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/*
* Cppcheck - A tool for static C / C + + code analysis
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* Copyright ( C ) 2007 - 2016 Cppcheck team .
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*
* 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 P ARTICULAR 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 < http : //www.gnu.org/licenses/>.
*/
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# include <tinyxml2.h>
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# include "checkfunctions.h"
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# include "library.h"
# include "settings.h"
# include "standards.h"
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# include "testsuite.h"
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# include "tokenize.h"
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class TestFunctions : public TestFixture {
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public :
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TestFunctions ( ) : TestFixture ( " TestFunctions " ) {
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}
private :
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Settings settings ;
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void run ( ) {
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settings . addEnabled ( " style " ) ;
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settings . addEnabled ( " warning " ) ;
settings . addEnabled ( " portability " ) ;
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settings . standards . posix = true ;
settings . standards . c = Standards : : C11 ;
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settings . standards . cpp = Standards : : CPP11 ;
LOAD_LIB_2 ( settings . library , " std.cfg " ) ;
LOAD_LIB_2 ( settings . library , " posix.cfg " ) ;
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// Prohibited functions
TEST_CASE ( prohibitedFunctions_posix ) ;
TEST_CASE ( prohibitedFunctions_index ) ;
TEST_CASE ( prohibitedFunctions_qt_index ) ; // FP when using the Qt function 'index'?
TEST_CASE ( prohibitedFunctions_rindex ) ;
TEST_CASE ( prohibitedFunctions_var ) ; // no false positives for variables
TEST_CASE ( prohibitedFunctions_gets ) ; // dangerous function
TEST_CASE ( prohibitedFunctions_alloca ) ;
TEST_CASE ( prohibitedFunctions_declaredFunction ) ; // declared function ticket #3121
TEST_CASE ( prohibitedFunctions_std_gets ) ; // test std::gets
TEST_CASE ( prohibitedFunctions_multiple ) ; // multiple use of obsolete functions
TEST_CASE ( prohibitedFunctions_c_declaration ) ; // c declared function
TEST_CASE ( prohibitedFunctions_functionWithBody ) ; // function with body
TEST_CASE ( prohibitedFunctions_crypt ) ; // Non-reentrant function
TEST_CASE ( prohibitedFunctions_namespaceHandling ) ;
// Invalid function usage
TEST_CASE ( invalidFunctionUsage1 ) ;
// Math function usage
TEST_CASE ( mathfunctionCall_fmod ) ;
TEST_CASE ( mathfunctionCall_sqrt ) ;
TEST_CASE ( mathfunctionCall_log ) ;
TEST_CASE ( mathfunctionCall_acos ) ;
TEST_CASE ( mathfunctionCall_asin ) ;
TEST_CASE ( mathfunctionCall_pow ) ;
TEST_CASE ( mathfunctionCall_atan2 ) ;
TEST_CASE ( mathfunctionCall_precision ) ;
// Ignored return value
TEST_CASE ( checkIgnoredReturnValue ) ;
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// memset..
TEST_CASE ( memsetZeroBytes ) ;
TEST_CASE ( memsetInvalid2ndParam ) ;
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}
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void check ( const char code [ ] , const char filename [ ] = " test.cpp " , const Settings * settings_ = nullptr ) {
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// Clear the error buffer..
errout . str ( " " ) ;
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if ( ! settings_ )
settings_ = & settings ;
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// Tokenize..
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Tokenizer tokenizer ( settings_ , this ) ;
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std : : istringstream istr ( code ) ;
tokenizer . tokenize ( istr , filename ) ;
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CheckFunctions checkFunctions ( & tokenizer , settings_ , this ) ;
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checkFunctions . runChecks ( & tokenizer , settings_ , this ) ;
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// Simplify...
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tokenizer . simplifyTokenList2 ( ) ;
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// Check...
