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Object Shapes is used for accessing instance variables and representing the "frozenness" of objects. Object instances have a "shape" and the shape represents some attributes of the object (currently which instance variables are set and the "frozenness"). Shapes form a tree data structure, and when a new instance variable is set on an object, that object "transitions" to a new shape in the shape tree. Each shape has an ID that is used for caching. The shape structure is independent of class, so objects of different types can have the same shape. For example: ```ruby class Foo def initialize # Starts with shape id 0 @a = 1 # transitions to shape id 1 @b = 1 # transitions to shape id 2 end end class Bar def initialize # Starts with shape id 0 @a = 1 # transitions to shape id 1 @b = 1 # transitions to shape id 2 end end foo = Foo.new # `foo` has shape id 2 bar = Bar.new # `bar` has shape id 2 ``` Both `foo` and `bar` instances have the same shape because they both set instance variables of the same name in the same order. This technique can help to improve inline cache hits as well as generate more efficient machine code in JIT compilers. This commit also adds some methods for debugging shapes on objects. See `RubyVM::Shape` for more details. For more context on Object Shapes, see [Feature: #18776] Co-Authored-By: Aaron Patterson <tenderlove@ruby-lang.org> Co-Authored-By: Eileen M. Uchitelle <eileencodes@gmail.com> Co-Authored-By: John Hawthorn <john@hawthorn.email>
150 lines
4 KiB
C
150 lines
4 KiB
C
#ifndef RUBY_SHAPE_H
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#define RUBY_SHAPE_H
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#if (SIZEOF_UINT64_T == SIZEOF_VALUE)
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#define SIZEOF_SHAPE_T 4
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#define SHAPE_IN_BASIC_FLAGS 1
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typedef uint32_t attr_index_t;
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#else
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#define SIZEOF_SHAPE_T 2
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#define SHAPE_IN_BASIC_FLAGS 0
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typedef uint16_t attr_index_t;
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#endif
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#define MAX_IVARS (attr_index_t)(-1)
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#if RUBY_DEBUG || (defined(VM_CHECK_MODE) && VM_CHECK_MODE > 0)
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# if SIZEOF_SHAPE_T == 4
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typedef uint32_t shape_id_t;
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# define SHAPE_BITS 16
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# else
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typedef uint16_t shape_id_t;
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# define SHAPE_BITS 16
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# endif
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#else
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# if SIZEOF_SHAPE_T == 4
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typedef uint32_t shape_id_t;
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# define SHAPE_BITS 32
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# else
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typedef uint16_t shape_id_t;
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# define SHAPE_BITS 16
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# endif
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#endif
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# define SHAPE_MASK (((uintptr_t)1 << SHAPE_BITS) - 1)
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# define SHAPE_FLAG_MASK (((VALUE)-1) >> SHAPE_BITS)
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# define SHAPE_FLAG_SHIFT ((SIZEOF_VALUE * 8) - SHAPE_BITS)
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# define SHAPE_BITMAP_SIZE 16384
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# define MAX_SHAPE_ID (SHAPE_MASK - 1)
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# define INVALID_SHAPE_ID SHAPE_MASK
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# define ROOT_SHAPE_ID 0x0
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# define FROZEN_ROOT_SHAPE_ID 0x1
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struct rb_shape {
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struct rb_shape * parent; // Pointer to the parent
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struct rb_id_table * edges; // id_table from ID (ivar) to next shape
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ID edge_name; // ID (ivar) for transition from parent to rb_shape
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attr_index_t iv_count;
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uint8_t type;
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};
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typedef struct rb_shape rb_shape_t;
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enum shape_type {
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SHAPE_ROOT,
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SHAPE_IVAR,
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SHAPE_FROZEN,
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SHAPE_IVAR_UNDEF,
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};
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static inline shape_id_t
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IMEMO_CACHED_SHAPE_ID(VALUE cc)
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{
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RBIMPL_ASSERT_TYPE((VALUE)cc, RUBY_T_IMEMO);
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return (shape_id_t)(SHAPE_MASK & (RBASIC(cc)->flags >> SHAPE_FLAG_SHIFT));
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}
