Source/JavaScriptCore/generator/Opcode.rb - WebKit - Git at Google

 # Copyright (C) 2018-2019 Apple Inc. All rights reserved.
 #
 # Redistribution and use in source and binary forms, with or without
 # modification, are permitted provided that the following conditions
 # are met:
 # 1. Redistributions of source code must retain the above copyright
 #    notice, this list of conditions and the following disclaimer.
 # 2. Redistributions in binary form must reproduce the above copyright
 #    notice, this list of conditions and the following disclaimer in the
 #    documentation and/or other materials provided with the distribution.
 #
 # THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
 # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
 # THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 # PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
 # BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 # CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 # ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 # THE POSSIBILITY OF SUCH DAMAGE.

 require_relative 'Argument'
 require_relative 'Fits'
 require_relative 'Metadata'

 class Opcode
     attr_reader :id
     attr_reader :args
     attr_reader :metadata
     attr_reader :extras
     attr_reader :checkpoints

     module Size
         Narrow = "OpcodeSize::Narrow"
         Wide16 = "OpcodeSize::Wide16"
         Wide32 = "OpcodeSize::Wide32"
     end

     @@id = 0

     def self.id
         tid = @@id
         @@id = @@id + 1
         tid
     end

     def initialize(section, name, extras, args, metadata, metadata_initializers, tmps, checkpoints)
         @section = section
         @name = name
         @extras = extras || {}
         @metadata = Metadata.new metadata, metadata_initializers
         @args = args.map.with_index { |(arg_name, type), index| Argument.new arg_name, type, index } unless args.nil?
         @tmps = tmps
         @checkpoints = checkpoints.map { |(checkpoint, _)| checkpoint } unless checkpoints.nil?
     end

     def create_id!
         @id = self.class.id
     end

     def print_args(&block)
         return if @args.nil?
         @args.map(&block).join "\n"
     end

     def print_members(prefix, &block)
         return if @args.nil?
         @args.map(&block).map { |arg| "#{prefix}#{arg}" }.join "\n"
     end

     def capitalized_name
         name.split('_').map(&:capitalize).join
     end

     def typed_args
         return if @args.nil?

         @args.map(&:create_param).unshift("").join(", ")
     end

     def typed_reference_args
         return if @args.nil?

         @args.map(&:create_reference_param).unshift("").join(", ")
     end

     def untyped_args
         return if @args.nil?

         @args.map(&:name).unshift("").join(", ")
     end

     def opcodeIDType
       @section.is_wasm? ? :WasmOpcodeID : :OpcodeID
     end

     def wide16
       @section.is_wasm? ? :wasm_wide16 : :op_wide16
     end

     def wide32
       @section.is_wasm? ? :wasm_wide32 : :op_wide32
     end

     def traits
       @section.is_wasm? ? "WasmOpcodeTraits" : "JSOpcodeTraits"
     end

     def map_fields_with_size(prefix, size, &block)
         args = [Argument.new("opcodeID", opcodeIDType, 0)]
         args += @args.dup if @args
         unless @metadata.empty?
             args << @metadata.emitter_local
         end
         args.map { |arg| "#{prefix}#{block.call(arg, size)}" }
     end

     def map_operands_with_size(prefix, size, &block)
         args = []
         args += @args.dup if @args
         unless @metadata.empty?
             args << @metadata.emitter_local
         end
         args.map { |arg| "#{prefix}#{block.call(arg, size)}" }
     end

     def struct
         <<-EOF
 struct #{capitalized_name} : public Instruction {
     #{opcodeID}
     #{temps}
     #{checkpointValues}

 #{emitter}
 #{dumper}
 #{constructors}
 #{setters}#{metadata_struct_and_accessor}
 #{members}
 };
 EOF
     end

     def opcodeID
         "static constexpr #{opcodeIDType} opcodeID = #{name};"
     end

     def checkpointValues
         return if @checkpoints.nil?

         ["enum Checkpoints : uint8_t {"].concat(checkpoints.map{ |checkpoint| "        #{checkpoint}," }).concat(["        numberOfCheckpoints,", "    };"]).join("\n")
     end

     def temps
         return if @tmps.nil?

