538 lines
21 KiB
C
538 lines
21 KiB
C
// Protocol Buffers - Google's data interchange format
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// Copyright 2014 Google Inc. All rights reserved.
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// https://developers.google.com/protocol-buffers/
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following disclaimer
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// in the documentation and/or other materials provided with the
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// distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived from
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// this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#ifndef __GOOGLE_PROTOBUF_RUBY_PROTOBUF_H__
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#define __GOOGLE_PROTOBUF_RUBY_PROTOBUF_H__
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#include <ruby/ruby.h>
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#include <ruby/vm.h>
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#include <ruby/encoding.h>
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#include "upb.h"
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// Forward decls.
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struct DescriptorPool;
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struct Descriptor;
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struct FieldDescriptor;
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struct EnumDescriptor;
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struct MessageLayout;
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struct MessageField;
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struct MessageHeader;
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struct MessageBuilderContext;
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struct EnumBuilderContext;
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struct Builder;
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typedef struct DescriptorPool DescriptorPool;
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typedef struct Descriptor Descriptor;
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typedef struct FieldDescriptor FieldDescriptor;
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typedef struct OneofDescriptor OneofDescriptor;
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typedef struct EnumDescriptor EnumDescriptor;
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typedef struct MessageLayout MessageLayout;
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typedef struct MessageField MessageField;
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typedef struct MessageHeader MessageHeader;
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typedef struct MessageBuilderContext MessageBuilderContext;
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typedef struct OneofBuilderContext OneofBuilderContext;
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typedef struct EnumBuilderContext EnumBuilderContext;
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typedef struct Builder Builder;
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/*
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It can be a bit confusing how the C structs defined below and the Ruby
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objects interact and hold references to each other. First, a few principles:
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- Ruby's "TypedData" abstraction lets a Ruby VALUE hold a pointer to a C
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struct (or arbitrary memory chunk), own it, and free it when collected.
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Thus, each struct below will have a corresponding Ruby object
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wrapping/owning it.
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- To get back from an underlying upb {msg,enum}def to the Ruby object, we
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keep a global hashmap, accessed by get_def_obj/add_def_obj below.
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The in-memory structure is then something like:
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Ruby | upb
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DescriptorPool ------------|-----------> upb_symtab____________________
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| | (message types) \
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| v \
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Descriptor ---------------|-----------> upb_msgdef (enum types)|
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|--> msgclass | | ^ |
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| (dynamically built) | | | (submsg fields) |
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|--> MessageLayout | | | /
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|--------------------------|> decoder method| | /
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\--------------------------|> serialize | | /
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| handlers v | /
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FieldDescriptor -----------|-----------> upb_fielddef /
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| | /
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| v (enum fields) /
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EnumDescriptor ------------|-----------> upb_enumdef <----------'
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^ | \___/
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`---------------|-----------------' (get_def_obj map)
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*/
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// -----------------------------------------------------------------------------
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// Ruby class structure definitions.
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// -----------------------------------------------------------------------------
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struct DescriptorPool {
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upb_symtab* symtab;
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};
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struct Descriptor {
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const upb_msgdef* msgdef;
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MessageLayout* layout;
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VALUE klass; // begins as nil
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const upb_handlers* fill_handlers;
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const upb_pbdecodermethod* fill_method;
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const upb_json_parsermethod* json_fill_method;
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const upb_handlers* pb_serialize_handlers;
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const upb_handlers* json_serialize_handlers;
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// Handlers hold type class references for sub-message fields directly in some
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// cases. We need to keep these rooted because they might otherwise be
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// collected.
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VALUE typeclass_references;
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};
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struct FieldDescriptor {
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const upb_fielddef* fielddef;
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};
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struct OneofDescriptor {
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const upb_oneofdef* oneofdef;
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};
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struct EnumDescriptor {
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const upb_enumdef* enumdef;
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VALUE module; // begins as nil
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};
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struct MessageBuilderContext {
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VALUE descriptor;
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VALUE builder;
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};
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struct OneofBuilderContext {
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VALUE descriptor;
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VALUE builder;
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};
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struct EnumBuilderContext {
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VALUE enumdesc;
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};
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struct Builder {
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VALUE pending_list;
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upb_def** defs; // used only while finalizing
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};
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extern VALUE cDescriptorPool;
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extern VALUE cDescriptor;
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extern VALUE cFieldDescriptor;
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extern VALUE cEnumDescriptor;
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extern VALUE cMessageBuilderContext;
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extern VALUE cOneofBuilderContext;
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extern VALUE cEnumBuilderContext;
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extern VALUE cBuilder;
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extern VALUE cError;
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extern VALUE cParseError;
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// We forward-declare all of the Ruby method implementations here because we
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// sometimes call the methods directly across .c files, rather than going
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// through Ruby's method dispatching (e.g. during message parse). It's cleaner
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// to keep the list of object methods together than to split them between
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// static-in-file definitions and header declarations.
