Source/WebGPU/WGSLUnitTests/WGSLLexerTests.mm - WebKit - Git at Google

 /*
  * Copyright (c) 2022 Apple Inc. All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL APPLE INC. OR
  * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
  * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
  * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
  * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 #import "config.h"
 #import "Lexer.h"

 #import <XCTest/XCTest.h>

 @interface WGSLLexerTests : XCTestCase

 @end

 @implementation WGSLLexerTests

 - (void)testLexerOnSingleTokens {
     auto checkSingleToken = [] (const char* string, WGSL::TokenType type) {
         WGSL::Lexer<LChar> lexer(string);
         WGSL::Token result = lexer.lex();
         XCTAssertEqual(result.m_type, type);
         return result;
     };
     auto checkSingleLiteral = [&] (const char* string, WGSL::TokenType type, double literalValue) {
         WGSL::Token result = checkSingleToken(string, type);
         XCTAssertEqual(result.m_literalValue, literalValue);
     };

     checkSingleToken("", WGSL::TokenType::EndOfFile);
     checkSingleLiteral("1", WGSL::TokenType::IntegerLiteral, 1);
     checkSingleLiteral("0", WGSL::TokenType::IntegerLiteral, 0);
     checkSingleLiteral("142", WGSL::TokenType::IntegerLiteral, 142);
     checkSingleLiteral("1.1", WGSL::TokenType::DecimalFloatLiteral, 1.1);
     checkSingleLiteral("0.4", WGSL::TokenType::DecimalFloatLiteral, 0.4);
     checkSingleLiteral("0123.456", WGSL::TokenType::DecimalFloatLiteral, 0123.456);
     checkSingleToken("0123", WGSL::TokenType::Invalid);
     checkSingleLiteral("0123.", WGSL::TokenType::DecimalFloatLiteral, 123);
     checkSingleLiteral(".456", WGSL::TokenType::DecimalFloatLiteral, 0.456);
     checkSingleToken(".", WGSL::TokenType::Period);
     checkSingleLiteral("42f", WGSL::TokenType::DecimalFloatLiteral, 42);
     checkSingleLiteral("42e0f", WGSL::TokenType::DecimalFloatLiteral, 42);
     checkSingleLiteral("042e0f", WGSL::TokenType::DecimalFloatLiteral, 42);
     checkSingleToken("042f", WGSL::TokenType::Invalid);
     checkSingleLiteral("42e-3", WGSL::TokenType::DecimalFloatLiteral, 42e-3);
     checkSingleLiteral("42e-a", WGSL::TokenType::IntegerLiteral, 42);
 }

 - (void) testLexerOnComputeShader {
     WGSL::Lexer<LChar> lexer("@block struct B {\n"
                              "    a: i32;\n"
                              "}\n"
                              "\n"
                              "@group(0) @binding(0)\n"
                              "var<storage, read_write> x: B;\n"
                              "\n"
                              "@stage(compute)\n"
                              "fn main() {\n"
                              "    x.a = 42;\n"
                              "}");

     unsigned lineNumber = 0;
     auto checkNextToken = [&] (WGSL::TokenType type) {
         WGSL::Token result = lexer.lex();
         XCTAssertEqual(result.m_type, type);
         XCTAssertEqual(result.m_span.m_line, lineNumber);
         return result;
     };
     auto checkNextTokenIsIdentifier = [&] (const char* ident) {
         WGSL::Token result = checkNextToken(WGSL::TokenType::Identifier);
         XCTAssertEqual(result.m_ident, ident);
     };
     auto checkNextTokenIsLiteral = [&] (WGSL::TokenType type, double literalValue) {
         WGSL::Token result = checkNextToken(type);
         XCTAssertEqual(result.m_literalValue, literalValue);
     };

     // @block struct B {
     checkNextToken(WGSL::TokenType::Attribute);
     checkNextTokenIsIdentifier("block");
     checkNextToken(WGSL::TokenType::KeywordStruct);
     checkNextTokenIsIdentifier("B");
     checkNextToken(WGSL::TokenType::BraceLeft);

     // a: i32;
     ++lineNumber;
     checkNextTokenIsIdentifier("a");
     checkNextToken(WGSL::TokenType::Colon);
     checkNextToken(WGSL::TokenType::KeywordI32);
     checkNextToken(WGSL::TokenType::Semicolon);

     // }
     ++lineNumber;
     checkNextToken(WGSL::TokenType::BraceRight);

