mirror of
https://github.com/ruby/ruby.git
synced 2022-11-09 12:17:21 -05:00
405 lines
12 KiB
Ruby
Executable file
405 lines
12 KiB
Ruby
Executable file
#!/usr/bin/env ruby
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# frozen_string_literal: true
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ENV['BUNDLE_GEMFILE'] ||= File.expand_path('./Gemfile', __dir__)
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require 'bundler/setup'
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require 'etc'
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require 'fiddle/import'
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require 'set'
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unless build_dir = ARGV.first
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abort "Usage: #{$0} BUILD_DIR"
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end
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# Help ffi-clang find libclang
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# Hint: apt install libclang1
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ENV['LIBCLANG'] ||= Dir.glob("/lib/#{RUBY_PLATFORM}-gnu/libclang-*.so*").grep_v(/-cpp/).sort.last
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require 'ffi/clang'
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class Node < Struct.new(
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:kind,
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:spelling,
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:type,
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:typedef_type,
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:bitwidth,
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:sizeof_type,
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:offsetof,
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:enum_value,
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:children,
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keyword_init: true,
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)
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end
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# Parse a C header with ffi-clang and return Node objects.
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# To ease the maintenance, ffi-clang should be used only inside this class.
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class HeaderParser
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def initialize(header, cflags:)
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@translation_unit = FFI::Clang::Index.new.parse_translation_unit(header, cflags, [], {})
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end
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def parse
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parse_children(@translation_unit.cursor)
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end
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private
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def parse_children(cursor)
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children = []
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cursor.visit_children do |cursor, _parent|
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children << parse_cursor(cursor)
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next :continue
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end
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children
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end
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def parse_cursor(cursor)
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unless cursor.kind.start_with?('cursor_')
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raise "unexpected cursor kind: #{cursor.kind}"
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end
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kind = cursor.kind.to_s.delete_prefix('cursor_').to_sym
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children = parse_children(cursor)
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offsetof = {}
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if kind == :struct
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children.select { |c| c.kind == :field_decl }.each do |child|
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offsetof[child.spelling] = cursor.type.offsetof(child.spelling)
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end
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end
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sizeof_type = nil
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if %i[struct union].include?(kind)
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sizeof_type = cursor.type.sizeof
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end
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enum_value = nil
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if kind == :enum_constant_decl
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enum_value = cursor.enum_value
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end
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Node.new(
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kind: kind,
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spelling: cursor.spelling,
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type: cursor.type.spelling,
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typedef_type: cursor.typedef_type.spelling,
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bitwidth: cursor.bitwidth,
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sizeof_type: sizeof_type,
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offsetof: offsetof,
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enum_value: enum_value,
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children: children,
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)
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end
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end
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# Convert Node objects to a Ruby binding source.
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class BindingGenerator
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BINDGEN_BEG = '### MJIT bindgen begin ###'
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BINDGEN_END = '### MJIT bindgen end ###'
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DEFAULTS = { '_Bool' => 'CType::Bool.new' }
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DEFAULTS.default_proc = proc { |_h, k| "CType::Stub.new(:#{k})" }
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attr_reader :src
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# @param src_path [String]
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# @param uses [Array<String>]
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# @param values [Hash{ Symbol => Array<String> }]
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# @param types [Array<String>]
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# @param dynamic_types [Array<String>] #ifdef-dependent immediate types, which need Primitive.cexpr! for type detection
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# @param skip_fields [Hash{ Symbol => Array<String> }] Struct fields that are skipped from bindgen
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# @param ruby_fields [Hash{ Symbol => Array<String> }] Struct VALUE fields that are considered Ruby objects
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def initialize(src_path:, uses:, values:, types:, dynamic_types:, skip_fields:, ruby_fields:)
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@preamble, @postamble = split_ambles(src_path)
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@src = String.new
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@uses = uses.sort
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@values = values.transform_values(&:sort)
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@types = types.sort
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@dynamic_types = dynamic_types.sort
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@skip_fields = skip_fields.transform_keys(&:to_s)
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@ruby_fields = ruby_fields.transform_keys(&:to_s)
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@references = Set.new
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end
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def generate(nodes)
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println @preamble
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# Define USE_* macros
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@uses.each do |use|
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println " def C.#{use}"
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println " Primitive.cexpr! %q{ RBOOL(#{use} != 0) }"
