зеркало из https://github.com/github/ruby.git
660 строки
17 KiB
C
660 строки
17 KiB
C
#include "vm_core.h"
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#include "vm_sync.h"
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#include "shape.h"
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#include "gc.h"
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#include "internal/class.h"
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#include "internal/symbol.h"
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#include "internal/variable.h"
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#include <stdbool.h>
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static ID id_frozen;
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static ID size_pool_edge_names[SIZE_POOL_COUNT];
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/*
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* Shape getters
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*/
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rb_shape_t *
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rb_shape_get_root_shape(void)
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{
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return GET_VM()->root_shape;
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}
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shape_id_t
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rb_shape_id(rb_shape_t * shape)
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{
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return (shape_id_t)(shape - GET_VM()->shape_list);
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}
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bool
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rb_shape_root_shape_p(rb_shape_t* shape)
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{
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return shape == rb_shape_get_root_shape();
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}
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rb_shape_t*
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rb_shape_get_shape_by_id(shape_id_t shape_id)
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{
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RUBY_ASSERT(shape_id != INVALID_SHAPE_ID);
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rb_vm_t *vm = GET_VM();
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rb_shape_t *shape = &vm->shape_list[shape_id];
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return shape;
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}
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rb_shape_t*
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rb_shape_get_shape_by_id_without_assertion(shape_id_t shape_id)
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{
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RUBY_ASSERT(shape_id != INVALID_SHAPE_ID);
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rb_vm_t *vm = GET_VM();
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rb_shape_t *shape = &vm->shape_list[shape_id];
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return shape;
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}
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rb_shape_t *
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rb_shape_get_parent(rb_shape_t * shape)
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{
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return rb_shape_get_shape_by_id(shape->parent_id);
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}
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#if !SHAPE_IN_BASIC_FLAGS
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shape_id_t
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rb_rclass_shape_id(VALUE obj)
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{
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RUBY_ASSERT(RB_TYPE_P(obj, T_CLASS) || RB_TYPE_P(obj, T_MODULE));
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return RCLASS_EXT(obj)->shape_id;
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}
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shape_id_t rb_generic_shape_id(VALUE obj);
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#endif
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shape_id_t
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rb_shape_get_shape_id(VALUE obj)
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{
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if (RB_SPECIAL_CONST_P(obj)) {
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return SPECIAL_CONST_SHAPE_ID;
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}
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#if SHAPE_IN_BASIC_FLAGS
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return RBASIC_SHAPE_ID(obj);
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#else
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switch (BUILTIN_TYPE(obj)) {
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case T_OBJECT:
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return ROBJECT_SHAPE_ID(obj);
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break;
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case T_CLASS:
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case T_MODULE:
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return RCLASS_SHAPE_ID(obj);
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default:
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return rb_generic_shape_id(obj);
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}
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#endif
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}
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rb_shape_t*
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rb_shape_get_shape(VALUE obj)
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{
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return rb_shape_get_shape_by_id(rb_shape_get_shape_id(obj));
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}
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static rb_shape_t *
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rb_shape_lookup_id(rb_shape_t* shape, ID id, enum shape_type shape_type)
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{
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while (shape->parent_id != INVALID_SHAPE_ID) {
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if (shape->edge_name == id) {
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// If the shape type is different, we don't
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// want this to count as a "found" ID
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if (shape_type == (enum shape_type)shape->type) {
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return shape;
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}
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else {
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return NULL;
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}
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}
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shape = rb_shape_get_parent(shape);
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}