         ["enum Tmps : uint8_t {"].concat(@tmps.map {|(tmp, type)| "        #{tmp},"}).push("    };").join("\n")
     end

     def emitter
         op_wide16 = Argument.new(wide16, opcodeIDType, 0)
         op_wide32 = Argument.new(wide32, opcodeIDType, 0)
         metadata_param = @metadata.empty? ? "" : ", #{@metadata.emitter_local.create_param}"
         metadata_arg = @metadata.empty? ? "" : ", #{@metadata.emitter_local.name}"
         <<-EOF.chomp
     template<typename BytecodeGenerator>
     static void emit(BytecodeGenerator* gen#{typed_args})
     {
         emitWithSmallestSizeRequirement<OpcodeSize::Narrow, BytecodeGenerator>(gen#{untyped_args});
     }
 #{%{
     template<OpcodeSize __size, typename BytecodeGenerator, FitsAssertion shouldAssert = Assert>
     static bool emit(BytecodeGenerator* gen#{typed_args})
     {#{@metadata.create_emitter_local}
         return emit<__size, BytecodeGenerator, shouldAssert>(gen#{untyped_args}#{metadata_arg});
     }

     template<OpcodeSize __size, typename BytecodeGenerator>
     static bool checkWithoutMetadataID(BytecodeGenerator* gen#{typed_args})
     {
         decltype(gen->addMetadataFor(opcodeID)) __metadataID { };
         return checkImpl<__size, BytecodeGenerator>(gen#{untyped_args}#{metadata_arg});
     }
 } unless @metadata.empty?}
     template<OpcodeSize __size, typename BytecodeGenerator, FitsAssertion shouldAssert = Assert, bool recordOpcode = true>
     static bool emit(BytecodeGenerator* gen#{typed_args}#{metadata_param})
     {
         bool didEmit = emitImpl<__size, recordOpcode, BytecodeGenerator>(gen#{untyped_args}#{metadata_arg});
         if (shouldAssert == Assert)
             ASSERT(didEmit);
         return didEmit;
     }

     template<OpcodeSize __size, typename BytecodeGenerator>
     static void emitWithSmallestSizeRequirement(BytecodeGenerator* gen#{typed_args})
     {
         #{@metadata.create_emitter_local}
         if (static_cast<unsigned>(__size) <= static_cast<unsigned>(OpcodeSize::Narrow)) {
             if (emit<OpcodeSize::Narrow, BytecodeGenerator, NoAssert, true>(gen#{untyped_args}#{metadata_arg}))
                 return;
         }
         if (static_cast<unsigned>(__size) <= static_cast<unsigned>(OpcodeSize::Wide16)) {
             if (emit<OpcodeSize::Wide16, BytecodeGenerator, NoAssert, true>(gen#{untyped_args}#{metadata_arg}))
                 return;
         }
         emit<OpcodeSize::Wide32, BytecodeGenerator, Assert, true>(gen#{untyped_args}#{metadata_arg});
     }

 private:
     template<OpcodeSize __size, typename BytecodeGenerator>
     static bool checkImpl(BytecodeGenerator* gen#{typed_reference_args}#{metadata_param})
     {
         UNUSED_PARAM(gen);
 #if OS(WINDOWS) && ENABLE(C_LOOP)
         // FIXME: Disable wide16 optimization for Windows CLoop
         // https://bugs.webkit.org/show_bug.cgi?id=198283
         if (__size == OpcodeSize::Wide16)
             return false;
 #endif
         return #{map_fields_with_size("", "__size", &:fits_check).join "\n            && "}
             && (__size == OpcodeSize::Wide16 ? #{op_wide16.fits_check(Size::Narrow)} : true)
             && (__size == OpcodeSize::Wide32 ? #{op_wide32.fits_check(Size::Narrow)} : true);
     }

     template<OpcodeSize __size, bool recordOpcode, typename BytecodeGenerator>
     static bool emitImpl(BytecodeGenerator* gen#{typed_args}#{metadata_param})
     {
         #{!@checkpoints.nil? ? "gen->setUsesCheckpoints();" : ""}
         if (__size == OpcodeSize::Wide16)
             gen->alignWideOpcode16();
         else if (__size == OpcodeSize::Wide32)
             gen->alignWideOpcode32();
         if (checkImpl<__size>(gen#{untyped_args}#{metadata_arg})) {
             if (recordOpcode)
                 gen->recordOpcode(opcodeID);
             if (__size == OpcodeSize::Wide16)
                 #{op_wide16.fits_write Size::Narrow}
             else if (__size == OpcodeSize::Wide32)
                 #{op_wide32.fits_write Size::Narrow}
             #{Argument.new("opcodeID", opcodeIDType, 0).fits_write Size::Narrow}
 #{map_operands_with_size("            ", "__size", &:fits_write).join "\n"}
             return true;
         }
         return false;
     }

