1// Protocol Buffers - Google's data interchange format 2// Copyright 2008 Google Inc. All rights reserved. 3// https://developers.google.com/protocol-buffers/ 4// 5// Redistribution and use in source and binary forms, with or without 6// modification, are permitted provided that the following conditions are 7// met: 8// 9// * Redistributions of source code must retain the above copyright 10// notice, this list of conditions and the following disclaimer. 11// * Redistributions in binary form must reproduce the above 12// copyright notice, this list of conditions and the following disclaimer 13// in the documentation and/or other materials provided with the 14// distribution. 15// * Neither the name of Google Inc. nor the names of its 16// contributors may be used to endorse or promote products derived from 17// this software without specific prior written permission. 18// 19// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 20// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 21// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 22// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 23// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 24// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 25// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 26// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 27// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 28// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 29// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 30 31// Author: kenton@google.com (Kenton Varda) 32// Based on original Protocol Buffers design by 33// Sanjay Ghemawat, Jeff Dean, and others. 34// 35// Recursive descent FTW. 36 37#include <float.h> 38#include <google/protobuf/stubs/hash.h> 39#include <limits> 40 41 42#include <google/protobuf/compiler/parser.h> 43#include <google/protobuf/descriptor.h> 44#include <google/protobuf/descriptor.pb.h> 45#include <google/protobuf/wire_format.h> 46#include <google/protobuf/io/tokenizer.h> 47#include <google/protobuf/stubs/common.h> 48#include <google/protobuf/stubs/strutil.h> 49#include <google/protobuf/stubs/map_util.h> 50 51namespace google { 52namespace protobuf { 53namespace compiler { 54 55using internal::WireFormat; 56 57namespace { 58 59typedef hash_map<string, FieldDescriptorProto::Type> TypeNameMap; 60 61TypeNameMap MakeTypeNameTable() { 62 TypeNameMap result; 63 64 result["double" ] = FieldDescriptorProto::TYPE_DOUBLE; 65 result["float" ] = FieldDescriptorProto::TYPE_FLOAT; 66 result["uint64" ] = FieldDescriptorProto::TYPE_UINT64; 67 result["fixed64" ] = FieldDescriptorProto::TYPE_FIXED64; 68 result["fixed32" ] = FieldDescriptorProto::TYPE_FIXED32; 69 result["bool" ] = FieldDescriptorProto::TYPE_BOOL; 70 result["string" ] = FieldDescriptorProto::TYPE_STRING; 71 result["group" ] = FieldDescriptorProto::TYPE_GROUP; 72 73 result["bytes" ] = FieldDescriptorProto::TYPE_BYTES; 74 result["uint32" ] = FieldDescriptorProto::TYPE_UINT32; 75 result["sfixed32"] = FieldDescriptorProto::TYPE_SFIXED32; 76 result["sfixed64"] = FieldDescriptorProto::TYPE_SFIXED64; 77 result["int32" ] = FieldDescriptorProto::TYPE_INT32; 78 result["int64" ] = FieldDescriptorProto::TYPE_INT64; 79 result["sint32" ] = FieldDescriptorProto::TYPE_SINT32; 80 result["sint64" ] = FieldDescriptorProto::TYPE_SINT64; 81 82 return result; 83} 84 85const TypeNameMap kTypeNames = MakeTypeNameTable(); 86 87} // anonymous namespace 88 89// Makes code slightly more readable. The meaning of "DO(foo)" is 90// "Execute foo and fail if it fails.", where failure is indicated by 91// returning false. 92#define DO(STATEMENT) if (STATEMENT) {} else return false 93 94// =================================================================== 95 96Parser::Parser() 97 : input_(NULL), 98 error_collector_(NULL), 99 source_location_table_(NULL), 100 had_errors_(false), 101 require_syntax_identifier_(false), 102 stop_after_syntax_identifier_(false) { 103} 104 105Parser::~Parser() { 106} 107 108// =================================================================== 109 110inline bool Parser::LookingAt(const char* text) { 111 return input_->current().text == text; 112} 113 114inline bool Parser::LookingAtType(io::Tokenizer::TokenType token_type) { 115 return input_->current().type == token_type; 116} 117 118inline bool Parser::AtEnd() { 119 return LookingAtType(io::Tokenizer::TYPE_END); 120} 121 122bool Parser::TryConsume(const char* text) { 123 if (LookingAt(text)) { 124 input_->Next(); 125 return true; 126 } else { 127 return false; 128 } 129} 130 131bool Parser::Consume(const char* text, const char* error) { 132 if (TryConsume(text)) { 133 return true; 134 } else { 135 AddError(error); 136 return false; 137 } 138} 139 140bool Parser::Consume(const char* text) { 141 if (TryConsume(text)) { 142 return true; 143 } else { 144 AddError("Expected \"" + string(text) + "\"."); 145 return false; 146 } 147} 148 149bool Parser::ConsumeIdentifier(string* output, const char* error) { 150 if (LookingAtType(io::Tokenizer::TYPE_IDENTIFIER)) { 151 *output = input_->current().text; 152 input_->Next(); 153 return true; 154 } else { 155 AddError(error); 156 return false; 157 } 158} 159 160bool Parser::ConsumeInteger(int* output, const char* error) { 161 if (LookingAtType(io::Tokenizer::TYPE_INTEGER)) { 162 uint64 value = 0; 163 if (!io::Tokenizer::ParseInteger(input_->current().text, 164 kint32max, &value)) { 165 AddError("Integer out of range."); 166 // We still return true because we did, in fact, parse an integer. 167 } 168 *output = value; 169 input_->Next(); 170 return true; 171 } else { 172 AddError(error); 173 return false; 174 } 175} 176 177bool Parser::ConsumeSignedInteger(int* output, const char* error) { 178 bool is_negative = false; 179 uint64 max_value = kint32max; 180 if (TryConsume("-")) { 181 is_negative = true; 182 max_value += 1; 183 } 184 uint64 value = 0; 185 DO(ConsumeInteger64(max_value, &value, error)); 186 if (is_negative) value *= -1; 187 *output = value; 188 return true; 189} 190 191bool Parser::ConsumeInteger64(uint64 max_value, uint64* output, 192 const char* error) { 193 if (LookingAtType(io::Tokenizer::TYPE_INTEGER)) { 194 if (!io::Tokenizer::ParseInteger(input_->current().text, max_value, 195 output)) { 196 AddError("Integer out of range."); 197 // We still return true because we did, in fact, parse an integer. 198 *output = 0; 199 } 200 input_->Next(); 201 return true; 202 } else { 203 AddError(error); 204 return false; 205 } 206} 207 208bool Parser::ConsumeNumber(double* output, const char* error) { 209 if (LookingAtType(io::Tokenizer::TYPE_FLOAT)) { 210 *output = io::Tokenizer::ParseFloat(input_->current().text); 211 input_->Next(); 212 return true; 213 } else if (LookingAtType(io::Tokenizer::TYPE_INTEGER)) { 214 // Also accept integers. 215 uint64 value = 0; 216 if (!io::Tokenizer::ParseInteger(input_->current().text, 217 kuint64max, &value)) { 218 AddError("Integer out of range."); 219 // We still return true because we did, in fact, parse a number. 