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return NULL;
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}
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static rb_shape_t*
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get_next_shape_internal(rb_shape_t * shape, ID id, enum shape_type shape_type)
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{
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rb_shape_t *res = NULL;
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RB_VM_LOCK_ENTER();
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{
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if (rb_shape_lookup_id(shape, id, shape_type)) {
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// If shape already contains the ivar that is being set, we'll return shape
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res = shape;
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}
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else {
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if (!shape->edges) {
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shape->edges = rb_id_table_create(0);
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}
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// Lookup the shape in edges - if there's already an edge and a corresponding shape for it,
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// we can return that. Otherwise, we'll need to get a new shape
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if (!rb_id_table_lookup(shape->edges, id, (VALUE *)&res)) {
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// In this case, the shape exists, but the shape is garbage, so we need to recreate it
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if (res) {
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rb_id_table_delete(shape->edges, id);
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res->parent_id = INVALID_SHAPE_ID;
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}
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rb_shape_t * new_shape = rb_shape_alloc(id, shape);
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new_shape->type = (uint8_t)shape_type;
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new_shape->capacity = shape->capacity;
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switch (shape_type) {
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case SHAPE_IVAR:
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new_shape->next_iv_index = shape->next_iv_index + 1;
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break;
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case SHAPE_CAPACITY_CHANGE:
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case SHAPE_IVAR_UNDEF:
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case SHAPE_FROZEN:
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new_shape->next_iv_index = shape->next_iv_index;
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break;
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case SHAPE_INITIAL_CAPACITY:
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case SHAPE_ROOT:
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rb_bug("Unreachable");
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break;
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}
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rb_id_table_insert(shape->edges, id, (VALUE)new_shape);
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res = new_shape;
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}
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}
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}
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RB_VM_LOCK_LEAVE();
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return res;
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}
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MJIT_FUNC_EXPORTED int
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rb_shape_frozen_shape_p(rb_shape_t* shape)
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{
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return SHAPE_FROZEN == (enum shape_type)shape->type;
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}
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void
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rb_shape_transition_shape_remove_ivar(VALUE obj, ID id, rb_shape_t *shape)
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{
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rb_shape_t * next_shape = get_next_shape_internal(shape, id, SHAPE_IVAR_UNDEF);
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if (shape == next_shape) {
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return;
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}
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rb_shape_set_shape(obj, next_shape);
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}
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void
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rb_shape_transition_shape_frozen(VALUE obj)
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{
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rb_shape_t* shape = rb_shape_get_shape(obj);
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RUBY_ASSERT(shape);
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RUBY_ASSERT(RB_OBJ_FROZEN(obj));
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if (rb_shape_frozen_shape_p(shape)) {
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return;
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}
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rb_shape_t* next_shape;
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if (shape == rb_shape_get_root_shape()) {
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rb_shape_set_shape_id(obj, SPECIAL_CONST_SHAPE_ID);
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return;
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}
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next_shape = get_next_shape_internal(shape, (ID)id_frozen, SHAPE_FROZEN);
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RUBY_ASSERT(next_shape);
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rb_shape_set_shape(obj, next_shape);
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}
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/*
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* This function is used for assertions where we don't want to increment
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* max_iv_count
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*/
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rb_shape_t *
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rb_shape_get_next_iv_shape(rb_shape_t* shape, ID id)
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{
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return get_next_shape_internal(shape, id, SHAPE_IVAR);
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}
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rb_shape_t *
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rb_shape_get_next(rb_shape_t* shape, VALUE obj, ID id)
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{
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rb_shape_t * new_shape = rb_shape_get_next_iv_shape(shape, id);
