/* * Cppcheck - A tool for static C/C++ code analysis * Copyright (C) 2007-2018 Cppcheck team. * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "config.h" #include "platform.h" #include "preprocessor.h" // usually tests here should not use preprocessor... #include "settings.h" #include "standards.h" #include "testsuite.h" #include "token.h" #include "tokenize.h" #include "tokenlist.h" #include #include #include #include struct InternalError; class TestTokenizer : public TestFixture { public: TestTokenizer() : TestFixture("TestTokenizer") { } private: Settings settings0; Settings settings1; Settings settings2; Settings settings_windows; void run() override { LOAD_LIB_2(settings_windows.library, "windows.cfg"); TEST_CASE(tokenize1); TEST_CASE(tokenize2); TEST_CASE(tokenize3); TEST_CASE(tokenize4); TEST_CASE(tokenize5); TEST_CASE(tokenize6); // array access. replace "*(p+1)" => "p[1]" TEST_CASE(tokenize7); TEST_CASE(tokenize8); TEST_CASE(tokenize9); TEST_CASE(tokenize11); TEST_CASE(tokenize13); // bailout if the code contains "@" - that is not handled well. TEST_CASE(tokenize14); // tokenize "0X10" => 16 TEST_CASE(tokenizeHexWithSuffix); // tokenize 0xFFFFFFul TEST_CASE(tokenize15); // tokenize ".123" TEST_CASE(tokenize17); // #2759 TEST_CASE(tokenize18); // tokenize "(X&&Y)" into "( X && Y )" instead of "( X & & Y )" TEST_CASE(tokenize19); // #3006 (segmentation fault) TEST_CASE(tokenize21); // tokenize 0x0E-7 TEST_CASE(tokenize22); // special marker $ from preprocessor TEST_CASE(tokenize25); // #4239 (segmentation fault) TEST_CASE(tokenize26); // #4245 (segmentation fault) TEST_CASE(tokenize27); // #4525 (segmentation fault) TEST_CASE(tokenize31); // #3503 (Wrong handling of member function taking function pointer as argument) TEST_CASE(tokenize32); // #5884 (fsanitize=undefined: left shift of negative value -10000 in lib/templatesimplifier.cpp:852:46) TEST_CASE(tokenize33); // #5780 Various crashes on valid template code TEST_CASE(tokenize34); // #8031 TEST_CASE(tokenize35); // #8361 TEST_CASE(tokenize36); // #8436 TEST_CASE(tokenize37); // #8550 TEST_CASE(validate); TEST_CASE(objectiveC); // Syntax error should be written for objective C/C++ code. TEST_CASE(syntax_case_default); TEST_CASE(foreach); // #3690 TEST_CASE(ifconstexpr); TEST_CASE(combineOperators); TEST_CASE(concatenateNegativeNumber); TEST_CASE(longtok); TEST_CASE(simplifyCasts1); TEST_CASE(simplifyCasts2); TEST_CASE(simplifyCasts3); TEST_CASE(simplifyCasts4); TEST_CASE(simplifyCasts5); TEST_CASE(simplifyCasts7); TEST_CASE(simplifyCasts8); TEST_CASE(simplifyCasts9); TEST_CASE(simplifyCasts10); TEST_CASE(simplifyCasts11); TEST_CASE(simplifyCasts12); TEST_CASE(simplifyCasts13); TEST_CASE(simplifyCasts14); TEST_CASE(simplifyCasts15); // #5996 - don't remove cast in 'a+static_cast(b?60:0)' TEST_CASE(simplifyCasts16); // #6278 TEST_CASE(simplifyCasts17); // #6110 - don't remove any parentheses in 'a(b)(c)' TEST_CASE(inlineasm); TEST_CASE(simplifyAsm2); // #4725 (writing asm() around "^{}") TEST_CASE(ifAddBraces1); TEST_CASE(ifAddBraces2); TEST_CASE(ifAddBraces3); TEST_CASE(ifAddBraces4); TEST_CASE(ifAddBraces5); TEST_CASE(ifAddBraces7); TEST_CASE(ifAddBraces9); TEST_CASE(ifAddBraces10); TEST_CASE(ifAddBraces11); TEST_CASE(ifAddBraces12); TEST_CASE(ifAddBraces13); TEST_CASE(ifAddBraces15); // #2616 - unknown macro before if TEST_CASE(ifAddBraces16); TEST_CASE(ifAddBraces17); // '} else' should be in the same line TEST_CASE(ifAddBraces18); // #3424 - if if { } else else TEST_CASE(ifAddBraces19); // #3928 - if for if else TEST_CASE(ifAddBraces20); // #5012 - syntax error 'else }' TEST_CASE(ifAddBraces21); // #5332 - if (x) label: {} .. TEST_CASE(whileAddBraces); TEST_CASE(doWhileAddBraces); TEST_CASE(forAddBraces1); TEST_CASE(forAddBraces2); // #5088 TEST_CASE(simplifyKnownVariables1); TEST_CASE(simplifyKnownVariables2); TEST_CASE(simplifyKnownVariables3); TEST_CASE(simplifyKnownVariables4); TEST_CASE(simplifyKnownVariables5); TEST_CASE(simplifyKnownVariables6); TEST_CASE(simplifyKnownVariables7); TEST_CASE(simplifyKnownVariables8); TEST_CASE(simplifyKnownVariables9); TEST_CASE(simplifyKnownVariables10); TEST_CASE(simplifyKnownVariables11); TEST_CASE(simplifyKnownVariables12); TEST_CASE(simplifyKnownVariables13); TEST_CASE(simplifyKnownVariables14); TEST_CASE(simplifyKnownVariables15); TEST_CASE(simplifyKnownVariables16); TEST_CASE(simplifyKnownVariables17); TEST_CASE(simplifyKnownVariables18); TEST_CASE(simplifyKnownVariables19); TEST_CASE(simplifyKnownVariables20); TEST_CASE(simplifyKnownVariables21); TEST_CASE(simplifyKnownVariables22); TEST_CASE(simplifyKnownVariables23); TEST_CASE(simplifyKnownVariables25); TEST_CASE(simplifyKnownVariables27); TEST_CASE(simplifyKnownVariables28); TEST_CASE(simplifyKnownVariables29); // ticket #1811 TEST_CASE(simplifyKnownVariables30); TEST_CASE(simplifyKnownVariables31); TEST_CASE(simplifyKnownVariables32); // const TEST_CASE(simplifyKnownVariables33); // struct variable TEST_CASE(simplifyKnownVariables34); TEST_CASE(simplifyKnownVariables35); // ticket #2353 - False positive: Division by zero 'if (x == 0) return 0; return 10 / x;' TEST_CASE(simplifyKnownVariables36); // ticket #2304 - known value for strcpy parameter TEST_CASE(simplifyKnownVariables37); // ticket #2398 - false positive caused by no simplification in for loop TEST_CASE(simplifyKnownVariables38); // ticket #2399 - simplify conditions TEST_CASE(simplifyKnownVariables39); TEST_CASE(simplifyKnownVariables40); TEST_CASE(simplifyKnownVariables41); // p=&x; if (p) .. TEST_CASE(simplifyKnownVariables42); // ticket #2031 - known string value after strcpy TEST_CASE(simplifyKnownVariables43); TEST_CASE(simplifyKnownVariables44); // ticket #3117 - don't simplify static variables TEST_CASE(simplifyKnownVariables45); // ticket #3281 - static constant variable not simplified TEST_CASE(simplifyKnownVariables46); // ticket #3587 - >> TEST_CASE(simplifyKnownVariables47); // ticket #3627 - >> TEST_CASE(simplifyKnownVariables48); // ticket #3754 - wrong simplification in for loop header TEST_CASE(simplifyKnownVariables49); // #3691 - continue in switch TEST_CASE(simplifyKnownVariables50); // #4066 sprintf changes TEST_CASE(simplifyKnownVariables51); // #4409 hang TEST_CASE(simplifyKnownVariables52); // #4728 "= x %cop%" TEST_CASE(simplifyKnownVariables53); // references TEST_CASE(simplifyKnownVariables54); // #4913 'x' is not 0 after *--x=0; TEST_CASE(simplifyKnownVariables55); // pointer alias TEST_CASE(simplifyKnownVariables56); // ticket #5301 - >> TEST_CASE(simplifyKnownVariables57); // ticket #4724 TEST_CASE(simplifyKnownVariables58); // ticket #5268 TEST_CASE(simplifyKnownVariables59); // skip for header TEST_CASE(simplifyKnownVariables60); // #6829 TEST_CASE(simplifyKnownVariables61); // #7805 TEST_CASE(simplifyKnownVariables62); // #5666 - p=&str[0] TEST_CASE(simplifyKnownVariablesBailOutAssign1); TEST_CASE(simplifyKnownVariablesBailOutAssign2); TEST_CASE(simplifyKnownVariablesBailOutAssign3); // #4395 - nested assignments TEST_CASE(simplifyKnownVariablesBailOutFor1); TEST_CASE(simplifyKnownVariablesBailOutFor2); TEST_CASE(simplifyKnownVariablesBailOutFor3); TEST_CASE(simplifyKnownVariablesBailOutMemberFunction); TEST_CASE(simplifyKnownVariablesBailOutConditionalIncrement); TEST_CASE(simplifyKnownVariablesBailOutSwitchBreak); // ticket #2324 TEST_CASE(simplifyKnownVariablesFloat); // #2454 - float variable TEST_CASE(simplifyKnownVariablesClassMember); // #2815 - value of class member may be changed by function call TEST_CASE(simplifyKnownVariablesFunctionCalls); // Function calls (don't assume pass by reference) TEST_CASE(simplifyKnownVariablesGlobalVars); TEST_CASE(simplifyKnownVariablesReturn); // 3500 - return TEST_CASE(simplifyKnownVariablesPointerAliasFunctionCall); // #7440 TEST_CASE(simplifyExternC); TEST_CASE(simplifyKeyword); // #5842 - remove C99 static keyword between [] TEST_CASE(isZeroNumber); TEST_CASE(isOneNumber); TEST_CASE(isTwoNumber); TEST_CASE(simplifyFunctionParameters); TEST_CASE(simplifyFunctionParameters1); // #3721 TEST_CASE(simplifyFunctionParameters2); // #4430 TEST_CASE(simplifyFunctionParameters3); // #4436 TEST_CASE(simplifyFunctionParametersMultiTemplate); TEST_CASE(simplifyFunctionParametersErrors); TEST_CASE(removeParentheses1); // Ticket #61 TEST_CASE(removeParentheses3); TEST_CASE(removeParentheses4); // Ticket #390 TEST_CASE(removeParentheses5); // Ticket #392 TEST_CASE(removeParentheses6); TEST_CASE(removeParentheses7); TEST_CASE(removeParentheses8); // Ticket #1865 TEST_CASE(removeParentheses9); // Ticket #1962 TEST_CASE(removeParentheses10); // Ticket #2320 TEST_CASE(removeParentheses11); // Ticket #2505 TEST_CASE(removeParentheses12); // Ticket #2760 ',(b)=' TEST_CASE(removeParentheses13); TEST_CASE(removeParentheses14); // Ticket #3309 TEST_CASE(removeParentheses15); // Ticket #4142 TEST_CASE(removeParentheses16); // Ticket #4423 '*(x.y)=' TEST_CASE(removeParentheses17); // Don't remove parentheses in 'a ? b : (c>0 ? d : e);' TEST_CASE(removeParentheses18); // 'float(*a)[2]' => 'float *a[2]' TEST_CASE(removeParentheses19); // ((typeof(x) *)0) TEST_CASE(removeParentheses20); // Ticket #5479: a>(2); TEST_CASE(removeParentheses21); // Don't "simplify" casts TEST_CASE(removeParentheses22); TEST_CASE(removeParentheses23); // Ticket #6103 - Infinite loop upon valid input TEST_CASE(removeParentheses24); // Ticket #7040 TEST_CASE(tokenize_double); TEST_CASE(tokenize_strings); TEST_CASE(simplify_constants); TEST_CASE(simplify_constants2); TEST_CASE(simplify_constants3); TEST_CASE(simplify_constants4); TEST_CASE(simplify_constants5); TEST_CASE(simplify_constants6); // Ticket #5625: Ternary operator as template parameter TEST_CASE(simplifyMulAndParens); // Ticket #2784 + #3184 TEST_CASE(simplifyStructDecl); TEST_CASE(vardecl1); TEST_CASE(vardecl2); TEST_CASE(vardecl3); TEST_CASE(vardecl4); TEST_CASE(vardecl5); // #7048 TEST_CASE(vardec_static); TEST_CASE(vardecl6); TEST_CASE(vardecl7); TEST_CASE(vardecl8); TEST_CASE(vardecl9); TEST_CASE(vardecl10); TEST_CASE(vardecl11); TEST_CASE(vardecl12); TEST_CASE(vardecl13); TEST_CASE(vardecl14); TEST_CASE(vardecl15); TEST_CASE(vardecl16); TEST_CASE(vardecl17); TEST_CASE(vardecl18); TEST_CASE(vardecl19); TEST_CASE(vardecl20); // #3700 - register const int H = 0; TEST_CASE(vardecl21); // #4042 - a::b const *p = 0; TEST_CASE(vardecl22); // #4211 - segmentation fault TEST_CASE(vardecl23); // #4276 - segmentation fault TEST_CASE(vardecl24); // #4187 - variable declaration within lambda function TEST_CASE(vardecl25); // #4799 - segmentation fault TEST_CASE(vardecl26); // #5907 - incorrect handling of extern declarations TEST_CASE(vardecl27); // #7850 - crash on valid C code TEST_CASE(vardecl_stl_1); TEST_CASE(vardecl_stl_2); TEST_CASE(vardecl_template_1); TEST_CASE(vardecl_template_2); TEST_CASE(vardecl_union); TEST_CASE(vardecl_par); // #2743 - set links if variable type contains parentheses TEST_CASE(vardecl_par2); // #3912 - set correct links TEST_CASE(vardecl_par3); // #6556 - Fred x1(a), x2(b); TEST_CASE(vardecl_class_ref); TEST_CASE(volatile_variables); // unsigned i; => unsigned int i; TEST_CASE(unsigned1); TEST_CASE(unsigned2); TEST_CASE(unsigned3); // template arguments TEST_CASE(simplifyStdType); // #4947, #4950, #4951 TEST_CASE(createLinks); TEST_CASE(createLinks2); TEST_CASE(signed1); TEST_CASE(simplifyString); TEST_CASE(simplifyConst); TEST_CASE(switchCase); TEST_CASE(simplifyPointerToStandardType); TEST_CASE(functionpointer1); TEST_CASE(functionpointer2); TEST_CASE(functionpointer3); TEST_CASE(functionpointer4); TEST_CASE(functionpointer5); TEST_CASE(functionpointer6); TEST_CASE(functionpointer7); TEST_CASE(functionpointer8); // #7410 - throw TEST_CASE(functionpointer9); // #6113 - function call with function pointer TEST_CASE(removeRedundantAssignment); TEST_CASE(removedeclspec); TEST_CASE(removeattribute); TEST_CASE(functionAttributeBefore); TEST_CASE(functionAttributeAfter); TEST_CASE(cpp03template1); TEST_CASE(cpp0xtemplate1); TEST_CASE(cpp0xtemplate2); TEST_CASE(cpp0xtemplate3); TEST_CASE(cpp0xtemplate4); // Ticket #6181: Mishandled C++11 syntax TEST_CASE(cpp14template); // Ticket #6708 TEST_CASE(arraySize); TEST_CASE(labels); TEST_CASE(simplifyInitVar); TEST_CASE(simplifyInitVar2); TEST_CASE(simplifyInitVar3); TEST_CASE(bitfields1); TEST_CASE(bitfields2); TEST_CASE(bitfields3); TEST_CASE(bitfields4); // ticket #1956 TEST_CASE(bitfields5); // ticket #1956 TEST_CASE(bitfields6); // ticket #2595 TEST_CASE(bitfields7); // ticket #1987 TEST_CASE(bitfields8); TEST_CASE(bitfields9); // ticket #2706 TEST_CASE(bitfields10); TEST_CASE(bitfields12); // ticket #3485 (segmentation fault) TEST_CASE(bitfields13); // ticket #3502 (segmentation fault) TEST_CASE(bitfields14); // ticket #4561 (segfault for 'class a { signals: };') TEST_CASE(bitfields15); // ticket #7747 (enum Foo {A,B}:4;) TEST_CASE(bitfields16); // Save bitfield bit count TEST_CASE(simplifyNamespaceStd); TEST_CASE(microsoftMemory); TEST_CASE(microsoftString); TEST_CASE(borland); TEST_CASE(Qt); TEST_CASE(simplifySQL); TEST_CASE(simplifyCAlternativeTokens); TEST_CASE(simplifyCalculations); // x = ({ 123; }); => { x = 123; } TEST_CASE(simplifyRoundCurlyParentheses); TEST_CASE(simplifyOperatorName1); TEST_CASE(simplifyOperatorName2); TEST_CASE(simplifyOperatorName3); TEST_CASE(simplifyOperatorName4); TEST_CASE(simplifyOperatorName5); TEST_CASE(simplifyOperatorName6); // ticket #3194 TEST_CASE(simplifyOperatorName7); // ticket #4619 TEST_CASE(simplifyOperatorName8); // ticket #5706 TEST_CASE(simplifyOperatorName9); // ticket #5709 - comma operator not properly tokenized TEST_CASE(simplifyOperatorName10); // #8746 - using a::operator= TEST_CASE(simplifyNullArray); // Some simple cleanups of unhandled macros in the global scope TEST_CASE(removeMacrosInGlobalScope); TEST_CASE(removeMacroInVarDecl); // a = b = 0; TEST_CASE(multipleAssignment); TEST_CASE(sizeOfCharLiteral); TEST_CASE(platformWin); TEST_CASE(platformWin32); TEST_CASE(platformWin32A); TEST_CASE(platformWin32W); TEST_CASE(platformWin64); TEST_CASE(platformUnix32); TEST_CASE(platformUnix64); TEST_CASE(platformWin32AStringCat); // ticket #5015 TEST_CASE(platformWin32WStringCat); // ticket #5015 TEST_CASE(platformWinWithNamespace); TEST_CASE(simplifyMathFunctions_sqrt); TEST_CASE(simplifyMathFunctions_cbrt); TEST_CASE(simplifyMathFunctions_exp); TEST_CASE(simplifyMathFunctions_exp2); TEST_CASE(simplifyMathFunctions_logb); TEST_CASE(simplifyMathFunctions_log1p); TEST_CASE(simplifyMathFunctions_ilogb); TEST_CASE(simplifyMathFunctions_log10); TEST_CASE(simplifyMathFunctions_log); TEST_CASE(simplifyMathFunctions_log2); TEST_CASE(simplifyMathFunctions_pow); TEST_CASE(simplifyMathFunctions_fmin); TEST_CASE(simplifyMathFunctions_fmax); TEST_CASE(simplifyMathFunctions_acosh); TEST_CASE(simplifyMathFunctions_acos); TEST_CASE(simplifyMathFunctions_cosh); TEST_CASE(simplifyMathFunctions_cos); TEST_CASE(simplifyMathFunctions_erfc); TEST_CASE(simplifyMathFunctions_erf); TEST_CASE(simplifyMathFunctions_sin); TEST_CASE(simplifyMathFunctions_sinh); TEST_CASE(simplifyMathFunctions_asin); TEST_CASE(simplifyMathFunctions_asinh); TEST_CASE(simplifyMathFunctions_tan); TEST_CASE(simplifyMathFunctions_tanh); TEST_CASE(simplifyMathFunctions_atan); TEST_CASE(simplifyMathFunctions_atanh); TEST_CASE(simplifyMathFunctions_expm1); TEST_CASE(simplifyMathExpressions); //ticket #1620 TEST_CASE(simplifyStaticConst); TEST_CASE(simplifyCPPAttribute); TEST_CASE(simplifyCaseRange); TEST_CASE(compileLimits); // #5592 crash: gcc: testsuit: gcc.c-torture/compile/limits-declparen.c TEST_CASE(prepareTernaryOpForAST); // AST data TEST_CASE(astexpr); TEST_CASE(astexpr2); // limit large expressions TEST_CASE(astpar); TEST_CASE(astnewdelete); TEST_CASE(astbrackets); TEST_CASE(astunaryop); TEST_CASE(astfunction); TEST_CASE(asttemplate); TEST_CASE(astcast); TEST_CASE(astlambda); TEST_CASE(astcase); TEST_CASE(startOfExecutableScope); TEST_CASE(removeMacroInClassDef); // #6058 TEST_CASE(sizeofAddParentheses); // Make sure the Tokenizer::findGarbageCode() does not have false positives // The TestGarbage ensures that there are true positives TEST_CASE(findGarbageCode); TEST_CASE(checkEnableIf); // --check-config TEST_CASE(checkConfiguration); } std::string tokenizeAndStringify(const char code[], bool simplify = false, bool expand = true, Settings::PlatformType platform = Settings::Native, const char* filename = "test.cpp", bool cpp11 = true) { errout.str(""); settings1.debugwarnings = true; settings1.platform(platform); settings1.standards.cpp = cpp11 ? Standards::CPP11 : Standards::CPP03; // tokenize.. Tokenizer tokenizer(&settings1, this); std::istringstream istr(code); tokenizer.tokenize(istr, filename); if (simplify) tokenizer.simplifyTokenList2(); // filter out ValueFlow messages.. const std::string debugwarnings = errout.str(); errout.str(""); std::istringstream istr2(debugwarnings.c_str()); std::string line; while (std::getline(istr2,line)) { if (line.find("valueflow.cpp") == std::string::npos) errout << line << "\n"; } if (tokenizer.tokens()) return tokenizer.tokens()->stringifyList(false, expand, false, true, false, 0, 0); else return ""; } std::string tokenizeAndStringifyWindows(const char code[], bool simplify = false, bool expand = true, Settings::PlatformType platform = Settings::Native, const char* filename = "test.cpp", bool cpp11 = true) { errout.str(""); settings_windows.debugwarnings = true; settings_windows.platform(platform); settings_windows.standards.cpp = cpp11 ? Standards::CPP11 : Standards::CPP03; // tokenize.. Tokenizer tokenizer(&settings_windows, this); std::istringstream istr(code); tokenizer.tokenize(istr, filename); if (simplify) tokenizer.simplifyTokenList2(); // filter out ValueFlow messages.. const std::string debugwarnings = errout.str(); errout.str(""); std::istringstream istr2(debugwarnings.c_str()); std::string line; while (std::getline(istr2,line)) { if (line.find("valueflow.cpp") == std::string::npos) errout << line << "\n"; } if (tokenizer.tokens()) return tokenizer.tokens()->stringifyList(false, expand, false, true, false, 0, 0); else return ""; } std::string tokenizeDebugListing(const char code[], bool simplify = false, const char filename[] = "test.cpp") { errout.str(""); settings2.standards.c = Standards::C89; settings2.standards.cpp = Standards::CPP03; Tokenizer tokenizer(&settings2, this); std::istringstream istr(code); tokenizer.tokenize(istr, filename); if (simplify) tokenizer.simplifyTokenList2(); // result.. return tokenizer.tokens()->stringifyList(true,true,true,true,false); } void tokenize1() { const char code[] = "void f ( )\n" "{ if ( p . y ( ) > yof ) { } }"; ASSERT_EQUALS(code, tokenizeAndStringify(code)); } void tokenize2() { const char code[] = "{ sizeof a, sizeof b }"; ASSERT_EQUALS("{ sizeof ( a ) , sizeof ( b ) }", tokenizeAndStringify(code)); } void tokenize3() { const char code[] = "void foo()\n" "{\n" " int i;\n" " ABC(for(i=0;i<10;i++) x());\n" "}"; ASSERT_EQUALS("void foo ( )\n" "{\n" "int i ;\n" "ABC ( for ( i = 0 ; i < 10 ; i ++ ) x ( ) ) ;\n" "}", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } void tokenize4() { const char code[] = "class foo\n" "{\n" "public:\n" " const int i;\n" "}"; ASSERT_EQUALS("class foo\n" "{\n" "public:\n" "const int i ;\n" "}", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } void tokenize5() { // Tokenize values ASSERT_EQUALS("; + 1E3 ;", tokenizeAndStringify("; +1E3 ;")); ASSERT_EQUALS("; 1E-2 ;", tokenizeAndStringify("; 1E-2 ;")); } void tokenize6() { // "&p[1]" => "p+1" /* ASSERT_EQUALS("; x = p + n ;", tokenizeAndStringify("; x = & p [ n ] ;", true)); ASSERT_EQUALS("; x = ( p + n ) [ m ] ;", tokenizeAndStringify("; x = & p [ n ] [ m ] ;", true)); ASSERT_EQUALS("; x = y & p [ n ] ;", tokenizeAndStringify("; x = y & p [ n ] ;", true)); ASSERT_EQUALS("; x = 10 & p [ n ] ;", tokenizeAndStringify("; x = 10 & p [ n ] ;", true)); ASSERT_EQUALS("; x = y [ 10 ] & p [ n ] ;", tokenizeAndStringify("; x = y [ 10 ] & p [ n ] ;", true)); ASSERT_EQUALS("; x = ( a + m ) & p [ n ] ;", tokenizeAndStringify("; x = ( a + m ) & p [ n ] ;", true));*/ // "*(p+1)" => "p[1]" ASSERT_EQUALS("; x = p [ 1 ] ;", tokenizeAndStringify("; x = * ( p + 1 ) ;", true)); ASSERT_EQUALS("; x = p [ 10 ] ;", tokenizeAndStringify("; x = * ( p + 0xA ) ;", true)); ASSERT_EQUALS("; x = p [ n ] ;", tokenizeAndStringify("; x = * ( p + n ) ;", true)); ASSERT_EQUALS("; x = y * ( p + n ) ;", tokenizeAndStringify("; x = y * ( p + n ) ;", true)); ASSERT_EQUALS("; x = 10 * ( p + n ) ;", tokenizeAndStringify("; x = 10 * ( p + n ) ;", true)); ASSERT_EQUALS("; x = y [ 10 ] * ( p + n ) ;", tokenizeAndStringify("; x = y [ 10 ] * ( p + n ) ;", true)); ASSERT_EQUALS("; x = ( a + m ) * ( p + n ) ;", tokenizeAndStringify("; x = ( a + m ) * ( p + n ) ;", true)); // "*(p-1)" => "p[-1]" and "*(p-n)" => "p[-n]" ASSERT_EQUALS("; x = p [ -1 ] ;", tokenizeAndStringify("; x = *(p - 1);", true)); ASSERT_EQUALS("; x = p [ -10 ] ;", tokenizeAndStringify("; x = *(p - 0xA);", true)); ASSERT_EQUALS("; x = p [ - n ] ;", tokenizeAndStringify("; x = *(p - n);", true)); ASSERT_EQUALS("; x = y * ( p - 1 ) ;", tokenizeAndStringify("; x = y * (p - 1);", true)); ASSERT_EQUALS("; x = 10 * ( p - 1 ) ;", tokenizeAndStringify("; x = 10 * (p - 1);", true)); ASSERT_EQUALS("; x = y [ 10 ] * ( p - 1 ) ;", tokenizeAndStringify("; x = y[10] * (p - 1);", true)); ASSERT_EQUALS("; x = ( a - m ) * ( p - n ) ;", tokenizeAndStringify("; x = (a - m) * (p - n);", true)); // Test that the array-index simplification is not applied when there's no dereference: // "(x-y)" => "(x-y)" and "(x+y)" => "(x+y)" ASSERT_EQUALS("; a = b * ( x - y ) ;", tokenizeAndStringify("; a = b * (x - y);", true)); ASSERT_EQUALS("; a = b * x [ - y ] ;", tokenizeAndStringify("; a = b * *(x - y);", true)); ASSERT_EQUALS("; a = a * ( x - y ) ;", tokenizeAndStringify("; a *= (x - y);", true)); ASSERT_EQUALS("; z = a ++ * ( x - y ) ;", tokenizeAndStringify("; z = a++ * (x - y);", true)); ASSERT_EQUALS("; z = a ++ * ( x + y ) ;", tokenizeAndStringify("; z = a++ * (x + y);", true)); ASSERT_EQUALS("; z = a -- * ( x - y ) ;", tokenizeAndStringify("; z = a-- * (x - y);", true)); ASSERT_EQUALS("; z = a -- * ( x + y ) ;", tokenizeAndStringify("; z = a-- * (x + y);", true)); ASSERT_EQUALS("; z = 'a' * ( x - y ) ;", tokenizeAndStringify("; z = 'a' * (x - y);", true)); ASSERT_EQUALS("; z = \"a\" * ( x - y ) ;", tokenizeAndStringify("; z = \"a\" * (x - y);", true)); ASSERT_EQUALS("; z = 'a' * ( x + y ) ;", tokenizeAndStringify("; z = 'a' * (x + y);", true)); ASSERT_EQUALS("; z = \"a\" * ( x + y ) ;", tokenizeAndStringify("; z = \"a\" * (x + y);", true)); ASSERT_EQUALS("; z = foo ( ) * ( x + y ) ;", tokenizeAndStringify("; z = foo() * (x + y);", true)); } void tokenize7() { const char code[] = "void f() {\n" " int x1 = 1;\n" " int x2(x1);\n" "}\n"; ASSERT_EQUALS("void f ( ) {\nint x1 ; x1 = 1 ;\nint x2 ; x2 = x1 ;\n}", tokenizeAndStringify(code, false)); } void tokenize8() { const char code[] = "void f() {\n" " int x1(g());\n" " int x2(x1);\n" "}\n"; ASSERT_EQUALS("1: void f ( ) {\n" "2: int x1@1 ; x1@1 = g ( ) ;\n" "3: int x2@2 ; x2@2 = x1@1 ;\n" "4: }\n", tokenizeDebugListing(code, false)); } void tokenize9() { const char code[] = "typedef void (*fp)();\n" "typedef fp (*fpp)();\n" "void f() {\n" " fpp x = (fpp)f();\n" "}"; tokenizeAndStringify(code, false); ASSERT_EQUALS("", errout.str()); } void tokenize11() { ASSERT_EQUALS("X * sizeof ( Y ( ) ) ;", tokenizeAndStringify("X * sizeof(Y());", false)); } // bailout if there is "@" - it is not handled well void tokenize13() { const char code[] = "@implementation\n" "-(Foo *)foo: (Bar *)bar\n" "{ }\n" "@end\n"; ASSERT_THROW(tokenizeAndStringify(code), InternalError); } // Ticket #2361: 0X10 => 16 void tokenize14() { ASSERT_EQUALS("; 16 ;", tokenizeAndStringify(";0x10;")); ASSERT_EQUALS("; 16 ;", tokenizeAndStringify(";0X10;")); ASSERT_EQUALS("; 292 ;", tokenizeAndStringify(";0444;")); } // Ticket #8050 void tokenizeHexWithSuffix() { ASSERT_EQUALS("; 16777215 ;", tokenizeAndStringify(";0xFFFFFF;")); ASSERT_EQUALS("; 16777215U ;", tokenizeAndStringify(";0xFFFFFFu;")); ASSERT_EQUALS("; 16777215UL ;", tokenizeAndStringify(";0xFFFFFFul;")); // Number of digits decides about internal representation... ASSERT_EQUALS("; 4294967295U ;", tokenizeAndStringify(";0xFFFFFFFF;")); ASSERT_EQUALS("; 4294967295U ;", tokenizeAndStringify(";0xFFFFFFFFu;")); ASSERT_EQUALS("; 4294967295UL ;", tokenizeAndStringify(";0xFFFFFFFFul;")); } // Ticket #2429: 0.125 void tokenize15() { ASSERT_EQUALS("0.125 ;", tokenizeAndStringify(".125;")); ASSERT_EQUALS("005.125 ;", tokenizeAndStringify("005.125;")); // Don't confuse with octal values } void tokenize17() { // #2759 ASSERT_EQUALS("class B : private :: A { } ;", tokenizeAndStringify("class B : private ::A { };")); } void tokenize18() { // tokenize "(X&&Y)" into "( X && Y )" instead of "( X & & Y )" ASSERT_EQUALS("( X && Y ) ;", tokenizeAndStringify("(X&&Y);")); } void tokenize19() { // #3006 - added hasComplicatedSyntaxErrorsInTemplates to avoid segmentation fault ASSERT_THROW(tokenizeAndStringify("x < () <"), InternalError); // #3496 - make sure hasComplicatedSyntaxErrorsInTemplates works ASSERT_EQUALS("void a ( Fred * f ) { for ( ; n < f . x ( ) ; ) { } }", tokenizeAndStringify("void a(Fred* f) MACRO { for (;n < f->x();) {} }")); // #6216 - make sure hasComplicatedSyntaxErrorsInTemplates works ASSERT_EQUALS("C :: C ( )\n" ": v { }\n" "{\n" "for ( int dim = 0 ; dim < v . size ( ) ; ++ dim ) {\n" "v [ dim ] . f ( ) ;\n" "}\n" "} ;", tokenizeAndStringify("C::C()\n" ":v{}\n" "{\n" " for (int dim = 0; dim < v.size(); ++dim) {\n" " v[dim]->f();\n" " }\n" "};")); } void tokenize21() { // tokenize 0x0E-7 ASSERT_EQUALS("14 - 7 ;", tokenizeAndStringify("0x0E-7;")); } void tokenize22() { // tokenize special marker $ from preprocessor ASSERT_EQUALS("a$b", tokenizeAndStringify("a$b")); ASSERT_EQUALS("a $b\nc", tokenizeAndStringify("a $b\nc")); ASSERT_EQUALS("a = $0 ;", tokenizeAndStringify("a = $0;")); ASSERT_EQUALS("a$ ++ ;", tokenizeAndStringify("a$++;")); ASSERT_EQUALS("$if ( ! p )", tokenizeAndStringify("$if(!p)")); } // #4239 - segfault for "f ( struct { int typedef T x ; } ) { }" void tokenize25() { ASSERT_THROW(tokenizeAndStringify("f ( struct { int typedef T x ; } ) { }"), InternalError); } // #4245 - segfault void tokenize26() { ASSERT_THROW(tokenizeAndStringify("class x { protected : template < int y = } ;"), InternalError); // Garbage code } void tokenize27() { // #4525 - segfault tokenizeAndStringify("struct except_spec_d_good : except_spec_a, except_spec_b {\n" "~except_spec_d_good();\n" "};\n" "struct S { S(); };\n" "S::S() __attribute((pure)) = default;" ); // original code: glibc-2.18/posix/bug-regex20.c tokenizeAndStringify("static unsigned int re_string_context_at (const re_string_t *input, int idx, int eflags) internal_function __attribute__ ((pure));"); } // #3503 - don't "simplify" SetFunction member function to a variable void tokenize31() { ASSERT_EQUALS("struct TTestClass { TTestClass ( ) { }\n" "void SetFunction ( Other * m_f ) { }\n" "} ;", tokenizeAndStringify("struct TTestClass { TTestClass() { }\n" " void SetFunction(Other(*m_f)()) { }\n" "};")); ASSERT_EQUALS("struct TTestClass { TTestClass ( ) { }\n" "void SetFunction ( Other * m_f ) ;\n" "} ;", tokenizeAndStringify("struct TTestClass { TTestClass() { }\n" " void SetFunction(Other(*m_f)());\n" "};")); } // #5884 - Avoid left shift of negative integer value. void tokenize32() { // Do not simplify negative integer left shifts. const char * code = "void f ( ) { int max_x ; max_x = -10000 << 16 ; }"; ASSERT_EQUALS(code, tokenizeAndStringify(code)); } // #5780 Various crashes on valid template code in Tokenizer::setVarId() void tokenize33() { const char * code = "template> struct vector {};\n" "void z() {\n" " vector VI;\n" "}\n"; tokenizeAndStringify(code, true); } void tokenize34() { // #8031 { const char code[] = "struct Containter {\n" " Containter();\n" " int* mElements;\n" "};\n" "Containter::Containter() : mElements(nullptr) {}\n" "Containter intContainer;"; const char exp [] = "1: struct Containter {\n" "2: Containter ( ) ;\n" "3: int * mElements@1 ;\n" "4: } ;\n" "5: Containter :: Containter ( ) : mElements@1 ( nullptr ) { }\n" "6: Containter intContainer@2 ;\n"; ASSERT_EQUALS(exp, tokenizeDebugListing(code, /*simplify=*/true)); } { const char code[] = "template struct Containter {\n" " Containter();\n" " int* mElements;\n" "};\n" "template Containter::Containter() : mElements(nullptr) {}\n" "Containter intContainer;"; const char exp [] = "6: Containter intContainer@1 ; struct Containter {\n" "2: Containter ( ) ;\n" "3: int * mElements@2 ;\n" "4: } ;\n" "5: Containter :: Containter ( ) : mElements@2 ( nullptr ) { }\n"; ASSERT_EQUALS(exp, tokenizeDebugListing(code, /*simplify=*/true)); } } void tokenize35() { // #8361 tokenizeAndStringify("typedef int CRCWord; " "template ::CRCWord const Compute(T const t) { return 0; }"); } void tokenize36() { // #8436 const char code[] = "int foo ( int i ) { return i ? * new int { 5 } : int { i ? 0 : 1 } ; }"; ASSERT_EQUALS(code, tokenizeAndStringify(code)); } void tokenize37() { // #8550 const char codeC[] = "class name { public: static void init ( ) {} } ; " "typedef class name N; " "void foo ( ) { return N :: init ( ) ; }"; const char expC [] = "class name { public: static void init ( ) { } } ; " "void foo ( ) { return name :: init ( ) ; }"; ASSERT_EQUALS(expC, tokenizeAndStringify(codeC)); const char codeS[] = "class name { public: static void init ( ) {} } ; " "typedef struct name N; " "void foo ( ) { return N :: init ( ) ; }"; const char expS [] = "class name { public: static void init ( ) { } } ; " "void foo ( ) { return name :: init ( ) ; }"; ASSERT_EQUALS(expS, tokenizeAndStringify(codeS)); } void validate() { // C++ code in C file ASSERT_THROW(tokenizeAndStringify(";using namespace std;",false,false,Settings::Native,"test.c"), InternalError); ASSERT_THROW(tokenizeAndStringify(";std::map m;",false,false,Settings::Native,"test.c"), InternalError); ASSERT_THROW(tokenizeAndStringify(";template class X { };",false,false,Settings::Native,"test.c"), InternalError); ASSERT_THROW(tokenizeAndStringify("int X() {};",false,false,Settings::Native,"test.c"), InternalError); ASSERT_THROW(tokenizeAndStringify("void foo(int i) { reinterpret_cast(i) };",false,false,Settings::Native,"test.h"), InternalError); } void objectiveC() { ASSERT_THROW(tokenizeAndStringify("void f() { [foo bar]; }"), InternalError); } void syntax_case_default() { // correct syntax tokenizeAndStringify("void f() {switch (n) { case 0: z(); break;}}"); ASSERT_EQUALS("", errout.str()); tokenizeAndStringify("void f() {switch (n) { case 0:; break;}}"); ASSERT_EQUALS("", errout.str()); tokenizeAndStringify("void f() {switch (n) { case 0?1:2 : z(); break;}}"); ASSERT_EQUALS("", errout.str()); tokenizeAndStringify("void f() {switch (n) { case 0?(1?3:4):2 : z(); break;}}"); ASSERT_EQUALS("", errout.str()); //allow GCC '({ %name%|%num%|%bool% ; })' statement expression extension tokenizeAndStringify("void f() {switch (n) { case 0?