220 } 221 *output = value; 222 input_->Next(); 223 return true; 224 } else if (LookingAt("inf")) { 225 *output = numeric_limits<double>::infinity(); 226 input_->Next(); 227 return true; 228 } else if (LookingAt("nan")) { 229 *output = numeric_limits<double>::quiet_NaN(); 230 input_->Next(); 231 return true; 232 } else { 233 AddError(error); 234 return false; 235 } 236} 237 238bool Parser::ConsumeString(string* output, const char* error) { 239 if (LookingAtType(io::Tokenizer::TYPE_STRING)) { 240 io::Tokenizer::ParseString(input_->current().text, output); 241 input_->Next(); 242 // Allow C++ like concatenation of adjacent string tokens. 243 while (LookingAtType(io::Tokenizer::TYPE_STRING)) { 244 io::Tokenizer::ParseStringAppend(input_->current().text, output); 245 input_->Next(); 246 } 247 return true; 248 } else { 249 AddError(error); 250 return false; 251 } 252} 253 254bool Parser::TryConsumeEndOfDeclaration(const char* text, 255 const LocationRecorder* location) { 256 if (LookingAt(text)) { 257 string leading, trailing; 258 input_->NextWithComments(&trailing, NULL, &leading); 259 260 // Save the leading comments for next time, and recall the leading comments 261 // from last time. 262 leading.swap(upcoming_doc_comments_); 263 264 if (location != NULL) { 265 location->AttachComments(&leading, &trailing); 266 } 267 return true; 268 } else { 269 return false; 270 } 271} 272 273bool Parser::ConsumeEndOfDeclaration(const char* text, 274 const LocationRecorder* location) { 275 if (TryConsumeEndOfDeclaration(text, location)) { 276 return true; 277 } else { 278 AddError("Expected \"" + string(text) + "\"."); 279 return false; 280 } 281} 282 283// ------------------------------------------------------------------- 284 285void Parser::AddError(int line, int column, const string& error) { 286 if (error_collector_ != NULL) { 287 error_collector_->AddError(line, column, error); 288 } 289 had_errors_ = true; 290} 291 292void Parser::AddError(const string& error) { 293 AddError(input_->current().line, input_->current().column, error); 294} 295 296// ------------------------------------------------------------------- 297 298Parser::LocationRecorder::LocationRecorder(Parser* parser) 299 : parser_(parser), 300 location_(parser_->source_code_info_->add_location()) { 301 location_->add_span(parser_->input_->current().line); 302 location_->add_span(parser_->input_->current().column); 303} 304 305Parser::LocationRecorder::LocationRecorder(const LocationRecorder& parent) { 306 Init(parent); 307} 308 309Parser::LocationRecorder::LocationRecorder(const LocationRecorder& parent, 310 int path1) { 311 Init(parent); 312 AddPath(path1); 313} 314 315Parser::LocationRecorder::LocationRecorder(const LocationRecorder& parent, 316 int path1, int path2) { 317 Init(parent); 318 AddPath(path1); 319 AddPath(path2); 320} 321 322void Parser::LocationRecorder::Init(const LocationRecorder& parent) { 323 parser_ = parent.parser_; 324 location_ = parser_->source_code_info_->add_location(); 325 location_->mutable_path()->CopyFrom(parent.location_->path()); 326 327 location_->add_span(parser_->input_->current().line); 328 location_->add_span(parser_->input_->current().column); 329} 330 331Parser::LocationRecorder::~LocationRecorder() { 332 if (location_->span_size() <= 2) { 333 EndAt(parser_->input_->previous()); 334 } 335} 336 337void Parser::LocationRecorder::AddPath(int path_component) { 338 location_->add_path(path_component); 339} 340 341void Parser::LocationRecorder::StartAt(const io::Tokenizer::Token& token) { 342 location_->set_span(0, token.line); 343 location_->set_span(1, token.column); 344} 345 346void Parser::LocationRecorder::StartAt(const LocationRecorder& other) { 347 location_->set_span(0, other.location_->span(0)); 348 location_->set_span(1, other.location_->span(1)); 349} 350 351void Parser::LocationRecorder::EndAt(const io::Tokenizer::Token& token) { 352 if (token.line != location_->span(0)) { 353 location_->add_span(token.line); 354 } 355 location_->add_span(token.end_column); 356} 357 358void Parser::LocationRecorder::RecordLegacyLocation(const Message* descriptor, 359 DescriptorPool::ErrorCollector::ErrorLocation location) { 360 if (parser_->source_location_table_ != NULL) { 361 parser_->source_location_table_->Add( 362 descriptor, location, location_->span(0), location_->span(1)); 363 } 364} 365 366void Parser::LocationRecorder::AttachComments( 367 string* leading, string* trailing) const { 368 GOOGLE_CHECK(!location_->has_leading_comments()); 369 GOOGLE_CHECK(!location_->has_trailing_comments()); 370 371 if (!leading->empty()) { 372 location_->mutable_leading_comments()->swap(*leading); 373 } 374 if (!trailing->empty()) { 375 location_->mutable_trailing_comments()->swap(*trailing); 376 } 377} 378 379// ------------------------------------------------------------------- 380 381void Parser::SkipStatement() { 382 while (true) { 383 if (AtEnd()) { 384 return; 385 } else if (LookingAtType(io::Tokenizer::TYPE_SYMBOL)) { 386 if (TryConsumeEndOfDeclaration(";", NULL)) { 387 return; 388 } else if (TryConsume("{")) { 389 SkipRestOfBlock(); 390 return; 391 } else if (LookingAt("}")) { 392 return; 393 } 394 } 395 input_->Next(); 396 } 397} 398 399void Parser::SkipRestOfBlock() { 400 while (true) { 401 if (AtEnd()) { 402 return; 403 } else if (LookingAtType(io::Tokenizer::TYPE_SYMBOL)) { 404 if (TryConsumeEndOfDeclaration("}", NULL)) { 405 return; 406 } else if (TryConsume("{")) { 407 SkipRestOfBlock(); 408 } 409 } 410 input_->Next(); 411 } 412} 413 414// =================================================================== 415 416bool Parser::Parse(io::Tokenizer* input, FileDescriptorProto* file) { 417 input_ = input; 418 had_errors_ = false; 419 syntax_identifier_.clear(); 420 421 // Note that |file| could be NULL at this point if 422 // stop_after_syntax_identifier_ is true. So, we conservatively allocate 423 // SourceCodeInfo on the stack, then swap it into the FileDescriptorProto 424 // later on. 425 SourceCodeInfo source_code_info; 426 source_code_info_ = &source_code_info; 427 428 if (LookingAtType(io::Tokenizer::TYPE_START)) { 429 // Advance to first token. 430 input_->NextWithComments(NULL, NULL, &upcoming_doc_comments_); 431 } 432 433 { 434 LocationRecorder root_location(this); 435 436 if (require_syntax_identifier_ || LookingAt("syntax")) { 437 if (!ParseSyntaxIdentifier()) { 438 // Don't attempt to parse the file if we didn't recognize the syntax 439 // identifier. 440 return false; 441 } 442 } else if (!stop_after_syntax_identifier_) { 443 syntax_identifier_ = "proto2"; 444 } 445 446 if (stop_after_syntax_identifier_) return !had_errors_; 447 448 // Repeatedly parse statements until we reach the end of the file. 449 while (!AtEnd()) { 450 if (!ParseTopLevelStatement(file, root_location)) { 451 // This statement failed to parse. Skip it, but keep looping to parse 452 // other statements. 