLE_MEMORY_BARRIER)
1657 codegen_emit_patchable_barrier(iptr, cd, pr, fi);
1663 /* branch operations **********************************************/
1665 case ICMD_ATHROW: /* ..., objectref ==> ... (, objectref) */
1667 // We might leave this method, stop profiling.
1670 s1 = emit_load_s1(jd, iptr, REG_ITMP1);
1671 // XXX M68K: Actually this is M_ADRMOVE(s1, REG_ATMP1_XPTR);
1672 // XXX Sparc64: We use REG_ITMP2_XPTR here, fix me!
1673 emit_imove(cd, s1, REG_ITMP1_XPTR);
1675 #ifdef ENABLE_VERIFIER
1676 if (INSTRUCTION_IS_UNRESOLVED(iptr)) {
1677 unresolved_class *uc = iptr->sx.s23.s2.uc;
1678 patcher_add_patch_ref(jd, PATCHER_resolve_class, uc, 0);
1680 #endif /* ENABLE_VERIFIER */
1682 // Generate architecture specific instructions.
1683 codegen_emit_instruction(jd, iptr);
1687 case ICMD_GOTO: /* ... ==> ... */
1688 case ICMD_RET: /* ... ==> ... */
1690 #if defined(ENABLE_SSA)
1691 // In case of a goto, phimoves have to be inserted
1694 last_cmd_was_goto = true;
1695 codegen_emit_phi_moves(jd, bptr);
1698 emit_br(cd, iptr->dst.block);
1702 case ICMD_JSR: /* ... ==> ... */
1704 emit_br(cd, iptr->sx.s23.s3.jsrtarget.block);
1708 case ICMD_IFNULL: /* ..., value ==> ... */
1709 case ICMD_IFNONNULL:
1711 s1 = emit_load_s1(jd, iptr, REG_ITMP1);
1712 #if SUPPORT_BRANCH_CONDITIONAL_ONE_INTEGER_REGISTER
1713 emit_bccz(cd, iptr->dst.block, iptr->opc - ICMD_IFNULL, s1, BRANCH_OPT_NONE);
1714 #elif SUPPORT_BRANCH_CONDITIONAL_CONDITION_REGISTER
1716 emit_bcc(cd, iptr->dst.block, iptr->opc - ICMD_IFNULL, BRANCH_OPT_NONE);
1718 # error Unable to generate code for this configuration!
1722 case ICMD_IFEQ: /* ..., value ==> ... */
1729 // XXX Sparc64: int compares must not branch on the
1730 // register directly. Reason is, that register content is
1731 // not 32-bit clean. Fix this!
1733 #if SUPPORT_BRANCH_CONDITIONAL_ONE_INTEGER_REGISTER
1734 if (iptr->sx.val.i == 0) {
1735 s1 = emit_load_s1(jd, iptr, REG_ITMP1);
1736 emit_bccz(cd, iptr->dst.block, iptr->opc - ICMD_IFEQ, s1, BRANCH_OPT_NONE);
1738 // Generate architecture specific instructions.
1739 codegen_emit_instruction(jd, iptr);
1741 #elif SUPPORT_BRANCH_CONDITIONAL_CONDITION_REGISTER
1742 s1 = emit_load_s1(jd, iptr, REG_ITMP1);
1743 emit_icmp_imm(cd, s1, iptr->sx.val.i);
1744 emit_bcc(cd, iptr->dst.block, iptr->opc - ICMD_IFEQ, BRANCH_OPT_NONE);
1746 # error Unable to generate code for this configuration!
1750 case ICMD_IF_LEQ: /* ..., value ==> ... */
1757 // Generate architecture specific instructions.
