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|
/**********************************************************************
vm.c -
$Author$
Copyright (C) 2004-2007 Koichi Sasada
**********************************************************************/
#include "ruby/ruby.h"
#include "ruby/vm.h"
#include "ruby/st.h"
#include "ruby/encoding.h"
#include "internal.h"
#include "gc.h"
#include "vm_core.h"
#include "iseq.h"
#include "eval_intern.h"
#include "probes.h"
#include "probes_helper.h"
static inline VALUE *
VM_EP_LEP(VALUE *ep)
{
while (!VM_EP_LEP_P(ep)) {
ep = VM_EP_PREV_EP(ep);
}
return ep;
}
VALUE *
rb_vm_ep_local_ep(VALUE *ep)
{
return VM_EP_LEP(ep);
}
static inline VALUE *
VM_CF_LEP(rb_control_frame_t *cfp)
{
return VM_EP_LEP(cfp->ep);
}
static inline VALUE *
VM_CF_PREV_EP(rb_control_frame_t * cfp)
{
return VM_EP_PREV_EP((cfp)->ep);
}
static inline rb_block_t *
VM_CF_BLOCK_PTR(rb_control_frame_t *cfp)
{
VALUE *ep = VM_CF_LEP(cfp);
return VM_EP_BLOCK_PTR(ep);
}
rb_block_t *
rb_vm_control_frame_block_ptr(rb_control_frame_t *cfp)
{
return VM_CF_BLOCK_PTR(cfp);
}
#if VM_COLLECT_USAGE_DETAILS
static void vm_collect_usage_operand(int insn, int n, VALUE op);
static void vm_collect_usage_insn(int insn);
static void vm_collect_usage_register(int reg, int isset);
#endif
static VALUE
vm_invoke_proc(rb_thread_t *th, rb_proc_t *proc, VALUE self, VALUE defined_class,
int argc, const VALUE *argv, const rb_block_t *blockptr);
#include "vm_insnhelper.h"
#include "vm_insnhelper.c"
#include "vm_exec.h"
#include "vm_exec.c"
#include "vm_method.c"
#include "vm_eval.c"
#include <assert.h>
#define BUFSIZE 0x100
#define PROCDEBUG 0
VALUE rb_cRubyVM;
VALUE rb_cThread;
VALUE rb_cEnv;
VALUE rb_mRubyVMFrozenCore;
VALUE ruby_vm_const_missing_count = 0;
char ruby_vm_redefined_flag[BOP_LAST_];
rb_thread_t *ruby_current_thread = 0;
rb_vm_t *ruby_current_vm = 0;
rb_event_flag_t ruby_vm_event_flags;
static void thread_free(void *ptr);
void
rb_vm_change_state(void)
{
INC_VM_STATE_VERSION();
}
static void vm_clear_global_method_cache(void);
static void
vm_clear_all_inline_method_cache(void)
{
/* TODO: Clear all inline cache entries in all iseqs.
How to iterate all iseqs in sweep phase?
rb_objspace_each_objects() doesn't work at sweep phase.
*/
}
static void
vm_clear_all_cache()
{
vm_clear_global_method_cache();
vm_clear_all_inline_method_cache();
ruby_vm_global_state_version = 1;
}
void
rb_vm_inc_const_missing_count(void)
{
ruby_vm_const_missing_count +=1;
}
/* control stack frame */
static void
vm_set_top_stack(rb_thread_t * th, VALUE iseqval)
{
rb_iseq_t *iseq;
GetISeqPtr(iseqval, iseq);
if (iseq->type != ISEQ_TYPE_TOP) {
rb_raise(rb_eTypeError, "Not a toplevel InstructionSequence");
}
/* for return */
vm_push_frame(th, iseq, VM_FRAME_MAGIC_TOP | VM_FRAME_FLAG_FINISH,
th->top_self, rb_cObject, VM_ENVVAL_BLOCK_PTR(0),
iseq->iseq_encoded, th->cfp->sp, iseq->local_size, 0, iseq->stack_max);
}
static void
vm_set_eval_stack(rb_thread_t * th, VALUE iseqval, const NODE *cref, rb_block_t *base_block)
{
rb_iseq_t *iseq;
GetISeqPtr(iseqval, iseq);
vm_push_frame(th, iseq, VM_FRAME_MAGIC_EVAL | VM_FRAME_FLAG_FINISH,
base_block->self, base_block->klass,
VM_ENVVAL_PREV_EP_PTR(base_block->ep), iseq->iseq_encoded,
th->cfp->sp, iseq->local_size, 0, iseq->stack_max);
if (cref) {
th->cfp->ep[-1] = (VALUE)cref;
}
}
static void
vm_set_main_stack(rb_thread_t *th, VALUE iseqval)
{
VALUE toplevel_binding = rb_const_get(rb_cObject, rb_intern("TOPLEVEL_BINDING"));
rb_binding_t *bind;
rb_iseq_t *iseq;
rb_env_t *env;
GetBindingPtr(toplevel_binding, bind);
GetEnvPtr(bind->env, env);
vm_set_eval_stack(th, iseqval, 0, &env->block);
/* save binding */
GetISeqPtr(iseqval, iseq);
if (bind && iseq->local_size > 0) {
bind->env = rb_vm_make_env_object(th, th->cfp);
}
}
rb_control_frame_t *
rb_vm_get_binding_creatable_next_cfp(rb_thread_t *th, const rb_control_frame_t *cfp)
{
while (!RUBY_VM_CONTROL_FRAME_STACK_OVERFLOW_P(th, cfp)) {
if (cfp->iseq) {
return (rb_control_frame_t *)cfp;
}
cfp = RUBY_VM_PREVIOUS_CONTROL_FRAME(cfp);
}
return 0;
}
rb_control_frame_t *
rb_vm_get_ruby_level_next_cfp(rb_thread_t *th, const rb_control_frame_t *cfp)
{
while (!RUBY_VM_CONTROL_FRAME_STACK_OVERFLOW_P(th, cfp)) {
if (RUBY_VM_NORMAL_ISEQ_P(cfp->iseq)) {
return (rb_control_frame_t *)cfp;
}
cfp = RUBY_VM_PREVIOUS_CONTROL_FRAME(cfp);
}
return 0;
}
static rb_control_frame_t *
vm_get_ruby_level_caller_cfp(rb_thread_t *th, rb_control_frame_t *cfp)
{
if (RUBY_VM_NORMAL_ISEQ_P(cfp->iseq)) {
return cfp;
}
cfp = RUBY_VM_PREVIOUS_CONTROL_FRAME(cfp);
while (!RUBY_VM_CONTROL_FRAME_STACK_OVERFLOW_P(th, cfp)) {
if (RUBY_VM_NORMAL_ISEQ_P(cfp->iseq)) {
return cfp;
}
if ((cfp->flag & VM_FRAME_FLAG_PASSED) == 0) {
break;
}
cfp = RUBY_VM_PREVIOUS_CONTROL_FRAME(cfp);
}
return 0;
}
/* at exit */
void
ruby_vm_at_exit(void (*func)(rb_vm_t *))
{
rb_ary_push((VALUE)&GET_VM()->at_exit, (VALUE)func);
}
static void
ruby_vm_run_at_exit_hooks(rb_vm_t *vm)
{
VALUE hook = (VALUE)&vm->at_exit;
while (RARRAY_LEN(hook) > 0) {
typedef void rb_vm_at_exit_func(rb_vm_t*);
rb_vm_at_exit_func *func = (rb_vm_at_exit_func*)rb_ary_pop(hook);
(*func)(vm);
}
rb_ary_free(hook);
}
/* Env */
/*
env{
env[0] // special (block or prev env)
env[1] // env object
};
*/
#define ENV_IN_HEAP_P(th, env) \
(!((th)->stack <= (env) && (env) < ((th)->stack + (th)->stack_size)))
#define ENV_VAL(env) ((env)[1])
static void
env_mark(void * const ptr)
{
RUBY_MARK_ENTER("env");
if (ptr) {
const rb_env_t * const env = ptr;
if (env->env) {
/* TODO: should mark more restricted range */
RUBY_GC_INFO("env->env\n");
rb_gc_mark_locations(env->env, env->env + env->env_size);
}
RUBY_GC_INFO("env->prev_envval\n");
RUBY_MARK_UNLESS_NULL(env->prev_envval);
RUBY_MARK_UNLESS_NULL(env->block.self);
RUBY_MARK_UNLESS_NULL(env->block.proc);
if (env->block.iseq) {
if (BUILTIN_TYPE(env->block.iseq) == T_NODE) {
RUBY_MARK_UNLESS_NULL((VALUE)env->block.iseq);
}
else {
RUBY_MARK_UNLESS_NULL(env->block.iseq->self);
}
}
}
RUBY_MARK_LEAVE("env");
}
static void
env_free(void * const ptr)
{
RUBY_FREE_ENTER("env");
if (ptr) {
rb_env_t *const env = ptr;
RUBY_FREE_UNLESS_NULL(env->env);
ruby_xfree(ptr);
}
RUBY_FREE_LEAVE("env");
}
static size_t
env_memsize(const void *ptr)
{
if (ptr) {
const rb_env_t * const env = ptr;
size_t size = sizeof(rb_env_t);
if (env->env) {
size += env->env_size * sizeof(VALUE);
}
return size;
}
return 0;
}
static const rb_data_type_t env_data_type = {
"VM/env",
{env_mark, env_free, env_memsize,},
};
static VALUE
env_alloc(void)
{
VALUE obj;
rb_env_t *env;
obj = TypedData_Make_Struct(rb_cEnv, rb_env_t, &env_data_type, env);
env->env = 0;
env->prev_envval = 0;
env->block.iseq = 0;
return obj;
}
static VALUE check_env_value(VALUE envval);
static int
check_env(rb_env_t * const env)
{
fprintf(stderr, "---\n");
fprintf(stderr, "envptr: %p\n", (void *)&env->block.ep[0]);
fprintf(stderr, "envval: %10p ", (void *)env->block.ep[1]);