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// Check if we should update max_iv_count on the object's class
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if (BUILTIN_TYPE(obj) == T_OBJECT) {
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VALUE klass = rb_obj_class(obj);
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if (new_shape->next_iv_index > RCLASS_EXT(klass)->max_iv_count) {
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RCLASS_EXT(klass)->max_iv_count = new_shape->next_iv_index;
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}
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}
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return new_shape;
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}
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rb_shape_t *
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rb_shape_transition_shape_capa(rb_shape_t* shape, uint32_t new_capacity)
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{
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ID edge_name = rb_make_temporary_id(new_capacity);
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rb_shape_t * new_shape = get_next_shape_internal(shape, edge_name, SHAPE_CAPACITY_CHANGE);
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new_shape->capacity = new_capacity;
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return new_shape;
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}
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bool
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rb_shape_get_iv_index(rb_shape_t * shape, ID id, attr_index_t *value)
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{
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while (shape->parent_id != INVALID_SHAPE_ID) {
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if (shape->edge_name == id) {
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enum shape_type shape_type;
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shape_type = (enum shape_type)shape->type;
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switch (shape_type) {
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case SHAPE_IVAR:
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RUBY_ASSERT(shape->next_iv_index > 0);
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*value = shape->next_iv_index - 1;
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return true;
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case SHAPE_CAPACITY_CHANGE:
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case SHAPE_IVAR_UNDEF:
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case SHAPE_ROOT:
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case SHAPE_INITIAL_CAPACITY:
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return false;
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case SHAPE_FROZEN:
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rb_bug("Ivar should not exist on transition\n");
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}
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}
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shape = rb_shape_get_parent(shape);
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}
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return false;
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}
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static rb_shape_t *
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shape_alloc(void)
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{
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rb_vm_t *vm = GET_VM();
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shape_id_t shape_id = vm->next_shape_id;
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vm->next_shape_id++;
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if (shape_id == MAX_SHAPE_ID) {
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// TODO: Make an OutOfShapesError ??
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rb_bug("Out of shapes\n");
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}
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return &GET_VM()->shape_list[shape_id];
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}
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rb_shape_t *
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rb_shape_alloc_with_parent_id(ID edge_name, shape_id_t parent_id)
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{
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rb_shape_t * shape = shape_alloc();
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shape->edge_name = edge_name;
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shape->next_iv_index = 0;
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shape->parent_id = parent_id;
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return shape;
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}
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rb_shape_t *
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rb_shape_alloc_with_size_pool_index(ID edge_name, rb_shape_t * parent, uint8_t size_pool_index)
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{
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rb_shape_t * shape = rb_shape_alloc_with_parent_id(edge_name, rb_shape_id(parent));
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shape->size_pool_index = size_pool_index;
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return shape;
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}
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rb_shape_t *
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rb_shape_alloc(ID edge_name, rb_shape_t * parent)
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{
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return rb_shape_alloc_with_size_pool_index(edge_name, parent, parent->size_pool_index);
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}
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MJIT_FUNC_EXPORTED void
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rb_shape_set_shape(VALUE obj, rb_shape_t* shape)
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{
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rb_shape_set_shape_id(obj, rb_shape_id(shape));
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}
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VALUE
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rb_shape_flags_mask(void)
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{
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return SHAPE_FLAG_MASK;
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}
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rb_shape_t *
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rb_shape_rebuild_shape(rb_shape_t * initial_shape, rb_shape_t * dest_shape)
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{
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rb_shape_t * midway_shape;
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if (dest_shape->type != SHAPE_ROOT) {
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midway_shape = rb_shape_rebuild_shape(initial_shape, rb_shape_get_parent(dest_shape));
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}