1758 codegen_emit_instruction(jd, iptr);
1761 case ICMD_IF_ACMPEQ: /* ..., value, value ==> ... */
1762 case ICMD_IF_ACMPNE: /* op1 = target JavaVM pc */
1764 s1 = emit_load_s1(jd, iptr, REG_ITMP1);
1765 s2 = emit_load_s2(jd, iptr, REG_ITMP2);
1766 #if SUPPORT_BRANCH_CONDITIONAL_TWO_INTEGER_REGISTERS
1767 switch (iptr->opc) {
1768 case ICMD_IF_ACMPEQ:
1769 emit_beq(cd, iptr->dst.block, s1, s2);
1771 case ICMD_IF_ACMPNE:
1772 emit_bne(cd, iptr->dst.block, s1, s2);
1775 #elif SUPPORT_BRANCH_CONDITIONAL_CONDITION_REGISTER
1777 emit_bcc(cd, iptr->dst.block, iptr->opc - ICMD_IF_ACMPEQ, BRANCH_OPT_NONE);
1778 #elif SUPPORT_BRANCH_CONDITIONAL_ONE_INTEGER_REGISTER
1779 M_CMPEQ(s1, s2, REG_ITMP1);
1780 switch (iptr->opc) {
1781 case ICMD_IF_ACMPEQ:
1782 emit_bnez(cd, iptr->dst.block, REG_ITMP1);
1784 case ICMD_IF_ACMPNE:
1785 emit_beqz(cd, iptr->dst.block, REG_ITMP1);
1789 # error Unable to generate code for this configuration!
1793 case ICMD_IF_ICMPEQ: /* ..., value, value ==> ... */
1794 case ICMD_IF_ICMPNE: /* op1 = target JavaVM pc */
1796 #if SUPPORT_BRANCH_CONDITIONAL_TWO_INTEGER_REGISTERS
1797 s1 = emit_load_s1(jd, iptr, REG_ITMP1);
1798 s2 = emit_load_s2(jd, iptr, REG_ITMP2);
1799 switch (iptr->opc) {
1800 case ICMD_IF_ICMPEQ:
1801 emit_beq(cd, iptr->dst.block, s1, s2);
1803 case ICMD_IF_ICMPNE:
1804 emit_bne(cd, iptr->dst.block, s1, s2);
1812 case ICMD_IF_ICMPLT: /* ..., value, value ==> ... */
1813 case ICMD_IF_ICMPGT: /* op1 = target JavaVM pc */
1814 case ICMD_IF_ICMPLE:
1815 case ICMD_IF_ICMPGE:
1817 s1 = emit_load_s1(jd, iptr, REG_ITMP1);
1818 s2 = emit_load_s2(jd, iptr, REG_ITMP2);
1819 #if SUPPORT_BRANCH_CONDITIONAL_CONDITION_REGISTER
1820 # if defined(__I386__) || defined(__M68K__) || defined(__X86_64__)
1821 // XXX Fix this soon!!!
1826 emit_bcc(cd, iptr->dst.block, iptr->opc - ICMD_IF_ICMPEQ, BRANCH_OPT_NONE);
1827 #elif SUPPORT_BRANCH_CONDITIONAL_ONE_INTEGER_REGISTER
1828 // Generate architecture specific instructions.
1829 codegen_emit_instruction(jd, iptr);
1831 # error Unable to generate code for this configuration!
1835 case ICMD_IF_LCMPEQ: /* ..., value, value ==> ... */
1836 case ICMD_IF_LCMPNE: /* op1 = target JavaVM pc */
1837 case ICMD_IF_LCMPLT:
1838 case ICMD_IF_LCMPGT:
1839 case ICMD_IF_LCMPLE:
1840 case ICMD_IF_LCMPGE:
1842 // Generate architecture specific instructions.
1843 codegen_emit_instruction(jd, iptr);
1846 case ICMD_RETURN: /* ... ==> ... */
1848 REPLACEMENT_POINT_RETURN(cd, iptr);
1849 goto nowperformreturn;
1851 case ICMD_ARETURN: /* ..., retvalue ==> ... */
1853 REPLACEMENT_POINT_RETURN(cd, iptr);
1854 s1 = emit_load_s1(jd, iptr, REG_RESULT);
1855 // XXX M68K: This should actually be M_ADR2INTMOVE(s1, REG_RESULT);
1856 // XXX Sparc64: Here this should be REG_RESULT_CALLEE!
1857 emit_imove(cd, s1, REG_RESULT);
1859 #ifdef ENABLE_VERIFIER
1860 if (INSTRUCTION_IS_UNRESOLVED(iptr)) {
1862 unresolved_class *uc = iptr->sx.s23.s2.uc;
1863 patcher_add_patch_ref(jd, PATCHER_resolve_class, uc, 0);
1864 PROFILE_CYCLE_START;
1866 #endif /* ENABLE_VERIFIER */
1867 goto nowperformreturn;
1869 case ICMD_IRETURN: /* ..., retvalue ==> ... */
1870 #if defined(ENABLE_SOFTFLOAT)
1874 REPLACEMENT_POINT_RETURN(cd, iptr);
1875 s1 = emit_load_s1(jd, iptr, REG_RESULT);
1876 // XXX Sparc64: Here this should be REG_RESULT_CALLEE!