dp(env->block.ep[1]);
fprintf(stderr, "ep: %10p\n", (void *)env->block.ep);
if (env->prev_envval) {
fprintf(stderr, ">>\n");
check_env_value(env->prev_envval);
fprintf(stderr, "<<\n");
}
return 1;
}
static VALUE
check_env_value(VALUE envval)
{
rb_env_t *env;
GetEnvPtr(envval, env);
if (check_env(env)) {
return envval;
}
rb_bug("invalid env");
return Qnil; /* unreachable */
}
static VALUE
vm_make_env_each(rb_thread_t * const th, rb_control_frame_t * const cfp,
VALUE *envptr, VALUE * const endptr)
{
VALUE envval, penvval = 0;
rb_env_t *env;
VALUE *nenvptr;
int i, local_size;
if (ENV_IN_HEAP_P(th, envptr)) {
return ENV_VAL(envptr);
}
if (envptr != endptr) {
VALUE *penvptr = GC_GUARDED_PTR_REF(*envptr);
rb_control_frame_t *pcfp = cfp;
if (ENV_IN_HEAP_P(th, penvptr)) {
penvval = ENV_VAL(penvptr);
}
else {
while (pcfp->ep != penvptr) {
pcfp++;
if (pcfp->ep == 0) {
SDR();
rb_bug("invalid ep");
}
}
penvval = vm_make_env_each(th, pcfp, penvptr, endptr);
*envptr = VM_ENVVAL_PREV_EP_PTR(pcfp->ep);
}
}
/* allocate env */
envval = env_alloc();
GetEnvPtr(envval, env);
if (!RUBY_VM_NORMAL_ISEQ_P(cfp->iseq)) {
local_size = 2;
}
else {
local_size = cfp->iseq->local_size;
}
env->env_size = local_size + 1 + 1;
env->local_size = local_size;
env->env = ALLOC_N(VALUE, env->env_size);
env->prev_envval = penvval;
for (i = 0; i <= local_size; i++) {
env->env[i] = envptr[-local_size + i];
#if 0
fprintf(stderr, "%2d ", &envptr[-local_size + i] - th->stack); dp(env->env[i]);
if (RUBY_VM_NORMAL_ISEQ_P(cfp->iseq)) {
/* clear value stack for GC */
envptr[-local_size + i] = 0;
}
#endif
}
*envptr = envval; /* GC mark */
nenvptr = &env->env[i - 1];
nenvptr[1] = envval; /* frame self */
/* reset ep in cfp */
cfp->ep = nenvptr;
/* as Binding */
env->block.self = cfp->self;
env->block.ep = cfp->ep;
env->block.iseq = cfp->iseq;
if (!RUBY_VM_NORMAL_ISEQ_P(cfp->iseq)) {
/* TODO */
env->block.iseq = 0;
}
return envval;
}
static int
collect_local_variables_in_iseq(rb_iseq_t *iseq, const VALUE ary)
{
int i;
if (!iseq) return 0;
for (i = 0; i < iseq->local_table_size; i++) {
ID lid = iseq->local_table[i];
if (rb_is_local_id(lid)) {
rb_ary_push(ary, ID2SYM(lid));
}
}
return 1;
}
static int
collect_local_variables_in_env(rb_env_t * env, const VALUE ary)
{
while (collect_local_variables_in_iseq(env->block.iseq, ary),
env->prev_envval) {
GetEnvPtr(env->prev_envval, env);
}
return 0;
}
static int
vm_collect_local_variables_in_heap(rb_thread_t *th, VALUE *ep, VALUE ary)
{
if (ENV_IN_HEAP_P(th, ep)) {
rb_env_t *env;
GetEnvPtr(ENV_VAL(ep), env);
collect_local_variables_in_env(env, ary);
return 1;
}
else {
return 0;
}
}
static void vm_rewrite_ep_in_errinfo(rb_thread_t *th);
static VALUE vm_make_proc_from_block(rb_thread_t *th, rb_block_t *block);
static VALUE vm_make_env_object(rb_thread_t * th, rb_control_frame_t *cfp, VALUE *blockprocptr);
VALUE
rb_vm_make_env_object(rb_thread_t * th, rb_control_frame_t *cfp)
{
VALUE blockprocval;
return vm_make_env_object(th, cfp, &blockprocval);
}
static VALUE
vm_make_env_object(rb_thread_t *th, rb_control_frame_t *cfp, VALUE *blockprocptr)
{
VALUE envval;
VALUE *lep = VM_CF_LEP(cfp);
rb_block_t *blockptr = VM_EP_BLOCK_PTR(lep);
if (blockptr) {
VALUE blockprocval = vm_make_proc_from_block(th, blockptr);
rb_proc_t *p;
GetProcPtr(blockprocval, p);
lep[0] = VM_ENVVAL_BLOCK_PTR(&p->block);
*blockprocptr = blockprocval;
}
envval = vm_make_env_each(th, cfp, cfp->ep, lep);
vm_rewrite_ep_in_errinfo(th);
if (PROCDEBUG) {
check_env_value(envval);
}
return envval;
}
static void
vm_rewrite_ep_in_errinfo(rb_thread_t *th)
{
rb_control_frame_t *cfp = th->cfp;
while (!RUBY_VM_CONTROL_FRAME_STACK_OVERFLOW_P(th, cfp)) {
/* rewrite ep in errinfo to point to heap */
if (RUBY_VM_NORMAL_ISEQ_P(cfp->iseq) &&
(cfp->iseq->type == ISEQ_TYPE_RESCUE ||
cfp->iseq->type == ISEQ_TYPE_ENSURE)) {
VALUE errinfo = cfp->ep[-2]; /* #$! */
if (RB_TYPE_P(errinfo, T_NODE)) {
VALUE *escape_ep = GET_THROWOBJ_CATCH_POINT(errinfo);
if (! ENV_IN_HEAP_P(th, escape_ep)) {
VALUE epval = *escape_ep;
if (!SPECIAL_CONST_P(epval) && RBASIC(epval)->klass == rb_cEnv) {
rb_env_t *epenv;
GetEnvPtr(epval, epenv);
SET_THROWOBJ_CATCH_POINT(errinfo, (VALUE)(epenv->env + epenv->local_size));
}
}
}
}
cfp = RUBY_VM_PREVIOUS_CONTROL_FRAME(cfp);
}
}
void
rb_vm_stack_to_heap(rb_thread_t *th)
{
rb_control_frame_t *cfp = th->cfp;
while ((cfp = rb_vm_get_binding_creatable_next_cfp(th, cfp)) != 0) {
rb_vm_make_env_object(th, cfp);
cfp = RUBY_VM_PREVIOUS_CONTROL_FRAME(cfp);
}
}
/* Proc */
static VALUE
vm_make_proc_from_block(rb_thread_t *th, rb_block_t *block)
{
if (!block->proc) {
block->proc = rb_vm_make_proc(th, block, rb_cProc);
}
return block->proc;
}
VALUE
rb_vm_make_proc(rb_thread_t *th, const rb_block_t *block, VALUE klass)
{
VALUE procval, envval, blockprocval = 0;
rb_proc_t *proc;
rb_control_frame_t *cfp = RUBY_VM_GET_CFP_FROM_BLOCK_PTR(block);
if (block->proc) {
rb_bug("rb_vm_make_proc: Proc value is already created.");
}
envval = vm_make_env_object(th, cfp, &blockprocval);
if (PROCDEBUG) {
check_env_value(envval);
}
procval = rb_proc_alloc(klass);
GetProcPtr(procval, proc);
proc->blockprocval = blockprocval;
proc->block.self = block->self;
proc->block.klass = block->klass;
proc->block.ep = block->ep;
proc->block.iseq = block->iseq;
proc->block.proc = procval;
proc->envval = envval;
proc->safe_level = th->safe_level;
if (VMDEBUG) {
if (th->stack < block->ep && block->ep < th->stack + th->stack_size) {
rb_bug("invalid ptr: block->ep");
}
}
return procval;
}
VALUE *
rb_binding_add_dynavars(rb_binding_t *bind, int dyncount, const ID *dynvars)
{
VALUE envval = bind->env, path = bind->path, iseqval;
rb_env_t *env;
rb_block_t *base_block;
rb_thread_t *th = GET_THREAD();
rb_iseq_t *base_iseq;
NODE *node = 0;
ID minibuf[4], *dyns = minibuf;
VALUE idtmp = 0;
if (dyncount < 0) return 0;
GetEnvPtr(envval, env);
base_block = &env->block;
base_iseq = base_block->iseq;
if (dyncount >= numberof(minibuf)) dyns = ALLOCV_N(ID, idtmp, dyncount + 1);
dyns[0] = dyncount;
MEMCPY(dyns + 1, dynvars, ID, dyncount);
node = NEW_NODE(NODE_SCOPE, dyns, 0, 0);
iseqval = rb_iseq_new(node, base_iseq->location.label, path, path,
base_iseq->self, ISEQ_TYPE_EVAL);
node->u1.tbl = 0; /* reset table */
ALLOCV_END(idtmp);
vm_set_eval_stack(th, iseqval, 0, base_block);
bind->env = rb_vm_make_env_object(th, th->cfp);
vm_pop_frame(th);
GetEnvPtr(bind->env, env);
return env->env;
}
/* C -> Ruby: block */
static inline VALUE
invoke_block_from_c(rb_thread_t *th, const rb_block_t *block,
VALUE self, int argc, const VALUE *argv,
const rb_block_t *blockptr, const NODE *cref,
VALUE defined_class)
{
if (SPECIAL_CONST_P(block->iseq))
return Qnil;
else if (BUILTIN_TYPE(block->iseq) != T_NODE) {
const rb_iseq_t *iseq = block->iseq;
const rb_control_frame_t *cfp;
int i, opt_pc, arg_size = iseq->arg_size;
int type = block_proc_is_lambda(block->proc) ?