     // @group(0) @binding(0)
     lineNumber += 2;
     checkNextToken(WGSL::TokenType::Attribute);
     checkNextTokenIsIdentifier("group");
     checkNextToken(WGSL::TokenType::ParenLeft);
     checkNextTokenIsLiteral(WGSL::TokenType::IntegerLiteral, 0);
     checkNextToken(WGSL::TokenType::ParenRight);
     checkNextToken(WGSL::TokenType::Attribute);
     checkNextTokenIsIdentifier("binding");
     checkNextToken(WGSL::TokenType::ParenLeft);
     checkNextTokenIsLiteral(WGSL::TokenType::IntegerLiteral, 0);
     checkNextToken(WGSL::TokenType::ParenRight);

     // var<storage, read_write> x: B;
     ++lineNumber;
     checkNextToken(WGSL::TokenType::KeywordVar);
     checkNextToken(WGSL::TokenType::LT);
     checkNextToken(WGSL::TokenType::KeywordStorage);
     checkNextToken(WGSL::TokenType::Comma);
     checkNextToken(WGSL::TokenType::KeywordReadWrite);
     checkNextToken(WGSL::TokenType::GT);
     checkNextTokenIsIdentifier("x");
     checkNextToken(WGSL::TokenType::Colon);
     checkNextTokenIsIdentifier("B");
     checkNextToken(WGSL::TokenType::Semicolon);

     // @stage(compute)
     lineNumber += 2;
     checkNextToken(WGSL::TokenType::Attribute);
     checkNextTokenIsIdentifier("stage");
     checkNextToken(WGSL::TokenType::ParenLeft);
     checkNextTokenIsIdentifier("compute");
     checkNextToken(WGSL::TokenType::ParenRight);

     // fn main() {
     ++lineNumber;
     checkNextToken(WGSL::TokenType::KeywordFn);
     checkNextTokenIsIdentifier("main");
     checkNextToken(WGSL::TokenType::ParenLeft);
     checkNextToken(WGSL::TokenType::ParenRight);
     checkNextToken(WGSL::TokenType::BraceLeft);

     // x.a = 42;
     ++lineNumber;
     checkNextTokenIsIdentifier("x");
     checkNextToken(WGSL::TokenType::Period);
     checkNextTokenIsIdentifier("a");
     checkNextToken(WGSL::TokenType::Equal);
     checkNextTokenIsLiteral(WGSL::TokenType::IntegerLiteral, 42);
     checkNextToken(WGSL::TokenType::Semicolon);

     // }
     ++lineNumber;
     checkNextToken(WGSL::TokenType::BraceRight);
     checkNextToken(WGSL::TokenType::EndOfFile);
 }

 - (void) testLexerOnGraphicsShader {
     WGSL::Lexer<LChar> lexer("@stage(vertex)\n"
                              "fn vertexShader(@location(0) x: vec4<f32>) -> @builtin(position) vec4<f32> {\n"
                              "    return x;\n"
                              "}\n"
                              "\n"
                              "@stage(fragment)\n"
                              "fn fragmentShader() -> @location(0) vec4<f32> {\n"
                              "    return vec4<f32>(0.4, 0.4, 0.8, 1.0);\n"
                              "}");

     unsigned lineNumber = 0;
     auto checkNextToken = [&] (WGSL::TokenType type) {
         WGSL::Token result = lexer.lex();
         XCTAssertEqual(result.m_type, type);
         XCTAssertEqual(result.m_span.m_line, lineNumber);
         return result;
     };
     auto checkNextTokenIsIdentifier = [&] (const char* ident) {
         WGSL::Token result = checkNextToken(WGSL::TokenType::Identifier);
         XCTAssertEqual(result.m_ident, ident);
     };
     auto checkNextTokenIsLiteral = [&] (WGSL::TokenType type, double literalValue) {
         WGSL::Token result = checkNextToken(type);
         XCTAssertEqual(result.m_literalValue, literalValue);
     };

     // @stage(vertex)
     checkNextToken(WGSL::TokenType::Attribute);
     checkNextTokenIsIdentifier("stage");
     checkNextToken(WGSL::TokenType::ParenLeft);
     checkNextTokenIsIdentifier("vertex");
     checkNextToken(WGSL::TokenType::ParenRight);

