//
// 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"
using testing::_;
class DefineTest : public PreprocessorTest
{
};
TEST_F(DefineTest, NonIdentifier)
{
const char* input = "#define 2 foo\n"
"2\n";
const char* expected = "\n"
"2\n";
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_UNEXPECTED_TOKEN,
pp::SourceLocation(0, 1),
"2"));
preprocess(input, expected);
};
TEST_F(DefineTest, RedefinePredefined)
{
const char* input = "#define __LINE__ 10\n"
"__LINE__\n"
"#define __FILE__ 20\n"
"__FILE__\n"
"#define __VERSION__ 200\n"
"__VERSION__\n"
"#define GL_ES 0\n"
"GL_ES\n";
const char* expected = "\n"
"2\n"
"\n"
"0\n"
"\n"
"100\n"
"\n"
"1\n";
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_PREDEFINED_REDEFINED,
pp::SourceLocation(0, 1),
"__LINE__"));
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_PREDEFINED_REDEFINED,
pp::SourceLocation(0, 3),
"__FILE__"));
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_PREDEFINED_REDEFINED,
pp::SourceLocation(0, 5),
"__VERSION__"));
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_PREDEFINED_REDEFINED,
pp::SourceLocation(0, 7),
"GL_ES"));
preprocess(input, expected);
}
TEST_F(DefineTest, ReservedUnderScore1)
{
const char* input = "#define __foo bar\n"
"__foo\n";
const char* expected = "\n"
"bar\n";
EXPECT_CALL(mDiagnostics, print(pp::Diagnostics::PP_WARNING_MACRO_NAME_RESERVED,
pp::SourceLocation(0, 1), "__foo"));
preprocess(input, expected);
}
TEST_F(DefineTest, ReservedUnderScore2)
{
const char* input = "#define foo__bar baz\n"
"foo__bar\n";
const char* expected = "\n"
"baz\n";
EXPECT_CALL(mDiagnostics, print(pp::Diagnostics::PP_WARNING_MACRO_NAME_RESERVED,
pp::SourceLocation(0, 1), "foo__bar"));
preprocess(input, expected);
}
TEST_F(DefineTest, ReservedGL)
{
const char* input = "#define GL_foo bar\n"
"GL_foo\n";
const char* expected = "\n"
"GL_foo\n";
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_NAME_RESERVED,
pp::SourceLocation(0, 1),
"GL_foo"));
preprocess(input, expected);
}
TEST_F(DefineTest, ObjRedefineValid)
{
const char* input = "#define foo (1-1)\n"
"#define foo /* whitespace */ (1-1) /* other */ \n"
"foo\n";
const char* expected = "\n"
"\n"
"(1-1)\n";
// No error or warning.
using testing::_;
EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);
preprocess(input, expected);
}
TEST_F(DefineTest, ObjRedefineInvalid)
{
const char* input = "#define foo (0)\n"
"#define foo (1-1)\n"
"foo\n";
const char* expected = "\n"
"\n"
"(0)\n";
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_REDEFINED,
pp::SourceLocation(0, 2),
"foo"));
preprocess(input, expected);
}
TEST_F(DefineTest, FuncRedefineValid)
{
const char* input = "#define foo(a) ( a )\n"
"#define foo( a )( /* whitespace */ a /* other */ )\n"
"foo(b)\n";
const char* expected = "\n"
"\n"
"( b )\n";
// No error or warning.