 public:
 EOF
     end

     def dumper
         <<-EOF
     void dump(BytecodeDumperBase* dumper, InstructionStream::Offset __location, int __sizeShiftAmount)
     {
         dumper->printLocationAndOp(__location, &"**#{@name}"[2 - __sizeShiftAmount]);
 #{print_args { |arg|
 <<-EOF.chomp
         dumper->dumpOperand(#{arg.field_name}, #{arg.index == 0});
 EOF
     }}
     }
 EOF
     end

     def constructors
         fields = (@args || []) + (@metadata.empty? ? [] : [@metadata])
         init = ->(size) { fields.empty?  ? "" : ": #{fields.map.with_index { |arg, i| arg.load_from_stream(i, size) }.join "\n        , " }" }

         <<-EOF
     #{capitalized_name}(const uint8_t* stream)
         #{init.call("OpcodeSize::Narrow")}
     {
         ASSERT_UNUSED(stream, bitwise_cast<const uint8_t*>(stream)[-1] == opcodeID);
     }

     #{capitalized_name}(const uint16_t* stream)
         #{init.call("OpcodeSize::Wide16")}
     {
         ASSERT_UNUSED(stream, bitwise_cast<const uint8_t*>(stream)[-1] == opcodeID);
     }


     #{capitalized_name}(const uint32_t* stream)
         #{init.call("OpcodeSize::Wide32")}
     {
         ASSERT_UNUSED(stream, bitwise_cast<const uint8_t*>(stream)[-1] == opcodeID);
     }

     static #{capitalized_name} decode(const uint8_t* stream)
     {
         // A pointer is pointing to the first operand (opcode and prefix are not included).
         if (*stream == #{wide32})
             return { bitwise_cast<const uint32_t*>(stream + 2) };
         if (*stream == #{wide16})
             return { bitwise_cast<const uint16_t*>(stream + 2) };
         return { stream + 1 };
     }
 EOF
     end

     def setters
         print_args { |a| a.setter(traits) }
     end

     def metadata_struct_and_accessor
         <<-EOF.chomp
 #{@metadata.struct(self)}#{@metadata.accessor}
 EOF
     end

     def members
         <<-EOF.chomp
 #{print_members("    ", &:field)}#{@metadata.field("    ")}
 EOF
     end

     def set_entry_address(id)
         "setEntryAddress(#{id}, _#{full_name})"
     end

     def set_entry_address_wide16(id)
         "setEntryAddressWide16(#{id}, _#{full_name}_wide16)"
     end

     def set_entry_address_wide32(id)
         "setEntryAddressWide32(#{id}, _#{full_name}_wide32)"
     end

     def struct_indices
         out = []
         out += @args.map(&:field_name) unless @args.nil?
         out << Metadata.field_name unless @metadata.empty?
         out.map.with_index do |name, index|
             "const unsigned #{capitalized_name}_#{name}_index = #{index};"
         end
     end

     def full_name
         "#{@section.config[:asm_prefix]}#{@section.config[:op_prefix]}#{@name}"
     end

     def name
         "#{@section.config[:op_prefix]}#{@name}"
     end

     def unprefixed_name
       @name
     end

     def length
         1 + (@args.nil? ? 0 : @args.length) + (@metadata.empty? ? 0 : 1)
     end

     def self.dump_bytecode(name, opcode_traits, opcodes)
         <<-EOF.chomp
 void dump#{name}(BytecodeDumperBase* dumper, InstructionStream::Offset __location, const Instruction* __instruction)
 {
     switch (__instruction->opcodeID<#{opcode_traits}>()) {
 #{opcodes.map { |op|
         <<-EOF.chomp
     case #{op.name}:
         __instruction->as<#{op.capitalized_name}, #{opcode_traits}>().dump(dumper, __location, __instruction->sizeShiftAmount<#{opcode_traits}>());
         break;
 EOF
     }.join "\n"}
     default:
         ASSERT_NOT_REACHED();
     }
 }
 EOF
     end
 end
	# Copyright (C) 2018-2019 Apple Inc. All rights reserved.
	#
	# Redistribution and use in source and binary forms, with or without
	# modification, are permitted provided that the following conditions
	# are met:
	# 1. Redistributions of source code must retain the above copyright
	# notice, this list of conditions and the following disclaimer.
	# 2. Redistributions in binary form must reproduce the above copyright
	# notice, this list of conditions and the following disclaimer in the
	# documentation and/or other materials provided with the distribution.
	#
	# THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
	# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
	# THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	# PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
	# BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
	# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
	# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
	# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
	# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
	# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
	# THE POSSIBILITY OF SUCH DAMAGE.

