mirror of
https://github.com/LadybirdBrowser/ladybird.git
synced 2024-11-25 00:50:22 +00:00
f87041bf3a
Resulting in a massive rename across almost everywhere! Alongside the namespace change, we now have the following names: * JS::NonnullGCPtr -> GC::Ref * JS::GCPtr -> GC::Ptr * JS::HeapFunction -> GC::Function * JS::CellImpl -> GC::Cell * JS::Handle -> GC::Root
409 lines
16 KiB
C++
409 lines
16 KiB
C++
/*
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* Copyright (c) 2021-2024, Andreas Kling <andreas@ladybird.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#pragma once
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#include <AK/OwnPtr.h>
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#include <AK/SinglyLinkedList.h>
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#include <LibJS/AST.h>
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#include <LibJS/Bytecode/BasicBlock.h>
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#include <LibJS/Bytecode/CodeGenerationError.h>
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#include <LibJS/Bytecode/Executable.h>
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#include <LibJS/Bytecode/IdentifierTable.h>
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#include <LibJS/Bytecode/Label.h>
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#include <LibJS/Bytecode/Op.h>
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#include <LibJS/Bytecode/Register.h>
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#include <LibJS/Bytecode/StringTable.h>
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#include <LibJS/Forward.h>
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#include <LibJS/Runtime/FunctionKind.h>
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#include <LibRegex/Regex.h>
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namespace JS::Bytecode {
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class Generator {
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public:
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VM& vm() { return m_vm; }
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enum class SurroundingScopeKind {
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Global,
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Function,
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Block,
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};
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enum class MustPropagateCompletion {
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No,
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Yes,
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};
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static CodeGenerationErrorOr<GC::Ref<Executable>> generate_from_ast_node(VM&, ASTNode const&, FunctionKind = FunctionKind::Normal);
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static CodeGenerationErrorOr<GC::Ref<Executable>> generate_from_function(VM&, ECMAScriptFunctionObject const& function);
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CodeGenerationErrorOr<void> emit_function_declaration_instantiation(ECMAScriptFunctionObject const& function);
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[[nodiscard]] ScopedOperand allocate_register();
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[[nodiscard]] ScopedOperand local(u32 local_index);
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[[nodiscard]] ScopedOperand accumulator();
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[[nodiscard]] ScopedOperand this_value();
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void free_register(Register);
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void set_local_initialized(u32 local_index);
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[[nodiscard]] bool is_local_initialized(u32 local_index) const;
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class SourceLocationScope {
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public:
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SourceLocationScope(Generator&, ASTNode const& node);
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~SourceLocationScope();
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private:
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Generator& m_generator;
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ASTNode const* m_previous_node { nullptr };
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};
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class UnwindContext {
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public:
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UnwindContext(Generator&, Optional<Label> finalizer);
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UnwindContext const* previous() const { return m_previous_context; }
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void set_handler(Label handler) { m_handler = handler; }
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Optional<Label> handler() const { return m_handler; }
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Optional<Label> finalizer() const { return m_finalizer; }
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~UnwindContext();
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private:
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Generator& m_generator;
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Optional<Label> m_finalizer;
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Optional<Label> m_handler {};
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UnwindContext const* m_previous_context { nullptr };
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};
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template<typename OpType, typename... Args>
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requires(requires { OpType(declval<Args>()...); })
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void emit(Args&&... args)
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{
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VERIFY(!is_current_block_terminated());
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size_t slot_offset = m_current_basic_block->size();
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m_current_basic_block->set_last_instruction_start_offset(slot_offset);
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grow(sizeof(OpType));
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void* slot = m_current_basic_block->data() + slot_offset;
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new (slot) OpType(forward<Args>(args)...);
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if constexpr (OpType::IsTerminator)
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m_current_basic_block->terminate({});
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m_current_basic_block->add_source_map_entry(slot_offset, { m_current_ast_node->start_offset(), m_current_ast_node->end_offset() });
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}
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template<typename OpType, typename ExtraSlotType, typename... Args>
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requires(requires { OpType(declval<Args>()...); })
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void emit_with_extra_slots(size_t extra_slot_count, Args&&... args)
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{
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VERIFY(!is_current_block_terminated());
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size_t size_to_allocate = round_up_to_power_of_two(sizeof(OpType) + extra_slot_count * sizeof(ExtraSlotType), alignof(void*));