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void DescriptorPool_mark(void* _self);
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void DescriptorPool_free(void* _self);
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VALUE DescriptorPool_alloc(VALUE klass);
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void DescriptorPool_register(VALUE module);
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DescriptorPool* ruby_to_DescriptorPool(VALUE value);
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VALUE DescriptorPool_add(VALUE _self, VALUE def);
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VALUE DescriptorPool_build(VALUE _self);
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VALUE DescriptorPool_lookup(VALUE _self, VALUE name);
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VALUE DescriptorPool_generated_pool(VALUE _self);
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void Descriptor_mark(void* _self);
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void Descriptor_free(void* _self);
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VALUE Descriptor_alloc(VALUE klass);
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void Descriptor_register(VALUE module);
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Descriptor* ruby_to_Descriptor(VALUE value);
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VALUE Descriptor_name(VALUE _self);
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VALUE Descriptor_name_set(VALUE _self, VALUE str);
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VALUE Descriptor_each(VALUE _self);
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VALUE Descriptor_lookup(VALUE _self, VALUE name);
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VALUE Descriptor_add_field(VALUE _self, VALUE obj);
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VALUE Descriptor_add_oneof(VALUE _self, VALUE obj);
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VALUE Descriptor_each_oneof(VALUE _self);
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VALUE Descriptor_lookup_oneof(VALUE _self, VALUE name);
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VALUE Descriptor_msgclass(VALUE _self);
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extern const rb_data_type_t _Descriptor_type;
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void FieldDescriptor_mark(void* _self);
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void FieldDescriptor_free(void* _self);
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VALUE FieldDescriptor_alloc(VALUE klass);
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void FieldDescriptor_register(VALUE module);
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FieldDescriptor* ruby_to_FieldDescriptor(VALUE value);
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VALUE FieldDescriptor_name(VALUE _self);
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VALUE FieldDescriptor_name_set(VALUE _self, VALUE str);
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VALUE FieldDescriptor_type(VALUE _self);
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VALUE FieldDescriptor_type_set(VALUE _self, VALUE type);
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VALUE FieldDescriptor_label(VALUE _self);
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VALUE FieldDescriptor_label_set(VALUE _self, VALUE label);
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VALUE FieldDescriptor_number(VALUE _self);
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VALUE FieldDescriptor_number_set(VALUE _self, VALUE number);
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VALUE FieldDescriptor_submsg_name(VALUE _self);
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VALUE FieldDescriptor_submsg_name_set(VALUE _self, VALUE value);
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VALUE FieldDescriptor_subtype(VALUE _self);
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VALUE FieldDescriptor_get(VALUE _self, VALUE msg_rb);
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VALUE FieldDescriptor_set(VALUE _self, VALUE msg_rb, VALUE value);
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upb_fieldtype_t ruby_to_fieldtype(VALUE type);
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VALUE fieldtype_to_ruby(upb_fieldtype_t type);
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void OneofDescriptor_mark(void* _self);
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void OneofDescriptor_free(void* _self);
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VALUE OneofDescriptor_alloc(VALUE klass);
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void OneofDescriptor_register(VALUE module);
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OneofDescriptor* ruby_to_OneofDescriptor(VALUE value);
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VALUE OneofDescriptor_name(VALUE _self);
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VALUE OneofDescriptor_name_set(VALUE _self, VALUE value);
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VALUE OneofDescriptor_add_field(VALUE _self, VALUE field);
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VALUE OneofDescriptor_each(VALUE _self, VALUE field);
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void EnumDescriptor_mark(void* _self);
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void EnumDescriptor_free(void* _self);
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VALUE EnumDescriptor_alloc(VALUE klass);
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void EnumDescriptor_register(VALUE module);
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EnumDescriptor* ruby_to_EnumDescriptor(VALUE value);
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VALUE EnumDescriptor_name(VALUE _self);
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VALUE EnumDescriptor_name_set(VALUE _self, VALUE str);
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VALUE EnumDescriptor_add_value(VALUE _self, VALUE name, VALUE number);
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VALUE EnumDescriptor_lookup_name(VALUE _self, VALUE name);
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VALUE EnumDescriptor_lookup_value(VALUE _self, VALUE number);
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VALUE EnumDescriptor_each(VALUE _self);
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VALUE EnumDescriptor_enummodule(VALUE _self);
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extern const rb_data_type_t _EnumDescriptor_type;
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void MessageBuilderContext_mark(void* _self);
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void MessageBuilderContext_free(void* _self);
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VALUE MessageBuilderContext_alloc(VALUE klass);
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void MessageBuilderContext_register(VALUE module);