({0;}):1: z(); break;}}"); ASSERT_EQUALS("", errout.str()); //'b' can be or a macro or an undefined enum tokenizeAndStringify("void f() {switch (n) { case b: z(); break;}}"); ASSERT_EQUALS("", errout.str()); //valid, when there's this declaration: 'constexpr int g() { return 2; }' tokenizeAndStringify("void f() {switch (n) { case g(): z(); break;}}"); ASSERT_EQUALS("", errout.str()); //valid, when there's also this declaration: 'constexpr int g[1] = {0};' tokenizeAndStringify("void f() {switch (n) { case g[0]: z(); break;}}"); ASSERT_EQUALS("", errout.str()); //valid, similar to above case tokenizeAndStringify("void f() {switch (n) { case *g: z(); break;}}"); ASSERT_EQUALS("", errout.str()); //valid, when 'x' and 'y' are constexpr. tokenizeAndStringify("void f() {switch (n) { case sqrt(x+y): z(); break;}}"); ASSERT_EQUALS("", errout.str()); } void foreach () { // #3690,#5154 const char code[] ="void f() { for each ( char c in MyString ) { Console::Write(c); } }"; ASSERT_EQUALS("void f ( ) { asm ( \"char c in MyString\" ) { Console :: Write ( c ) ; } }", tokenizeAndStringify(code)); } void ifconstexpr() { ASSERT_EQUALS("void f ( ) { if ( FOO ) { bar ( c ) ; } }", tokenizeAndStringify("void f() { if constexpr ( FOO ) { bar(c); } }")); } void combineOperators() { ASSERT_EQUALS("; private: ;", tokenizeAndStringify(";private:;", false)); ASSERT_EQUALS("; protected: ;", tokenizeAndStringify(";protected:;", false)); ASSERT_EQUALS("; public: ;", tokenizeAndStringify(";public:;", false)); ASSERT_EQUALS("; __published: ;", tokenizeAndStringify(";__published:;", false)); ASSERT_EQUALS("a . public : ;", tokenizeAndStringify("a.public:;", false)); ASSERT_EQUALS("void f ( x & = 2 ) ;", tokenizeAndStringify("void f(x &= 2);", false)); } void concatenateNegativeNumber() { ASSERT_EQUALS("i = -12 ;", tokenizeAndStringify("i = -12;")); ASSERT_EQUALS("1 - 2 ;", tokenizeAndStringify("1-2;")); ASSERT_EQUALS("foo ( -1 ) - 2 ;", tokenizeAndStringify("foo(-1)-2;")); ASSERT_EQUALS("int f ( ) { return -2 ; }", tokenizeAndStringify("int f(){return -2;}")); ASSERT_EQUALS("int x [ 2 ] = { -2 , 1 }", tokenizeAndStringify("int x[2] = {-2,1}")); ASSERT_EQUALS("f ( 123 )", tokenizeAndStringify("f(+123)")); } void longtok() { const std::string filedata(10000, 'a'); ASSERT_EQUALS(filedata, tokenizeAndStringify(filedata.c_str(), true)); } // Don’t remove "(int *)".. void simplifyCasts1() { const char code[] = "int *f(int *);"; ASSERT_EQUALS("int * f ( int * ) ;", tokenizeAndStringify(code, true)); } // remove static_cast.. void simplifyCasts2() { const char code[] = "t = (static_cast *>(&p));\n"; ASSERT_EQUALS("t = & p ;", tokenizeAndStringify(code, true)); } void simplifyCasts3() { // ticket #961 const char code[] = "assert (iplen >= (unsigned) ipv4->ip_hl * 4 + 20);"; const char expected[] = "assert ( iplen >= ipv4 . ip_hl * 4 + 20 ) ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyCasts4() { // ticket #970 const char code[] = "if (a >= (unsigned)(b)) {}"; const char expected[] = "if ( a >= ( unsigned int ) ( b ) ) { }"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyCasts5() { // ticket #1817 ASSERT_EQUALS("a . data = f ;", tokenizeAndStringify("a->data = reinterpret_cast(static_cast(f));", true)); } void simplifyCasts7() { ASSERT_EQUALS("str = malloc ( 3 )", tokenizeAndStringify("str=(char **)malloc(3)", true)); } void simplifyCasts8() { ASSERT_EQUALS("ptr1 = ptr2", tokenizeAndStringify("ptr1=(int * **)ptr2", true)); } void simplifyCasts9() { ASSERT_EQUALS("f ( ( double ) ( v1 ) * v2 )", tokenizeAndStringify("f((double)(v1)*v2)", true)); ASSERT_EQUALS("int v1 ; f ( ( double ) ( v1 ) * v2 )", tokenizeAndStringify("int v1; f((double)(v1)*v2)", true)); ASSERT_EQUALS("f ( ( A ) ( B ) & x )", tokenizeAndStringify("f((A)(B)&x)", true)); // #4439 } void simplifyCasts10() { ASSERT_EQUALS("; ( * f ) ( p ) ;", tokenizeAndStringify("; (*(void (*)(char *))f)(p);", true)); } void simplifyCasts11() { ASSERT_EQUALS("; x = 0 ;", tokenizeAndStringify("; *(int *)&x = 0;", true)); } void simplifyCasts12() { // #3935 - don't remove this cast ASSERT_EQUALS("; ( ( short * ) data ) [ 5 ] = 0 ;", tokenizeAndStringify("; ((short*)data)[5] = 0;", true)); } void simplifyCasts13() { // casting deref / address of ASSERT_EQUALS("; int x ; x = * y ;", tokenizeAndStringify(";int x=(int)*y;",true)); ASSERT_EQUALS("; int x ; x = & y ;", tokenizeAndStringify(";int x=(int)&y;",true)); TODO_ASSERT_EQUALS("; int x ; x = ( INT ) * y ;", "; int x ; x = * y ;", tokenizeAndStringify(";int x=(INT)*y;",true)); // INT might be a variable TODO_ASSERT_EQUALS("; int x ; x = ( INT ) & y ;", "; int x ; x = & y ;", tokenizeAndStringify(";int x=(INT)&y;",true)); // INT might be a variable // #4899 - False positive on unused variable ASSERT_EQUALS("; float angle ; angle = tilt ;", tokenizeAndStringify("; float angle = (float) tilt;", true)); // status quo ASSERT_EQUALS("; float angle ; angle = ( float ) - tilt ;", tokenizeAndStringify("; float angle = (float) -tilt;", true)); ASSERT_EQUALS("; float angle ; angle = ( float ) + tilt ;", tokenizeAndStringify("; float angle = (float) +tilt;", true)); ASSERT_EQUALS("; int a ; a = ( int ) ~ c ;", tokenizeAndStringify("; int a = (int)~c;", true)); } void simplifyCasts14() { // const // #5081 ASSERT_EQUALS("( ! ( & s ) . a ) ;", tokenizeAndStringify("(! ( (struct S const *) &s)->a);", true)); // #5244 ASSERT_EQUALS("bar ( & ptr ) ;", tokenizeAndStringify("bar((const X**)&ptr);",true)); } void simplifyCasts15() { // #5996 - don't remove cast in 'a+static_cast(b?60:0)' ASSERT_EQUALS("a + ( b ? 60 : 0 ) ;", tokenizeAndStringify("a + static_cast(b ? 60 : 0);", true)); } void simplifyCasts16() { // #6278 ASSERT_EQUALS("Get ( pArray ) ;", tokenizeAndStringify("Get((CObject*&)pArray);", true)); } void simplifyCasts17() { // #6110 - don't remove any parentheses in 'a(b)(c)' ASSERT_EQUALS("if ( a ( b ) ( c ) >= 3 )", tokenizeAndStringify("if (a(b)(c) >= 3)", true)); } void inlineasm() { ASSERT_EQUALS("asm ( \"mov ax , bx\" ) ;", tokenizeAndStringify("asm { mov ax,bx };")); ASSERT_EQUALS("asm ( \"mov ax , bx\" ) ;", tokenizeAndStringify("_asm { mov ax,bx };")); ASSERT_EQUALS("asm ( \"mov ax , bx\" ) ;", tokenizeAndStringify("_asm mov ax,bx")); ASSERT_EQUALS("asm ( \"mov ax , bx\" ) ;", tokenizeAndStringify("__asm { mov ax,bx };")); ASSERT_EQUALS("asm ( \"\"mov ax,bx\"\" ) ;", tokenizeAndStringify("__asm__ __volatile__ ( \"mov ax,bx\" );")); ASSERT_EQUALS("asm ( \"_emit 12h\" ) ;", tokenizeAndStringify("__asm _emit 12h ;")); ASSERT_EQUALS("asm ( \"mov a , b\" ) ;", tokenizeAndStringify("__asm mov a, b ;")); ASSERT_EQUALS("asm ( \"\"fnstcw %0\" : \"= m\" ( old_cw )\" ) ;", tokenizeAndStringify("asm volatile (\"fnstcw %0\" : \"= m\" (old_cw));")); ASSERT_EQUALS("asm ( \"\"fnstcw %0\" : \"= m\" ( old_cw )\" ) ;", tokenizeAndStringify(" __asm__ (\"fnstcw %0\" : \"= m\" (old_cw));")); ASSERT_EQUALS("asm ( \"\"ddd\"\" ) ;", tokenizeAndStringify(" __asm __volatile__ (\"ddd\") ;")); ASSERT_EQUALS("asm ( \"\"ddd\"\" ) ;", tokenizeAndStringify(" __asm __volatile (\"ddd\") ;")); ASSERT_EQUALS("asm ( \"\"mov ax,bx\"\" ) ;", tokenizeAndStringify("__asm__ volatile ( \"mov ax,bx\" );")); ASSERT_EQUALS("asm ( \"mov ax , bx\" ) ; int a ;", tokenizeAndStringify("asm { mov ax,bx } int a;")); ASSERT_EQUALS("asm\n\n( \"mov ax , bx\" ) ;", tokenizeAndStringify("__asm\nmov ax,bx\n__endasm;")); ASSERT_EQUALS("asm\n\n( \"push b ; for if\" ) ;", tokenizeAndStringify("__asm\npush b ; for if\n__endasm;")); // 'asm ( ) ;' should be in the same line ASSERT_EQUALS(";\n\nasm ( \"\"mov ax,bx\"\" ) ;", tokenizeAndStringify(";\n\n__asm__ volatile ( \"mov ax,bx\" );", true)); } // #4725 - ^{} void simplifyAsm2() { ASSERT_EQUALS("void f ( ) { asm ( \"^{}\" ) ; }", tokenizeAndStringify("void f() { ^{} }")); ASSERT_EQUALS("void f ( ) { x ( asm ( \"^{}\" ) ) ; }", tokenizeAndStringify("void f() { x(^{}); }")); ASSERT_EQUALS("void f ( ) { foo ( A ( ) , asm ( \"^{bar();}\" ) ) ; }", tokenizeAndStringify("void f() { foo(A(), ^{ bar(); }); }")); ASSERT_EQUALS("int f0 ( Args args ) { asm ( \"asm(\"return^{returnsizeof...(Args);}()\")+^{returnsizeof...(args);}()\" )\n" "2:\n" "|\n" "5:\n" "6: ;\n" "} ;", tokenizeAndStringify("int f0(Args args) {\n" " return ^{\n" " return sizeof...(Args);\n" " }() + ^ {\n" " return sizeof...(args);\n" " }();\n" "};")); ASSERT_EQUALS("int ( ^ block ) ( void ) = asm ( \"^{staticinttest=0;returntest;}\" )\n\n\n;", tokenizeAndStringify("int(^block)(void) = ^{\n" " static int test = 0;\n" " return test;\n" "};")); ASSERT_EQUALS("; return f ( a [ b = c ] , asm ( \"^{}\" ) ) ;", tokenizeAndStringify("; return f(a[b=c],^{});")); // #7185 ASSERT_EQUALS("; return f ( asm ( \"^(void){somecode}\" ) ) ;", tokenizeAndStringify("; return f(^(void){somecode});")); ASSERT_EQUALS("; asm ( \"a?(b?(c,asm(\"^{}\")):0):^{}\" ) ;", tokenizeAndStringify(";a?(b?(c,^{}):0):^{};")); } void ifAddBraces1() { const char code[] = "void f()\n" "{\n" " if (a);\n" " else ;\n" "}\n"; ASSERT_EQUALS("void f ( )\n" "{\n" "if ( a ) { ; }\n" "else { ; }\n" "}", tokenizeAndStringify(code, true)); } void ifAddBraces2() { const char code[] = "void f()\n" "{\n" " if (a) if (b) { }\n" "}\n"; ASSERT_EQUALS("void f ( )\n" "{\n" "if ( a ) { if ( b ) { } }\n" "}", tokenizeAndStringify(code, true)); } void ifAddBraces3() { const char code[] = "void f()\n" "{\n" " if (a) for (;;) { }\n" "}\n"; ASSERT_EQUALS("void f ( )\n" "{\n" "if ( a ) { for ( ; ; ) { } }\n" "}", tokenizeAndStringify(code, true)); } void ifAddBraces4() { const char code[] = "char * foo ()\n" "{\n" " char *str = malloc(10);\n" " if (somecondition)\n" " for ( ; ; )\n" " { }\n" " return str;\n" "}\n"; ASSERT_EQUALS("char * foo ( )\n" "{\n" "char * str ; str = malloc ( 10 ) ;\n" "if ( somecondition ) {\n" "for ( ; ; )\n" "{ } }\n" "return str ;\n" "}", tokenizeAndStringify(code, true)); } void ifAddBraces5() { const char code[] = "void f()\n" "{\n" "for(int i = 0; i < 2; i++)\n" "if(true)\n" "return;\n" "\n" "return;\n" "}\n"; ASSERT_EQUALS("void f ( )\n" "{\n" "for ( int i = 0 ; i < 2 ; i ++ ) {\n" "\n" "return ; }\n\n" "return ;\n" "}", tokenizeAndStringify(code, true)); } void ifAddBraces7() { const char code[] = "void f()\n" "{\n" "int a;\n" "if( a )\n" " ({a=4;}),({a=5;});\n" "}\n"; ASSERT_EQUALS("void f ( )\n" "{\n" "int a ;\n" "if ( a ) {\n" "( { a = 4 ; } ) , ( { a = 5 ; } ) ; }\n" "}", tokenizeAndStringify(code, true)); } void ifAddBraces9() { // ticket #990 const char code[] = "void f() {" " for (int k=0; k 0 ) ;\n" " return 0 ;\n" "}\n"; const char result[] = "void foo ( int c , int d ) {\n" "do {\n" "if ( c ) {\n" "while ( c ) { c -- ; }\n" "} }\n" "while ( -- d > 0 ) ;\n" "return 0 ;\n" "}"; ASSERT_EQUALS(result, tokenizeAndStringify(code, true)); } { const char code[] = "void foo ( int c , int d ) {\n" " do\n" " do c -- ; while ( c ) ;\n" " while ( -- d > 0 ) ;\n" " return 0 ;\n" "}\n"; const char result[] = "void foo ( int c , int d ) {\n" "do {\n" "do { c -- ; } while ( c ) ; }\n" "while ( -- d > 0 ) ;\n" "return 0 ;\n" "}"; ASSERT_EQUALS(result, tokenizeAndStringify(code, true)); } { // #8148 - while inside the do-while body const char code[] = "void foo() {\n" " do { while (x) f(); } while (y);\n" "}"; const char result[] = "void foo ( ) {\n" "do { while ( x ) { f ( ) ; } } while ( y ) ;\n" "}"; ASSERT_EQUALS(result, tokenizeAndStringify(code, true)); } } void forAddBraces1() { { const char code[] = "void f() {\n" " for(;;)\n" " if (a) { }\n" " else { }\n" "}"; const char expected[] = "void f ( ) {\n" "for ( ; ; ) {\n" "if ( a ) { }\n" "else { } }\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } { const char code[] = "void f() {\n" " for(;;)\n" " if (a) { }\n" " else if (b) { }\n" " else { }\n" "}"; const char expected[] = "void f ( ) {\n" "for ( ; ; ) {\n" "if ( a ) { }\n" "else { if ( b ) { }\n" "else { } } }\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } } void forAddBraces2() { // #5088 const char code[] = "void f() {\n" " for(;;) try { } catch (...) { }\n" "}"; const char expected[] = "void f ( ) {\n" "for ( ; ; ) { try { } catch ( . . . ) { } }\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } std::string simplifyKnownVariables(const char code[]) { errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); tokenizer.simplifyKnownVariables(); return tokenizer.tokens()->stringifyList(0, false); } void simplifyKnownVariables1() { { const char code[] = "void f()\n" "{\n" " int a = 10;\n" " if (a);\n" "}\n"; ASSERT_EQUALS( "void f ( ) { int a ; a = 10 ; if ( 10 ) { ; } }", simplifyKnownVariables(code)); } { const char code[] = "void f()\n" "{\n" " int a = 10;\n" " if (!a);\n" "}\n"; ASSERT_EQUALS( "void f ( ) { int a ; a = 10 ; if ( ! 10 ) { ; } }", simplifyKnownVariables(code)); } } void simplifyKnownVariables2() { const char code[] = "void f()\n" "{\n" " int a = 10;\n" " a = g();\n" " if (a);\n" "}\n"; ASSERT_EQUALS( "void f ( ) { int a ; a = 10 ; a = g ( ) ; if ( a ) { ; } }", simplifyKnownVariables(code)); } void simplifyKnownVariables3() { const char code[] = "void f()\n" "{\n" " int a = 4;\n" " while(true){\n" " break;\n" " a = 10;\n" " }\n" " if (a);\n" "}\n"; ASSERT_EQUALS( "void f ( ) { int a ; a = 4 ; while ( true ) { break ; a = 10 ; } if ( a ) { ; } }", simplifyKnownVariables(code)); } void simplifyKnownVariables4() { const char code[] = "void f()\n" "{\n" " int a = 4;\n" " if ( g(a));\n" "}\n"; // TODO: if a is passed by value is is ok to simplify.. ASSERT_EQUALS( "void f ( ) { int a ; a = 4 ; if ( g ( a ) ) { ; } }", simplifyKnownVariables(code)); } void simplifyKnownVariables5() { const char code[] = "void f()\n" "{\n" " int a = 4;\n" " if ( a = 5 );\n" "}\n"; ASSERT_EQUALS( "void f ( ) { int a ; a = 4 ; if ( a = 5 ) { ; } }", simplifyKnownVariables(code)); } void simplifyKnownVariables6() { const char code[] = "void f()\n" "{\n" " char str[2];" " int a = 4;\n" " str[a] = 0;\n" "}\n"; ASSERT_EQUALS( "void f ( ) { char str [ 2 ] ; int a ; a = 4 ; str [ 4 ] = 0 ; }", simplifyKnownVariables(code)); } void simplifyKnownVariables7() { const char code[] = "void foo()\n" "{\n" " int i = 22;\n" " abc[i++] = 1;\n" " abc[++i] = 2;\n" "}\n"; ASSERT_EQUALS( "void foo ( ) { int i ; i = 24 ; abc [ 22 ] = 1 ; abc [ 24 ] = 2 ; }", simplifyKnownVariables(code)); } void simplifyKnownVariables8() { const char code[] = "void foo()\n" "{\n" " int i = 22;\n" " i++;\n" " abc[i] = 0;\n" "}\n"; ASSERT_EQUALS( "void foo ( ) { int i ; i = 23 ; abc [ 23 ] = 0 ; }", simplifyKnownVariables(code)); } void simplifyKnownVariables9() { const char code[] = "void foo()\n" "{\n" " int a = 1, b = 2;\n" " if (a < b)\n" " ;\n" "}\n"; ASSERT_EQUALS( "void foo ( ) { int a ; a = 1 ; int b ; b = 2 ; if ( 1 < 2 ) { ; } }", simplifyKnownVariables(code)); } void simplifyKnownVariables10() { { const char code[] = "void f()\n" "{\n" " bool b=false;\n" "\n" " {\n" " b = true;\n" " }\n" "\n" " if( b )\n" " {\n" " a();\n" " }\n" "}\n"; const std::string expected1("void f ( ) {" " bool b ; b = false ;" " { b = true ; }"); TODO_ASSERT_EQUALS( expected1 + " if ( true ) { a ( ) ; } }", expected1 + " if ( b ) { a ( ) ; } }", simplifyKnownVariables(code)); } { const char code[] = "void f()\n" "{\n" " bool b=false;\n" " { b = false; }\n" " {\n" " b = true;\n" " }\n" "\n" " if( b )\n" " {\n" " a();\n" " }\n" "}\n"; TODO_ASSERT_EQUALS( "void f ( ) { bool b ; b = false ; { b = false ; } { b = true ; } if ( true ) { a ( ) ; } }", "void f ( ) { bool b ; b = false ; { b = false ; } { b = true ; } if ( b ) { a ( ) ; } }", simplifyKnownVariables(code)); } { const char code[] = "void f()\n" "{\n" " int b=0;\n" " b = 1;\n" " for( int i = 0; i < 10; i++ )" " {\n" " }\n" "\n" " return b;\n" "}\n"; ASSERT_EQUALS( "void f ( ) { int b ; b = 0 ; b = 1 ; for ( int i = 0 ; i < 10 ; i ++ ) { } return 1 ; }", simplifyKnownVariables(code)); } } void simplifyKnownVariables11() { const char code[] = "const int foo = 0;\n" "int main()\n" "{\n" " int foo=0;\n" "}\n"; ASSERT_EQUALS( "int main ( ) { int foo ; foo = 0 ; }", simplifyKnownVariables(code)); } void simplifyKnownVariables12() { const char code[] = "ENTER_NAMESPACE(project_namespace)\n" "const double pi = 3.14;\n" "int main(){}\n"; ASSERT_EQUALS( "ENTER_NAMESPACE ( project_namespace ) const double pi = 3.14 ; int main ( ) { }", simplifyKnownVariables(code)); } void simplifyKnownVariables13() { const char code[] = "void f()\n" "{\n" " int i = 10;\n" " while(--i) {}\n" "}\n"; ASSERT_EQUALS( "void f ( ) { int i ; i = 10 ; while ( -- i ) { } }", simplifyKnownVariables(code)); } void simplifyKnownVariables14() { // ticket #753 const char code[] = "void f ( ) { int n ; n = 1 ; do { ++ n ; } while ( n < 10 ) ; }"; ASSERT_EQUALS(code, simplifyKnownVariables(code)); } void simplifyKnownVariables15() { { const char code[] = "int main()\n" "{\n" " int x=5;\n" " std::cout << 10 / x << std::endl;\n" "}\n"; ASSERT_EQUALS( "int main ( ) { int x ; x = 5 ; std :: cout << 10 / 5 << std :: endl ; }", simplifyKnownVariables(code)); } { const char code[] = "int main()\n" "{\n" " int x=5;\n" " std::cout << x / ( x == 1 ) << std::endl;\n" "}\n"; ASSERT_EQUALS( "int main ( ) { int x ; x = 5 ; std :: cout << 5 / ( 5 == 1 ) << std :: endl ; }", simplifyKnownVariables(code)); } } void simplifyKnownVariables16() { // ticket #807 - segmentation fault when macro isn't found const char code[] = "void f ( ) { int n = 1; DISPATCH(while); }"; ASSERT_THROW(simplifyKnownVariables(code), InternalError); } void simplifyKnownVariables17() { // ticket #807 - segmentation fault when macro isn't found const char code[] = "void f ( ) { char *s = malloc(100);mp_ptr p = s; p++; }"; ASSERT_EQUALS( "void f ( ) { char * s ; s = malloc ( 100 ) ; mp_ptr p ; p = s ; p ++ ; }", simplifyKnownVariables(code)); } void simplifyKnownVariables18() { const char code[] = "void f ( ) { char *s = malloc(100);mp_ptr p = s; ++p; }"; ASSERT_EQUALS( "void f ( ) { char * s ; s = malloc ( 100 ) ; mp_ptr p ; p = s ; ++ p ; }", simplifyKnownVariables(code)); } void simplifyKnownVariables19() { const char code[] = "void f ( ) { int i=0; do { if (i>0) { a(); } i=b(); } while (i != 12); }"; ASSERT_EQUALS( "void f ( ) { int i ; i = 0 ; do { if ( i > 0 ) { a ( ) ; } i = b ( ) ; } while ( i != 12 ) ; }", simplifyKnownVariables(code)); } void simplifyKnownVariables20() { const char code[] = "void f()\n" "{\n" " int i = 0;\n" " if (x) {\n" " if (i) i=0;\n" " }\n" "}\n"; ASSERT_EQUALS( "void f ( ) { int i ; i = 0 ; if ( x ) { if ( 0 ) { i = 0 ; } } }", simplifyKnownVariables(code)); } void simplifyKnownVariables21() { const char code[] = "void foo() { int n = 10; for (int i = 0; i < n; ++i) { } }"; ASSERT_EQUALS( "void foo ( ) { int n ; n = 10 ; for ( int i = 0 ; i < 10 ; ++ i ) { } }", simplifyKnownVariables(code)); ASSERT_EQUALS( "void foo ( int i ) { int n ; n = i ; for ( i = 0 ; i < n ; ++ i ) { } }", simplifyKnownVariables("void foo(int i) { int n = i; for (i = 0; i < n; ++i) { } }")); } void simplifyKnownVariables22() { // This testcase is related to ticket #1169 { const char code[] = "void foo()\n" "{\n" " int n = 10;\n" " i = (n >> 1);\n" "}\n"; ASSERT_EQUALS( "void foo ( ) { int n ; n = 10 ; i = 10 >> 1 ; }", simplifyKnownVariables(code)); } { const char code[] = "void foo()\n" "{\n" " int n = 10;\n" " i = (n << 1);\n" "}\n"; ASSERT_EQUALS( "void foo ( ) { int n ; n = 10 ; i = 10 << 1 ; }", simplifyKnownVariables(code)); } { const char code[] = "void foo()\n" "{\n" " int n = 10;\n" " i = (1 << n);\n" "}\n"; ASSERT_EQUALS( "void foo ( ) { int n ; n = 10 ; i = 1 << 10 ; }", simplifyKnownVariables(code)); } { const char code[] = "void foo()\n" "{\n" " int n = 10;\n" " i = (1 >> n);\n" "}\n"; ASSERT_EQUALS( "void foo ( ) { int n ; n = 10 ; i = 1 >> 10 ; }", simplifyKnownVariables(code)); } } void simplifyKnownVariables23() { // This testcase is related to ticket #1596 const char code[] = "void foo(int x)\n" "{\n" " int a[10], c = 0;\n" " if (x) {\n" " a[c] = 0;\n" " c++;\n" " } else {\n" " a[c] = 0;\n" " }\n" "}\n"; TODO_ASSERT_EQUALS( "void foo ( int x ) " "{" " int a [ 10 ] ; int c ; c = 0 ;" " if ( x ) { a [ 0 ] = 0 ; c = 1 ; }" " else { a [ 0 ] = 0 ; } " "}", "void foo ( int x ) " "{" " int a [ 10 ] ; int c ; c = 0 ;" " if ( x ) { a [ 0 ] = 0 ; c ++ ; }" " else { a [ c ] = 0 ; } " "}", simplifyKnownVariables(code)); } void simplifyKnownVariables25() { { // This testcase is related to ticket #1646 const char code[] = "void foo(char *str)\n" "{\n" " int i;\n" " for (i=0;i<10;++i) {\n" " if (*str == 0) goto label;\n" " }\n" " return;\n" "label:\n" " str[i] = 0;\n" "}\n"; // Current result ASSERT_EQUALS( "void foo ( char * str ) " "{" " int i ;" " for ( i = 0 ; i < 10 ; ++ i ) {" " if ( * str == 0 ) { goto label ; }" " }" " return ;" " label : ;" " str [ i ] = 0 ; " "}", simplifyKnownVariables(code)); } { // This testcase is related to ticket #1646 const char code[] = "void foo(char *str)\n" "{\n" " int i;\n" " for (i=0;i<10;++i) { }\n" " return;\n" " str[i] = 0;\n" "}\n"; // Current result ASSERT_EQUALS( "void foo ( char * str ) " "{" " int i ;" " for ( i = 0 ; i < 10 ; ++ i ) { }" " return ;" " str [ i ] = 0 ; " "}", simplifyKnownVariables(code)); } } void simplifyKnownVariables27() { // This testcase is related to ticket #1633 const char code[] = "void foo()\n" "{\n" " int i1 = 1;\n" " int i2 = 2;\n" " int i3 = (i1 + i2) * 3;\n" "}\n"; ASSERT_EQUALS( "void foo ( ) " "{" " int i1 ; i1 = 1 ;" " int i2 ; i2 = 2 ;" " int i3 ; i3 = ( 1 + 2 ) * 3 ; " "}", simplifyKnownVariables(code)); } void simplifyKnownVariables28() { const char code[] = "void foo(int g)\n" "{\n" " int i = 2;\n" " if (g) {\n" " }\n" " if (i > 0) {\n" " }\n" "}\n"; ASSERT_EQUALS( "void foo ( int g ) " "{" " int i ; i = 2 ;" " if ( g ) { }" " if ( 2 > 0 ) { } " "}", simplifyKnownVariables(code)); } void simplifyKnownVariables29() { // ticket #1811 { const char code[] = "int foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h + i;\n" "}\n"; const char expected[] = "1: int foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 + v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "int foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h - i;\n" "}\n"; const char expected[] = "1: int foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 - v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "int foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h * i;\n" "}\n"; const char expected[] = "1: int foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 * v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "int foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h / i;\n" "}\n"; const char expected[] = "1: int foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 / v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "int foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h & i;\n" "}\n"; const char expected[] = "1: int foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 & v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "int foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h | i;\n" "}\n"; const char expected[] = "1: int foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 | v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "int foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h ^ i;\n" "}\n"; const char expected[] = "1: int foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 ^ v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "int foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h % i;\n" "}\n"; const char expected[] = "1: int foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 % v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "int foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h >> i;\n" "}\n"; const char expected[] = "1: int foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 >> v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "int foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h << i;\n" "}\n"; const char expected[] = "1: int foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 << v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "bool foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h == i;\n" "}\n"; const char expected[] = "1: bool foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 == v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "bool foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h != i;\n" "}\n"; const char expected[] = "1: bool foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 != v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "bool foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h > i;\n" "}\n"; const char expected[] = "1: bool foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 > v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "bool foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h >= i;\n" "}\n"; const char expected[] = "1: bool foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 >= v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "bool foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h < i;\n" "}\n"; const char expected[] = "1: bool foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 < v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "bool foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h <= i;\n" "}\n"; const char expected[] = "1: bool foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 <= v@2 ;\n" "6: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, true)); } { const char code[] = "bool foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h && i;\n" "}\n"; const char wanted[] = "1: bool foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 && v@2 ;\n" "6: }\n"; ASSERT_EQUALS(wanted, tokenizeDebugListing(code, true)); } { const char code[] = "bool foo(int u, int v)\n" "{\n" " int h = u;\n" " int i = v;\n" " return h || i;\n" "}\n"; const char wanted[] = "1: bool foo ( int u@1 , int v@2 )\n" "2: {\n" "3:\n" "4:\n" "5: return u@1 || v@2 ;\n" "6: }\n"; ASSERT_EQUALS(wanted, tokenizeDebugListing(code, true)); } } void simplifyKnownVariables30() { const char code[] = "int foo() {\n" " iterator it1 = ints.begin();\n" " iterator it2 = it1;\n" " for (++it2;it2!=ints.end();++it2);\n" "}\n"; const char expected[] = "int foo ( ) {\n" "iterator it1 ; it1 = ints . begin ( ) ;\n" "iterator it2 ; it2 = it1 ;\n" "for ( ++ it2 ; it2 != ints . end ( ) ; ++ it2 ) { ; }\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyKnownVariables31() { const char code[] = "void foo(const char str[]) {\n" " const char *p = str;\n" " if (p[0] == 0) {\n" " }\n" "}\n"; const char expected[] = "void foo ( const char str [ ] ) {\n" "const char * p ; p = str ;\n" "if ( str [ 0 ] == 0 ) {\n" "}\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyKnownVariables32() { { const char code[] = "void foo() {\n" " const int x = 0;\n" " bar(0,x);\n" "}\n"; const char expected[] = "void foo ( ) {\n\nbar ( 0 , 0 ) ;\n}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } { const char code[] = "static int const SZ = 22; char str[SZ];\n"; ASSERT_EQUALS("char str [ 22 ] ;", tokenizeAndStringify(code,true)); } } void simplifyKnownVariables33() { const char code[] = "static void foo(struct Foo *foo) {\n" " foo->a = 23;\n" " x[foo->a] = 0;\n" "}\n"; const char expected[] = "static void foo ( struct Foo * foo ) {\n" "foo . a = 23 ;\n" "x [ 23 ] = 0 ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyKnownVariables34() { const char code[] = "void f() {\n" " int x = 10;\n" " do { cin >> x; } while (x > 5);\n" " a[x] = 0;\n" "}\n"; const char expected[] = "void f ( ) {\n" "int x ; x = 10 ;\n" "do { cin >> x ; } while ( x > 5 ) ;\n" "a [ x ] = 0 ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyKnownVariables35() { // Ticket #2353 const char code[] = "int f() {" " int x = 0;" " if (x == 0) {" " return 0;" " }" " return 10 / x;" "}"; const char expected[] = "int f ( ) { int x ; x = 0 ; { return 0 ; } }"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyKnownVariables36() { // Ticket #2304 const char code[] = "void f() {" " const char *q = \"hello\";" " strcpy(p, q);" "}"; const char expected[] = "void f ( ) { const char * q ; q = \"hello\" ; strcpy ( p , \"hello\" ) ; }"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); // Ticket #5972 const char code2[] = "void f() {" " char buf[10] = \"ab\";" " memset(buf, 0, 10);" "}"; const char expected2[] = "void f ( ) { char buf [ 10 ] = \"ab\" ; memset ( buf , 0 , 10 ) ; }"; ASSERT_EQUALS(expected2, tokenizeAndStringify(code2, true)); } void simplifyKnownVariables37() { // Ticket #2398 - no simplification in for loop const char code[] = "void f() {\n" " double x = 0;\n" " for (int iter=0; iter<42; iter++) {\n" " int EvaldF = 1;\n" " if (EvaldF)\n" " Eval (x);\n" " }\n" "}"; const char expected[] = "void f ( ) {\n" "double x ; x = 0 ;\n" "for ( int iter = 0 ; iter < 42 ; iter ++ ) {\n" "\n" "\n" "Eval ( x ) ;\n" "}\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyKnownVariables38() { // Ticket #2399 - simplify conditions const char code[] = "void f() {\n" " int x = 0;\n" " int y = 1;\n" " if (x || y);\n" "}"; const char expected[] = "void f ( ) {\n" "\n" "\n" ";\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyKnownVariables39() { // Ticket #2296 - simplify pointer alias 'delete p;' { const char code[] = "void f() {\n" " int *x;\n" " int *y = x;\n" " delete y;\n" "}"; ASSERT_EQUALS("void f ( ) {\nint * x ;\n\ndelete x ;\n}", tokenizeAndStringify(code, true)); } { const char code[] = "void f() {\n" " int *x;\n" " int *y = x;\n" " delete [] y;\n" "}"; ASSERT_EQUALS("void f ( ) {\nint * x ;\n\ndelete [ ] x ;\n}", tokenizeAndStringify(code, true)); } } void simplifyKnownVariables40() { const char code[] = "void f() {\n" " char c1 = 'a';\n" " char c2 = { c1 };\n" "}"; ASSERT_EQUALS("void f ( ) {\n\nchar c2 ; c2 = { 'a' } ;\n}", tokenizeAndStringify(code, true)); } void simplifyKnownVariables41() { const char code[] = "void f() {\n" " int x = 0;\n" " const int *p; p = &x;\n" " if (p) { return 0; }\n" "}"; ASSERT_EQUALS("void f ( ) {\nint x ; x = 0 ;\nconst int * p ; p = & x ;\nif ( & x ) { return 0 ; }\n}", tokenizeAndStringify(code, true)); } void simplifyKnownVariables42() { { const char code[] = "void f() {\n" " char str1[10], str2[10];\n" " strcpy(str1, \"abc\");\n" " strcpy(str2, str1);\n" "}"; const char expected[] = "void f ( ) {\n" "char str1 [ 10 ] ; char str2 [ 10 ] ;\n" "strcpy ( str1 , \"abc\" ) ;\n" "strcpy ( str2 , \"abc\" ) ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } { const char code[] = "void f() {\n" " char a[10];\n" " strcpy(a, \"hello\");\n" " strcat(a, \"!\");\n" "}"; const char expected[] = "void f ( ) {\n" "char a [ 10 ] ;\n" "strcpy ( a , \"hello\" ) ;\n" "strcat ( a , \"!\" ) ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true, true, Settings::Native, "test.c")); } { const char code[] = "void f() {" " char *s = malloc(10);" " strcpy(s, \"\");" " free(s);" "}"; const char expected[] = "void f ( ) {" " char * s ; s = malloc ( 10 ) ;" " strcpy ( s , \"\" ) ;" " free ( s ) ; " "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } { const char code[] = "void f(char *p, char *q) {" " strcpy(p, \"abc\");" " q = p;" "}"; const char expected[] = "void f ( char * p , char * q ) {" " strcpy ( p , \"abc\" ) ;" " q = p ; " "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } // 3538 { const char code[] = "void f() {\n" " char s[10];\n" " strcpy(s, \"123\");\n" " if (s[6] == ' ');\n" "}"; const char expected[] = "void f ( ) {\n" "char s [ 10 ] ;\n" "strcpy ( s , \"123\" ) ;\n" "if ( s [ 6 ] == ' ' ) { ; }\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code,true)); } } void simplifyKnownVariables43() { { const char code[] = "void f() {\n" " int a, *p; p = &a;\n" " { int a = *p; }\n" "}"; const char expected[] = "void f ( ) {\n" "int a ; int * p ; p = & a ;\n" "{ int a ; a = * p ; }\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } { const char code[] = "void f() {\n" " int *a, **p; p = &a;\n" " { int *a = *p; }\n" "}"; const char expected[] = "void f ( ) {\n" "int * a ; int * * p ; p = & a ;\n" "{ int * a ; a = * p ; }\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } } void simplifyKnownVariables44() { const char code[] = "void a() {\n" " static int i = 10;\n" " b(i++);\n" "}"; const char expected[] = "void a ( ) {\n" "static int i = 10 ;\n" "b ( i ++ ) ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyKnownVariables45() { const char code[] = "class Fred {\n" "private:\n" " const static int NUM = 2;\n" " int array[NUM];\n" "}"; const char expected[] = "class Fred {\n" "private:\n" "\n" "int array [ 2 ] ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyKnownVariables46() { const char code[] = "void f() {\n" " int x = 0;\n" " cin >> x;\n" " return x;\n" "}"; { const char expected[] = "void f ( ) {\n" "int x ; x = 0 ;\n" "cin >> x ;\n" "return x ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true, true, Settings::Native, "test.cpp")); } { const char expected[] = "void f ( ) {\n" "\n" "cin >> 0 ;\n" "return 0 ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true, true, Settings::Native, "test.c")); } } void simplifyKnownVariables47() { // #3621 const char code[] = "void f() {\n" " int x = 0;\n" " cin >> std::hex >> x;\n" "}"; const char expected[] = "void f ( ) {\n" "int x ; x = 0 ;\n" "cin >> std :: hex >> x ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true, true, Settings::Native, "test.cpp")); } void simplifyKnownVariables48() { // #3754 const char code[] = "void f(int sz) {\n" " int i;\n" " for (i = 0; ((i3)); ++i) { }\n" "}"; const char expected[] = "void f ( int sz ) {\n" "int i ;\n" "for ( i = 0 ; ( i < sz ) && ( sz > 3 ) ; ++ i ) { }\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true, true, Settings::Native, "test.c")); } void simplifyKnownVariables49() { // #3691 const char code[] = "void f(int sz) {\n" " switch (x) {\n" " case 1: sz = 2; continue;\n" " case 2: x = sz; break;\n" " }\n" "}"; const char expected[] = "void f ( int sz ) {\n" "switch ( x ) {\n" "case 1 : ; sz = 2 ; continue ;\n" "case 2 : ; x = sz ; break ;\n" "}\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true, true, Settings::Native, "test.c")); } void simplifyKnownVariables50() { // #4066 { const char code[] = "void f() {\n" " char str1[10], str2[10];\n" " sprintf(str1, \"%%\");\n" " strcpy(str2, str1);\n" "}"; const char expected[] = "void f ( ) {\n" "char str1 [ 10 ] ; char str2 [ 10 ] ;\n" "sprintf ( str1 , \"%%\" ) ;\n" "strcpy ( str2 , \"%\" ) ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } { const char code[] = "void f() {\n" " char str1[25], str2[25];\n" " sprintf(str1, \"abcdef%%%% and %% and %\");\n" " strcpy(str2, str1);\n" "}"; const char expected[] = "void f ( ) {\n" "char str1 [ 25 ] ; char str2 [ 25 ] ;\n" "sprintf ( str1 , \"abcdef%%%% and %% and %\" ) ;\n" "strcpy ( str2 , \"abcdef%% and % and %\" ) ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } { const char code[] = "void f() {\n" " char str1[10], str2[10];\n" " sprintf(str1, \"abc\");\n" " strcpy(str2, str1);\n" "}"; const char expected[] = "void f ( ) {\n" "char str1 [ 10 ] ; char str2 [ 10 ] ;\n" "sprintf ( str1 , \"abc\" ) ;\n" "strcpy ( str2 , \"abc\" ) ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } { //don't simplify '&x'! const char code[] = "const char * foo ( ) {\n" "const char x1 = 'b' ;\n" "f ( & x1 ) ;\n" "const char x2 = 'b' ;\n" "f ( y , & x2 ) ;\n" "const char x3 = 'b' ;\n" "t = & x3 ;\n" "const char x4 = 'b' ;\n" "t = y + & x4 ;\n" "const char x5 = 'b' ;\n" "z [ & x5 ] = y ;\n" "const char x6 = 'b' ;\n" "v = { & x6 } ;\n" "const char x7 = 'b' ;\n" "return & x7 ;\n" "}"; ASSERT_EQUALS(code, tokenizeAndStringify(code, true)); } { //don't simplify '&x'! const char code[] = "const int * foo ( ) {\n" "const int x1 = 1 ;\n" "f ( & x1 ) ;\n" "const int x2 = 1 ;\n" "f ( y , & x2 ) ;\n" "const int x3 = 1 ;\n" "t = & x3 ;\n" "const int x4 = 1 ;\n" "t = y + & x4 ;\n" "const int x5 = 1 ;\n" "z [ & x5 ] = y ;\n" "const int x6 = 1 ;\n" "v = { & x6 } ;\n" "const int x7 = 1 ;\n" "return & x7 ;\n" "}"; ASSERT_EQUALS(code, tokenizeAndStringify(code, true)); } } void simplifyKnownVariables51() { // #4409 hang const char code[] = "void mhz_M(int enough) {\n" " TYPE *x=&x, **p=x, **q = NULL;\n" " BENCH1(q = _mhz_M(n); n = 1;)\n" " use_pointer(q);\n" "}"; tokenizeAndStringify(code, true); // don't hang } void simplifyKnownVariables52() { // #4728 "= x %op%" ASSERT_EQUALS("void f ( ) { int y ; y = 34 + z ; }", tokenizeAndStringify("void f() { int x=34; int y=x+z; }", true)); ASSERT_EQUALS("void f ( ) { int y ; y = 34 - z ; }", tokenizeAndStringify("void f() { int x=34; int y=x-z; }", true)); ASSERT_EQUALS("void f ( ) { int y ; y = 34 * z ; }", tokenizeAndStringify("void f() { int x=34; int y=x*z; }", true)); ASSERT_EQUALS("void f ( ) { int y ; y = 34 / z ; }", tokenizeAndStringify("void f() { int x=34; int y=x/z; }", true)); ASSERT_EQUALS("void f ( ) { int y ; y = 34 % z ; }", tokenizeAndStringify("void f() { int x=34; int y=x%z; }", true)); ASSERT_EQUALS("void f ( ) { int y ; y = 34 & z ; }", tokenizeAndStringify("void f() { int x=34; int y=x&z; }", true)); ASSERT_EQUALS("void f ( ) { int y ; y = 34 | z ; }", tokenizeAndStringify("void f() { int x=34; int y=x|z; }", true)); ASSERT_EQUALS("void f ( ) { int y ; y = 34 ^ z ; }", tokenizeAndStringify("void f() { int x=34; int y=x^z; }", true)); ASSERT_EQUALS("void f ( ) { int y ; y = 34 << z ; }", tokenizeAndStringify("void f() { int x=34; int y=x<> z ; }", tokenizeAndStringify("void f() { int x=34; int y=x>>z; }", true)); ASSERT_EQUALS("void f ( ) { int y ; y = 34 && z ; }", tokenizeAndStringify("void f() { int x=34; int y=x&&z; }", true)); ASSERT_EQUALS("void f ( ) { int y ; y = 34 || z ; }", tokenizeAndStringify("void f() { int x=34; int y=x||z; }", true)); ASSERT_EQUALS("void f ( ) { int y ; y = 34 > z ; }", tokenizeAndStringify("void f() { int x=34; int y=x>z; }", true)); ASSERT_EQUALS("void f ( ) { int y ; y = 34 >= z ; }", tokenizeAndStringify("void f() { int x=34; int y=x>=z; }", true)); ASSERT_EQUALS("void f ( ) { int y ; y = 34 < z ; }", tokenizeAndStringify("void f() { int x=34; int y=xtype() == 1)); }", true)); } void simplifyKnownVariables53() { // references ASSERT_EQUALS("void f ( ) { int x ; x = abc ( ) ; }", tokenizeAndStringify("void f() { int x; int &ref=x; ref=abc(); }", true)); ASSERT_EQUALS("void f ( ) { int * p ; p = abc ( ) ; }", tokenizeAndStringify("void f() { int *p; int *&ref=p; ref=abc(); }", true)); } void simplifyKnownVariables54() { // #4913 ASSERT_EQUALS("void f ( int * p ) { * -- p = 0 ; * p = 0 ; }", tokenizeAndStringify("void f(int*p) { *--p=0; *p=0; }", true)); } void simplifyKnownVariables55() { // pointer alias ASSERT_EQUALS("void f ( ) { int a ; if ( a > 0 ) { } }", tokenizeAndStringify("void f() { int a; int *p=&a; if (*p>0) {} }", true)); ASSERT_EQUALS("void f ( ) { int a ; struct AB ab ; ab . a = & a ; if ( a > 0 ) { } }", tokenizeAndStringify("void f() { int a; struct AB ab; ab.a = &a; if (*ab.a>0) {} }", true)); ASSERT_EQUALS("void f ( ) { int a ; if ( x > a ) { } }", tokenizeAndStringify("void f() { int a; int *p=&a; if (x>*p) {} }", true)); } void simplifyKnownVariables56() { // ticket #5301 - >> ASSERT_EQUALS("void f ( ) { int a ; a = 0 ; int b ; b = 0 ; * p >> a >> b ; return a / b ; }", tokenizeAndStringify("void f() { int a=0,b=0; *p>>a>>b; return a/b; }", true)); } void simplifyKnownVariables57() { // #4724 ASSERT_EQUALS("unsigned long long x ; x = 9223372036854775808UL ;", tokenizeAndStringify("unsigned long long x = 1UL << 63 ;", true)); ASSERT_EQUALS("long long x ; x = -9223372036854775808L ;", tokenizeAndStringify("long long x = 1L << 63 ;", true)); } void simplifyKnownVariables58() { // #5268 const char code[] = "enum e { VAL1 = 1, VAL2 }; " "typedef char arr_t[VAL2]; " "int foo(int) ; " "void bar () { " " throw foo (VAL1); " "} " "int baz() { " " return sizeof(arr_t); " "}"; ASSERT_EQUALS("enum e { VAL1 = 1 , VAL2 } ; " "int foo ( int ) ; " "void bar ( ) { " "throw foo ( VAL1 ) ; " "} " "int baz ( ) { " "return sizeof ( char [ VAL2 ] ) ; " "}", tokenizeAndStringify(code, true)); } void simplifyKnownVariables59() { // #5062 - for head const char code[] = "void f() {\n" " int a[3], i, j;\n" " for(i = 0, j = 1; i < 3, j < 12; i++,j++) {\n" " a[i] = 0;\n" " }\n" "}"; ASSERT_EQUALS("void f ( ) {\n" "int a [ 3 ] ; int i ; int j ;\n" "for ( i = 0 , j = 1 ; i < 3 , j < 12 ; i ++ , j ++ ) {\n" "a [ i ] = 0 ;\n" "}\n" "}", tokenizeAndStringify(code, true)); } void simplifyKnownVariables60() { // #6829 const char code[] = "void f() {\n" " int i = 1;\n" " const int * const constPtrToConst = &i;\n" " std::cout << *constPtrToConst << std::endl;\n" " std::cout << constPtrToConst << std::endl;\n" "}"; ASSERT_EQUALS("void f ( ) {\n" "int i ; i = 1 ;\n" "const int * const constPtrToConst ; constPtrToConst = & i ;\n" "std :: cout << i << std :: endl ;\n" "std :: cout << & i << std :: endl ;\n" "}", tokenizeAndStringify(code, true)); } void simplifyKnownVariables61() { // #7805 tokenizeAndStringify("static const int XX = 0;\n" "enum E { XX };\n" "struct s {\n" " enum Bar {\n" " XX,\n" " Other\n" " };\n" " enum { XX };\n" "};", /*simplify=*/true); ASSERT_EQUALS("", errout.str()); } void simplifyKnownVariables62() { // #5666 ASSERT_EQUALS("void foo ( std :: string str ) {\n" "char * p ; p = & str [ 0 ] ;\n" "* p = 0 ;\n" "}", tokenizeAndStringify("void foo(std::string str) {\n" " char *p = &str[0];\n" " *p = 0;\n" "}", /*simplify=*/true)); } void simplifyKnownVariablesBailOutAssign1() { const char code[] = "int foo() {\n" " int i; i = 0;\n" " if (x) { i = 10; }\n" " return i;\n" "}\n"; const char expected[] = "int foo ( ) {\n" "int i ; i = 0 ;\n" "if ( x ) { i = 10 ; }\n" "return i ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyKnownVariablesBailOutAssign2() { // ticket #3032 - assignment in condition const char code[] = "void f(struct ABC *list) {\n" " struct ABC *last = NULL;\n" " nr = (last = list->prev)->nr;\n" // <- don't replace "last" with 0 "}\n"; const char expected[] = "void f ( struct ABC * list ) {\n" "struct ABC * last ; last = NULL ;\n" "nr = ( last = list . prev ) . nr ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyKnownVariablesBailOutAssign3() { // #4395 - nested assignments const char code[] = "void f() {\n" " int *p = 0;\n" " a = p = (VdbeCursor*)pMem->z;\n" " return p ;\n" "}\n"; const char expected[] = "void f ( ) {\n" "int * p ; p = 0 ;\n" "a = p = pMem . z ;\n" "return p ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyKnownVariablesBailOutFor1() { const char code[] = "void foo() {\n" " for (int i = 0; i < 10; ++i) { }\n" "}\n"; const char expected[] = "void foo ( ) {\n" "for ( int i = 0 ; i < 10 ; ++ i ) { }\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); ASSERT_EQUALS("", errout.str()); // debug warnings } void simplifyKnownVariablesBailOutFor2() { const char code[] = "void foo() {\n" " int i = 0;\n" " while (i < 10) { ++i; }\n" "}\n"; const char expected[] = "void foo ( ) {\n" "int i ; i = 0 ;\n" "while ( i < 10 ) { ++ i ; }\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); ASSERT_EQUALS("", errout.str()); // debug warnings } void simplifyKnownVariablesBailOutFor3() { const char code[] = "void foo() {\n" " for (std::string::size_type pos = 0; pos < 10; ++pos)\n" " { }\n" "}\n"; const char expected[] = "void foo ( ) {\n" "for ( std :: string :: size_type pos = 0 ; pos < 10 ; ++ pos )\n" "{ }\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); ASSERT_EQUALS("", errout.str()); // debug warnings } void simplifyKnownVariablesBailOutMemberFunction() { const char code[] = "void foo(obj a) {\n" " obj b = a;\n" " b.f();\n" "}\n"; const char expected[] = "void foo ( obj a ) {\n" "obj b ; b = a ;\n" "b . f ( ) ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true)); } void simplifyKnownVariablesBailOutConditionalIncrement() { const char code[] = "int f() {\n" " int a = 0;\n" " if (x) {\n" " ++a;\n" // conditional increment " }\n" " return a;\n" "}\n"; tokenizeAndStringify(code,true); ASSERT_EQUALS("", errout.str()); // no debug warnings } void simplifyKnownVariablesBailOutSwitchBreak() { // Ticket #2324 const char code[] = "int f(char *x) {\n" " char *p;\n" " char *q;\n" "\n" " switch (x & 0x3)\n" " {\n" " case 1:\n" " p = x;\n" " x = p;\n" " break;\n" " case 2:\n" " q = x;\n" // x is not equal with p " x = q;\n" " break;\n" " }\n" "}\n"; const char expected[] = "int f ( char * x ) {\n" "char * p ;\n" "char * q ;\n" "\n" "switch ( x & 3 )\n" "{\n" "case 1 : ;\n" "p = x ;\n" "x = p ;\n" "break ;\n" "case 2 : ;\n" "q = x ;\n" "x = q ;\n" "break ;\n" "}\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code,true)); } void simplifyKnownVariablesFloat() { // Ticket #2454 const char code[] = "void f() {\n" " float a = 40;\n" " x(10 / a);\n" "}\n"; const char expected[] = "void f ( ) {\n\nx ( 0.25 ) ;\n}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code,true)); // Ticket #4227 const char code2[] = "double f() {" " double a = false;" " return a;" "}"; ASSERT_EQUALS("double f ( ) { return 0.0 ; }", tokenizeAndStringify(code2,true)); // Ticket #5485 const char code3[] = "void f() {" " double a = 1e+007;\n" " std::cout << a;\n" "}"; ASSERT_EQUALS("void f ( ) {\nstd :: cout << 1e+007 ;\n}", tokenizeAndStringify(code3,true)); const char code4[] = "void f() {" " double a = 1;\n" " std::cout << a;\n" "}"; ASSERT_EQUALS("void f ( ) {\nstd :: cout << 1.0 ;\n}", tokenizeAndStringify(code4,true)); } void simplifyKnownVariablesFunctionCalls() { { const char code[] = "void a(int x);" // <- x is passed by value "void b() {" " int x = 123;" " a(x);" // <- replace with a(123); "}"; const char expected[] = "void a ( int x ) ; void b ( ) { a ( 123 ) ; }"; ASSERT_EQUALS(expected, tokenizeAndStringify(code,true)); } { const char code[] = "void a(int &x);" // <- x is passed by reference "void b() {" " int x = 123;" " a(x);" // <- don't replace with a(123); "}"; const char expected[] = "void a ( int & x ) ; void b ( ) { int x ; x = 123 ; a ( x ) ; }"; ASSERT_EQUALS(expected, tokenizeAndStringify(code,true)); } } void simplifyKnownVariablesGlobalVars() { // #8054 const char code[] = "static int x;" "void f() {" " x = 123;" " while (!x) { dostuff(); }" "}"; ASSERT_EQUALS("static int x ; void f ( ) { x = 123 ; while ( ! x ) { dostuff ( ) ; } }", tokenizeAndStringify(code,true)); } void simplifyKnownVariablesReturn() { const char code[] = "int a() {" " int x = 123;" " return (x);" "}"; ASSERT_EQUALS("int a ( ) { return 123 ; }", tokenizeAndStringify(code,true)); } void simplifyKnownVariablesPointerAliasFunctionCall() { // #7440 const char code[] = "int main() {\n" " char* data = new char[100];\n" " char** dataPtr = &data;\n" " printf(\"test\");\n" " delete [] *dataPtr;\n" "}"; const char exp[] = "int main ( ) {\n" "char * data ; data = new char [ 100 ] ;\n" "char * * dataPtr ; dataPtr = & data ;\n" "printf ( \"test\" ) ;\n" "delete [ ] data ;\n" "}"; ASSERT_EQUALS(exp, tokenizeAndStringify(code, /*simplify=*/true)); } void simplifyKnownVariablesClassMember() { // Ticket #2815 { const char code[] = "char *a;\n" "void f(const char *s) {\n" " a = NULL;\n" " x();\n" " memcpy(a, s, 10);\n" // <- don't simplify "a" here "}\n"; const std::string s(tokenizeAndStringify(code, true)); ASSERT_EQUALS(true, s.find("memcpy ( a , s , 10 ) ;") != std::string::npos); } // If the variable is local then perform simplification.. { const char code[] = "void f(const char *s) {\n" " char *a = NULL;\n" " x();\n" " memcpy(a, s, 10);\n" // <- simplify "a" "}\n"; const std::string s(tokenizeAndStringify(code, true)); TODO_ASSERT_EQUALS(true, false, s.find("memcpy ( 0 , s , 10 ) ;") != std::string::npos); } } void simplifyExternC() { ASSERT_EQUALS("int foo ( ) ;", tokenizeAndStringify("extern \"C\" int foo();")); ASSERT_EQUALS("int foo ( ) ;", tokenizeAndStringify("extern \"C\" { int foo(); }")); } void simplifyFunctionParameters() { { const char code[] = "char a [ ABC ( DEF ) ] ;"; ASSERT_EQUALS(code, tokenizeAndStringify(code)); } { const char code[] = "module ( a , a , sizeof ( a ) , 0444 ) ;"; ASSERT_EQUALS("module ( a , a , sizeof ( a ) , 292 ) ;", tokenizeAndStringify(code)); } ASSERT_EQUALS("void f ( int x ) { }", tokenizeAndStringify("void f(x) int x; { }")); ASSERT_EQUALS("void f ( int x , char y ) { }", tokenizeAndStringify("void f(x,y) int x; char y; { }")); ASSERT_EQUALS("int main ( int argc , char * argv [ ] ) { }", tokenizeAndStringify("int main(argc,argv) int argc; char *argv[]; { }")); ASSERT_EQUALS("int f ( int p , int w , float d ) { }", tokenizeAndStringify("int f(p,w,d) float d; { }")); // #1067 - Not simplified. Feel free to fix so it is simplified correctly but this syntax is obsolescent. ASSERT_EQUALS("int ( * d ( a , b , c ) ) ( ) int a ; int b ; int c ; { }", tokenizeAndStringify("int (*d(a,b,c))()int a,b,c; { }")); { // This is not a function but the pattern is similar.. const char code[] = "void foo()" "{" " if (x)" " int x;" " { }" "}"; ASSERT_EQUALS("void foo ( ) { if ( x ) { } { } }", tokenizeAndStringify(code, true)); } // #3770 - Don't segfault and don't change macro argument as if it's a K&R function argument { const char code[] = "MACRO(a)" "" "void f()" "{" " SetLanguage();" " {" " }" "}"; ASSERT_EQUALS("MACRO ( a ) void f ( ) { SetLanguage ( ) ; { } }", tokenizeAndStringify(code)); } } void simplifyFunctionParameters1() { // ticket #3721 const char code[] = "typedef float ufloat;\n" "typedef short ftnlen;\n" "int f(p,w,d,e,len) ufloat *p; ftnlen len;\n" "{\n" "}\n"; ASSERT_EQUALS("int f ( float * p , int w , int d , int e , short len )\n" "{\n" "}", tokenizeAndStringify(code)); } void simplifyFunctionParameters2() { // #4430 const char code[] = "class Item { " "int i ; " "public: " "Item ( int i ) ; " "} ; " "Item :: Item ( int i ) : i ( i ) { }"; ASSERT_EQUALS(code, tokenizeAndStringify(code)); } void simplifyFunctionParameters3() { // #4436 const char code[] = "class Item { " "int i ; " "int j ; " "public: " "Item ( int i , int j ) ; " "} ; " "Item :: Item ( int i , int j ) : i ( i ) , j ( j ) { }"; ASSERT_EQUALS(code, tokenizeAndStringify(code)); } void simplifyFunctionParametersMultiTemplate() { const char code[] = "template < typename T1 > template < typename T2 > " "void A < T1 > :: foo ( T2 ) { }"; ASSERT_EQUALS(code, tokenizeAndStringify(code)); } void simplifyFunctionParametersErrors() { //same parameters... ASSERT_THROW(tokenizeAndStringify("void foo(x, x)\n" " int x;\n" " int x;\n" "{}\n"), InternalError); ASSERT_THROW(tokenizeAndStringify("void foo(x, y)\n" " int x;\n" " int x;\n" "{}\n"), InternalError); tokenizeAndStringify("void foo(int, int)\n" "{}\n"); ASSERT_EQUALS("", errout.str()); // #3848 - Don't hang tokenizeAndStringify("sal_Bool ShapeHasText(sal_uLong, sal_uLong) const {\n" " return sal_True;\n" "}\n" "void CreateSdrOLEFromStorage() {\n" " comphelper::EmbeddedObjectContainer aCnt( xDestStorage );\n" " { }\n" "}"); ASSERT_EQUALS("", errout.str()); } // Simplify "((..))" into "(..)" void removeParentheses1() { const char code[] = "void foo()" "{" " free(((void*)p));" "}"; ASSERT_EQUALS("void foo ( ) { free ( p ) ; }", tokenizeAndStringify(code, true)); } void removeParentheses3() { { const char code[] = "void foo()" "{" " if (( true )==(true)){}" "}"; ASSERT_EQUALS("void foo ( ) { }", tokenizeAndStringify(code, true)); } { const char code[] = "void foo()" "{" " if (( 2 )==(2)){}" "}"; ASSERT_EQUALS("void foo ( ) { }", tokenizeAndStringify(code, true)); } { const char code[] = "void foo()" "{" " if( g(10)){}" "}"; ASSERT_EQUALS("void foo ( ) { if ( g ( 10 ) ) { } }", tokenizeAndStringify(code)); } } // Simplify "( function (..))" into "function (..)" void removeParentheses4() { const char code[] = "void foo()" "{" " (free(p));" "}"; ASSERT_EQUALS("void foo ( ) { free ( p ) ; }", tokenizeAndStringify(code)); } void removeParentheses5() { // Simplify "( delete x )" into "delete x" { const char code[] = "void foo()" "{" " (delete p);" "}"; ASSERT_EQUALS("void foo ( ) { delete p ; }", tokenizeAndStringify(code)); } // Simplify "( delete [] x )" into "delete [] x" { const char code[] = "void foo()" "{" " (delete [] p);" "}"; ASSERT_EQUALS("void foo ( ) { delete [ ] p ; }", tokenizeAndStringify(code)); } } // "!(abc.a)" => "!abc.a" void removeParentheses6() { { const char code[] = "(!(abc.a));"; ASSERT_EQUALS("( ! abc . a ) ;", tokenizeAndStringify(code)); } //handle more complex member selections { const char code[] = "(!(a.b.c.d));"; ASSERT_EQUALS("( ! a . b . c . d ) ;", tokenizeAndStringify(code)); } } void removeParentheses7() { const char code[] = ";char *p; (delete(p), (p)=0);"; ASSERT_EQUALS("; char * p ; delete p ; p = 0 ;", tokenizeAndStringify(code,true)); } void removeParentheses8() { const char code[] = "struct foo {\n" " void operator delete(void *obj, size_t sz);\n" "}\n"; const std::string actual(tokenizeAndStringify(code, false, true, Settings::Win32A)); const char expected[] = "struct foo {\n" "void operatordelete ( void * obj , unsigned long sz ) ;\n" "}"; ASSERT_EQUALS(expected, actual); } void removeParentheses9() { ASSERT_EQUALS("void delete ( double num ) ;", tokenizeAndStringify("void delete(double num);", false)); } void removeParentheses10() { ASSERT_EQUALS("p = buf + 8 ;", tokenizeAndStringify("p = (buf + 8);", false)); } void removeParentheses11() { // #2502 ASSERT_EQUALS("{ } x ( ) ;", tokenizeAndStringify("{}(x());", false)); } void removeParentheses12() { // #2760 ASSERT_EQUALS(", x = 0 ;", tokenizeAndStringify(",(x)=0;", false)); } void removeParentheses13() { ASSERT_EQUALS("; f ( a + b , c ) ;", tokenizeAndStringify(";f((a+b),c);", false)); ASSERT_EQUALS("; x = y [ a + b ] ;", tokenizeAndStringify(";x=y[(a+b)];", false)); } void removeParentheses14() { ASSERT_EQUALS("; if ( ( i & 1 ) == 0 ) { ; } ;", tokenizeAndStringify("; if ( (i & 1) == 0 ); ;", false)); } void removeParentheses15() { ASSERT_EQUALS("a = b ? c : 123 ;", tokenizeAndStringify("a = b ? c : (123);", false)); ASSERT_EQUALS("a = b ? c : ( 123 + 456 ) ;", tokenizeAndStringify("a = b ? c : ((123)+(456));", false)); ASSERT_EQUALS("a = b ? 123 : c ;", tokenizeAndStringify("a = b ? (123) : c;", false)); // #4316 ASSERT_EQUALS("a = b ? c : ( d = 1 , 0 ) ;", tokenizeAndStringify("a = b ? c : (d=1,0);", false)); } void removeParentheses16() { // *(x.y)= // #4423 ASSERT_EQUALS("; * x = 0 ;", tokenizeAndStringify(";*(x)=0;", false)); ASSERT_EQUALS("; * x . y = 0 ;", tokenizeAndStringify(";*(x.y)=0;", false)); } void removeParentheses17() { // a ? b : (c > 0 ? d : e) ASSERT_EQUALS("a ? b : ( c > 0 ? d : e ) ;", tokenizeAndStringify("a?b:(c>0?d:e);", false)); } void removeParentheses18() { ASSERT_EQUALS("float ( * a ) [ 2 ] ;", tokenizeAndStringify("float(*a)[2];", false)); } void removeParentheses19() { ASSERT_EQUALS("( ( ( typeof ( X ) ) * ) 0 ) ;", tokenizeAndStringify("(((typeof(X))*)0);", false)); } void removeParentheses20() { ASSERT_EQUALS("a < b < int > > ( 2 ) ;", tokenizeAndStringify("a>(2);", false)); } void removeParentheses21() { ASSERT_EQUALS("a = ( int ) - b ;", tokenizeAndStringify("a = ((int)-b);", false)); } void removeParentheses22() { static char code[] = "struct S { " "char *(a); " "char &(b); " "const static char *(c); " "} ;"; static char exp[] = "struct S { " "char * a ; " "char & b ; " "static const char * c ; " "} ;"; ASSERT_EQUALS(exp, tokenizeAndStringify(code)); } void removeParentheses23() { // Ticket #6103 // Reported case { static char code[] = "; * * p f ( ) int = { new int ( * [ 2 ] ) ; void }"; static char exp[] = "; * * p f ( ) int = { new int ( * [ 2 ] ) ; void }"; ASSERT_EQUALS(exp, tokenizeAndStringify(code)); } // Various valid cases { static char code[] = "int * f [ 1 ] = { new ( int ) } ;"; static char exp[] = "int * f [ 1 ] = { new int } ;"; ASSERT_EQUALS(exp, tokenizeAndStringify(code)); } { static char code[] = "int * * f [ 1 ] = { new ( int ) [ 1 ] } ;"; static char exp[] = "int * * f [ 1 ] = { new int [ 1 ] } ;"; ASSERT_EQUALS(exp, tokenizeAndStringify(code)); } { static char code[] = "list < int > * f [ 1 ] = { new ( list < int > ) } ;"; static char exp[] = "list < int > * f [ 1 ] = { new list < int > } ;"; ASSERT_EQUALS(exp, tokenizeAndStringify(code)); } // don't remove parentheses in operator new overload { static char code[] = "void *operator new(__SIZE_TYPE__, int);"; static char exp[] = "void * operatornew ( __SIZE_TYPE__ , int ) ;"; ASSERT_EQUALS(exp, tokenizeAndStringify(code)); } } void removeParentheses24() { // Ticket #7040 static char code[] = "std::hash()(t._data);"; static char exp[] = "std :: hash < decltype ( t . _data ) > ( ) ( t . _data ) ;"; ASSERT_EQUALS(exp, tokenizeAndStringify(code)); } void tokenize_double() { const char code[] = "void f() {\n" " double a = 4.2;\n" " float b = 4.2f;\n" " double c = 4.2e+10;\n" " double d = 4.2e-10;\n" " int e = 4+2;\n" "}"; ASSERT_EQUALS("void f ( ) {\n" "double a ; a = 4.2 ;\n" "float b ; b = 4.2f ;\n" "double c ; c = 4.2e+10 ;\n" "double d ; d = 4.2e-10 ;\n" "int e ; e = 4 + 2 ;\n" "}", tokenizeAndStringify(code)); } void tokenize_strings() { const char code[] = "void f() {\n" "const char *a =\n" "{\n" "\"hello \"\n" "\"more \"\n" "\"world\"\n" "};\n" "}"; ASSERT_EQUALS("void f ( ) {\n" "const char * a ; a =\n" "{\n" "\"hello more world\"\n" "\n" "\n" "} ;\n" "}", tokenizeAndStringify(code)); } void simplify_constants() { const char code[] = "void f() {\n" "const int a = 45;\n" "if( a )\n" "{ int b = a; }\n" "}\n" "void g() {\n" "int a = 2;\n" "}"; ASSERT_EQUALS("void f ( ) {\n" "\n" "\n" "\n" "}\n" "void g ( ) {\n" "\n" "}", tokenizeAndStringify(code, true)); } void simplify_constants2() { const char code[] = "void f( Foo &foo, Foo *foo2 ) {\n" "const int a = 45;\n" "foo.a=a+a;\n" "foo2->a=a;\n" "}"; ASSERT_EQUALS("void f ( Foo & foo , Foo * foo2 ) {\n" "\n" "foo . a = 90 ;\n" "foo2 . a = 45 ;\n" "}", tokenizeAndStringify(code, true)); } void simplify_constants3() { const char code[] = "static const char str[] = \"abcd\";\n" "static const unsigned int SZ = sizeof(str);\n" "void f() {\n" "a = SZ;\n" "}\n"; const char expected[] = "static const char str [ 5 ] = \"abcd\" ;\n\nvoid f ( ) {\na = 5 ;\n}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code,true)); } void simplify_constants4() { const char code[] = "static const int bSize = 4;\n" "static const int aSize = 50;\n" "x = bSize;\n" "y = aSize;\n"; ASSERT_EQUALS("x = 4 ;\ny = 50 ;", tokenizeAndStringify(code,true)); } void simplify_constants5() { const char code[] = "int buffer[10];\n" "static const int NELEMS = sizeof(buffer)/sizeof(int);\n" "static const int NELEMS2(sizeof(buffer)/sizeof(int));\n" "x = NELEMS;\n" "y = NELEMS2;\n"; ASSERT_EQUALS("int buffer [ 10 ] ;\n\n\nx = 10 ;\ny = 10 ;", tokenizeAndStringify(code,true)); } void simplify_constants6() { // Ticket #5625 { const char code[] = "template < class T > struct foo ;\n" "void bar ( ) {\n" "foo < 1 ? 0 ? 1 : 6 : 2 > x ;\n" "foo < 1 ? 0 : 2 > y ;\n" "}"; const char exp [] = "template < class T > struct foo ;\n" "void bar ( ) {\n" "foo < 6 > x ;\n" "foo < 0 > y ;\n" "}"; ASSERT_EQUALS(exp, tokenizeAndStringify(code, true)); } { const char code[] = "bool b = true ? false : 1 > 2 ;"; const char exp [] = "bool b ; b = false ;"; ASSERT_EQUALS(exp, tokenizeAndStringify(code, true)); } } void simplifyMulAndParens() { // (error) Resource leak const char code[] = "void f() {" " *&n1=open();" " *&(n2)=open();" " *(&n3)=open();" " *&*&n4=open();" " *&*&*&(n5)=open();" " *&*&(*&n6)=open();" " *&*(&*&n7)=open();" " *(&*&n8)=open();" " *&(*&*&(*&n9))=open();" " (n10) = open();" " ((n11)) = open();" " ((*&n12))=open();" " *(&(*&n13))=open();" " ((*&(*&n14)))=open();" " ((*&(*&n15)))+=10;" "}"; const char expected[] = "void f ( ) {" " n1 = open ( ) ;" " n2 = open ( ) ;" " n3 = open ( ) ;" " n4 = open ( ) ;" " n5 = open ( ) ;" " n6 = open ( ) ;" " n7 = open ( ) ;" " n8 = open ( ) ;" " n9 = open ( ) ;" " n10 = open ( ) ;" " n11 = open ( ) ;" " n12 = open ( ) ;" " n13 = open ( ) ;" " n14 = open ( ) ;" " n15 += 10 ; " "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } void simplifyStructDecl() { const char code[] = "const struct A { int a; int b; } a;"; ASSERT_EQUALS("struct A { int a ; int b ; } ; const struct A a ;", tokenizeAndStringify(code)); } void vardecl1() { const char code[] = "unsigned int a, b;"; const std::string actual(tokenizeAndStringify(code)); ASSERT_EQUALS("unsigned int a ; unsigned int b ;", actual); } void vardecl2() { const char code[] = "void foo(a,b) unsigned int a, b; { }"; const std::string actual(tokenizeAndStringify(code)); ASSERT_EQUALS("void foo ( unsigned int a , unsigned int b ) { }", actual); } void vardecl3() { const char code[] = "void f() { char * p = foo<10,char>(); }"; const std::string actual(tokenizeAndStringify(code)); ASSERT_EQUALS("void f ( ) { char * p ; p = foo < 10 , char > ( ) ; }", actual); } void vardecl4() { // ticket #346 const char code1[] = "void *p = NULL;"; const char res1[] = "void * p ; p = NULL ;"; ASSERT_EQUALS(res1, tokenizeAndStringify(code1)); const char code2[] = "const void *p = NULL;"; const char res2[] = "const void * p ; p = NULL ;"; ASSERT_EQUALS(res2, tokenizeAndStringify(code2)); const char code3[] = "void * const p = NULL;"; const char res3[] = "void * const p ; p = NULL ;"; ASSERT_EQUALS(res3, tokenizeAndStringify(code3)); const char code4[] = "const void * const p = NULL;"; const char res4[] = "const void * const p ; p = NULL ;"; ASSERT_EQUALS(res4, tokenizeAndStringify(code4)); } void vardecl5() { ASSERT_EQUALS("void foo ( int nX ) {\n" "int addI ; addI = frontPoint == 2 || frontPoint == 1 ? ( i = 0 , 1 ) : ( i = nX - 2 , -1 ) ;\n" "}", tokenizeAndStringify("void foo(int nX) {\n" " int addI = frontPoint == 2 || frontPoint == 1 ? i = 0, 1 : (i = nX - 2, -1);\n" "}")); } void vardecl_stl_1() { // ticket #520 const char code1[] = "std::vectora, b;"; const char res1[] = "std :: vector < std :: string > a ; std :: vector < std :: string > b ;"; ASSERT_EQUALS(res1, tokenizeAndStringify(code1)); const char code2[] = "std::vector::const_iterator it, cit;"; const char res2[] = "std :: vector < std :: string > :: const_iterator it ; std :: vector < std :: string > :: const_iterator cit ;"; ASSERT_EQUALS(res2, tokenizeAndStringify(code2)); const char code3[] = "std::vector > *c, d;"; const char res3[] = "std :: vector < std :: pair < std :: string , std :: string > > * c ; std :: vector < std :: pair < std :: string , std :: string > > d ;"; ASSERT_EQUALS(res3, tokenizeAndStringify(code3)); } void vardecl_stl_2() { const char code1[] = "{ std::string x = \"abc\"; }"; ASSERT_EQUALS("{ std :: string x ; x = \"abc\" ; }", tokenizeAndStringify(code1)); const char code2[] = "{ std::vector x = y; }"; ASSERT_EQUALS("{ std :: vector < int > x ; x = y ; }", tokenizeAndStringify(code2)); } void vardecl_template_1() { // ticket #1046 const char code1[] = "b<(1<<24),10,24> u, v;"; const char res1[] = "b < 16777216 , 10 , 24 > u ; b < 16777216 , 10 , 24 > v ;"; ASSERT_EQUALS(res1, tokenizeAndStringify(code1)); // ticket #3571 (segmentation fault) tokenizeAndStringify("template 4) > class X4 {};"); } void vardecl_template_2() { // ticket #3650 const char code[] = "const string str = x<8,int>();"; const char expected[] = "const string str = x < 8 , int > ( ) ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } void vardecl_union() { // ticket #1976 const char code1[] = "class Fred { public: union { int a ; int b ; } ; } ;"; ASSERT_EQUALS(code1, tokenizeAndStringify(code1)); // ticket #2039 const char code2[] = "void f() {\n" " union {\n" " int x;\n" " long y;\n" " };\n" "}"; ASSERT_EQUALS("void f ( ) {\n\nint x ;\nlong & y = x ;\n\n}", tokenizeAndStringify(code2)); // ticket #3927 const char code3[] = "union xy *p = NULL;"; ASSERT_EQUALS("union xy * p ; p = NULL ;", tokenizeAndStringify(code3)); } void vardecl_par() { // ticket #2743 - set links if variable type contains parentheses const char code[] = "Fred fred1=a, fred2=b;"; ASSERT_EQUALS("Fred < int ( * ) ( ) > fred1 ; fred1 = a ; Fred < int ( * ) ( ) > fred2 ; fred2 = b ;", tokenizeAndStringify(code)); } void vardecl_par2() { // ticket #3912 - set correct links const char code[] = "function)> v;"; ASSERT_EQUALS("function < void ( shared_ptr < MyClass > ) > v ;", tokenizeAndStringify(code)); } void vardecl_par3() { // ticket #6556- Fred x1(a), x2(b); const char code[] = "Fred x1(a), x2(b);"; ASSERT_EQUALS("Fred x1 ( a ) ; Fred x2 ( b ) ;", tokenizeAndStringify(code)); } void vardecl_class_ref() { const char code[] = "class A { B &b1,&b2; };"; ASSERT_EQUALS("class A { B & b1 ; B & b2 ; } ;", tokenizeAndStringify(code)); } void vardec_static() { { // don't simplify declarations of static variables // "static int i = 0;" is not the same as "static int i; i = 0;" const char code[] = "static int i = 0 ;"; ASSERT_EQUALS(code, tokenizeAndStringify(code)); } { const char code[] = "static int a, b;"; ASSERT_EQUALS("static int a ; static int b ;", tokenizeAndStringify(code)); } { const char code[] = "static unsigned int a, b;"; ASSERT_EQUALS("static unsigned int a ; static unsigned int b ;", tokenizeAndStringify(code)); } { const char code[] = "static int a=1, b=1;"; ASSERT_EQUALS("static int a = 1 ; static int b = 1 ;", tokenizeAndStringify(code)); } { const char code[] = "static int *a, *b;"; ASSERT_EQUALS("static int * a ; static int * b ;", tokenizeAndStringify(code)); } { const char code[] = "static unsigned int *a=0, *b=0;"; ASSERT_EQUALS("static unsigned int * a = 0 ; static unsigned int * b = 0 ;", tokenizeAndStringify(code)); } { // Ticket #4450 const char code[] = "static int large_eeprom_type = (13 | (5)), " "default_flash_type = 42;"; ASSERT_EQUALS("static int large_eeprom_type = 13 | 5 ; static int default_flash_type = 42 ;", tokenizeAndStringify(code)); } { // Ticket #5121 const char code[] = "unsigned int x;" "static const unsigned int A = 1, B = A, C = 0, D = (A), E = 0;" "void f() {" " unsigned int *foo = &x;" "}"; ASSERT_EQUALS("unsigned int x ; " "static const unsigned int A = 1 ; " "static const unsigned int B = A ; " "static const unsigned int C = 0 ; " "static const unsigned int D = A ; " "static const unsigned int E = 0 ; " "void f ( ) { " "unsigned int * foo ; " "foo = & x ; " "}", tokenizeAndStringify(code)); } { // Ticket #5266 const char code[] = "class Machine {\n" " static int const STACK_ORDER = 10, STACK_MAX = 1 << STACK_ORDER," " STACK_GUARD = 2;\n" "};"; ASSERT_EQUALS("class Machine {\n" "static const int STACK_ORDER = 10 ; static const int STACK_MAX = 1 << STACK_ORDER ; " "static const int STACK_GUARD = 2 ;\n" "} ;", tokenizeAndStringify(code)); } } void vardecl6() { // ticket #565 const char code1[] = "int z = x >> 16;"; const char res1[] = "int z ; z = x >> 16 ;"; ASSERT_EQUALS(res1, tokenizeAndStringify(code1)); } void vardecl7() { // ticket #603 const char code[] = "void f() {\n" " for (int c = 0; c < 0; ++c) {}\n" " int t;\n" " D(3 > t, \"T\");\n" "}"; const char res[] = "void f ( ) {\n" "for ( int c = 0 ; c < 0 ; ++ c ) { }\n" "int t ;\n" "D ( 3 > t , \"T\" ) ;\n" "}"; ASSERT_EQUALS(res, tokenizeAndStringify(code)); } void vardecl8() { // ticket #696 const char code[] = "char a[10]={'\\0'}, b[10]={'\\0'};"; const char res[] = "char a [ 10 ] = { '\\0' } ; char b [ 10 ] = { '\\0' } ;"; ASSERT_EQUALS(res, tokenizeAndStringify(code)); } void vardecl9() { const char code[] = "char a[2] = {'A', '\\0'}, b[2] = {'B', '\\0'};"; const char res[] = "char a [ 2 ] = { 'A' , '\\0' } ; char b [ 2 ] = { 'B' , '\\0' } ;"; ASSERT_EQUALS(res, tokenizeAndStringify(code)); } void vardecl10() { // ticket #732 const char code[] = "char a [ 2 ] = { '-' } ; memset ( a , '-' , sizeof ( a ) ) ;"; ASSERT_EQUALS(code, tokenizeAndStringify(code)); } void vardecl11() { // ticket #1684 const char code[] = "char a[5][8], b[5][8];"; ASSERT_EQUALS("char a [ 5 ] [ 8 ] ; char b [ 5 ] [ 8 ] ;", tokenizeAndStringify(code)); } void vardecl12() { const char code[] = "struct A { public: B a, b, c, d; };"; ASSERT_EQUALS("struct A { public: B a ; B b ; B c ; B d ; } ;", tokenizeAndStringify(code)); } void vardecl13() { const char code[] = "void f() {\n" " int a = (x < y) ? 