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println " end"
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println
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end
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# Define macros/enums
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@values.each do |type, values|
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values.each do |value|
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println " def C.#{value}"
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println " Primitive.cexpr! %q{ #{type}2NUM(#{value}) }"
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println " end"
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println
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end
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end
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# TODO: Support nested declarations
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nodes_index = nodes.group_by(&:spelling).transform_values(&:last)
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# Define types
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@types.each do |type|
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unless definition = generate_node(nodes_index[type])
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raise "Failed to generate type: #{type}"
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end
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println " def C.#{type}"
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println "@#{type} ||= #{definition}".gsub(/^/, " ").chomp
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println " end"
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println
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end
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# Define dynamic types
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@dynamic_types.each do |type|
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unless generate_node(nodes_index[type])&.start_with?('CType::Immediate')
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raise "Non-immediate type is given to dynamic_types: #{type}"
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end
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println " def C.#{type}"
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println " @#{type} ||= CType::Immediate.find(Primitive.cexpr!(\"SIZEOF(#{type})\"), Primitive.cexpr!(\"SIGNED_TYPE_P(#{type})\"))"
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println " end"
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println
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end
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# Leave a stub for types that are referenced but not targeted
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(@references - @types - @dynamic_types).each do |type|
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println " def C.#{type}"
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println " #{DEFAULTS[type]}"
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println " end"
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println
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end
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print @postamble
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end
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private
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# Return code before BINDGEN_BEG and code after BINDGEN_END
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def split_ambles(src_path)
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lines = File.read(src_path).lines
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preamble_end = lines.index { |l| l.include?(BINDGEN_BEG) }
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raise "`#{BINDGEN_BEG}` was not found in '#{src_path}'" if preamble_end.nil?
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postamble_beg = lines.index { |l| l.include?(BINDGEN_END) }
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raise "`#{BINDGEN_END}` was not found in '#{src_path}'" if postamble_beg.nil?
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raise "`#{BINDGEN_BEG}` was found after `#{BINDGEN_END}`" if preamble_end >= postamble_beg
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return lines[0..preamble_end].join, lines[postamble_beg..-1].join
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end
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# Generate code from a node. Used for constructing a complex nested node.
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# @param node [Node]
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def generate_node(node, sizeof_type: nil)
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case node&.kind
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when :struct, :union
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# node.spelling is often empty for union, but we'd like to give it a name when it has one.
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buf = +"CType::#{node.kind.to_s.sub(/\A[a-z]/, &:upcase)}.new(\n"
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buf << " \"#{node.spelling}\", Primitive.cexpr!(\"SIZEOF(#{sizeof_type || node.type})\"),\n"
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bit_fields_end = node.children.index { |c| c.bitwidth == -1 } || node.children.size # first non-bit field index
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node.children.each_with_index do |child, i|
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skip_type = sizeof_type&.gsub(/\(\(struct ([^\)]+) \*\)NULL\)->/, '\1.') || node.spelling
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next if @skip_fields.fetch(skip_type, []).include?(child.spelling)
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field_builder = proc do |field, type|
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if node.kind == :struct
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to_ruby = @ruby_fields.fetch(node.spelling, []).include?(field)
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if child.bitwidth > 0
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if bit_fields_end <= i # give up offsetof calculation for non-leading bit fields
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raise "non-leading bit fields are not supported. consider including '#{field}' in skip_fields."
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end
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offsetof = node.offsetof.fetch(field)
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else
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off_type = sizeof_type || "(*((#{node.type} *)NULL))"
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offsetof = "Primitive.cexpr!(\"OFFSETOF(#{off_type}, #{field})\")"
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end
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" #{field}: [#{type}, #{offsetof}#{', true' if to_ruby}],\n"
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else
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" #{field}: #{type},\n"
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end
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end
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case child
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# BitField is struct-specific. So it must be handled here.
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in Node[kind: :field_decl, spelling:, bitwidth:, children: [_grandchild]] if bitwidth > 0
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buf << field_builder.call(spelling, "CType::BitField.new(#{bitwidth}, #{node.offsetof.fetch(spelling) % 8})")
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# "(unnamed ...)" struct and union are handled here, which are also struct-specific.
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in Node[kind: :field_decl, spelling:, type:, children: [grandchild]] if type.match?(/\((unnamed|anonymous) [^)]+\)\z/)
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if sizeof_type
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child_type = "#{sizeof_type}.#{child.spelling}"
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else
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child_type = "((#{node.type} *)NULL)->#{child.spelling}"
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end
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buf << field_builder.call(spelling, generate_node(grandchild, sizeof_type: child_type).gsub(/^/, ' ').sub(/\A +/, ''))
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# In most cases, we'd like to let generate_type handle the type unless it's "(unnamed ...)".
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in Node[kind: :field_decl, spelling:, type:] if !type.empty?