using testing::_;
EXPECT_CALL(mDiagnostics, print(_, _, _)).Times(0);
preprocess(input, expected);
}
TEST_F(DefineTest, FuncRedefineInvalid)
{
const char* input = "#define foo(b) ( a )\n"
"#define foo(b) ( b )\n"
"foo(1)\n";
const char* expected = "\n"
"\n"
"( a )\n";
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_REDEFINED,
pp::SourceLocation(0, 2),
"foo"));
preprocess(input, expected);
}
TEST_F(DefineTest, ObjBasic)
{
const char* input = "#define foo 1\n"
"foo\n";
const char* expected = "\n"
"1\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ObjEmpty)
{
const char* input = "#define foo\n"
"foo\n";
const char* expected = "\n"
"\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ObjChain)
{
const char* input = "#define foo 1\n"
"#define bar foo\n"
"bar\n";
const char* expected = "\n"
"\n"
"1\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ObjChainReverse)
{
const char* input = "#define bar foo\n"
"#define foo 1\n"
"bar\n";
const char* expected = "\n"
"\n"
"1\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ObjRecursive)
{
const char* input = "#define foo bar\n"
"#define bar baz\n"
"#define baz foo\n"
"foo\n"
"bar\n"
"baz\n";
const char* expected = "\n"
"\n"
"\n"
"foo\n"
"bar\n"
"baz\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ObjCompositeChain)
{
const char* input = "#define foo 1\n"
"#define bar a foo\n"
"bar\n";
const char* expected = "\n"
"\n"
"a 1\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ObjCompositeChainReverse)
{
const char* input = "#define bar a foo\n"
"#define foo 1\n"
"bar\n";
const char* expected = "\n"
"\n"
"a 1\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ObjCompositeRecursive)
{
const char* input = "#define foo a bar\n"
"#define bar b baz\n"
"#define baz c foo\n"
"foo\n"
"bar\n"
"baz\n";
const char* expected = "\n"
"\n"
"\n"
"a b c foo\n"
"b c a bar\n"
"c a b baz\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ObjChainSelfRecursive)
{
const char* input = "#define foo foo\n"
"#define bar foo\n"
"bar\n";
const char* expected = "\n"
"\n"
"foo\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ObjectLikeWithParens)
{
const char* input = "#define foo ()1\n"
"foo()\n"
"#define bar ()2\n"
"bar()\n";
const char* expected = "\n"
"()1()\n"
"\n"
"()2()\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncEmpty)
{
const char* input = "#define foo()\n"
"foo()\n";
const char* expected = "\n"
"\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncNoArgs)
{
const char* input = "#define foo() bar\n"
"foo()\n";
const char* expected = "\n"
"bar\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncOneArgUnused)
{
const char* input = "#define foo(x) 1\n"
"foo(bar)\n";
const char* expected = "\n"
"1\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncTwoArgsUnused)
{
const char* input = "#define foo(x,y) 1\n"
"foo(bar,baz)\n";
const char* expected = "\n"
"1\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncOneArg)
{
const char* input = "#define foo(x) ((x)+1)\n"
"foo(bar)\n";
const char* expected = "\n"
"((bar)+1)\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncTwoArgs)
{
const char* input = "#define foo(x,y) ((x)*(y))\n"
"foo(bar,baz)\n";
const char* expected = "\n"
"((bar)*(baz))\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncEmptyArgs)
{
const char* input = "#define zero() pass\n"
"#define one(x) pass\n"
"#define two(x,y) pass\n"
"zero()\n"
"one()\n"
"two(,)\n";
const char* expected = "\n"
"\n"
"\n"
"pass\n"
"pass\n"
"pass\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncMacroAsParam)
{
const char* input = "#define x 0\n"
"#define foo(x) x\n"
"foo(1)\n";
const char* expected = "\n"
"\n"
"1\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncOneArgMulti)