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checkFunctions . runSimplifiedChecks ( & tokenizer , settings_ , this ) ;
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}
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void prohibitedFunctions_posix ( ) {
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check ( " void f() \n "
" { \n "
" bsd_signal(SIGABRT, SIG_IGN); \n "
" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:3]: (style) Obsolescent function 'bsd_signal' called. It is recommended to use 'sigaction' instead. \n " , errout . str ( ) ) ;
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check ( " int f() \n "
" { \n "
" int bsd_signal(0); \n "
" return bsd_signal; \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void f() \n "
" { \n "
" struct hostent *hp; \n "
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" if(!hp = gethostbyname( \" 127.0.0.1 \" )) { \n "
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" exit(1); \n "
" } \n "
" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:4]: (style) Obsolescent function 'gethostbyname' called. It is recommended to use 'getaddrinfo' instead. \n " , errout . str ( ) ) ;
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check ( " void f() \n "
" { \n "
" long addr; \n "
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" addr = inet_addr( \" 127.0.0.1 \" ); \n "
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" if(!hp = gethostbyaddr((char *) &addr, sizeof(addr), AF_INET)) { \n "
" exit(1); \n "
" } \n "
" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:5]: (style) Obsolescent function 'gethostbyaddr' called. It is recommended to use 'getnameinfo' instead. \n " , errout . str ( ) ) ;
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check ( " void f() \n "
" { \n "
" usleep( 1000 ); \n "
" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:3]: (style) Obsolescent function 'usleep' called. It is recommended to use 'nanosleep' or 'setitimer' instead. \n " , errout . str ( ) ) ;
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}
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void prohibitedFunctions_index ( ) {
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check ( " namespace n1 { \n "
" int index(){}; \n "
" } \n "
" int main() \n "
" { \n "
" n1::index(); \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " std::size_t f() \n "
" { \n "
" std::size_t index(0); \n "
" index++; \n "
" return index; \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " int f() \n "
" { \n "
" return this->index(); \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void f() \n "
" { \n "
" int index( 0 ); \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " const char f() \n "
" { \n "
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" const char var[6] = \" index \" ; \n "
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" const char i = index(var, 0); \n "
" return i; \n "
" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:4]: (style) Obsolescent function 'index' called. It is recommended to use 'strchr' instead. \n " ,
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errout . str ( ) ) ;
}
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void prohibitedFunctions_qt_index ( ) {
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check ( " void TDataModel::forceRowRefresh(int row) { \n "
" emit dataChanged(index(row, 0), index(row, columnCount() - 1)); \n "
" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:2]: (style) Obsolescent function 'index' called. It is recommended to use 'strchr' instead. \n " , errout . str ( ) ) ;
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}
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void prohibitedFunctions_rindex ( ) {
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check ( " void f() \n "
" { \n "
" int rindex( 0 ); \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void f() \n "
" { \n "
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" const char var[7] = \" rindex \" ; \n "
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" print(rindex(var, 0)); \n "
" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:4]: (style) Obsolescent function 'rindex' called. It is recommended to use 'strrchr' instead. \n " , errout . str ( ) ) ;
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}
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void prohibitedFunctions_var ( ) {