1 : 0;\n" "}"; ASSERT_EQUALS("void f ( ) {\nint a ; a = ( x < y ) ? 1 : 0 ;\n}", tokenizeAndStringify(code)); } void vardecl14() { const char code[] = "::std::tr1::shared_ptr pNum1, pNum2;\n"; ASSERT_EQUALS(":: std :: tr1 :: shared_ptr < int > pNum1 ; :: std :: tr1 :: shared_ptr < int > pNum2 ;", tokenizeAndStringify(code, false, false, Settings::Native, "test.cpp", false)); } void vardecl15() { const char code[] = "const char x[] = \"foo\", y[] = \"bar\";\n"; ASSERT_EQUALS("const char x [ 4 ] = \"foo\" ; const char y [ 4 ] = \"bar\" ;", tokenizeAndStringify(code)); } void vardecl16() { { const char code[] = "const a::b::g::h::l *x [] = foo(),y [][] = bar();\n"; ASSERT_EQUALS("const a :: b < c , d ( e ) , f > :: g :: h < i > :: l * x [ ] = foo ( ) ; " "const a :: b < c , d ( e ) , f > :: g :: h < i > :: l y [ ] [ ] = bar ( ) ;", tokenizeAndStringify(code)); } { const char code[] = "const ::b::g::h::l *x [] = foo(),y [][] = bar();\n"; ASSERT_EQUALS("const :: b < c , d ( e ) , f > :: g :: h < i > :: l * x [ ] = foo ( ) ; " "const :: b < c , d ( e ) , f > :: g :: h < i > :: l y [ ] [ ] = bar ( ) ;", tokenizeAndStringify(code)); } } void vardecl17() { const char code[] = "a < b > :: c :: d :: e < f > x = foo(), y = bar();\n"; ASSERT_EQUALS("a < b > :: c :: d :: e < f > x ; x = foo ( ) ; " "a < b > :: c :: d :: e < f > y ; y = bar ( ) ;", tokenizeAndStringify(code)); } void vardecl18() { const char code[] = "void f() {\n" " g((double)v1*v2, v3, v4);\n" "}\n"; ASSERT_EQUALS("void f ( ) {\n" "g ( ( double ) v1 * v2 , v3 , v4 ) ;\n" "}", tokenizeAndStringify(code)); } void vardecl19() { { const char code[] = "void func(in, r, m)\n" "int in;" "int r,m;" "{\n" "}\n"; ASSERT_EQUALS("void func (\n" "int in ,\n" "int r ,\n" "int m )\n" "{\n" "}", tokenizeAndStringify(code)); } { const char code[] = "void f(r,f)\n" "char *r;\n" "{\n" "}\n"; ASSERT_EQUALS("void f (\n" "char * r )\n" "\n" "{\n" "}", tokenizeAndStringify(code)); } { const char code[] = "void f(f)\n" "{\n" "}\n"; ASSERT_EQUALS("void f ( )\n" "{\n" "}", tokenizeAndStringify(code)); } { const char code[] = "void f(f,r)\n" "char *r;\n" "{\n" "}\n"; ASSERT_EQUALS("void f (\n" "char * r )\n" "\n" "{\n" "}", tokenizeAndStringify(code)); } { const char code[] = "void f(r,f,s)\n" "char *r;\n" "char *s;\n" "{\n" "}\n"; ASSERT_EQUALS("void f (\n" "char * r ,\n" "\n" "char * s )\n" "\n" "\n" "{\n" "}", tokenizeAndStringify(code)); } { const char code[] = "void f(r,s,t)\n" "char *r,*s,*t;\n" "{\n" "}\n"; ASSERT_EQUALS("void f (\n" "char * r ,\n" "char * s ,\n" "char * t )\n" "\n" "{\n" "}", tokenizeAndStringify(code)); } { const char code[] = "void f(a, b) register char *a, *b;\n" "{\n" "}\n"; ASSERT_EQUALS("void f ( char * a , char * b )\n" "{\n" "}", tokenizeAndStringify(code)); } } void vardecl20() { // #3700 const char code[] = "void a::b() const\n" "{\n" " register const int X = 0;\n" "}\n"; ASSERT_EQUALS("void a :: b ( ) const\n" "{\n" "const int X = 0 ;\n" "}", tokenizeAndStringify(code)); } void vardecl21() { // type in namespace // #4042 - a::b const *p = 0; const char code1[] = "void f() {\n" " a::b const *p = 0;\n" "}\n"; ASSERT_EQUALS("void f ( ) {\n" "const a :: b * p ; p = 0 ;\n" "}" , tokenizeAndStringify(code1)); // #4226 - ::a::b const *p = 0; const char code2[] = "void f() {\n" " ::a::b const *p = 0;\n" "}\n"; ASSERT_EQUALS("void f ( ) {\n" "const :: a :: b * p ; p = 0 ;\n" "}" , tokenizeAndStringify(code2)); } void vardecl22() { // #4211 - segmentation fault tokenizeAndStringify("A> >* p = 0;"); } void vardecl23() { // #4276 - segmentation fault ASSERT_THROW(tokenizeAndStringify("class a { protected : template < class int x = 1 ; public : int f ( ) ; }"), InternalError); } void vardecl24() { // #4187 - variable declaration within lambda function const char code1[] = "void f() {\n" " std::for_each(ints.begin(), ints.end(), [](int val)\n" " {\n" " int temp = 0;\n" " });\n" "}"; const char expected1[] = "void f ( ) {\n" "std :: for_each ( ints . begin ( ) , ints . end ( ) , [ ] ( int val )\n" "{\n" "int temp ; temp = 0 ;\n" "} ) ;\n" "}"; ASSERT_EQUALS(expected1, tokenizeAndStringify(code1)); const char code2[] = "void f(int j) {\n" " g( [](){int temp = 0;} , j );\n" "}"; const char expected2[] = "void f ( int j ) {\n" "g ( [ ] ( ) { int temp ; temp = 0 ; } , j ) ;\n" "}"; ASSERT_EQUALS(expected2, tokenizeAndStringify(code2)); } void vardecl25() { // #4799 - segmentation fault tokenizeAndStringify("void A::func(P g) const {}\n" "void A::a() {\n" " b = new d( [this]( const P & p) -> double { return this->func(p);} );\n" "}"); } void vardecl26() { // #5907 const char code[] = "extern int *new, obj, player;"; const char expected[] = "extern int * new ; extern int obj ; extern int player ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, false, true, Settings::Native, "test.c")); ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } void vardecl27() { // #7850 const char code[] = "extern int foo(char);\n" "void* class(char c) {\n" " if (foo(c))\n" " return 0;\n" " return 0;\n" "}"; tokenizeAndStringify(code, /*simplify=*/false, /*expand=*/true, Settings::Native, "test.c"); } void volatile_variables() { const char code[] = "volatile int a=0;\n" "volatile int b=0;\n" "volatile int c=0;\n"; const std::string actual(tokenizeAndStringify(code)); ASSERT_EQUALS("volatile int a ; a = 0 ;\nvolatile int b ; b = 0 ;\nvolatile int c ; c = 0 ;", actual); } void simplifyKeyword() { { const char code[] = "void f (int a [ static 5] );"; ASSERT_EQUALS("void f ( int a [ 5 ] ) ;", tokenizeAndStringify(code)); } { const char in4 [] = "struct B final : A { void foo(); };"; const char out4 [] = "struct B : A { void foo ( ) ; } ;"; ASSERT_EQUALS(out4, tokenizeAndStringify(in4)); const char in5 [] = "struct ArrayItemsValidator final {\n" " SchemaError validate() const override {\n" " for (; pos < value.size(); ++pos) {\n" " }\n" " return none;\n" " }\n" "};\n"; const char out5 [] = "struct ArrayItemsValidator {\n" "SchemaError validate ( ) const override {\n" "for ( ; pos < value . size ( ) ; ++ pos ) {\n" "}\n" "return none ;\n" "}\n" "} ;"; ASSERT_EQUALS(out5, tokenizeAndStringify(in5)); } { // Ticket #8679 const char code[] = "thread_local void *thread_local_var; " "__thread void *thread_local_var_2;"; ASSERT_EQUALS("void * thread_local_var ; " "void * thread_local_var_2 ;", tokenizeAndStringify(code)); } } /** * tokenize "signed i" => "signed int i" */ void signed1() { { const char code1[] = "void foo ( signed int , float ) ;"; ASSERT_EQUALS(code1, tokenizeAndStringify(code1)); } { const char code1[] = "signed i ;"; const char code2[] = "signed int i ;"; ASSERT_EQUALS(code2, tokenizeAndStringify(code1)); } { const char code1[] = "signed int i ;"; ASSERT_EQUALS(code1, tokenizeAndStringify(code1)); } { const char code1[] = "int signed i ;"; const char code2[] = "signed int i ;"; ASSERT_EQUALS(code2, tokenizeAndStringify(code1)); } { const char code1[] = "void f() { for (signed i=0; i<10; i++) {} }"; const char code2[] = "void f ( ) { for ( signed int i = 0 ; i < 10 ; i ++ ) { } }"; ASSERT_EQUALS(code2, tokenizeAndStringify(code1)); } } /** * tokenize "unsigned i" => "unsigned int i" * tokenize "unsigned" => "unsigned int" */ void unsigned1() { // No changes.. { const char code[] = "void foo ( unsigned int , float ) ;"; ASSERT_EQUALS(code, tokenizeAndStringify(code)); } // insert "int" after "unsigned".. { const char code1[] = "unsigned i ;"; const char code2[] = "unsigned int i ;"; ASSERT_EQUALS(code2, tokenizeAndStringify(code1)); } { const char code1[] = "int unsigned i ;"; const char code2[] = "unsigned int i ;"; ASSERT_EQUALS(code2, tokenizeAndStringify(code1)); } // insert "int" after "unsigned".. { const char code1[] = "void f() { for (unsigned i=0; i<10; i++) {} }"; const char code2[] = "void f ( ) { for ( unsigned int i = 0 ; i < 10 ; i ++ ) { } }"; ASSERT_EQUALS(code2, tokenizeAndStringify(code1)); } // "extern unsigned x;" => "extern int x;" { const char code1[] = "; extern unsigned x;"; const char code2[] = "; extern unsigned int x ;"; ASSERT_EQUALS(code2, tokenizeAndStringify(code1)); } } void unsigned2() { const char code[] = "i = (unsigned)j;"; const char expected[] = "i = ( unsigned int ) j ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } // simplify "unsigned" when using templates.. void unsigned3() { { const char code[] = "; foo();"; const char expected[] = "; foo ( ) ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "; foo();"; const char expected[] = "; foo ( ) ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } } void simplifyStdType() { // #4947, #4950, #4951 // usigned long long { const char code[] = "long long unsigned int x;"; const char expected[] = "unsigned long long x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "long long int unsigned x;"; const char expected[] = "unsigned long long x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "unsigned long long int x;"; const char expected[] = "unsigned long long x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "unsigned int long long x;"; const char expected[] = "unsigned long long x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "int unsigned long long x;"; const char expected[] = "unsigned long long x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "int long long unsigned x;"; const char expected[] = "unsigned long long x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } // signed long long { const char code[] = "long long signed int x;"; const char expected[] = "signed long long x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "long long int signed x;"; const char expected[] = "signed long long x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "signed long long int x;"; const char expected[] = "signed long long x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "signed int long long x;"; const char expected[] = "signed long long x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "int signed long long x;"; const char expected[] = "signed long long x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "int long long signed x;"; const char expected[] = "signed long long x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } // usigned short { const char code[] = "short unsigned int x;"; const char expected[] = "unsigned short x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "short int unsigned x;"; const char expected[] = "unsigned short x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "unsigned short int x;"; const char expected[] = "unsigned short x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "unsigned int short x;"; const char expected[] = "unsigned short x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "int unsigned short x;"; const char expected[] = "unsigned short x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "int short unsigned x;"; const char expected[] = "unsigned short x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } // signed short { const char code[] = "short signed int x;"; const char expected[] = "signed short x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "short int signed x;"; const char expected[] = "signed short x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "signed short int x;"; const char expected[] = "signed short x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "signed int short x;"; const char expected[] = "signed short x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "int signed short x;"; const char expected[] = "signed short x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "int short signed x;"; const char expected[] = "signed short x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "unsigned static short const int i;"; const char expected[] = "static const unsigned short i ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "float complex x;"; const char expected[] = "_Complex float x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "complex float x;"; const char expected[] = "_Complex float x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "complex long double x;"; const char expected[] = "_Complex long double x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "long double complex x;"; const char expected[] = "_Complex long double x ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } { const char code[] = "double complex;"; const char expected[] = "double complex ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } } void createLinks() { { const char code[] = "class A{\n" " void f() {}\n" "};"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); // A body {} ASSERT_EQUALS(true, tok->linkAt(2) == tok->tokAt(9)); ASSERT_EQUALS(true, tok->linkAt(9) == tok->tokAt(2)); // f body {} ASSERT_EQUALS(true, tok->linkAt(7) == tok->tokAt(8)); ASSERT_EQUALS(true, tok->linkAt(8) == tok->tokAt(7)); // f () ASSERT_EQUALS(true, tok->linkAt(5) == tok->tokAt(6)); ASSERT_EQUALS(true, tok->linkAt(6) == tok->tokAt(5)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "void f(){\n" " char a[10];\n" " char *b ; b = new char[a[0]];\n" "};"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); // a[10] ASSERT_EQUALS(true, tok->linkAt(7) == tok->tokAt(9)); ASSERT_EQUALS(true, tok->linkAt(9) == tok->tokAt(7)); // new char[] ASSERT_EQUALS(true, tok->linkAt(19) == tok->tokAt(24)); ASSERT_EQUALS(true, tok->linkAt(24) == tok->tokAt(19)); // a[0] ASSERT_EQUALS(true, tok->linkAt(21) == tok->tokAt(23)); ASSERT_EQUALS(true, tok->linkAt(23) == tok->tokAt(21)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "void f(){\n" " foo(g());\n" "};"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); // foo( ASSERT_EQUALS(true, tok->linkAt(6) == tok->tokAt(10)); ASSERT_EQUALS(true, tok->linkAt(10) == tok->tokAt(6)); // g( ASSERT_EQUALS(true, tok->linkAt(8) == tok->tokAt(9)); ASSERT_EQUALS(true, tok->linkAt(9) == tok->tokAt(8)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "bool foo(C a, bar>& f, int b) {\n" " return(af);\n" "}"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); // template< ASSERT_EQUALS(true, tok->tokAt(6) == tok->linkAt(4)); ASSERT_EQUALS(true, tok->tokAt(4) == tok->linkAt(6)); // bar< ASSERT_EQUALS(true, tok->tokAt(17) == tok->linkAt(10)); ASSERT_EQUALS(true, tok->tokAt(10) == tok->linkAt(17)); // x< ASSERT_EQUALS(true, tok->tokAt(16) == tok->linkAt(14)); ASSERT_EQUALS(true, tok->tokAt(14) == tok->linkAt(16)); // af ASSERT_EQUALS(true, 0 == tok->linkAt(28)); ASSERT_EQUALS(true, 0 == tok->linkAt(32)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "void foo() {\n" " return static_cast(a);\n" "}"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); // static_cast< ASSERT_EQUALS(true, tok->tokAt(9) == tok->linkAt(7)); ASSERT_EQUALS(true, tok->tokAt(7) == tok->linkAt(9)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "void foo() {\n" " nvwa<(x > y)> ERROR_nnn;\n" "}"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); // nvwa<(x > y)> ASSERT_EQUALS(true, tok->tokAt(12) == tok->linkAt(6)); ASSERT_EQUALS(true, tok->tokAt(6) == tok->linkAt(12)); ASSERT_EQUALS("", errout.str()); } { // #4860 const char code[] = "class A : public B {};"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); // B<..> ASSERT_EQUALS(true, tok->tokAt(5) == tok->linkAt(7)); ASSERT_EQUALS(true, tok->linkAt(5) == tok->tokAt(7)); ASSERT_EQUALS("", errout.str()); } { // #4860 const char code[] = "Bar>>>::set(1, 2, 3);"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); ASSERT_EQUALS(true, tok->tokAt(1) == tok->linkAt(18)); ASSERT_EQUALS(true, tok->tokAt(3) == tok->linkAt(17)); ASSERT_EQUALS(true, tok->tokAt(7) == tok->linkAt(16)); ASSERT_EQUALS(true, tok->tokAt(11) == tok->linkAt(15)); ASSERT_EQUALS("", errout.str()); } { // #5627 const char code[] = "new Foo[10];"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); ASSERT_EQUALS(true, tok->tokAt(2) == tok->linkAt(4)); ASSERT_EQUALS(true, tok->tokAt(4) == tok->linkAt(2)); ASSERT_EQUALS(true, tok->tokAt(5) == tok->linkAt(7)); ASSERT_EQUALS(true, tok->tokAt(7) == tok->linkAt(5)); ASSERT_EQUALS("", errout.str()); } { // #6242 const char code[] = "func = integral_;"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); ASSERT_EQUALS(true, tok->tokAt(3) == tok->linkAt(9)); ASSERT_EQUALS(true, tok->linkAt(3) == tok->tokAt(9)); ASSERT_EQUALS("", errout.str()); } { // if (a < b || c > d) { } const char code[] = "if (a < b || c > d);"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); ASSERT_EQUALS(true, tok->linkAt(3) == nullptr); } { // if (a < ... > d) { } const char code[] = "if (a < b || c == 3 || d > e);"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); ASSERT_EQUALS(true, tok->linkAt(3) == nullptr); } { // template const char code[] = "a d;"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); ASSERT_EQUALS(true, tok->linkAt(1) == tok->tokAt(7)); } { // template const char code[] = "a d;"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); ASSERT_EQUALS(true, tok->linkAt(1) == tok->tokAt(7)); } { const char code[] = "template < f = b || c > struct S;"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); ASSERT_EQUALS(true, tok->linkAt(1) == tok->tokAt(7)); ASSERT_EQUALS(true, tok->tokAt(1) == tok->linkAt(7)); } { const char code[] = "struct A : B {};"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); ASSERT_EQUALS(true, tok->linkAt(4) == tok->tokAt(8)); ASSERT_EQUALS(true, tok->tokAt(4) == tok->linkAt(8)); } { const char code[] = "Data;"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); ASSERT_EQUALS(true, tok->linkAt(1) == tok->tokAt(4)); ASSERT_EQUALS(true, tok->tokAt(1) == tok->linkAt(4)); } { // #6601 const char code[] = "template struct FuncType : FuncType { };"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = tokenizer.tokens(); ASSERT_EQUALS(true, tok->linkAt(1) == tok->tokAt(4)); // ASSERT_EQUALS(true, tok->linkAt(7) == tok->tokAt(14)); // ASSERT_EQUALS(true, tok->linkAt(9) == tok->tokAt(11)); // (&) ASSERT_EQUALS(true, tok->linkAt(12) == tok->tokAt(13)); // () ASSERT_EQUALS(true, tok->linkAt(17) == tok->tokAt(21)); // ASSERT_EQUALS(true, tok->linkAt(19) == tok->tokAt(20)); // () ASSERT_EQUALS(true, tok->linkAt(22) == tok->tokAt(23)); // {} } } void createLinks2() { { // #7158 const char code[] = "enum { value = boost::mpl::at_c };"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok = Token::findsimplematch(tokenizer.tokens(), "<"); ASSERT_EQUALS(true, tok->link() == tok->tokAt(4)); ASSERT_EQUALS(true, tok->linkAt(4) == tok); } { // #7865 const char code[] = "template \n" "struct CheckedDivOp< T, U, typename std::enable_if::value || std::is_floating_point::value>::type> {\n" "};\n"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok1 = Token::findsimplematch(tokenizer.tokens(), "struct")->tokAt(2); const Token *tok2 = Token::findsimplematch(tokenizer.tokens(), "{")->previous(); ASSERT_EQUALS(true, tok1->link() == tok2); ASSERT_EQUALS(true, tok2->link() == tok1); } { // #7975 const char code[] = "template X copy() {};\n"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok1 = Token::findsimplematch(tokenizer.tokens(), "< Y"); const Token *tok2 = Token::findsimplematch(tok1, "> copy"); ASSERT_EQUALS(true, tok1->link() == tok2); ASSERT_EQUALS(true, tok2->link() == tok1); } { // #8006 const char code[] = "C && a = b;"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok1 = tokenizer.tokens()->next(); const Token *tok2 = tok1->tokAt(2); ASSERT_EQUALS(true, tok1->link() == tok2); ASSERT_EQUALS(true, tok2->link() == tok1); } { // #8115 const char code[] = "void Test(C && c);"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *tok1 = Token::findsimplematch(tokenizer.tokens(), "<"); const Token *tok2 = tok1->tokAt(2); ASSERT_EQUALS(true, tok1->link() == tok2); ASSERT_EQUALS(true, tok2->link() == tok1); } { // #8654 const char code[] = "template struct A {}; " "template struct foo : A... {};"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *A = Token::findsimplematch(tokenizer.tokens(), "A <"); ASSERT_EQUALS(true, A->next()->link() == A->tokAt(3)); } } void simplifyString() { errout.str(""); Tokenizer tokenizer(&settings0, this); ASSERT_EQUALS("\"abc\"", tokenizer.simplifyString("\"abc\"")); ASSERT_EQUALS("\"\n\"", tokenizer.simplifyString("\"\\xa\"")); ASSERT_EQUALS("\"3\"", tokenizer.simplifyString("\"\\x33\"")); ASSERT_EQUALS("\"33\"", tokenizer.simplifyString("\"\\x333\"")); ASSERT_EQUALS("\"a\"", tokenizer.simplifyString("\"\\x61\"")); ASSERT_EQUALS("\"\n1\"", tokenizer.simplifyString("\"\\0121\"")); ASSERT_EQUALS("\"3\"", tokenizer.simplifyString("\"\\x33\"")); ASSERT_EQUALS("\" 0\"", tokenizer.simplifyString("\"\\0400\"")); ASSERT_EQUALS("\"\\nhello\"", tokenizer.simplifyString("\"\\nhello\"")); ASSERT_EQUALS("\"aaa\"", tokenizer.simplifyString("\"\\x61\\x61\\x61\"")); ASSERT_EQUALS("\"\n1\n1\n1\"", tokenizer.simplifyString("\"\\0121\\0121\\0121\"")); ASSERT_EQUALS("\"\\\\x61\"", tokenizer.simplifyString("\"\\\\x61\"")); ASSERT_EQUALS("\"b\"", tokenizer.simplifyString("\"\\x62\"")); ASSERT_EQUALS("\" 7\"", tokenizer.simplifyString("\"\\0407\"")); // terminate a string at null character. ASSERT_EQUALS(std::string("\"a") + '\0' + "\"", tokenizer.simplifyString("\"a\\0\"")); } void simplifyConst() { ASSERT_EQUALS("void foo ( ) { const int x ; }", tokenizeAndStringify("void foo(){ int const x;}")); ASSERT_EQUALS("void foo ( ) { { } const long x ; }", tokenizeAndStringify("void foo(){ {} long const x;}")); ASSERT_EQUALS("void foo ( int b , const unsigned int x ) { }", tokenizeAndStringify("void foo(int b,unsigned const x){}")); ASSERT_EQUALS("void foo ( ) { bar ( ) ; const char x ; }", tokenizeAndStringify("void foo(){ bar(); char const x;}")); ASSERT_EQUALS("void foo ( const char x ) { }", tokenizeAndStringify("void foo(char const x){}")); ASSERT_EQUALS("void foo ( int b , const char x ) { }", tokenizeAndStringify("void foo(int b,char const x){}")); ASSERT_EQUALS("void foo ( ) { int * const x ; }", tokenizeAndStringify("void foo(){ int * const x;}")); ASSERT_EQUALS("const int foo ( ) ;", tokenizeAndStringify("int const foo ();")); ASSERT_EQUALS("const int x ;", tokenizeAndStringify("int const x;")); ASSERT_EQUALS("const unsigned int x ;", tokenizeAndStringify("unsigned const x;")); ASSERT_EQUALS("const struct X x ;", tokenizeAndStringify("struct X const x;")); } void switchCase() { ASSERT_EQUALS("void foo ( int i ) { switch ( i ) { case -1 : ; break ; } }", tokenizeAndStringify("void foo (int i) { switch(i) { case -1: break; } }")); //ticket #3227 ASSERT_EQUALS("void foo ( ) { switch ( n ) { label : ; case 1 : ; label1 : ; label2 : ; break ; } }", tokenizeAndStringify("void foo(){ switch (n){ label: case 1: label1: label2: break; }}")); //ticket #8345 ASSERT_EQUALS("void foo ( ) { switch ( 0 ) { case 0 : ; default : ; } }", tokenizeAndStringify("void foo () { switch(0) case 0 : default : ; }")); //ticket #8477 ASSERT_EQUALS("void foo ( ) { enum Anonymous0 : int { Six = 6 } ; return Six ; }", tokenizeAndStringify("void foo () { enum : int { Six = 6 } ; return Six ; }")); // ticket #8281 tokenizeAndStringify("void lzma_decode(int i) { " " bool state; " " switch (i) " " while (true) { " " state=false; " " case 1: " " ; " " }" "}"); // ticket #8417 tokenizeAndStringify("void printOwnedAttributes(int mode) { " " switch(mode) case 0: { break; } " "}"); ASSERT_THROW(tokenizeAndStringify("void printOwnedAttributes(int mode) { " " switch(mode) case 0: { break; } case 1: ; " "}"), InternalError); } void simplifyPointerToStandardType() { // Pointer to standard type ASSERT_EQUALS("char buf [ 100 ] ; readlink ( path , buf , 99 ) ;", tokenizeAndStringify("char buf[100] ; readlink(path, &buf[0], 99);", false, true, Settings::Native, "test.c")); ASSERT_EQUALS("void foo ( char * c ) { if ( 1 == ( 1 & c [ 0 ] ) ) { } }", tokenizeAndStringify("void foo(char *c) { if (1==(1 & c[0])) {} }", false, true, Settings::Native, "test.c")); // Simplification of unknown type - C only ASSERT_EQUALS("foo data [ 100 ] ; something ( foo ) ;", tokenizeAndStringify("foo data[100]; something(&foo[0]);", false, true, Settings::Native, "test.c")); // C++: No pointer simplification ASSERT_EQUALS("foo data [ 100 ] ; something ( & foo [ 0 ] ) ;", tokenizeAndStringify("foo data[100]; something(&foo[0]);")); } void functionpointer1() { ASSERT_EQUALS("void * f ;", tokenizeAndStringify("void (*f)();")); ASSERT_EQUALS("void * * f ;", tokenizeAndStringify("void *(*f)();")); ASSERT_EQUALS("unsigned int * f ;", tokenizeAndStringify("unsigned int (*f)();")); ASSERT_EQUALS("unsigned int * * f ;", tokenizeAndStringify("unsigned int * (*f)();")); } void functionpointer2() { const char code[] = "typedef void (* PF)();" "void f1 ( ) { }" "PF pf = &f1;" "PF pfs[] = { &f1, &f1 };"; const char expected[] = "void f1 ( ) { } " "void * pf ; pf = & f1 ; " "void * pfs [ 2 ] = { & f1 , & f1 } ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } void functionpointer3() { // Related with ticket #2873 const char code[] = "void f() {\n" "(void)(xy(*p)(0);)" "\n}"; const char expected[] = "void f ( ) {\n" "( void ) ( xy ( * p ) ( 0 ) ; )\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } void functionpointer4() { const char code[] = "struct S\n" "{\n" " typedef void (*FP)();\n" " virtual FP getFP();\n" " virtual void execute();\n" "};\n" "void f() {\n" " int a[9];\n" "}\n"; const char expected[] = "1: struct S\n" "2: {\n" "3:\n" "4: virtual void * getFP ( ) ;\n" "5: virtual void execute ( ) ;\n" "6: } ;\n" "7: void f ( ) {\n" "8: int a@1 [ 9 ] ;\n" "9: }\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, false)); } void functionpointer5() { const char code[] = ";void (*fp[])(int a) = {0,0,0};"; const char expected[] = "1: ; void * fp@1 [ 3 ] = { 0 , 0 , 0 } ;\n"; ASSERT_EQUALS(expected, tokenizeDebugListing(code, false)); } void functionpointer6() { const char code1[] = ";void (*fp(f))(int);"; const char expected1[] = "1: ; void * fp ( f ) ;\n"; // No varId - it could be a function ASSERT_EQUALS(expected1, tokenizeDebugListing(code1, false)); const char code2[] = ";std::string (*fp(f))(int);"; const char expected2[] = "1: ; std :: string * fp ( f ) ;\n"; ASSERT_EQUALS(expected2, tokenizeDebugListing(code2, false)); } void functionpointer7() { const char code1[] = "void (X::*y)();"; const char expected1[] = "1: void * y@1 ;\n"; ASSERT_EQUALS(expected1, tokenizeDebugListing(code1, false)); } void functionpointer8() { const char code1[] = "int (*f)() throw(int);"; const char expected1[] = "1: int * f@1 ;\n"; ASSERT_EQUALS(expected1, tokenizeDebugListing(code1, false)); } void functionpointer9() { // function call with function pointer const char code1[] = "int f() { (*f)(); }"; const char expected1[] = "1: int f ( ) { ( * f ) ( ) ; }\n"; ASSERT_EQUALS(expected1, tokenizeDebugListing(code1, false)); const char code2[] = "int f() { return (*f)(); }"; const char expected2[] = "1: int f ( ) { return ( * f ) ( ) ; }\n"; ASSERT_EQUALS(expected2, tokenizeDebugListing(code2, false)); const char code3[] = "int f() { throw (*f)(); }"; const char expected3[] = "1: int f ( ) { throw ( * f ) ( ) ; }\n"; ASSERT_EQUALS(expected3, tokenizeDebugListing(code3, false)); } void removeRedundantAssignment() { ASSERT_EQUALS("void f ( ) { }", tokenizeAndStringify("void f() { int *p, *q; p = q; }", true)); ASSERT_EQUALS("void f ( ) { }", tokenizeAndStringify("void f() { int *p = 0, *q; p = q; }", true)); ASSERT_EQUALS("int f ( int * x ) { return * x ; }", tokenizeAndStringify("int f(int *x) { return *x; }", true)); } void removedeclspec() { ASSERT_EQUALS("a b", tokenizeAndStringify("a __declspec ( dllexport ) b")); ASSERT_EQUALS("a b", tokenizeAndStringify("a _declspec ( dllexport ) b")); ASSERT_EQUALS("int a ;", tokenizeAndStringify("__declspec(thread) __declspec(align(32)) int a;")); ASSERT_EQUALS("int i ;", tokenizeAndStringify("__declspec(allocate(\"mycode\")) int i;")); ASSERT_EQUALS("struct IUnknown ;", tokenizeAndStringify("struct __declspec(uuid(\"00000000-0000-0000-c000-000000000046\")) IUnknown;")); ASSERT_EQUALS("__property int x [ ] ;", tokenizeAndStringify("__declspec(property(get=GetX, put=PutX)) int x[];")); } void removeattribute() { ASSERT_EQUALS("short array [ 3 ] ;", tokenizeAndStringify("short array[3] __attribute__ ((aligned));")); ASSERT_EQUALS("int x [ 2 ] ;", tokenizeAndStringify("int x[2] __attribute__ ((packed));")); ASSERT_EQUALS("int vecint ;", tokenizeAndStringify("int __attribute__((mode(SI))) __attribute__((vector_size (16))) vecint;")); // alternate spelling #5328 ASSERT_EQUALS("short array [ 3 ] ;", tokenizeAndStringify("short array[3] __attribute ((aligned));")); ASSERT_EQUALS("int x [ 2 ] ;", tokenizeAndStringify("int x[2] __attribute ((packed));")); ASSERT_EQUALS("int vecint ;", tokenizeAndStringify("int __attribute((mode(SI))) __attribute((vector_size (16))) vecint;")); ASSERT_EQUALS("struct Payload_IR_config { uint8_t tap [ 16 ] ; } ;", tokenizeAndStringify("struct __attribute__((packed, gcc_struct)) Payload_IR_config { uint8_t tap[16]; };")); } void functionAttributeBefore() { const char code[] = "void __attribute__((pure)) __attribute__((nothrow)) __attribute__((const)) func1();\n" "void __attribute__((__pure__)) __attribute__((__nothrow__)) __attribute__((__const__)) func2();\n" "void __attribute__((nothrow)) __attribute__((pure)) __attribute__((const)) func3();\n" "void __attribute__((__nothrow__)) __attribute__((__pure__)) __attribute__((__const__)) func4();\n" "void __attribute__((noreturn)) func5();"; const char expected[] = "void func1 ( ) ; void func2 ( ) ; void func3 ( ) ; void func4 ( ) ; void func5 ( ) ;"; errout.str(""); // tokenize.. Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); // Expected result.. ASSERT_EQUALS(expected, tokenizer.tokens()->stringifyList(0, false)); const Token * func1 = Token::findsimplematch(tokenizer.tokens(), "func1"); const Token * func2 = Token::findsimplematch(tokenizer.tokens(), "func2"); const Token * func3 = Token::findsimplematch(tokenizer.tokens(), "func3"); const Token * func4 = Token::findsimplematch(tokenizer.tokens(), "func4"); const Token * func5 = Token::findsimplematch(tokenizer.tokens(), "func5"); ASSERT(func1 && func1->isAttributePure() && func1->isAttributeNothrow() && func1->isAttributeConst()); ASSERT(func2 && func2->isAttributePure() && func2->isAttributeNothrow() && func2->isAttributeConst()); ASSERT(func3 && func3->isAttributePure() && func3->isAttributeNothrow() && func3->isAttributeConst()); ASSERT(func4 && func4->isAttributePure() && func4->isAttributeNothrow() && func4->isAttributeConst()); ASSERT(func5 && func5->isAttributeNoreturn()); } void functionAttributeAfter() { const char code[] = "void func1() __attribute__((pure)) __attribute__((nothrow)) __attribute__((const));\n" "void func2() __attribute__((__pure__)) __attribute__((__nothrow__)) __attribute__((__const__));\n" "void func3() __attribute__((nothrow)) __attribute__((pure)) __attribute__((const));\n" "void func4() __attribute__((__nothrow__)) __attribute__((__pure__)) __attribute__((__const__));" "void func5() __attribute__((noreturn));"; const char expected[] = "void func1 ( ) ; void func2 ( ) ; void func3 ( ) ; void func4 ( ) ; void func5 ( ) ;"; errout.str(""); // tokenize.. Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); // Expected result.. ASSERT_EQUALS(expected, tokenizer.tokens()->stringifyList(0, false)); const Token * func1 = Token::findsimplematch(tokenizer.tokens(), "func1"); const Token * func2 = Token::findsimplematch(tokenizer.tokens(), "func2"); const Token * func3 = Token::findsimplematch(tokenizer.tokens(), "func3"); const Token * func4 = Token::findsimplematch(tokenizer.tokens(), "func4"); const Token * func5 = Token::findsimplematch(tokenizer.tokens(), "func5"); ASSERT(func1 && func1->isAttributePure() && func1->isAttributeNothrow() && func1->isAttributeConst()); ASSERT(func2 && func2->isAttributePure() && func2->isAttributeNothrow() && func2->isAttributeConst()); ASSERT(func3 && func3->isAttributePure() && func3->isAttributeNothrow() && func3->isAttributeConst()); ASSERT(func4 && func4->isAttributePure() && func4->isAttributeNothrow() && func4->isAttributeConst()); ASSERT(func5 && func5->isAttributeNoreturn()); } void cpp03template1() { { const char *code = "template struct extent {};"; ASSERT_EQUALS("template < typename > struct extent { } ;", tokenizeAndStringify(code)); } { const char *code = "template struct extent;"; ASSERT_EQUALS("template < typename > struct extent ;", tokenizeAndStringify(code)); } { const char *code = "template struct extent;"; ASSERT_EQUALS("template < typename , unsigned int = 0 > struct extent ;", tokenizeAndStringify(code)); } } void cpp0xtemplate1() { const char *code = "template \n" "void fn2 (T t = []{return 1;}())\n" "{}\n" "int main()\n" "{\n" " fn2();\n" "}\n"; ASSERT_EQUALS("int main ( )\n{\nfn2 ( ) ;\n} void fn2 ( int t = [ ] { return 1 ; } ( ) )\n{ }", tokenizeAndStringify(code)); } void cpp0xtemplate2() { // tokenize ">>" into "> >" const char *code = "list> ints;\n"; ASSERT_EQUALS("list < list < int > > ints ;", tokenizeAndStringify(code)); } void cpp0xtemplate3() { // #2549 const char *code = "template\n" "struct S\n" "{};\n" "S s;\n"; TODO_ASSERT_EQUALS("S s ; struct S { } ;", // wanted result "template < class T , T t >\n" "struct S\n" "{ } ;\n" "S < int , ( T ) 0 > s ;", // current result tokenizeAndStringify(code)); } void cpp0xtemplate4() { // #6181, #6354, #6414 tokenizeAndStringify("class A; " "template class Disposer; " "template > class Shim {}; " "class B : public Shim {};"); tokenizeAndStringify("template class ELFObjectImage {}; " "ObjectImage *createObjectImage() { " " return new ELFObjectImage>(Obj); " "} " "void resolveX86_64Relocation() { " " reinterpret_cast(0); " "}"); tokenizeAndStringify("template " "value_type Base(const value_type x, const value_type dx, function_type func, int type_deriv) { " " return 0.0; " "}; " "namespace { " " template class C { " " void Fun(int G, const double x); " " }; " " template void C::Fun(int G, const double x) {" " Base>(2, 2, f, 0); " " }; " " template class C2 {}; " "}"); } void cpp14template() { // Ticket #6708 tokenizeAndStringify("template " "decltype(auto) forward(T& t) { return 0; }"); } void arraySize() { ASSERT_EQUALS("; int a [ 3 ] = { 1 , 2 , 3 } ;", tokenizeAndStringify(";int a[]={1,2,3};")); ASSERT_EQUALS("; int a [ 3 ] = { 1 , 2 , 3 } ;", tokenizeAndStringify(";int a[]={1,2,3,};")); ASSERT_EQUALS("; foo a [ 3 ] = { { 1 , 2 } , { 3 , 4 } , { 5 , 6 } } ;", tokenizeAndStringify(";foo a[]={{1,2},{3,4},{5,6}};")); ASSERT_EQUALS("; int a [ 1 ] = { foo < bar1 , bar2 > ( 123 , 4 ) } ;", tokenizeAndStringify(";int a[]={foo(123,4)};")); ASSERT_EQUALS("; int a [ 2 ] = { b > c ? 1 : 2 , 3 } ;", tokenizeAndStringify(";int a[]={ b>c?1:2,3};")); ASSERT_EQUALS("int main ( ) { int a [ 2 ] = { b < c ? 1 : 2 , 3 } }", tokenizeAndStringify("int main(){int a[]={bx)=0; }")); //with '(' parentheses ASSERT_EQUALS("void f ( ) { ab : ; * ( * b ) . x = 0 ; }", tokenizeAndStringify("void f() { ab: *(* b)->x=0; }")); ASSERT_EQUALS("void f ( ) { ab : ; ( * * b ) . x = 0 ; }", tokenizeAndStringify("void f() { ab: (** b).x=0; }")); ASSERT_EQUALS("void f ( ) { ab : ; & ( * b . x ) = 0 ; }", tokenizeAndStringify("void f() { ab: &(*b.x)=0; }")); //with '{' parentheses ASSERT_EQUALS("void f ( ) { ab : ; { b = 0 ; } }", tokenizeAndStringify("void f() { ab: {b=0;} }")); ASSERT_EQUALS("void f ( ) { ab : ; { * b = 0 ; } }", tokenizeAndStringify("void f() { ab: { *b=0;} }")); ASSERT_EQUALS("void f ( ) { ab : ; { & b = 0 ; } }", tokenizeAndStringify("void f() { ab: { &b=0;} }")); ASSERT_EQUALS("void f ( ) { ab : ; { & ( * b . x ) = 0 ; } }", tokenizeAndStringify("void f() { ab: {&(*b.x)=0;} }")); //with unhandled MACRO() code ASSERT_EQUALS("void f ( ) { MACRO ( ab : b = 0 ; , foo ) }", tokenizeAndStringify("void f() { MACRO(ab: b=0;, foo)}")); ASSERT_EQUALS("void f ( ) { MACRO ( bar , ab : { & ( * b . x ) = 0 ; } ) }", tokenizeAndStringify("void f() { MACRO(bar, ab: {&(*b.x)=0;})}")); } void simplifyInitVar() { { const char code[] = "int i ; int p(0);"; ASSERT_EQUALS("int i ; int p ; p = 0 ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "int i; int *p(0);"; ASSERT_EQUALS("int i ; int * p ; p = 0 ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "int p(0);"; ASSERT_EQUALS("int p ; p = 0 ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "int *p(0);"; ASSERT_EQUALS("int * p ; p = 0 ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "int i ; int p(i);"; ASSERT_EQUALS("int i ; int p ; p = i ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "int i; int *p(&i);"; ASSERT_EQUALS("int i ; int * p ; p = & i ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "int i; void *p(&i);"; ASSERT_EQUALS("int i ; void * p ; p = & i ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "struct S { }; struct S s; struct S *p(&s);"; ASSERT_EQUALS("struct S { } ; struct S s ; struct S * p ; p = & s ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "struct S { }; S s; S *p(&s);"; ASSERT_EQUALS("struct S { } ; S s ; S * p ; p = & s ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "union S { int i; float f; }; union S s; union S *p(&s);"; ASSERT_EQUALS("union S { int i ; float f ; } ; union S s ; union S * p ; p = & s ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "union S { int i; float f; }; S s; S *p(&s);"; ASSERT_EQUALS("union S { int i ; float f ; } ; S s ; S * p ; p = & s ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "class C { }; class C c; class C *p(&c);"; ASSERT_EQUALS("class C { } ; class C c ; class C * p ; p = & c ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "class C { }; C c; C *p(&c);"; ASSERT_EQUALS("class C { } ; C c ; C * p ; p = & c ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "struct S { }; struct S s; struct S s1(s);"; ASSERT_EQUALS("struct S { } ; struct S s ; struct S s1 ( s ) ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "struct S { }; S s; S s1(s);"; ASSERT_EQUALS("struct S { } ; S s ; S s1 ( s ) ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "struct S { }; struct S s; struct S s1(&s);"; ASSERT_EQUALS("struct S { } ; struct S s ; struct S s1 ( & s ) ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "struct S { }; S s; S s1(&s);"; ASSERT_EQUALS("struct S { } ; S s ; S s1 ( & s ) ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "class S { int function(); };"; ASSERT_EQUALS("class S { int function ( ) ; } ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "class S { int function(void); };"; ASSERT_EQUALS("class S { int function ( ) ; } ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "class S { int function(int); };"; ASSERT_EQUALS("class S { int function ( int ) ; } ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "int function(void);"; ASSERT_EQUALS("int function ( ) ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "int function(int);"; ASSERT_EQUALS("int function ( int ) ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "extern int function(void);"; ASSERT_EQUALS("extern int function ( ) ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "int function1(void); int function2(void);"; ASSERT_EQUALS("int function1 ( ) ; int function2 ( ) ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "int function(A);"; // We can't tell if this a function prototype or a variable without knowing // what A is. Since A is undefined, just leave it alone. ASSERT_EQUALS("int function ( A ) ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "int i; int function(A);"; ASSERT_EQUALS("int i ; int function ( A ) ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "class A { } ; int foo(A);"; ASSERT_EQUALS("class A { } ; int foo ( A ) ;", tokenizeAndStringify(code)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "class A { } ; A a; int foo(a);"; ASSERT_EQUALS("class A { } ; A a ; int foo ; foo = a ;", tokenizeAndStringify(code, false)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "int x(f());"; ASSERT_EQUALS("int x ; x = f ( ) ;", tokenizeAndStringify(code, false)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "return doSomething(X), 0;"; ASSERT_EQUALS("return doSomething ( X ) , 0 ;", tokenizeAndStringify(code, false)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "const int x(1);" "const int y(2);" "const int z((x+1)*y);" "f(z);"; ASSERT_EQUALS("f ( 4 ) ;", tokenizeAndStringify(code, true)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "const int x(1);" "const int y(2);" "const int z((x+1)*y);" "f(&z);"; ASSERT_EQUALS("const int z ( 4 ) ; f ( & z ) ;", tokenizeAndStringify(code, true)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "const bool x(true);" "const bool y(!x);" "f(y);"; ASSERT_EQUALS("f ( false ) ;", tokenizeAndStringify(code, true)); ASSERT_EQUALS("", errout.str()); } { const char code[] = "const bool x(true);" "const bool y(!x);" "f(&y);"; ASSERT_EQUALS("const bool y ( false ) ; f ( & y ) ;", tokenizeAndStringify(code, true)); ASSERT_EQUALS("", errout.str()); } } void simplifyInitVar2() { // ticket #5131 - unsigned const char code[] = "void f() {\n" " unsigned int a(0),b(0);\n" "}"; ASSERT_EQUALS("void f ( ) {\n" "unsigned int a ; a = 0 ; unsigned int b ; b = 0 ;\n" "}", tokenizeAndStringify(code)); } void simplifyInitVar3() { const char code[] = "void f() {\n" " int *a(0),b(0);\n" "}"; ASSERT_EQUALS("void f ( ) {\n" "int * a ; a = 0 ; int b ; b = 0 ;\n" "}", tokenizeAndStringify(code)); } void bitfields1() { const char code1[] = "struct A { bool x : 1; };"; ASSERT_EQUALS("struct A { bool x ; } ;", tokenizeAndStringify(code1,false)); const char code2[] = "struct A { char x : 3; };"; ASSERT_EQUALS("struct A { char x ; } ;", tokenizeAndStringify(code2,false)); const char code3[] = "struct A { short x : 3; };"; ASSERT_EQUALS("struct A { short x ; } ;", tokenizeAndStringify(code3,false)); const char code4[] = "struct A { int x : 3; };"; ASSERT_EQUALS("struct A { int x ; } ;", tokenizeAndStringify(code4,false)); const char code5[] = "struct A { long x : 3; };"; ASSERT_EQUALS("struct A { long x ; } ;", tokenizeAndStringify(code5,false)); const char code6[] = "struct A { __int8 x : 3; };"; ASSERT_EQUALS("struct A { char x ; } ;", tokenizeAndStringifyWindows(code6,false, true, Settings::Win32A)); const char code7[] = "struct A { __int16 x : 3; };"; ASSERT_EQUALS("struct A { short x ; } ;", tokenizeAndStringifyWindows(code7,false, true, Settings::Win32A)); const char code8[] = "struct A { __int32 x : 3; };"; ASSERT_EQUALS("struct A { int x ; } ;", tokenizeAndStringifyWindows(code8,false, true, Settings::Win32A)); const char code9[] = "struct A { __int64 x : 3; };"; ASSERT_EQUALS("struct A { long long x ; } ;", tokenizeAndStringifyWindows(code9,false, true, Settings::Win32A)); const char code10[] = "struct A { unsigned char x : 3; };"; ASSERT_EQUALS("struct A { unsigned char x ; } ;", tokenizeAndStringify(code10,false)); const char code11[] = "struct A { unsigned short x : 3; };"; ASSERT_EQUALS("struct A { unsigned short x ; } ;", tokenizeAndStringify(code11,false)); const char code12[] = "struct A { unsigned int x : 3; };"; ASSERT_EQUALS("struct A { unsigned int x ; } ;", tokenizeAndStringify(code12,false)); const char code13[] = "struct A { unsigned long x : 3; };"; ASSERT_EQUALS("struct A { unsigned long x ; } ;", tokenizeAndStringify(code13,false)); const char code14[] = "struct A { unsigned __int8 x : 3; };"; ASSERT_EQUALS("struct A { unsigned char x ; } ;", tokenizeAndStringifyWindows(code14,false, true, Settings::Win32A)); const char code15[] = "struct A { unsigned __int16 x : 3; };"; ASSERT_EQUALS("struct A { unsigned short x ; } ;", tokenizeAndStringifyWindows(code15,false, true, Settings::Win32A)); const char code16[] = "struct A { unsigned __int32 x : 3; };"; ASSERT_EQUALS("struct A { unsigned int x ; } ;", tokenizeAndStringifyWindows(code16,false, true, Settings::Win32A)); const char code17[] = "struct A { unsigned __int64 x : 3; };"; ASSERT_EQUALS("struct A { unsigned long long x ; } ;", tokenizeAndStringifyWindows(code17,false, true, Settings::Win32A)); const char code18[] = "struct A { signed char x : 3; };"; ASSERT_EQUALS("struct A { signed char x ; } ;", tokenizeAndStringify(code18,false)); const char code19[] = "struct A { signed short x : 3; };"; ASSERT_EQUALS("struct A { signed short x ; } ;", tokenizeAndStringify(code19,false)); const char code20[] = "struct A { signed int x : 3; };"; ASSERT_EQUALS("struct A { signed int x ; } ;", tokenizeAndStringify(code20,false)); const char code21[] = "struct A { signed long x : 3; };"; ASSERT_EQUALS("struct A { signed long x ; } ;", tokenizeAndStringifyWindows(code21,false)); const char code22[] = "struct A { signed __int8 x : 3; };"; ASSERT_EQUALS("struct A { signed char x ; } ;", tokenizeAndStringifyWindows(code22,false, true, Settings::Win32A)); const char code23[] = "struct A { signed __int16 x : 3; };"; ASSERT_EQUALS("struct A { signed short x ; } ;", tokenizeAndStringifyWindows(code23,false, true, Settings::Win32A)); const char code24[] = "struct A { signed __int32 x : 3; };"; ASSERT_EQUALS("struct A { signed int x ; } ;", tokenizeAndStringifyWindows(code24,false, true, Settings::Win32A)); const char code25[] = "struct A { signed __int64 x : 3; };"; ASSERT_EQUALS("struct A { signed long long x ; } ;", tokenizeAndStringifyWindows(code25,false, true, Settings::Win32A)); } void bitfields2() { const char code1[] = "struct A { public: int x : 3; };"; ASSERT_EQUALS("struct A { public: int x ; } ;", tokenizeAndStringify(code1,false)); const char code2[] = "struct A { public: unsigned long x : 3; };"; ASSERT_EQUALS("struct A { public: unsigned long x ; } ;", tokenizeAndStringify(code2,false)); const char code3[] = "struct A { protected: int x : 3; };"; ASSERT_EQUALS("struct A { protected: int x ; } ;", tokenizeAndStringify(code3,false)); const char code4[] = "struct A { protected: unsigned long x : 3; };"; ASSERT_EQUALS("struct A { protected: unsigned long x ; } ;", tokenizeAndStringify(code4,false)); const char code5[] = "struct A { private: int x : 3; };"; ASSERT_EQUALS("struct A { private: int x ; } ;", tokenizeAndStringify(code5,false)); const char code6[] = "struct A { private: unsigned long x : 3; };"; ASSERT_EQUALS("struct A { private: unsigned long x ; } ;", tokenizeAndStringify(code6,false)); } void bitfields3() { const char code1[] = "struct A { const int x : 3; };"; ASSERT_EQUALS("struct A { const int x ; } ;", tokenizeAndStringify(code1,false)); const char code2[] = "struct A { const unsigned long x : 3; };"; ASSERT_EQUALS("struct A { const unsigned long x ; } ;", tokenizeAndStringify(code2,false)); const char code3[] = "struct A { public: const int x : 3; };"; ASSERT_EQUALS("struct A { public: const int x ; } ;", tokenizeAndStringify(code3,false)); const char code4[] = "struct A { public: const unsigned long x : 3; };"; ASSERT_EQUALS("struct A { public: const unsigned long x ; } ;", tokenizeAndStringify(code4,false)); } void bitfields4() { // ticket #1956 const char code1[] = "struct A { CHAR x : 3; };"; ASSERT_EQUALS("struct A { CHAR x ; } ;", tokenizeAndStringify(code1,false)); const char code2[] = "struct A { UCHAR x : 3; };"; ASSERT_EQUALS("struct A { UCHAR x ; } ;", tokenizeAndStringify(code2,false)); const char code3[] = "struct A { BYTE x : 3; };"; ASSERT_EQUALS("struct A { BYTE x ; } ;", tokenizeAndStringify(code3,false)); const char code4[] = "struct A { WORD x : 3; };"; ASSERT_EQUALS("struct A { WORD x ; } ;", tokenizeAndStringify(code4,false)); const char code5[] = "struct A { DWORD x : 3; };"; ASSERT_EQUALS("struct A { DWORD x ; } ;", tokenizeAndStringify(code5,false)); const char code6[] = "struct A { LONG x : 3; };"; ASSERT_EQUALS("struct A { LONG x ; } ;", tokenizeAndStringify(code6,false)); const char code7[] = "struct A { UINT8 x : 3; };"; ASSERT_EQUALS("struct A { UINT8 x ; } ;", tokenizeAndStringify(code7,false)); const char code8[] = "struct A { UINT16 x : 3; };"; ASSERT_EQUALS("struct A { UINT16 x ; } ;", tokenizeAndStringify(code8,false)); const char code9[] = "struct A { UINT32 x : 3; };"; ASSERT_EQUALS("struct A { UINT32 x ; } ;", tokenizeAndStringify(code9,false)); const char code10[] = "struct A { UINT64 x : 3; };"; ASSERT_EQUALS("struct A { UINT64 x ; } ;", tokenizeAndStringify(code10,false)); } void bitfields5() { // ticket #1956 const char code1[] = "struct RGB { unsigned int r : 3, g : 3, b : 2; };"; ASSERT_EQUALS("struct RGB { unsigned int r ; unsigned int g ; unsigned int b ; } ;", tokenizeAndStringify(code1,false)); const char code2[] = "struct A { int a : 3; int : 3; int c : 3; };"; ASSERT_EQUALS("struct A { int a ; int c ; } ;", tokenizeAndStringify(code2,false)); const char code3[] = "struct A { virtual void f() {} int f1 : 1; };"; ASSERT_EQUALS("struct A { virtual void f ( ) { } int f1 ; } ;", tokenizeAndStringify(code3,false)); } void bitfields6() { // ticket #2595 const char code1[] = "struct A { bool b : true; };"; ASSERT_EQUALS("struct A { bool b ; } ;", tokenizeAndStringify(code1,false)); const char code2[] = "struct A { bool b : true, c : true; };"; ASSERT_EQUALS("struct A { bool b ; bool c ; } ;", tokenizeAndStringify(code2,false)); const char code3[] = "struct A { bool : true; };"; ASSERT_EQUALS("struct A { } ;", tokenizeAndStringify(code3,false)); const char code4[] = "void f(int a) { switch (a) { case b: break; } }"; ASSERT_EQUALS("void f ( int a ) { switch ( a ) { case b : ; break ; } }", tokenizeAndStringify(code4,true)); const char code5[] = "void f(int a) { switch (a) { default: break; } }"; ASSERT_EQUALS("void f ( int a ) { switch ( a ) { default : ; break ; } }", tokenizeAndStringify(code5,true)); } void bitfields7() { // ticket #1987 const char code[] = "typedef struct Descriptor {" " unsigned element_size: 8* sizeof( unsigned );" "} Descriptor;"; const char expected[] = "struct Descriptor { " "unsigned int element_size ; " "} ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code,false)); ASSERT_EQUALS("", errout.str()); } void bitfields8() { const char code[] = "struct A;" "class B : virtual public C" "{" " int f();" "};"; const char expected[] = "struct A ; " "class B : virtual public C " "{ " "int f ( ) ; " "} ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code,false)); ASSERT_EQUALS("", errout.str()); } void bitfields9() { // ticket #2706 const char code[] = "void f() {\n" " goto half;\n" "half:\n" " {\n" " ;\n" " }\n" "};"; tokenizeAndStringify(code,false); ASSERT_EQUALS("", errout.str()); } void bitfields10() { // ticket #2737 const char code[] = "{}" "MACRO " "default: { }" ";"; ASSERT_EQUALS("{ } MACRO default : { } ;", tokenizeAndStringify(code,false)); } void bitfields12() { // ticket #3485 (segmentation fault) const char code[] = "{a:1;};\n"; ASSERT_EQUALS("{ } ;", tokenizeAndStringify(code,false)); } void bitfields13() { // ticket #3502 (segmentation fault) ASSERT_EQUALS("x y ;", tokenizeAndStringify("struct{x y:};\n",false)); } void bitfields14() { // #4561 - crash for 'signals:' ASSERT_EQUALS("class x { signals : } ;", tokenizeAndStringify("class x { signals: };\n",false)); } void bitfields15() { // #7747 - enum Foo {A,B}:4; ASSERT_EQUALS("struct AB {\n" "enum Foo { A , B } ; enum Foo Anonymous ;\n" "} ;", tokenizeAndStringify("struct AB {\n" " enum Foo {A,B} : 4;\n" "};")); ASSERT_EQUALS("struct AB {\n" "enum Foo { A , B } ; enum Foo foo ;\n" "} ;", tokenizeAndStringify("struct AB {\n" " enum Foo {A,B} foo : 4;\n" "};")); } void bitfields16() { const char code[] = "struct A { unsigned int x : 1; };"; errout.str(""); Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); const Token *x = Token::findsimplematch(tokenizer.tokens(), "x"); ASSERT_EQUALS(1, x->bits()); } void simplifyNamespaceStd() { const char *code, *expected; code = "map m;"; // namespace std is not used ASSERT_EQUALS("map < foo , bar > m ;", tokenizeAndStringify(code, false)); code = "using namespace std;\n" "map m;"; ASSERT_EQUALS("std :: map < foo , bar > m ;", tokenizeAndStringify(code, false)); code = "using namespace std;\n" "string s;"; ASSERT_EQUALS("std :: string s ;", tokenizeAndStringify(code, false)); code = "using namespace std;\n" "void foo() {swap(a, b); }"; ASSERT_EQUALS("void foo ( ) { std :: swap ( a , b ) ; }", tokenizeAndStringify(code, false)); code = "using namespace std;\n" "void search() {}"; ASSERT_EQUALS("void search ( ) { }", tokenizeAndStringify(code, false)); code = "using namespace std;\n" "void search();\n" "void dostuff() { search(); }"; ASSERT_EQUALS("void search ( ) ;\nvoid dostuff ( ) { search ( ) ; }", tokenizeAndStringify(code, false)); code = "using namespace std;\n" "void foo() {map(a, b); }"; // That's obviously not std::map<> ASSERT_EQUALS("void foo ( ) { map ( a , b ) ; }", tokenizeAndStringify(code, false)); code = "using namespace std;\n" "string s;"; // That's obviously not std::string ASSERT_EQUALS("string < wchar_t > s ;", tokenizeAndStringify(code, false)); code = "using namespace std;\n" "swap s;"; // That's obviously not std::swap ASSERT_EQUALS("swap s ;", tokenizeAndStringify(code, false)); code = "using namespace std;\n" "std::string s;"; ASSERT_EQUALS("std :: string s ;", tokenizeAndStringify(code, false)); code = "using namespace std;\n" "tr1::function f;"; ASSERT_EQUALS("tr1 :: function < void ( int ) > f ;", tokenizeAndStringify(code, false, true, Settings::Native, "test.cpp", false)); ASSERT_EQUALS("std :: function < void ( int ) > f ;", tokenizeAndStringify(code, false, true, Settings::Native, "test.cpp", true)); code = "std::tr1::function f;"; ASSERT_EQUALS("std :: tr1 :: function < void ( int ) > f ;", tokenizeAndStringify(code, false, true, Settings::Native, "test.cpp", false)); ASSERT_EQUALS("std :: function < void ( int ) > f ;", tokenizeAndStringify(code, false, true, Settings::Native, "test.cpp", true)); // #4042 (Do not add 'std ::' to variables) code = "using namespace std;\n" "const char * string = \"Hi\";"; ASSERT_EQUALS("const char * string ; string = \"Hi\" ;", tokenizeAndStringify(code, false)); code = "using namespace std;\n" "string f(const char * string) {\n" " cout << string << endl;\n" " return string;\n" "}"; expected = "std :: string f ( const char * string ) {\n" "std :: cout << string << std :: endl ;\n" "return string ;\n" "}"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, false)); code = "using namespace std;\n" "try { }\n" "catch(std::exception &exception) { }"; expected = "try { }\n" "catch ( std :: exception & exception ) { }"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, false)); // #5773 (Don't prepend 'std ::' to function definitions) code = "using namespace std;\n" "class C {\n" " void search() {}\n" " void search() const {}\n" " void search() THROW_MACRO {}\n" "};"; expected = "class C {\n" "void search ( ) { }\n" "void search ( ) const { }\n" "void search ( ) { }\n" "} ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, false)); // Ticket #8091 ASSERT_EQUALS("enum Anonymous0 { string } ;", tokenizeAndStringify("using namespace std; " "enum { string };")); ASSERT_EQUALS("enum Type { string } ;", tokenizeAndStringify("using namespace std; " "enum Type { string } ;")); ASSERT_EQUALS("enum class Type { string } ;", tokenizeAndStringify("using namespace std; " "enum class Type { string } ;")); ASSERT_EQUALS("enum struct Type { string } ;", tokenizeAndStringify("using namespace std; " "enum struct Type { string } ;")); ASSERT_EQUALS("enum struct Type : int { f = 0 , string } ;", tokenizeAndStringify("using namespace std; " "enum struct Type : int { f = 0 , string } ;")); ASSERT_EQUALS("enum Type { a , b } ; void foo ( enum Type , std :: string ) { }", tokenizeAndStringify("using namespace std; " "enum Type { a , b } ; void foo ( enum Type , string) {}")); ASSERT_EQUALS("struct T { } ; enum struct Type : int { f = 0 , string } ;", tokenizeAndStringify("using namespace std; " "struct T { typedef int type; } ; " "enum struct Type : T :: type { f = 0 , string } ;")); // Handle garbage enum code "well" ASSERT_EQUALS("enum E : int ; void foo ( ) { std :: string s ; }", tokenizeAndStringify("using namespace std; enum E : int ; void foo ( ) { string s ; }")); } void microsoftMemory() { const char code1a[] = "void foo() { int a[10], b[10]; CopyMemory(a, b, sizeof(a)); }"; ASSERT_EQUALS("void foo ( ) { int a [ 10 ] ; int b [ 10 ] ; memcpy ( a , b , sizeof ( a ) ) ; }", tokenizeAndStringify(code1a,false,true,Settings::Win32A)); const char code1b[] = "void foo() { int a[10], b[10]; RtlCopyMemory(a, b, sizeof(a)); }"; ASSERT_EQUALS("void foo ( ) { int a [ 10 ] ; int b [ 10 ] ; memcpy ( a , b , sizeof ( a ) ) ; }", tokenizeAndStringify(code1b,false,true,Settings::Win32A)); const char code1c[] = "void foo() { int a[10], b[10]; RtlCopyBytes(a, b, sizeof(a)); }"; ASSERT_EQUALS("void foo ( ) { int a [ 10 ] ; int b [ 10 ] ; memcpy ( a , b , sizeof ( a ) ) ; }", tokenizeAndStringify(code1c,false,true,Settings::Win32A)); const char code2a[] = "void foo() { int a[10]; FillMemory(a, sizeof(a), 255); }"; ASSERT_EQUALS("void foo ( ) { int a [ 10 ] ; memset ( a , 255 , sizeof ( a ) ) ; }", tokenizeAndStringify(code2a,false,true,Settings::Win32A)); const char code2b[] = "void foo() { int a[10]; RtlFillMemory(a, sizeof(a), 255); }"; ASSERT_EQUALS("void foo ( ) { int a [ 10 ] ; memset ( a , 255 , sizeof ( a ) ) ; }", tokenizeAndStringify(code2b,false,true,Settings::Win32A)); const char code2c[] = "void foo() { int a[10]; RtlFillBytes(a, sizeof(a), 255); }"; ASSERT_EQUALS("void foo ( ) { int a [ 10 ] ; memset ( a , 255 , sizeof ( a ) ) ; }", tokenizeAndStringify(code2c,false,true,Settings::Win32A)); const char code3a[] = "void foo() { int a[10], b[10]; MoveMemory(a, b, sizeof(a)); }"; ASSERT_EQUALS("void foo ( ) { int a [ 10 ] ; int b [ 10 ] ; memmove ( a , b , sizeof ( a ) ) ; }", tokenizeAndStringify(code3a,false,true,Settings::Win32A)); const char code3b[] = "void foo() { int a[10], b[10]; RtlMoveMemory(a, b, sizeof(a)); }"; ASSERT_EQUALS("void foo ( ) { int a [ 10 ] ; int b [ 10 ] ; memmove ( a , b , sizeof ( a ) ) ; }", tokenizeAndStringify(code3b,false,true,Settings::Win32A)); const char code4a[] = "void foo() { int a[10]; ZeroMemory(a, sizeof(a)); }"; ASSERT_EQUALS("void foo ( ) { int a [ 10 ] ; memset ( a , 0 , sizeof ( a ) ) ; }", tokenizeAndStringify(code4a,false,true,Settings::Win32A)); const char code4b[] = "void foo() { int a[10]; RtlZeroMemory(a, sizeof(a)); }"; ASSERT_EQUALS("void foo ( ) { int a [ 10 ] ; memset ( a , 0 , sizeof ( a ) ) ; }", tokenizeAndStringify(code4b,false,true,Settings::Win32A)); const char code4c[] = "void foo() { int a[10]; RtlZeroBytes(a, sizeof(a)); }"; ASSERT_EQUALS("void