	require_relative 'Argument'
	require_relative 'Fits'
	require_relative 'Metadata'

	class Opcode
	attr_reader :id
	attr_reader :args
	attr_reader :metadata
	attr_reader :extras
	attr_reader :checkpoints

	module Size
	Narrow = "OpcodeSize::Narrow"
	Wide16 = "OpcodeSize::Wide16"
	Wide32 = "OpcodeSize::Wide32"
	end

	@@id = 0

	def self.id
	tid = @@id
	@@id = @@id + 1
	tid
	end

	def initialize(section, name, extras, args, metadata, metadata_initializers, tmps, checkpoints)
	@section = section
	@name = name
	@extras = extras \|\| {}
	@metadata = Metadata.new metadata, metadata_initializers
	@args = args.map.with_index { \|(arg_name, type), index\| Argument.new arg_name, type, index } unless args.nil?
	@tmps = tmps
	@checkpoints = checkpoints.map { \|(checkpoint, _)\| checkpoint } unless checkpoints.nil?
	end

	def create_id!
	@id = self.class.id
	end

	def print_args(&block)
	return if @args.nil?
	@args.map(&block).join "\n"
	end

	def print_members(prefix, &block)
	return if @args.nil?
	@args.map(&block).map { \|arg\| "#{prefix}#{arg}" }.join "\n"
	end

	def capitalized_name
	name.split('_').map(&:capitalize).join
	end

	def typed_args
	return if @args.nil?

	@args.map(&:create_param).unshift("").join(", ")
	end

	def typed_reference_args
	return if @args.nil?

	@args.map(&:create_reference_param).unshift("").join(", ")
	end

	def untyped_args
	return if @args.nil?

	@args.map(&:name).unshift("").join(", ")
	end

	def opcodeIDType
	@section.is_wasm? ? :WasmOpcodeID : :OpcodeID
	end

	def wide16
	@section.is_wasm? ? :wasm_wide16 : :op_wide16
	end

	def wide32
	@section.is_wasm? ? :wasm_wide32 : :op_wide32
	end

	def traits
	@section.is_wasm? ? "WasmOpcodeTraits" : "JSOpcodeTraits"
	end

	def map_fields_with_size(prefix, size, &block)
	args = [Argument.new("opcodeID", opcodeIDType, 0)]
	args += @args.dup if @args
	unless @metadata.empty?
	args << @metadata.emitter_local
	end
	args.map { \|arg\| "#{prefix}#{block.call(arg, size)}" }
	end

	def map_operands_with_size(prefix, size, &block)
	args = []
	args += @args.dup if @args
	unless @metadata.empty?
	args << @metadata.emitter_local
	end
	args.map { \|arg\| "#{prefix}#{block.call(arg, size)}" }
	end

	def struct
	<<-EOF
	struct #{capitalized_name} : public Instruction {
	#{opcodeID}
	#{temps}
	#{checkpointValues}

	#{emitter}
	#{dumper}
	#{constructors}
	#{setters}#{metadata_struct_and_accessor}
	#{members}
	};
	EOF
	end

	def opcodeID
	"static constexpr #{opcodeIDType} opcodeID = #{name};"
	end

	def checkpointValues
	return if @checkpoints.nil?

	["enum Checkpoints : uint8_t {"].concat(checkpoints.map{ \|checkpoint\| " #{checkpoint}," }).concat([" numberOfCheckpoints,", " };"]).join("\n")
	end

	def temps
	return if @tmps.nil?