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check ( " class Fred { \n "
" public: \n "
" Fred() : index(0) { } \n "
" int index; \n "
" }; " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
}
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void prohibitedFunctions_gets ( ) {
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check ( " void f() \n "
" { \n "
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" char *x = gets(a); \n "
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" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:3]: (warning) Obsolete function 'gets' called. It is recommended to use 'fgets' or 'gets_s' instead. \n " , errout . str ( ) ) ;
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check ( " void f() \n "
" { \n "
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" foo(x, gets(a)); \n "
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" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:3]: (warning) Obsolete function 'gets' called. It is recommended to use 'fgets' or 'gets_s' instead. \n " , errout . str ( ) ) ;
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}
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void prohibitedFunctions_alloca ( ) {
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check ( " void f() \n "
" { \n "
" char *x = alloca(10); \n "
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" } " , " test.cpp " ) ; // #4382 - there are no VLAs in C++
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ASSERT_EQUALS ( " [test.cpp:3]: (warning) Obsolete function 'alloca' called. \n " , errout . str ( ) ) ;
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check ( " void f() \n "
" { \n "
" char *x = alloca(10); \n "
" } " , " test.c " ) ;
ASSERT_EQUALS ( " [test.c:3]: (warning) Obsolete function 'alloca' called. In C99 and later it is recommended to use a variable length array instead. \n " , errout . str ( ) ) ;
settings . standards . c = Standards : : C89 ;
settings . standards . cpp = Standards : : CPP03 ;
check ( " void f() \n "
" { \n "
" char *x = alloca(10); \n "
" } " , " test.cpp " ) ; // #4382 - there are no VLAs in C++
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ASSERT_EQUALS ( " " , errout . str ( ) ) ;
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check ( " void f() \n "
" { \n "
" char *x = alloca(10); \n "
" } " , " test.c " ) ; // #7558 - no alternative to alloca in C89
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
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check ( " void f() \n "
" { \n "
" char *x = alloca(10); \n "
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" } " , " test.c " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
settings . standards . c = Standards : : C11 ;
settings . standards . cpp = Standards : : CPP11 ;
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}
// ticket #3121
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void prohibitedFunctions_declaredFunction ( ) {
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check ( " int ftime ( int a ) \n "
" { \n "
" return a; \n "
" } \n "
" int main () \n "
" { \n "
" int b ; b = ftime ( 1 ) ; \n "
" return 0 ; \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
}
// test std::gets
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void prohibitedFunctions_std_gets ( ) {
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check ( " void f(char * str) \n "
" { \n "
" char *x = std::gets(str); \n "
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" char *y = gets(str); \n "
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" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:3]: (warning) Obsolete function 'gets' called. It is recommended to use 'fgets' or 'gets_s' instead. \n "
" [test.cpp:4]: (warning) Obsolete function 'gets' called. It is recommended to use 'fgets' or 'gets_s' instead. \n " , errout . str ( ) ) ;
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}
// multiple use
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void prohibitedFunctions_multiple ( ) {
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check ( " void f(char * str) \n "
" { \n "
" char *x = std::gets(str); \n "
" usleep( 1000 ); \n "
" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:3]: (warning) Obsolete function 'gets' called. It is recommended to use 'fgets' or 'gets_s' instead. \n "