foo ( ) { int a [ 10 ] ; memset ( a , 0 , sizeof ( a ) ) ; }", tokenizeAndStringify(code4c,false,true,Settings::Win32A)); const char code4d[] = "void foo() { int a[10]; RtlSecureZeroMemory(a, sizeof(a)); }"; ASSERT_EQUALS("void foo ( ) { int a [ 10 ] ; memset ( a , 0 , sizeof ( a ) ) ; }", tokenizeAndStringify(code4d,false,true,Settings::Win32A)); const char code5[] = "void foo() { int a[10], b[10]; RtlCompareMemory(a, b, sizeof(a)); }"; ASSERT_EQUALS("void foo ( ) { int a [ 10 ] ; int b [ 10 ] ; memcmp ( a , b , sizeof ( a ) ) ; }", tokenizeAndStringify(code5,false,true,Settings::Win32A)); const char code6[] = "void foo() { ZeroMemory(f(1, g(a, b)), h(i, j(0, 1))); }"; ASSERT_EQUALS("void foo ( ) { memset ( f ( 1 , g ( a , b ) ) , 0 , h ( i , j ( 0 , 1 ) ) ) ; }", tokenizeAndStringify(code6,false,true,Settings::Win32A)); const char code7[] = "void foo() { FillMemory(f(1, g(a, b)), h(i, j(0, 1)), 255); }"; ASSERT_EQUALS("void foo ( ) { memset ( f ( 1 , g ( a , b ) ) , 255 , h ( i , j ( 0 , 1 ) ) ) ; }", tokenizeAndStringify(code7,false,true,Settings::Win32A)); } void microsoftString() { const char code1a[] = "void foo() { _tprintf (_T(\"test\") _T(\"1\")); }"; ASSERT_EQUALS("void foo ( ) { printf ( \"test1\" ) ; }", tokenizeAndStringify(code1a, false, true, Settings::Win32A)); const char code1b[] = "void foo() { _tprintf (_TEXT(\"test\") _TEXT(\"2\")); }"; ASSERT_EQUALS("void foo ( ) { printf ( \"test2\" ) ; }", tokenizeAndStringify(code1b, false, true, Settings::Win32A)); const char code1c[] = "void foo() { _tprintf (TEXT(\"test\") TEXT(\"3\")); }"; ASSERT_EQUALS("void foo ( ) { printf ( \"test3\" ) ; }", tokenizeAndStringify(code1c, false, true, Settings::Win32A)); const char code2a[] = "void foo() { _tprintf (_T(\"test\") _T(\"1\")); }"; ASSERT_EQUALS("void foo ( ) { wprintf ( L\"test1\" ) ; }", tokenizeAndStringify(code2a, false, true, Settings::Win32W)); ASSERT_EQUALS("void foo ( ) { wprintf ( L\"test1\" ) ; }", tokenizeAndStringify(code2a, false, true, Settings::Win64)); const char code2b[] = "void foo() { _tprintf (_TEXT(\"test\") _TEXT(\"2\")); }"; ASSERT_EQUALS("void foo ( ) { wprintf ( L\"test2\" ) ; }", tokenizeAndStringify(code2b, false, true, Settings::Win32W)); ASSERT_EQUALS("void foo ( ) { wprintf ( L\"test2\" ) ; }", tokenizeAndStringify(code2b, false, true, Settings::Win64)); const char code2c[] = "void foo() { _tprintf (TEXT(\"test\") TEXT(\"3\")); }"; ASSERT_EQUALS("void foo ( ) { wprintf ( L\"test3\" ) ; }", tokenizeAndStringify(code2c, false, true, Settings::Win32W)); ASSERT_EQUALS("void foo ( ) { wprintf ( L\"test3\" ) ; }", tokenizeAndStringify(code2c, false, true, Settings::Win64)); } void borland() { // __closure ASSERT_EQUALS("int * a ;", tokenizeAndStringify("int (__closure *a)();", false, true, Settings::Win32A)); // __property ASSERT_EQUALS("class Fred { ; __property ; } ;", tokenizeAndStringify("class Fred { __property int x = { } };", false, true, Settings::Win32A)); } void Qt() { const char code1[] = "class Counter : public QObject " "{ " " Q_OBJECT " "public: " " Counter() { m_value = 0; } " " int value() const { return m_value; } " "public slots: " " void setValue(int value); " "signals: " " void valueChanged(int newValue); " "private: " " int m_value; " "}; " "void Counter::setValue(int value) " "{ " " if (value != m_value) { " " m_value = value; " " emit valueChanged(value); " " } " "}"; const char result1 [] = "class Counter : public QObject " "{ " "public: " "Counter ( ) { m_value = 0 ; } " "int value ( ) const { return m_value ; } " "public: " "void setValue ( int value ) ; " "protected: " "void valueChanged ( int newValue ) ; " "private: " "int m_value ; " "} ; " "void Counter :: setValue ( int value ) " "{ " "if ( value != m_value ) { " "m_value = value ; " "valueChanged ( value ) ; " "} " "}"; ASSERT_EQUALS(result1, tokenizeAndStringify(code1,false)); const char code2[] = "class Counter : public QObject " "{ " " Q_OBJECT " "public: " " Counter() { m_value = 0; } " " int value() const { return m_value; } " "public Q_SLOTS: " " void setValue(int value); " "Q_SIGNALS: " " void valueChanged(int newValue); " "private: " " int m_value; " "};" "void Counter::setValue(int value) " "{ " " if (value != m_value) { " " m_value = value; " " emit valueChanged(value); " " } " "}"; const char result2 [] = "class Counter : public QObject " "{ " "public: " "Counter ( ) { m_value = 0 ; } " "int value ( ) const { return m_value ; } " "public: " "void setValue ( int value ) ; " "protected: " "void valueChanged ( int newValue ) ; " "private: " "int m_value ; " "} ; " "void Counter :: setValue ( int value ) " "{ " "if ( value != m_value ) { " "m_value = value ; " "valueChanged ( value ) ; " "} " "}"; ASSERT_EQUALS(result2, tokenizeAndStringify(code2,false)); const char code3[] = "class MyObject : public QObject {" " MyObject() {}" " ~MyObject() {}" " public slots:" " signals:" " void test() {}" "};"; const char result3 [] = "class MyObject : public QObject { " "MyObject ( ) { } " "~ MyObject ( ) { } " "public: " "protected: " "void test ( ) { } " "} ;"; ASSERT_EQUALS(result3, tokenizeAndStringify(code3,false)); ASSERT_EQUALS("", errout.str()); const char code4[] = "class MyObject : public QObject {" " Q_OBJECT " "public slots:" "};"; const char result4[] = "class MyObject : public QObject { " "public: " "} ;"; ASSERT_EQUALS(result4, tokenizeAndStringify(code4,false)); } void simplifySQL() { // Oracle PRO*C extensions for inline SQL. Just replace the SQL with "asm()" to fix wrong error messages // ticket: #1959 ASSERT_EQUALS("asm ( \"\"__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL SELECT A FROM B\"\" ) ;", tokenizeAndStringify("__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL SELECT A FROM B;",false)); ASSERT_THROW(tokenizeAndStringify("__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL",false), InternalError); ASSERT_EQUALS("asm ( \"\"__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL EXECUTE BEGIN Proc1 ( A ) ; END ; END - __CPPCHECK_EMBEDDED_SQL_EXEC__\"\" ) ; asm ( \"\"__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL COMMIT\"\" ) ;", tokenizeAndStringify("__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL EXECUTE BEGIN Proc1(A); END; END-__CPPCHECK_EMBEDDED_SQL_EXEC__; __CPPCHECK_EMBEDDED_SQL_EXEC__ SQL COMMIT;",false)); ASSERT_EQUALS("asm ( \"\"__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL UPDATE A SET B = C\"\" ) ; asm ( \"\"__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL COMMIT\"\" ) ;", tokenizeAndStringify("__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL UPDATE A SET B = C; __CPPCHECK_EMBEDDED_SQL_EXEC__ SQL COMMIT;",false)); ASSERT_EQUALS("asm ( \"\"__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL COMMIT\"\" ) ; asm ( \"\"__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL EXECUTE BEGIN Proc1 ( A ) ; END ; END - __CPPCHECK_EMBEDDED_SQL_EXEC__\"\" ) ;", tokenizeAndStringify("__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL COMMIT; __CPPCHECK_EMBEDDED_SQL_EXEC__ SQL EXECUTE BEGIN Proc1(A); END; END-__CPPCHECK_EMBEDDED_SQL_EXEC__;",false)); ASSERT_THROW(tokenizeAndStringify("int f(){ __CPPCHECK_EMBEDDED_SQL_EXEC__ SQL } int a;",false), InternalError); ASSERT_THROW(tokenizeAndStringify("__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL int f(){",false), InternalError); ASSERT_THROW(tokenizeAndStringify("__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL END-__CPPCHECK_EMBEDDED_SQL_EXEC__ int a;",false), InternalError); ASSERT_NO_THROW(tokenizeAndStringify("__CPPCHECK_EMBEDDED_SQL_EXEC__ SQL UPDATE A SET B = :&b->b1, C = :c::c1;",false)); } void simplifyCAlternativeTokens() { ASSERT_EQUALS("void f ( ) { if ( a && b ) { ; } }", tokenizeAndStringify("void f() { if (a and b); }", false, true, Settings::Native, "test.c")); ASSERT_EQUALS("void f ( ) { if ( a && b ) { ; } }", tokenizeAndStringify("void f() { if (a and b); }", false, true, Settings::Native, "test.cpp")); ASSERT_EQUALS("void f ( ) { if ( a || b ) { ; } }", tokenizeAndStringify("void f() { if (a or b); }", false, true, Settings::Native, "test.c")); ASSERT_EQUALS("void f ( ) { if ( a || b ) { ; } }", tokenizeAndStringify("void f() { if (a or b); }", false, true, Settings::Native, "test.cpp")); ASSERT_EQUALS("void f ( ) { if ( a & b ) { ; } }", tokenizeAndStringify("void f() { if (a bitand b); }", false, true, Settings::Native, "test.c")); ASSERT_EQUALS("void f ( ) { if ( a & b ) { ; } }", tokenizeAndStringify("void f() { if (a bitand b); }", false, true, Settings::Native, "test.cpp")); ASSERT_EQUALS("void f ( ) { if ( a | b ) { ; } }", tokenizeAndStringify("void f() { if (a bitor b); }", false, true, Settings::Native, "test.c")); ASSERT_EQUALS("void f ( ) { if ( a | b ) { ; } }", tokenizeAndStringify("void f() { if (a bitor b); }", false, true, Settings::Native, "test.cpp")); ASSERT_EQUALS("void f ( ) { if ( a ^ b ) { ; } }", tokenizeAndStringify("void f() { if (a xor b); }", false, true, Settings::Native, "test.c")); ASSERT_EQUALS("void f ( ) { if ( a ^ b ) { ; } }", tokenizeAndStringify("void f() { if (a xor b); }", false, true, Settings::Native, "test.cpp")); ASSERT_EQUALS("void f ( ) { if ( ~ b ) { ; } }", tokenizeAndStringify("void f() { if (compl b); }", false, true, Settings::Native, "test.c")); ASSERT_EQUALS("void f ( ) { if ( ~ b ) { ; } }", tokenizeAndStringify("void f() { if (compl b); }", false, true, Settings::Native, "test.cpp")); ASSERT_EQUALS("void f ( ) { if ( ! b ) { ; } }", tokenizeAndStringify("void f() { if (not b); }", false, true, Settings::Native, "test.c")); ASSERT_EQUALS("void f ( ) { if ( ! b ) { ; } }", tokenizeAndStringify("void f() { if (not b); }", false, true, Settings::Native, "test.cpp")); ASSERT_EQUALS("void f ( ) { if ( a != b ) { ; } }", tokenizeAndStringify("void f() { if (a not_eq b); }", false, true, Settings::Native, "test.c")); ASSERT_EQUALS("void f ( ) { if ( a != b ) { ; } }", tokenizeAndStringify("void f() { if (a not_eq b); }", false, true, Settings::Native, "test.cpp")); // #6201 ASSERT_EQUALS("void f ( ) { if ( ! c || ! memcmp ( a , b , s ) ) { ; } }", tokenizeAndStringify("void f() { if (!c or !memcmp(a, b, s)); }", false, true, Settings::Native, "test.c")); ASSERT_EQUALS("void f ( ) { if ( ! c || ! memcmp ( a , b , s ) ) { ; } }", tokenizeAndStringify("void f() { if (!c or !memcmp(a, b, s)); }", false, true, Settings::Native, "test.cpp")); // #6029 ASSERT_EQUALS("void f ( ) { if ( ! b ) { } }", tokenizeAndStringify("void f() { if (not b){} }", false, true, Settings::Native, "test.c")); ASSERT_EQUALS("void f ( ) { if ( ! b ) { } }", tokenizeAndStringify("void f() { if (not b){} }", false, true, Settings::Native, "test.cpp")); // #6207 ASSERT_EQUALS("void f ( ) { if ( not = x ) { } }", tokenizeAndStringify("void f() { if (not=x){} }", false, true, Settings::Native, "test.c")); ASSERT_EQUALS("void f ( ) { if ( not = x ) { } }", tokenizeAndStringify("void f() { if (not=x){} }", false, true, Settings::Native, "test.cpp")); // #8029 ASSERT_EQUALS("void f ( struct S * s ) { x = s . and + 1 ; }", tokenizeAndStringify("void f(struct S *s) { x = s->and + 1; }", false, true, Settings::Native, "test.c")); // #8745 ASSERT_EQUALS("void f ( ) { if ( x ) { or = 0 ; } }", tokenizeAndStringify("void f() { if (x) or = 0; }")); } void simplifyCalculations() { ASSERT_EQUALS("void foo ( char str [ ] ) { char x ; x = * str ; }", tokenizeAndStringify("void foo ( char str [ ] ) { char x = 0 | ( * str ) ; }", true)); ASSERT_EQUALS("void foo ( ) { if ( b ) { } }", tokenizeAndStringify("void foo ( ) { if (b + 0) { } }", true)); ASSERT_EQUALS("void foo ( ) { if ( b ) { } }", tokenizeAndStringify("void foo ( ) { if (0 + b) { } }", true)); ASSERT_EQUALS("void foo ( ) { if ( b ) { } }", tokenizeAndStringify("void foo ( ) { if (b - 0) { } }", true)); ASSERT_EQUALS("void foo ( ) { if ( b ) { } }", tokenizeAndStringify("void foo ( ) { if (b * 1) { } }", true)); ASSERT_EQUALS("void foo ( ) { if ( b ) { } }", tokenizeAndStringify("void foo ( ) { if (1 * b) { } }", true)); //ASSERT_EQUALS("void foo ( ) { if ( b ) { } }", // tokenizeAndStringify("void foo ( ) { if (b / 1) { } }", true)); ASSERT_EQUALS("void foo ( ) { if ( b ) { } }", tokenizeAndStringify("void foo ( ) { if (b | 0) { } }", true)); ASSERT_EQUALS("void foo ( ) { if ( b ) { } }", tokenizeAndStringify("void foo ( ) { if (0 | b) { } }", true)); ASSERT_EQUALS("void foo ( int b ) { int a ; a = b ; bar ( a ) ; }", tokenizeAndStringify("void foo ( int b ) { int a = b | 0 ; bar ( a ) ; }", true)); ASSERT_EQUALS("void foo ( int b ) { int a ; a = b ; bar ( a ) ; }", tokenizeAndStringify("void foo ( int b ) { int a = 0 | b ; bar ( a ) ; }", true)); // ticket #3093 ASSERT_EQUALS("int f ( ) { return 15 ; }", tokenizeAndStringify("int f() { int a = 10; int b = 5; return a + b; }", true)); ASSERT_EQUALS("int f ( ) { return a ; }", tokenizeAndStringify("int f() { return a * 1; }", true)); ASSERT_EQUALS("int f ( int a ) { return 0 ; }", tokenizeAndStringify("int f(int a) { return 0 * a; }", true)); ASSERT_EQUALS("bool f ( int i ) { switch ( i ) { case 15 : ; return true ; } }", tokenizeAndStringify("bool f(int i) { switch (i) { case 10 + 5: return true; } }", true)); // ticket #3576 - False positives in boolean expressions ASSERT_EQUALS("int foo ( ) { return 1 ; }", tokenizeAndStringify("int foo ( ) { int i; int j; i = 1 || j; return i; }", true)); ASSERT_EQUALS("int foo ( ) { return 0 ; }", tokenizeAndStringify("int foo ( ) { int i; int j; i = 0 && j; return i; }", true)); // ticket #3576 - False positives in boolean expressions // ticket #3723 - Simplify condition (0 && a < 123) ASSERT_EQUALS("( 0 ) ;", tokenizeAndStringify("( 0 && a < 123 );", true)); ASSERT_EQUALS("( 0 ) ;", tokenizeAndStringify("( 0 && a[123] );", true)); // ticket #4931 ASSERT_EQUALS("dostuff ( 1 ) ;", tokenizeAndStringify("dostuff(9&&8);", true)); } void simplifyRoundCurlyParentheses() { ASSERT_EQUALS("; x = 123 ;", tokenizeAndStringify(";x=({123;});")); ASSERT_EQUALS("; x = y ;", tokenizeAndStringify(";x=({y;});")); } void simplifyOperatorName1() { // make sure C code doesn't get changed const char code[] = "void operator () {}" "int main()" "{" " operator();" "}"; const char result [] = "void operator ( ) { } " "int main ( ) " "{ " "operator ( ) ; " "}"; ASSERT_EQUALS(result, tokenizeAndStringify(code, /*simplify=*/false, /*expand=*/true, /*platform=*/Settings::Native, "test.c")); } void simplifyOperatorName2() { const char code[] = "class Fred" "{" " Fred(const Fred & f) { operator = (f); }" " operator = ();" "}"; const char result [] = "class Fred " "{ " "Fred ( const Fred & f ) { operator= ( f ) ; } " "operator= ( ) ; " "}"; ASSERT_EQUALS(result, tokenizeAndStringify(code,false)); } void simplifyOperatorName3() { // #2615 const char code[] = "void f() {" "static_cast(xResult.operator->())->GetMatrix();" "}"; const char result[] = "void f ( ) { static_cast < ScToken * > ( xResult . operator. ( ) ) . GetMatrix ( ) ; }"; ASSERT_EQUALS(result, tokenizeAndStringify(code,false)); } void simplifyOperatorName4() { const char code[] = "void operator==() { }"; const char result[] = "void operator== ( ) { }"; ASSERT_EQUALS(result, tokenizeAndStringify(code,false)); } void simplifyOperatorName5() { const char code1[] = "std::istream & operator >> (std::istream & s, Fred &f);"; const char result1[] = "std :: istream & operator>> ( std :: istream & s , Fred & f ) ;"; ASSERT_EQUALS(result1, tokenizeAndStringify(code1,false)); const char code2[] = "std::ostream & operator << (std::ostream & s, const Fred &f);"; const char result2[] = "std :: ostream & operator<< ( std :: ostream & s , const Fred & f ) ;"; ASSERT_EQUALS(result2, tokenizeAndStringify(code2,false)); } void simplifyOperatorName6() { // ticket #3195 const char code1[] = "value_type * operator ++ (int);"; const char result1[] = "value_type * operator++ ( int ) ;"; ASSERT_EQUALS(result1, tokenizeAndStringify(code1,false)); const char code2[] = "value_type * operator -- (int);"; const char result2[] = "value_type * operator-- ( int ) ;"; ASSERT_EQUALS(result2, tokenizeAndStringify(code2,false)); } void simplifyOperatorName7() { // ticket #4619 const char code1[] = "value_type * operator += (int);"; const char result1[] = "value_type * operator+= ( int ) ;"; ASSERT_EQUALS(result1, tokenizeAndStringify(code1,false)); } void simplifyOperatorName8() { // ticket #5706 const char code1[] = "value_type * operator += (int) noexcept ;"; const char result1[] = "value_type * operator+= ( int ) noexcept ( true ) ;"; ASSERT_EQUALS(result1, tokenizeAndStringify(code1,false)); const char code2[] = "value_type * operator += (int) noexcept ( true ) ;"; const char result2[] = "value_type * operator+= ( int ) noexcept ( true ) ;"; ASSERT_EQUALS(result2, tokenizeAndStringify(code2,false)); const char code3[] = "value_type * operator += (int) throw ( ) ;"; const char result3[] = "value_type * operator+= ( int ) throw ( ) ;"; ASSERT_EQUALS(result3, tokenizeAndStringify(code3,false)); const char code4[] = "value_type * operator += (int) const noexcept ;"; const char result4[] = "value_type * operator+= ( int ) const noexcept ;"; ASSERT_EQUALS(result4, tokenizeAndStringify(code4,false)); const char code5[] = "value_type * operator += (int) const noexcept ( true ) ;"; const char result5[] = "value_type * operator+= ( int ) const noexcept ( true ) ;"; ASSERT_EQUALS(result5, tokenizeAndStringify(code5,false)); const char code6[] = "value_type * operator += (int) const throw ( ) ;"; const char result6[] = "value_type * operator+= ( int ) const throw ( ) ;"; ASSERT_EQUALS(result6, tokenizeAndStringify(code6,false)); const char code7[] = "value_type * operator += (int) const noexcept ( false ) ;"; const char result7[] = "value_type * operator+= ( int ) const noexcept ( false ) ;"; ASSERT_EQUALS(result7, tokenizeAndStringify(code7,false)); } void simplifyOperatorName9() { // Ticket #5709 const char code[] = "struct R { R operator, ( R b ) ; } ;"; ASSERT_EQUALS(code, tokenizeAndStringify(code)); } void simplifyOperatorName10() { // #8746 const char code[] = "using a::operator=;"; ASSERT_EQUALS("using a :: operator= ;", tokenizeAndStringify(code)); } void simplifyNullArray() { ASSERT_EQUALS("* ( foo . bar [ 5 ] ) = x ;", tokenizeAndStringify("0[foo.bar[5]] = x;")); } void removeMacrosInGlobalScope() { // remove some unhandled macros in the global scope. ASSERT_EQUALS("void f ( ) { }", tokenizeAndStringify("void f() NOTHROW { }")); ASSERT_EQUALS("struct Foo { } ;", tokenizeAndStringify("struct __declspec(dllexport) Foo {};")); ASSERT_EQUALS("namespace { }", tokenizeAndStringify("ABA() namespace { }")); // #3750 ASSERT_EQUALS("; foo :: foo ( ) { }", tokenizeAndStringify("; AB(foo*) foo::foo() { }")); // #4834 ASSERT_EQUALS("A(B) foo ( ) { }", tokenizeAndStringify("A(B) foo() {}")); // #3855 ASSERT_EQUALS("; class foo { }", tokenizeAndStringify("; AB class foo { }")); ASSERT_EQUALS("; CONST struct ABC abc ;", tokenizeAndStringify("; CONST struct ABC abc ;")); } void removeMacroInVarDecl() { // #4304 // only remove macros with parentheses (those hurt most) ASSERT_EQUALS("void f ( ) { PROGMEM int x ; }", tokenizeAndStringify("void f() { PROGMEM int x ; }")); ASSERT_EQUALS("void f ( ) { int x ; }", tokenizeAndStringify("void f() { SECTION(\".data.ro\") int x ; }")); // various variable declarations ASSERT_EQUALS("void f ( ) { CONST int x ; }", tokenizeAndStringify("void f() { SECTION(\".data.ro\") CONST int x ; }")); ASSERT_EQUALS("void f ( ) { char a [ 4 ] ; }", tokenizeAndStringify("void f() { SECTION(\".data.ro\") char a[4]; }")); ASSERT_EQUALS("void f ( ) { const char a [ 4 ] ; }", tokenizeAndStringify("void f() { SECTION(\".data.ro\") const char a[4]; }")); ASSERT_EQUALS("void f ( ) { struct ABC abc ; }", tokenizeAndStringify("void f() { SECTION(\".data.ro\") struct ABC abc; }")); ASSERT_EQUALS("void f ( ) { CONST struct ABC abc ; }", tokenizeAndStringify("void f() { SECTION(\".data.ro\") CONST struct ABC abc; }")); } void multipleAssignment() { ASSERT_EQUALS("a = b = 0 ;", tokenizeAndStringify("a=b=0;")); } void sizeOfCharLiteral() { // #7490 sizeof('a') should be 4 in C mode std::stringstream expected; expected << "unsigned long a ; a = " << settings1.sizeof_int << " ;"; ASSERT_EQUALS(expected.str(), tokenizeAndStringify("unsigned long a = sizeof('x');", true, true, Settings::Native, "test.c", false)); ASSERT_EQUALS("unsigned long a ; a = 1 ;", tokenizeAndStringify("unsigned long a = sizeof('x');", true, true, Settings::Native, "test.cpp", true)); } void platformWin() { const char code[] = "BOOL f;" "BOOLEAN g;" "BYTE h;" "CHAR i;" "DWORD j;" "FLOAT k;" "INT l;" "INT32 m;" "INT64 n;" "LONG o;" "SHORT p;" "UCHAR q;" "UINT r;" "ULONG s;" "USHORT t;" "WORD u;" "VOID *v;" "LPBOOL w;" "PBOOL x;" "LPBYTE y;" "PBOOLEAN z;" "PBYTE A;" "LPCSTR B;" "PCSTR C;" "LPCVOID D;" "LPDWORD E;" "LPINT F;" "PINT G;" "LPLONG H;" "PLONG I;" "LPSTR J;" "PSTR K;" "PCHAR L;" "LPVOID M;" "PVOID N;" "BOOL _bool;" "HFILE hfile;" "LONG32 long32;" "LCID lcid;" "LCTYPE lctype;" "LGRPID lgrpid;" "LONG64 long64;" "PUCHAR puchar;" "LPCOLORREF lpcolorref;" "PDWORD pdword;" "PULONG pulong;" "SERVICE_STATUS_HANDLE service_status_hanlde;" "SC_LOCK sc_lock;" "SC_HANDLE sc_handle;" "HACCEL haccel;" "HCONV hconv;" "HCONVLIST hconvlist;" "HDDEDATA hddedata;" "HDESK hdesk;" "HDROP hdrop;" "HDWP hdwp;" "HENHMETAFILE henhmetafile;" "HHOOK hhook;" "HKL hkl;" "HMONITOR hmonitor;" "HSZ hsz;" "HWINSTA hwinsta;" "PWCHAR pwchar;" "PUSHORT pushort;" "LANGID langid;" "DWORD64 dword64;" "ULONG64 ulong64;" "LPWSTR lpcwstr;" "LPCWSTR lpcwstr;" "LPHANDLE lpHandle;" "PCWSTR pcwStr;" "PDWORDLONG pdWordLong;" "PDWORD_PTR pdWordPtr;" "PDWORD32 pdWord32;" "PDWORD64 pdWord64;" "LONGLONG ll;" "USN usn;" "PULONG64 puLong64;" "PULONG32 puLong32;" "PFLOAT ptrToFloat;"; const char expected[] = "int f ; " "unsigned char g ; " "unsigned char h ; " "char i ; " "unsigned long j ; " "float k ; " "int l ; " "int m ; " "long long n ; " "long o ; " "short p ; " "unsigned char q ; " "unsigned int r ; " "unsigned long s ; " "unsigned short t ; " "unsigned short u ; " "void * v ; " "int * w ; " "int * x ; " "unsigned char * y ; " "unsigned char * z ; " "unsigned char * A ; " "const char * B ; " "const char * C ; " "const void * D ; " "unsigned long * E ; " "int * F ; " "int * G ; " "long * H ; " "long * I ; " "char * J ; " "char * K ; " "char * L ; " "void * M ; " "void * N ; " "int _bool ; " "int hfile ; " "int long32 ; " "unsigned long lcid ; " "unsigned long lctype ; " "unsigned long lgrpid ; " "long long long64 ; " "unsigned char * puchar ; " "unsigned long * lpcolorref ; " "unsigned long * pdword ; " "unsigned long * pulong ; " "void * service_status_hanlde ; " "void * sc_lock ; " "void * sc_handle ; " "void * haccel ; " "void * hconv ; " "void * hconvlist ; " "void * hddedata ; " "void * hdesk ; " "void * hdrop ; " "void * hdwp ; " "void * henhmetafile ; " "void * hhook ; " "void * hkl ; " "void * hmonitor ; " "void * hsz ; " "void * hwinsta ; " "wchar_t * pwchar ; " "unsigned short * pushort ; " "unsigned short langid ; " "unsigned long long dword64 ; " "unsigned long long ulong64 ; " "wchar_t * lpcwstr ; " "const wchar_t * lpcwstr ; " "void * lpHandle ; " "const wchar_t * pcwStr ; " "long * pdWordLong ; " "long * pdWordPtr ; " "unsigned int * pdWord32 ; " "unsigned long * pdWord64 ; " "long long ll ; " "long long usn ; " "unsigned long long * puLong64 ; " "unsigned int * puLong32 ; " "float * ptrToFloat ;"; // These types should be defined the same on all Windows platforms const std::string win32A = tokenizeAndStringifyWindows(code, true, true, Settings::Win32A); ASSERT_EQUALS(expected, win32A); ASSERT_EQUALS(win32A, tokenizeAndStringifyWindows(code, true, true, Settings::Win32W)); ASSERT_EQUALS(win32A, tokenizeAndStringifyWindows(code, true, true, Settings::Win64)); } void platformWin32() { const char code[] = "unsigned int sizeof_short = sizeof(short);" "unsigned int sizeof_unsigned_short = sizeof(unsigned short);" "unsigned int sizeof_int = sizeof(int);" "unsigned int sizeof_unsigned_int = sizeof(unsigned int);" "unsigned int sizeof_long = sizeof(long);" "unsigned int sizeof_unsigned_long = sizeof(unsigned long);" "unsigned int sizeof_long_long = sizeof(long long);" "unsigned int sizeof_unsigned_long_long = sizeof(unsigned long long);" "unsigned int sizeof_float = sizeof(float);" "unsigned int sizeof_double = sizeof(double);" "unsigned int sizeof_long_double = sizeof(long double);" "unsigned int sizeof_bool = sizeof(bool);" "unsigned int sizeof_wchar_t = sizeof(wchar_t);" "unsigned int sizeof_pointer = sizeof(void *);" "unsigned int sizeof_size_t = sizeof(size_t);" "size_t a;" "ssize_t b;" "ptrdiff_t c;" "intptr_t d;" "uintptr_t e;" "DWORD_PTR O;" "ULONG_PTR P;" "SIZE_T Q;" "HRESULT R;" "LONG_PTR S;" "HANDLE T;" "PHANDLE U;" "SSIZE_T _ssize_t;" "UINT_PTR uint_ptr;" "WPARAM wparam;" "HALF_PTR half_ptr;" "INT_PTR int_ptr;"; const char expected[] = "unsigned int sizeof_short ; sizeof_short = 2 ; " "unsigned int sizeof_unsigned_short ; sizeof_unsigned_short = 2 ; " "unsigned int sizeof_int ; sizeof_int = 4 ; " "unsigned int sizeof_unsigned_int ; sizeof_unsigned_int = 4 ; " "unsigned int sizeof_long ; sizeof_long = 4 ; " "unsigned int sizeof_unsigned_long ; sizeof_unsigned_long = 4 ; " "unsigned int sizeof_long_long ; sizeof_long_long = 8 ; " "unsigned int sizeof_unsigned_long_long ; sizeof_unsigned_long_long = 8 ; " "unsigned int sizeof_float ; sizeof_float = 4 ; " "unsigned int sizeof_double ; sizeof_double = 8 ; " "unsigned int sizeof_long_double ; sizeof_long_double = 8 ; " "unsigned int sizeof_bool ; sizeof_bool = 1 ; " "unsigned int sizeof_wchar_t ; sizeof_wchar_t = 2 ; " "unsigned int sizeof_pointer ; sizeof_pointer = 4 ; " "unsigned int sizeof_size_t ; sizeof_size_t = 4 ; " "unsigned long a ; " "long b ; " "long c ; " "long d ; " "unsigned long e ; " "unsigned long O ; " "unsigned long P ; " "unsigned long Q ; " "long R ; " "long S ; " "void * T ; " "void * * U ; " "long _ssize_t ; " "unsigned int uint_ptr ; " "unsigned int wparam ; " "short half_ptr ; " "int int_ptr ;"; // These types should be defined the same on all Win32 platforms std::string win32A = tokenizeAndStringifyWindows(code, true, true, Settings::Win32A); ASSERT_EQUALS(expected, win32A); ASSERT_EQUALS(win32A, tokenizeAndStringifyWindows(code, true, true, Settings::Win32W)); } void platformWin32A() { const char code[] = "wchar_t wc;" "TCHAR c;" "PTSTR ptstr;" "LPTSTR lptstr;" "PCTSTR pctstr;" "LPCTSTR lpctstr;" "void foo() {" " TCHAR tc = _T(\'c\'); " " TCHAR src[10] = _T(\"123456789\");" " TCHAR dst[10];" " _tcscpy(dst, src);" " dst[0] = 0;" " _tcscat(dst, src);" " LPTSTR d = _tcsdup(str);" " _tprintf(_T(\"Hello world!\"));" " _stprintf(dst, _T(\"Hello!\"));" " _sntprintf(dst, sizeof(dst) / sizeof(TCHAR), _T(\"Hello world!\"));" " _tscanf(_T(\"%s\"), dst);" " _stscanf(dst, _T(\"%s\"), dst);" "}" "TBYTE tbyte;"; const char expected[] = "wchar_t wc ; " "char c ; " "char * ptstr ; " "char * lptstr ; " "const char * pctstr ; " "const char * lpctstr ; " "void foo ( ) { " "char tc ; tc = \'c\' ; " "char src [ 10 ] = \"123456789\" ; " "char dst [ 10 ] ; " "strcpy ( dst , src ) ; " "dst [ 0 ] = 0 ; " "strcat ( dst , src ) ; " "char * d ; d = strdup ( str ) ; " "printf ( \"Hello world!\" ) ; " "sprintf ( dst , \"Hello!\" ) ; " "_snprintf ( dst , sizeof ( dst ) / sizeof ( char ) , \"Hello world!\" ) ; " "scanf ( \"%s\" , dst ) ; " "sscanf ( dst , \"%s\" , dst ) ; " "} " "unsigned char tbyte ;"; ASSERT_EQUALS(expected, tokenizeAndStringifyWindows(code, false, true, Settings::Win32A)); } void platformWin32W() { const char code[] = "wchar_t wc;" "TCHAR c;" "PTSTR ptstr;" "LPTSTR lptstr;" "PCTSTR pctstr;" "LPCTSTR lpctstr;" "TBYTE tbyte;" "void foo() {" " TCHAR tc = _T(\'c\');" " TCHAR src[10] = _T(\"123456789\");" " TCHAR dst[10];" " _tcscpy(dst, src);" " dst[0] = 0;" " _tcscat(dst, src);" " LPTSTR d = _tcsdup(str);" " _tprintf(_T(\"Hello world!\"));" " _stprintf(dst, _T(\"Hello!\"));" " _sntprintf(dst, sizeof(dst) / sizeof(TCHAR), _T(\"Hello world!\"));" " _tscanf(_T(\"%s\"), dst);" " _stscanf(dst, _T(\"%s\"), dst);" "}"; const char expected[] = "wchar_t wc ; " "wchar_t c ; " "wchar_t * ptstr ; " "wchar_t * lptstr ; " "const wchar_t * pctstr ; " "const wchar_t * lpctstr ; " "unsigned wchar_t tbyte ; " "void foo ( ) { " "wchar_t tc ; tc = L\'c\' ; " "wchar_t src [ 10 ] = L\"123456789\" ; " "wchar_t dst [ 10 ] ; " "wcscpy ( dst , src ) ; " "dst [ 0 ] = 0 ; " "wcscat ( dst , src ) ; " "wchar_t * d ; d = wcsdup ( str ) ; " "wprintf ( L\"Hello world!\" ) ; " "swprintf ( dst , L\"Hello!\" ) ; " "_snwprintf ( dst , sizeof ( dst ) / sizeof ( wchar_t ) , L\"Hello world!