     ++lineNumber;
     // fn vertexShader(@location(0) x: vec4<f32>) -> @builtin(position) vec4<f32> {
     checkNextToken(WGSL::TokenType::KeywordFn);
     checkNextTokenIsIdentifier("vertexShader");
     checkNextToken(WGSL::TokenType::ParenLeft);
     checkNextToken(WGSL::TokenType::Attribute);
     checkNextTokenIsIdentifier("location");
     checkNextToken(WGSL::TokenType::ParenLeft);
     checkNextTokenIsLiteral(WGSL::TokenType::IntegerLiteral, 0);
     checkNextToken(WGSL::TokenType::ParenRight);
     checkNextTokenIsIdentifier("x");
     checkNextToken(WGSL::TokenType::Colon);
     checkNextTokenIsIdentifier("vec4");
     checkNextToken(WGSL::TokenType::LT);
     checkNextToken(WGSL::TokenType::KeywordF32);
     checkNextToken(WGSL::TokenType::GT);
     checkNextToken(WGSL::TokenType::ParenRight);
     checkNextToken(WGSL::TokenType::Arrow);
     checkNextToken(WGSL::TokenType::Attribute);
     checkNextTokenIsIdentifier("builtin");
     checkNextToken(WGSL::TokenType::ParenLeft);
     checkNextTokenIsIdentifier("position");
     checkNextToken(WGSL::TokenType::ParenRight);
     checkNextTokenIsIdentifier("vec4");
     checkNextToken(WGSL::TokenType::LT);
     checkNextToken(WGSL::TokenType::KeywordF32);
     checkNextToken(WGSL::TokenType::GT);
     checkNextToken(WGSL::TokenType::BraceLeft);

     // return x;
     ++lineNumber;
     checkNextToken(WGSL::TokenType::KeywordReturn);
     checkNextTokenIsIdentifier("x");
     checkNextToken(WGSL::TokenType::Semicolon);

     // }
     ++lineNumber;
     checkNextToken(WGSL::TokenType::BraceRight);

     // @stage(fragment)
     lineNumber += 2;
     checkNextToken(WGSL::TokenType::Attribute);
     checkNextTokenIsIdentifier("stage");
     checkNextToken(WGSL::TokenType::ParenLeft);
     checkNextTokenIsIdentifier("fragment");
     checkNextToken(WGSL::TokenType::ParenRight);

     // fn fragmentShader() -> @location(0) vec4<f32> {
     ++lineNumber;
     checkNextToken(WGSL::TokenType::KeywordFn);
     checkNextTokenIsIdentifier("fragmentShader");
     checkNextToken(WGSL::TokenType::ParenLeft);
     checkNextToken(WGSL::TokenType::ParenRight);
     checkNextToken(WGSL::TokenType::Arrow);
     checkNextToken(WGSL::TokenType::Attribute);
     checkNextTokenIsIdentifier("location");
     checkNextToken(WGSL::TokenType::ParenLeft);
     checkNextTokenIsLiteral(WGSL::TokenType::IntegerLiteral, 0);
     checkNextToken(WGSL::TokenType::ParenRight);
     checkNextTokenIsIdentifier("vec4");
     checkNextToken(WGSL::TokenType::LT);
     checkNextToken(WGSL::TokenType::KeywordF32);
     checkNextToken(WGSL::TokenType::GT);
     checkNextToken(WGSL::TokenType::BraceLeft);

     // return vec4<f32>(0.4, 0.4, 0.8, 1.0);
     ++lineNumber;
     checkNextToken(WGSL::TokenType::KeywordReturn);
     checkNextTokenIsIdentifier("vec4");
     checkNextToken(WGSL::TokenType::LT);
     checkNextToken(WGSL::TokenType::KeywordF32);
     checkNextToken(WGSL::TokenType::GT);
     checkNextToken(WGSL::TokenType::ParenLeft);
     checkNextTokenIsLiteral(WGSL::TokenType::DecimalFloatLiteral, 0.4);
     checkNextToken(WGSL::TokenType::Comma);
     checkNextTokenIsLiteral(WGSL::TokenType::DecimalFloatLiteral, 0.4);
     checkNextToken(WGSL::TokenType::Comma);
     checkNextTokenIsLiteral(WGSL::TokenType::DecimalFloatLiteral, 0.8);
     checkNextToken(WGSL::TokenType::Comma);
     checkNextTokenIsLiteral(WGSL::TokenType::DecimalFloatLiteral, 1.0);
     checkNextToken(WGSL::TokenType::ParenRight);
     checkNextToken(WGSL::TokenType::Semicolon);