{
const char* input = "#define foo(x) (x)\n"
"foo(this is a multi-word argument)\n";
const char* expected = "\n"
"(this is a multi-word argument)\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncTwoArgsMulti)
{
const char* input = "#define foo(x,y) x,two fish,red fish,y\n"
"foo(one fish, blue fish)\n";
const char* expected = "\n"
"one fish,two fish,red fish,blue fish\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncCompose)
{
const char* input = "#define bar(x) (1+(x))\n"
"#define foo(y) (2*(y))\n"
"foo(bar(3))\n";
const char* expected = "\n"
"\n"
"(2*((1+(3))))\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncArgWithParens)
{
const char* input = "#define foo(x) (x)\n"
"foo(argument(with parens) FTW)\n";
const char* expected = "\n"
"(argument(with parens) FTW)\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncMacroAsNonMacro)
{
const char* input = "#define foo(bar) bar\n"
"foo bar\n";
const char* expected = "\n"
"foo bar\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncExtraNewlines)
{
const char* input = "#define foo(a) (a)\n"
"foo\n"
"(\n"
"1\n"
")\n";
const char* expected = "\n"
"\n"
"\n"
"\n"
"(1)\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ChainObjToFunc)
{
const char* input = "#define foo() pass\n"
"#define bar foo()\n"
"bar\n";
const char* expected = "\n"
"\n"
"pass\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ChainObjToNonFunc)
{
const char* input = "#define pass() fail\n"
"#define bar pass\n"
"bar\n";
const char* expected = "\n"
"\n"
"pass\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ChainObjToFuncWithArgs)
{
const char* input = "#define foo(fail) fail\n"
"#define bar foo(pass)\n"
"bar\n";
const char* expected = "\n"
"\n"
"pass\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ChainObjToFuncCompose)
{
const char* input = "#define baz(fail) fail\n"
"#define bar(fail) fail\n"
"#define foo bar(baz(pass))\n"
"foo\n";
const char* expected = "\n"
"\n"
"\n"
"pass\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ChainObjToFuncParensInText1)
{
const char* input = "#define fail() pass\n"
"#define foo fail\n"
"foo()\n";
const char* expected = "\n"
"\n"
"pass\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ChainObjToFuncParensInText2)
{
const char* input = "#define bar with,embedded,commas\n"
"#define func(x) pass\n"
"#define foo func\n"
"foo(bar)\n";
const char* expected = "\n"
"\n"
"\n"
"pass\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ChainObjToFuncMultiLevel)
{
const char* input = "#define foo(x) pass\n"
"#define bar foo\n"
"#define baz bar\n"
"#define joe baz\n"
"joe (fail)\n";
const char* expected = "\n"
"\n"
"\n"
"\n"
"pass\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ObjToFuncRecursive)
{
const char* input = "#define A(a,b) B(a,b)\n"
"#define C A(0,C)\n"
"C\n";
const char* expected = "\n"
"\n"
"B(0,C)\n";
preprocess(input, expected);
}
TEST_F(DefineTest, ChainFuncToFuncCompose)
{
const char* input = "#define baz(fail) fail\n"
"#define bar(fail) fail\n"
"#define foo() bar(baz(pass))\n"
"foo()\n";
const char* expected = "\n"
"\n"
"\n"
"pass\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncSelfRecursive)
{
const char* input = "#define foo(a) foo(2*(a))\n"
"foo(3)\n";
const char* expected = "\n"
"foo(2*(3))\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncSelfCompose)
{
const char* input = "#define foo(a) foo(2*(a))\n"
"foo(foo(3))\n";
const char* expected = "\n"
"foo(2*(foo(2*(3))))\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncSelfComposeNonFunc)
{
const char* input = "#define foo(bar) bar\n"
"foo(foo)\n";
const char* expected = "\n"
"foo\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncSelfComposeNonFuncMultiTokenArg)