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size_t slot_offset = m_current_basic_block->size();
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m_current_basic_block->set_last_instruction_start_offset(slot_offset);
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grow(size_to_allocate);
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void* slot = m_current_basic_block->data() + slot_offset;
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new (slot) OpType(forward<Args>(args)...);
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if constexpr (OpType::IsTerminator)
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m_current_basic_block->terminate({});
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m_current_basic_block->add_source_map_entry(slot_offset, { m_current_ast_node->start_offset(), m_current_ast_node->end_offset() });
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}
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template<typename OpType, typename... Args>
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requires(requires { OpType(declval<Args>()...); })
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void emit_with_extra_operand_slots(size_t extra_operand_slots, Args&&... args)
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{
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emit_with_extra_slots<OpType, Operand>(extra_operand_slots, forward<Args>(args)...);
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}
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template<typename OpType, typename... Args>
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requires(requires { OpType(declval<Args>()...); })
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void emit_with_extra_value_slots(size_t extra_operand_slots, Args&&... args)
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{
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emit_with_extra_slots<OpType, Value>(extra_operand_slots, forward<Args>(args)...);
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}
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void emit_jump_if(ScopedOperand const& condition, Label true_target, Label false_target);
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struct ReferenceOperands {
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Optional<ScopedOperand> base {}; // [[Base]]
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Optional<ScopedOperand> referenced_name {}; // [[ReferencedName]] as an operand
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Optional<IdentifierTableIndex> referenced_identifier {}; // [[ReferencedName]] as an identifier
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Optional<IdentifierTableIndex> referenced_private_identifier {}; // [[ReferencedName]] as a private identifier
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Optional<ScopedOperand> this_value {}; // [[ThisValue]]
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Optional<ScopedOperand> loaded_value {}; // Loaded value, if we've performed a load.
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};
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CodeGenerationErrorOr<ReferenceOperands> emit_load_from_reference(JS::ASTNode const&, Optional<ScopedOperand> preferred_dst = {});
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CodeGenerationErrorOr<void> emit_store_to_reference(JS::ASTNode const&, ScopedOperand value);
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CodeGenerationErrorOr<void> emit_store_to_reference(ReferenceOperands const&, ScopedOperand value);
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CodeGenerationErrorOr<Optional<ScopedOperand>> emit_delete_reference(JS::ASTNode const&);
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CodeGenerationErrorOr<ReferenceOperands> emit_super_reference(MemberExpression const&);
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void emit_set_variable(JS::Identifier const& identifier, ScopedOperand value, Bytecode::Op::BindingInitializationMode initialization_mode = Bytecode::Op::BindingInitializationMode::Set, Bytecode::Op::EnvironmentMode mode = Bytecode::Op::EnvironmentMode::Lexical);
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void push_home_object(ScopedOperand);
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void pop_home_object();
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void emit_new_function(ScopedOperand dst, JS::FunctionExpression const&, Optional<IdentifierTableIndex> lhs_name);
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CodeGenerationErrorOr<Optional<ScopedOperand>> emit_named_evaluation_if_anonymous_function(Expression const&, Optional<IdentifierTableIndex> lhs_name, Optional<ScopedOperand> preferred_dst = {});
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void begin_continuable_scope(Label continue_target, Vector<DeprecatedFlyString> const& language_label_set);
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void end_continuable_scope();
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void begin_breakable_scope(Label breakable_target, Vector<DeprecatedFlyString> const& language_label_set);
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void end_breakable_scope();
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[[nodiscard]] Label nearest_continuable_scope() const;
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[[nodiscard]] Label nearest_breakable_scope() const;
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void switch_to_basic_block(BasicBlock& block)
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{
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m_current_basic_block = █
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}
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[[nodiscard]] BasicBlock& current_block() { return *m_current_basic_block; }
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BasicBlock& make_block(String name = {})
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{
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if (name.is_empty())
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name = String::number(m_next_block++);
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auto block = BasicBlock::create(m_root_basic_blocks.size(), name);
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if (auto const* context = m_current_unwind_context) {
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if (context->handler().has_value())
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block->set_handler(*m_root_basic_blocks[context->handler().value().basic_block_index()]);
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if (m_current_unwind_context->finalizer().has_value())
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block->set_finalizer(*m_root_basic_blocks[context->finalizer().value().basic_block_index()]);
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}
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m_root_basic_blocks.append(move(block));
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return *m_root_basic_blocks.last();
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}
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bool is_current_block_terminated() const
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{
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return m_current_basic_block->is_terminated();
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}
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StringTableIndex intern_string(ByteString string)
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{
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return m_string_table->insert(move(string));