VM_FRAME_MAGIC_LAMBDA : VM_FRAME_MAGIC_BLOCK;
cfp = th->cfp;
for (i=0; i<argc; i++) {
cfp->sp[i] = argv[i];
}
opt_pc = vm_yield_setup_args(th, iseq, argc, cfp->sp, blockptr,
type == VM_FRAME_MAGIC_LAMBDA);
vm_push_frame(th, iseq, type | VM_FRAME_FLAG_FINISH,
self, defined_class,
VM_ENVVAL_PREV_EP_PTR(block->ep),
iseq->iseq_encoded + opt_pc,
cfp->sp + arg_size, iseq->local_size - arg_size,
th->passed_me, iseq->stack_max);
th->passed_me = 0;
if (cref) {
th->cfp->ep[-1] = (VALUE)cref;
}
return vm_exec(th);
}
else {
return vm_yield_with_cfunc(th, block, self, argc, argv, blockptr);
}
}
static inline const rb_block_t *
check_block(rb_thread_t *th)
{
const rb_block_t *blockptr = VM_CF_BLOCK_PTR(th->cfp);
if (blockptr == 0) {
rb_vm_localjump_error("no block given", Qnil, 0);
}
return blockptr;
}
static inline VALUE
vm_yield_with_cref(rb_thread_t *th, int argc, const VALUE *argv, const NODE *cref)
{
const rb_block_t *blockptr = check_block(th);
return invoke_block_from_c(th, blockptr, blockptr->self, argc, argv, 0, cref,
blockptr->klass);
}
static inline VALUE
vm_yield(rb_thread_t *th, int argc, const VALUE *argv)
{
const rb_block_t *blockptr = check_block(th);
return invoke_block_from_c(th, blockptr, blockptr->self, argc, argv, 0, 0,
blockptr->klass);
}
static VALUE
vm_invoke_proc(rb_thread_t *th, rb_proc_t *proc, VALUE self, VALUE defined_class,
int argc, const VALUE *argv, const rb_block_t *blockptr)
{
VALUE val = Qundef;
int state;
volatile int stored_safe = th->safe_level;
TH_PUSH_TAG(th);
if ((state = EXEC_TAG()) == 0) {
if (!proc->is_from_method) {
th->safe_level = proc->safe_level;
}
val = invoke_block_from_c(th, &proc->block, self, argc, argv, blockptr, 0,
defined_class);
}
TH_POP_TAG();
if (!proc->is_from_method) {
th->safe_level = stored_safe;
}
if (state) {
JUMP_TAG(state);
}
return val;
}
VALUE
rb_vm_invoke_proc(rb_thread_t *th, rb_proc_t *proc,
int argc, const VALUE *argv, const rb_block_t *blockptr)
{
return vm_invoke_proc(th, proc, proc->block.self, proc->block.klass,
argc, argv, blockptr);
}
/* special variable */
static rb_control_frame_t *
vm_normal_frame(rb_thread_t *th, rb_control_frame_t *cfp)
{
while (cfp->pc == 0) {
cfp = RUBY_VM_PREVIOUS_CONTROL_FRAME(cfp);
if (RUBY_VM_CONTROL_FRAME_STACK_OVERFLOW_P(th, cfp)) {
return 0;
}
}
return cfp;
}
static VALUE
vm_cfp_svar_get(rb_thread_t *th, rb_control_frame_t *cfp, VALUE key)
{
cfp = vm_normal_frame(th, cfp);
return lep_svar_get(th, cfp ? VM_CF_LEP(cfp) : 0, key);
}
static void
vm_cfp_svar_set(rb_thread_t *th, rb_control_frame_t *cfp, VALUE key, const VALUE val)
{
cfp = vm_normal_frame(th, cfp);
lep_svar_set(th, cfp ? VM_CF_LEP(cfp) : 0, key, val);
}
static VALUE
vm_svar_get(VALUE key)
{
rb_thread_t *th = GET_THREAD();
return vm_cfp_svar_get(th, th->cfp, key);
}
static void
vm_svar_set(VALUE key, VALUE val)
{
rb_thread_t *th = GET_THREAD();
vm_cfp_svar_set(th, th->cfp, key, val);
}
VALUE
rb_backref_get(void)
{
return vm_svar_get(1);
}
void
rb_backref_set(VALUE val)
{
vm_svar_set(1, val);
}
VALUE
rb_lastline_get(void)
{
return vm_svar_get(0);
}
void
rb_lastline_set(VALUE val)
{
vm_svar_set(0, val);
}
/* misc */
VALUE
rb_sourcefilename(void)
{
rb_thread_t *th = GET_THREAD();
rb_control_frame_t *cfp = rb_vm_get_ruby_level_next_cfp(th, th->cfp);
if (cfp) {
return cfp->iseq->location.path;
}
else {
return Qnil;
}
}
const char *
rb_sourcefile(void)
{
rb_thread_t *th = GET_THREAD();
rb_control_frame_t *cfp = rb_vm_get_ruby_level_next_cfp(th, th->cfp);
if (cfp) {
return RSTRING_PTR(cfp->iseq->location.path);
}
else {
return 0;
}
}
int
rb_sourceline(void)
{
rb_thread_t *th = GET_THREAD();
rb_control_frame_t *cfp = rb_vm_get_ruby_level_next_cfp(th, th->cfp);
if (cfp) {
return rb_vm_get_sourceline(cfp);
}
else {
return 0;
}
}
NODE *
rb_vm_cref(void)
{
rb_thread_t *th = GET_THREAD();
rb_control_frame_t *cfp = rb_vm_get_ruby_level_next_cfp(th, th->cfp);
if (cfp == 0) {
return NULL;
}
return rb_vm_get_cref(cfp->iseq, cfp->ep);
}
#if 0
void
debug_cref(NODE *cref)
{
while (cref) {
dp(cref->nd_clss);
printf("%ld\n", cref->nd_visi);
cref = cref->nd_next;
}
}
#endif
VALUE
rb_vm_cbase(void)
{
rb_thread_t *th = GET_THREAD();
rb_control_frame_t *cfp = rb_vm_get_ruby_level_next_cfp(th, th->cfp);
if (cfp == 0) {
rb_raise(rb_eRuntimeError, "Can't call on top of Fiber or Thread");
}
return vm_get_cbase(cfp->iseq, cfp->ep);
}
/* jump */
static VALUE
make_localjump_error(const char *mesg, VALUE value, int reason)
{
extern VALUE rb_eLocalJumpError;
VALUE exc = rb_exc_new2(rb_eLocalJumpError, mesg);
ID id;
switch (reason) {
case TAG_BREAK:
CONST_ID(id, "break");
break;
case TAG_REDO:
CONST_ID(id, "redo");
break;
case TAG_RETRY:
CONST_ID(id, "retry");
break;
case TAG_NEXT:
CONST_ID(id, "next");
break;
case TAG_RETURN:
CONST_ID(id, "return");
break;
default:
CONST_ID(id, "noreason");
break;
}
rb_iv_set(exc, "@exit_value", value);
rb_iv_set(exc, "@reason", ID2SYM(id));
return exc;
}
void
rb_vm_localjump_error(const char *mesg, VALUE value, int reason)
{
VALUE exc = make_localjump_error(mesg, value, reason);
rb_exc_raise(exc);
}
VALUE
rb_vm_make_jump_tag_but_local_jump(int state, VALUE val)
{
VALUE result = Qnil;
if (val == Qundef) {
val = GET_THREAD()->tag->retval;
}
switch (state) {
case 0:
break;
case TAG_RETURN:
result = make_localjump_error("unexpected return", val, state);
break;
case TAG_BREAK:
result = make_localjump_error("unexpected break", val, state);
break;
case TAG_NEXT:
result = make_localjump_error("unexpected next", val, state);
break;
case TAG_REDO:
result = make_localjump_error("unexpected redo", Qnil, state);
break;
case TAG_RETRY:
result = make_localjump_error("retry outside of rescue clause", Qnil, state);
break;
default:
break;
}
return result;
}
void
rb_vm_jump_tag_but_local_jump(int state)
{
VALUE exc = rb_vm_make_jump_tag_but_local_jump(state, Qundef);
if (!NIL_P(exc)) rb_exc_raise(exc);
JUMP_TAG(state);
}
NORETURN(static void vm_iter_break(rb_thread_t *th, VALUE val));
static void
vm_iter_break(rb_thread_t *th, VALUE val)
{
rb_control_frame_t *cfp = th->cfp;
VALUE *ep = VM_CF_PREV_EP(cfp);
th->state = TAG_BREAK;
th->errinfo = (VALUE)NEW_THROW_OBJECT(val, (VALUE)ep, TAG_BREAK);
TH_JUMP_TAG(th, TAG_BREAK);
}
void
rb_iter_break(void)
{
vm_iter_break(GET_THREAD(), Qnil);
}
void
rb_iter_break_value(VALUE val)
{
vm_iter_break(GET_THREAD(), val);
}
/* optimization: redefine management */
static st_table *vm_opt_method_table = 0;
static int
vm_redefinition_check_flag(VALUE klass)
{
if (klass == rb_cFixnum) return FIXNUM_REDEFINED_OP_FLAG;
if (klass == rb_cFloat) return FLOAT_REDEFINED_OP_FLAG;
if (klass == rb_cString) return STRING_REDEFINED_OP_FLAG;
if (klass == rb_cArray) return ARRAY_REDEFINED_OP_FLAG;
if (klass == rb_cHash) return HASH_REDEFINED_OP_FLAG;
if (klass == rb_cBignum) return BIGNUM_REDEFINED_OP_FLAG;
if (klass == rb_cSymbol) return SYMBOL_REDEFINED_OP_FLAG;
if (klass == rb_cTime) return TIME_REDEFINED_OP_FLAG;
return 0;
}
static void
rb_vm_check_redefinition_opt_method(const rb_method_entry_t *me, VALUE klass)
{
st_data_t bop;
if (!me->def || me->def->type == VM_METHOD_TYPE_CFUNC) {
if (st_lookup(vm_opt_method_table, (st_data_t)me, &bop)) {
int flag = vm_redefinition_check_flag(klass);
ruby_vm_redefined_flag[bop] |= flag;
}
}
}
static int
check_redefined_method(st_data_t key, st_data_t value, st_data_t data)
{
ID mid = (ID)key;
rb_method_entry_t *me = (rb_method_entry_t *)value;
VALUE klass = (VALUE)data;
rb_method_entry_t *newme = rb_method_entry(klass, mid, NULL);
if (newme != me)
rb_vm_check_redefinition_opt_method(me, me->klass);
return ST_CONTINUE;
}
void
rb_vm_check_redefinition_by_prepend(VALUE klass)
{
if (!vm_redefinition_check_flag(klass)) return;
st_foreach(RCLASS_M_TBL(RCLASS_ORIGIN(klass)), check_redefined_method,
(st_data_t)klass);
}
static void
add_opt_method(VALUE klass, ID mid, VALUE bop)
{
rb_method_entry_t *me;
if (st_lookup(RCLASS_M_TBL(klass), mid, (void *)&me) && me->def &&
me->def->type == VM_METHOD_TYPE_CFUNC) {
st_insert(vm_opt_method_table, (st_data_t)me, (st_data_t)bop);
}
else {
rb_bug("undefined optimized method: %s", rb_id2name(mid));
}
}
static void
vm_init_redefined_flag(void)
{
ID mid;
VALUE bop;
vm_opt_method_table = st_init_numtable();
#define OP(mid_, bop_) (mid = id##mid_, bop = BOP_##bop_, ruby_vm_redefined_flag[bop] = 0)
#define C(k) add_opt_method(rb_c##k, mid, bop)
OP(PLUS, PLUS), (C(Fixnum), C(Float), C(String), C(Array));
OP(MINUS, MINUS), (C(Fixnum), C(Float));
OP(MULT, MULT), (C(Fixnum), C(Float));
OP(DIV, DIV), (C(Fixnum), C(Float));
OP(MOD, MOD), (C(Fixnum), C(Float));
OP(Eq, EQ), (C(Fixnum), C(Float), C(String));
OP(Eqq, EQQ), (C(Fixnum), C(Bignum), C(Float), C(Symbol), C(String));
OP(LT, LT), (C(Fixnum), C(Float));
OP(LE, LE), (C(Fixnum), C(Float));
OP(GT, GT), (C(Fixnum), C(Float));
OP(GE, GE), (C(Fixnum), C(Float));
OP(LTLT, LTLT), (C(String), C(Array));
OP(AREF, AREF), (C(Array), C(Hash));
OP(ASET, ASET), (C(Array), C(Hash));
OP(Length, LENGTH), (C(Array), C(String), C(Hash));
OP(Size, SIZE), (C(Array), C(String), C(Hash));
OP(EmptyP, EMPTY_P), (C(Array), C(String), C(Hash));
OP(Succ, SUCC), (C(Fixnum), C(String), C(Time));
#undef C
#undef OP
}
/* for vm development */
#if VMDEBUG
static const char *
vm_frametype_name(const rb_control_frame_t *cfp)
{
switch (VM_FRAME_TYPE(cfp)) {
case VM_FRAME_MAGIC_METHOD: return "method";
case VM_FRAME_MAGIC_BLOCK: return "block";
case VM_FRAME_MAGIC_CLASS: return "class";
case VM_FRAME_MAGIC_TOP: return "top";
case VM_FRAME_MAGIC_CFUNC: return "cfunc";
case VM_FRAME_MAGIC_PROC: return "proc";
case VM_FRAME_MAGIC_IFUNC: return "ifunc";
case VM_FRAME_MAGIC_EVAL: return "eval";
case VM_FRAME_MAGIC_LAMBDA: return "lambda";
default:
rb_bug("unknown frame");
}
}
#endif
/* evaluator body */
/* finish
VMe (h1) finish
VM finish F1 F2
cfunc finish F1 F2 C1
rb_funcall finish F1 F2 C1
VMe finish F1 F2 C1
VM finish F1 F2 C1 F3
F1 - F3 : pushed by VM
C1 : pushed by send insn (CFUNC)
struct CONTROL_FRAME {
VALUE *pc; // cfp[0], program counter
VALUE *sp; // cfp[1], stack pointer
VALUE *bp; // cfp[2], base pointer
rb_iseq_t *iseq; // cfp[3], iseq
VALUE flag; // cfp[4], magic
VALUE self; // cfp[5], self
VALUE *ep; // cfp[6], env pointer
rb_iseq_t * block_iseq; // cfp[7], block iseq
VALUE proc; // cfp[8], always 0
};
struct BLOCK {
VALUE self;
VALUE *ep;
rb_iseq_t *block_iseq;
VALUE proc;
};
struct METHOD_CONTROL_FRAME {
rb_control_frame_t frame;
};
struct METHOD_FRAME {
VALUE arg0;
...
