src/third_party/angle/src/tests/preprocessor_tests/pragma_test.cpp - cobalt - Git at Google

 //
 // Copyright (c) 2012 The ANGLE 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.
 //

 #include "PreprocessorTest.h"
 #include "compiler/preprocessor/Token.h"

 class PragmaTest : public SimplePreprocessorTest
 {
 };

 TEST_F(PragmaTest, EmptyName)
 {
     const char* str = "#pragma\n";
     const char* expected = "\n";

     using testing::_;
     // No handlePragma calls.
     EXPECT_CALL(mDirectiveHandler, handlePragma(_, _, _, false)).Times(0);
     // No error or warning.
     EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);

     preprocess(str, expected);
 }

 TEST_F(PragmaTest, EmptyValue)
 {
     const char* str = "#pragma foo\n";
     const char* expected = "\n";

     using testing::_;
     EXPECT_CALL(mDirectiveHandler,
                 handlePragma(pp::SourceLocation(0, 1), "foo", "", false));
     // No error or warning.
     EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);

     preprocess(str, expected);
 }

 TEST_F(PragmaTest, NameValue)
 {
     const char* str = "#pragma foo(bar)\n";
     const char* expected = "\n";

     using testing::_;
     EXPECT_CALL(mDirectiveHandler,
                 handlePragma(pp::SourceLocation(0, 1), "foo", "bar", false));
     // No error or warning.
     EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);

     preprocess(str, expected);
 }

 TEST_F(PragmaTest, STDGL)
 {
     const char* str = "#pragma STDGL\n";
     const char* expected = "\n";

     using testing::_;
     EXPECT_CALL(mDirectiveHandler,
                 handlePragma(_, _, _, _)).Times(0);
     // No error or warning.
     EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);

     preprocess(str, expected);
 }

 TEST_F(PragmaTest, STDGLInvariantAll)
 {
     const char* str = "#pragma STDGL invariant(all)\n";
     const char* expected = "\n";

     using testing::_;
     EXPECT_CALL(mDirectiveHandler,
                 handlePragma(pp::SourceLocation(0, 1), "invariant", "all", true));
     // No error or warning.
     EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);

     preprocess(str, expected);
 }

 TEST_F(PragmaTest, Comments)
 {
     const char* str = "/*foo*/"
                       "#"
                       "/*foo*/"
                       "pragma"
                       "/*foo*/"
                       "foo"
                       "/*foo*/"
                       "("
                       "/*foo*/"
                       "bar"
                       "/*foo*/"
                       ")"
                       "/*foo*/"
                       "//foo"
                       "\n";
     const char* expected = "\n";

     using testing::_;
     EXPECT_CALL(mDirectiveHandler,
                 handlePragma(pp::SourceLocation(0, 1), "foo", "bar", false));
     // No error or warning.
     EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);

     preprocess(str, expected);
 }

 TEST_F(PragmaTest, MissingNewline)
 {
     const char* str = "#pragma foo(bar)";
     const char* expected = "";

     using testing::_;
     // Pragma successfully parsed.
     EXPECT_CALL(mDirectiveHandler,
                 handlePragma(pp::SourceLocation(0, 1), "foo", "bar", false));
     // Error reported about EOF.
     EXPECT_CALL(mDiagnostics, print(pp::Diagnostics::PP_EOF_IN_DIRECTIVE, _, _));

     preprocess(str, expected);
 }

 class InvalidPragmaTest : public PragmaTest,
                           public testing::WithParamInterface<const char*>
 {
 };

 TEST_P(InvalidPragmaTest, Identified)
 {
     const char* str = GetParam();
     const char* expected = "\n";

     using testing::_;
     // No handlePragma calls.
     EXPECT_CALL(mDirectiveHandler, handlePragma(_, _, _, false)).Times(0);
     // Unrecognized pragma warning.
     EXPECT_CALL(mDiagnostics,
                 print(pp::Diagnostics::PP_UNRECOGNIZED_PRAGMA,
                       pp::SourceLocation(0, 1), _));

     preprocess(str, expected);
 }

 INSTANTIATE_TEST_CASE_P(All, InvalidPragmaTest, testing::Values(
     "#pragma 1\n",               // Invalid name.
     "#pragma foo()\n",           // Missing value.
     "#pragma foo bar)\n",        // Missing left paren,
     "#pragma foo(bar\n",         // Missing right paren.
     "#pragma foo bar\n",         // Missing parens.
     "#pragma foo(bar) baz\n"));  // Extra tokens.
	//
	// Copyright (c) 2012 The ANGLE 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.
	//

