-/*
- * ir-emit.h: IR Creation/Emission Macros
+/**
+ * \file
+ * IR Creation/Emission Macros
*
* Author:
* Zoltan Varga (vargaz@gmail.com)
return vreg;
}
+static inline guint32
+alloc_xreg (MonoCompile *cfg)
+{
+ return alloc_ireg (cfg);
+}
+
static inline guint32
alloc_dreg (MonoCompile *cfg, MonoStackType stack_type)
{
}
}
+/*
+ * Macros used to generate intermediate representation macros
+ *
+ * The macros use a `MonoConfig` object as its context, and among other
+ * things it is used to associate instructions with the memory pool with
+ * it.
+ *
+ * The macros come in three variations with slightly different
+ * features, the patter is: NEW_OP, EMIT_NEW_OP, MONO_EMIT_NEW_OP,
+ * the differences are as follows:
+ *
+ * `NEW_OP`: these are the basic macros to setup an instruction that is
+ * passed as an argument.
+ *
+ * `EMIT_NEW_OP`: these macros in addition to creating the instruction
+ * add the instruction to the current basic block in the `MonoConfig`
+ * object passed. Usually these are used when further customization of
+ * the `inst` parameter is desired before the instruction is added to the
+ * MonoConfig current basic block.
+ *
+ * `MONO_EMIT_NEW_OP`: These variations of the instructions are used when
+ * you are merely interested in emitting the instruction into the `MonoConfig`
+ * parameter.
+ */
#undef MONO_INST_NEW
/*
* FIXME: zeroing out some fields is not needed with the new IR, but the old
* JIT code still uses the left and right fields, so it has to stay.
*/
+
+/*
+ * MONO_INST_NEW: create a new MonoInst instance that is allocated on the MonoConfig pool.
+ *
+ * @cfg: the MonoConfig object that will be used as the context for the
+ * instruction.
+ * @dest: this is the place where the instance of the `MonoInst` is stored.
+ * @op: the value that should be stored in the MonoInst.opcode field
+ *
+ * This initializes an empty MonoInst that has been nulled out, it is allocated
+ * from the memory pool associated with the MonoConfig, but it is not linked anywhere.
+ * the cil_code is set to the cfg->ip address.
+ */
#define MONO_INST_NEW(cfg,dest,op) do { \
(dest) = (MonoInst *)mono_mempool_alloc ((cfg)->mempool, sizeof (MonoInst)); \
(dest)->inst_c0 = (dest)->inst_c1 = 0; \
(dest)->inst_imm = (imm); \
} while (0)
-#ifdef MONO_ARCH_NEED_GOT_VAR
-
#define NEW_PATCH_INFO(cfg,dest,el1,el2) do { \
MONO_INST_NEW ((cfg), (dest), OP_PATCH_INFO); \
(dest)->inst_left = (gpointer)(el1); \
(dest)->inst_right = (gpointer)(el2); \
} while (0)
-/* FIXME: Add the PUSH_GOT_ENTRY optimizations */
-#define NEW_AOTCONST(cfg,dest,patch_type,cons) do { \
+#define NEW_AOTCONST_GOT_VAR(cfg,dest,patch_type,cons) do { \
MONO_INST_NEW ((cfg), (dest), cfg->compile_aot ? OP_GOT_ENTRY : OP_PCONST); \
if (cfg->compile_aot) { \
MonoInst *group, *got_loc; \
(dest)->dreg = alloc_dreg ((cfg), STACK_PTR); \
} while (0)
-#define NEW_AOTCONST_TOKEN(cfg,dest,patch_type,image,token,generic_context,stack_type,stack_class) do { \
+#define NEW_AOTCONST_TOKEN_GOT_VAR(cfg,dest,patch_type,image,token,generic_context,stack_type,stack_class) do { \
MonoInst *group, *got_loc; \
MONO_INST_NEW ((cfg), (dest), OP_GOT_ENTRY); \
got_loc = mono_get_got_var (cfg); \
(dest)->dreg = alloc_dreg ((cfg), (stack_type)); \
} while (0)
-#else
-
#define NEW_AOTCONST(cfg,dest,patch_type,cons) do { \
+ if (cfg->backend->need_got_var && !cfg->llvm_only) { \
+ NEW_AOTCONST_GOT_VAR ((cfg), (dest), (patch_type), (cons)); \
+ } else { \
MONO_INST_NEW ((cfg), (dest), cfg->compile_aot ? OP_AOTCONST : OP_PCONST); \
(dest)->inst_p0 = (cons); \
(dest)->inst_i1 = (MonoInst *)(patch_type); \
(dest)->type = STACK_PTR; \
(dest)->dreg = alloc_dreg ((cfg), STACK_PTR); \
+ } \
} while (0)
#define NEW_AOTCONST_TOKEN(cfg,dest,patch_type,image,token,generic_context,stack_type,stack_class) do { \
+ if (cfg->backend->need_got_var && !cfg->llvm_only) { \