     // }
     ++lineNumber;
     checkNextToken(WGSL::TokenType::BraceRight);
     checkNextToken(WGSL::TokenType::EndOfFile);
 }

 @end
	/*
	* Copyright (c) 2022 Apple Inc. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
	* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
	* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
	* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
	* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
	* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
	* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#import "config.h"
	#import "Lexer.h"

	#import <XCTest/XCTest.h>

	@interface WGSLLexerTests : XCTestCase

	@end

	@implementation WGSLLexerTests

	- (void)testLexerOnSingleTokens {
	auto checkSingleToken = [] (const char* string, WGSL::TokenType type) {
	WGSL::Lexer<LChar> lexer(string);
	WGSL::Token result = lexer.lex();
	XCTAssertEqual(result.m_type, type);
	return result;
	};
	auto checkSingleLiteral = [&] (const char* string, WGSL::TokenType type, double literalValue) {
	WGSL::Token result = checkSingleToken(string, type);
	XCTAssertEqual(result.m_literalValue, literalValue);
	};

	checkSingleToken("", WGSL::TokenType::EndOfFile);
	checkSingleLiteral("1", WGSL::TokenType::IntegerLiteral, 1);
	checkSingleLiteral("0", WGSL::TokenType::IntegerLiteral, 0);
	checkSingleLiteral("142", WGSL::TokenType::IntegerLiteral, 142);
	checkSingleLiteral("1.1", WGSL::TokenType::DecimalFloatLiteral, 1.1);
	checkSingleLiteral("0.4", WGSL::TokenType::DecimalFloatLiteral, 0.4);
	checkSingleLiteral("0123.456", WGSL::TokenType::DecimalFloatLiteral, 0123.456);
	checkSingleToken("0123", WGSL::TokenType::Invalid);
	checkSingleLiteral("0123.", WGSL::TokenType::DecimalFloatLiteral, 123);
	checkSingleLiteral(".456", WGSL::TokenType::DecimalFloatLiteral, 0.456);
	checkSingleToken(".", WGSL::TokenType::Period);
	checkSingleLiteral("42f", WGSL::TokenType::DecimalFloatLiteral, 42);
	checkSingleLiteral("42e0f", WGSL::TokenType::DecimalFloatLiteral, 42);
	checkSingleLiteral("042e0f", WGSL::TokenType::DecimalFloatLiteral, 42);
	checkSingleToken("042f", WGSL::TokenType::Invalid);
	checkSingleLiteral("42e-3", WGSL::TokenType::DecimalFloatLiteral, 42e-3);
	checkSingleLiteral("42e-a", WGSL::TokenType::IntegerLiteral, 42);
	}

	- (void) testLexerOnComputeShader {
	WGSL::Lexer<LChar> lexer("@block struct B {\n"
	" a: i32;\n"
	"}\n"
	"\n"
	"@group(0) @binding(0)\n"
	"var<storage, read_write> x: B;\n"
	"\n"
	"@stage(compute)\n"
	"fn main() {\n"
	" x.a = 42;\n"
	"}");

	unsigned lineNumber = 0;
	auto checkNextToken = [&] (WGSL::TokenType type) {
	WGSL::Token result = lexer.lex();
	XCTAssertEqual(result.m_type, type);
	XCTAssertEqual(result.m_span.m_line, lineNumber);
	return result;
	};
	auto checkNextTokenIsIdentifier = [&] (const char* ident) {
	WGSL::Token result = checkNextToken(WGSL::TokenType::Identifier);
	XCTAssertEqual(result.m_ident, ident);
	};
	auto checkNextTokenIsLiteral = [&] (WGSL::TokenType type, double literalValue) {
	WGSL::Token result = checkNextToken(type);
	XCTAssertEqual(result.m_literalValue, literalValue);
	};

	// @block struct B {
	checkNextToken(WGSL::TokenType::Attribute);
	checkNextTokenIsIdentifier("block");
	checkNextToken(WGSL::TokenType::KeywordStruct);
	checkNextTokenIsIdentifier("B");
	checkNextToken(WGSL::TokenType::BraceLeft);

	// a: i32;
	++lineNumber;
	checkNextTokenIsIdentifier("a");
	checkNextToken(WGSL::TokenType::Colon);
	checkNextToken(WGSL::TokenType::KeywordI32);
	checkNextToken(WGSL::TokenType::Semicolon);

	// }
	++lineNumber;
	checkNextToken(WGSL::TokenType::BraceRight);