VALUE argM;
VALUE param0;
...
VALUE paramN;
VALUE cref;
VALUE special; // lep [1]
struct block_object *block_ptr | 0x01; // lep [0]
};
struct BLOCK_CONTROL_FRAME {
rb_control_frame_t frame;
};
struct BLOCK_FRAME {
VALUE arg0;
...
VALUE argM;
VALUE param0;
...
VALUE paramN;
VALUE cref;
VALUE *(prev_ptr | 0x01); // ep[0]
};
struct CLASS_CONTROL_FRAME {
rb_control_frame_t frame;
};
struct CLASS_FRAME {
VALUE param0;
...
VALUE paramN;
VALUE cref;
VALUE prev_ep; // for frame jump
};
struct C_METHOD_CONTROL_FRAME {
VALUE *pc; // 0
VALUE *sp; // stack pointer
VALUE *bp; // base pointer (used in exception)
rb_iseq_t *iseq; // cmi
VALUE magic; // C_METHOD_FRAME
VALUE self; // ?
VALUE *ep; // ep == lep
rb_iseq_t * block_iseq; //
VALUE proc; // always 0
};
struct C_BLOCK_CONTROL_FRAME {
VALUE *pc; // point only "finish" insn
VALUE *sp; // sp
rb_iseq_t *iseq; // ?
VALUE magic; // C_METHOD_FRAME
VALUE self; // needed?
VALUE *ep; // ep
rb_iseq_t * block_iseq; // 0
};
*/
static VALUE
vm_exec(rb_thread_t *th)
{
int state;
VALUE result, err;
VALUE initial = 0;
TH_PUSH_TAG(th);
_tag.retval = Qnil;
if ((state = EXEC_TAG()) == 0) {
vm_loop_start:
result = vm_exec_core(th, initial);
if ((state = th->state) != 0) {
err = result;
th->state = 0;
goto exception_handler;
}
}
else {
int i;
struct iseq_catch_table_entry *entry;
unsigned long epc, cont_pc, cont_sp;
VALUE catch_iseqval;
rb_control_frame_t *cfp;
VALUE type;
VALUE *escape_ep;
err = th->errinfo;
exception_handler:
cont_pc = cont_sp = catch_iseqval = 0;
while (th->cfp->pc == 0 || th->cfp->iseq == 0) {
if (UNLIKELY(VM_FRAME_TYPE(th->cfp) == VM_FRAME_MAGIC_CFUNC)) {
const rb_method_entry_t *me = th->cfp->me;
EXEC_EVENT_HOOK(th, RUBY_EVENT_C_RETURN, th->cfp->self, me->called_id, me->klass, Qnil);
RUBY_DTRACE_METHOD_RETURN_HOOK(th, me->klass, me->called_id);
}
th->cfp = RUBY_VM_PREVIOUS_CONTROL_FRAME(th->cfp);
}
cfp = th->cfp;
epc = cfp->pc - cfp->iseq->iseq_encoded;
escape_ep = NULL;
if (state == TAG_BREAK || state == TAG_RETURN) {
escape_ep = GET_THROWOBJ_CATCH_POINT(err);
if (cfp->ep == escape_ep) {
if (state == TAG_RETURN) {
if (!VM_FRAME_TYPE_FINISH_P(cfp)) {
SET_THROWOBJ_CATCH_POINT(err, (VALUE)(cfp + 1)->ep);
SET_THROWOBJ_STATE(err, state = TAG_BREAK);
}
else {
for (i = 0; i < cfp->iseq->catch_table_size; i++) {
entry = &cfp->iseq->catch_table[i];
if (entry->start < epc && entry->end >= epc) {
if (entry->type == CATCH_TYPE_ENSURE) {
catch_iseqval = entry->iseq;
cont_pc = entry->cont;
cont_sp = entry->sp;
break;
}
}
}
if (!catch_iseqval) {
result = GET_THROWOBJ_VAL(err);
th->errinfo = Qnil;
vm_pop_frame(th);
goto finish_vme;
}
}
/* through */
}
else {
/* TAG_BREAK */
#if OPT_STACK_CACHING
initial = (GET_THROWOBJ_VAL(err));
#else
*th->cfp->sp++ = (GET_THROWOBJ_VAL(err));
#endif
th->errinfo = Qnil;
goto vm_loop_start;
}
}
}
if (state == TAG_RAISE) {
for (i = 0; i < cfp->iseq->catch_table_size; i++) {
entry = &cfp->iseq->catch_table[i];
if (entry->start < epc && entry->end >= epc) {
if (entry->type == CATCH_TYPE_RESCUE ||
entry->type == CATCH_TYPE_ENSURE) {
catch_iseqval = entry->iseq;
cont_pc = entry->cont;
cont_sp = entry->sp;
break;
}
}
}
}
else if (state == TAG_RETRY) {
for (i = 0; i < cfp->iseq->catch_table_size; i++) {
entry = &cfp->iseq->catch_table[i];
if (entry->start < epc && entry->end >= epc) {
if (entry->type == CATCH_TYPE_ENSURE) {
catch_iseqval = entry->iseq;
cont_pc = entry->cont;
cont_sp = entry->sp;
break;
}
else if (entry->type == CATCH_TYPE_RETRY) {
VALUE *escape_ep;
escape_ep = GET_THROWOBJ_CATCH_POINT(err);
if (cfp->ep == escape_ep) {
cfp->pc = cfp->iseq->iseq_encoded + entry->cont;
th->errinfo = Qnil;
goto vm_loop_start;
}
}
}
}
}
else if (state == TAG_BREAK && ((VALUE)escape_ep & ~0x03) == 0) {
type = CATCH_TYPE_BREAK;
search_restart_point:
for (i = 0; i < cfp->iseq->catch_table_size; i++) {
entry = &cfp->iseq->catch_table[i];
if (entry->start < epc && entry->end >= epc) {
if (entry->type == CATCH_TYPE_ENSURE) {
catch_iseqval = entry->iseq;
cont_pc = entry->cont;
cont_sp = entry->sp;
break;
}
else if (entry->type == type) {
cfp->pc = cfp->iseq->iseq_encoded + entry->cont;
cfp->sp = vm_base_ptr(cfp) + entry->sp;
if (state != TAG_REDO) {
#if OPT_STACK_CACHING
initial = (GET_THROWOBJ_VAL(err));
#else
*th->cfp->sp++ = (GET_THROWOBJ_VAL(err));
#endif
}
th->errinfo = Qnil;
th->state = 0;
goto vm_loop_start;
}
}
}
}
else if (state == TAG_REDO) {
type = CATCH_TYPE_REDO;
goto search_restart_point;
}
else if (state == TAG_NEXT) {
type = CATCH_TYPE_NEXT;
goto search_restart_point;
}
else {
for (i = 0; i < cfp->iseq->catch_table_size; i++) {
entry = &cfp->iseq->catch_table[i];
if (entry->start < epc && entry->end >= epc) {
if (entry->type == CATCH_TYPE_ENSURE) {
catch_iseqval = entry->iseq;
cont_pc = entry->cont;
cont_sp = entry->sp;
break;
}
}
}
}
if (catch_iseqval != 0) {
/* found catch table */
rb_iseq_t *catch_iseq;
/* enter catch scope */
GetISeqPtr(catch_iseqval, catch_iseq);
cfp->sp = vm_base_ptr(cfp) + cont_sp;
cfp->pc = cfp->iseq->iseq_encoded + cont_pc;
/* push block frame */
cfp->sp[0] = err;
vm_push_frame(th, catch_iseq, VM_FRAME_MAGIC_BLOCK,
cfp->self, cfp->klass,
VM_ENVVAL_PREV_EP_PTR(cfp->ep),
catch_iseq->iseq_encoded,
cfp->sp + 1 /* push value */,
catch_iseq->local_size - 1,
cfp->me, catch_iseq->stack_max);
state = 0;
th->state = 0;
th->errinfo = Qnil;
goto vm_loop_start;
}
else {
/* skip frame */
switch (VM_FRAME_TYPE(th->cfp)) {
case VM_FRAME_MAGIC_METHOD:
RUBY_DTRACE_METHOD_RETURN_HOOK(th, 0, 0);
EXEC_EVENT_HOOK_AND_POP_FRAME(th, RUBY_EVENT_RETURN, th->cfp->self, 0, 0, Qnil);
break;
case VM_FRAME_MAGIC_BLOCK:
EXEC_EVENT_HOOK_AND_POP_FRAME(th, RUBY_EVENT_B_RETURN, th->cfp->self, 0, 0, Qnil);
break;
case VM_FRAME_MAGIC_CLASS:
EXEC_EVENT_HOOK_AND_POP_FRAME(th, RUBY_EVENT_END, th->cfp->self, 0, 0, Qnil);
break;
}
if (VM_FRAME_TYPE_FINISH_P(th->cfp)) {
vm_pop_frame(th);
th->errinfo = err;
TH_POP_TAG2();
JUMP_TAG(state);
}
else {
th->cfp = RUBY_VM_PREVIOUS_CONTROL_FRAME(th->cfp);
goto exception_handler;
}
}
}
finish_vme:
TH_POP_TAG();
return result;
}
/* misc */
VALUE
rb_iseq_eval(VALUE iseqval)
{
rb_thread_t *th = GET_THREAD();
VALUE val;
vm_set_top_stack(th, iseqval);
val = vm_exec(th);
RB_GC_GUARD(iseqval); /* prohibit tail call optimization */
return val;
}
VALUE
rb_iseq_eval_main(VALUE iseqval)
{
rb_thread_t *th = GET_THREAD();
VALUE val;
vm_set_main_stack(th, iseqval);
val = vm_exec(th);
RB_GC_GUARD(iseqval); /* prohibit tail call optimization */
return val;
}
int
rb_vm_control_frame_id_and_class(const rb_control_frame_t *cfp, ID *idp, VALUE *klassp)
{
rb_iseq_t *iseq = cfp->iseq;
if (!iseq && cfp->me) {
if (idp) *idp = cfp->me->def->original_id;
if (klassp) *klassp = cfp->me->klass;
return 1;
}
while (iseq) {
if (RUBY_VM_IFUNC_P(iseq)) {
if (idp) *idp = idIFUNC;
if (klassp) *klassp = 0;
return 1;
}
if (iseq->defined_method_id) {
if (idp) *idp = iseq->defined_method_id;
if (klassp) *klassp = iseq->klass;
return 1;
}
if (iseq->local_iseq == iseq) {
break;
}
iseq = iseq->parent_iseq;
}
return 0;
}
int
rb_thread_method_id_and_class(rb_thread_t *th, ID *idp, VALUE *klassp)
{
return rb_vm_control_frame_id_and_class(th->cfp, idp, klassp);
}
int
rb_frame_method_id_and_class(ID *idp, VALUE *klassp)
{
return rb_thread_method_id_and_class(GET_THREAD(), idp, klassp);
}
VALUE
rb_thread_current_status(const rb_thread_t *th)
{
const rb_control_frame_t *cfp = th->cfp;
VALUE str = Qnil;
if (cfp->iseq != 0) {
if (cfp->pc != 0) {
rb_iseq_t *iseq = cfp->iseq;
int line_no = rb_vm_get_sourceline(cfp);
char *file = RSTRING_PTR(iseq->location.path);
str = rb_sprintf("%s:%d:in `%s'",
file, line_no, RSTRING_PTR(iseq->location.label));
}
}
else if (cfp->me->def->original_id) {
str = rb_sprintf("`%s#%s' (cfunc)",
rb_class2name(cfp->me->klass),
rb_id2name(cfp->me->def->original_id));
}
return str;
}
VALUE
rb_vm_call_cfunc(VALUE recv, VALUE (*func)(VALUE), VALUE arg,
const rb_block_t *blockptr, VALUE filename)
{