	["enum Tmps : uint8_t {"].concat(@tmps.map {\|(tmp, type)\| " #{tmp},"}).push(" };").join("\n")
	end

	def emitter
	op_wide16 = Argument.new(wide16, opcodeIDType, 0)
	op_wide32 = Argument.new(wide32, opcodeIDType, 0)
	metadata_param = @metadata.empty? ? "" : ", #{@metadata.emitter_local.create_param}"
	metadata_arg = @metadata.empty? ? "" : ", #{@metadata.emitter_local.name}"
	<<-EOF.chomp
	template<typename BytecodeGenerator>
	static void emit(BytecodeGenerator* gen#{typed_args})
	{
	emitWithSmallestSizeRequirement<OpcodeSize::Narrow, BytecodeGenerator>(gen#{untyped_args});
	}
	#{%{
	template<OpcodeSize __size, typename BytecodeGenerator, FitsAssertion shouldAssert = Assert>
	static bool emit(BytecodeGenerator* gen#{typed_args})
	{#{@metadata.create_emitter_local}
	return emit<__size, BytecodeGenerator, shouldAssert>(gen#{untyped_args}#{metadata_arg});
	}

	template<OpcodeSize __size, typename BytecodeGenerator>
	static bool checkWithoutMetadataID(BytecodeGenerator* gen#{typed_args})
	{
	decltype(gen->addMetadataFor(opcodeID)) __metadataID { };
	return checkImpl<__size, BytecodeGenerator>(gen#{untyped_args}#{metadata_arg});
	}
	} unless @metadata.empty?}
	template<OpcodeSize __size, typename BytecodeGenerator, FitsAssertion shouldAssert = Assert, bool recordOpcode = true>
	static bool emit(BytecodeGenerator* gen#{typed_args}#{metadata_param})
	{
	bool didEmit = emitImpl<__size, recordOpcode, BytecodeGenerator>(gen#{untyped_args}#{metadata_arg});
	if (shouldAssert == Assert)
	ASSERT(didEmit);
	return didEmit;
	}

	template<OpcodeSize __size, typename BytecodeGenerator>
	static void emitWithSmallestSizeRequirement(BytecodeGenerator* gen#{typed_args})
	{
	#{@metadata.create_emitter_local}
	if (static_cast<unsigned>(__size) <= static_cast<unsigned>(OpcodeSize::Narrow)) {
	if (emit<OpcodeSize::Narrow, BytecodeGenerator, NoAssert, true>(gen#{untyped_args}#{metadata_arg}))
	return;
	}
	if (static_cast<unsigned>(__size) <= static_cast<unsigned>(OpcodeSize::Wide16)) {
	if (emit<OpcodeSize::Wide16, BytecodeGenerator, NoAssert, true>(gen#{untyped_args}#{metadata_arg}))
	return;
	}
	emit<OpcodeSize::Wide32, BytecodeGenerator, Assert, true>(gen#{untyped_args}#{metadata_arg});
	}

	private:
	template<OpcodeSize __size, typename BytecodeGenerator>
	static bool checkImpl(BytecodeGenerator* gen#{typed_reference_args}#{metadata_param})
	{
	UNUSED_PARAM(gen);
	#if OS(WINDOWS) && ENABLE(C_LOOP)
	// FIXME: Disable wide16 optimization for Windows CLoop
	// https://bugs.webkit.org/show_bug.cgi?id=198283
	if (__size == OpcodeSize::Wide16)
	return false;
	#endif
	return #{map_fields_with_size("", "__size", &:fits_check).join "\n && "}
	&& (__size == OpcodeSize::Wide16 ? #{op_wide16.fits_check(Size::Narrow)} : true)
	&& (__size == OpcodeSize::Wide32 ? #{op_wide32.fits_check(Size::Narrow)} : true);
	}

	template<OpcodeSize __size, bool recordOpcode, typename BytecodeGenerator>
	static bool emitImpl(BytecodeGenerator* gen#{typed_args}#{metadata_param})
	{
	#{!@checkpoints.nil? ? "gen->setUsesCheckpoints();" : ""}
	if (__size == OpcodeSize::Wide16)
	gen->alignWideOpcode16();
	else if (__size == OpcodeSize::Wide32)
	gen->alignWideOpcode32();
	if (checkImpl<__size>(gen#{untyped_args}#{metadata_arg})) {
	if (recordOpcode)
	gen->recordOpcode(opcodeID);
	if (__size == OpcodeSize::Wide16)
	#{op_wide16.fits_write Size::Narrow}
	else if (__size == OpcodeSize::Wide32)
	#{op_wide32.fits_write Size::Narrow}
	#{Argument.new("opcodeID", opcodeIDType, 0).fits_write Size::Narrow}
	#{map_operands_with_size(" ", "__size", &:fits_write).join "\n"}
	return true;
	}
	return false;
	}