	// @group(0) @binding(0)
	lineNumber += 2;
	checkNextToken(WGSL::TokenType::Attribute);
	checkNextTokenIsIdentifier("group");
	checkNextToken(WGSL::TokenType::ParenLeft);
	checkNextTokenIsLiteral(WGSL::TokenType::IntegerLiteral, 0);
	checkNextToken(WGSL::TokenType::ParenRight);
	checkNextToken(WGSL::TokenType::Attribute);
	checkNextTokenIsIdentifier("binding");
	checkNextToken(WGSL::TokenType::ParenLeft);
	checkNextTokenIsLiteral(WGSL::TokenType::IntegerLiteral, 0);
	checkNextToken(WGSL::TokenType::ParenRight);

	// var<storage, read_write> x: B;
	++lineNumber;
	checkNextToken(WGSL::TokenType::KeywordVar);
	checkNextToken(WGSL::TokenType::LT);
	checkNextToken(WGSL::TokenType::KeywordStorage);
	checkNextToken(WGSL::TokenType::Comma);
	checkNextToken(WGSL::TokenType::KeywordReadWrite);
	checkNextToken(WGSL::TokenType::GT);
	checkNextTokenIsIdentifier("x");
	checkNextToken(WGSL::TokenType::Colon);
	checkNextTokenIsIdentifier("B");
	checkNextToken(WGSL::TokenType::Semicolon);

	// @stage(compute)
	lineNumber += 2;
	checkNextToken(WGSL::TokenType::Attribute);
	checkNextTokenIsIdentifier("stage");
	checkNextToken(WGSL::TokenType::ParenLeft);
	checkNextTokenIsIdentifier("compute");
	checkNextToken(WGSL::TokenType::ParenRight);

	// fn main() {
	++lineNumber;
	checkNextToken(WGSL::TokenType::KeywordFn);
	checkNextTokenIsIdentifier("main");
	checkNextToken(WGSL::TokenType::ParenLeft);
	checkNextToken(WGSL::TokenType::ParenRight);
	checkNextToken(WGSL::TokenType::BraceLeft);

	// x.a = 42;
	++lineNumber;
	checkNextTokenIsIdentifier("x");
	checkNextToken(WGSL::TokenType::Period);
	checkNextTokenIsIdentifier("a");
	checkNextToken(WGSL::TokenType::Equal);
	checkNextTokenIsLiteral(WGSL::TokenType::IntegerLiteral, 42);
	checkNextToken(WGSL::TokenType::Semicolon);

	// }
	++lineNumber;
	checkNextToken(WGSL::TokenType::BraceRight);
	checkNextToken(WGSL::TokenType::EndOfFile);
	}

	- (void) testLexerOnGraphicsShader {
	WGSL::Lexer<LChar> lexer("@stage(vertex)\n"
	"fn vertexShader(@location(0) x: vec4<f32>) -> @builtin(position) vec4<f32> {\n"
	" return x;\n"
	"}\n"
	"\n"
	"@stage(fragment)\n"
	"fn fragmentShader() -> @location(0) vec4<f32> {\n"
	" return vec4<f32>(0.4, 0.4, 0.8, 1.0);\n"
	"}");

	unsigned lineNumber = 0;
	auto checkNextToken = [&] (WGSL::TokenType type) {
	WGSL::Token result = lexer.lex();
	XCTAssertEqual(result.m_type, type);
	XCTAssertEqual(result.m_span.m_line, lineNumber);
	return result;
	};
	auto checkNextTokenIsIdentifier = [&] (const char* ident) {
	WGSL::Token result = checkNextToken(WGSL::TokenType::Identifier);
	XCTAssertEqual(result.m_ident, ident);
	};
	auto checkNextTokenIsLiteral = [&] (WGSL::TokenType type, double literalValue) {
	WGSL::Token result = checkNextToken(type);
	XCTAssertEqual(result.m_literalValue, literalValue);
	};

	// @stage(vertex)
	checkNextToken(WGSL::TokenType::Attribute);
	checkNextTokenIsIdentifier("stage");
	checkNextToken(WGSL::TokenType::ParenLeft);
	checkNextTokenIsIdentifier("vertex");
	checkNextToken(WGSL::TokenType::ParenRight);