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}
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RegexTableIndex intern_regex(ParsedRegex regex)
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{
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return m_regex_table->insert(move(regex));
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}
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IdentifierTableIndex intern_identifier(DeprecatedFlyString string)
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{
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return m_identifier_table->insert(move(string));
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}
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Optional<IdentifierTableIndex> intern_identifier_for_expression(Expression const& expression);
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bool is_in_generator_or_async_function() const { return m_enclosing_function_kind == FunctionKind::Async || m_enclosing_function_kind == FunctionKind::Generator || m_enclosing_function_kind == FunctionKind::AsyncGenerator; }
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bool is_in_generator_function() const { return m_enclosing_function_kind == FunctionKind::Generator || m_enclosing_function_kind == FunctionKind::AsyncGenerator; }
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bool is_in_async_function() const { return m_enclosing_function_kind == FunctionKind::Async || m_enclosing_function_kind == FunctionKind::AsyncGenerator; }
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bool is_in_async_generator_function() const { return m_enclosing_function_kind == FunctionKind::AsyncGenerator; }
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enum class BindingMode {
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Lexical,
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Var,
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Global,
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};
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struct LexicalScope {
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SurroundingScopeKind kind;
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};
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// Returns true if a lexical environment was created.
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bool emit_block_declaration_instantiation(ScopeNode const&);
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void begin_variable_scope();
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void end_variable_scope();
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enum class BlockBoundaryType {
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Break,
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Continue,
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Unwind,
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ReturnToFinally,
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LeaveFinally,
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LeaveLexicalEnvironment,
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};
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template<typename OpType>
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void perform_needed_unwinds()
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requires(OpType::IsTerminator && !IsSame<OpType, Op::Jump>)
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{
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for (size_t i = m_boundaries.size(); i > 0; --i) {
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auto boundary = m_boundaries[i - 1];
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using enum BlockBoundaryType;
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switch (boundary) {
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case Unwind:
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if constexpr (IsSame<OpType, Bytecode::Op::Throw>)
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return;
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emit<Bytecode::Op::LeaveUnwindContext>();
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break;
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case LeaveLexicalEnvironment:
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emit<Bytecode::Op::LeaveLexicalEnvironment>();
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break;
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case Break:
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case Continue:
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break;
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case ReturnToFinally:
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return;
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case LeaveFinally:
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emit<Bytecode::Op::LeaveFinally>();
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break;
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};
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}
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}
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bool is_in_finalizer() const { return m_boundaries.contains_slow(BlockBoundaryType::LeaveFinally); }
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bool must_enter_finalizer() const { return m_boundaries.contains_slow(BlockBoundaryType::ReturnToFinally); }
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void generate_break();
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void generate_break(DeprecatedFlyString const& break_label);
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void generate_continue();
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void generate_continue(DeprecatedFlyString const& continue_label);
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template<typename OpType>
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void emit_return(ScopedOperand value)
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requires(IsOneOf<OpType, Op::Return, Op::Yield>)
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{
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// FIXME: Tell the call sites about the `saved_return_value` destination
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// And take that into account in the movs below.
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perform_needed_unwinds<OpType>();
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if (must_enter_finalizer()) {
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VERIFY(m_current_basic_block->finalizer() != nullptr);
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// Compare to:
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// * Interpreter::do_return
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// * Interpreter::run_bytecode::handle_ContinuePendingUnwind
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// * Return::execute_impl
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// * Yield::execute_impl
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if constexpr (IsSame<OpType, Op::Yield>)
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emit<Bytecode::Op::PrepareYield>(Operand(Register::saved_return_value()), value);
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else
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emit<Bytecode::Op::Mov>(Operand(Register::saved_return_value()), value);
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emit<Bytecode::Op::Mov>(Operand(Register::exception()), add_constant(Value {}));
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// FIXME: Do we really need to clear the return value register here?