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" [test.cpp:4]: (style) Obsolescent function 'usleep' called. It is recommended to use 'nanosleep' or 'setitimer' instead. \n " , errout . str ( ) ) ;
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}
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void prohibitedFunctions_c_declaration ( ) {
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check ( " char * gets ( char * c ) ; \n "
" int main () \n "
" { \n "
" char s [ 10 ] ; \n "
" gets ( s ) ; \n "
" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:5]: (warning) Obsolete function 'gets' called. It is recommended to use 'fgets' or 'gets_s' instead. \n " , errout . str ( ) ) ;
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check ( " int getcontext(ucontext_t *ucp); \n "
" int f (ucontext_t *ucp) \n "
" { \n "
" getcontext ( ucp ) ; \n "
" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:4]: (portability) Obsolescent function 'getcontext' called. Applications are recommended to be rewritten to use POSIX threads. \n " , errout . str ( ) ) ;
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}
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void prohibitedFunctions_functionWithBody ( ) {
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check ( " char * gets ( char * c ) { return c; } \n "
" int main () \n "
" { \n "
" char s [ 10 ] ; \n "
" gets ( s ) ; \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
}
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void prohibitedFunctions_crypt ( ) {
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check ( " void f(char *pwd) \n "
" { \n "
" char *cpwd; "
" crypt(pwd, cpwd); \n "
" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:3]: (warning) Return value of function crypt() is not used. \n "
" [test.cpp:3]: (portability) Non reentrant function 'crypt' called. For threadsafe applications it is recommended to use the reentrant replacement function 'crypt_r'. \n " , errout . str ( ) ) ;
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check ( " void f() \n "
" { \n "
" char *pwd = getpass( \" Password: \" ); "
" char *cpwd; "
" crypt(pwd, cpwd); \n "
" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:3]: (warning) Return value of function crypt() is not used. \n "
" [test.cpp:3]: (portability) Non reentrant function 'crypt' called. For threadsafe applications it is recommended to use the reentrant replacement function 'crypt_r'. \n " , errout . str ( ) ) ;
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check ( " int f() \n "
" { \n "
" int crypt = 0; "
" return crypt; \n "
" } " ) ;
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ASSERT_EQUALS ( " " , errout . str ( ) ) ;
}
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void prohibitedFunctions_namespaceHandling ( ) {
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check ( " int f() \n "
" { \n "
" time_t t = 0; "
" std::localtime(&t); \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (portability) Non reentrant function 'localtime' called. For threadsafe applications it is recommended to use the reentrant replacement function 'localtime_r'. \n " , errout . str ( ) ) ;
// Passed as function argument
check ( " int f() \n "
" { \n "
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" printf( \" Magic guess: %d \" , getpwent()); \n "
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" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (portability) Non reentrant function 'getpwent' called. For threadsafe applications it is recommended to use the reentrant replacement function 'getpwent_r'. \n " , errout . str ( ) ) ;
// Pass return value
check ( " int f() \n "
" { \n "
" time_t t = 0; "
" struct tm *foo = localtime(&t); \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (portability) Non reentrant function 'localtime' called. For threadsafe applications it is recommended to use the reentrant replacement function 'localtime_r'. \n " , errout . str ( ) ) ;
// Access via global namespace
check ( " int f() \n "
" { \n "
" ::getpwent(); \n "
" } " ) ;
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ASSERT_EQUALS ( " [test.cpp:3]: (warning) Return value of function getpwent() is not used. \n "
" [test.cpp:3]: (portability) Non reentrant function 'getpwent' called. For threadsafe applications it is recommended to use the reentrant replacement function 'getpwent_r'. \n " , errout . str ( ) ) ;
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// Be quiet on function definitions