\" ) ; " "wscanf ( L\"%s\" , dst ) ; " "swscanf ( dst , L\"%s\" , dst ) ; " "}"; ASSERT_EQUALS(expected, tokenizeAndStringifyWindows(code, false, true, Settings::Win32W)); } void platformWin64() { const char code[] = "unsigned int sizeof_short = sizeof(short);" "unsigned int sizeof_unsigned_short = sizeof(unsigned short);" "unsigned int sizeof_int = sizeof(int);" "unsigned int sizeof_unsigned_int = sizeof(unsigned int);" "unsigned int sizeof_long = sizeof(long);" "unsigned int sizeof_unsigned_long = sizeof(unsigned long);" "unsigned int sizeof_long_long = sizeof(long long);" "unsigned int sizeof_unsigned_long_long = sizeof(unsigned long long);" "unsigned int sizeof_float = sizeof(float);" "unsigned int sizeof_double = sizeof(double);" "unsigned int sizeof_long_double = sizeof(long double);" "unsigned int sizeof_bool = sizeof(bool);" "unsigned int sizeof_wchar_t = sizeof(wchar_t);" "unsigned int sizeof_pointer = sizeof(void *);" "unsigned int sizeof_size_t = sizeof(size_t);" "size_t a;" "ssize_t b;" "ptrdiff_t c;" "intptr_t d;" "uintptr_t e;" "DWORD_PTR O;" "ULONG_PTR P;" "SIZE_T Q;" "HRESULT R;" "LONG_PTR S;" "HANDLE T;" "PHANDLE U;" "SSIZE_T _ssize_t;" "UINT_PTR uint_ptr;" "WPARAM wparam;" "HALF_PTR half_ptr;" "INT_PTR int_ptr;"; const char expected[] = "unsigned int sizeof_short ; sizeof_short = 2 ; " "unsigned int sizeof_unsigned_short ; sizeof_unsigned_short = 2 ; " "unsigned int sizeof_int ; sizeof_int = 4 ; " "unsigned int sizeof_unsigned_int ; sizeof_unsigned_int = 4 ; " "unsigned int sizeof_long ; sizeof_long = 4 ; " "unsigned int sizeof_unsigned_long ; sizeof_unsigned_long = 4 ; " "unsigned int sizeof_long_long ; sizeof_long_long = 8 ; " "unsigned int sizeof_unsigned_long_long ; sizeof_unsigned_long_long = 8 ; " "unsigned int sizeof_float ; sizeof_float = 4 ; " "unsigned int sizeof_double ; sizeof_double = 8 ; " "unsigned int sizeof_long_double ; sizeof_long_double = 8 ; " "unsigned int sizeof_bool ; sizeof_bool = 1 ; " "unsigned int sizeof_wchar_t ; sizeof_wchar_t = 2 ; " "unsigned int sizeof_pointer ; sizeof_pointer = 8 ; " "unsigned int sizeof_size_t ; sizeof_size_t = 8 ; " "unsigned long long a ; " "long long b ; " "long long c ; " "long long d ; " "unsigned long long e ; " "unsigned long long O ; " "unsigned long long P ; " "unsigned long long Q ; " "long R ; " "long long S ; " "void * T ; " "void * * U ; " "long long _ssize_t ; " "unsigned long long uint_ptr ; " "unsigned long long wparam ; " "int half_ptr ; " "long long int_ptr ;"; ASSERT_EQUALS(expected, tokenizeAndStringifyWindows(code, true, true, Settings::Win64)); } void platformUnix32() { const char code[] = "unsigned int sizeof_short = sizeof(short);" "unsigned int sizeof_unsigned_short = sizeof(unsigned short);" "unsigned int sizeof_int = sizeof(int);" "unsigned int sizeof_unsigned_int = sizeof(unsigned int);" "unsigned int sizeof_long = sizeof(long);" "unsigned int sizeof_unsigned_long = sizeof(unsigned long);" "unsigned int sizeof_long_long = sizeof(long long);" "unsigned int sizeof_unsigned_long_long = sizeof(unsigned long long);" "unsigned int sizeof_float = sizeof(float);" "unsigned int sizeof_double = sizeof(double);" "unsigned int sizeof_long_double = sizeof(long double);" "unsigned int sizeof_bool = sizeof(bool);" "unsigned int sizeof_wchar_t = sizeof(wchar_t);" "unsigned int sizeof_pointer = sizeof(void *);" "unsigned int sizeof_size_t = sizeof(size_t);" "size_t a;" "ssize_t b;" "ptrdiff_t c;" "intptr_t d;" "uintptr_t e;"; const char expected[] = "unsigned int sizeof_short ; sizeof_short = 2 ; " "unsigned int sizeof_unsigned_short ; sizeof_unsigned_short = 2 ; " "unsigned int sizeof_int ; sizeof_int = 4 ; " "unsigned int sizeof_unsigned_int ; sizeof_unsigned_int = 4 ; " "unsigned int sizeof_long ; sizeof_long = 4 ; " "unsigned int sizeof_unsigned_long ; sizeof_unsigned_long = 4 ; " "unsigned int sizeof_long_long ; sizeof_long_long = 8 ; " "unsigned int sizeof_unsigned_long_long ; sizeof_unsigned_long_long = 8 ; " "unsigned int sizeof_float ; sizeof_float = 4 ; " "unsigned int sizeof_double ; sizeof_double = 8 ; " "unsigned int sizeof_long_double ; sizeof_long_double = 12 ; " "unsigned int sizeof_bool ; sizeof_bool = 1 ; " "unsigned int sizeof_wchar_t ; sizeof_wchar_t = 4 ; " "unsigned int sizeof_pointer ; sizeof_pointer = 4 ; " "unsigned int sizeof_size_t ; sizeof_size_t = 4 ; " "unsigned long a ; " "long b ; " "long c ; " "long d ; " "unsigned long e ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true, true, Settings::Unix32)); } void platformUnix64() { const char code[] = "unsigned int sizeof_short = sizeof(short);" "unsigned int sizeof_unsigned_short = sizeof(unsigned short);" "unsigned int sizeof_int = sizeof(int);" "unsigned int sizeof_unsigned_int = sizeof(unsigned int);" "unsigned int sizeof_long = sizeof(long);" "unsigned int sizeof_unsigned_long = sizeof(unsigned long);" "unsigned int sizeof_long_long = sizeof(long long);" "unsigned int sizeof_unsigned_long_long = sizeof(unsigned long long);" "unsigned int sizeof_float = sizeof(float);" "unsigned int sizeof_double = sizeof(double);" "unsigned int sizeof_long_double = sizeof(long double);" "unsigned int sizeof_bool = sizeof(bool);" "unsigned int sizeof_wchar_t = sizeof(wchar_t);" "unsigned int sizeof_pointer = sizeof(void *);" "unsigned int sizeof_size_t = sizeof(size_t);" "size_t a;" "ssize_t b;" "ptrdiff_t c;" "intptr_t d;" "uintptr_t e;"; const char expected[] = "unsigned int sizeof_short ; sizeof_short = 2 ; " "unsigned int sizeof_unsigned_short ; sizeof_unsigned_short = 2 ; " "unsigned int sizeof_int ; sizeof_int = 4 ; " "unsigned int sizeof_unsigned_int ; sizeof_unsigned_int = 4 ; " "unsigned int sizeof_long ; sizeof_long = 8 ; " "unsigned int sizeof_unsigned_long ; sizeof_unsigned_long = 8 ; " "unsigned int sizeof_long_long ; sizeof_long_long = 8 ; " "unsigned int sizeof_unsigned_long_long ; sizeof_unsigned_long_long = 8 ; " "unsigned int sizeof_float ; sizeof_float = 4 ; " "unsigned int sizeof_double ; sizeof_double = 8 ; " "unsigned int sizeof_long_double ; sizeof_long_double = 16 ; " "unsigned int sizeof_bool ; sizeof_bool = 1 ; " "unsigned int sizeof_wchar_t ; sizeof_wchar_t = 4 ; " "unsigned int sizeof_pointer ; sizeof_pointer = 8 ; " "unsigned int sizeof_size_t ; sizeof_size_t = 8 ; " "unsigned long a ; " "long b ; " "long c ; " "long d ; " "unsigned long e ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code, true, true, Settings::Unix64)); } void platformWin32AStringCat() { //#5150 const char code[] = "TCHAR text[] = _T(\"123\") _T(\"456\") _T(\"789\");"; const char expected[] = "char text [ 10 ] = \"123456789\" ;"; ASSERT_EQUALS(expected, tokenizeAndStringifyWindows(code, true, true, Settings::Win32A)); } void platformWin32WStringCat() { //#5150 const char code[] = "TCHAR text[] = _T(\"123\") _T(\"456\") _T(\"789\");"; const char expected[] = "wchar_t text [ 10 ] = L\"123456789\" ;"; ASSERT_EQUALS(expected, tokenizeAndStringifyWindows(code, true, true, Settings::Win32W)); } void platformWinWithNamespace() { const char code1[] = "UINT32 a; ::UINT32 b; foo::UINT32 c;"; const char expected1[] = "unsigned int a ; unsigned int b ; foo :: UINT32 c ;"; ASSERT_EQUALS(expected1, tokenizeAndStringifyWindows(code1, true, true, Settings::Win32A)); const char code2[] = "LPCVOID a; ::LPCVOID b; foo::LPCVOID c;"; const char expected2[] = "const void * a ; const void * b ; foo :: LPCVOID c ;"; ASSERT_EQUALS(expected2, tokenizeAndStringifyWindows(code2, true, true, Settings::Win32A)); } void isZeroNumber() const { ASSERT_EQUALS(true, Tokenizer::isZeroNumber("0.0")); ASSERT_EQUALS(true, Tokenizer::isZeroNumber("+0.0")); ASSERT_EQUALS(true, Tokenizer::isZeroNumber("-0.0")); ASSERT_EQUALS(true, Tokenizer::isZeroNumber("+0L")); ASSERT_EQUALS(true, Tokenizer::isZeroNumber("+0")); ASSERT_EQUALS(true, Tokenizer::isZeroNumber("-0")); ASSERT_EQUALS(true, Tokenizer::isZeroNumber("-0E+0")); ASSERT_EQUALS(false, Tokenizer::isZeroNumber("1.0")); ASSERT_EQUALS(false, Tokenizer::isZeroNumber("+1.0")); ASSERT_EQUALS(false, Tokenizer::isZeroNumber("-1")); ASSERT_EQUALS(false, Tokenizer::isZeroNumber("")); ASSERT_EQUALS(false, Tokenizer::isZeroNumber("garbage")); ASSERT_EQUALS(false, Tokenizer::isZeroNumber("E2")); ASSERT_EQUALS(false, Tokenizer::isZeroNumber("2e")); } void isOneNumber() const { ASSERT_EQUALS(true, Tokenizer::isOneNumber("1.0")); ASSERT_EQUALS(true, Tokenizer::isOneNumber("+1.0")); ASSERT_EQUALS(true, Tokenizer::isOneNumber("1.0e+0")); ASSERT_EQUALS(true, Tokenizer::isOneNumber("+1L")); ASSERT_EQUALS(true, Tokenizer::isOneNumber("+1")); ASSERT_EQUALS(true, Tokenizer::isOneNumber("1")); ASSERT_EQUALS(true, Tokenizer::isOneNumber("+1E+0")); ASSERT_EQUALS(false, Tokenizer::isOneNumber("0.0")); ASSERT_EQUALS(false, Tokenizer::isOneNumber("+0.0")); ASSERT_EQUALS(false, Tokenizer::isOneNumber("-0")); ASSERT_EQUALS(false, Tokenizer::isOneNumber("")); ASSERT_EQUALS(false, Tokenizer::isOneNumber("garbage")); } void isTwoNumber() const { ASSERT_EQUALS(true, Tokenizer::isTwoNumber("2.0")); ASSERT_EQUALS(true, Tokenizer::isTwoNumber("+2.0")); ASSERT_EQUALS(true, Tokenizer::isTwoNumber("2.0e+0")); ASSERT_EQUALS(true, Tokenizer::isTwoNumber("+2L")); ASSERT_EQUALS(true, Tokenizer::isTwoNumber("+2")); ASSERT_EQUALS(true, Tokenizer::isTwoNumber("2")); ASSERT_EQUALS(true, Tokenizer::isTwoNumber("+2E+0")); ASSERT_EQUALS(false, Tokenizer::isTwoNumber("0.0")); ASSERT_EQUALS(false, Tokenizer::isTwoNumber("+0.0")); ASSERT_EQUALS(false, Tokenizer::isTwoNumber("-0")); ASSERT_EQUALS(false, Tokenizer::isTwoNumber("")); ASSERT_EQUALS(false, Tokenizer::isTwoNumber("garbage")); } void simplifyMathFunctions_erfc() { // verify erfc(), erfcf(), erfcl() - simplifcation const char code_erfc[] ="void f(int x) {\n" " std::cout << erfc(x);\n" // do not simplify " std::cout << erfc(0L);\n" // simplify to 1 "}"; const char expected_erfc[] = "void f ( int x ) {\n" "std :: cout << erfc ( x ) ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_erfc, tokenizeAndStringify(code_erfc)); const char code_erfcf[] ="void f(float x) {\n" " std::cout << erfcf(x);\n" // do not simplify " std::cout << erfcf(0.0f);\n" // simplify to 1 "}"; const char expected_erfcf[] = "void f ( float x ) {\n" "std :: cout << erfcf ( x ) ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_erfcf, tokenizeAndStringify(code_erfcf)); const char code_erfcl[] ="void f(long double x) {\n" " std::cout << erfcl(x);\n" // do not simplify " std::cout << erfcl(0.0f);\n" // simplify to 1 "}"; const char expected_erfcl[] = "void f ( long double x ) {\n" "std :: cout << erfcl ( x ) ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_erfcl, tokenizeAndStringify(code_erfcl)); } void simplifyMathFunctions_cos() { // verify cos(), cosf(), cosl() - simplifcation const char code_cos[] ="void f(int x) {\n" " std::cout << cos(x);\n" // do not simplify " std::cout << cos(0L);\n" // simplify to 1 "}"; const char expected_cos[] = "void f ( int x ) {\n" "std :: cout << cos ( x ) ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_cos, tokenizeAndStringify(code_cos)); const char code_cosf[] ="void f(float x) {\n" " std::cout << cosf(x);\n" // do not simplify " std::cout << cosf(0.0f);\n" // simplify to 1 "}"; const char expected_cosf[] = "void f ( float x ) {\n" "std :: cout << cosf ( x ) ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_cosf, tokenizeAndStringify(code_cosf)); const char code_cosl[] ="void f(long double x) {\n" " std::cout << cosl(x);\n" // do not simplify " std::cout << cosl(0.0f);\n" // simplify to 1 "}"; const char expected_cosl[] = "void f ( long double x ) {\n" "std :: cout << cosl ( x ) ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_cosl, tokenizeAndStringify(code_cosl)); } void simplifyMathFunctions_cosh() { // verify cosh(), coshf(), coshl() - simplifcation const char code_cosh[] ="void f(int x) {\n" " std::cout << cosh(x);\n" // do not simplify " std::cout << cosh(0L);\n" // simplify to 1 "}"; const char expected_cosh[] = "void f ( int x ) {\n" "std :: cout << cosh ( x ) ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_cosh, tokenizeAndStringify(code_cosh)); const char code_coshf[] ="void f(float x) {\n" " std::cout << coshf(x);\n" // do not simplify " std::cout << coshf(0.0f);\n" // simplify to 1 "}"; const char expected_coshf[] = "void f ( float x ) {\n" "std :: cout << coshf ( x ) ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_coshf, tokenizeAndStringify(code_coshf)); const char code_coshl[] ="void f(long double x) {\n" " std::cout << coshl(x);\n" // do not simplify " std::cout << coshl(0.0f);\n" // simplify to 1 "}"; const char expected_coshl[] = "void f ( long double x ) {\n" "std :: cout << coshl ( x ) ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_coshl, tokenizeAndStringify(code_coshl)); } void simplifyMathFunctions_acos() { // verify acos(), acosf(), acosl() - simplifcation const char code_acos[] ="void f(int x) {\n" " std::cout << acos(x);\n" // do not simplify " std::cout << acos(1L);\n" // simplify to 0 "}"; const char expected_acos[] = "void f ( int x ) {\n" "std :: cout << acos ( x ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_acos, tokenizeAndStringify(code_acos)); const char code_acosf[] ="void f(float x) {\n" " std::cout << acosf(x);\n" // do not simplify " std::cout << acosf(1.0f);\n" // simplify to 0 "}"; const char expected_acosf[] = "void f ( float x ) {\n" "std :: cout << acosf ( x ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_acosf, tokenizeAndStringify(code_acosf)); const char code_acosl[] ="void f(long double x) {\n" " std::cout << acosl(x);\n" // do not simplify " std::cout << acosl(1.0f);\n" // simplify to 0 "}"; const char expected_acosl[] = "void f ( long double x ) {\n" "std :: cout << acosl ( x ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_acosl, tokenizeAndStringify(code_acosl)); } void simplifyMathFunctions_acosh() { // verify acosh(), acoshf(), acoshl() - simplifcation const char code_acosh[] ="void f(int x) {\n" " std::cout << acosh(x);\n" // do not simplify " std::cout << acosh(1L);\n" // simplify to 0 "}"; const char expected_acosh[] = "void f ( int x ) {\n" "std :: cout << acosh ( x ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_acosh, tokenizeAndStringify(code_acosh)); const char code_acoshf[] ="void f(float x) {\n" " std::cout << acoshf(x);\n" // do not simplify " std::cout << acoshf(1.0f);\n" // simplify to 0 "}"; const char expected_acoshf[] = "void f ( float x ) {\n" "std :: cout << acoshf ( x ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_acoshf, tokenizeAndStringify(code_acoshf)); const char code_acoshl[] ="void f(long double x) {\n" " std::cout << acoshl(x);\n" // do not simplify " std::cout << acoshl(1.0f);\n" // simplify to 0 "}"; const char expected_acoshl[] = "void f ( long double x ) {\n" "std :: cout << acoshl ( x ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_acoshl, tokenizeAndStringify(code_acoshl)); } void simplifyMathFunctions_sqrt() { // verify sqrt(), sqrtf(), sqrtl() - simplifcation const char code_sqrt[] ="void f(int x) {\n" " std::cout << sqrt(x);\n" // do not simplify " std::cout << sqrt(-1);\n" // do not simplify " std::cout << sqrt(0L);\n" // simplify to 0 " std::cout << sqrt(1L);\n" // simplify to 1 "}"; const char expected_sqrt[] = "void f ( int x ) {\n" "std :: cout << sqrt ( x ) ;\n" "std :: cout << sqrt ( -1 ) ;\n" "std :: cout << 0 ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_sqrt, tokenizeAndStringify(code_sqrt)); const char code_sqrtf[] ="void f(float x) {\n" " std::cout << sqrtf(x);\n" // do not simplify " std::cout << sqrtf(-1.0f);\n" // do not simplify " std::cout << sqrtf(0.0f);\n" // simplify to 0 " std::cout << sqrtf(1.0);\n" // simplify to 1 "}"; const char expected_sqrtf[] = "void f ( float x ) {\n" "std :: cout << sqrtf ( x ) ;\n" "std :: cout << sqrtf ( -1.0f ) ;\n" "std :: cout << 0 ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_sqrtf, tokenizeAndStringify(code_sqrtf)); const char code_sqrtl[] ="void f(long double x) {\n" " std::cout << sqrtf(x);\n" // do not simplify " std::cout << sqrtf(-1.0);\n" // do not simplify " std::cout << sqrtf(0.0);\n" // simplify to 0 " std::cout << sqrtf(1.0);\n" // simplify to 1 "}"; const char expected_sqrtl[] = "void f ( long double x ) {\n" "std :: cout << sqrtf ( x ) ;\n" "std :: cout << sqrtf ( -1.0 ) ;\n" "std :: cout << 0 ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_sqrtl, tokenizeAndStringify(code_sqrtl)); } void simplifyMathFunctions_cbrt() { // verify cbrt(), cbrtf(), cbrtl() - simplifcation const char code_cbrt[] ="void f(int x) {\n" " std::cout << cbrt(x);\n" // do not simplify " std::cout << cbrt(-1);\n" // do not simplify " std::cout << cbrt(0L);\n" // simplify to 0 " std::cout << cbrt(1L);\n" // simplify to 1 "}"; const char expected_cbrt[] = "void f ( int x ) {\n" "std :: cout << cbrt ( x ) ;\n" "std :: cout << cbrt ( -1 ) ;\n" "std :: cout << 0 ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_cbrt, tokenizeAndStringify(code_cbrt)); const char code_cbrtf[] ="void f(float x) {\n" " std::cout << cbrtf(x);\n" // do not simplify " std::cout << cbrtf(-1.0f);\n" // do not simplify " std::cout << cbrtf(0.0f);\n" // simplify to 0 " std::cout << cbrtf(1.0);\n" // simplify to 1 "}"; const char expected_cbrtf[] = "void f ( float x ) {\n" "std :: cout << cbrtf ( x ) ;\n" "std :: cout << cbrtf ( -1.0f ) ;\n" "std :: cout << 0 ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_cbrtf, tokenizeAndStringify(code_cbrtf)); const char code_cbrtl[] ="void f(long double x) {\n" " std::cout << cbrtl(x);\n" // do not simplify " std::cout << cbrtl(-1.0);\n" // do not simplify " std::cout << cbrtl(0.0);\n" // simplify to 0 " std::cout << cbrtl(1.0);\n" // simplify to 1 "}"; const char expected_cbrtl[] = "void f ( long double x ) {\n" "std :: cout << cbrtl ( x ) ;\n" "std :: cout << cbrtl ( -1.0 ) ;\n" "std :: cout << 0 ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_cbrtl, tokenizeAndStringify(code_cbrtl)); } void simplifyMathFunctions_exp2() { // verify exp2(), exp2f(), exp2l() - simplifcation const char code_exp2[] ="void f(int x) {\n" " std::cout << exp2(x);\n" // do not simplify " std::cout << exp2(-1);\n" // do not simplify " std::cout << exp2(0L);\n" // simplify to 0 " std::cout << exp2(1L);\n" // do not simplify "}"; const char expected_exp2[] = "void f ( int x ) {\n" "std :: cout << exp2 ( x ) ;\n" "std :: cout << exp2 ( -1 ) ;\n" "std :: cout << 1 ;\n" "std :: cout << exp2 ( 1L ) ;\n" "}"; ASSERT_EQUALS(expected_exp2, tokenizeAndStringify(code_exp2)); const char code_exp2f[] ="void f(float x) {\n" " std::cout << exp2f(x);\n" // do not simplify " std::cout << exp2f(-1.0);\n" // do not simplify " std::cout << exp2f(0.0);\n" // simplify to 1 " std::cout << exp2f(1.0);\n" // do not simplify "}"; const char expected_exp2f[] = "void f ( float x ) {\n" "std :: cout << exp2f ( x ) ;\n" "std :: cout << exp2f ( -1.0 ) ;\n" "std :: cout << 1 ;\n" "std :: cout << exp2f ( 1.0 ) ;\n" "}"; ASSERT_EQUALS(expected_exp2f, tokenizeAndStringify(code_exp2f)); const char code_exp2l[] ="void f(long double x) {\n" " std::cout << exp2l(x);\n" // do not simplify " std::cout << exp2l(-1.0);\n" // do not simplify " std::cout << exp2l(0.0);\n" // simplify to 1 " std::cout << exp2l(1.0);\n" // do not simplify "}"; const char expected_exp2l[] = "void f ( long double x ) {\n" "std :: cout << exp2l ( x ) ;\n" "std :: cout << exp2l ( -1.0 ) ;\n" "std :: cout << 1 ;\n" "std :: cout << exp2l ( 1.0 ) ;\n" "}"; ASSERT_EQUALS(expected_exp2l, tokenizeAndStringify(code_exp2l)); } void simplifyMathFunctions_exp() { // verify exp(), expf(), expl() - simplifcation const char code_exp[] ="void f(int x) {\n" " std::cout << exp(x);\n" // do not simplify " std::cout << exp(-1);\n" // do not simplify " std::cout << exp(0L);\n" // simplify to 1 " std::cout << exp(1L);\n" // do not simplify "}"; const char expected_exp[] = "void f ( int x ) {\n" "std :: cout << exp ( x ) ;\n" "std :: cout << exp ( -1 ) ;\n" "std :: cout << 1 ;\n" "std :: cout << exp ( 1L ) ;\n" "}"; ASSERT_EQUALS(expected_exp, tokenizeAndStringify(code_exp)); const char code_expf[] ="void f(float x) {\n" " std::cout << expf(x);\n" // do not simplify " std::cout << expf(-1.0);\n" // do not simplify " std::cout << expf(0.0);\n" // simplify to 1 " std::cout << expf(1.0);\n" // do not simplify "}"; const char expected_expf[] = "void f ( float x ) {\n" "std :: cout << expf ( x ) ;\n" "std :: cout << expf ( -1.0 ) ;\n" "std :: cout << 1 ;\n" "std :: cout << expf ( 1.0 ) ;\n" "}"; ASSERT_EQUALS(expected_expf, tokenizeAndStringify(code_expf)); const char code_expl[] ="void f(long double x) {\n" " std::cout << expl(x);\n" // do not simplify " std::cout << expl(-1.0);\n" // do not simplify " std::cout << expl(0.0);\n" // simplify to 1 " std::cout << expl(1.0);\n" // do not simplify "}"; const char expected_expl[] = "void f ( long double x ) {\n" "std :: cout << expl ( x ) ;\n" "std :: cout << expl ( -1.0 ) ;\n" "std :: cout << 1 ;\n" "std :: cout << expl ( 1.0 ) ;\n" "}"; ASSERT_EQUALS(expected_expl, tokenizeAndStringify(code_expl)); } void simplifyMathFunctions_erf() { // verify erf(), erff(), erfl() - simplifcation const char code_erf[] ="void f(int x) {\n" " std::cout << erf(x);\n" // do not simplify " std::cout << erf(10);\n" // do not simplify " std::cout << erf(0L);\n" // simplify to 0 "}"; const char expected_erf[] = "void f ( int x ) {\n" "std :: cout << erf ( x ) ;\n" "std :: cout << erf ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_erf, tokenizeAndStringify(code_erf)); const char code_erff[] ="void f(float x) {\n" " std::cout << erff(x);\n" // do not simplify " std::cout << erff(10);\n" // do not simplify " std::cout << erff(0.0f);\n" // simplify to 0 "}"; const char expected_erff[] = "void f ( float x ) {\n" "std :: cout << erff ( x ) ;\n" "std :: cout << erff ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_erff, tokenizeAndStringify(code_erff)); const char code_erfl[] ="void f(long double x) {\n" " std::cout << erfl(x);\n" // do not simplify " std::cout << erfl(10.0f);\n" // do not simplify " std::cout << erfl(0.0f);\n" // simplify to 0 "}"; const char expected_erfl[] = "void f ( long double x ) {\n" "std :: cout << erfl ( x ) ;\n" "std :: cout << erfl ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_erfl, tokenizeAndStringify(code_erfl)); } void simplifyMathFunctions_atanh() { // verify atanh(), atanhf(), atanhl() - simplifcation const char code_atanh[] ="void f(int x) {\n" " std::cout << atanh(x);\n" // do not simplify " std::cout << atanh(10);\n" // do not simplify " std::cout << atanh(0L);\n" // simplify to 0 "}"; const char expected_atanh[] = "void f ( int x ) {\n" "std :: cout << atanh ( x ) ;\n" "std :: cout << atanh ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_atanh, tokenizeAndStringify(code_atanh)); const char code_atanhf[] ="void f(float x) {\n" " std::cout << atanhf(x);\n" // do not simplify " std::cout << atanhf(10);\n" // do not simplify " std::cout << atanhf(0.0f);\n" // simplify to 0 "}"; const char expected_atanhf[] = "void f ( float x ) {\n" "std :: cout << atanhf ( x ) ;\n" "std :: cout << atanhf ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_atanhf, tokenizeAndStringify(code_atanhf)); const char code_atanhl[] ="void f(long double x) {\n" " std::cout << atanhl(x);\n" // do not simplify " std::cout << atanhl(10.0f);\n" // do not simplify " std::cout << atanhl(0.0d);\n" // do not simplify - invalid number! " std::cout << atanhl(0.0f);\n" // simplify to 0 "}"; const char expected_atanhl[] = "void f ( long double x ) {\n" "std :: cout << atanhl ( x ) ;\n" "std :: cout << atanhl ( 10.0f ) ;\n" "std :: cout << atanhl ( 0.0d ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_atanhl, tokenizeAndStringify(code_atanhl)); } void simplifyMathFunctions_atan() { // verify atan(), atanf(), atanl() - simplifcation const char code_atan[] ="void f(int x) {\n" " std::cout << atan(x);\n" // do not simplify " std::cout << atan(10);\n" // do not simplify " std::cout << atan(0L);\n" // simplify to 0 "}"; const char expected_atan[] = "void f ( int x ) {\n" "std :: cout << atan ( x ) ;\n" "std :: cout << atan ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_atan, tokenizeAndStringify(code_atan)); const char code_atanf[] ="void f(float x) {\n" " std::cout << atanf(x);\n" // do not simplify " std::cout << atanf(10);\n" // do not simplify " std::cout << atanf(0.0f);\n" // simplify to 0 "}"; const char expected_atanf[] = "void f ( float x ) {\n" "std :: cout << atanf ( x ) ;\n" "std :: cout << atanf ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_atanf, tokenizeAndStringify(code_atanf)); const char code_atanl[] ="void f(long double x) {\n" " std::cout << atanl(x);\n" // do not simplify " std::cout << atanl(10.0f);\n" // do not simplify " std::cout << atanl(0.0f);\n" // simplify to 0 "}"; const char expected_atanl[] = "void f ( long double x ) {\n" "std :: cout << atanl ( x ) ;\n" "std :: cout << atanl ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_atanl, tokenizeAndStringify(code_atanl)); } void simplifyMathFunctions_tanh() { // verify tanh(), tanhf(), tanhl() - simplifcation const char code_tanh[] ="void f(int x) {\n" " std::cout << tanh(x);\n" // do not simplify " std::cout << tanh(10);\n" // do not simplify " std::cout << tanh(0L);\n" // simplify to 0 "}"; const char expected_tanh[] = "void f ( int x ) {\n" "std :: cout << tanh ( x ) ;\n" "std :: cout << tanh ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_tanh, tokenizeAndStringify(code_tanh)); const char code_tanhf[] ="void f(float x) {\n" " std::cout << tanhf(x);\n" // do not simplify " std::cout << tanhf(10);\n" // do not simplify " std::cout << tanhf(0.0f);\n" // simplify to 0 "}"; const char expected_tanhf[] = "void f ( float x ) {\n" "std :: cout << tanhf ( x ) ;\n" "std :: cout << tanhf ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_tanhf, tokenizeAndStringify(code_tanhf)); const char code_tanhl[] ="void f(long double x) {\n" " std::cout << tanhl(x);\n" // do not simplify " std::cout << tanhl(10.0f);\n" // do not simplify " std::cout << tanhl(0.0f);\n" // simplify to 0 "}"; const char expected_tanhl[] = "void f ( long double x ) {\n" "std :: cout << tanhl ( x ) ;\n" "std :: cout << tanhl ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_tanhl, tokenizeAndStringify(code_tanhl)); } void simplifyMathFunctions_tan() { // verify tan(), tanf(), tanl() - simplifcation const char code_tan[] ="void f(int x) {\n" " std::cout << tan(x);\n" // do not simplify " std::cout << tan(10);\n" // do not simplify " std::cout << tan(0L);\n" // simplify to 0 "}"; const char expected_tan[] = "void f ( int x ) {\n" "std :: cout << tan ( x ) ;\n" "std :: cout << tan ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_tan, tokenizeAndStringify(code_tan)); const char code_tanf[] ="void f(float x) {\n" " std::cout << tanf(x);\n" // do not simplify " std::cout << tanf(10);\n" // do not simplify " std::cout << tanf(0.0f);\n" // simplify to 0 "}"; const char expected_tanf[] = "void f ( float x ) {\n" "std :: cout << tanf ( x ) ;\n" "std :: cout << tanf ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_tanf, tokenizeAndStringify(code_tanf)); const char code_tanl[] ="void f(long double x) {\n" " std::cout << tanl(x);\n" // do not simplify " std::cout << tanl(10.0f);\n" // do not simplify " std::cout << tanl(0.0f);\n" // simplify to 0 "}"; const char expected_tanl[] = "void f ( long double x ) {\n" "std :: cout << tanl ( x ) ;\n" "std :: cout << tanl ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_tanl, tokenizeAndStringify(code_tanl)); } void simplifyMathFunctions_expm1() { // verify expm1(), expm1f(), expm1l() - simplifcation const char code_expm1[] ="void f(int x) {\n" " std::cout << expm1(x);\n" // do not simplify " std::cout << expm1(10);\n" // do not simplify " std::cout << expm1(0L);\n" // simplify to 0 "}"; const char expected_expm1[] = "void f ( int x ) {\n" "std :: cout << expm1 ( x ) ;\n" "std :: cout << expm1 ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_expm1, tokenizeAndStringify(code_expm1)); const char code_expm1f[] ="void f(float x) {\n" " std::cout << expm1f(x);\n" // do not simplify " std::cout << expm1f(10);\n" // do not simplify " std::cout << expm1f(0.0f);\n" // simplify to 0 "}"; const char expected_expm1f[] = "void f ( float x ) {\n" "std :: cout << expm1f ( x ) ;\n" "std :: cout << expm1f ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_expm1f, tokenizeAndStringify(code_expm1f)); const char code_expm1l[] ="void f(long double x) {\n" " std::cout << expm1l(x);\n" // do not simplify " std::cout << expm1l(10.0f);\n" // do not simplify " std::cout << expm1l(0.0f);\n" // simplify to 0 "}"; const char expected_expm1l[] = "void f ( long double x ) {\n" "std :: cout << expm1l ( x ) ;\n" "std :: cout << expm1l ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_expm1l, tokenizeAndStringify(code_expm1l)); } void simplifyMathFunctions_asinh() { // verify asinh(), asinhf(), asinhl() - simplifcation const char code_asinh[] ="void f(int x) {\n" " std::cout << asinh(x);\n" // do not simplify " std::cout << asinh(10);\n" // do not simplify " std::cout << asinh(0L);\n" // simplify to 0 "}"; const char expected_asinh[] = "void f ( int x ) {\n" "std :: cout << asinh ( x ) ;\n" "std :: cout << asinh ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_asinh, tokenizeAndStringify(code_asinh)); const char code_asinhf[] ="void f(float x) {\n" " std::cout << asinhf(x);\n" // do not simplify " std::cout << asinhf(10);\n" // do not simplify " std::cout << asinhf(0.0f);\n" // simplify to 0 "}"; const char expected_asinhf[] = "void f ( float x ) {\n" "std :: cout << asinhf ( x ) ;\n" "std :: cout << asinhf ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_asinhf, tokenizeAndStringify(code_asinhf)); const char code_asinhl[] ="void f(long double x) {\n" " std::cout << asinhl(x);\n" // do not simplify " std::cout << asinhl(10.0f);\n" // do not simplify " std::cout << asinhl(0.0f);\n" // simplify to 0 "}"; const char expected_asinhl[] = "void f ( long double x ) {\n" "std :: cout << asinhl ( x ) ;\n" "std :: cout << asinhl ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_asinhl, tokenizeAndStringify(code_asinhl)); } void simplifyMathFunctions_asin() { // verify asin(), asinf(), asinl() - simplifcation const char code_asin[] ="void f(int x) {\n" " std::cout << asin(x);\n" // do not simplify " std::cout << asin(10);\n" // do not simplify " std::cout << asin(0L);\n" // simplify to 0 "}"; const char expected_asin[] = "void f ( int x ) {\n" "std :: cout << asin ( x ) ;\n" "std :: cout << asin ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_asin, tokenizeAndStringify(code_asin)); const char code_asinf[] ="void f(float x) {\n" " std::cout << asinf(x);\n" // do not simplify " std::cout << asinf(10);\n" // do not simplify " std::cout << asinf(0.0f);\n" // simplify to 0 "}"; const char expected_asinf[] = "void f ( float x ) {\n" "std :: cout << asinf ( x ) ;\n" "std :: cout << asinf ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_asinf, tokenizeAndStringify(code_asinf)); const char code_asinl[] ="void f(long double x) {\n" " std::cout << asinl(x);\n" // do not simplify " std::cout << asinl(10.0f);\n" // do not simplify " std::cout << asinl(0.0f);\n" // simplify to 0 "}"; const char expected_asinl[] = "void f ( long double x ) {\n" "std :: cout << asinl ( x ) ;\n" "std :: cout << asinl ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_asinl, tokenizeAndStringify(code_asinl)); } void simplifyMathFunctions_sinh() { // verify sinh(), sinhf(), sinhl() - simplifcation const char code_sinh[] ="void f(int x) {\n" " std::cout << sinh(x);\n" // do not simplify " std::cout << sinh(10);\n" // do not simplify " std::cout << sinh(0L);\n" // simplify to 0 "}"; const char expected_sinh[] = "void f ( int x ) {\n" "std :: cout << sinh ( x ) ;\n" "std :: cout << sinh ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_sinh, tokenizeAndStringify(code_sinh)); const char code_sinhf[] ="void f(float x) {\n" " std::cout << sinhf(x);\n" // do not simplify " std::cout << sinhf(10);\n" // do not simplify " std::cout << sinhf(0.0f);\n" // simplify to 0 "}"; const char expected_sinhf[] = "void f ( float x ) {\n" "std :: cout << sinhf ( x ) ;\n" "std :: cout << sinhf ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_sinhf, tokenizeAndStringify(code_sinhf)); const char code_sinhl[] ="void f(long double x) {\n" " std::cout << sinhl(x);\n" // do not simplify " std::cout << sinhl(10.0f);\n" // do not simplify " std::cout << sinhl(0.0f);\n" // simplify to 0 "}"; const char expected_sinhl[] = "void f ( long double x ) {\n" "std :: cout << sinhl ( x ) ;\n" "std :: cout << sinhl ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_sinhl, tokenizeAndStringify(code_sinhl)); } void simplifyMathFunctions_sin() { // verify sin(), sinf(), sinl() - simplifcation const char code_sin[] ="void f(int x) {\n" " std::cout << sin(x);\n" // do not simplify " std::cout << sin(10);\n" // do not simplify " std::cout << sin(0L);\n" // simplify to 0 "}"; const char expected_sin[] = "void f ( int x ) {\n" "std :: cout << sin ( x ) ;\n" "std :: cout << sin ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_sin, tokenizeAndStringify(code_sin)); const char code_sinf[] ="void f(float x) {\n" " std::cout << sinf(x);\n" // do not simplify " std::cout << sinf(10);\n" // do not simplify " std::cout << sinf(0.0f);\n" // simplify to 0 "}"; const char expected_sinf[] = "void f ( float x ) {\n" "std :: cout << sinf ( x ) ;\n" "std :: cout << sinf ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_sinf, tokenizeAndStringify(code_sinf)); const char code_sinl[] ="void f(long double x) {\n" " std::cout << sinl(x);\n" // do not simplify " std::cout << sinl(10.0f);\n" // do not simplify " std::cout << sinl(0.0f);\n" // simplify to 0 "}"; const char expected_sinl[] = "void f ( long double x ) {\n" "std :: cout << sinl ( x ) ;\n" "std :: cout << sinl ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_sinl, tokenizeAndStringify(code_sinl)); // #6629 const char code[] = "class Foo { int sinf; Foo() : sinf(0) {} };"; const char expected[] = "class Foo { int sinf ; Foo ( ) : sinf ( 0 ) { } } ;"; ASSERT_EQUALS(expected, tokenizeAndStringify(code)); } void simplifyMathFunctions_ilogb() { // verify