{
const char* input = "#define foo(bar) bar\n"
"foo(1+foo)\n";
const char* expected = "\n"
"1+foo\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FinalizeUnexpandedMacro)
{
const char* input = "#define expand(x) expand(x once)\n"
"#define foo(x) x\n"
"foo(expand(just))\n";
const char* expected = "\n"
"\n"
"expand(just once)\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncArgWithCommas)
{
const char* input = "#define foo(x) pass\n"
"foo(argument (with,embedded, commas) -- baz)\n";
const char* expected = "\n"
"pass\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncArgObjMaroWithComma)
{
const char* input = "#define foo(a) (a)\n"
"#define bar two,words\n"
"foo(bar)\n";
const char* expected = "\n"
"\n"
"(two,words)\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncLeftParenInMacroRightParenInText)
{
const char* input = "#define bar(a) a*2\n"
"#define foo bar(\n"
"foo b)\n";
const char* expected = "\n"
"\n"
"b*2\n";
preprocess(input, expected);
}
TEST_F(DefineTest, RepeatedArg)
{
const char* input = "#define double(x) x x\n"
"double(1)\n";
const char* expected = "\n"
"1 1\n";
preprocess(input, expected);
}
TEST_F(DefineTest, FuncMissingRightParen)
{
const char* input = "#define foo(x) (2*(x))\n"
"foo(3\n";
const char* expected = "\n"
"\n";
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_UNTERMINATED_INVOCATION,
pp::SourceLocation(0, 2),
"foo"));
preprocess(input, expected);
}
TEST_F(DefineTest, FuncIncorrectArgCount)
{
const char* input = "#define foo(x,y) ((x)+(y))\n"
"foo()\n"
"foo(1)\n"
"foo(1,2,3)\n";
const char* expected = "\n"
"\n"
"\n"
"\n";
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_TOO_FEW_ARGS,
pp::SourceLocation(0, 2),
"foo"));
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_TOO_FEW_ARGS,
pp::SourceLocation(0, 3),
"foo"));
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_TOO_MANY_ARGS,
pp::SourceLocation(0, 4),
"foo"));
preprocess(input, expected);
}
TEST_F(DefineTest, Undef)
{
const char* input = "#define foo 1\n"
"foo\n"
"#undef foo\n"
"foo\n";
const char* expected = "\n"
"1\n"
"\n"
"foo\n";
preprocess(input, expected);
}
TEST_F(DefineTest, UndefPredefined)
{
const char* input = "#undef __LINE__\n"
"__LINE__\n"
"#undef __FILE__\n"
"__FILE__\n"
"#undef __VERSION__\n"
"__VERSION__\n"
"#undef GL_ES\n"
"GL_ES\n";
const char* expected = "\n"
"2\n"
"\n"
"0\n"
"\n"
"100\n"
"\n"
"1\n";
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_PREDEFINED_UNDEFINED,
pp::SourceLocation(0, 1),
"__LINE__"));
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_PREDEFINED_UNDEFINED,
pp::SourceLocation(0, 3),
"__FILE__"));
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_PREDEFINED_UNDEFINED,
pp::SourceLocation(0, 5),
"__VERSION__"));
EXPECT_CALL(mDiagnostics,
print(pp::Diagnostics::PP_MACRO_PREDEFINED_UNDEFINED,
pp::SourceLocation(0, 7),
"GL_ES"));
preprocess(input, expected);
}
TEST_F(DefineTest, UndefRedefine)
{
const char* input = "#define foo 1\n"
"foo\n"
"#undef foo\n"
"foo\n"
"#define foo 2\n"
"foo\n";
const char* expected = "\n"
"1\n"
"\n"
"foo\n"
"\n"
"2\n";
preprocess(input, expected);
}
// Example from C99 standard section 6.10.3.5 Scope of macro definitions
TEST_F(DefineTest, C99Example)
{
const char* input =
"#define x 3 \n"
"#define f(a) f(x * (a)) \n"
"#undef x \n"
"#define x 2 \n"
"#define g f \n"
"#define z z[0] \n"
"#define h g(~ \n"
"#define m(a) a(w) \n"
"#define w 0,1 \n"
"#define t(a) a \n"
"#define p() int \n"
"#define q(x) x \n"
" \n"
"f(y+1) + f(f(z)) % t(t(g)(0) + t)(1);\n"
"g(x+(3,4)-w) | h 5) & m\n"
" (f)^m(m);\n"
"p() i[q()] = { q(1), 23, 4, 5, };\n";
const char* expected =
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"\n"