1877 emit_imove(cd, s1, REG_RESULT);
1878 goto nowperformreturn;
1880 case ICMD_LRETURN: /* ..., retvalue ==> ... */
1881 #if defined(ENABLE_SOFTFLOAT)
1885 REPLACEMENT_POINT_RETURN(cd, iptr);
1886 s1 = emit_load_s1(jd, iptr, REG_LRESULT);
1887 // XXX Sparc64: Here this should be REG_RESULT_CALLEE!
1888 emit_lmove(cd, s1, REG_LRESULT);
1889 goto nowperformreturn;
1891 #if !defined(ENABLE_SOFTFLOAT)
1892 case ICMD_FRETURN: /* ..., retvalue ==> ... */
1894 REPLACEMENT_POINT_RETURN(cd, iptr);
1895 s1 = emit_load_s1(jd, iptr, REG_FRESULT);
1896 #if !defined(SUPPORT_PASS_FLOATARGS_IN_INTREGS)
1897 emit_fmove(cd, s1, REG_FRESULT);
1899 M_CAST_F2I(s1, REG_RESULT);
1901 goto nowperformreturn;
1903 case ICMD_DRETURN: /* ..., retvalue ==> ... */
1905 REPLACEMENT_POINT_RETURN(cd, iptr);
1906 s1 = emit_load_s1(jd, iptr, REG_FRESULT);
1907 #if !defined(SUPPORT_PASS_FLOATARGS_IN_INTREGS)
1908 emit_dmove(cd, s1, REG_FRESULT);
1910 M_CAST_D2L(s1, REG_LRESULT);
1912 goto nowperformreturn;
1916 #if !defined(NDEBUG)
1917 // Call trace function.
1918 if (JITDATA_HAS_FLAG_VERBOSECALL(jd))
1919 emit_verbosecall_exit(jd);
1922 #if defined(ENABLE_THREADS)
1923 // Emit code to call monitorexit function.
1924 if (checksync && code_is_synchronized(code)) {
1925 emit_monitor_exit(jd, rd->memuse * 8);
1929 // Generate method profiling code.
1932 // Emit code for the method epilog.
1933 codegen_emit_epilog(jd);
1937 case ICMD_BUILTIN: /* ..., [arg1, [arg2 ...]] ==> ... */
1939 REPLACEMENT_POINT_FORGC_BUILTIN(cd, iptr);
1941 bte = iptr->sx.s23.s3.bte;
1944 #if defined(ENABLE_ESCAPE_REASON) && defined(__I386__)
1945 if (bte->fp == BUILTIN_escape_reason_new) {
1946 void set_escape_reasons(void *);
1947 M_ASUB_IMM(8, REG_SP);
1948 M_MOV_IMM(iptr->escape_reasons, REG_ITMP1);
1949 M_AST(EDX, REG_SP, 4);
1950 M_AST(REG_ITMP1, REG_SP, 0);
1951 M_MOV_IMM(set_escape_reasons, REG_ITMP1);
1953 M_ALD(EDX, REG_SP, 4);
1954 M_AADD_IMM(8, REG_SP);
1958 // Emit the fast-path if available.
1959 if (bte->emit_fastpath != NULL) {
1960 void (*emit_fastpath)(jitdata* jd, instruction* iptr, int d);
1961 emit_fastpath = (void (*)(jitdata* jd, instruction* iptr, int d)) bte->emit_fastpath;
1963 assert(md->returntype.type == TYPE_VOID);
1966 // Actually call the fast-path emitter.
1967 emit_fastpath(jd, iptr, d);
1969 // If fast-path succeeded, jump to the end of the builtin
1971 // XXX Actually the slow-path block below should be moved
1972 // out of the instruction stream and the jump below should be
1974 #if SUPPORT_BRANCH_CONDITIONAL_ONE_INTEGER_REGISTER
1975 os::abort("codegen_emit: Implement jump over slow-path for this configuration.");
1976 #elif SUPPORT_BRANCH_CONDITIONAL_CONDITION_REGISTER
1978 emit_label_bne(cd, BRANCH_LABEL_10);
1980 # error Unable to generate code for this configuration!