ilogb(), ilogbf(), ilogbl() - simplifcation const char code_ilogb[] ="void f(int x) {\n" " std::cout << ilogb(x);\n" // do not simplify " std::cout << ilogb(10);\n" // do not simplify " std::cout << ilogb(1L);\n" // simplify to 0 "}"; const char expected_ilogb[] = "void f ( int x ) {\n" "std :: cout << ilogb ( x ) ;\n" "std :: cout << ilogb ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_ilogb, tokenizeAndStringify(code_ilogb)); const char code_ilogbf[] ="void f(float x) {\n" " std::cout << ilogbf(x);\n" // do not simplify " std::cout << ilogbf(10);\n" // do not simplify " std::cout << ilogbf(1.0f);\n" // simplify to 0 "}"; const char expected_ilogbf[] = "void f ( float x ) {\n" "std :: cout << ilogbf ( x ) ;\n" "std :: cout << ilogbf ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_ilogbf, tokenizeAndStringify(code_ilogbf)); const char code_ilogbl[] ="void f(long double x) {\n" " std::cout << ilogbl(x);\n" // do not simplify " std::cout << ilogbl(10.0f);\n" // do not simplify " std::cout << ilogbl(1.0f);\n" // simplify to 0 "}"; const char expected_ilogbl[] = "void f ( long double x ) {\n" "std :: cout << ilogbl ( x ) ;\n" "std :: cout << ilogbl ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_ilogbl, tokenizeAndStringify(code_ilogbl)); } void simplifyMathFunctions_logb() { // verify logb(), logbf(), logbl() - simplifcation const char code_logb[] ="void f(int x) {\n" " std::cout << logb(x);\n" // do not simplify " std::cout << logb(10);\n" // do not simplify " std::cout << logb(1L);\n" // simplify to 0 "}"; const char expected_logb[] = "void f ( int x ) {\n" "std :: cout << logb ( x ) ;\n" "std :: cout << logb ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_logb, tokenizeAndStringify(code_logb)); const char code_logbf[] ="void f(float x) {\n" " std::cout << logbf(x);\n" // do not simplify " std::cout << logbf(10);\n" // do not simplify " std::cout << logbf(1.0f);\n" // simplify to 0 "}"; const char expected_logbf[] = "void f ( float x ) {\n" "std :: cout << logbf ( x ) ;\n" "std :: cout << logbf ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_logbf, tokenizeAndStringify(code_logbf)); const char code_logbl[] ="void f(long double x) {\n" " std::cout << logbl(x);\n" // do not simplify " std::cout << logbl(10.0f);\n" // do not simplify " std::cout << logbl(1.0f);\n" // simplify to 0 "}"; const char expected_logbl[] = "void f ( long double x ) {\n" "std :: cout << logbl ( x ) ;\n" "std :: cout << logbl ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_logbl, tokenizeAndStringify(code_logbl)); } void simplifyMathFunctions_log1p() { // verify log1p(), log1pf(), log1pl() - simplifcation const char code_log1p[] ="void f(int x) {\n" " std::cout << log1p(x);\n" // do not simplify " std::cout << log1p(10);\n" // do not simplify " std::cout << log1p(0L);\n" // simplify to 0 "}"; const char expected_log1p[] = "void f ( int x ) {\n" "std :: cout << log1p ( x ) ;\n" "std :: cout << log1p ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_log1p, tokenizeAndStringify(code_log1p)); const char code_log1pf[] ="void f(float x) {\n" " std::cout << log1pf(x);\n" // do not simplify " std::cout << log1pf(10);\n" // do not simplify " std::cout << log1pf(0.0f);\n" // simplify to 0 "}"; const char expected_log1pf[] = "void f ( float x ) {\n" "std :: cout << log1pf ( x ) ;\n" "std :: cout << log1pf ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_log1pf, tokenizeAndStringify(code_log1pf)); const char code_log1pl[] ="void f(long double x) {\n" " std::cout << log1pl(x);\n" // do not simplify " std::cout << log1pl(10.0f);\n" // do not simplify " std::cout << log1pl(0.0f);\n" // simplify to 0 "}"; const char expected_log1pl[] = "void f ( long double x ) {\n" "std :: cout << log1pl ( x ) ;\n" "std :: cout << log1pl ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_log1pl, tokenizeAndStringify(code_log1pl)); } void simplifyMathFunctions_log10() { // verify log10(), log10f(), log10l() - simplifcation const char code_log10[] ="void f(int x) {\n" " std::cout << log10(x);\n" // do not simplify " std::cout << log10(10);\n" // do not simplify " std::cout << log10(1L);\n" // simplify to 0 "}"; const char expected_log10[] = "void f ( int x ) {\n" "std :: cout << log10 ( x ) ;\n" "std :: cout << log10 ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_log10, tokenizeAndStringify(code_log10)); const char code_log10f[] ="void f(float x) {\n" " std::cout << log10f(x);\n" // do not simplify " std::cout << log10f(10);\n" // do not simplify " std::cout << log10f(1.0f);\n" // simplify to 0 "}"; const char expected_log10f[] = "void f ( float x ) {\n" "std :: cout << log10f ( x ) ;\n" "std :: cout << log10f ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_log10f, tokenizeAndStringify(code_log10f)); const char code_log10l[] ="void f(long double x) {\n" " std::cout << log10l(x);\n" // do not simplify " std::cout << log10l(10.0f);\n" // do not simplify " std::cout << log10l(1.0f);\n" // simplify to 0 "}"; const char expected_log10l[] = "void f ( long double x ) {\n" "std :: cout << log10l ( x ) ;\n" "std :: cout << log10l ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_log10l, tokenizeAndStringify(code_log10l)); } void simplifyMathFunctions_log() { // verify log(), logf(), logl() - simplifcation const char code_log[] ="void f(int x) {\n" " std::cout << log(x);\n" // do not simplify " std::cout << log(10);\n" // do not simplify " std::cout << log(1L);\n" // simplify to 0 "}"; const char expected_log[] = "void f ( int x ) {\n" "std :: cout << log ( x ) ;\n" "std :: cout << log ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_log, tokenizeAndStringify(code_log)); const char code_logf[] ="void f(float x) {\n" " std::cout << logf(x);\n" // do not simplify " std::cout << logf(10);\n" // do not simplify " std::cout << logf(1.0f);\n" // simplify to 0 "}"; const char expected_logf[] = "void f ( float x ) {\n" "std :: cout << logf ( x ) ;\n" "std :: cout << logf ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_logf, tokenizeAndStringify(code_logf)); const char code_logl[] ="void f(long double x) {\n" " std::cout << logl(x);\n" // do not simplify " std::cout << logl(10.0f);\n" // do not simplify " std::cout << logl(1.0f);\n" // simplify to 0 "}"; const char expected_logl[] = "void f ( long double x ) {\n" "std :: cout << logl ( x ) ;\n" "std :: cout << logl ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_logl, tokenizeAndStringify(code_logl)); } void simplifyMathFunctions_log2() { // verify log2(), log2f(), log2l() - simplifcation const char code_log2[] ="void f(int x) {\n" " std::cout << log2(x);\n" // do not simplify " std::cout << log2(10);\n" // do not simplify " std::cout << log2(1L);\n" // simplify to 0 "}"; const char expected_log2[] = "void f ( int x ) {\n" "std :: cout << log2 ( x ) ;\n" "std :: cout << log2 ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_log2, tokenizeAndStringify(code_log2)); const char code_log2f[] ="void f(float x) {\n" " std::cout << log2f(x);\n" // do not simplify " std::cout << log2f(10);\n" // do not simplify " std::cout << log2f(1.0f);\n" // simplify to 0 "}"; const char expected_log2f[] = "void f ( float x ) {\n" "std :: cout << log2f ( x ) ;\n" "std :: cout << log2f ( 10 ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_log2f, tokenizeAndStringify(code_log2f)); const char code_log2l[] ="void f(long double x) {\n" " std::cout << log2l(x);\n" // do not simplify " std::cout << log2l(10.0f);\n" // do not simplify " std::cout << log2l(1.0f);\n" // simplify to 0 "}"; const char expected_log2l[] = "void f ( long double x ) {\n" "std :: cout << log2l ( x ) ;\n" "std :: cout << log2l ( 10.0f ) ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_log2l, tokenizeAndStringify(code_log2l)); } void simplifyMathFunctions_pow() { // verify pow(),pow(),powl() - simplifcation const char code_pow[] ="void f() {\n" " std::cout << pow(-1.0,1);\n" " std::cout << pow(1.0,1);\n" " std::cout << pow(0,1);\n" " std::cout << pow(1,-6);\n" " std::cout << powf(-1.0,1.0f);\n" " std::cout << powf(1.0,1.0f);\n" " std::cout << powf(0,1.0f);\n" " std::cout << powf(1.0,-6.0f);\n" " std::cout << powl(-1.0,1.0);\n" " std::cout << powl(1.0,1.0);\n" " std::cout << powl(0,1.0);\n" " std::cout << powl(1.0,-6.0d);\n" "}"; const char expected_pow[] = "void f ( ) {\n" "std :: cout << -1.0 ;\n" "std :: cout << 1 ;\n" "std :: cout << 0 ;\n" "std :: cout << 1 ;\n" "std :: cout << -1.0 ;\n" "std :: cout << 1 ;\n" "std :: cout << 0 ;\n" "std :: cout << 1 ;\n" "std :: cout << -1.0 ;\n" "std :: cout << 1 ;\n" "std :: cout << 0 ;\n" "std :: cout << 1 ;\n" "}"; ASSERT_EQUALS(expected_pow, tokenizeAndStringify(code_pow)); // verify if code is simplified correctly. // Do not simplify class members. const char code_pow1[] = "int f(const Fred &fred) {return fred.pow(12,3);}"; const char expected_pow1[] = "int f ( const Fred & fred ) { return fred . pow ( 12 , 3 ) ; }"; ASSERT_EQUALS(expected_pow1, tokenizeAndStringify(code_pow1)); const char code_pow2[] = "int f() {return pow(0,0);}"; const char expected_pow2[] = "int f ( ) { return 1 ; }"; ASSERT_EQUALS(expected_pow2, tokenizeAndStringify(code_pow2)); const char code_pow3[] = "int f() {return pow(0,1);}"; const char expected_pow3[] = "int f ( ) { return 0 ; }"; ASSERT_EQUALS(expected_pow3, tokenizeAndStringify(code_pow3)); const char code_pow4[] = "int f() {return pow(1,0);}"; const char expected_pow4[] = "int f ( ) { return 1 ; }"; ASSERT_EQUALS(expected_pow4, tokenizeAndStringify(code_pow4)); } void simplifyMathFunctions_fmin() { // verify fmin,fminl,fminl simplifcation const char code_fmin[] ="void f() {\n" " std::cout << fmin(-1.0,0);\n" " std::cout << fmin(1.0,0);\n" " std::cout << fmin(0,0);\n" " std::cout << fminf(-1.0,0);\n" " std::cout << fminf(1.0,0);\n" " std::cout << fminf(0,0);\n" " std::cout << fminl(-1.0,0);\n" " std::cout << fminl(1.0,0);\n" " std::cout << fminl(0,0);\n" "}"; const char expected_fmin[] = "void f ( ) {\n" "std :: cout << -1.0 ;\n" "std :: cout << 0 ;\n" "std :: cout << 0 ;\n" "std :: cout << -1.0 ;\n" "std :: cout << 0 ;\n" "std :: cout << 0 ;\n" "std :: cout << -1.0 ;\n" "std :: cout << 0 ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_fmin, tokenizeAndStringify(code_fmin)); // do not simplify this case const char code_fmin1[] = "float f(float f) { return fmin(f,0);}"; const char expected_fmin1[] = "float f ( float f ) { return fmin ( f , 0 ) ; }"; ASSERT_EQUALS(expected_fmin1, tokenizeAndStringify(code_fmin1)); } void simplifyMathFunctions_fmax() { // verify fmax(),fmax(),fmaxl() simplifcation const char code_fmax[] ="void f() {\n" " std::cout << fmax(-1.0,0);\n" " std::cout << fmax(1.0,0);\n" " std::cout << fmax(0,0);\n" " std::cout << fmaxf(-1.0,0);\n" " std::cout << fmaxf(1.0,0);\n" " std::cout << fmaxf(0,0);\n" " std::cout << fmaxl(-1.0,0);\n" " std::cout << fmaxl(1.0,0);\n" " std::cout << fmaxl(0,0);\n" "}"; const char expected_fmax[] = "void f ( ) {\n" "std :: cout << 0 ;\n" "std :: cout << 1.0 ;\n" "std :: cout << 0 ;\n" "std :: cout << 0 ;\n" "std :: cout << 1.0 ;\n" "std :: cout << 0 ;\n" "std :: cout << 0 ;\n" "std :: cout << 1.0 ;\n" "std :: cout << 0 ;\n" "}"; ASSERT_EQUALS(expected_fmax, tokenizeAndStringify(code_fmax)); // do not simplify this case const char code_fmax1[] = "float f(float f) { return fmax(f,0);}"; const char expected_fmax1[] = "float f ( float f ) { return fmax ( f , 0 ) ; }"; ASSERT_EQUALS(expected_fmax1, tokenizeAndStringify(code_fmax1)); } void simplifyMathExpressions() { //#1620 const char code1[] = "void foo() {\n" " std::cout< int f ( ) { }", tokenizeAndStringify("template [[noreturn]] int f(){}", false, true, Settings::Native, "test.cpp", true)); ASSERT_EQUALS("template < class T > [ [ noreturn ] ] int f ( ) { }", tokenizeAndStringify("template [[noreturn]] int f(){}", false, true, Settings::Native, "test.cpp", false)); ASSERT_EQUALS("int f ( int i ) ;", tokenizeAndStringify("[[maybe_unused]] int f([[maybe_unused]] int i);", false, true, Settings::Native, "test.cpp", true)); ASSERT_EQUALS("[ [ maybe_unused ] ] int f ( [ [ maybe_unused ] ] int i ) ;", tokenizeAndStringify("[[maybe_unused]] int f([[maybe_unused]] int i);", false, true, Settings::Native, "test.cpp", false)); } void simplifyCaseRange() { ASSERT_EQUALS("void f ( ) { switch ( x ) { case 1 : case 2 : case 3 : case 4 : ; } }", tokenizeAndStringify("void f() { switch(x) { case 1 ... 4: } }")); ASSERT_EQUALS("void f ( ) { switch ( x ) { case 4 . . . 1 : ; } }", tokenizeAndStringify("void f() { switch(x) { case 4 ... 1: } }")); tokenizeAndStringify("void f() { switch(x) { case 1 ... 1000000: } }"); // Do not run out of memory ASSERT_EQUALS("void f ( ) { switch ( x ) { case 'a' : case 'b' : case 'c' : ; } }", tokenizeAndStringify("void f() { switch(x) { case 'a' ... 'c': } }")); ASSERT_EQUALS("void f ( ) { switch ( x ) { case 'c' . . . 'a' : ; } }", tokenizeAndStringify("void f() { switch(x) { case 'c' ... 'a': } }")); } void prepareTernaryOpForAST() { ASSERT_EQUALS("a ? b : c ;", tokenizeAndStringify("a ? b : c;")); ASSERT_EQUALS("a ? ( b , c ) : d ;", tokenizeAndStringify("a ? b , c : d;")); ASSERT_EQUALS("a ? ( b , c ) : d ;", tokenizeAndStringify("a ? (b , c) : d;")); ASSERT_EQUALS("a ? ( 1 ? ( a , b ) : 3 ) : d ;", tokenizeAndStringify("a ? 1 ? a, b : 3 : d;")); ASSERT_EQUALS("a ? ( std :: map < int , int > ( ) ) : 0 ;", tokenizeAndStringify("typedef std::map mymap; a ? mymap() : 0;")); ASSERT_EQUALS("a ? ( b < c ) : d > e", tokenizeAndStringify("a ? b < c : d > e")); } std::string testAst(const char code[],bool verbose=false) { // tokenize given code.. Tokenizer tokenList(&settings0, nullptr); std::istringstream istr(code); if (!tokenList.list.createTokens(istr,"test.cpp")) return "ERROR"; tokenList.combineOperators(); tokenList.createLinks(); tokenList.createLinks2(); // Create AST.. tokenList.prepareTernaryOpForAST(); tokenList.list.createAst(); tokenList.list.validateAst(); // Basic AST validation for (const Token *tok = tokenList.list.front(); tok; tok = tok->next()) { if (tok->astOperand2() && !tok->astOperand1() && tok->str() != ";" && tok->str() != ":") return "Op2 but no Op1 for token: " + tok->str(); } // Return stringified AST if (verbose) return tokenList.list.front()->astTop()->astStringVerbose(0, 0); std::string ret; std::set astTop; for (const Token *tok = tokenList.list.front(); tok; tok = tok->next()) { if (tok->astOperand1() && astTop.find(tok->astTop()) == astTop.end()) { astTop.insert(tok->astTop()); if (!ret.empty()) ret = ret + " "; ret += tok->astTop()->astString(); } } return ret; } void astexpr() { // simple expressions with arithmetical ops ASSERT_EQUALS("12+3+", testAst("1+2+3")); ASSERT_EQUALS("12*3+", testAst("1*2+3")); ASSERT_EQUALS("123*+", testAst("1+2*3")); ASSERT_EQUALS("12*34*+", testAst("1*2+3*4")); ASSERT_EQUALS("12*34*5*+", testAst("1*2+3*4*5")); ASSERT_EQUALS("0(r.&", testAst("(&((typeof(x))0).r);")); ASSERT_EQUALS("0(r.&", testAst("&((typeof(x))0).r;")); // Various tests of precedence ASSERT_EQUALS("ab::c+", testAst("a::b+c")); ASSERT_EQUALS("abc+=", testAst("a=b+c")); ASSERT_EQUALS("abc=,", testAst("a,b=c")); ASSERT_EQUALS("a-1+", testAst("-a+1")); ASSERT_EQUALS("ab++-c-", testAst("a-b++-c")); // sizeof ASSERT_EQUALS("ab.sizeof", testAst("sizeof a.b")); // assignment operators ASSERT_EQUALS("ab>>=", testAst("a>>=b;")); ASSERT_EQUALS("ab<<=", testAst("a<<=b;")); ASSERT_EQUALS("ab+=", testAst("a+=b;")); ASSERT_EQUALS("ab-=", testAst("a-=b;")); ASSERT_EQUALS("ab*=", testAst("a*=b;")); ASSERT_EQUALS("ab/=", testAst("a/=b;")); ASSERT_EQUALS("ab%=", testAst("a%=b;")); ASSERT_EQUALS("ab&=", testAst("a&=b;")); ASSERT_EQUALS("ab|=", testAst("a|=b;")); ASSERT_EQUALS("ab^=", testAst("a^=b;")); ASSERT_EQUALS("ab*c*.(+return", testAst("return a + ((*b).*c)();")); // assignments are executed from right to left ASSERT_EQUALS("abc==", testAst("a=b=c;")); // ternary operator ASSERT_EQUALS("ab0=c1=:?", testAst("a?b=0:c=1;")); ASSERT_EQUALS("fabc,d:?=e,", testAst("f = a ? b, c : d, e;")); ASSERT_EQUALS("fabc,de,:?=", testAst("f = (a ? (b, c) : (d, e));")); ASSERT_EQUALS("fabc,de,:?=", testAst("f = (a ? b, c : (d, e));")); ASSERT_EQUALS("ab35,4:?foo(:?return", testAst("return (a ? b ? (3,5) : 4 : foo());")); ASSERT_EQUALS("check(result_type00,{invalid:?return", testAst("return check() ? result_type {0, 0} : invalid;")); ASSERT_EQUALS("a\"\"=", testAst("a=\"\"")); ASSERT_EQUALS("a\'\'=", testAst("a=\'\'")); ASSERT_EQUALS("a1[\"\"=", testAst("char a[1]=\"\";")); ASSERT_EQUALS("'X''a'>", testAst("('X' > 'a')")); ASSERT_EQUALS("'X''a'>", testAst("(L'X' > L'a')")); ASSERT_EQUALS("a0>bc/d:?", testAst("(a>0) ? (b/(c)) : d;")); ASSERT_EQUALS("abc/+d+", testAst("a + (b/(c)) + d;")); ASSERT_EQUALS("f( x1024x/0:?", testAst("void f() { x ? 1024 / x : 0; }")); ASSERT_EQUALS("absizeofd(ef.+(=", testAst("a = b(sizeof(c d) + e.f)")); ASSERT_EQUALS("a*b***", testAst("*a * **b;")); // Correctly distinguish between unary and binary operator* // strings ASSERT_EQUALS("f\"A\"1,(",testAst("f(\"A\" B, 1);")); ASSERT_EQUALS("fA1,(",testAst("f(A \"B\", 1);")); // C++ : type() ASSERT_EQUALS("fint(0,(", testAst("f(int(),0);")); ASSERT_EQUALS("f(0,(", testAst("f(int *(),0);")); // typedef int* X; f(X(),0); ASSERT_EQUALS("f((0,(", testAst("f((intp)int *(),0);")); ASSERT_EQUALS("zx1(&y2(&|=", testAst("z = (x & (unsigned)1) | (y & (unsigned)2);")); // not type() // for ASSERT_EQUALS("for;;(", testAst("for(;;)")); ASSERT_EQUALS("fora0=a8 c : d);")); ASSERT_EQUALS("forde:(", testAst("for (a::b d : e);")); ASSERT_EQUALS("forx*0=yz;;(", testAst("for(*x=0;y;z)")); ASSERT_EQUALS("forx0=y(8();")); ASSERT_EQUALS("X12,3,(new", testAst("new (a,b,c) X(1,2,3);")); ASSERT_EQUALS("aXnew(", testAst("a (new (X));")); ASSERT_EQUALS("aXnew5,(", testAst("a (new (X), 5);")); ASSERT_EQUALS("adelete", testAst("delete a;")); ASSERT_EQUALS("adelete", testAst("delete (a);")); ASSERT_EQUALS("adelete", testAst("delete[] a;")); ASSERT_EQUALS("ab.3c-(delete", testAst("delete[] a.b(3 - c);")); ASSERT_EQUALS("a::new=", testAst("a = new (b) ::X;")); ASSERT_EQUALS("aA1(new(bB2(new(,", testAst("a(new A(1)), b(new B(2))")); ASSERT_EQUALS("Fred10[new", testAst(";new Fred[10];")); ASSERT_EQUALS("f( adelete", testAst("void f() { delete a; }")); // invalid code (libreoffice), don't hang // #define SlideSorterViewShell // SfxViewFrame* pFrame; // new SlideSorterViewShell(pFrame,rViewShellBase,pParentWindow,pFrameViewArgument); ASSERT_EQUALS("fxnewy,z,(", testAst("f(new (x,y,z));")); // clang testsuite.. ASSERT_EQUALS("const0(new", testAst("new const auto (0);")); ASSERT_EQUALS("autonew", testAst("new (auto) (0.0);")); ASSERT_EQUALS("int3[4[5[new", testAst("new (int S::*[3][4][5]) ();")); ASSERT_EQUALS("pSnew=", testAst("p=new (x)(S)(1,2);")); ASSERT_EQUALS("inti[new(", testAst("(void)new (int[i]);")); ASSERT_EQUALS("intp* pnew malloc4(", testAst("int*p; new (p) (malloc(4));")); ASSERT_EQUALS("intnew", testAst("new (&w.x)(int*)(0);")); ASSERT_EQUALS("&new", testAst("new (&w.x)(0);")); // <- the "(int*)" has been simplified // gcc testsuite.. ASSERT_EQUALS("char10[new(", testAst("(void)new(char*)[10];")); } void astpar() { // parentheses ASSERT_EQUALS("12+3*", testAst("(1+2)*3")); ASSERT_EQUALS("123+*", testAst("1*(2+3)")); ASSERT_EQUALS("123+*4*", testAst("1*(2+3)*4")); ASSERT_EQUALS("ifab.c&d==(", testAst("if((a.b&c)==d){}")); ASSERT_EQUALS("pf.pf.12,(&&", testAst("((p.f) && (p.f)(1,2))")); // problems with: if (x[y]==z) ASSERT_EQUALS("ifa(0[1==(", testAst("if(a()[0]==1){}")); ASSERT_EQUALS("ifbuff0[&(*1==(", testAst("if (*((DWORD*)&buff[0])==1){}")); ASSERT_EQUALS("ifp*0[1==(", testAst("if((*p)[0]==1)")); ASSERT_EQUALS("ifab.cd.[e==(", testAst("if(a.b[c.d]==e){}")); ASSERT_EQUALS("iftpnote.i1-[note.0==tpnote.i1-[type.4>||(", testAst("if ((tp.note[i - 1].note == 0) || (tp.note[i - 1].type > 4)) {}")); ASSERT_EQUALS("ab.i[j1+[", testAst("a.b[i][j+1]")); // problems with: x=expr ASSERT_EQUALS("=\n" "|-x\n" "`-(\n" " `-.\n" " |-[\n" " | |-a\n" " | `-i\n" " `-f\n", testAst("x = ((a[i]).f)();", true)); ASSERT_EQUALS("abc.de.++[=", testAst("a = b.c[++(d.e)];")); ASSERT_EQUALS("abc(1+=", testAst("a = b(c**)+1;")); ASSERT_EQUALS("abc.=", testAst("a = (b).c;")); // casts ASSERT_EQUALS("a1(2(+=",testAst("a=(t)1+(t)2;")); ASSERT_EQUALS("a1(2+=",testAst("a=(t)1+2;")); ASSERT_EQUALS("a1(2+=",testAst("a=(t*)1+2;")); ASSERT_EQUALS("a1(2+=",testAst("a=(t&)1+2;")); ASSERT_EQUALS("ab::r&c(=", testAst("a::b& r = (a::b&)c;")); // #5261 ASSERT_EQUALS("ab10:?=", testAst("a=(b)?1:0;")); ASSERT_EQUALS("ac5[new(=", testAst("a = (b*)(new c[5]);")); // #8786 ASSERT_EQUALS("a(4+", testAst("(int)(a) + 4;")); // TODO: This AST is incomplete however it's very weird syntax (taken from clang test suite) ASSERT_EQUALS("a&(", testAst("(int (**)[i]){&a}[0][1][5] = 0;")); ASSERT_EQUALS("n0=", testAst("TrivialDefCtor{[2][2]}[1][1].n = 0;")); ASSERT_EQUALS("aT12,3,{1[=", testAst("a = T{1, 2, 3}[1];")); // ({..}) ASSERT_EQUALS("a{+d+ bc+", testAst("a+({b+c;})+d")); ASSERT_EQUALS("a{d*+ bc+", testAst("a+({b+c;})*d")); ASSERT_EQUALS("xa{((= bc( yd{((= ef(", testAst("x=(int)(a({b(c);}));" // don't hang "y=(int)(d({e(f);}));")); ASSERT_EQUALS("QT_WA{{,( x0= QT_WA{{,( x1= x2=", testAst("QT_WA({},{x=0;});" // don't hang "QT_WA({x=1;},{x=2;});")); ASSERT_EQUALS("xMACROtype.T=value.1=,{({=", testAst("x = { MACRO( { .type=T, .value=1 } ) }")); // don't hang: MACRO({..}) ASSERT_EQUALS("fori10=i{;;( i--", testAst("for (i=10;i;({i--;}) ) {}")); // function pointer TODO_ASSERT_EQUALS("todo", "va_argapvoid((,(*0=", testAst("*va_arg(ap, void(**) ()) = 0;")); // struct initialization ASSERT_EQUALS("name_bytes[bits~unusedBits>>unusedBits<<{=", testAst("const uint8_t name_bytes[] = { (~bits >> unusedBits) << unusedBits };")); ASSERT_EQUALS("abuf.0{={=", testAst("a = { .buf = { 0 } };")); ASSERT_EQUALS("ab2[a.0=b.0=,{a.0=b.0=,{,{=", testAst("struct AB ab[2] = { { .a=0, .b=0 }, { .a=0, .b=0 } };")); ASSERT_EQUALS("tset{=", testAst("struct cgroup_taskset tset = {};")); ASSERT_EQUALS("s1a&,{2b&,{,{=", testAst("s = { {1, &a}, {2, &b} };")); ASSERT_EQUALS("s0[L.2[x={=", testAst("s = { [0].L[2] = x};")); ASSERT_EQUALS("ac.0={(=", testAst("a = (b){.c=0,};")); // <- useless comma ASSERT_EQUALS("xB[1y.z.1={(&=,{={=", testAst("x = { [B] = {1, .y = &(struct s) { .z=1 } } };")); ASSERT_EQUALS("xab,c,{=", testAst("x={a,b,(c)};")); // struct initialization hang ASSERT_EQUALS("sbar.1{,{(={= fcmd( forfieldfield++;;(", testAst("struct S s = {.bar = (struct foo) { 1, { } } };\n" "void f(struct cmd *) { for (; field; field++) {} }")); // template parentheses: <> ASSERT_EQUALS("stdfabs::m_similarity(numeric_limitsepsilon::(<=return", testAst("return std::fabs(m_similarity) <= numeric_limits::epsilon();")); // #6195 // C++ initializer ASSERT_EQUALS("Class{", testAst("Class{};")); ASSERT_EQUALS("Class12,{", testAst("Class{1,2};")); ASSERT_EQUALS("Class12,{", testAst("Class{1,2};")); ASSERT_EQUALS("abc{d:?=", testAst("a=b?c{}:d;")); ASSERT_EQUALS("abc12,{d:?=", testAst("a=b?c{1,2}:d;")); ASSERT_EQUALS("abc{d:?=", testAst("a=b?c{}:d;")); ASSERT_EQUALS("abc12,{d:?=", testAst("a=b?c{1,2}:d;")); ASSERT_EQUALS("a::12,{", testAst("::a{1,2};")); // operator precedence ASSERT_EQUALS("Abc({newreturn", testAst("return new A {b(c)};")); ASSERT_EQUALS("a{{return", testAst("return{{a}};")); ASSERT_EQUALS("a{b{,{return", testAst("return{{a},{b}};")); } void astbrackets() { // [] ASSERT_EQUALS("a23+[4+", testAst("a[2+3]+4")); ASSERT_EQUALS("a1[0[", testAst("a[1][0]")); ASSERT_EQUALS("ab0[=", testAst("a=(b)[0];")); ASSERT_EQUALS("abc.0[=", testAst("a=b.c[0];")); ASSERT_EQUALS("ab0[1[=", testAst("a=b[0][1];")); } void astunaryop() { // unary operators ASSERT_EQUALS("1a--+", testAst("1 + --a")); ASSERT_EQUALS("1a--+", testAst("1 + a--")); ASSERT_EQUALS("ab+!", testAst("!(a+b)")); ASSERT_EQUALS("ab.++", testAst("++a.b;")); ASSERT_EQUALS("ab.++", testAst("a.b++;")); ASSERT_EQUALS("ab::++", testAst("a::b++;")); ASSERT_EQUALS("c5[--*", testAst("*c[5]--;")); ASSERT_EQUALS("xreturn", testAst("return x;")); ASSERT_EQUALS("x(throw", testAst(";throw x();")); ASSERT_EQUALS("a*bc:?return", testAst("return *a ? b : c;")); ASSERT_EQUALS("xy*--=", testAst("x = -- * y;")); // Unary :: operator ASSERT_EQUALS("abcd::12,(e/:?=", testAst("a = b ? c : ::d(1,2) / e;")); // how is "--" handled here: ASSERT_EQUALS("ab4<,etc.. ASSERT_EQUALS("a(3==", testAst("a()==3")); ASSERT_EQUALS("ab(== f(", testAst("a == b(); f();")); ASSERT_EQUALS("static_casta(i[", testAst("; static_cast(a)[i];")); // #6203 ASSERT_EQUALS("reinterpret_castreinterpret_castptr(123&(", testAst(";reinterpret_cast(reinterpret_cast(ptr) & 123);")); // #7253 ASSERT_EQUALS("bcd.(=", testAst(";a && b = c->d();")); // This two unit tests were added to avoid a crash. The actual correct AST result for non-executable code has not been determined so far. ASSERT_EQUALS("Cpublica::b:::", testAst("class C : public ::a::b { };")); ASSERT_EQUALS("AB: f( abc+=", testAst("struct A : public B { void f() { a=b+c; } };")); } void astcast() { ASSERT_EQUALS("ac&(=", testAst("a = (long)&c;")); ASSERT_EQUALS("ac*(=", testAst("a = (Foo*)*c;")); ASSERT_EQUALS("ac-(=", testAst("a = (long)-c;")); ASSERT_EQUALS("ac~(=", testAst("a = (b)~c;")); ASSERT_EQUALS("ac(=", testAst("a = (some)c;")); ASSERT_EQUALS("afoveon_avgimage((foveon_avgimage((+=", testAst("a = foveon_avg(((short(*)[4]) image)) + foveon_avg(((short(*)[4]) image));")); ASSERT_EQUALS("c(40< int { return 0; }();")); ASSERT_EQUALS("{([(return 0return", testAst("return [something]() -> int { return 0; }();")); ASSERT_EQUALS("{([cd,(return 0return", testAst("return [](int a, int b) -> int { return 0; }(c, d);")); ASSERT_EQUALS("x{([=", testAst("x = [&]()->std::string const & {};")); ASSERT_EQUALS("f{([=", testAst("f = []() -> foo* {};")); ASSERT_EQUALS("f{([=", testAst("f = [](void) mutable -> foo* {};")); ASSERT_EQUALS("f{([=", testAst("f = []() mutable {};")); ASSERT_EQUALS("x{([= 0return", testAst("x = [](){return 0; };")); ASSERT_EQUALS("ab{[(= cd=", testAst("a = b([&]{c=d;});")); } void astcase() { ASSERT_EQUALS("0case", testAst("case 0:")); ASSERT_EQUALS("12+case", testAst("case 1+2:")); ASSERT_EQUALS("xyz:?case", testAst("case (x?y:z):")); } void compileLimits() { const char raw_code[] = "#define PTR1 (* (* (* (* (* (* (* (* (* (*\n" "#define PTR2 PTR1 PTR1 PTR1 PTR1 PTR1 PTR1 PTR1 PTR1 PTR1 PTR1\n" "#define PTR3 PTR2 PTR2 PTR2 PTR2 PTR2 PTR2 PTR2 PTR2 PTR2 PTR2\n" "#define PTR4 PTR3 PTR3 PTR3 PTR3 PTR3 PTR3 PTR3 PTR3 PTR3 PTR3\n" "#define PTR5 PTR4 PTR4 PTR4 PTR4 PTR4 PTR4 PTR4 PTR4 PTR4 PTR4\n" "#define PTR6 PTR5 PTR5 PTR5 PTR5 PTR5 PTR5 PTR5 PTR5 PTR5 PTR5\n" "\n" "#define RBR1 ) ) ) ) ) ) ) ) ) )\n" "#define RBR2 RBR1 RBR1 RBR1 RBR1 RBR1 RBR1 RBR1 RBR1 RBR1 RBR1\n" "#define RBR3 RBR2 RBR2 RBR2 RBR2 RBR2 RBR2 RBR2 RBR2 RBR2 RBR2\n" "#define RBR4 RBR3 RBR3 RBR3 RBR3 RBR3 RBR3 RBR3 RBR3 RBR3 RBR3\n" "#define RBR5 RBR4 RBR4 RBR4 RBR4 RBR4 RBR4 RBR4 RBR4 RBR4 RBR4\n" "#define RBR6 RBR5 RBR5 RBR5 RBR5 RBR5 RBR5 RBR5 RBR5 RBR5 RBR5\n" "\n" "int PTR4 q4_var RBR4 = 0;\n"; // Preprocess file.. Preprocessor preprocessor(settings0); std::list configurations; std::string filedata; std::istringstream fin(raw_code); preprocessor.preprocess(fin, filedata, configurations, emptyString, settings0.includePaths); const std::string code = preprocessor.getcode(filedata, emptyString, emptyString); tokenizeAndStringify(code.c_str()); // just survive... } bool isStartOfExecutableScope(int offset, const char code[]) { Tokenizer tokenizer(&settings0, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); return Tokenizer::startOfExecutableScope(tokenizer.tokens()->tokAt(offset)) != nullptr; } void startOfExecutableScope() { ASSERT(isStartOfExecutableScope(3, "void foo() { }")); ASSERT(isStartOfExecutableScope(3, "void foo() const { }")); ASSERT(isStartOfExecutableScope(3, "void foo() volatile { }")); ASSERT(isStartOfExecutableScope(3, "void foo() override { }")); ASSERT(isStartOfExecutableScope(3, "void foo() noexcept { }")); ASSERT(isStartOfExecutableScope(3, "void foo() NOEXCEPT { }")); ASSERT(isStartOfExecutableScope(3, "void foo() CONST NOEXCEPT { }")); ASSERT(isStartOfExecutableScope(3, "void foo() const noexcept { }")); ASSERT(isStartOfExecutableScope(3, "void foo() noexcept(true) { }")); ASSERT(isStartOfExecutableScope(3, "void foo() const noexcept(true) { }")); ASSERT(isStartOfExecutableScope(3, "void foo() throw() { }")); ASSERT(isStartOfExecutableScope(3, "void foo() THROW() { }")); ASSERT(isStartOfExecutableScope(3, "void foo() CONST THROW() { }")); ASSERT(isStartOfExecutableScope(3, "void foo() const throw() { }")); ASSERT(isStartOfExecutableScope(3, "void foo() throw(int) { }")); ASSERT(isStartOfExecutableScope(3, "void foo() const throw(int) { }")); ASSERT(isStartOfExecutableScope(2, "foo() : a(1) { }")); ASSERT(isStartOfExecutableScope(2, "foo() : a(1), b(2) { }")); ASSERT(isStartOfExecutableScope(2, "foo() : a{1} { }")); ASSERT(isStartOfExecutableScope(2, "foo() : a{1}, b{2} { }")); } void removeMacroInClassDef() { // #6058 ASSERT_EQUALS("class Fred { } ;", tokenizeAndStringify("class DLLEXPORT Fred { } ;")); ASSERT_EQUALS("class Fred : Base { } ;", tokenizeAndStringify("class Fred FINAL : Base { } ;")); // Regression for C code: ASSERT_EQUALS("struct Fred { } ;", tokenizeAndStringify("struct DLLEXPORT Fred { } ;", false, true, Settings::Native, "test.c")); } void sizeofAddParentheses() { ASSERT_EQUALS("sizeof ( sizeof ( 1 ) ) ;", tokenizeAndStringify("sizeof sizeof 1;")); ASSERT_EQUALS("sizeof ( a . b ) + 3 ;", tokenizeAndStringify("sizeof a.b+3;")); ASSERT_EQUALS("sizeof ( a [ 2 ] . b ) + 3 ;", tokenizeAndStringify("sizeof a[2].b+3;")); ASSERT_EQUALS("f ( 0 , sizeof ( ptr . bar ) ) ;", tokenizeAndStringify("f(0, sizeof ptr->bar );")); } void findGarbageCode() { // Make sure the Tokenizer::findGarbageCode() does not have FPs // before if|for|while|switch ASSERT_NO_THROW(tokenizeAndStringify("void f() { do switch (a) {} while (1); }")) ASSERT_NO_THROW(tokenizeAndStringify("void f() { label: switch (a) {} }")); ASSERT_NO_THROW(tokenizeAndStringify("void f() { UNKNOWN_MACRO if (a) {} }")) ASSERT_NO_THROW(tokenizeAndStringify("void f() { []() -> int * {}; }")); ASSERT_NO_THROW(tokenizeAndStringify("void f() { const char* var = \"1\" \"2\"; }")); // TODO ASSERT_NO_THROW(tokenizeAndStringify("void f() { MACRO(switch); }")); // TODO ASSERT_NO_THROW(tokenizeAndStringify("void f() { MACRO(x,switch); }")); // after (expr) ASSERT_NO_THROW(tokenizeAndStringify("void f() { switch (a) int b; }")); } void checkEnableIf() { ASSERT_NO_THROW(tokenizeAndStringify( "template<\n" " typename U,\n" " typename std::enable_if<\n" " std::is_convertible{}>::type* = nullptr>\n" "void foo(U x);\n")) ASSERT_NO_THROW(tokenizeAndStringify( "template\n" "T f(const T a, const T b) {\n" " return a < b ? b : a;\n" "}\n")) ASSERT_NO_THROW(tokenizeAndStringify( "template\n" "struct A {\n" " T f(const T a, const T b) {\n" " return a < b ? b : a;\n" " }\n" "};\n")) ASSERT_NO_THROW(tokenizeAndStringify( "const int a = 1;\n" "const int b = 2;\n" "template\n" "struct A {\n" " int x = a < b ? b : a;" "};\n")) } void checkConfig(const char code[]) { errout.str(""); Settings s; s.checkConfiguration = true; // tokenize.. Tokenizer tokenizer(&s, this); std::istringstream istr(code); tokenizer.tokenize(istr, "test.cpp"); } void checkConfiguration() { checkConfig("void f() { DEBUG(x();y()); }"); ASSERT_EQUALS("[test.cpp:1]: (information) Ensure that 'DEBUG' is defined either using -I, --include or -D.\n", errout.str()); } }; REGISTER_TEST(TestTokenizer)