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emit<Bytecode::Op::Mov>(Operand(Register::return_value()), add_constant(Value {}));
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emit<Bytecode::Op::Jump>(Label { *m_current_basic_block->finalizer() });
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return;
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}
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if constexpr (IsSame<OpType, Op::Return>)
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emit<Op::Return>(value);
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else
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emit<Op::Yield>(nullptr, value);
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}
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void start_boundary(BlockBoundaryType type) { m_boundaries.append(type); }
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void end_boundary(BlockBoundaryType type)
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{
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VERIFY(m_boundaries.last() == type);
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m_boundaries.take_last();
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}
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[[nodiscard]] ScopedOperand copy_if_needed_to_preserve_evaluation_order(ScopedOperand const&);
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[[nodiscard]] ScopedOperand get_this(Optional<ScopedOperand> preferred_dst = {});
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void emit_get_by_id(ScopedOperand dst, ScopedOperand base, IdentifierTableIndex property_identifier, Optional<IdentifierTableIndex> base_identifier = {});
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void emit_get_by_id_with_this(ScopedOperand dst, ScopedOperand base, IdentifierTableIndex, ScopedOperand this_value);
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void emit_iterator_value(ScopedOperand dst, ScopedOperand result);
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void emit_iterator_complete(ScopedOperand dst, ScopedOperand result);
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[[nodiscard]] size_t next_global_variable_cache() { return m_next_global_variable_cache++; }
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[[nodiscard]] size_t next_property_lookup_cache() { return m_next_property_lookup_cache++; }
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enum class DeduplicateConstant {
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Yes,
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No,
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};
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[[nodiscard]] ScopedOperand add_constant(Value);
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[[nodiscard]] Value get_constant(ScopedOperand const& operand) const
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{
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VERIFY(operand.operand().is_constant());
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return m_constants[operand.operand().index()];
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}
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UnwindContext const* current_unwind_context() const { return m_current_unwind_context; }
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[[nodiscard]] bool is_finished() const { return m_finished; }
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[[nodiscard]] bool must_propagate_completion() const { return m_must_propagate_completion; }
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private:
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VM& m_vm;
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static CodeGenerationErrorOr<GC::Ref<Executable>> compile(VM&, ASTNode const&, FunctionKind, GC::Ptr<ECMAScriptFunctionObject const>, MustPropagateCompletion, Vector<DeprecatedFlyString> local_variable_names);
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enum class JumpType {
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Continue,
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Break,
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};
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void generate_scoped_jump(JumpType);
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void generate_labelled_jump(JumpType, DeprecatedFlyString const& label);
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Generator(VM&, GC::Ptr<ECMAScriptFunctionObject const>, MustPropagateCompletion);
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~Generator() = default;
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void grow(size_t);
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// Returns true if a fused instruction was emitted.
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[[nodiscard]] bool fuse_compare_and_jump(ScopedOperand const& condition, Label true_target, Label false_target);
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struct LabelableScope {
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Label bytecode_target;
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Vector<DeprecatedFlyString> language_label_set;
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};
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BasicBlock* m_current_basic_block { nullptr };
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ASTNode const* m_current_ast_node { nullptr };
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UnwindContext const* m_current_unwind_context { nullptr };
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Vector<NonnullOwnPtr<BasicBlock>> m_root_basic_blocks;
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NonnullOwnPtr<StringTable> m_string_table;
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NonnullOwnPtr<IdentifierTable> m_identifier_table;
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NonnullOwnPtr<RegexTable> m_regex_table;
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GC::MarkedVector<Value> m_constants;
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mutable Optional<ScopedOperand> m_true_constant;
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mutable Optional<ScopedOperand> m_false_constant;
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mutable Optional<ScopedOperand> m_null_constant;
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mutable Optional<ScopedOperand> m_undefined_constant;
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mutable Optional<ScopedOperand> m_empty_constant;
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mutable HashMap<i32, ScopedOperand> m_int32_constants;
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ScopedOperand m_accumulator;
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ScopedOperand m_this_value;
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Vector<Register> m_free_registers;
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u32 m_next_register { Register::reserved_register_count };
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u32 m_next_block { 1 };
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u32 m_next_property_lookup_cache { 0 };
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u32 m_next_global_variable_cache { 0 };
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FunctionKind m_enclosing_function_kind { FunctionKind::Normal };
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Vector<LabelableScope> m_continuable_scopes;
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Vector<LabelableScope> m_breakable_scopes;
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Vector<BlockBoundaryType> m_boundaries;
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Vector<ScopedOperand> m_home_objects;
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HashTable<u32> m_initialized_locals;
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bool m_finished { false };
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bool m_must_propagate_completion { true };
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GC::Ptr<ECMAScriptFunctionObject const> m_function;
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Optional<IdentifierTableIndex> m_length_identifier;
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};
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}
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