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buf << field_builder.call(spelling, generate_type(type))
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else # forward declarations are ignored
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end
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end
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buf << ")"
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when :typedef_decl
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case node.children
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in [child]
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generate_node(child)
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in [child, Node[kind: :integer_literal]]
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generate_node(child)
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in _ unless node.typedef_type.empty?
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generate_type(node.typedef_type)
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end
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when :enum_decl
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generate_type('int')
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when :type_ref
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generate_type(node.spelling)
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end
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end
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# Generate code from a type name. Used for resolving the name of a simple leaf node.
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# @param type [String]
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def generate_type(type)
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if type.match?(/\[\d+\]\z/)
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return "CType::Pointer.new { #{generate_type(type.sub!(/\[\d+\]\z/, ''))} }"
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end
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type = type.delete_suffix('const')
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if type.end_with?('*')
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return "CType::Pointer.new { #{generate_type(type.delete_suffix('*').rstrip)} }"
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end
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type = type.gsub(/((const|volatile) )+/, '').rstrip
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if type.start_with?(/(struct|union|enum) /)
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target = type.split(' ', 2).last
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push_target(target)
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"self.#{target}"
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else
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begin
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ctype = Fiddle::Importer.parse_ctype(type)
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rescue Fiddle::DLError
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push_target(type)
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"self.#{type}"
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else
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# Convert any function pointers to void* to workaround FILE* vs int*
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if ctype == Fiddle::TYPE_VOIDP
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"CType::Immediate.parse(\"void *\")"
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else
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"CType::Immediate.parse(#{type.dump})"
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end
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end
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end
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end
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def print(str)
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@src << str
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end
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def println(str = "")
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@src << str << "\n"
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end
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def chomp
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@src.delete_suffix!("\n")
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end
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def rstrip!
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@src.rstrip!
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end
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def push_target(target)
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unless target.match?(/\A\w+\z/)
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raise "invalid target: #{target}"
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end
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@references << target
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end
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end
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src_dir = File.expand_path('../..', __dir__)
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src_path = File.join(src_dir, 'mjit_c.rb')
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build_dir = File.expand_path(build_dir)
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cflags = [
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src_dir,
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build_dir,
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File.join(src_dir, 'include'),
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File.join(build_dir, ".ext/include/#{RUBY_PLATFORM}"),
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].map { |dir| "-I#{dir}" }
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nodes = HeaderParser.new(File.join(src_dir, 'mjit_compiler.h'), cflags: cflags).parse
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generator = BindingGenerator.new(
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src_path: src_path,
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uses: %w[
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USE_LAZY_LOAD
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USE_RVARGC
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],
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values: {
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INT: %w[
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NOT_COMPILED_STACK_SIZE
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VM_CALL_KW_SPLAT
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VM_CALL_KW_SPLAT_bit
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VM_CALL_TAILCALL
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VM_CALL_TAILCALL_bit
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VM_METHOD_TYPE_CFUNC
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VM_METHOD_TYPE_ISEQ
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],
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ULONG: %w[
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INVALID_SHAPE_ID
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SHAPE_MASK
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],
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},
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types: %w[
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CALL_DATA
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IC
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IVC
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RB_BUILTIN
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attr_index_t
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compile_branch
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compile_status
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inlined_call_context
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iseq_inline_constant_cache
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iseq_inline_constant_cache_entry
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iseq_inline_iv_cache_entry
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iseq_inline_storage_entry
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mjit_options
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rb_builtin_function
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rb_call_data
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rb_callable_method_entry_struct
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rb_callcache
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rb_callinfo
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rb_control_frame_t
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rb_cref_t
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rb_execution_context_struct
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rb_execution_context_t
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rb_iseq_constant_body
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rb_iseq_location_t
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rb_iseq_struct
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rb_iseq_t
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rb_method_definition_struct
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rb_method_iseq_t
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rb_method_type_t
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rb_mjit_compile_info
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rb_mjit_unit
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rb_serial_t
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rb_shape
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rb_shape_t
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],
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dynamic_types: %w[
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VALUE
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shape_id_t
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],
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skip_fields: {
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'rb_execution_context_struct.machine': %w[regs], # differs between macOS and Linux
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rb_execution_context_struct: %w[method_missing_reason], # non-leading bit fields not supported
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rb_iseq_constant_body: %w[yjit_payload], # conditionally defined
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},
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ruby_fields: {
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rb_iseq_location_struct: %w[
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base_label
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first_lineno
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label
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pathobj
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]
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},
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)
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generator.generate(nodes)
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File.write(src_path, generator.src)
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