+ NEW_AOTCONST_TOKEN_GOT_VAR ((cfg), (dest), (patch_type), (image), (token), (generic_context), (stack_type), (stack_class)); \
+ } else { \
MONO_INST_NEW ((cfg), (dest), OP_AOTCONST); \
(dest)->inst_p0 = mono_jump_info_token_new2 ((cfg)->mempool, (image), (token), (generic_context)); \
(dest)->inst_p1 = (gpointer)(patch_type); \
(dest)->type = (stack_type); \
(dest)->klass = (stack_class); \
(dest)->dreg = alloc_dreg ((cfg), (stack_type)); \
+ } \
} while (0)
-#endif
-
#define NEW_CLASSCONST(cfg,dest,val) NEW_AOTCONST ((cfg), (dest), MONO_PATCH_INFO_CLASS, (val))
#define NEW_IMAGECONST(cfg,dest,val) NEW_AOTCONST ((cfg), (dest), MONO_PATCH_INFO_IMAGE, (val))
#define NEW_LDSTRLITCONST(cfg,dest,val) NEW_AOTCONST ((cfg), (dest), MONO_PATCH_INFO_LDSTR_LIT, (val))
-#define NEW_TYPE_FROM_HANDLE_CONST(cfg,dest,image,token,generic_context) NEW_AOTCONST_TOKEN ((cfg), (dest), MONO_PATCH_INFO_TYPE_FROM_HANDLE, (image), (token), (generic_context), STACK_OBJ, mono_defaults.monotype_class)
+#define NEW_TYPE_FROM_HANDLE_CONST(cfg,dest,image,token,generic_context) NEW_AOTCONST_TOKEN ((cfg), (dest), MONO_PATCH_INFO_TYPE_FROM_HANDLE, (image), (token), (generic_context), STACK_OBJ, mono_defaults.runtimetype_class)
#define NEW_LDTOKENCONST(cfg,dest,image,token,generic_context) NEW_AOTCONST_TOKEN ((cfg), (dest), MONO_PATCH_INFO_LDTOKEN, (image), (token), (generic_context), STACK_PTR, NULL)
-#define NEW_TLS_OFFSETCONST(cfg,dest,key) do { \
- if (cfg->compile_aot) { \
- NEW_AOTCONST ((cfg), (dest), MONO_PATCH_INFO_TLS_OFFSET, GINT_TO_POINTER (key)); \
- } else { \
- int _offset = mini_get_tls_offset ((key)); \
- NEW_PCONST ((cfg), (dest), GINT_TO_POINTER (_offset)); \
- } \
- } while (0)
-
#define NEW_DECLSECCONST(cfg,dest,image,entry) do { \
if (cfg->compile_aot) { \
NEW_AOTCONST_TOKEN (cfg, dest, MONO_PATCH_INFO_DECLSEC, image, (entry).index, NULL, STACK_OBJ, NULL); \
(dest)->dreg = alloc_dreg ((cfg), STACK_MP); \
(cfg)->has_indirection = TRUE; \
if (G_UNLIKELY (cfg->gsharedvt) && mini_is_gsharedvt_variable_type ((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; } \
+ if (SIZEOF_REGISTER == 4 && DECOMPOSE_INTO_REGPAIR ((var)->type)) { MonoInst *var1 = get_vreg_to_inst (cfg, MONO_LVREG_LS ((var)->dreg)); MonoInst *var2 = get_vreg_to_inst (cfg, MONO_LVREG_MS ((var)->dreg)); g_assert (var1); g_assert (var2); var1->flags |= MONO_INST_INDIRECT; var2->flags |= MONO_INST_INDIRECT; } \
} while (0)
#define NEW_VARSTORE(cfg,dest,var,vartype,inst) do { \
#define EMIT_NEW_LDSTRLITCONST(cfg,dest,val) do { NEW_AOTCONST ((cfg), (dest), MONO_PATCH_INFO_LDSTR_LIT, (val)); MONO_ADD_INS ((cfg)->cbb, (dest)); } while (0)
-#define EMIT_NEW_TYPE_FROM_HANDLE_CONST(cfg,dest,image,token,generic_context) do { NEW_AOTCONST_TOKEN ((cfg), (dest), MONO_PATCH_INFO_TYPE_FROM_HANDLE, (image), (token), (generic_context), STACK_OBJ, mono_defaults.monotype_class); MONO_ADD_INS ((cfg)->cbb, (dest)); } while (0)
+#define EMIT_NEW_TYPE_FROM_HANDLE_CONST(cfg,dest,image,token,generic_context) do { NEW_AOTCONST_TOKEN ((cfg), (dest), MONO_PATCH_INFO_TYPE_FROM_HANDLE, (image), (token), (generic_context), STACK_OBJ, mono_defaults.runtimetype_class); MONO_ADD_INS ((cfg)->cbb, (dest)); } while (0)
#define EMIT_NEW_LDTOKENCONST(cfg,dest,image,token,generic_context) do { NEW_AOTCONST_TOKEN ((cfg), (dest), MONO_PATCH_INFO_LDTOKEN, (image), (token), (generic_context), STACK_PTR, NULL); MONO_ADD_INS ((cfg)->cbb, (dest)); } while (0)
ins->inst_false_bb = NULL; \
mono_link_bblock ((cfg), (cfg)->cbb, (truebb)); \
MONO_ADD_INS ((cfg)->cbb, ins); \
- 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"))) { \
+ char *count2 = g_getenv ("COUNT2"); \
+ if (count2 && ccount == atoi (count2) - 1) { printf ("HIT: %d\n", cfg->cbb->block_num); } \
+ if (count2 && ccount < atoi (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); } \
+ if (count2) g_free (count2); \
} \
} while (0)
#else