check ( " int getpwent() \n "
" { \n "
" return 123; \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
// Be quiet on other namespaces
check ( " int f() \n "
" { \n "
" foobar::getpwent(); \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
// Be quiet on class member functions
check ( " int f() \n "
" { \n "
" foobar.getpwent(); \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
}
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void invalidFunctionUsage1 ( ) {
check ( " int f() { memset(a,b,sizeof(a)!=12); } " ) ;
ASSERT_EQUALS ( " [test.cpp:1]: (error) Invalid memset() argument nr 3. A non-boolean value is required. \n " , errout . str ( ) ) ;
check ( " int f() { memset(a,b,sizeof(a)!=0); } " ) ;
ASSERT_EQUALS ( " [test.cpp:1]: (error) Invalid memset() argument nr 3. A non-boolean value is required. \n " , errout . str ( ) ) ;
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check ( " int f() { memset(a,b,!c); } " ) ;
ASSERT_EQUALS ( " [test.cpp:1]: (error) Invalid memset() argument nr 3. A non-boolean value is required. \n " , errout . str ( ) ) ;
// Ticket #6990
check ( " int f(bool c) { memset(a,b,c); } " ) ;
ASSERT_EQUALS ( " [test.cpp:1]: (error) Invalid memset() argument nr 3. A non-boolean value is required. \n " , errout . str ( ) ) ;
check ( " int f() { memset(a,b,true); } " ) ;
ASSERT_EQUALS ( " [test.cpp:1]: (error) Invalid memset() argument nr 3. A non-boolean value is required. \n " , errout . str ( ) ) ;
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// Ticket #6588 (c mode)
check ( " void record(char* buf, int n) { \n "
" memset(buf, 0, n < 255); \n " /* KO */
" memset(buf, 0, n < 255 ? n : 255); \n " /* OK */
" } " , " test.c " ) ;
ASSERT_EQUALS ( " [test.c:2]: (error) Invalid memset() argument nr 3. A non-boolean value is required. \n " , errout . str ( ) ) ;
// Ticket #6588 (c++ mode)
check ( " void record(char* buf, int n) { \n "
" memset(buf, 0, n < 255); \n " /* KO */
" memset(buf, 0, n < 255 ? n : 255); \n " /* OK */
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:2]: (error) Invalid memset() argument nr 3. A non-boolean value is required. \n " , errout . str ( ) ) ;
check ( " int f() { strtol(a,b,sizeof(a)!=12); } " ) ;
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ASSERT_EQUALS ( " [test.cpp:1]: (error) Invalid strtol() argument nr 3. The value is 0 or 1 (boolean) but the valid values are '0,2:36'. \n " , errout . str ( ) ) ;
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check ( " int f() { strtol(a,b,1); } " ) ;
ASSERT_EQUALS ( " [test.cpp:1]: (error) Invalid strtol() argument nr 3. The value is 1 but the valid values are '0,2:36'. \n " , errout . str ( ) ) ;
check ( " int f() { strtol(a,b,10); } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
}
void mathfunctionCall_sqrt ( ) {
// sqrt, sqrtf, sqrtl
check ( " void foo() \n "
" { \n "
" std::cout << sqrt(-1) << std::endl; \n "
" std::cout << sqrtf(-1) << std::endl; \n "
" std::cout << sqrtl(-1) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Passing value -1 to sqrt() leads to implementation-defined result. \n "
" [test.cpp:4]: (warning) Passing value -1 to sqrtf() leads to implementation-defined result. \n "
" [test.cpp:5]: (warning) Passing value -1 to sqrtl() leads to implementation-defined result. \n " , errout . str ( ) ) ;
// implementation-defined behaviour for "finite values of x<0" only:
check ( " void foo() \n "
" { \n "
" std::cout << sqrt(-0.) << std::endl; \n "
" std::cout << sqrtf(-0.) << std::endl; \n "
" std::cout << sqrtl(-0.) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::cout << sqrt(1) << std::endl; \n "
" std::cout << sqrtf(1) << std::endl; \n "
" std::cout << sqrtl(1) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
}
void mathfunctionCall_log ( ) {
// log,log10,logf,logl,log10f,log10l
check ( " void foo() \n "
" { \n "
" std::cout << log(-2) << std::endl; \n "
" std::cout << logf(-2) << std::endl; \n "
" std::cout << logl(-2) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Passing value -2 to log() leads to implementation-defined result. \n "
" [test.cpp:4]: (warning) Passing value -2 to logf() leads to implementation-defined result. \n "
" [test.cpp:5]: (warning) Passing value -2 to logl() leads to implementation-defined result. \n " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::cout << log(-1) << std::endl; \n "
" std::cout << logf(-1) << std::endl; \n "