453 SkipStatement(); 454 455 if (LookingAt("}")) { 456 AddError("Unmatched \"}\"."); 457 input_->NextWithComments(NULL, NULL, &upcoming_doc_comments_); 458 } 459 } 460 } 461 } 462 463 input_ = NULL; 464 source_code_info_ = NULL; 465 source_code_info.Swap(file->mutable_source_code_info()); 466 return !had_errors_; 467} 468 469bool Parser::ParseSyntaxIdentifier() { 470 DO(Consume("syntax", "File must begin with 'syntax = \"proto2\";'.")); 471 DO(Consume("=")); 472 io::Tokenizer::Token syntax_token = input_->current(); 473 string syntax; 474 DO(ConsumeString(&syntax, "Expected syntax identifier.")); 475 DO(ConsumeEndOfDeclaration(";", NULL)); 476 477 syntax_identifier_ = syntax; 478 479 if (syntax != "proto2" && !stop_after_syntax_identifier_) { 480 AddError(syntax_token.line, syntax_token.column, 481 "Unrecognized syntax identifier \"" + syntax + "\". This parser " 482 "only recognizes \"proto2\"."); 483 return false; 484 } 485 486 return true; 487} 488 489bool Parser::ParseTopLevelStatement(FileDescriptorProto* file, 490 const LocationRecorder& root_location) { 491 if (TryConsumeEndOfDeclaration(";", NULL)) { 492 // empty statement; ignore 493 return true; 494 } else if (LookingAt("message")) { 495 LocationRecorder location(root_location, 496 FileDescriptorProto::kMessageTypeFieldNumber, file->message_type_size()); 497 return ParseMessageDefinition(file->add_message_type(), location, file); 498 } else if (LookingAt("enum")) { 499 LocationRecorder location(root_location, 500 FileDescriptorProto::kEnumTypeFieldNumber, file->enum_type_size()); 501 return ParseEnumDefinition(file->add_enum_type(), location, file); 502 } else if (LookingAt("service")) { 503 LocationRecorder location(root_location, 504 FileDescriptorProto::kServiceFieldNumber, file->service_size()); 505 return ParseServiceDefinition(file->add_service(), location, file); 506 } else if (LookingAt("extend")) { 507 LocationRecorder location(root_location, 508 FileDescriptorProto::kExtensionFieldNumber); 509 return ParseExtend(file->mutable_extension(), 510 file->mutable_message_type(), 511 root_location, 512 FileDescriptorProto::kMessageTypeFieldNumber, 513 location, file); 514 } else if (LookingAt("import")) { 515 return ParseImport(file->mutable_dependency(), 516 file->mutable_public_dependency(), 517 file->mutable_weak_dependency(), 518 root_location, file); 519 } else if (LookingAt("package")) { 520 return ParsePackage(file, root_location, file); 521 } else if (LookingAt("option")) { 522 LocationRecorder location(root_location, 523 FileDescriptorProto::kOptionsFieldNumber); 524 return ParseOption(file->mutable_options(), location, file, 525 OPTION_STATEMENT); 526 } else { 527 AddError("Expected top-level statement (e.g. \"message\")."); 528 return false; 529 } 530} 531 532// ------------------------------------------------------------------- 533// Messages 534 535bool Parser::ParseMessageDefinition( 536 DescriptorProto* message, 537 const LocationRecorder& message_location, 538 const FileDescriptorProto* containing_file) { 539 DO(Consume("message")); 540 { 541 LocationRecorder location(message_location, 542 DescriptorProto::kNameFieldNumber); 543 location.RecordLegacyLocation( 544 message, DescriptorPool::ErrorCollector::NAME); 545 DO(ConsumeIdentifier(message->mutable_name(), "Expected message name.")); 546 } 547 DO(ParseMessageBlock(message, message_location, containing_file)); 548 return true; 549} 550 551namespace { 552 553const int kMaxExtensionRangeSentinel = -1; 554 555bool IsMessageSetWireFormatMessage(const DescriptorProto& message) { 556 const MessageOptions& options = message.options(); 557 for (int i = 0; i < options.uninterpreted_option_size(); ++i) { 558 const UninterpretedOption& uninterpreted = options.uninterpreted_option(i); 559 if (uninterpreted.name_size() == 1 && 560 uninterpreted.name(0).name_part() == "message_set_wire_format" && 561 uninterpreted.identifier_value() == "true") { 562 return true; 563 } 564 } 565 return false; 566} 567 568// Modifies any extension ranges that specified 'max' as the end of the 569// extension range, and sets them to the type-specific maximum. The actual max 570// tag number can only be determined after all options have been parsed. 571void AdjustExtensionRangesWithMaxEndNumber(DescriptorProto* message) { 572 const bool is_message_set = IsMessageSetWireFormatMessage(*message); 573 const int max_extension_number = is_message_set ? 574 kint32max : 575 FieldDescriptor::kMaxNumber + 1; 576 for (int i = 0; i < message->extension_range_size(); ++i) { 577 if (message->extension_range(i).end() == kMaxExtensionRangeSentinel) { 578 message->mutable_extension_range(i)->set_end(max_extension_number); 579 } 580 } 581} 582 583} // namespace 584 585bool Parser::ParseMessageBlock(DescriptorProto* message, 586 const LocationRecorder& message_location, 587 const FileDescriptorProto* containing_file) { 588 DO(ConsumeEndOfDeclaration("{", &message_location)); 589 590 while (!TryConsumeEndOfDeclaration("}", NULL)) { 591 if (AtEnd()) { 592 AddError("Reached end of input in message definition (missing '}')."); 593 return false; 594 } 595 596 if (!ParseMessageStatement(message, message_location, containing_file)) { 597 // This statement failed to parse. Skip it, but keep looping to parse 598 // other statements. 599 SkipStatement(); 600 } 601 } 602 603 if (message->extension_range_size() > 0) { 604 AdjustExtensionRangesWithMaxEndNumber(message); 605 } 606 return true; 607} 608 609bool Parser::ParseMessageStatement(DescriptorProto* message, 610 const LocationRecorder& message_location, 611 const FileDescriptorProto* containing_file) { 612 if (TryConsumeEndOfDeclaration(";", NULL)) { 613 // empty statement; ignore 614 return true; 615 } else if (LookingAt("message")) { 616 LocationRecorder location(message_location, 617 DescriptorProto::kNestedTypeFieldNumber, 618 message->nested_type_size()); 619 return ParseMessageDefinition(message->add_nested_type(), location, 620 containing_file); 621 } else if (LookingAt("enum")) { 622 LocationRecorder location(message_location, 623 DescriptorProto::kEnumTypeFieldNumber, 624 message->enum_type_size()); 625 return ParseEnumDefinition(message->add_enum_type(), location, 626 containing_file); 627 } else if (LookingAt("extensions")) { 628 LocationRecorder location(message_location, 629 DescriptorProto::kExtensionRangeFieldNumber); 630 return ParseExtensions(message, location, containing_file); 631 } else if (LookingAt("extend")) { 632 LocationRecorder location(message_location, 633 DescriptorProto::kExtensionFieldNumber); 634 return ParseExtend(message->mutable_extension(), 635 message->mutable_nested_type(), 636 message_location, 637 DescriptorProto::kNestedTypeFieldNumber, 638 location, containing_file); 639 } else if (LookingAt("option")) { 640 LocationRecorder location(message_location, 641 DescriptorProto::kOptionsFieldNumber); 642 return ParseOption(message->mutable_options(), location, 643 containing_file, OPTION_STATEMENT); 644 } else if (LookingAt("oneof")) { 645 int oneof_index = message->oneof_decl_size(); 646 LocationRecorder oneof_location(message_location, 647 DescriptorProto::kOneofDeclFieldNumber, 648 oneof_index); 649 650 return ParseOneof(message->add_oneof_decl(), message, 651 oneof_index, oneof_location, message_location, 652 containing_file); 653 } else { 654 LocationRecorder location(message_location, 655 DescriptorProto::kFieldFieldNumber, 656 message->field_size()); 657 return ParseMessageField(message->add_field(), 658 message->mutable_nested_type(), 659 message_location, 660 DescriptorProto::kNestedTypeFieldNumber, 661 location, 662 containing_file); 663 } 664} 665 666bool