rb_thread_t *th = GET_THREAD();
const rb_control_frame_t *reg_cfp = th->cfp;
volatile VALUE iseqval = rb_iseq_new(0, filename, filename, Qnil, 0, ISEQ_TYPE_TOP);
VALUE val;
vm_push_frame(th, DATA_PTR(iseqval), VM_FRAME_MAGIC_TOP | VM_FRAME_FLAG_FINISH,
recv, CLASS_OF(recv), VM_ENVVAL_BLOCK_PTR(blockptr), 0, reg_cfp->sp, 1, 0, 0);
val = (*func)(arg);
vm_pop_frame(th);
return val;
}
/* vm */
static int
vm_mark_each_thread_func(st_data_t key, st_data_t value, st_data_t dummy)
{
VALUE thval = (VALUE)key;
rb_gc_mark(thval);
return ST_CONTINUE;
}
void rb_vm_trace_mark_event_hooks(rb_hook_list_t *hooks);
void
rb_vm_mark(void *ptr)
{
int i;
RUBY_MARK_ENTER("vm");
RUBY_GC_INFO("-------------------------------------------------\n");
if (ptr) {
rb_vm_t *vm = ptr;
if (vm->living_threads) {
st_foreach(vm->living_threads, vm_mark_each_thread_func, 0);
}
RUBY_MARK_UNLESS_NULL(vm->thgroup_default);
RUBY_MARK_UNLESS_NULL(vm->mark_object_ary);
RUBY_MARK_UNLESS_NULL(vm->load_path);
RUBY_MARK_UNLESS_NULL(vm->load_path_snapshot);
RUBY_MARK_UNLESS_NULL(vm->load_path_check_cache);
RUBY_MARK_UNLESS_NULL(vm->expanded_load_path);
RUBY_MARK_UNLESS_NULL(vm->loaded_features);
RUBY_MARK_UNLESS_NULL(vm->loaded_features_snapshot);
RUBY_MARK_UNLESS_NULL(vm->top_self);
RUBY_MARK_UNLESS_NULL(vm->coverages);
rb_gc_mark_locations(vm->special_exceptions, vm->special_exceptions + ruby_special_error_count);
if (vm->loading_table) {
rb_mark_tbl(vm->loading_table);
}
if (vm->loaded_features_index) {
rb_mark_tbl(vm->loaded_features_index);
}
rb_vm_trace_mark_event_hooks(&vm->event_hooks);
for (i = 0; i < RUBY_NSIG; i++) {
if (vm->trap_list[i].cmd)
rb_gc_mark(vm->trap_list[i].cmd);
}
if (vm->defined_strings) {
rb_gc_mark_locations(vm->defined_strings, vm->defined_strings + DEFINED_EXPR);
}
}
RUBY_MARK_LEAVE("vm");
}
#define vm_free 0
int
ruby_vm_destruct(rb_vm_t *vm)
{
RUBY_FREE_ENTER("vm");
if (vm) {
rb_thread_t *th = vm->main_thread;
#if defined(ENABLE_VM_OBJSPACE) && ENABLE_VM_OBJSPACE
struct rb_objspace *objspace = vm->objspace;
#endif
rb_gc_force_recycle(vm->self);
vm->main_thread = 0;
if (th) {
rb_fiber_reset_root_local_storage(th->self);
thread_free(th);
}
if (vm->living_threads) {
st_free_table(vm->living_threads);
vm->living_threads = 0;
}
#if defined(ENABLE_VM_OBJSPACE) && ENABLE_VM_OBJSPACE
if (objspace) {
rb_objspace_free(objspace);
}
#endif
ruby_vm_run_at_exit_hooks(vm);
rb_vm_gvl_destroy(vm);
ruby_xfree(vm);
ruby_current_vm = 0;
}
RUBY_FREE_LEAVE("vm");
return 0;
}
static size_t
vm_memsize(const void *ptr)
{
if (ptr) {
const rb_vm_t *vmobj = ptr;
size_t size = sizeof(rb_vm_t);
size += st_memsize(vmobj->living_threads);
if (vmobj->defined_strings) {
size += DEFINED_EXPR * sizeof(VALUE);
}
return size;
}
else {
return 0;
}
}
static const rb_data_type_t vm_data_type = {
"VM",
{rb_vm_mark, vm_free, vm_memsize,},
};
static VALUE
vm_default_params(void)
{
rb_vm_t *vm = GET_VM();
VALUE result = rb_hash_new();
#define SET(name) rb_hash_aset(result, ID2SYM(rb_intern(#name)), SIZET2NUM(vm->default_params.name));
SET(thread_vm_stack_size);
SET(thread_machine_stack_size);
SET(fiber_vm_stack_size);
SET(fiber_machine_stack_size);
#undef SET
rb_obj_freeze(result);
return result;
}
static size_t
get_param(const char *name, size_t default_value, size_t min_value)
{
const char *envval;
size_t result = default_value;
if ((envval = getenv(name)) != 0) {
long val = atol(envval);
if (val < (long)min_value) {
val = (long)min_value;
}
result = (size_t)(((val -1 + RUBY_VM_SIZE_ALIGN) / RUBY_VM_SIZE_ALIGN) * RUBY_VM_SIZE_ALIGN);
}
if (0) fprintf(stderr, "%s: %"PRIdSIZE"\n", name, result); /* debug print */
return result;
}
static void
check_machine_stack_size(size_t *sizep)
{
#ifdef PTHREAD_STACK_MIN
size_t size = *sizep;
#endif
#ifdef __SYMBIAN32__
*sizep = 64 * 1024; /* 64KB: Let's be slightly more frugal on mobile platform */
#endif
#ifdef PTHREAD_STACK_MIN
if (size < PTHREAD_STACK_MIN) {
*sizep = PTHREAD_STACK_MIN * 2;
}
#endif
}
static void
vm_default_params_setup(rb_vm_t *vm)
{
vm->default_params.thread_vm_stack_size =
get_param("RUBY_THREAD_VM_STACK_SIZE",
RUBY_VM_THREAD_VM_STACK_SIZE,
RUBY_VM_THREAD_VM_STACK_SIZE_MIN);
vm->default_params.thread_machine_stack_size =
get_param("RUBY_THREAD_MACHINE_STACK_SIZE",
RUBY_VM_THREAD_MACHINE_STACK_SIZE,
RUBY_VM_THREAD_MACHINE_STACK_SIZE_MIN);
vm->default_params.fiber_vm_stack_size =
get_param("RUBY_FIBER_VM_STACK_SIZE",
RUBY_VM_FIBER_VM_STACK_SIZE,
RUBY_VM_FIBER_VM_STACK_SIZE_MIN);
vm->default_params.fiber_machine_stack_size =
get_param("RUBY_FIBER_MACHINE_STACK_SIZE",
RUBY_VM_FIBER_MACHINE_STACK_SIZE,
RUBY_VM_FIBER_MACHINE_STACK_SIZE_MIN);
/* environment dependent check */
check_machine_stack_size(&vm->default_params.thread_machine_stack_size);
check_machine_stack_size(&vm->default_params.fiber_machine_stack_size);
}
static void
vm_init2(rb_vm_t *vm)
{
MEMZERO(vm, rb_vm_t, 1);
vm->src_encoding_index = -1;
vm->at_exit.basic.flags = (T_ARRAY | RARRAY_EMBED_FLAG) & ~RARRAY_EMBED_LEN_MASK; /* len set 0 */
rb_obj_hide((VALUE)&vm->at_exit);
vm_default_params_setup(vm);
}
/* Thread */
#define USE_THREAD_DATA_RECYCLE 1
#if USE_THREAD_DATA_RECYCLE
#define RECYCLE_MAX 64
static VALUE *thread_recycle_stack_slot[RECYCLE_MAX];
static int thread_recycle_stack_count = 0;
static VALUE *
thread_recycle_stack(size_t size)
{
if (thread_recycle_stack_count) {
/* TODO: check stack size if stack sizes are variable */
return thread_recycle_stack_slot[--thread_recycle_stack_count];
}
else {
return ALLOC_N(VALUE, size);
}
}
#else
#define thread_recycle_stack(size) ALLOC_N(VALUE, (size))
#endif
void
rb_thread_recycle_stack_release(VALUE *stack)
{
#if USE_THREAD_DATA_RECYCLE
if (thread_recycle_stack_count < RECYCLE_MAX) {
thread_recycle_stack_slot[thread_recycle_stack_count++] = stack;
return;
}
#endif
ruby_xfree(stack);
}
#ifdef USE_THREAD_RECYCLE
static rb_thread_t *
thread_recycle_struct(void)
{
void *p = ALLOC_N(rb_thread_t, 1);
memset(p, 0, sizeof(rb_thread_t));
return p;
}
#endif
void
rb_thread_mark(void *ptr)
{
rb_thread_t *th = NULL;
RUBY_MARK_ENTER("thread");
if (ptr) {
th = ptr;
if (th->stack) {
VALUE *p = th->stack;
VALUE *sp = th->cfp->sp;
rb_control_frame_t *cfp = th->cfp;
rb_control_frame_t *limit_cfp = (void *)(th->stack + th->stack_size);
while (p < sp) {
rb_gc_mark(*p++);
}
rb_gc_mark_locations(p, p + th->mark_stack_len);
while (cfp != limit_cfp) {
rb_iseq_t *iseq = cfp->iseq;
rb_gc_mark(cfp->proc);
rb_gc_mark(cfp->self);
rb_gc_mark(cfp->klass);
if (iseq) {
rb_gc_mark(RUBY_VM_NORMAL_ISEQ_P(iseq) ? iseq->self : (VALUE)iseq);
}
if (cfp->me) {
/* TODO: marking `me' can be more sophisticated way */
((rb_method_entry_t *)cfp->me)->mark = 1;
rb_mark_method_entry(cfp->me);
}
cfp = RUBY_VM_PREVIOUS_CONTROL_FRAME(cfp);
}
}
/* mark ruby objects */
RUBY_MARK_UNLESS_NULL(th->first_proc);
if (th->first_proc) RUBY_MARK_UNLESS_NULL(th->first_args);
RUBY_MARK_UNLESS_NULL(th->thgroup);
RUBY_MARK_UNLESS_NULL(th->value);
RUBY_MARK_UNLESS_NULL(th->errinfo);
RUBY_MARK_UNLESS_NULL(th->pending_interrupt_queue);
RUBY_MARK_UNLESS_NULL(th->pending_interrupt_mask_stack);
RUBY_MARK_UNLESS_NULL(th->root_svar);
RUBY_MARK_UNLESS_NULL(th->top_self);
RUBY_MARK_UNLESS_NULL(th->top_wrapper);
RUBY_MARK_UNLESS_NULL(th->fiber);
RUBY_MARK_UNLESS_NULL(th->root_fiber);
RUBY_MARK_UNLESS_NULL(th->stat_insn_usage);
RUBY_MARK_UNLESS_NULL(th->last_status);
RUBY_MARK_UNLESS_NULL(th->locking_mutex);
rb_mark_tbl(th->local_storage);
if (GET_THREAD() != th && th->machine_stack_start && th->machine_stack_end) {
rb_gc_mark_machine_stack(th);
rb_gc_mark_locations((VALUE *)&th->machine_regs,
(VALUE *)(&th->machine_regs) +
sizeof(th->machine_regs) / sizeof(VALUE));
}
rb_vm_trace_mark_event_hooks(&th->event_hooks);
}
RUBY_MARK_LEAVE("thread");
}
static void
thread_free(void *ptr)
{
rb_thread_t *th;
RUBY_FREE_ENTER("thread");
if (ptr) {
th = ptr;
if (!th->root_fiber) {
RUBY_FREE_UNLESS_NULL(th->stack);
}