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else {
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midway_shape = initial_shape;
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}
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switch (dest_shape->type) {
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case SHAPE_IVAR:
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if (midway_shape->capacity <= midway_shape->next_iv_index) {
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// There isn't enough room to write this IV, so we need to increase the capacity
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midway_shape = rb_shape_transition_shape_capa(midway_shape, midway_shape->capacity * 2);
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}
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midway_shape = rb_shape_get_next_iv_shape(midway_shape, dest_shape->edge_name);
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break;
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case SHAPE_IVAR_UNDEF:
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midway_shape = get_next_shape_internal(midway_shape, dest_shape->edge_name, SHAPE_IVAR_UNDEF);
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break;
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case SHAPE_ROOT:
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case SHAPE_FROZEN:
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case SHAPE_CAPACITY_CHANGE:
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break;
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}
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return midway_shape;
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}
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#if VM_CHECK_MODE > 0
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VALUE rb_cShape;
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/*
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* Exposing Shape to Ruby via RubyVM.debug_shape
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*/
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static const rb_data_type_t shape_data_type = {
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"Shape",
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{NULL, NULL, NULL,},
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0, 0, RUBY_TYPED_FREE_IMMEDIATELY|RUBY_TYPED_WB_PROTECTED
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};
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static VALUE
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rb_wrapped_shape_id(VALUE self)
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{
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rb_shape_t * shape;
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TypedData_Get_Struct(self, rb_shape_t, &shape_data_type, shape);
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return INT2NUM(rb_shape_id(shape));
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}
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static VALUE
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rb_shape_type(VALUE self)
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{
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rb_shape_t * shape;
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TypedData_Get_Struct(self, rb_shape_t, &shape_data_type, shape);
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return INT2NUM(shape->type);
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}
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static VALUE
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rb_shape_capacity(VALUE self)
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{
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rb_shape_t * shape;
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TypedData_Get_Struct(self, rb_shape_t, &shape_data_type, shape);
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return INT2NUM(shape->capacity);
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}
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static VALUE
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rb_shape_parent_id(VALUE self)
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{
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rb_shape_t * shape;
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TypedData_Get_Struct(self, rb_shape_t, &shape_data_type, shape);
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if (shape->parent_id != INVALID_SHAPE_ID) {
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return INT2NUM(shape->parent_id);
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}
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else {
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return Qnil;
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}
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}
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static VALUE
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parse_key(ID key)
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{
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if ((key & RUBY_ID_INTERNAL) == RUBY_ID_INTERNAL) {
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return LONG2NUM(key);
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}
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else {
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return ID2SYM(key);
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}
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}
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static VALUE
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rb_shape_t_to_rb_cShape(rb_shape_t *shape)
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{
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union { const rb_shape_t *in; void *out; } deconst;
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VALUE res;
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deconst.in = shape;
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res = TypedData_Wrap_Struct(rb_cShape, &shape_data_type, deconst.out);
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return res;
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}
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static enum rb_id_table_iterator_result
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rb_edges_to_hash(ID key, VALUE value, void *ref)
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{
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rb_hash_aset(*(VALUE *)ref, parse_key(key), rb_shape_t_to_rb_cShape((rb_shape_t*)value));
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return ID_TABLE_CONTINUE;
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}
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static VALUE
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rb_shape_edges(VALUE self)
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{
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rb_shape_t* shape;
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TypedData_Get_Struct(self, rb_shape_t, &shape_data_type, shape);
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VALUE hash = rb_hash_new();
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if (shape->edges) {