Parser::ParseMessageField(FieldDescriptorProto* field, 667 RepeatedPtrField<DescriptorProto>* messages, 668 const LocationRecorder& parent_location, 669 int location_field_number_for_nested_type, 670 const LocationRecorder& field_location, 671 const FileDescriptorProto* containing_file) { 672 { 673 LocationRecorder location(field_location, 674 FieldDescriptorProto::kLabelFieldNumber); 675 FieldDescriptorProto::Label label; 676 DO(ParseLabel(&label, containing_file)); 677 field->set_label(label); 678 } 679 680 return ParseMessageFieldNoLabel(field, messages, parent_location, 681 location_field_number_for_nested_type, 682 field_location, 683 containing_file); 684} 685 686bool Parser::ParseMessageFieldNoLabel( 687 FieldDescriptorProto* field, 688 RepeatedPtrField<DescriptorProto>* messages, 689 const LocationRecorder& parent_location, 690 int location_field_number_for_nested_type, 691 const LocationRecorder& field_location, 692 const FileDescriptorProto* containing_file) { 693 // Parse type. 694 { 695 LocationRecorder location(field_location); // add path later 696 location.RecordLegacyLocation(field, DescriptorPool::ErrorCollector::TYPE); 697 698 FieldDescriptorProto::Type type = FieldDescriptorProto::TYPE_INT32; 699 string type_name; 700 DO(ParseType(&type, &type_name)); 701 if (type_name.empty()) { 702 location.AddPath(FieldDescriptorProto::kTypeFieldNumber); 703 field->set_type(type); 704 } else { 705 location.AddPath(FieldDescriptorProto::kTypeNameFieldNumber); 706 field->set_type_name(type_name); 707 } 708 } 709 710 // Parse name and '='. 711 io::Tokenizer::Token name_token = input_->current(); 712 { 713 LocationRecorder location(field_location, 714 FieldDescriptorProto::kNameFieldNumber); 715 location.RecordLegacyLocation(field, DescriptorPool::ErrorCollector::NAME); 716 DO(ConsumeIdentifier(field->mutable_name(), "Expected field name.")); 717 } 718 DO(Consume("=", "Missing field number.")); 719 720 // Parse field number. 721 { 722 LocationRecorder location(field_location, 723 FieldDescriptorProto::kNumberFieldNumber); 724 location.RecordLegacyLocation( 725 field, DescriptorPool::ErrorCollector::NUMBER); 726 int number; 727 DO(ConsumeInteger(&number, "Expected field number.")); 728 field->set_number(number); 729 } 730 731 // Parse options. 732 DO(ParseFieldOptions(field, field_location, containing_file)); 733 734 // Deal with groups. 735 if (field->has_type() && field->type() == FieldDescriptorProto::TYPE_GROUP) { 736 // Awkward: Since a group declares both a message type and a field, we 737 // have to create overlapping locations. 738 LocationRecorder group_location(parent_location); 739 group_location.StartAt(field_location); 740 group_location.AddPath(location_field_number_for_nested_type); 741 group_location.AddPath(messages->size()); 742 743 DescriptorProto* group = messages->Add(); 744 group->set_name(field->name()); 745 746 // Record name location to match the field name's location. 747 { 748 LocationRecorder location(group_location, 749 DescriptorProto::kNameFieldNumber); 750 location.StartAt(name_token); 751 location.EndAt(name_token); 752 location.RecordLegacyLocation( 753 group, DescriptorPool::ErrorCollector::NAME); 754 } 755 756 // The field's type_name also comes from the name. Confusing! 757 { 758 LocationRecorder location(field_location, 759 FieldDescriptorProto::kTypeNameFieldNumber); 760 location.StartAt(name_token); 761 location.EndAt(name_token); 762 } 763 764 // As a hack for backwards-compatibility, we force the group name to start 765 // with a capital letter and lower-case the field name. New code should 766 // not use groups; it should use nested messages. 767 if (group->name()[0] < 'A' || 'Z' < group->name()[0]) { 768 AddError(name_token.line, name_token.column, 769 "Group names must start with a capital letter."); 770 } 771 LowerString(field->mutable_name()); 772 773 field->set_type_name(group->name()); 774 if (LookingAt("{")) { 775 DO(ParseMessageBlock(group, group_location, containing_file)); 776 } else { 777 AddError("Missing group body."); 778 return false; 779 } 780 } else { 781 DO(ConsumeEndOfDeclaration(";", &field_location)); 782 } 783 784 return true; 785} 786 787bool Parser::ParseFieldOptions(FieldDescriptorProto* field, 788 const LocationRecorder& field_location, 789 const FileDescriptorProto* containing_file) { 790 if (!LookingAt("[")) return true; 791 792 LocationRecorder location(field_location, 793 FieldDescriptorProto::kOptionsFieldNumber); 794 795 DO(Consume("[")); 796 797 // Parse field options. 798 do { 799 if (LookingAt("default")) { 800 // We intentionally pass field_location rather than location here, since 801 // the default value is not actually an option. 802 DO(ParseDefaultAssignment(field, field_location, containing_file)); 803 } else { 804 DO(ParseOption(field->mutable_options(), location, 805 containing_file, OPTION_ASSIGNMENT)); 806 } 807 } while (TryConsume(",")); 808 809 DO(Consume("]")); 810 return true; 811} 812 813bool Parser::ParseDefaultAssignment( 814 FieldDescriptorProto* field, 815 const LocationRecorder& field_location, 816 const FileDescriptorProto* containing_file) { 817 if (field->has_default_value()) { 818 AddError("Already set option \"default\"."); 819 field->clear_default_value(); 820 } 821 822 DO(Consume("default")); 823 DO(Consume("=")); 824 825 LocationRecorder location(field_location, 826 FieldDescriptorProto::kDefaultValueFieldNumber); 827 location.RecordLegacyLocation( 828 field, DescriptorPool::ErrorCollector::DEFAULT_VALUE); 829 string* default_value = field->mutable_default_value(); 830 831 if (!field->has_type()) { 832 // The field has a type name, but we don't know if it is a message or an 833 // enum yet. (If it were a primitive type, |field| would have a type set 834 // already.) In this case, simply take the current string as the default 835 // value; we will catch the error later if it is not a valid enum value. 836 // (N.B. that we do not check whether the current token is an identifier: 837 // doing so throws strange errors when the user mistypes a primitive 838 // typename and we assume it's an enum. E.g.: "optional int foo = 1 [default 839 // = 42]". In such a case the fundamental error is really that "int" is not 840 // a type, not that "42" is not an identifier. See b/12533582.) 841 *default_value = input_->current().text; 842 input_->Next(); 843 return true; 844 } 845 846 switch (field->type()) { 847 case FieldDescriptorProto::TYPE_INT32: 848 case FieldDescriptorProto::TYPE_INT64: 849 case FieldDescriptorProto::TYPE_SINT32: 850 case FieldDescriptorProto::TYPE_SINT64: 851 case FieldDescriptorProto::TYPE_SFIXED32: 852 case FieldDescriptorProto::TYPE_SFIXED64: { 853 uint64 max_value = kint64max; 854 if (field->type() == FieldDescriptorProto::TYPE_INT32 || 855 field->type() == FieldDescriptorProto::TYPE_SINT32 || 856 field->type() == FieldDescriptorProto::TYPE_SFIXED32) { 857 max_value = kint32max; 858 } 859 860 // These types can be negative. 861 if (TryConsume("-")) { 862 default_value->append("-"); 863 // Two's complement always has one more negative value than positive. 864 ++max_value; 865 } 866 // Parse the integer to verify that it is not out-of-range. 