if (th->locking_mutex != Qfalse) {
rb_bug("thread_free: locking_mutex must be NULL (%p:%p)", (void *)th, (void *)th->locking_mutex);
}
if (th->keeping_mutexes != NULL) {
rb_bug("thread_free: keeping_mutexes must be NULL (%p:%p)", (void *)th, (void *)th->keeping_mutexes);
}
if (th->local_storage) {
st_free_table(th->local_storage);
}
if (th->vm && th->vm->main_thread == th) {
RUBY_GC_INFO("main thread\n");
}
else {
#ifdef USE_SIGALTSTACK
if (th->altstack) {
free(th->altstack);
}
#endif
ruby_xfree(ptr);
}
if (ruby_current_thread == th)
ruby_current_thread = NULL;
}
RUBY_FREE_LEAVE("thread");
}
static size_t
thread_memsize(const void *ptr)
{
if (ptr) {
const rb_thread_t *th = ptr;
size_t size = sizeof(rb_thread_t);
if (!th->root_fiber) {
size += th->stack_size * sizeof(VALUE);
}
if (th->local_storage) {
size += st_memsize(th->local_storage);
}
return size;
}
else {
return 0;
}
}
#define thread_data_type ruby_threadptr_data_type
const rb_data_type_t ruby_threadptr_data_type = {
"VM/thread",
{
rb_thread_mark,
thread_free,
thread_memsize,
},
};
VALUE
rb_obj_is_thread(VALUE obj)
{
if (rb_typeddata_is_kind_of(obj, &thread_data_type)) {
return Qtrue;
}
else {
return Qfalse;
}
}
static VALUE
thread_alloc(VALUE klass)
{
VALUE volatile obj;
#ifdef USE_THREAD_RECYCLE
rb_thread_t *th = thread_recycle_struct();
obj = TypedData_Wrap_Struct(klass, &thread_data_type, th);
#else
rb_thread_t *th;
obj = TypedData_Make_Struct(klass, rb_thread_t, &thread_data_type, th);
#endif
return obj;
}
static void
th_init(rb_thread_t *th, VALUE self)
{
th->self = self;
/* allocate thread stack */
#ifdef USE_SIGALTSTACK
/* altstack of main thread is reallocated in another place */
th->altstack = malloc(rb_sigaltstack_size());
#endif
/* th->stack_size is word number.
* th->vm->default_params.thread_vm_stack_size is byte size.
*/
th->stack_size = th->vm->default_params.thread_vm_stack_size / sizeof(VALUE);
th->stack = thread_recycle_stack(th->stack_size);
th->cfp = (void *)(th->stack + th->stack_size);
vm_push_frame(th, 0 /* dummy iseq */, VM_FRAME_MAGIC_TOP | VM_FRAME_FLAG_FINISH,
Qnil /* dummy self */, Qnil /* dummy klass */, VM_ENVVAL_BLOCK_PTR(0), 0 /* dummy pc */, th->stack, 1, 0, 0);
th->status = THREAD_RUNNABLE;
th->errinfo = Qnil;
th->last_status = Qnil;
th->waiting_fd = -1;
th->root_svar = Qnil;
#if OPT_CALL_THREADED_CODE
th->retval = Qundef;
#endif
}
static VALUE
ruby_thread_init(VALUE self)
{
rb_thread_t *th;
rb_vm_t *vm = GET_THREAD()->vm;
GetThreadPtr(self, th);
th->vm = vm;
th_init(th, self);
rb_ivar_set(self, rb_intern("locals"), rb_hash_new());
th->top_wrapper = 0;
th->top_self = rb_vm_top_self();
th->root_svar = Qnil;
return self;
}
VALUE
rb_thread_alloc(VALUE klass)
{
VALUE self = thread_alloc(klass);
ruby_thread_init(self);
return self;
}
static void
vm_define_method(rb_thread_t *th, VALUE obj, ID id, VALUE iseqval,
rb_num_t is_singleton, NODE *cref)
{
VALUE klass = cref->nd_clss;
int noex = (int)cref->nd_visi;
rb_iseq_t *miseq;
GetISeqPtr(iseqval, miseq);
if (miseq->klass) {
RB_GC_GUARD(iseqval) = rb_iseq_clone(iseqval, 0);
GetISeqPtr(iseqval, miseq);
}
if (NIL_P(klass)) {
rb_raise(rb_eTypeError, "no class/module to add method");
}
if (is_singleton) {
klass = rb_singleton_class(obj); /* class and frozen checked in this API */
noex = NOEX_PUBLIC;
}
/* dup */
COPY_CREF(miseq->cref_stack, cref);
miseq->cref_stack->nd_visi = NOEX_PUBLIC;
OBJ_WRITE(miseq->self, &miseq->klass, klass);
miseq->defined_method_id = id;
rb_add_method(klass, id, VM_METHOD_TYPE_ISEQ, miseq, noex);
if (!is_singleton && noex == NOEX_MODFUNC) {
rb_add_method(rb_singleton_class(klass), id, VM_METHOD_TYPE_ISEQ, miseq, NOEX_PUBLIC);
}
INC_VM_STATE_VERSION();
}
#define REWIND_CFP(expr) do { \
rb_thread_t *th__ = GET_THREAD(); \
th__->cfp++; expr; th__->cfp--; \
} while (0)
static VALUE
m_core_define_method(VALUE self, VALUE cbase, VALUE sym, VALUE iseqval)
{
REWIND_CFP({
vm_define_method(GET_THREAD(), cbase, SYM2ID(sym), iseqval, 0, rb_vm_cref());
});
return sym;
}
static VALUE
m_core_define_singleton_method(VALUE self, VALUE cbase, VALUE sym, VALUE iseqval)
{
REWIND_CFP({
vm_define_method(GET_THREAD(), cbase, SYM2ID(sym), iseqval, 1, rb_vm_cref());
});
return sym;
}
static VALUE
m_core_set_method_alias(VALUE self, VALUE cbase, VALUE sym1, VALUE sym2)
{
REWIND_CFP({
rb_alias(cbase, SYM2ID(sym1), SYM2ID(sym2));
});
return Qnil;
}
static VALUE
m_core_set_variable_alias(VALUE self, VALUE sym1, VALUE sym2)
{
REWIND_CFP({
rb_alias_variable(SYM2ID(sym1), SYM2ID(sym2));
});
return Qnil;
}
static VALUE
m_core_undef_method(VALUE self, VALUE cbase, VALUE sym)
{
REWIND_CFP({
rb_undef(cbase, SYM2ID(sym));
INC_VM_STATE_VERSION();
});
return Qnil;
}
static VALUE
m_core_set_postexe(VALUE self, VALUE iseqval)
{
REWIND_CFP({
rb_iseq_t *blockiseq;
rb_block_t *blockptr;
rb_thread_t *th = GET_THREAD();
rb_control_frame_t *cfp = rb_vm_get_ruby_level_next_cfp(th, th->cfp);
VALUE proc;
if (cfp == 0) {
rb_bug("m_core_set_postexe: unreachable");
}
GetISeqPtr(iseqval, blockiseq);
blockptr = RUBY_VM_GET_BLOCK_PTR_IN_CFP(cfp);
blockptr->iseq = blockiseq;
blockptr->proc = 0;
proc = rb_vm_make_proc(th, blockptr, rb_cProc);
rb_set_end_proc(rb_call_end_proc, proc);
});
return Qnil;
}
static VALUE
m_core_hash_from_ary(VALUE self, VALUE ary)
{
VALUE hash = rb_hash_new();
int i;
if (RUBY_DTRACE_HASH_CREATE_ENABLED()) {
RUBY_DTRACE_HASH_CREATE(RARRAY_LEN(ary), rb_sourcefile(), rb_sourceline());
}
assert(RARRAY_LEN(ary) % 2 == 0);
for (i=0; i<RARRAY_LEN(ary); i+=2) {
rb_hash_aset(hash, RARRAY_AREF(ary, i), RARRAY_AREF(ary, i+1));
}
return hash;
}
static VALUE
m_core_hash_merge_ary(VALUE self, VALUE hash, VALUE ary)
{
int i;
assert(RARRAY_LEN(ary) % 2 == 0);
for (i=0; i<RARRAY_LEN(ary); i+=2) {
rb_hash_aset(hash, RARRAY_AREF(ary, i), RARRAY_AREF(ary, i+1));
}
return hash;
}
static VALUE
m_core_hash_merge_ptr(int argc, VALUE *argv, VALUE recv)
{
int i;
VALUE hash = argv[0];
for (i=1; i<argc; i+=2) {
rb_hash_aset(hash, argv[i], argv[i+1]);
}
return hash;
}
static int
kwmerge_ii(st_data_t *key, st_data_t *value, st_data_t arg, int existing)
{
if (existing) return ST_STOP;
*value = arg;
return ST_CONTINUE;
}
static int
kwmerge_i(VALUE key, VALUE value, VALUE hash)
{
if (!SYMBOL_P(key)) Check_Type(key, T_SYMBOL);
if (st_update(RHASH_TBL(hash), key, kwmerge_ii, (st_data_t)value) == 0) { /* !existing */
OBJ_WRITTEN(hash, Qundef, value);
}
return ST_CONTINUE;
}
static VALUE
m_core_hash_merge_kwd(VALUE recv, VALUE hash, VALUE kw)
{
kw = rb_convert_type(kw, T_HASH, "Hash", "to_hash");
rb_hash_foreach(kw, kwmerge_i, hash);
return hash;
}
extern VALUE *rb_gc_stack_start;
extern size_t rb_gc_stack_maxsize;
#ifdef __ia64
extern VALUE *rb_gc_register_stack_start;
#endif
/* debug functions */
/* :nodoc: */
static VALUE
sdr(void)
{
rb_vm_bugreport();
return Qnil;
}
/* :nodoc: */
static VALUE
nsdr(void)
{
VALUE ary = rb_ary_new();
#if HAVE_BACKTRACE
#include <execinfo.h>
#define MAX_NATIVE_TRACE 1024
static void *trace[MAX_NATIVE_TRACE];
int n = backtrace(trace, MAX_NATIVE_TRACE);
char **syms = backtrace_symbols(trace, n);
int i;
if (syms == 0) {
rb_memerror();
}
for (i=0; i<n; i++) {
rb_ary_push(ary, rb_str_new2(syms[i]));
}
free(syms); /* OK */
#endif
return ary;
}
#if VM_COLLECT_USAGE_DETAILS
static VALUE usage_analysis_insn_stop(VALUE self);
static VALUE usage_analysis_operand_stop(VALUE self);
static VALUE usage_analysis_register_stop(VALUE self);
#endif
void
Init_VM(void)
{
VALUE opts;
VALUE klass;
VALUE fcore;
/* ::RubyVM */
rb_cRubyVM = rb_define_class("RubyVM", rb_cObject);
rb_undef_alloc_func(rb_cRubyVM);
rb_undef_method(CLASS_OF(rb_cRubyVM), "new");
/* FrozenCore (hidden) */
fcore = rb_class_new(rb_cBasicObject);
RBASIC(fcore)->flags = T_ICLASS;
klass = rb_singleton_class(fcore);
rb_define_method_id(klass, id_core_set_method_alias, m_core_set_method_alias, 3);
rb_define_method_id(klass, id_core_set_variable_alias, m_core_set_variable_alias, 2);