1986 case ICMD_INVOKESTATIC: /* ..., [arg1, [arg2 ...]] ==> ... */
1987 case ICMD_INVOKESPECIAL:/* ..., objectref, [arg1, [arg2 ...]] ==> ... */
1988 case ICMD_INVOKEVIRTUAL:/* op1 = arg count, val.a = method pointer */
1989 case ICMD_INVOKEINTERFACE:
1991 REPLACEMENT_POINT_INVOKE(cd, iptr);
1993 if (INSTRUCTION_IS_UNRESOLVED(iptr)) {
1994 unresolved_method* um = iptr->sx.s23.s3.um;
1995 md = um->methodref->parseddesc.md;
1998 methodinfo* lm = iptr->sx.s23.s3.fmiref->p.method;
1999 md = lm->parseddesc;
2005 // XXX Check this again!
2006 MCODECHECK((i << 1) + 64); // PPC
2008 // Copy arguments to registers or stack location.
2009 for (i = i - 1; i >= 0; i--) {
2010 var = VAR(iptr->sx.s23.s2.args[i]);
2011 d = md->params[i].regoff;
2013 // Already pre-allocated?
2014 if (var->flags & PREALLOC)
2017 if (!md->params[i].inmemory) {
2018 switch (var->type) {
2021 #if defined(ENABLE_SOFTFLOAT)
2024 s1 = emit_load(jd, iptr, var, d);
2025 emit_imove(cd, s1, d);
2029 #if defined(ENABLE_SOFTFLOAT)
2032 s1 = emit_load(jd, iptr, var, d);
2033 emit_lmove(cd, s1, d);
2036 #if !defined(ENABLE_SOFTFLOAT)
2038 #if !defined(SUPPORT_PASS_FLOATARGS_IN_INTREGS)
2039 s1 = emit_load(jd, iptr, var, d);
2040 emit_fmove(cd, s1, d);
2042 s1 = emit_load(jd, iptr, var, REG_FTMP1);
2048 #if !defined(SUPPORT_PASS_FLOATARGS_IN_INTREGS)
2049 s1 = emit_load(jd, iptr, var, d);
2050 emit_dmove(cd, s1, d);
2052 s1 = emit_load(jd, iptr, var, REG_FTMP1);
2060 switch (var->type) {
2062 s1 = emit_load(jd, iptr, var, REG_ITMP1);
2063 // XXX M68K: This should actually be like this:
2064 // s1 = emit_load(jd, iptr, var, REG_ATMP1);
2065 // XXX Sparc64: Here this actually was:
2066 // M_STX(s1, REG_SP, JITSTACK + d);
2067 M_AST(s1, REG_SP, d);
2071 #if defined(ENABLE_SOFTFLOAT)
2074 #if SIZEOF_VOID_P == 4
2075 s1 = emit_load(jd, iptr, var, REG_ITMP1);
2076 M_IST(s1, REG_SP, d);
2083 #if defined(ENABLE_SOFTFLOAT)
2086 s1 = emit_load(jd, iptr, var, REG_LTMP12);
2087 // XXX Sparc64: Here this actually was:
2088 // M_STX(s1, REG_SP, JITSTACK + d);
2089 M_LST(s1, REG_SP, d);
2092 #if !defined(ENABLE_SOFTFLOAT)
2094 #if SIZEOF_VOID_P == 4
2095 s1 = emit_load(jd, iptr, var, REG_FTMP1);
2096 M_FST(s1, REG_SP, d);
2103 s1 = emit_load(jd, iptr, var, REG_FTMP1);
2104 // XXX Sparc64: Here this actually was:
2105 // M_DST(s1, REG_SP, JITSTACK + d);
2106 M_DST(s1, REG_SP, d);
2113 // Generate method profiling code.
2116 // Generate architecture specific instructions.
2117 codegen_emit_instruction(jd, iptr);
2119 // Generate method profiling code.
2120 PROFILE_CYCLE_START;
2122 // Store size of call code in replacement point.
2123 REPLACEMENT_POINT_INVOKE_RETURN(cd, iptr);
2124 REPLACEMENT_POINT_FORGC_BUILTIN_RETURN(cd, iptr);
2126 // Recompute the procedure vector (PV).
2127 emit_recompute_pv(cd);
2129 // Store return value.