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MessageBuilderContext* ruby_to_MessageBuilderContext(VALUE value);
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VALUE MessageBuilderContext_initialize(VALUE _self,
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VALUE descriptor,
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VALUE builder);
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VALUE MessageBuilderContext_optional(int argc, VALUE* argv, VALUE _self);
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VALUE MessageBuilderContext_required(int argc, VALUE* argv, VALUE _self);
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VALUE MessageBuilderContext_repeated(int argc, VALUE* argv, VALUE _self);
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VALUE MessageBuilderContext_map(int argc, VALUE* argv, VALUE _self);
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VALUE MessageBuilderContext_oneof(VALUE _self, VALUE name);
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void OneofBuilderContext_mark(void* _self);
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void OneofBuilderContext_free(void* _self);
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VALUE OneofBuilderContext_alloc(VALUE klass);
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void OneofBuilderContext_register(VALUE module);
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OneofBuilderContext* ruby_to_OneofBuilderContext(VALUE value);
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VALUE OneofBuilderContext_initialize(VALUE _self,
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VALUE descriptor,
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VALUE builder);
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VALUE OneofBuilderContext_optional(int argc, VALUE* argv, VALUE _self);
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void EnumBuilderContext_mark(void* _self);
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void EnumBuilderContext_free(void* _self);
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VALUE EnumBuilderContext_alloc(VALUE klass);
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void EnumBuilderContext_register(VALUE module);
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EnumBuilderContext* ruby_to_EnumBuilderContext(VALUE value);
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VALUE EnumBuilderContext_initialize(VALUE _self, VALUE enumdesc);
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VALUE EnumBuilderContext_value(VALUE _self, VALUE name, VALUE number);
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void Builder_mark(void* _self);
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void Builder_free(void* _self);
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VALUE Builder_alloc(VALUE klass);
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void Builder_register(VALUE module);
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Builder* ruby_to_Builder(VALUE value);
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VALUE Builder_add_message(VALUE _self, VALUE name);
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VALUE Builder_add_enum(VALUE _self, VALUE name);
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VALUE Builder_finalize_to_pool(VALUE _self, VALUE pool_rb);
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// -----------------------------------------------------------------------------
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// Native slot storage abstraction.
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// -----------------------------------------------------------------------------
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#define NATIVE_SLOT_MAX_SIZE sizeof(uint64_t)
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size_t native_slot_size(upb_fieldtype_t type);
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void native_slot_set(upb_fieldtype_t type,
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VALUE type_class,
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void* memory,
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VALUE value);
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// Atomically (with respect to Ruby VM calls) either update the value and set a
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// oneof case, or do neither. If |case_memory| is null, then no case value is
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// set.
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void native_slot_set_value_and_case(upb_fieldtype_t type,
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VALUE type_class,
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void* memory,
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VALUE value,
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uint32_t* case_memory,
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uint32_t case_number);
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VALUE native_slot_get(upb_fieldtype_t type,
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VALUE type_class,
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const void* memory);
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void native_slot_init(upb_fieldtype_t type, void* memory);
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void native_slot_mark(upb_fieldtype_t type, void* memory);
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void native_slot_dup(upb_fieldtype_t type, void* to, void* from);
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void native_slot_deep_copy(upb_fieldtype_t type, void* to, void* from);
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bool native_slot_eq(upb_fieldtype_t type, void* mem1, void* mem2);
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void native_slot_validate_string_encoding(upb_fieldtype_t type, VALUE value);
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void native_slot_check_int_range_precision(upb_fieldtype_t type, VALUE value);
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extern rb_encoding* kRubyStringUtf8Encoding;
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extern rb_encoding* kRubyStringASCIIEncoding;
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extern rb_encoding* kRubyString8bitEncoding;
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VALUE field_type_class(const upb_fielddef* field);
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#define MAP_KEY_FIELD 1
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#define MAP_VALUE_FIELD 2
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// Oneof case slot value to indicate that no oneof case is set. The value `0` is
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// safe because field numbers are used as case identifiers, and no field can
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// have a number of 0.
