#define NEW_JIT_ICALL_ADDRCONST(cfg,dest,name) NEW_AOTCONST ((cfg), (dest), MONO_PATCH_INFO_JIT_ICALL_ADDR, (name))
-#define GET_VARINFO_INST(cfg,num) ((cfg)->varinfo [(num)]->inst)
-
#define NEW_VARLOAD(cfg,dest,var,vartype) do { \
MONO_INST_NEW ((cfg), (dest), OP_MOVE); \
(dest)->opcode = mono_type_to_regmove ((cfg), (vartype)); \
(dest)->type = STACK_MP; \
(dest)->klass = (var)->klass; \
(dest)->dreg = alloc_dreg ((cfg), STACK_MP); \
+ (cfg)->has_indirection = TRUE; \
if (G_UNLIKELY (cfg->gsharedvt) && mini_is_gsharedvt_variable_type ((cfg), (var)->inst_vtype)) { handle_gsharedvt_ldaddr ((cfg)); } \
if (SIZEOF_REGISTER == 4 && DECOMPOSE_INTO_REGPAIR ((var)->type)) { MonoInst *var1 = get_vreg_to_inst (cfg, (var)->dreg + 1); MonoInst *var2 = get_vreg_to_inst (cfg, (var)->dreg + 2); g_assert (var1); g_assert (var2); var1->flags |= MONO_INST_INDIRECT; var2->flags |= MONO_INST_INDIRECT; } \
} while (0)
} while (0)
#define NEW_SEQ_POINT(cfg,dest,il_offset,intr_loc) do { \
- MONO_INST_NEW ((cfg), (dest), OP_SEQ_POINT); \
+ MONO_INST_NEW ((cfg), (dest), cfg->gen_seq_points_debug_data ? OP_SEQ_POINT : OP_IL_SEQ_POINT); \
(dest)->inst_imm = (il_offset); \
(dest)->flags = intr_loc ? MONO_INST_SINGLE_STEP_LOC : 0; \
} while (0)
MonoInst *iargs [2]; \
iargs [0] = (inst); \
EMIT_NEW_VARLOADA (cfg, iargs [1], (var), (vartype)); \
- mono_emit_jit_icall (cfg, mono_fstore_r4, iargs); \
+ (dest) = mono_emit_jit_icall (cfg, mono_fstore_r4, iargs); \
} else { \
EMIT_NEW_VARSTORE ((cfg), (dest), (var), (vartype), (inst)); \
} \
MONO_ADD_INS ((cfg)->cbb, inst); \
} while (0)
+#define MONO_EMIT_NEW_DUMMY_INIT(cfg,dr,op) do { \
+ MonoInst *inst; \
+ MONO_INST_NEW ((cfg), (inst), (op)); \
+ inst->dreg = dr; \
+ MONO_ADD_INS ((cfg)->cbb, inst); \
+ } while (0)
+
#ifdef MONO_ARCH_NEED_GOT_VAR
#define MONO_EMIT_NEW_AOTCONST(cfg,dr,cons,patch_type) do { \
ins->inst_false_bb = NULL; \
mono_link_bblock ((cfg), (cfg)->cbb, (truebb)); \
MONO_ADD_INS ((cfg)->cbb, ins); \
- if (getenv ("COUNT2") && ccount == atoi (getenv ("COUNT2")) - 1) { printf ("HIT: %d\n", cfg->cbb->block_num); } \
- if (getenv ("COUNT2") && ccount < atoi (getenv ("COUNT2"))) { \
+ if (g_getenv ("COUNT2") && ccount == atoi (g_getenv ("COUNT2")) - 1) { printf ("HIT: %d\n", cfg->cbb->block_num); } \
+ if (g_getenv ("COUNT2") && ccount < atoi (g_getenv ("COUNT2"))) { \
cfg->cbb->extended = TRUE; \
} else { NEW_BBLOCK ((cfg), falsebb); ins->inst_false_bb = (falsebb); mono_link_bblock ((cfg), (cfg)->cbb, (falsebb)); MONO_START_BB ((cfg), falsebb); } \
} \
/* Loads/Stores which can fault are handled correctly by the LLVM mono branch */
#define MONO_EMIT_NEW_IMPLICIT_EXCEPTION_LOAD_STORE(cfg) do { \
- if (COMPILE_LLVM (cfg) && !IS_LLVM_MONO_BRANCH) \
- MONO_EMIT_NEW_IMPLICIT_EXCEPTION ((cfg)); \
} while (0)
/* Emit an explicit null check which doesn't depend on SIGSEGV signal handling */