	++lineNumber;
	// fn vertexShader(@location(0) x: vec4<f32>) -> @builtin(position) vec4<f32> {
	checkNextToken(WGSL::TokenType::KeywordFn);
	checkNextTokenIsIdentifier("vertexShader");
	checkNextToken(WGSL::TokenType::ParenLeft);
	checkNextToken(WGSL::TokenType::Attribute);
	checkNextTokenIsIdentifier("location");
	checkNextToken(WGSL::TokenType::ParenLeft);
	checkNextTokenIsLiteral(WGSL::TokenType::IntegerLiteral, 0);
	checkNextToken(WGSL::TokenType::ParenRight);
	checkNextTokenIsIdentifier("x");
	checkNextToken(WGSL::TokenType::Colon);
	checkNextTokenIsIdentifier("vec4");
	checkNextToken(WGSL::TokenType::LT);
	checkNextToken(WGSL::TokenType::KeywordF32);
	checkNextToken(WGSL::TokenType::GT);
	checkNextToken(WGSL::TokenType::ParenRight);
	checkNextToken(WGSL::TokenType::Arrow);
	checkNextToken(WGSL::TokenType::Attribute);
	checkNextTokenIsIdentifier("builtin");
	checkNextToken(WGSL::TokenType::ParenLeft);
	checkNextTokenIsIdentifier("position");
	checkNextToken(WGSL::TokenType::ParenRight);
	checkNextTokenIsIdentifier("vec4");
	checkNextToken(WGSL::TokenType::LT);
	checkNextToken(WGSL::TokenType::KeywordF32);
	checkNextToken(WGSL::TokenType::GT);
	checkNextToken(WGSL::TokenType::BraceLeft);

	// return x;
	++lineNumber;
	checkNextToken(WGSL::TokenType::KeywordReturn);
	checkNextTokenIsIdentifier("x");
	checkNextToken(WGSL::TokenType::Semicolon);

	// }
	++lineNumber;
	checkNextToken(WGSL::TokenType::BraceRight);

	// @stage(fragment)
	lineNumber += 2;
	checkNextToken(WGSL::TokenType::Attribute);
	checkNextTokenIsIdentifier("stage");
	checkNextToken(WGSL::TokenType::ParenLeft);
	checkNextTokenIsIdentifier("fragment");
	checkNextToken(WGSL::TokenType::ParenRight);

	// fn fragmentShader() -> @location(0) vec4<f32> {
	++lineNumber;
	checkNextToken(WGSL::TokenType::KeywordFn);
	checkNextTokenIsIdentifier("fragmentShader");
	checkNextToken(WGSL::TokenType::ParenLeft);
	checkNextToken(WGSL::TokenType::ParenRight);
	checkNextToken(WGSL::TokenType::Arrow);
	checkNextToken(WGSL::TokenType::Attribute);
	checkNextTokenIsIdentifier("location");
	checkNextToken(WGSL::TokenType::ParenLeft);
	checkNextTokenIsLiteral(WGSL::TokenType::IntegerLiteral, 0);
	checkNextToken(WGSL::TokenType::ParenRight);
	checkNextTokenIsIdentifier("vec4");
	checkNextToken(WGSL::TokenType::LT);
	checkNextToken(WGSL::TokenType::KeywordF32);
	checkNextToken(WGSL::TokenType::GT);
	checkNextToken(WGSL::TokenType::BraceLeft);

	// return vec4<f32>(0.4, 0.4, 0.8, 1.0);
	++lineNumber;
	checkNextToken(WGSL::TokenType::KeywordReturn);
	checkNextTokenIsIdentifier("vec4");
	checkNextToken(WGSL::TokenType::LT);
	checkNextToken(WGSL::TokenType::KeywordF32);
	checkNextToken(WGSL::TokenType::GT);
	checkNextToken(WGSL::TokenType::ParenLeft);
	checkNextTokenIsLiteral(WGSL::TokenType::DecimalFloatLiteral, 0.4);
	checkNextToken(WGSL::TokenType::Comma);
	checkNextTokenIsLiteral(WGSL::TokenType::DecimalFloatLiteral, 0.4);
	checkNextToken(WGSL::TokenType::Comma);
	checkNextTokenIsLiteral(WGSL::TokenType::DecimalFloatLiteral, 0.8);
	checkNextToken(WGSL::TokenType::Comma);
	checkNextTokenIsLiteral(WGSL::TokenType::DecimalFloatLiteral, 1.0);
	checkNextToken(WGSL::TokenType::ParenRight);
	checkNextToken(WGSL::TokenType::Semicolon);

	// }
	++lineNumber;
	checkNextToken(WGSL::TokenType::BraceRight);
	checkNextToken(WGSL::TokenType::EndOfFile);
	}

	@end