rb_define_method_id(klass, id_core_undef_method, m_core_undef_method, 2);
rb_define_method_id(klass, id_core_define_method, m_core_define_method, 3);
rb_define_method_id(klass, id_core_define_singleton_method, m_core_define_singleton_method, 3);
rb_define_method_id(klass, id_core_set_postexe, m_core_set_postexe, 1);
rb_define_method_id(klass, id_core_hash_from_ary, m_core_hash_from_ary, 1);
rb_define_method_id(klass, id_core_hash_merge_ary, m_core_hash_merge_ary, 2);
rb_define_method_id(klass, id_core_hash_merge_ptr, m_core_hash_merge_ptr, -1);
rb_define_method_id(klass, id_core_hash_merge_kwd, m_core_hash_merge_kwd, 2);
rb_define_method_id(klass, idProc, rb_block_proc, 0);
rb_define_method_id(klass, idLambda, rb_block_lambda, 0);
rb_obj_freeze(fcore);
rb_gc_register_mark_object(fcore);
rb_mRubyVMFrozenCore = fcore;
/* ::RubyVM::Env */
rb_cEnv = rb_define_class_under(rb_cRubyVM, "Env", rb_cObject);
rb_undef_alloc_func(rb_cEnv);
rb_undef_method(CLASS_OF(rb_cEnv), "new");
/*
* Document-class: Thread
*
* Threads are the Ruby implementation for a concurrent programming model.
*
* Programs that require multiple threads of execution are a perfect
* candidate for Ruby's Thread class.
*
* For example, we can create a new thread separate from the main thread's
* execution using ::new.
*
* thr = Thread.new { puts "Whats the big deal" }
*
* Then we are able to pause the execution of the main thread and allow
* our new thread to finish, using #join:
*
* thr.join #=> "Whats the big deal"
*
* If we don't call +thr.join+ before the main thread terminates, then all
* other threads including +thr+ will be killed.
*
* Alternatively, you can use an array for handling multiple threads at
* once, like in the following example:
*
* threads = []
* threads << Thread.new { puts "Whats the big deal" }
* threads << Thread.new { 3.times { puts "Threads are fun!" } }
*
* After creating a few threads we wait for them all to finish
* consecutively.
*
* threads.each { |thr| thr.join }
*
* === Thread initialization
*
* In order to create new threads, Ruby provides ::new, ::start, and
* ::fork. A block must be provided with each of these methods, otherwise
* a ThreadError will be raised.
*
* When subclassing the Thread class, the +initialize+ method of your
* subclass will be ignored by ::start and ::fork. Otherwise, be sure to
* call super in your +initialize+ method.
*
* === Thread termination
*
* For terminating threads, Ruby provides a variety of ways to do this.
*
* The class method ::kill, is meant to exit a given thread:
*
* thr = Thread.new { ... }
* Thread.kill(thr) # sends exit() to thr
*
* Alternatively, you can use the instance method #exit, or any of its
* aliases #kill or #terminate.
*
* thr.exit
*
* === Thread status
*
* Ruby provides a few instance methods for querying the state of a given
* thread. To get a string with the current thread's state use #status
*
* thr = Thread.new { sleep }
* thr.status # => "sleep"
* thr.exit
* thr.status # => false
*
* You can also use #alive? to tell if the thread is running or sleeping,
* and #stop? if the thread is dead or sleeping.
*
* === Thread variables and scope
*
* Since threads are created with blocks, the same rules apply to other
* Ruby blocks for variable scope. Any local variables created within this
* block are accessible to only this thread.
*
* ==== Fiber-local vs. Thread-local
*
* Each fiber has its own bucket for Thread#[] storage. When you set a
* new fiber-local it is only accessible within this Fiber. To illustrate:
*
* Thread.new {
* Thread.current[:foo] = "bar"
* Fiber.new {
* p Thread.current[:foo] # => nil
* }.resume
* }.join
*
* This example uses #[] for getting and #[]= for setting fiber-locals,
* you can also use #keys to list the fiber-locals for a given
* thread and #key? to check if a fiber-local exists.
*
* When it comes to thread-locals, they are accessible within the entire
* scope of the thread. Given the following example:
*
* Thread.new{
* Thread.current.thread_variable_set(:foo, 1)
* p Thread.current.thread_variable_get(:foo) # => 1
* Fiber.new{
* Thread.current.thread_variable_set(:foo, 2)
* p Thread.current.thread_variable_get(:foo) # => 2
* }.resume
* p Thread.current.thread_variable_get(:foo) # => 2
* }.join
*
* You can see that the thread-local +:foo+ carried over into the fiber
* and was changed to +2+ by the end of the thread.
*
* This example makes use of #thread_variable_set to create new
* thread-locals, and #thread_variable_get to reference them.
*
* There is also #thread_variables to list all thread-locals, and
* #thread_variable? to check if a given thread-local exists.
*
* === Exception handling
*
* Any thread can raise an exception using the #raise instance method,
* which operates similarly to Kernel#raise.
*
* However, it's important to note that an exception that occurs in any
* thread except the main thread depends on #abort_on_exception. This
* option is +false+ by default, meaning that any unhandled exception will
* cause the thread to terminate silently when waited on by either #join
* or #value. You can change this default by either #abort_on_exception=
* +true+ or setting $DEBUG to +true+.
*
* With the addition of the class method ::handle_interrupt, you can now
* handle exceptions asynchronously with threads.
*
* === Scheduling
*
* Ruby provides a few ways to support scheduling threads in your program.
*
* The first way is by using the class method ::stop, to put the current
* running thread to sleep and schedule the execution of another thread.
*
* Once a thread is asleep, you can use the instance method #wakeup to
* mark your thread as eligible for scheduling.
*
* You can also try ::pass, which attempts to pass execution to another
* thread but is dependent on the OS whether a running thread will switch
* or not. The same goes for #priority, which lets you hint to the thread
* scheduler which threads you want to take precedence when passing
* execution. This method is also dependent on the OS and may be ignored
* on some platforms.
*
*/
rb_cThread = rb_define_class("Thread", rb_cObject);
rb_undef_alloc_func(rb_cThread);
#if VM_COLLECT_USAGE_DETAILS
/* ::RubyVM::USAGE_ANALYSIS_* */
#define define_usage_analysis_hash(name) /* shut up rdoc -C */ \
rb_define_const(rb_cRubyVM, "USAGE_ANALYSIS_"#name, rb_hash_new())
define_usage_analysis_hash("INSN");
define_usage_analysis_hash("REGS");
define_usage_analysis_hash("INSN_BIGRAM");
rb_define_singleton_method(rb_cRubyVM, "USAGE_ANALYSIS_INSN_STOP", usage_analysis_insn_stop, 0);
rb_define_singleton_method(rb_cRubyVM, "USAGE_ANALYSIS_OPERAND_STOP", usage_analysis_operand_stop, 0);
rb_define_singleton_method(rb_cRubyVM, "USAGE_ANALYSIS_REGISTER_STOP", usage_analysis_register_stop, 0);
#endif
/* ::RubyVM::OPTS, which shows vm build options */
rb_define_const(rb_cRubyVM, "OPTS", opts = rb_ary_new());
#if OPT_DIRECT_THREADED_CODE
rb_ary_push(opts, rb_str_new2("direct threaded code"));
#elif OPT_TOKEN_THREADED_CODE
rb_ary_push(opts, rb_str_new2("token threaded code"));
#elif OPT_CALL_THREADED_CODE
rb_ary_push(opts, rb_str_new2("call threaded code"));
#endif
#if OPT_STACK_CACHING
rb_ary_push(opts, rb_str_new2("stack caching"));
#endif
#if OPT_OPERANDS_UNIFICATION
rb_ary_push(opts, rb_str_new2("operands unification]"));
#endif
#if OPT_INSTRUCTIONS_UNIFICATION
rb_ary_push(opts, rb_str_new2("instructions unification"));
#endif
#if OPT_INLINE_METHOD_CACHE
rb_ary_push(opts, rb_str_new2("inline method cache"));
#endif
#if OPT_BLOCKINLINING
rb_ary_push(opts, rb_str_new2("block inlining"));
#endif
/* ::RubyVM::INSTRUCTION_NAMES */
rb_define_const(rb_cRubyVM, "INSTRUCTION_NAMES", rb_insns_name_array());
/* ::RubyVM::DEFAULT_PARAMS
* This constant variable shows VM's default parameters.
* Note that changing these values does not affect VM execution.
* Specification is not stable and you should not depend on this value.
* Of course, this constant is MRI specific.