	#include "PreprocessorTest.h"
	#include "compiler/preprocessor/Token.h"

	class PragmaTest : public SimplePreprocessorTest
	{
	};

	TEST_F(PragmaTest, EmptyName)
	{
	const char* str = "#pragma\n";
	const char* expected = "\n";

	using testing::_;
	// No handlePragma calls.
	EXPECT_CALL(mDirectiveHandler, handlePragma(_, _, _, false)).Times(0);
	// No error or warning.
	EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);

	preprocess(str, expected);
	}

	TEST_F(PragmaTest, EmptyValue)
	{
	const char* str = "#pragma foo\n";
	const char* expected = "\n";

	using testing::_;
	EXPECT_CALL(mDirectiveHandler,
	handlePragma(pp::SourceLocation(0, 1), "foo", "", false));
	// No error or warning.
	EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);

	preprocess(str, expected);
	}

	TEST_F(PragmaTest, NameValue)
	{
	const char* str = "#pragma foo(bar)\n";
	const char* expected = "\n";

	using testing::_;
	EXPECT_CALL(mDirectiveHandler,
	handlePragma(pp::SourceLocation(0, 1), "foo", "bar", false));
	// No error or warning.
	EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);

	preprocess(str, expected);
	}

	TEST_F(PragmaTest, STDGL)
	{
	const char* str = "#pragma STDGL\n";
	const char* expected = "\n";

	using testing::_;
	EXPECT_CALL(mDirectiveHandler,
	handlePragma(_, _, _, _)).Times(0);
	// No error or warning.
	EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);

	preprocess(str, expected);
	}

	TEST_F(PragmaTest, STDGLInvariantAll)
	{
	const char* str = "#pragma STDGL invariant(all)\n";
	const char* expected = "\n";

	using testing::_;
	EXPECT_CALL(mDirectiveHandler,
	handlePragma(pp::SourceLocation(0, 1), "invariant", "all", true));
	// No error or warning.
	EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);

	preprocess(str, expected);
	}

	TEST_F(PragmaTest, Comments)
	{
	const char* str = "/foo/"
	"#"
	"/foo/"
	"pragma"
	"/foo/"
	"foo"
	"/foo/"
	"("
	"/foo/"
	"bar"
	"/foo/"
	")"
	"/foo/"
	"//foo"
	"\n";
	const char* expected = "\n";

	using testing::_;
	EXPECT_CALL(mDirectiveHandler,
	handlePragma(pp::SourceLocation(0, 1), "foo", "bar", false));
	// No error or warning.
	EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);

	preprocess(str, expected);
	}

	TEST_F(PragmaTest, MissingNewline)
	{
	const char* str = "#pragma foo(bar)";
	const char* expected = "";

	using testing::_;
	// Pragma successfully parsed.
	EXPECT_CALL(mDirectiveHandler,
	handlePragma(pp::SourceLocation(0, 1), "foo", "bar", false));
	// Error reported about EOF.
	EXPECT_CALL(mDiagnostics, print(pp::Diagnostics::PP_EOF_IN_DIRECTIVE, _, _));

	preprocess(str, expected);
	}

	class InvalidPragmaTest : public PragmaTest,
	public testing::WithParamInterface<const char*>
	{
	};

	TEST_P(InvalidPragmaTest, Identified)
	{
	const char* str = GetParam();
	const char* expected = "\n";

	using testing::_;
	// No handlePragma calls.
	EXPECT_CALL(mDirectiveHandler, handlePragma(_, _, _, false)).Times(0);
	// Unrecognized pragma warning.
	EXPECT_CALL(mDiagnostics,
	print(pp::Diagnostics::PP_UNRECOGNIZED_PRAGMA,
	pp::SourceLocation(0, 1), _));

	preprocess(str, expected);
	}

	INSTANTIATE_TEST_CASE_P(All, InvalidPragmaTest, testing::Values(
	"#pragma 1\n", // Invalid name.
	"#pragma foo()\n", // Missing value.
	"#pragma foo bar)\n", // Missing left paren,
	"#pragma foo(bar\n", // Missing right paren.
	"#pragma foo bar\n", // Missing parens.
	"#pragma foo(bar) baz\n")); // Extra tokens.