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rb_id_table_foreach(shape->edges, rb_edges_to_hash, &hash);
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}
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return hash;
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}
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static VALUE
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rb_shape_edge_name(VALUE self)
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{
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rb_shape_t* shape;
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TypedData_Get_Struct(self, rb_shape_t, &shape_data_type, shape);
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if ((shape->edge_name & (ID_INTERNAL)) == ID_INTERNAL) {
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return INT2NUM(shape->capacity);
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}
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else {
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if (shape->edge_name) {
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return ID2SYM(shape->edge_name);
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}
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else {
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return Qnil;
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}
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}
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}
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static VALUE
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rb_shape_next_iv_index(VALUE self)
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{
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rb_shape_t* shape;
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TypedData_Get_Struct(self, rb_shape_t, &shape_data_type, shape);
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return INT2NUM(shape->next_iv_index);
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}
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static VALUE
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rb_shape_size_pool_index(VALUE self)
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{
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rb_shape_t * shape;
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TypedData_Get_Struct(self, rb_shape_t, &shape_data_type, shape);
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return INT2NUM(shape->size_pool_index);
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}
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static VALUE
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rb_shape_export_depth(VALUE self)
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{
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rb_shape_t* shape;
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TypedData_Get_Struct(self, rb_shape_t, &shape_data_type, shape);
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unsigned int depth = 0;
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while (shape->parent_id != INVALID_SHAPE_ID) {
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depth++;
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shape = rb_shape_get_parent(shape);
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}
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return INT2NUM(depth);
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}
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static VALUE
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rb_shape_parent(VALUE self)
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{
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rb_shape_t * shape;
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TypedData_Get_Struct(self, rb_shape_t, &shape_data_type, shape);
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if (shape->parent_id != INVALID_SHAPE_ID) {
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return rb_shape_t_to_rb_cShape(rb_shape_get_parent(shape));
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}
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else {
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return Qnil;
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}
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}
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static VALUE
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rb_shape_debug_shape(VALUE self, VALUE obj)
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{
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return rb_shape_t_to_rb_cShape(rb_shape_get_shape(obj));
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}
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static VALUE
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rb_shape_root_shape(VALUE self)
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{
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return rb_shape_t_to_rb_cShape(rb_shape_get_root_shape());
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}
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VALUE rb_obj_shape(rb_shape_t* shape);
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static enum rb_id_table_iterator_result collect_keys_and_values(ID key, VALUE value, void *ref)
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{
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rb_hash_aset(*(VALUE *)ref, parse_key(key), rb_obj_shape((rb_shape_t*)value));
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return ID_TABLE_CONTINUE;
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}
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static VALUE edges(struct rb_id_table* edges)
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{
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VALUE hash = rb_hash_new();
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if (edges)
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rb_id_table_foreach(edges, collect_keys_and_values, &hash);
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return hash;
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}
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VALUE
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rb_obj_shape(rb_shape_t* shape)
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{
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VALUE rb_shape = rb_hash_new();
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rb_hash_aset(rb_shape, ID2SYM(rb_intern("id")), INT2NUM(rb_shape_id(shape)));
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rb_hash_aset(rb_shape, ID2SYM(rb_intern("edges")), edges(shape->edges));
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if (shape == rb_shape_get_root_shape()) {
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rb_hash_aset(rb_shape, ID2SYM(rb_intern("parent_id")), INT2NUM(ROOT_SHAPE_ID));
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}
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else {
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rb_hash_aset(rb_shape, ID2SYM(rb_intern("parent_id")), INT2NUM(shape->parent_id));
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}
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rb_hash_aset(rb_shape, ID2SYM(rb_intern("edge_name")), rb_id2str(shape->edge_name));