" std::cout << logl(-1) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Passing value -1 to log() leads to implementation-defined result. \n "
" [test.cpp:4]: (warning) Passing value -1 to logf() leads to implementation-defined result. \n "
" [test.cpp:5]: (warning) Passing value -1 to logl() leads to implementation-defined result. \n " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::cout << log(-1.0) << std::endl; \n "
" std::cout << logf(-1.0) << std::endl; \n "
" std::cout << logl(-1.0) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Passing value -1.0 to log() leads to implementation-defined result. \n "
" [test.cpp:4]: (warning) Passing value -1.0 to logf() leads to implementation-defined result. \n "
" [test.cpp:5]: (warning) Passing value -1.0 to logl() leads to implementation-defined result. \n " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::cout << log(-0.1) << std::endl; \n "
" std::cout << logf(-0.1) << std::endl; \n "
" std::cout << logl(-0.1) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Passing value -0.1 to log() leads to implementation-defined result. \n "
" [test.cpp:4]: (warning) Passing value -0.1 to logf() leads to implementation-defined result. \n "
" [test.cpp:5]: (warning) Passing value -0.1 to logl() leads to implementation-defined result. \n " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::cout << log(0) << std::endl; \n "
" std::cout << logf(0.) << std::endl; \n "
" std::cout << logl(0.0) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Passing value 0 to log() leads to implementation-defined result. \n "
" [test.cpp:4]: (warning) Passing value 0. to logf() leads to implementation-defined result. \n "
" [test.cpp:5]: (warning) Passing value 0.0 to logl() leads to implementation-defined result. \n " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::cout << log(1E-3) << std::endl; \n "
" std::cout << logf(1E-3) << std::endl; \n "
" std::cout << logl(1E-3) << std::endl; \n "
" std::cout << log(1.0E-3) << std::endl; \n "
" std::cout << logf(1.0E-3) << std::endl; \n "
" std::cout << logl(1.0E-3) << std::endl; \n "
" std::cout << log(1.0E+3) << std::endl; \n "
" std::cout << logf(1.0E+3) << std::endl; \n "
" std::cout << logl(1.0E+3) << std::endl; \n "
" std::cout << log(2.0) << std::endl; \n "
" std::cout << logf(2.0) << std::endl; \n "
" std::cout << logf(2.0f) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::string *log(0); \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
// #3473 - no warning if "log" is a variable
check ( " Fred::Fred() : log(0) { } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
// #5748
check ( " void f() { foo.log(0); } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
}
void mathfunctionCall_acos ( ) {
// acos, acosf, acosl
check ( " void foo() \n "
" { \n "
" return acos(-1) \n "
" + acos(0.1) \n "
" + acos(0.0001) \n "
" + acos(0.01) \n "
" + acos(1.0E-1) \n "
" + acos(-1.0E-1) \n "
" + acos(+1.0E-1) \n "
" + acos(0.1E-1) \n "
" + acos(+0.1E-1) \n "
" + acos(-0.1E-1) \n "
" + acosf(-1) \n "
" + acosf(0.1) \n "
" + acosf(0.0001) \n "
" + acosf(0.01) \n "
" + acosf(1.0E-1) \n "
" + acosf(-1.0E-1) \n "
" + acosf(+1.0E-1) \n "
" + acosf(0.1E-1) \n "
" + acosf(+0.1E-1) \n "
" + acosf(-0.1E-1) \n "
" + acosl(-1) \n "
" + acosl(0.1) \n "
" + acosl(0.0001) \n "
" + acosl(0.01) \n "
" + acosl(1.0E-1) \n "
" + acosl(-1.0E-1) \n "
" + acosl(+1.0E-1) \n "
" + acosl(0.1E-1) \n "
" + acosl(+0.1E-1) \n "
" + acosl(-0.1E-1); \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::cout << acos(1.1) << std::endl; \n "
" std::cout << acosf(1.1) << std::endl; \n "
" std::cout << acosl(1.1) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Passing value 1.1 to acos() leads to implementation-defined result. \n "
" [test.cpp:4]: (warning) Passing value 1.1 to acosf() leads to implementation-defined result. \n "
" [test.cpp:5]: (warning) Passing value 1.1 to acosl() leads to implementation-defined result. \n " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::cout << acos(-1.1) << std::endl; \n "
" std::cout << acosf(-1.1) << std::endl; \n "
" std::cout << acosl(-1.1) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Passing value -1.1 to acos() leads to implementation-defined result. \n "
" [test.cpp:4]: (warning) Passing value -1.1 to acosf() leads to implementation-defined result. \n "
" [test.cpp:5]: (warning) Passing value -1.1 to acosl() leads to implementation-defined result. \n " , errout . str ( ) ) ;