int __ins_flags = ins_flags; \
if (__ins_flags & MONO_INST_FAULT) { \
MONO_EMIT_NULL_CHECK ((cfg), (base)); \
- if (cfg->explicit_null_checks) \
- __ins_flags &= ~MONO_INST_FAULT; \
} \
NEW_LOAD_MEMBASE ((cfg), (dest), (op), (dr), (base), (offset)); \
(dest)->flags = (__ins_flags); \
int __ins_flags = ins_flags; \
if (__ins_flags & MONO_INST_FAULT) { \
MONO_EMIT_NULL_CHECK ((cfg), (base)); \
- if (cfg->explicit_null_checks) \
- __ins_flags &= ~MONO_INST_FAULT; \
} \
NEW_LOAD_MEMBASE ((cfg), (inst), (op), (dr), (base), (offset)); \
inst->flags = (__ins_flags); \
#define MONO_EMIT_NEW_LOAD_MEMBASE_FAULT(cfg,dr,base,offset) MONO_EMIT_NEW_LOAD_MEMBASE_OP_FAULT ((cfg), (OP_LOAD_MEMBASE), (dr), (base), (offset))
+#define NEW_LOAD_MEMBASE_INVARIANT(cfg,dest,op,dr,base,offset) NEW_LOAD_MEMBASE_FLAGS ((cfg), (dest), (op), (dr), (base), (offset), MONO_INST_INVARIANT_LOAD)
+
+#define MONO_EMIT_NEW_LOAD_MEMBASE_OP_INVARIANT(cfg,op,dr,base,offset) MONO_EMIT_NEW_LOAD_MEMBASE_OP_FLAGS ((cfg), (op), (dr), (base), (offset), MONO_INST_INVARIANT_LOAD)
+
+#define MONO_EMIT_NEW_LOAD_MEMBASE_INVARIANT(cfg,dr,base,offset) MONO_EMIT_NEW_LOAD_MEMBASE_OP_INVARIANT ((cfg), (OP_LOAD_MEMBASE), (dr), (base), (offset))
+
/*Object Model related macros*/
/* Default bounds check implementation for most architectures + llvm */
if (fault) \
MONO_EMIT_NEW_LOAD_MEMBASE_OP_FAULT (cfg, OP_LOADI4_MEMBASE, _length_reg, array_reg, offset); \
else \
- MONO_EMIT_NEW_LOAD_MEMBASE_OP_FLAGS (cfg, OP_LOADI4_MEMBASE, _length_reg, array_reg, offset, MONO_INST_CONSTANT_LOAD); \
+ MONO_EMIT_NEW_LOAD_MEMBASE_OP_FLAGS (cfg, OP_LOADI4_MEMBASE, _length_reg, array_reg, offset, MONO_INST_INVARIANT_LOAD); \
MONO_EMIT_NEW_BIALU (cfg, OP_COMPARE, -1, _length_reg, index_reg); \
MONO_EMIT_NEW_COND_EXC (cfg, LE_UN, "IndexOutOfRangeException"); \
} while (0)
if (!(cfg->opt & MONO_OPT_ABCREM)) { \
MONO_EMIT_NULL_CHECK (cfg, array_reg); \
if (COMPILE_LLVM (cfg)) \
- MONO_EMIT_DEFAULT_BOUNDS_CHECK ((cfg), (array_reg), G_STRUCT_OFFSET (array_type, array_length_field), (index_reg), TRUE); \
+ MONO_EMIT_DEFAULT_BOUNDS_CHECK ((cfg), (array_reg), MONO_STRUCT_OFFSET (array_type, array_length_field), (index_reg), TRUE); \
else \
- MONO_ARCH_EMIT_BOUNDS_CHECK ((cfg), (array_reg), G_STRUCT_OFFSET (array_type, array_length_field), (index_reg)); \
+ MONO_ARCH_EMIT_BOUNDS_CHECK ((cfg), (array_reg), MONO_STRUCT_OFFSET (array_type, array_length_field), (index_reg)); \
} else { \
MonoInst *ins; \
MONO_INST_NEW ((cfg), ins, OP_BOUNDS_CHECK); \
ins->sreg1 = array_reg; \
ins->sreg2 = index_reg; \
- ins->inst_imm = G_STRUCT_OFFSET (array_type, array_length_field); \
+ ins->inst_imm = MONO_STRUCT_OFFSET (array_type, array_length_field); \
ins->flags |= MONO_INST_FAULT; \
MONO_ADD_INS ((cfg)->cbb, ins); \
(cfg)->flags |= MONO_CFG_HAS_ARRAY_ACCESS; \