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#define ONEOF_CASE_NONE 0
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// These operate on a map field (i.e., a repeated field of submessages whose
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// submessage type is a map-entry msgdef).
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bool is_map_field(const upb_fielddef* field);
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const upb_fielddef* map_field_key(const upb_fielddef* field);
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const upb_fielddef* map_field_value(const upb_fielddef* field);
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// These operate on a map-entry msgdef.
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const upb_fielddef* map_entry_key(const upb_msgdef* msgdef);
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const upb_fielddef* map_entry_value(const upb_msgdef* msgdef);
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// -----------------------------------------------------------------------------
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// Repeated field container type.
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// -----------------------------------------------------------------------------
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typedef struct {
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upb_fieldtype_t field_type;
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VALUE field_type_class;
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void* elements;
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int size;
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int capacity;
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} RepeatedField;
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void RepeatedField_mark(void* self);
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void RepeatedField_free(void* self);
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VALUE RepeatedField_alloc(VALUE klass);
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VALUE RepeatedField_init(int argc, VALUE* argv, VALUE self);
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void RepeatedField_register(VALUE module);
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extern const rb_data_type_t RepeatedField_type;
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extern VALUE cRepeatedField;
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RepeatedField* ruby_to_RepeatedField(VALUE value);
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VALUE RepeatedField_each(VALUE _self);
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VALUE RepeatedField_index(int argc, VALUE* argv, VALUE _self);
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void* RepeatedField_index_native(VALUE _self, int index);
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VALUE RepeatedField_index_set(VALUE _self, VALUE _index, VALUE val);
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void RepeatedField_reserve(RepeatedField* self, int new_size);
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VALUE RepeatedField_push(VALUE _self, VALUE val);
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void RepeatedField_push_native(VALUE _self, void* data);
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VALUE RepeatedField_pop_one(VALUE _self);
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VALUE RepeatedField_insert(int argc, VALUE* argv, VALUE _self);
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VALUE RepeatedField_replace(VALUE _self, VALUE list);
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VALUE RepeatedField_clear(VALUE _self);
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VALUE RepeatedField_length(VALUE _self);
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VALUE RepeatedField_dup(VALUE _self);
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VALUE RepeatedField_deep_copy(VALUE _self);
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VALUE RepeatedField_to_ary(VALUE _self);
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VALUE RepeatedField_eq(VALUE _self, VALUE _other);
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VALUE RepeatedField_hash(VALUE _self);
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VALUE RepeatedField_inspect(VALUE _self);
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VALUE RepeatedField_plus(VALUE _self, VALUE list);
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// Defined in repeated_field.c; also used by Map.
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void validate_type_class(upb_fieldtype_t type, VALUE klass);
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// -----------------------------------------------------------------------------
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// Map container type.
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// -----------------------------------------------------------------------------
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typedef struct {
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upb_fieldtype_t key_type;
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upb_fieldtype_t value_type;
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VALUE value_type_class;
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upb_strtable table;
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} Map;
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void Map_mark(void* self);
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void Map_free(void* self);
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VALUE Map_alloc(VALUE klass);
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VALUE Map_init(int argc, VALUE* argv, VALUE self);
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void Map_register(VALUE module);
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extern const rb_data_type_t Map_type;
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extern VALUE cMap;
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Map* ruby_to_Map(VALUE value);
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VALUE Map_each(VALUE _self);
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VALUE Map_keys(VALUE _self);
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VALUE Map_values(VALUE _self);
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VALUE Map_index(VALUE _self, VALUE key);
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VALUE Map_index_set(VALUE _self, VALUE key, VALUE value);
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VALUE Map_has_key(VALUE _self, VALUE key);
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VALUE Map_delete(VALUE _self, VALUE key);
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VALUE Map_clear(VALUE _self);
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VALUE Map_length(VALUE _self);
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VALUE Map_dup(VALUE _self);
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VALUE Map_deep_copy(VALUE _self);
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VALUE Map_eq(VALUE _self, VALUE _other);
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VALUE Map_hash(VALUE _self);
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VALUE Map_inspect(VALUE _self);
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VALUE Map_merge(VALUE _self, VALUE hashmap);
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VALUE Map_merge_into_self(VALUE _self, VALUE hashmap);
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typedef struct {
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Map* self;
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upb_strtable_iter it;
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} Map_iter;
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void Map_begin(VALUE _self, Map_iter* iter);
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void Map_next(Map_iter* iter);
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bool Map_done(Map_iter* iter);
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VALUE Map_iter_key(Map_iter* iter);
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VALUE Map_iter_value(Map_iter* iter);
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// -----------------------------------------------------------------------------
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// Message layout / storage.