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static inline void
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IMEMO_SET_CACHED_SHAPE_ID(VALUE cc, shape_id_t shape_id)
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{
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RBIMPL_ASSERT_TYPE((VALUE)cc, RUBY_T_IMEMO);
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RBASIC(cc)->flags &= SHAPE_FLAG_MASK;
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RBASIC(cc)->flags |= ((VALUE)(shape_id) << SHAPE_FLAG_SHIFT);
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}
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#if SHAPE_IN_BASIC_FLAGS
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static inline shape_id_t
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RBASIC_SHAPE_ID(VALUE obj)
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{
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RUBY_ASSERT(!RB_SPECIAL_CONST_P(obj));
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return (shape_id_t)(SHAPE_MASK & ((RBASIC(obj)->flags) >> SHAPE_FLAG_SHIFT));
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}
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static inline void
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RBASIC_SET_SHAPE_ID(VALUE obj, shape_id_t shape_id)
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{
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// Ractors are occupying the upper 32 bits of flags, but only in debug mode
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// Object shapes are occupying top bits
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RBASIC(obj)->flags &= SHAPE_FLAG_MASK;
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RBASIC(obj)->flags |= ((VALUE)(shape_id) << SHAPE_FLAG_SHIFT);
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}
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static inline shape_id_t
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ROBJECT_SHAPE_ID(VALUE obj)
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{
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RBIMPL_ASSERT_TYPE(obj, RUBY_T_OBJECT);
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return RBASIC_SHAPE_ID(obj);
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}
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static inline void
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ROBJECT_SET_SHAPE_ID(VALUE obj, shape_id_t shape_id)
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{
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RBIMPL_ASSERT_TYPE(obj, RUBY_T_OBJECT);
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RBASIC_SET_SHAPE_ID(obj, shape_id);
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}
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#else
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static inline shape_id_t
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ROBJECT_SHAPE_ID(VALUE obj)
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{
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RBIMPL_ASSERT_TYPE(obj, RUBY_T_OBJECT);
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return (shape_id_t)(SHAPE_MASK & (RBASIC(obj)->flags >> SHAPE_FLAG_SHIFT));
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}
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static inline void
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ROBJECT_SET_SHAPE_ID(VALUE obj, shape_id_t shape_id)
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{
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RBASIC(obj)->flags &= SHAPE_FLAG_MASK;
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RBASIC(obj)->flags |= ((VALUE)(shape_id) << SHAPE_FLAG_SHIFT);
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}
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#endif
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bool rb_shape_root_shape_p(rb_shape_t* shape);
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rb_shape_t* rb_shape_get_shape_by_id_without_assertion(shape_id_t shape_id);
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MJIT_SYMBOL_EXPORT_BEGIN
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rb_shape_t* rb_shape_get_shape_by_id(shape_id_t shape_id);
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void rb_shape_set_shape(VALUE obj, rb_shape_t* shape);
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shape_id_t rb_shape_get_shape_id(VALUE obj);
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rb_shape_t* rb_shape_get_shape(VALUE obj);
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int rb_shape_frozen_shape_p(rb_shape_t* shape);
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void rb_shape_transition_shape_frozen(VALUE obj);
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void rb_shape_transition_shape_remove_ivar(VALUE obj, ID id, rb_shape_t *shape);
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void rb_shape_transition_shape(VALUE obj, ID id, rb_shape_t *shape);
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rb_shape_t* rb_shape_get_next(rb_shape_t* shape, VALUE obj, ID id);
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bool rb_shape_get_iv_index(rb_shape_t * shape, ID id, attr_index_t * value);
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shape_id_t rb_shape_id(rb_shape_t * shape);
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MJIT_SYMBOL_EXPORT_END
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rb_shape_t * rb_shape_alloc(ID edge_name, rb_shape_t * parent);
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bool rb_shape_set_shape_id(VALUE obj, shape_id_t shape_id);
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VALUE rb_obj_debug_shape(VALUE self, VALUE obj);
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VALUE rb_shape_flags_mask(void);
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#endif
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