*/
rb_define_const(rb_cRubyVM, "DEFAULT_PARAMS", vm_default_params());
/* debug functions ::RubyVM::SDR(), ::RubyVM::NSDR() */
#if VMDEBUG
rb_define_singleton_method(rb_cRubyVM, "SDR", sdr, 0);
rb_define_singleton_method(rb_cRubyVM, "NSDR", nsdr, 0);
#else
(void)sdr;
(void)nsdr;
#endif
/* VM bootstrap: phase 2 */
{
rb_vm_t *vm = ruby_current_vm;
rb_thread_t *th = GET_THREAD();
VALUE filename = rb_str_new2("<main>");
volatile VALUE iseqval = rb_iseq_new(0, filename, filename, Qnil, 0, ISEQ_TYPE_TOP);
volatile VALUE th_self;
rb_iseq_t *iseq;
/* create vm object */
vm->self = TypedData_Wrap_Struct(rb_cRubyVM, &vm_data_type, vm);
/* create main thread */
th_self = th->self = TypedData_Wrap_Struct(rb_cThread, &thread_data_type, th);
rb_iv_set(th_self, "locals", rb_hash_new());
vm->main_thread = th;
vm->running_thread = th;
th->vm = vm;
th->top_wrapper = 0;
th->top_self = rb_vm_top_self();
rb_thread_set_current(th);
vm->living_threads = st_init_numtable();
st_insert(vm->living_threads, th_self, (st_data_t) th->thread_id);
rb_gc_register_mark_object(iseqval);
GetISeqPtr(iseqval, iseq);
th->cfp->iseq = iseq;
th->cfp->pc = iseq->iseq_encoded;
th->cfp->self = th->top_self;
th->cfp->klass = Qnil;
/*
* The Binding of the top level scope
*/
rb_define_global_const("TOPLEVEL_BINDING", rb_binding_new());
}
vm_init_redefined_flag();
/* vm_backtrace.c */
Init_vm_backtrace();
VM_PROFILE_ATEXIT();
}
void
rb_vm_set_progname(VALUE filename)
{
rb_thread_t *th = GET_VM()->main_thread;
rb_control_frame_t *cfp = (void *)(th->stack + th->stack_size);
--cfp;
OBJ_WRITE(cfp->iseq->self, &cfp->iseq->location.path, filename);
}
#if defined(ENABLE_VM_OBJSPACE) && ENABLE_VM_OBJSPACE
struct rb_objspace *rb_objspace_alloc(void);
#endif
void
Init_BareVM(void)
{
/* VM bootstrap: phase 1 */
rb_vm_t * vm = ruby_mimmalloc(sizeof(*vm));
rb_thread_t * th = ruby_mimmalloc(sizeof(*th));
if (!vm || !th) {
fprintf(stderr, "[FATAL] failed to allocate memory\n");
exit(EXIT_FAILURE);
}
MEMZERO(th, rb_thread_t, 1);
rb_thread_set_current_raw(th);
vm_init2(vm);
#if defined(ENABLE_VM_OBJSPACE) && ENABLE_VM_OBJSPACE
vm->objspace = rb_objspace_alloc();
#endif
ruby_current_vm = vm;
Init_native_thread();
th->vm = vm;
th_init(th, 0);
ruby_thread_init_stack(th);
}
/* top self */
static VALUE
main_to_s(VALUE obj)
{
return rb_str_new2("main");
}
VALUE
rb_vm_top_self(void)
{
return GET_VM()->top_self;
}
void
Init_top_self(void)
{
rb_vm_t *vm = GET_VM();
vm->top_self = rb_obj_alloc(rb_cObject);
rb_define_singleton_method(rb_vm_top_self(), "to_s", main_to_s, 0);
rb_define_alias(rb_singleton_class(rb_vm_top_self()), "inspect", "to_s");
/* initialize mark object array */
vm->mark_object_ary = rb_ary_tmp_new(1);
}
VALUE *
ruby_vm_verbose_ptr(rb_vm_t *vm)
{
return &vm->verbose;
}
VALUE *
ruby_vm_debug_ptr(rb_vm_t *vm)
{
return &vm->debug;
}
VALUE *
rb_ruby_verbose_ptr(void)
{
return ruby_vm_verbose_ptr(GET_VM());
}
VALUE *
rb_ruby_debug_ptr(void)
{
return ruby_vm_debug_ptr(GET_VM());
}
/* iseq.c */
VALUE rb_insn_operand_intern(rb_iseq_t *iseq,
VALUE insn, int op_no, VALUE op,
int len, size_t pos, VALUE *pnop, VALUE child);
#if VM_COLLECT_USAGE_DETAILS
#define HASH_ASET(h, k, v) st_insert(RHASH_TBL(h), (st_data_t)(k), (st_data_t)(v))
/* uh = {
* insn(Fixnum) => ihash(Hash)
* }
* ihash = {
* -1(Fixnum) => count, # insn usage
* 0(Fixnum) => ophash, # operand usage
* }
* ophash = {
* val(interned string) => count(Fixnum)
* }
*/
static void
vm_analysis_insn(int insn)
{
ID usage_hash;
ID bigram_hash;
static int prev_insn = -1;
VALUE uh;
VALUE ihash;
VALUE cv;
CONST_ID(usage_hash, "USAGE_ANALYSIS_INSN");
CONST_ID(bigram_hash, "USAGE_ANALYSIS_INSN_BIGRAM");
uh = rb_const_get(rb_cRubyVM, usage_hash);
if ((ihash = rb_hash_aref(uh, INT2FIX(insn))) == Qnil) {
ihash = rb_hash_new();
HASH_ASET(uh, INT2FIX(insn), ihash);
}
if ((cv = rb_hash_aref(ihash, INT2FIX(-1))) == Qnil) {
cv = INT2FIX(0);
}
HASH_ASET(ihash, INT2FIX(-1), INT2FIX(FIX2INT(cv) + 1));
/* calc bigram */
if (prev_insn != -1) {
VALUE bi;
VALUE ary[2];
VALUE cv;
ary[0] = INT2FIX(prev_insn);
ary[1] = INT2FIX(insn);
bi = rb_ary_new4(2, &ary[0]);
uh = rb_const_get(rb_cRubyVM, bigram_hash);
if ((cv = rb_hash_aref(uh, bi)) == Qnil) {
cv = INT2FIX(0);
}
HASH_ASET(uh, bi, INT2FIX(FIX2INT(cv) + 1));
}
prev_insn = insn;
}
static void
vm_analysis_operand(int insn, int n, VALUE op)
{
ID usage_hash;
VALUE uh;
VALUE ihash;
VALUE ophash;
VALUE valstr;
VALUE cv;
CONST_ID(usage_hash, "USAGE_ANALYSIS_INSN");
uh = rb_const_get(rb_cRubyVM, usage_hash);
if ((ihash = rb_hash_aref(uh, INT2FIX(insn))) == Qnil) {
ihash = rb_hash_new();
HASH_ASET(uh, INT2FIX(insn), ihash);
}
if ((ophash = rb_hash_aref(ihash, INT2FIX(n))) == Qnil) {
ophash = rb_hash_new();
HASH_ASET(ihash, INT2FIX(n), ophash);
}
/* intern */
valstr = rb_insn_operand_intern(GET_THREAD()->cfp->iseq, insn, n, op, 0, 0, 0, 0);
/* set count */
if ((cv = rb_hash_aref(ophash, valstr)) == Qnil) {
cv = INT2FIX(0);
}
HASH_ASET(ophash, valstr, INT2FIX(FIX2INT(cv) + 1));
}
static void
vm_analysis_register(int reg, int isset)
{
ID usage_hash;
VALUE uh;
VALUE valstr;
static const char regstrs[][5] = {
"pc", /* 0 */
"sp", /* 1 */
"ep", /* 2 */
"cfp", /* 3 */
"self", /* 4 */
"iseq", /* 5 */
};
static const char getsetstr[][4] = {
"get",
"set",
};
static VALUE syms[sizeof(regstrs) / sizeof(regstrs[0])][2];
VALUE cv;
CONST_ID(usage_hash, "USAGE_ANALYSIS_REGS");
if (syms[0] == 0) {
char buff[0x10];
int i;
for (i = 0; i < (int)(sizeof(regstrs) / sizeof(regstrs[0])); i++) {
int j;
for (j = 0; j < 2; j++) {
snprintf(buff, 0x10, "%d %s %-4s", i, getsetstr[j], regstrs[i]);
syms[i][j] = ID2SYM(rb_intern(buff));
}
}
}
valstr = syms[reg][isset];
uh = rb_const_get(rb_cRubyVM, usage_hash);
if ((cv = rb_hash_aref(uh, valstr)) == Qnil) {
cv = INT2FIX(0);
}
HASH_ASET(uh, valstr, INT2FIX(FIX2INT(cv) + 1));
}
#undef HASH_ASET
void (*ruby_vm_collect_usage_func_insn)(int insn) = vm_analysis_insn;
void (*ruby_vm_collect_usage_func_operand)(int insn, int n, VALUE op) = vm_analysis_operand;
void (*ruby_vm_collect_usage_func_register)(int reg, int isset) = vm_analysis_register;
/* :nodoc: */
static VALUE
usage_analysis_insn_stop(VALUE self)
{
ruby_vm_collect_usage_func_insn = 0;
return Qnil;
}
/* :nodoc: */
static VALUE
usage_analysis_operand_stop(VALUE self)
{
ruby_vm_collect_usage_func_operand = 0;
return Qnil;
}
/* :nodoc: */
static VALUE
usage_analysis_register_stop(VALUE self)
{
ruby_vm_collect_usage_func_register = 0;
return Qnil;
}
#else
void (*ruby_vm_collect_usage_func_insn)(int insn) = NULL;
void (*ruby_vm_collect_usage_func_operand)(int insn, int n, VALUE op) = NULL;
void (*ruby_vm_collect_usage_func_register)(int reg, int isset) = NULL;
#endif
#if VM_COLLECT_USAGE_DETAILS
/* @param insn instruction number */
static void
vm_collect_usage_insn(int insn)
{
if (RUBY_DTRACE_INSN_ENABLED()) {
RUBY_DTRACE_INSN(rb_insns_name(insn));
}
if (ruby_vm_collect_usage_func_insn)
(*ruby_vm_collect_usage_func_insn)(insn);
}
/* @param insn instruction number
* @param n n-th operand
* @param op operand value
*/
static void
vm_collect_usage_operand(int insn, int n, VALUE op)
{
if (RUBY_DTRACE_INSN_OPERAND_ENABLED()) {
VALUE valstr;
valstr = rb_insn_operand_intern(GET_THREAD()->cfp->iseq, insn, n, op, 0, 0, 0, 0);
RUBY_DTRACE_INSN_OPERAND(RSTRING_PTR(valstr), rb_insns_name(insn));
RB_GC_GUARD(valstr);
}
if (ruby_vm_collect_usage_func_operand)
(*ruby_vm_collect_usage_func_operand)(insn, n, op);
}
/* @param reg register id. see code of vm_analysis_register() */
/* @param iseset 0: read, 1: write */
static void
vm_collect_usage_register(int reg, int isset)
{
if (ruby_vm_collect_usage_func_register)
(*ruby_vm_collect_usage_func_register)(reg, isset);
}
#endif
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