2130 #if defined(ENABLE_SSA)
2131 if ((ls == NULL) /* || (!IS_TEMPVAR_INDEX(iptr->dst.varindex)) */ ||
2132 (ls->lifetime[iptr->dst.varindex].type != UNUSED))
2133 /* a "living" stackslot */
2135 switch (md->returntype.type) {
2138 #if defined(ENABLE_SOFTFLOAT)
2141 s1 = codegen_reg_of_dst(jd, iptr, REG_RESULT);
2142 // XXX Sparc64: This should actually be REG_RESULT_CALLER, fix this!
2143 emit_imove(cd, REG_RESULT, s1);
2144 emit_store_dst(jd, iptr, s1);
2148 #if defined(ENABLE_SOFTFLOAT)
2151 s1 = codegen_reg_of_dst(jd, iptr, REG_LRESULT);
2152 // XXX Sparc64: This should actually be REG_RESULT_CALLER, fix this!
2153 emit_lmove(cd, REG_LRESULT, s1);
2154 emit_store_dst(jd, iptr, s1);
2157 #if !defined(ENABLE_SOFTFLOAT)
2159 #if !defined(SUPPORT_PASS_FLOATARGS_IN_INTREGS)
2160 s1 = codegen_reg_of_dst(jd, iptr, REG_FRESULT);
2161 emit_fmove(cd, REG_FRESULT, s1);
2163 s1 = codegen_reg_of_dst(jd, iptr, REG_FTMP1);
2164 M_CAST_I2F(REG_RESULT, s1);
2166 emit_store_dst(jd, iptr, s1);
2170 #if !defined(SUPPORT_PASS_FLOATARGS_IN_INTREGS)
2171 s1 = codegen_reg_of_dst(jd, iptr, REG_FRESULT);
2172 emit_dmove(cd, REG_FRESULT, s1);
2174 s1 = codegen_reg_of_dst(jd, iptr, REG_FTMP1);
2175 M_CAST_L2D(REG_LRESULT, s1);
2177 emit_store_dst(jd, iptr, s1);
2185 // If we are emitting a fast-path block, this is the label for
2186 // successful fast-path execution.
2187 if ((iptr->opc == ICMD_BUILTIN) && (bte->emit_fastpath != NULL)) {
2188 emit_label(cd, BRANCH_LABEL_10);
2193 case ICMD_TABLESWITCH: /* ..., index ==> ... */
2195 // Generate architecture specific instructions.
2196 codegen_emit_instruction(jd, iptr);
2199 case ICMD_LOOKUPSWITCH: /* ..., key ==> ... */
2201 s1 = emit_load_s1(jd, iptr, REG_ITMP1);
2202 i = iptr->sx.s23.s2.lookupcount;
2204 // XXX Again we need to check this
2205 MCODECHECK((i<<2)+8); // Alpha, ARM, i386, MIPS, M68K, Sparc64
2206 MCODECHECK((i<<3)+8); // PPC64
2207 MCODECHECK(8 + ((7 + 6) * i) + 5); // X86_64, S390
2210 for (lookup_target_t* lookup = iptr->dst.lookup; i > 0; ++lookup, --i) {
2211 #if SUPPORT_BRANCH_CONDITIONAL_CONDITION_REGISTER
2212 emit_icmp_imm(cd, s1, lookup->value);
2213 emit_beq(cd, lookup->target.block);
2214 #elif SUPPORT_BRANCH_CONDITIONAL_TWO_INTEGER_REGISTERS
2215 ICONST(REG_ITMP2, lookup->value);
2216 emit_beq(cd, lookup->target.block, s1, REG_ITMP2);
2217 #elif SUPPORT_BRANCH_CONDITIONAL_ONE_INTEGER_REGISTER
2218 emit_icmpeq_imm(cd, s1, lookup->value, REG_ITMP2);
2219 emit_bnez(cd, lookup->target.block, REG_ITMP2);
2221 # error Unable to generate code for this configuration!
2226 emit_br(cd, iptr->sx.s23.s3.lookupdefault.block);
2230 case ICMD_CHECKCAST: /* ..., objectref ==> ..., objectref */
2231 case ICMD_INSTANCEOF: /* ..., objectref ==> ..., intresult */
2232 case ICMD_MULTIANEWARRAY:/* ..., cnt1, [cnt2, ...] ==> ..., arrayref */
2234 // Generate architecture specific instructions.