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// -----------------------------------------------------------------------------
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#define MESSAGE_FIELD_NO_CASE ((size_t)-1)
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struct MessageField {
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size_t offset;
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size_t case_offset; // for oneofs, a uint32. Else, MESSAGE_FIELD_NO_CASE.
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};
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struct MessageLayout {
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const upb_msgdef* msgdef;
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MessageField* fields;
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size_t size;
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};
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MessageLayout* create_layout(const upb_msgdef* msgdef);
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void free_layout(MessageLayout* layout);
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VALUE layout_get(MessageLayout* layout,
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const void* storage,
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const upb_fielddef* field);
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void layout_set(MessageLayout* layout,
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void* storage,
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const upb_fielddef* field,
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VALUE val);
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void layout_init(MessageLayout* layout, void* storage);
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void layout_mark(MessageLayout* layout, void* storage);
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void layout_dup(MessageLayout* layout, void* to, void* from);
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void layout_deep_copy(MessageLayout* layout, void* to, void* from);
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VALUE layout_eq(MessageLayout* layout, void* msg1, void* msg2);
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VALUE layout_hash(MessageLayout* layout, void* storage);
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VALUE layout_inspect(MessageLayout* layout, void* storage);
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// -----------------------------------------------------------------------------
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// Message class creation.
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// -----------------------------------------------------------------------------
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struct MessageHeader {
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Descriptor* descriptor; // kept alive by self.class.descriptor reference.
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// Data comes after this.
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};
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extern rb_data_type_t Message_type;
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VALUE build_class_from_descriptor(Descriptor* descriptor);
|
|
void* Message_data(void* msg);
|
|
void Message_mark(void* self);
|
|
void Message_free(void* self);
|
|
VALUE Message_alloc(VALUE klass);
|
|
VALUE Message_method_missing(int argc, VALUE* argv, VALUE _self);
|
|
VALUE Message_initialize(int argc, VALUE* argv, VALUE _self);
|
|
VALUE Message_dup(VALUE _self);
|
|
VALUE Message_deep_copy(VALUE _self);
|
|
VALUE Message_eq(VALUE _self, VALUE _other);
|
|
VALUE Message_hash(VALUE _self);
|
|
VALUE Message_inspect(VALUE _self);
|
|
VALUE Message_index(VALUE _self, VALUE field_name);
|
|
VALUE Message_index_set(VALUE _self, VALUE field_name, VALUE value);
|
|
VALUE Message_descriptor(VALUE klass);
|
|
VALUE Message_decode(VALUE klass, VALUE data);
|
|
VALUE Message_encode(VALUE klass, VALUE msg_rb);
|
|
VALUE Message_decode_json(VALUE klass, VALUE data);
|
|
VALUE Message_encode_json(VALUE klass, VALUE msg_rb);
|
|
|
|
VALUE Google_Protobuf_deep_copy(VALUE self, VALUE obj);
|
|
|
|
VALUE build_module_from_enumdesc(EnumDescriptor* enumdef);
|
|
VALUE enum_lookup(VALUE self, VALUE number);
|
|
VALUE enum_resolve(VALUE self, VALUE sym);
|
|
|
|
const upb_pbdecodermethod *new_fillmsg_decodermethod(
|
|
Descriptor* descriptor, const void *owner);
|
|
|
|
// Maximum depth allowed during encoding, to avoid stack overflows due to
|
|
// cycles.
|
|
#define ENCODE_MAX_NESTING 63
|
|
|
|
// -----------------------------------------------------------------------------
|
|
// Global map from upb {msg,enum}defs to wrapper Descriptor/EnumDescriptor
|
|
// instances.
|
|
// -----------------------------------------------------------------------------
|
|
void add_def_obj(const void* def, VALUE value);
|
|
VALUE get_def_obj(const void* def);
|
|
|
|
// -----------------------------------------------------------------------------
|
|
// Utilities.
|
|
// -----------------------------------------------------------------------------
|
|
|
|
void check_upb_status(const upb_status* status, const char* msg);
|
|
|
|
#define CHECK_UPB(code, msg) do { \
|
|
upb_status status = UPB_STATUS_INIT; \
|
|
code; \
|
|
check_upb_status(&status, msg); \
|
|
} while (0)
|
|
|
|
extern ID descriptor_instancevar_interned;
|
|
|
|
#endif // __GOOGLE_PROTOBUF_RUBY_PROTOBUF_H__
|