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* win32/Makefile.sub (LIBRUBYARG_SHARED): define for MJIT because it is used in common.mk. * mjit.c (make_pch): skip temporary for mswin. * mjit.c (compile_c_to_so, init_header_filename, mjit_init): mswin support. * mjig_compile.c (mjit_compile): ditto. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@62267 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
169 lines
6.2 KiB
C
169 lines
6.2 KiB
C
/**********************************************************************
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mjit_compile.c - MRI method JIT compiler
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Copyright (C) 2017 Takashi Kokubun <takashikkbn@gmail.com>.
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**********************************************************************/
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#include "internal.h"
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#include "vm_core.h"
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#include "vm_exec.h"
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#include "mjit.h"
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#include "insns.inc"
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#include "insns_info.inc"
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#include "vm_insnhelper.h"
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/* Storage to keep compiler's status. This should have information
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which is global during one `mjit_compile` call. Ones conditional
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in each branch should be stored in `compile_branch`. */
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struct compile_status {
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int success; /* has TRUE if compilation has had no issue */
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int *compiled_for_pos; /* compiled_for_pos[pos] has TRUE if the pos is compiled */
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};
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/* Storage to keep data which is consistent in each conditional branch.
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This is created and used for one `compile_insns` call and its values
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should be copied for extra `compile_insns` call. */
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struct compile_branch {
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unsigned int stack_size; /* this simulates sp (stack pointer) of YARV */
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int finish_p; /* if TRUE, compilation in this branch should stop and let another branch to be compiled */
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};
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struct case_dispatch_var {
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FILE *f;
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unsigned int base_pos;
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VALUE last_value;
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};
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/* Returns iseq from cc if it's available and still not obsoleted. */
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static const rb_iseq_t *
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get_iseq_if_available(CALL_CACHE cc)
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{
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if (GET_GLOBAL_METHOD_STATE() == cc->method_state
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&& mjit_valid_class_serial_p(cc->class_serial)
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&& cc->me && cc->me->def->type == VM_METHOD_TYPE_ISEQ) {
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return rb_iseq_check(cc->me->def->body.iseq.iseqptr);
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}
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return NULL;
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}
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/* Returns TRUE if iseq is inlinable, otherwise NULL. This becomes TRUE in the same condition
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as CI_SET_FASTPATH (in vm_callee_setup_arg) is called from vm_call_iseq_setup. */
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static int
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inlinable_iseq_p(CALL_INFO ci, CALL_CACHE cc, const rb_iseq_t *iseq)
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{
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extern int rb_simple_iseq_p(const rb_iseq_t *iseq);
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return iseq != NULL
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&& rb_simple_iseq_p(iseq) && !(ci->flag & VM_CALL_KW_SPLAT) /* top of vm_callee_setup_arg */
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&& (!IS_ARGS_SPLAT(ci) && !IS_ARGS_KEYWORD(ci) && !(METHOD_ENTRY_VISI(cc->me) == METHOD_VISI_PROTECTED)); /* CI_SET_FASTPATH */
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}
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static int
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compile_case_dispatch_each(VALUE key, VALUE value, VALUE arg)
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{
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struct case_dispatch_var *var = (struct case_dispatch_var *)arg;
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unsigned int offset;
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if (var->last_value != value) {
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offset = FIX2INT(value);
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var->last_value = value;
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fprintf(var->f, " case %d:\n", offset);
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fprintf(var->f, " goto label_%d;\n", var->base_pos + offset);
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fprintf(var->f, " break;\n");
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}
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return ST_CONTINUE;
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}
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static void compile_insns(FILE *f, const struct rb_iseq_constant_body *body, unsigned int stack_size,
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unsigned int pos, struct compile_status *status);
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/* Main function of JIT compilation, vm_exec_core counterpart for JIT. Compile one insn to `f`, may modify
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b->stack_size and return next position.
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When you add a new instruction to insns.def, it would be nice to have JIT compilation support here but
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it's optional. This JIT compiler just ignores ISeq which includes unknown instruction, and ISeq which
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does not have it can be compiled as usual. */
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static unsigned int
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compile_insn(FILE *f, const struct rb_iseq_constant_body *body, const int insn, const VALUE *operands,
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const unsigned int pos, struct compile_status *status, struct compile_branch *b)
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{
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unsigned int next_pos = pos + insn_len(insn);
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/*****************/
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#include "mjit_compile.inc"
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/*****************/
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return next_pos;
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}
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/* Compile one conditional branch. If it has branchXXX insn, this should be
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called multiple times for each branch. */
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static void
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compile_insns(FILE *f, const struct rb_iseq_constant_body *body, unsigned int stack_size,
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unsigned int pos, struct compile_status *status)
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{
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int insn;
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struct compile_branch branch;
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branch.stack_size = stack_size;
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branch.finish_p = FALSE;
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while (pos < body->iseq_size && !status->compiled_for_pos[pos] && !branch.finish_p) {
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#if OPT_DIRECT_THREADED_CODE || OPT_CALL_THREADED_CODE
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insn = rb_vm_insn_addr2insn((void *)body->iseq_encoded[pos]);
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#else
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insn = (int)body->iseq_encoded[pos];
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#endif
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status->compiled_for_pos[pos] = TRUE;
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fprintf(f, "\nlabel_%d: /* %s */\n", pos, insn_name(insn));
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pos = compile_insn(f, body, insn, body->iseq_encoded + (pos+1), pos, status, &branch);
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if (status->success && branch.stack_size > body->stack_max) {
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if (mjit_opts.warnings || mjit_opts.verbose)
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fprintf(stderr, "MJIT warning: JIT stack exceeded its max\n");
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status->success = FALSE;
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}
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if (!status->success)
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break;
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}
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}
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/* Compile ISeq to C code in F. It returns 1 if it succeeds to compile. */
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int
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mjit_compile(FILE *f, const struct rb_iseq_constant_body *body, const char *funcname)
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{
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struct compile_status status;
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status.success = TRUE;
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status.compiled_for_pos = ZALLOC_N(int, body->iseq_size);
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#ifdef _WIN32
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fprintf(f, "__declspec(dllexport)\n");
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#endif
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fprintf(f, "VALUE\n%s(rb_execution_context_t *ec, rb_control_frame_t *reg_cfp)\n{\n", funcname);
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fprintf(f, " VALUE *stack = reg_cfp->sp;\n");
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/* Simulate `opt_pc` in setup_parameters_complex */
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if (body->param.flags.has_opt) {
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int i;
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fprintf(f, "\n");
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fprintf(f, " switch (reg_cfp->pc - reg_cfp->iseq->body->iseq_encoded) {\n");
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for (i = 0; i <= body->param.opt_num; i++) {
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VALUE pc_offset = body->param.opt_table[i];
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fprintf(f, " case %"PRIdVALUE":\n", pc_offset);
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fprintf(f, " goto label_%"PRIdVALUE";\n", pc_offset);
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}
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fprintf(f, " }\n");
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}
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/* ISeq might be used for catch table too. For that usage, this code cancels JIT execution. */
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fprintf(f, " if (reg_cfp->pc != 0x%"PRIxVALUE") {\n", (VALUE)body->iseq_encoded);
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fprintf(f, " return Qundef;\n");
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fprintf(f, " }\n");
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compile_insns(f, body, 0, 0, &status);
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fprintf(f, "\n} /* end of %s */\n", funcname);
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xfree(status.compiled_for_pos);
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return status.success;
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}
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