"f(2 * (y+1)) + f(2 * (f(2 * (z[0])))) % f(2 * (0)) + t(1);\n"
"f(2 * (2+(3,4)-0,1)) | f(2 * (~ 5)) &\n"
" f(2 * (0,1))^m(0,1);\n"
"int i[] = { 1, 23, 4, 5, };\n";
preprocess(input, expected);
}
TEST_F(DefineTest, Predefined_GL_ES)
{
const char* input = "GL_ES\n";
const char* expected = "1\n";
preprocess(input, expected);
}
TEST_F(DefineTest, Predefined_VERSION)
{
const char* input = "__VERSION__\n";
const char* expected = "100\n";
preprocess(input, expected);
}
TEST_F(DefineTest, Predefined_LINE1)
{
const char* str = "\n\n__LINE__";
ASSERT_TRUE(mPreprocessor.init(1, &str, NULL));
pp::Token token;
mPreprocessor.lex(&token);
EXPECT_EQ(pp::Token::CONST_INT, token.type);
EXPECT_EQ("3", token.text);
}
TEST_F(DefineTest, Predefined_LINE2)
{
const char* str = "#line 10\n"
"__LINE__\n";
ASSERT_TRUE(mPreprocessor.init(1, &str, NULL));
pp::Token token;
mPreprocessor.lex(&token);
EXPECT_EQ(pp::Token::CONST_INT, token.type);
EXPECT_EQ("10", token.text);
}
TEST_F(DefineTest, Predefined_FILE1)
{
const char* const str[] = {"", "", "__FILE__"};
ASSERT_TRUE(mPreprocessor.init(3, str, NULL));
pp::Token token;
mPreprocessor.lex(&token);
EXPECT_EQ(pp::Token::CONST_INT, token.type);
EXPECT_EQ("2", token.text);
}
TEST_F(DefineTest, Predefined_FILE2)
{
const char* const str[] = {"#line 10 20\n", "__FILE__"};
ASSERT_TRUE(mPreprocessor.init(2, str, NULL));
pp::Token token;
mPreprocessor.lex(&token);
EXPECT_EQ(pp::Token::CONST_INT, token.type);
EXPECT_EQ("21", token.text);
}
// Defined operator produced by macro expansion should be parsed inside #if directives
TEST_F(DefineTest, ExpandedDefinedParsedInsideIf)
{
const char *input =
"#define bar 1\n"
"#define foo defined(bar)\n"
"#if foo\n"
"bar\n"
"#endif\n";
const char *expected =
"\n"
"\n"
"\n"
"1\n"
"\n";
preprocess(input, expected);
}
// Defined operator produced by macro expansion should not be parsed outside #if directives
TEST_F(DefineTest, ExpandedDefinedNotParsedOutsideIf)
{
const char *input =
"#define foo defined(bar)\n"
"foo\n";
const char *expected =
"\n"
"defined(bar)\n";
preprocess(input, expected);
}
// Test that line directive expressions give errors on negative or undefined shifts.
TEST_F(DefineTest, NegativeShiftInLineDirective)
{
const char *input =
"#line 1 << -1\n"
"#line 1 >> -1\n"
"#line 1 << x\n"
"#line 1 >> x\n";
const char *expected =
"\n"
"\n"
"\n"
"\n";
EXPECT_CALL(mDiagnostics, print(pp::Diagnostics::PP_UNDEFINED_SHIFT, _, _)).Times(4);
EXPECT_CALL(mDiagnostics, print(pp::Diagnostics::PP_INVALID_LINE_NUMBER, _, _)).Times(2);
preprocess(input, expected);
}
// Undefining a macro in its invocation parameters produces and error
TEST_F(DefineTest, UndefineInInvocation)
{
const char *input =
"#define G(a, b) a b\n"
"G(\n"
"#undef G\n"
"1, 2)\n";
const char *expected = "\n\n\n1 2\n";
EXPECT_CALL(mDiagnostics, print(pp::Diagnostics::PP_MACRO_UNDEFINED_WHILE_INVOKED,
pp::SourceLocation(0, 3), _));
preprocess(input, expected);
}
// Undefining a macro before its invocation parameters produces and error
TEST_F(DefineTest, UndefineInInvocationPreLParen)
{
const char *input =
"#define G(a, b) a b\n"
"G\n"
"#undef G\n"
"(1, 2)\n";
const char *expected = "\n\n\n1 2\n";
EXPECT_CALL(mDiagnostics, print(pp::Diagnostics::PP_MACRO_UNDEFINED_WHILE_INVOKED,
pp::SourceLocation(0, 3), _));
preprocess(input, expected);
}
// The name of the macro "a" is inside an incomplete macro invocation of macro "m()" in its own
// expansion. This should not result in infinite recursion.
TEST_F(DefineTest, RecursiveMacroNameInsideIncompleteMacroInvocationInMacroExpansion)
{
const char *input =
"#define m(a)\n"
"#define a m((a)\n"
"a)\n";
const char *expected =
"\n"
"\n"
"\n";
preprocess(input, expected);
}