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return rb_shape;
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}
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static VALUE
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shape_transition_tree(VALUE self)
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{
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return rb_obj_shape(rb_shape_get_root_shape());
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}
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static VALUE
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next_shape_id(VALUE self)
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{
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return INT2NUM(GET_VM()->next_shape_id);
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}
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static VALUE
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rb_shape_find_by_id(VALUE mod, VALUE id)
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{
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shape_id_t shape_id = NUM2UINT(id);
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if (shape_id >= GET_VM()->next_shape_id) {
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rb_raise(rb_eArgError, "Shape ID %d is out of bounds\n", shape_id);
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}
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return rb_shape_t_to_rb_cShape(rb_shape_get_shape_by_id(shape_id));
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}
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#endif
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void
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Init_default_shapes(void)
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{
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id_frozen = rb_make_internal_id();
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// Shapes by size pool
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for (int i = 0; i < SIZE_POOL_COUNT; i++) {
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size_pool_edge_names[i] = rb_make_internal_id();
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}
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// Root shape
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rb_shape_t * root = rb_shape_alloc_with_parent_id(0, INVALID_SHAPE_ID);
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root->capacity = (uint32_t)((rb_size_pool_slot_size(0) - offsetof(struct RObject, as.ary)) / sizeof(VALUE));
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root->type = SHAPE_ROOT;
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root->size_pool_index = 0;
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GET_VM()->root_shape = root;
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RUBY_ASSERT(rb_shape_id(GET_VM()->root_shape) == ROOT_SHAPE_ID);
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// Shapes by size pool
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for (int i = 1; i < SIZE_POOL_COUNT; i++) {
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uint32_t capa = (uint32_t)((rb_size_pool_slot_size(i) - offsetof(struct RObject, as.ary)) / sizeof(VALUE));
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rb_shape_t * new_shape = rb_shape_transition_shape_capa(root, capa);
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new_shape->type = SHAPE_INITIAL_CAPACITY;
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new_shape->size_pool_index = i;
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RUBY_ASSERT(rb_shape_id(new_shape) == (shape_id_t)i);
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}
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// Special const shape
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#if RUBY_DEBUG
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rb_shape_t * special_const_shape =
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#endif
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get_next_shape_internal(root, (ID)id_frozen, SHAPE_FROZEN);
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RUBY_ASSERT(rb_shape_id(special_const_shape) == SPECIAL_CONST_SHAPE_ID);
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RUBY_ASSERT(SPECIAL_CONST_SHAPE_ID == (GET_VM()->next_shape_id - 1));
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RUBY_ASSERT(rb_shape_frozen_shape_p(special_const_shape));
|
|
}
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|
void
|
|
Init_shape(void)
|
|
{
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#if VM_CHECK_MODE > 0
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rb_cShape = rb_define_class_under(rb_cRubyVM, "Shape", rb_cObject);
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rb_undef_alloc_func(rb_cShape);
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rb_define_method(rb_cShape, "parent_id", rb_shape_parent_id, 0);
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rb_define_method(rb_cShape, "parent", rb_shape_parent, 0);
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rb_define_method(rb_cShape, "edges", rb_shape_edges, 0);
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rb_define_method(rb_cShape, "edge_name", rb_shape_edge_name, 0);
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rb_define_method(rb_cShape, "next_iv_index", rb_shape_next_iv_index, 0);
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rb_define_method(rb_cShape, "size_pool_index", rb_shape_size_pool_index, 0);
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rb_define_method(rb_cShape, "depth", rb_shape_export_depth, 0);
|
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rb_define_method(rb_cShape, "id", rb_wrapped_shape_id, 0);
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|
rb_define_method(rb_cShape, "type", rb_shape_type, 0);
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|
rb_define_method(rb_cShape, "capacity", rb_shape_capacity, 0);
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rb_define_const(rb_cShape, "SHAPE_ROOT", INT2NUM(SHAPE_ROOT));
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|
rb_define_const(rb_cShape, "SHAPE_IVAR", INT2NUM(SHAPE_IVAR));
|
|
rb_define_const(rb_cShape, "SHAPE_IVAR_UNDEF", INT2NUM(SHAPE_IVAR_UNDEF));
|
|
rb_define_const(rb_cShape, "SHAPE_FROZEN", INT2NUM(SHAPE_FROZEN));
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|
rb_define_const(rb_cShape, "SHAPE_BITS", INT2NUM(SHAPE_BITS));
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|
rb_define_const(rb_cShape, "SHAPE_FLAG_SHIFT", INT2NUM(SHAPE_FLAG_SHIFT));
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|
rb_define_const(rb_cShape, "SPECIAL_CONST_SHAPE_ID", INT2NUM(SPECIAL_CONST_SHAPE_ID));
|
|
|
|
rb_define_singleton_method(rb_cShape, "transition_tree", shape_transition_tree, 0);
|
|
rb_define_singleton_method(rb_cShape, "find_by_id", rb_shape_find_by_id, 1);
|
|
rb_define_singleton_method(rb_cShape, "next_shape_id", next_shape_id, 0);
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|
rb_define_singleton_method(rb_cShape, "of", rb_shape_debug_shape, 1);
|
|
rb_define_singleton_method(rb_cShape, "root_shape", rb_shape_root_shape, 0);
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|
#endif
|
|
}
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