867 uint64 value; 868 DO(ConsumeInteger64(max_value, &value, 869 "Expected integer for field default value.")); 870 // And stringify it again. 871 default_value->append(SimpleItoa(value)); 872 break; 873 } 874 875 case FieldDescriptorProto::TYPE_UINT32: 876 case FieldDescriptorProto::TYPE_UINT64: 877 case FieldDescriptorProto::TYPE_FIXED32: 878 case FieldDescriptorProto::TYPE_FIXED64: { 879 uint64 max_value = kuint64max; 880 if (field->type() == FieldDescriptorProto::TYPE_UINT32 || 881 field->type() == FieldDescriptorProto::TYPE_FIXED32) { 882 max_value = kuint32max; 883 } 884 885 // Numeric, not negative. 886 if (TryConsume("-")) { 887 AddError("Unsigned field can't have negative default value."); 888 } 889 // Parse the integer to verify that it is not out-of-range. 890 uint64 value; 891 DO(ConsumeInteger64(max_value, &value, 892 "Expected integer for field default value.")); 893 // And stringify it again. 894 default_value->append(SimpleItoa(value)); 895 break; 896 } 897 898 case FieldDescriptorProto::TYPE_FLOAT: 899 case FieldDescriptorProto::TYPE_DOUBLE: 900 // These types can be negative. 901 if (TryConsume("-")) { 902 default_value->append("-"); 903 } 904 // Parse the integer because we have to convert hex integers to decimal 905 // floats. 906 double value; 907 DO(ConsumeNumber(&value, "Expected number.")); 908 // And stringify it again. 909 default_value->append(SimpleDtoa(value)); 910 break; 911 912 case FieldDescriptorProto::TYPE_BOOL: 913 if (TryConsume("true")) { 914 default_value->assign("true"); 915 } else if (TryConsume("false")) { 916 default_value->assign("false"); 917 } else { 918 AddError("Expected \"true\" or \"false\"."); 919 return false; 920 } 921 break; 922 923 case FieldDescriptorProto::TYPE_STRING: 924 // Note: When file opton java_string_check_utf8 is true, if a 925 // non-string representation (eg byte[]) is later supported, it must 926 // be checked for UTF-8-ness. 927 DO(ConsumeString(default_value, "Expected string for field default " 928 "value.")); 929 break; 930 931 case FieldDescriptorProto::TYPE_BYTES: 932 DO(ConsumeString(default_value, "Expected string.")); 933 *default_value = CEscape(*default_value); 934 break; 935 936 case FieldDescriptorProto::TYPE_ENUM: 937 DO(ConsumeIdentifier(default_value, "Expected enum identifier for field " 938 "default value.")); 939 break; 940 941 case FieldDescriptorProto::TYPE_MESSAGE: 942 case FieldDescriptorProto::TYPE_GROUP: 943 AddError("Messages can't have default values."); 944 return false; 945 } 946 947 return true; 948} 949 950bool Parser::ParseOptionNamePart(UninterpretedOption* uninterpreted_option, 951 const LocationRecorder& part_location, 952 const FileDescriptorProto* containing_file) { 953 UninterpretedOption::NamePart* name = uninterpreted_option->add_name(); 954 string identifier; // We parse identifiers into this string. 955 if (LookingAt("(")) { // This is an extension. 956 DO(Consume("(")); 957 958 { 959 LocationRecorder location( 960 part_location, UninterpretedOption::NamePart::kNamePartFieldNumber); 961 // An extension name consists of dot-separated identifiers, and may begin 962 // with a dot. 963 if (LookingAtType(io::Tokenizer::TYPE_IDENTIFIER)) { 964 DO(ConsumeIdentifier(&identifier, "Expected identifier.")); 965 name->mutable_name_part()->append(identifier); 966 } 967 while (LookingAt(".")) { 968 DO(Consume(".")); 969 name->mutable_name_part()->append("."); 970 DO(ConsumeIdentifier(&identifier, "Expected identifier.")); 971 name->mutable_name_part()->append(identifier); 972 } 973 } 974 975 DO(Consume(")")); 976 name->set_is_extension(true); 977 } else { // This is a regular field. 978 LocationRecorder location( 979 part_location, UninterpretedOption::NamePart::kNamePartFieldNumber); 980 DO(ConsumeIdentifier(&identifier, "Expected identifier.")); 981 name->mutable_name_part()->append(identifier); 982 name->set_is_extension(false); 983 } 984 return true; 985} 986 987bool Parser::ParseUninterpretedBlock(string* value) { 988 // Note that enclosing braces are not added to *value. 989 // We do NOT use ConsumeEndOfStatement for this brace because it's delimiting 990 // an expression, not a block of statements. 991 DO(Consume("{")); 992 int brace_depth = 1; 993 while (!AtEnd()) { 994 if (LookingAt("{")) { 995 brace_depth++; 996 } else if (LookingAt("}")) { 997 brace_depth--; 998 if (brace_depth == 0) { 999 input_->Next(); 1000 return true; 1001 } 1002 } 1003 // TODO(sanjay): Interpret line/column numbers to preserve formatting 1004 if (!value->empty()) value->push_back(' '); 1005 value->append(input_->current().text); 1006 input_->Next(); 1007 } 1008 AddError("Unexpected end of stream while parsing aggregate value."); 1009 return false; 1010} 1011 1012// We don't interpret the option here. Instead we store it in an 1013// UninterpretedOption, to be interpreted later. 1014bool Parser::ParseOption(Message* options, 1015 const LocationRecorder& options_location, 1016 const FileDescriptorProto* containing_file, 1017 OptionStyle style) { 1018 // Create an entry in the uninterpreted_option field. 1019 const FieldDescriptor* uninterpreted_option_field = options->GetDescriptor()-> 1020 FindFieldByName("uninterpreted_option"); 1021 GOOGLE_CHECK(uninterpreted_option_field != NULL) 1022 << "No field named \"uninterpreted_option\" in the Options proto."; 1023 1024 const Reflection* reflection = options->GetReflection(); 1025 1026 LocationRecorder location( 1027 options_location, uninterpreted_option_field->number(), 1028 reflection->FieldSize(*options, uninterpreted_option_field)); 1029 1030 if (style == OPTION_STATEMENT) { 1031 DO(Consume("option")); 1032 } 1033 1034 UninterpretedOption* uninterpreted_option = down_cast<UninterpretedOption*>( 1035 options->GetReflection()->AddMessage(options, 1036 uninterpreted_option_field)); 1037 1038 // Parse dot-separated name. 1039 { 1040 LocationRecorder name_location(location, 1041 UninterpretedOption::kNameFieldNumber); 1042 name_location.RecordLegacyLocation( 1043 uninterpreted_option, DescriptorPool::ErrorCollector::OPTION_NAME); 1044 1045 { 1046 LocationRecorder part_location(name_location, 1047 uninterpreted_option->name_size()); 1048 DO(ParseOptionNamePart(uninterpreted_option, part_location, 1049 containing_file)); 1050 } 1051 1052 while (LookingAt(".")) { 1053 DO(Consume(".")); 1054 LocationRecorder part_location(name_location, 1055 uninterpreted_option->name_size()); 1056 DO(ParseOptionNamePart(uninterpreted_option, part_location, 1057 containing_file)); 1058 } 1059 } 1060 1061 DO(Consume("=")); 1062 1063 { 1064 LocationRecorder value_location(location); 1065 value_location.RecordLegacyLocation( 1066 uninterpreted_option, DescriptorPool::ErrorCollector::OPTION_VALUE); 1067 1068 // All values are a single token, except for negative numbers, which consist 1069 // of a single '-' symbol, followed by a positive number. 1070 bool is_negative = TryConsume("-"); 1071 1072 switch (input_->current().type) { 1073 case io::Tokenizer::TYPE_START: 1074 GOOGLE_LOG(FATAL) << "Trying to read value before any tokens have been read."; 1075 return false; 1076 1077 case io::Tokenizer::TYPE_END: 1078 AddError("Unexpected end of stream while parsing option value."); 1079 return false; 1080 1081 case io::Tokenizer::TYPE_IDENTIFIER: { 1082 value_location.AddPath( 1083 UninterpretedOption::kIdentifierValueFieldNumber); 1084 if (is_negative) { 1085 AddError("Invalid '-' symbol before identifier."); 1086 return false; 1087 } 1088 string value; 1089 DO(ConsumeIdentifier(&value, "Expected identifier.")); 1090 uninterpreted_option->set_identifier_value(value); 1091 break; 1092 } 1093 1094 case io::Tokenizer::TYPE_INTEGER: { 1095 uint64 value; 1096 uint64 max_value = 1097 is_negative ? static_cast<uint64>(kint64max) + 1 : kuint64max; 1098 DO(ConsumeInteger64(max_value, &value, "Expected integer.")); 1099 if (is_negative) { 1100 value_location.AddPath( 1101 UninterpretedOption::kNegativeIntValueFieldNumber); 1102 uninterpreted_option->set_negative_int_value( 1103 -static_cast<int64>(value)); 1104 } else { 1105 value_location.AddPath( 1106 UninterpretedOption::kPositiveIntValueFieldNumber); 1107 uninterpreted_option->set_positive_int_value(value); 1108 } 1109 break; 1110 } 1111 1112 case io::Tokenizer::TYPE_FLOAT: { 1113 value_location.AddPath(UninterpretedOption::kDoubleValueFieldNumber); 1114 double value; 1115 DO(ConsumeNumber(&value, "Expected number.")); 1116 uninterpreted_option->set_double_value(is_negative ? -value : value); 1117 break; 1118 } 1119 1120 case io::Tokenizer::TYPE_STRING: { 1121 value_location.AddPath(UninterpretedOption::kStringValueFieldNumber); 1122 if (is_negative) { 1123 AddError("Invalid '-' symbol before string."); 1124 return false; 1125 } 1126 string value; 1127 DO(ConsumeString(&value, "Expected string.")); 1128 uninterpreted_option->set_string_value(value); 1129 break; 1130 } 1131 1132 case io::Tokenizer::TYPE_SYMBOL: 1133 if (LookingAt("{")) { 1134 value_location.AddPath( 1135 UninterpretedOption::kAggregateValueFieldNumber); 1136 DO(ParseUninterpretedBlock( 1137 uninterpreted_option->mutable_aggregate_value())); 1138 } else { 1139 AddError("Expected option value."); 1140 return false; 1141 } 1142 break; 1143 } 1144 } 1145 1146 if (style == OPTION_STATEMENT) { 1147 DO(ConsumeEndOfDeclaration(";", &location)); 1148 } 1149 1150 1151 return true; 1152} 1153 1154bool Parser::ParseExtensions(DescriptorProto* message, 1155 const LocationRecorder& extensions_location, 1156 const FileDescriptorProto* containing_file) { 1157 // Parse the declaration. 1158 DO(Consume("extensions")); 1159 1160 do { 1161 // Note that kExtensionRangeFieldNumber was already pushed by the parent. 1162 LocationRecorder location(extensions_location, 1163 message->extension_range_size()); 1164 1165 DescriptorProto::ExtensionRange* range = message->add_extension_range(); 1166 location.RecordLegacyLocation( 1167 range, DescriptorPool::ErrorCollector::NUMBER); 1168 1169 int start, end; 1170 io::Tokenizer::Token start_token; 1171 1172 { 1173 LocationRecorder start_location( 1174 location, DescriptorProto::ExtensionRange::kStartFieldNumber); 1175 start_token = input_->current(); 1176 DO(ConsumeInteger(&start, "Expected field number range.")); 1177 } 1178 1179 if (TryConsume("to")) { 1180 LocationRecorder end_location( 1181 location, DescriptorProto::ExtensionRange::kEndFieldNumber); 1182 if (TryConsume("max")) { 1183 // Set to the sentinel value - 1 since we increment the value below. 1184 // The actual value of the end of the range should be set with 1185 // AdjustExtensionRangesWithMaxEndNumber. 1186 end = kMaxExtensionRangeSentinel - 1; 1187 } else { 1188 DO(ConsumeInteger(&end, "Expected integer.")); 1189 } 1190 } else { 1191 LocationRecorder end_location( 1192 location, DescriptorProto::ExtensionRange::kEndFieldNumber); 1193 end_location.StartAt(start_token); 1194 end_location.EndAt(start_token); 1195 end = start; 1196 } 1197 1198 // Users like to specify inclusive ranges, but in code we like the end 1199 // number to be exclusive. 1200 ++end; 1201 1202 range->set_start(start); 1203 range->set_end(end); 1204 } while (TryConsume(",")); 1205 1206 DO(ConsumeEndOfDeclaration(";", &extensions_location)); 1207 return true; 1208} 1209 1210bool Parser::ParseExtend(RepeatedPtrField<FieldDescriptorProto>* extensions, 1211 RepeatedPtrField<DescriptorProto>* messages, 1212 const LocationRecorder& parent_location, 1213 int location_field_number_for_nested_type, 1214 const LocationRecorder& extend_location, 1215 const FileDescriptorProto* containing_file) { 1216 DO(Consume("extend")); 1217 1218 // Parse the extendee type. 1219 io::Tokenizer::Token extendee_start = input_->current(); 1220 string extendee; 1221 DO(ParseUserDefinedType(&extendee)); 1222 io::Tokenizer::Token extendee_end = input_->previous(); 1223 1224 // Parse the block. 1225 DO(ConsumeEndOfDeclaration("{", &extend_location)); 1226 1227 bool is_first = true; 1228 1229 do { 1230 if (AtEnd()) { 1231 AddError("Reached end of input in extend definition (missing '}')."); 1232 return false; 1233 } 1234 1235 // Note that kExtensionFieldNumber was already pushed by the parent. 1236 LocationRecorder location(extend_location, extensions->size()); 1237 1238 FieldDescriptorProto* field = extensions->Add(); 1239 1240 { 1241 LocationRecorder extendee_location( 1242 location, FieldDescriptorProto::kExtendeeFieldNumber); 1243 extendee_location.StartAt(extendee_start); 1244 extendee_location.EndAt(extendee_end); 1245 1246 if (is_first) { 1247 extendee_location.RecordLegacyLocation( 1248 field, DescriptorPool::ErrorCollector::EXTENDEE); 1249 is_first = false; 1250 } 1251 } 1252 1253 field->set_extendee(extendee); 1254 1255 if (!ParseMessageField(field, messages, parent_location, 1256 location_field_number_for_nested_type, 1257 location, 1258 containing_file)) { 1259 // This statement failed to parse. Skip it, but keep looping to parse 1260 // other statements. 1261 SkipStatement(); 1262 } 1263 } while (!TryConsumeEndOfDeclaration("}", NULL)); 1264 1265 return true; 1266} 1267 1268bool Parser::ParseOneof(OneofDescriptorProto* oneof_decl, 1269 DescriptorProto* containing_type, 1270 int oneof_index, 1271 const LocationRecorder& oneof_location, 1272 const LocationRecorder& containing_type_location, 1273 const FileDescriptorProto* containing_file) { 1274 DO(Consume("oneof")); 1275 1276 { 1277 LocationRecorder name_location(oneof_location, 1278 OneofDescriptorProto::kNameFieldNumber); 1279 DO(ConsumeIdentifier(oneof_decl->mutable_name(), "Expected oneof name.")); 1280 } 1281 1282 DO(ConsumeEndOfDeclaration("{", &oneof_location)); 1283 1284 do { 1285 if (AtEnd()) { 1286 AddError("Reached end of input in oneof definition (missing '}')."); 1287 return false; 1288 } 1289 1290 // Print a nice error if the user accidentally tries to place a label 1291 // on an individual member of a oneof. 1292 if (LookingAt("required") || 1293 LookingAt("optional") || 1294 LookingAt("repeated")) { 1295 AddError("Fields in oneofs must not have labels (required / optional " 1296 "/ repeated)."); 1297 // We can continue parsing here because we understand what the user 1298 // meant. The error report will still make parsing fail overall. 1299 input_->Next(); 1300 } 1301 1302 LocationRecorder field_location(containing_type_location, 1303 DescriptorProto::kFieldFieldNumber, 1304 containing_type->field_size()); 1305 1306 FieldDescriptorProto* field = containing_type->add_field(); 1307 field->set_label(FieldDescriptorProto::LABEL_OPTIONAL); 1308 field->set_oneof_index(oneof_index); 1309 1310 if (!ParseMessageFieldNoLabel(field, 1311 containing_type->mutable_nested_type(), 1312 containing_type_location, 1313 DescriptorProto::kNestedTypeFieldNumber, 1314 field_location, 1315 containing_file)) { 1316 // This statement failed to parse. Skip it, but keep looping to parse 1317 // other statements. 1318 SkipStatement(); 1319 } 1320 } while (!TryConsumeEndOfDeclaration("}", NULL)); 1321 1322 return true; 1323} 1324 1325// ------------------------------------------------------------------- 1326// Enums 1327 1328bool Parser::ParseEnumDefinition(EnumDescriptorProto* enum_type, 1329 const LocationRecorder& enum_location, 1330 const FileDescriptorProto* containing_file) { 1331 DO(Consume("enum")); 1332 1333 { 1334 LocationRecorder location(enum_location, 1335 EnumDescriptorProto::kNameFieldNumber); 1336 location.RecordLegacyLocation( 1337 enum_type, DescriptorPool::ErrorCollector::NAME); 1338 DO(ConsumeIdentifier(enum_type->mutable_name(), "Expected enum name.")); 1339 } 1340 1341 DO(ParseEnumBlock(enum_type, enum_location, containing_file)); 1342 return true; 1343} 1344 1345bool Parser::ParseEnumBlock(EnumDescriptorProto* enum_type, 1346 const LocationRecorder& enum_location, 1347 const FileDescriptorProto* containing_file) { 1348 DO(ConsumeEndOfDeclaration("{", &enum_location)); 1349 1350 while (!TryConsumeEndOfDeclaration("}", NULL)) { 1351 if (AtEnd()) { 1352 AddError("Reached end of input in enum definition (missing '}')."); 1353 return false; 1354 } 1355 1356 if (!ParseEnumStatement(enum_type, enum_location, containing_file)) { 1357 // This statement failed to parse. Skip it, but keep looping to parse 1358 // other statements. 1359 SkipStatement(); 1360 } 1361 } 1362 1363 return true; 1364} 1365 1366bool Parser::ParseEnumStatement(EnumDescriptorProto* enum_type, 1367 const LocationRecorder& enum_location, 1368 const FileDescriptorProto* containing_file) { 1369 if (TryConsumeEndOfDeclaration(";", NULL)) { 1370 // empty statement; ignore 1371 return true; 1372 } else if (LookingAt("option")) { 1373 LocationRecorder location(enum_location, 1374 EnumDescriptorProto::kOptionsFieldNumber); 1375 return ParseOption(enum_type->mutable_options(), location, 1376 containing_file, OPTION_STATEMENT); 1377 } else { 1378 LocationRecorder location(enum_location, 1379 EnumDescriptorProto::kValueFieldNumber, enum_type->value_size()); 1380 return ParseEnumConstant(enum_type->add_value(), location, containing_file); 1381 } 1382} 1383 1384bool Parser::ParseEnumConstant(EnumValueDescriptorProto* enum_value, 1385 const LocationRecorder& enum_value_location, 1386 const FileDescriptorProto* containing_file) { 1387 // Parse name. 1388 { 1389 LocationRecorder location(enum_value_location, 1390 EnumValueDescriptorProto::kNameFieldNumber); 1391 location.RecordLegacyLocation( 1392 enum_value, DescriptorPool::ErrorCollector::NAME); 1393 DO(ConsumeIdentifier(enum_value->mutable_name(), 1394 "Expected enum constant name.")); 1395 } 1396 1397 DO(Consume("=", "Missing numeric value for enum constant.")); 1398 1399 // Parse value. 1400 { 1401 LocationRecorder location( 1402 enum_value_location, EnumValueDescriptorProto::kNumberFieldNumber); 1403 location.RecordLegacyLocation( 1404 enum_value, DescriptorPool::ErrorCollector::NUMBER); 1405 1406 int number; 1407 DO(ConsumeSignedInteger(&number, "Expected integer.")); 1408 enum_value->set_number(number); 1409 } 1410 1411 DO(ParseEnumConstantOptions(enum_value, enum_value_location, 1412 containing_file)); 1413 1414 DO(ConsumeEndOfDeclaration(";", &enum_value_location)); 1415 1416 return true; 1417} 1418 1419bool Parser::ParseEnumConstantOptions( 1420 EnumValueDescriptorProto* value, 1421 const LocationRecorder& enum_value_location, 1422 const FileDescriptorProto* containing_file) { 1423 if (!LookingAt("[")) return true; 1424 1425 LocationRecorder location( 1426 enum_value_location, EnumValueDescriptorProto::kOptionsFieldNumber); 1427 1428 DO(Consume("[")); 1429 1430 do { 1431 DO(ParseOption(value->mutable_options(), location, 1432 containing_file, OPTION_ASSIGNMENT)); 1433 } while (TryConsume(",")); 1434 1435 DO(Consume("]")); 1436 return true; 1437} 1438 1439// ------------------------------------------------------------------- 1440// Services 1441 1442bool Parser::ParseServiceDefinition( 1443 ServiceDescriptorProto* service, 1444 const LocationRecorder& service_location, 1445 const FileDescriptorProto* containing_file) { 1446 DO(Consume("service")); 1447 1448 { 1449 LocationRecorder location(service_location, 1450 ServiceDescriptorProto::kNameFieldNumber); 1451 location.RecordLegacyLocation( 1452 service, DescriptorPool::ErrorCollector::NAME); 1453 DO(ConsumeIdentifier(service->mutable_name(), "Expected service name.")); 1454 } 1455 1456 DO(ParseServiceBlock(service, service_location, containing_file)); 1457 return true; 1458} 1459 1460bool Parser::ParseServiceBlock(ServiceDescriptorProto* service, 1461 const LocationRecorder& service_location, 1462 const FileDescriptorProto* containing_file) { 1463 DO(ConsumeEndOfDeclaration("{", &service_location)); 1464 1465 while (!TryConsumeEndOfDeclaration("}", NULL)) { 1466 if (AtEnd()) { 1467 AddError("Reached end of input in service definition (missing '}')."); 1468 return false; 1469 } 1470 1471 if (!ParseServiceStatement(service, service_location, containing_file)) { 1472 // This statement failed to parse. Skip it, but keep looping to parse 1473 // other statements. 1474 SkipStatement(); 1475 } 1476 } 1477 1478 return true; 1479} 1480 1481bool Parser::ParseServiceStatement(ServiceDescriptorProto* service, 1482 const LocationRecorder& service_location, 1483 const FileDescriptorProto* containing_file) { 1484 if (TryConsumeEndOfDeclaration(";", NULL)) { 1485 // empty statement; ignore 1486 return true; 1487 } else if (LookingAt("option")) { 1488 LocationRecorder location( 1489 service_location, ServiceDescriptorProto::kOptionsFieldNumber); 1490 return ParseOption(service->mutable_options(), location, 1491 containing_file, OPTION_STATEMENT); 1492 } else { 1493 LocationRecorder location(service_location, 1494 ServiceDescriptorProto::kMethodFieldNumber, service->method_size()); 1495 return ParseServiceMethod(service->add_method(), location, containing_file); 1496 } 1497} 1498 1499bool Parser::ParseServiceMethod(MethodDescriptorProto* method, 1500 const LocationRecorder& method_location, 1501 const FileDescriptorProto* containing_file) { 1502 DO(Consume("rpc")); 1503 1504 { 1505 LocationRecorder location(method_location, 1506 MethodDescriptorProto::kNameFieldNumber); 1507 location.RecordLegacyLocation( 1508 method, DescriptorPool::ErrorCollector::NAME); 1509 DO(ConsumeIdentifier(method->mutable_name(), "Expected method name.")); 1510 } 1511 1512 // Parse input type. 1513 DO(Consume("(")); 1514 { 1515 LocationRecorder location(method_location, 1516 MethodDescriptorProto::kInputTypeFieldNumber); 1517 location.RecordLegacyLocation( 1518 method, DescriptorPool::ErrorCollector::INPUT_TYPE); 1519 DO(ParseUserDefinedType(method->mutable_input_type())); 1520 } 1521 DO(Consume(")")); 1522 1523 // Parse output type. 1524 DO(Consume("returns")); 1525 DO(Consume("(")); 1526 { 1527 LocationRecorder location(method_location, 1528 MethodDescriptorProto::kOutputTypeFieldNumber); 1529 location.RecordLegacyLocation( 1530 method, DescriptorPool::ErrorCollector::OUTPUT_TYPE); 1531 DO(ParseUserDefinedType(method->mutable_output_type())); 1532 } 1533 DO(Consume(")")); 1534 1535 if (LookingAt("{")) { 1536 // Options! 1537 DO(ParseOptions(method_location, 1538 containing_file, 1539 MethodDescriptorProto::kOptionsFieldNumber, 1540 method->mutable_options())); 1541 } else { 1542 DO(ConsumeEndOfDeclaration(";", &method_location)); 1543 } 1544 1545 return true; 1546} 1547 1548 1549bool Parser::ParseOptions(const LocationRecorder& parent_location, 1550 const FileDescriptorProto* containing_file, 1551 const int optionsFieldNumber, 1552 Message* mutable_options) { 1553 // Options! 1554 ConsumeEndOfDeclaration("{", &parent_location); 1555 while (!TryConsumeEndOfDeclaration("}", NULL)) { 1556 if (AtEnd()) { 1557 AddError("Reached end of input in method options (missing '}')."); 1558 return false; 1559 } 1560 1561 if (TryConsumeEndOfDeclaration(";", NULL)) { 1562 // empty statement; ignore 1563 } else { 1564 LocationRecorder location(parent_location, 1565 optionsFieldNumber); 1566 if (!ParseOption(mutable_options, location, containing_file, 1567 OPTION_STATEMENT)) { 1568 // This statement failed to parse. Skip it, but keep looping to 1569 // parse other statements. 1570 SkipStatement(); 1571 } 1572 } 1573 } 1574 1575 return true; 1576} 1577 1578// ------------------------------------------------------------------- 1579 1580bool Parser::ParseLabel(FieldDescriptorProto::Label* label, 1581 const FileDescriptorProto* containing_file) { 1582 if (TryConsume("optional")) { 1583 *label = FieldDescriptorProto::LABEL_OPTIONAL; 1584 return true; 1585 } else if (TryConsume("repeated")) { 1586 *label = FieldDescriptorProto::LABEL_REPEATED; 1587 return true; 1588 } else if (TryConsume("required")) { 1589 *label = FieldDescriptorProto::LABEL_REQUIRED; 1590 return true; 1591 } else { 1592 AddError("Expected \"required\", \"optional\", or \"repeated\"."); 1593 // We can actually reasonably recover here by just assuming the user 1594 // forgot the label altogether. 1595 *label = FieldDescriptorProto::LABEL_OPTIONAL; 1596 return true; 1597 } 1598} 1599 1600bool Parser::ParseType(FieldDescriptorProto::Type* type, 1601 string* type_name) { 1602 TypeNameMap::const_iterator iter = kTypeNames.find(input_->current().text); 1603 if (iter != kTypeNames.end()) { 1604 *type = iter->second; 1605 input_->Next(); 1606 } else { 1607 DO(ParseUserDefinedType(type_name)); 1608 } 1609 return true; 1610} 1611 1612bool Parser::ParseUserDefinedType(string* type_name) { 1613 type_name->clear(); 1614 1615 TypeNameMap::const_iterator iter = kTypeNames.find(input_->current().text); 1616 if (iter != kTypeNames.end()) { 1617 // Note: The only place enum types are allowed is for field types, but 1618 // if we are parsing a field type then we would not get here because 1619 // primitives are allowed there as well. So this error message doesn't 1620 // need to account for enums. 1621 AddError("Expected message type."); 1622 1623 // Pretend to accept this type so that we can go on parsing. 1624 *type_name = input_->current().text; 1625 input_->Next(); 1626 return true; 1627 } 1628 1629 // A leading "." means the name is fully-qualified. 1630 if (TryConsume(".")) type_name->append("."); 1631 1632 // Consume the first part of the name. 1633 string identifier; 1634 DO(ConsumeIdentifier(&identifier, "Expected type name.")); 1635 type_name->append(identifier); 1636 1637 // Consume more parts. 1638 while (TryConsume(".")) { 1639 type_name->append("."); 1640 DO(ConsumeIdentifier(&identifier, "Expected identifier.")); 1641 type_name->append(identifier); 1642 } 1643 1644 return true; 1645} 1646 1647// =================================================================== 1648 1649bool Parser::ParsePackage(FileDescriptorProto* file, 1650 const LocationRecorder& root_location, 1651 const FileDescriptorProto* containing_file) { 1652 if (file->has_package()) { 1653 AddError("Multiple package definitions."); 1654 // Don't append the new package to the old one. Just replace it. Not 1655 // that it really matters since this is an error anyway. 1656 file->clear_package(); 1657 } 1658 1659 DO(Consume("package")); 1660 1661 { 1662 LocationRecorder location(root_location, 1663 FileDescriptorProto::kPackageFieldNumber); 1664 location.RecordLegacyLocation(file, DescriptorPool::ErrorCollector::NAME); 1665 1666 while (true) { 1667 string identifier; 1668 DO(ConsumeIdentifier(&identifier, "Expected identifier.")); 1669 file->mutable_package()->append(identifier); 1670 if (!TryConsume(".")) break; 1671 file->mutable_package()->append("."); 1672 } 1673 1674 location.EndAt(input_->previous()); 1675 1676 DO(ConsumeEndOfDeclaration(";", &location)); 1677 } 1678 1679 return true; 1680} 1681 1682bool Parser::ParseImport(RepeatedPtrField<string>* dependency, 1683 RepeatedField<int32>* public_dependency, 1684 RepeatedField<int32>* weak_dependency, 1685 const LocationRecorder& root_location, 1686 const FileDescriptorProto* containing_file) { 1687 DO(Consume("import")); 1688 if (LookingAt("public")) { 1689 LocationRecorder location( 1690 root_location, FileDescriptorProto::kPublicDependencyFieldNumber, 1691 public_dependency->size()); 1692 DO(Consume("public")); 1693 *public_dependency->Add() = dependency->size(); 1694 } else if (LookingAt("weak")) { 1695 LocationRecorder location( 1696 root_location, FileDescriptorProto::kWeakDependencyFieldNumber, 1697 weak_dependency->size()); 1698 DO(Consume("weak")); 1699 *weak_dependency->Add() = dependency->size(); 1700 } 1701 { 1702 LocationRecorder location(root_location, 1703 FileDescriptorProto::kDependencyFieldNumber, 1704 dependency->size()); 1705 DO(ConsumeString(dependency->Add(), 1706 "Expected a string naming the file to import.")); 1707 1708 location.EndAt(input_->previous()); 1709 1710 DO(ConsumeEndOfDeclaration(";", &location)); 1711 } 1712 return true; 1713} 1714 1715// =================================================================== 1716 1717SourceLocationTable::SourceLocationTable() {} 1718SourceLocationTable::~SourceLocationTable() {} 1719 1720bool SourceLocationTable::Find( 1721 const Message* descriptor, 1722 DescriptorPool::ErrorCollector::ErrorLocation location, 1723 int* line, int* column) const { 1724 const pair<int, int>* result = 1725 FindOrNull(location_map_, make_pair(descriptor, location)); 1726 if (result == NULL) { 1727 *line = -1; 1728 *column = 0; 1729 return false; 1730 } else { 1731 *line = result->first; 1732 *column = result->second; 1733 return true; 1734 } 1735} 1736 1737void SourceLocationTable::Add( 1738 const Message* descriptor, 1739 DescriptorPool::ErrorCollector::ErrorLocation location, 1740 int line, int column) { 1741 location_map_[make_pair(descriptor, location)] = make_pair(line, column); 1742} 1743 1744void SourceLocationTable::Clear() { 1745 location_map_.clear(); 1746} 1747 1748} // namespace compiler 1749} // namespace protobuf 1750} // namespace google 1751