// Copyright 2016 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Tests v8::internal::Scanner. Note that presently most unit tests for the // Scanner are in cctest/test-parsing.cc, rather than here. #include "src/handles-inl.h" #include "src/objects-inl.h" #include "src/parsing/scanner-character-streams.h" #include "src/parsing/scanner.h" #include "src/unicode-cache.h" #include "test/cctest/cctest.h" namespace v8 { namespace internal { namespace { const char src_simple[] = "function foo() { var x = 2 * a() + b; }"; struct ScannerTestHelper { ScannerTestHelper() = default; ScannerTestHelper(ScannerTestHelper&& other) : unicode_cache(std::move(other.unicode_cache)), stream(std::move(other.stream)), scanner(std::move(other.scanner)) {} std::unique_ptr unicode_cache; std::unique_ptr stream; std::unique_ptr scanner; Scanner* operator->() const { return scanner.get(); } Scanner* get() const { return scanner.get(); } }; ScannerTestHelper make_scanner(const char* src) { ScannerTestHelper helper; helper.unicode_cache = std::unique_ptr(new UnicodeCache); helper.stream = ScannerStream::ForTesting(src); helper.scanner = std::unique_ptr(new Scanner(helper.unicode_cache.get())); helper.scanner->Initialize(helper.stream.get(), false); return helper; } } // anonymous namespace // CHECK_TOK checks token equality, but by checking for equality of the token // names. That should have the same result, but has much nicer error messaages. #define CHECK_TOK(a, b) CHECK_EQ(Token::Name(a), Token::Name(b)) TEST(Bookmarks) { // Scan through the given source and record the tokens for use as reference // below. std::vector tokens; { auto scanner = make_scanner(src_simple); do { tokens.push_back(scanner->Next()); } while (scanner->current_token() != Token::EOS); } // For each position: // - Scan through file, // - set a bookmark once the position is reached, // - scan a bit more, // - reset to the bookmark, and // - scan until the end. // At each step, compare to the reference token sequence generated above. for (size_t bookmark_pos = 0; bookmark_pos < tokens.size(); bookmark_pos++) { auto scanner = make_scanner(src_simple); Scanner::BookmarkScope bookmark(scanner.get()); for (size_t i = 0; i < std::min(bookmark_pos + 10, tokens.size()); i++) { if (i == bookmark_pos) { bookmark.Set(); } CHECK_TOK(tokens[i], scanner->Next()); } bookmark.Apply(); for (size_t i = bookmark_pos; i < tokens.size(); i++) { CHECK_TOK(tokens[i], scanner->Next()); } } } TEST(AllThePushbacks) { const struct { const char* src; const Token::Value tokens[5]; // Large enough for any of the test cases. } test_cases[] = { {"<-x", {Token::LT, Token::SUB, Token::IDENTIFIER, Token::EOS}}, {"\nx", {Token::IDENTIFIER, Token::EOS}}, }; for (const auto& test_case : test_cases) { auto scanner = make_scanner(test_case.src); for (size_t i = 0; test_case.tokens[i] != Token::EOS; i++) { CHECK_TOK(test_case.tokens[i], scanner->Next()); } CHECK_TOK(Token::EOS, scanner->Next()); } } TEST(ContextualKeywordTokens) { auto scanner = make_scanner("function of get bla"); // function (regular keyword) scanner->Next(); CHECK_TOK(Token::FUNCTION, scanner->current_token()); CHECK_TOK(Token::UNINITIALIZED, scanner->current_contextual_token()); // of (contextual keyword) scanner->Next(); CHECK_TOK(Token::IDENTIFIER, scanner->current_token()); CHECK_TOK(Token::OF, scanner->current_contextual_token()); // get (contextual keyword) scanner->Next(); CHECK_TOK(Token::IDENTIFIER, scanner->current_token()); CHECK_TOK(Token::GET, scanner->current_contextual_token()); // bla (identfier, not any sort of keyword) scanner->Next(); CHECK_TOK(Token::IDENTIFIER, scanner->current_token()); CHECK_TOK(Token::UNINITIALIZED, scanner->current_contextual_token()); } } // namespace internal } // namespace v8