	public:
	EOF
	end

	def dumper
	<<-EOF
	void dump(BytecodeDumperBase* dumper, InstructionStream::Offset __location, int __sizeShiftAmount)
	{
	dumper->printLocationAndOp(__location, &"**#{@name}"[2 - __sizeShiftAmount]);
	#{print_args { \|arg\|
	<<-EOF.chomp
	dumper->dumpOperand(#{arg.field_name}, #{arg.index == 0});
	EOF
	}}
	}
	EOF
	end

	def constructors
	fields = (@args \|\| []) + (@metadata.empty? ? [] : [@metadata])
	init = ->(size) { fields.empty? ? "" : ": #{fields.map.with_index { \|arg, i\| arg.load_from_stream(i, size) }.join "\n , " }" }

	<<-EOF
	#{capitalized_name}(const uint8_t* stream)
	#{init.call("OpcodeSize::Narrow")}
	{
	ASSERT_UNUSED(stream, bitwise_cast<const uint8_t*>(stream)[-1] == opcodeID);
	}

	#{capitalized_name}(const uint16_t* stream)
	#{init.call("OpcodeSize::Wide16")}
	{
	ASSERT_UNUSED(stream, bitwise_cast<const uint8_t*>(stream)[-1] == opcodeID);
	}


	#{capitalized_name}(const uint32_t* stream)
	#{init.call("OpcodeSize::Wide32")}
	{
	ASSERT_UNUSED(stream, bitwise_cast<const uint8_t*>(stream)[-1] == opcodeID);
	}

	static #{capitalized_name} decode(const uint8_t* stream)
	{
	// A pointer is pointing to the first operand (opcode and prefix are not included).
	if (*stream == #{wide32})
	return { bitwise_cast<const uint32_t*>(stream + 2) };
	if (*stream == #{wide16})
	return { bitwise_cast<const uint16_t*>(stream + 2) };
	return { stream + 1 };
	}
	EOF
	end

	def setters
	print_args { \|a\| a.setter(traits) }
	end

	def metadata_struct_and_accessor
	<<-EOF.chomp
	#{@metadata.struct(self)}#{@metadata.accessor}
	EOF
	end

	def members
	<<-EOF.chomp
	#{print_members(" ", &:field)}#{@metadata.field(" ")}
	EOF
	end

	def set_entry_address(id)
	"setEntryAddress(#{id}, _#{full_name})"
	end

	def set_entry_address_wide16(id)
	"setEntryAddressWide16(#{id}, _#{full_name}_wide16)"
	end

	def set_entry_address_wide32(id)
	"setEntryAddressWide32(#{id}, _#{full_name}_wide32)"
	end

	def struct_indices
	out = []
	out += @args.map(&:field_name) unless @args.nil?
	out << Metadata.field_name unless @metadata.empty?
	out.map.with_index do \|name, index\|
	"const unsigned #{capitalized_name}_#{name}_index = #{index};"
	end
	end

	def full_name
	"#{@section.config[:asm_prefix]}#{@section.config[:op_prefix]}#{@name}"
	end

	def name
	"#{@section.config[:op_prefix]}#{@name}"
	end

	def unprefixed_name
	@name
	end

	def length
	1 + (@args.nil? ? 0 : @args.length) + (@metadata.empty? ? 0 : 1)
	end

	def self.dump_bytecode(name, opcode_traits, opcodes)
	<<-EOF.chomp
	void dump#{name}(BytecodeDumperBase* dumper, InstructionStream::Offset __location, const Instruction* __instruction)
	{
	switch (__instruction->opcodeID<#{opcode_traits}>()) {
	#{opcodes.map { \|op\|
	<<-EOF.chomp
	case #{op.name}:
	__instruction->as<#{op.capitalized_name}, #{opcode_traits}>().dump(dumper, __location, __instruction->sizeShiftAmount<#{opcode_traits}>());
	break;
	EOF
	}.join "\n"}
	default:
	ASSERT_NOT_REACHED();
	}
	}
	EOF
	end
	end