2235 codegen_emit_instruction(jd, iptr);
2239 exceptions_throw_internalerror("Unknown ICMD %d during code generation",
2245 } // for all instructions
2247 #if defined(ENABLE_SSA)
2248 // By edge splitting, in blocks with phi moves there can only
2249 // be a goto as last command, no other jump/branch command.
2251 if (!last_cmd_was_goto)
2252 codegen_emit_phi_moves(jd, bptr);
2256 #if defined(__I386__) || defined(__M68K__) || defined(__MIPS__) || defined(__S390__) || defined(__SPARC_64__) || defined(__X86_64__)
2258 /* XXX require a lower number? */
2259 MCODECHECK(64); // I386, MIPS, Sparc64
2260 MCODECHECK(512); // S390, X86_64
2262 /* XXX We can remove that when we don't use UD2 anymore on i386
2265 /* At the end of a basic block we may have to append some nops,
2266 because the patcher stub calling code might be longer than the
2267 actual instruction. So codepatching does not change the
2268 following block unintentionally. */
2270 if (cd->mcodeptr < cd->lastmcodeptr) {
2271 while (cd->mcodeptr < cd->lastmcodeptr) {
2277 } // for all basic blocks
2280 emit_patcher_traps(jd);
2287 /* codegen_emit_phi_moves ****************************************************
2289 Emits phi moves at the end of the basicblock.
2291 *******************************************************************************/
2293 #if defined(ENABLE_SSA)
2294 void codegen_emit_phi_moves(jitdata *jd, basicblock *bptr)
2307 /* Moves from phi functions with highest indices have to be */
2308 /* inserted first, since this is the order as is used for */
2309 /* conflict resolution */
2311 for(i = ls->num_phi_moves[bptr->nr] - 1; i >= 0 ; i--) {
2312 lt_d = ls->phi_moves[bptr->nr][i][0];
2313 lt_s = ls->phi_moves[bptr->nr][i][1];
2314 #if defined(SSA_DEBUG_VERBOSE)
2316 printf("BB %3i Move %3i <- %3i ", bptr->nr, lt_d, lt_s);
2318 if (lt_s == UNUSED) {
2319 #if defined(SSA_DEBUG_VERBOSE)
2321 printf(" ... not processed \n");
2326 d = VAR(ls->lifetime[lt_d].v_index);
2327 s = VAR(ls->lifetime[lt_s].v_index);
2330 if (d->type == -1) {
2331 #if defined(SSA_DEBUG_VERBOSE)
2333 printf("...returning - phi lifetimes where joined\n");
2338 if (s->type == -1) {
2339 #if defined(SSA_DEBUG_VERBOSE)
2341 printf("...returning - phi lifetimes where joined\n");
2347 tmp_i.s1.varindex = ls->lifetime[lt_s].v_index;
2348 tmp_i.dst.varindex = ls->lifetime[lt_d].v_index;
2349 emit_copy(jd, &tmp_i);
2351 #if defined(SSA_DEBUG_VERBOSE)
2352 if (compileverbose) {
2353 if (IS_INMEMORY(d->flags) && IS_INMEMORY(s->flags)) {
2355 printf("M%3i <- M%3i",d->vv.regoff,s->vv.regoff);
2357 else if (IS_INMEMORY(s->flags)) {
2359 printf("R%3i <- M%3i",d->vv.regoff,s->vv.regoff);
2361 else if (IS_INMEMORY(d->flags)) {
2363 printf("M%3i <- R%3i",d->vv.regoff,s->vv.regoff);
2367 printf("R%3i <- R%3i",d->vv.regoff,s->vv.regoff);
2371 #endif /* defined(SSA_DEBUG_VERBOSE) */
2374 #endif /* defined(ENABLE_SSA) */
2377 /* REMOVEME When we have exception handling in C. */
2379 void *md_asm_codegen_get_pv_from_pc(void *ra)
2381 return md_codegen_get_pv_from_pc(ra);
2386 * These are local overrides for various environment variables in Emacs.
2387 * Please do not remove this and leave it at the end of the file, where
2388 * Emacs will automagically detect them.
2389 * ---------------------------------------------------------------------
2392 * indent-tabs-mode: t
2396 * vim:noexpandtab:sw=4:ts=4: