blob: bc6d4b18ef3be7927ea8e13cbeff0533b462f87b [file] [log] [blame]
// Copyright (c) 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include <stddef.h>
#include "tools/gn/input_file.h"
#include "tools/gn/token.h"
#include "tools/gn/tokenizer.h"
#include "util/test/test.h"
namespace {
struct TokenExpectation {
Token::Type type;
const char* value;
};
template <size_t len>
bool CheckTokenizer(const char* input, const TokenExpectation (&expect)[len]) {
InputFile input_file(SourceFile("/test"));
input_file.SetContents(input);
Err err;
std::vector<Token> results = Tokenizer::Tokenize(&input_file, &err);
if (results.size() != len)
return false;
for (size_t i = 0; i < len; i++) {
if (expect[i].type != results[i].type())
return false;
if (expect[i].value != results[i].value())
return false;
}
return true;
}
} // namespace
TEST(Tokenizer, Empty) {
InputFile empty_string_input(SourceFile("/test"));
empty_string_input.SetContents("");
Err err;
std::vector<Token> results = Tokenizer::Tokenize(&empty_string_input, &err);
EXPECT_TRUE(results.empty());
InputFile whitespace_input(SourceFile("/test"));
whitespace_input.SetContents(" \r \n \r\n");
results = Tokenizer::Tokenize(&whitespace_input, &err);
EXPECT_TRUE(results.empty());
}
TEST(Tokenizer, Identifier) {
TokenExpectation one_ident[] = {{Token::IDENTIFIER, "foo"}};
EXPECT_TRUE(CheckTokenizer(" foo ", one_ident));
}
TEST(Tokenizer, Integer) {
TokenExpectation integers[] = {{Token::INTEGER, "123"},
{Token::INTEGER, "-123"}};
EXPECT_TRUE(CheckTokenizer(" 123 -123 ", integers));
}
TEST(Tokenizer, IntegerNoSpace) {
TokenExpectation integers[] = {{Token::INTEGER, "123"},
{Token::INTEGER, "-123"}};
EXPECT_TRUE(CheckTokenizer(" 123-123 ", integers));
}
TEST(Tokenizer, String) {
TokenExpectation strings[] = {{Token::STRING, "\"foo\""},
{Token::STRING, "\"bar\\\"baz\""},
{Token::STRING, "\"asdf\\\\\""}};
EXPECT_TRUE(
CheckTokenizer(" \"foo\" \"bar\\\"baz\" \"asdf\\\\\" ", strings));
}
TEST(Tokenizer, Operator) {
TokenExpectation operators[] = {
{Token::MINUS, "-"},
{Token::PLUS, "+"},
{Token::EQUAL, "="},
{Token::PLUS_EQUALS, "+="},
{Token::MINUS_EQUALS, "-="},
{Token::NOT_EQUAL, "!="},
{Token::EQUAL_EQUAL, "=="},
{Token::LESS_THAN, "<"},
{Token::GREATER_THAN, ">"},
{Token::LESS_EQUAL, "<="},
{Token::GREATER_EQUAL, ">="},
{Token::BANG, "!"},
{Token::BOOLEAN_OR, "||"},
{Token::BOOLEAN_AND, "&&"},
{Token::DOT, "."},
{Token::COMMA, ","},
};
EXPECT_TRUE(
CheckTokenizer("- + = += -= != == < > <= >= ! || && . ,", operators));
}
TEST(Tokenizer, Scoper) {
TokenExpectation scopers[] = {
{Token::LEFT_BRACE, "{"}, {Token::LEFT_BRACKET, "["},
{Token::RIGHT_BRACKET, "]"}, {Token::RIGHT_BRACE, "}"},
{Token::LEFT_PAREN, "("}, {Token::RIGHT_PAREN, ")"},
};
EXPECT_TRUE(CheckTokenizer("{[ ]} ()", scopers));
}
TEST(Tokenizer, FunctionCall) {
TokenExpectation fn[] = {
{Token::IDENTIFIER, "fun"}, {Token::LEFT_PAREN, "("},
{Token::STRING, "\"foo\""}, {Token::RIGHT_PAREN, ")"},
{Token::LEFT_BRACE, "{"}, {Token::IDENTIFIER, "foo"},
{Token::EQUAL, "="}, {Token::INTEGER, "12"},
{Token::RIGHT_BRACE, "}"},
};
EXPECT_TRUE(CheckTokenizer("fun(\"foo\") {\nfoo = 12}", fn));
}
TEST(Tokenizer, Locations) {
InputFile input(SourceFile("/test"));
input.SetContents("1 2 \"three\"\n 4");
Err err;
std::vector<Token> results = Tokenizer::Tokenize(&input, &err);
ASSERT_EQ(4u, results.size());
ASSERT_TRUE(results[0].location() == Location(&input, 1, 1, 1));
ASSERT_TRUE(results[1].location() == Location(&input, 1, 3, 3));
ASSERT_TRUE(results[2].location() == Location(&input, 1, 5, 5));
ASSERT_TRUE(results[3].location() == Location(&input, 2, 3, 8));
}
TEST(Tokenizer, ByteOffsetOfNthLine) {
EXPECT_EQ(0u, Tokenizer::ByteOffsetOfNthLine("foo", 1));
// Windows and Posix have different line endings, so check the byte at the
// location rather than the offset.
char input1[] = "aaa\nxaa\n\nya";
EXPECT_EQ('x', input1[Tokenizer::ByteOffsetOfNthLine(input1, 2)]);
EXPECT_EQ('y', input1[Tokenizer::ByteOffsetOfNthLine(input1, 4)]);
char input2[3];
input2[0] = 'a';
input2[1] = '\n'; // Manually set to avoid Windows double-byte endings.
input2[2] = 0;
EXPECT_EQ(0u, Tokenizer::ByteOffsetOfNthLine(input2, 1));
EXPECT_EQ(2u, Tokenizer::ByteOffsetOfNthLine(input2, 2));
}
TEST(Tokenizer, Comments) {
TokenExpectation fn[] = {
{Token::LINE_COMMENT, "# Stuff"},
{Token::IDENTIFIER, "fun"},
{Token::LEFT_PAREN, "("},
{Token::STRING, "\"foo\""},
{Token::RIGHT_PAREN, ")"},
{Token::LEFT_BRACE, "{"},
{Token::SUFFIX_COMMENT, "# Things"},
{Token::LINE_COMMENT, "#Wee"},
{Token::IDENTIFIER, "foo"},
{Token::EQUAL, "="},
{Token::INTEGER, "12"},
{Token::SUFFIX_COMMENT, "#Zip"},
{Token::RIGHT_BRACE, "}"},
};
EXPECT_TRUE(
CheckTokenizer("# Stuff\n"
"fun(\"foo\") { # Things\n"
"#Wee\n"
"foo = 12 #Zip\n"
"}",
fn));
}
TEST(Tokenizer, CommentsContinued) {
// In the first test, the comments aren't horizontally aligned, so they're
// considered separate. In the second test, they are, so "B" is a
// continuation of "A" (another SUFFIX comment).
TokenExpectation fn1[] = {
{Token::IDENTIFIER, "fun"}, {Token::LEFT_PAREN, "("},
{Token::STRING, "\"foo\""}, {Token::RIGHT_PAREN, ")"},
{Token::LEFT_BRACE, "{"}, {Token::SUFFIX_COMMENT, "# A"},
{Token::LINE_COMMENT, "# B"}, {Token::RIGHT_BRACE, "}"},
};
EXPECT_TRUE(
CheckTokenizer("fun(\"foo\") { # A\n"
" # B\n"
"}",
fn1));
TokenExpectation fn2[] = {
{Token::IDENTIFIER, "fun"}, {Token::LEFT_PAREN, "("},
{Token::STRING, "\"foo\""}, {Token::RIGHT_PAREN, ")"},
{Token::LEFT_BRACE, "{"}, {Token::SUFFIX_COMMENT, "# A"},
{Token::SUFFIX_COMMENT, "# B"}, {Token::RIGHT_BRACE, "}"},
};
EXPECT_TRUE(CheckTokenizer(
"fun(\"foo\") { # A\n"
" # B\n" // Note that these are aligned, the \"s move A out.
"}",
fn2));
}