}
void mathfunctionCall_asin ( ) {
// asin, asinf, asinl
check ( " void foo() \n "
" { \n "
" return asin(1) \n "
" + asin(-1) \n "
" + asin(0.1) \n "
" + asin(0.0001) \n "
" + asin(0.01) \n "
" + asin(1.0E-1) \n "
" + asin(-1.0E-1) \n "
" + asin(+1.0E-1) \n "
" + asin(0.1E-1) \n "
" + asin(+0.1E-1) \n "
" + asin(-0.1E-1) \n "
" + asinf(1) \n "
" + asinf(-1) \n "
" + asinf(0.1) \n "
" + asinf(0.0001) \n "
" + asinf(0.01) \n "
" + asinf(1.0E-1) \n "
" + asinf(-1.0E-1) \n "
" + asinf(+1.0E-1) \n "
" + asinf(0.1E-1) \n "
" + asinf(+0.1E-1) \n "
" + asinf(-0.1E-1) \n "
" + asinl(1) \n "
" + asinl(-1) \n "
" + asinl(0.1) \n "
" + asinl(0.0001) \n "
" + asinl(0.01) \n "
" + asinl(1.0E-1) \n "
" + asinl(-1.0E-1) \n "
" + asinl(+1.0E-1) \n "
" + asinl(0.1E-1) \n "
" + asinl(+0.1E-1) \n "
" + asinl(-0.1E-1); \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::cout << asin(1.1) << std::endl; \n "
" std::cout << asinf(1.1) << std::endl; \n "
" std::cout << asinl(1.1) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Passing value 1.1 to asin() leads to implementation-defined result. \n "
" [test.cpp:4]: (warning) Passing value 1.1 to asinf() leads to implementation-defined result. \n "
" [test.cpp:5]: (warning) Passing value 1.1 to asinl() leads to implementation-defined result. \n " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::cout << asin(-1.1) << std::endl; \n "
" std::cout << asinf(-1.1) << std::endl; \n "
" std::cout << asinl(-1.1) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Passing value -1.1 to asin() leads to implementation-defined result. \n "
" [test.cpp:4]: (warning) Passing value -1.1 to asinf() leads to implementation-defined result. \n "
" [test.cpp:5]: (warning) Passing value -1.1 to asinl() leads to implementation-defined result. \n " , errout . str ( ) ) ;
}
void mathfunctionCall_pow ( ) {
// pow, powf, powl
check ( " void foo() \n "
" { \n "
" std::cout << pow(0,-10) << std::endl; \n "
" std::cout << powf(0,-10) << std::endl; \n "
" std::cout << powl(0,-10) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Passing values 0 and -10 to pow() leads to implementation-defined result. \n "
" [test.cpp:4]: (warning) Passing values 0 and -10 to powf() leads to implementation-defined result. \n "
" [test.cpp:5]: (warning) Passing values 0 and -10 to powl() leads to implementation-defined result. \n " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::cout << pow(0,10) << std::endl; \n "
" std::cout << powf(0,10) << std::endl; \n "
" std::cout << powl(0,10) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
}
void mathfunctionCall_atan2 ( ) {
// atan2
check ( " void foo() \n "
" { \n "
" std::cout << atan2(1,1) ; \n "
" std::cout << atan2(-1,-1) ; \n "
" std::cout << atan2(0.1,1) ; \n "
" std::cout << atan2(0.0001,100) ; \n "
" std::cout << atan2(0.0,1e-1) ; \n "
" std::cout << atan2(1.0E-1,-3) ; \n "
" std::cout << atan2(-1.0E-1,+2) ; \n "
" std::cout << atan2(+1.0E-1,0) ; \n "
" std::cout << atan2(0.1E-1,3) ; \n "
" std::cout << atan2(+0.1E-1,1) ; \n "
" std::cout << atan2(-0.1E-1,8) ; \n "
" std::cout << atan2f(1,1) ; \n "
" std::cout << atan2f(-1,-1) ; \n "
" std::cout << atan2f(0.1,1) ; \n "
" std::cout << atan2f(0.0001,100) ; \n "
" std::cout << atan2f(0.0,1e-1) ; \n "
" std::cout << atan2f(1.0E-1,-3) ; \n "
" std::cout << atan2f(-1.0E-1,+2) ; \n "
" std::cout << atan2f(+1.0E-1,0) ; \n "
" std::cout << atan2f(0.1E-1,3) ; \n "
" std::cout << atan2f(+0.1E-1,1) ; \n "
" std::cout << atan2f(-0.1E-1,8) ; \n "
" std::cout << atan2l(1,1) ; \n "
" std::cout << atan2l(-1,-1) ; \n "
" std::cout << atan2l(0.1,1) ; \n "
" std::cout << atan2l(0.0001,100) ; \n "
" std::cout << atan2l(0.0,1e-1) ; \n "
" std::cout << atan2l(1.0E-1,-3) ; \n "
" std::cout << atan2l(-1.0E-1,+2) ; \n "
" std::cout << atan2l(+1.0E-1,0) ; \n "
" std::cout << atan2l(0.1E-1,3) ; \n "
" std::cout << atan2l(+0.1E-1,1) ; \n "
" std::cout << atan2l(-0.1E-1,8) ; \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::cout << atan2(0,0) << std::endl; \n "
" std::cout << atan2f(0,0) << std::endl; \n "
" std::cout << atan2l(0,0) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Passing values 0 and 0 to atan2() leads to implementation-defined result. \n "
" [test.cpp:4]: (warning) Passing values 0 and 0 to atan2f() leads to implementation-defined result. \n "
" [test.cpp:5]: (warning) Passing values 0 and 0 to atan2l() leads to implementation-defined result. \n " , errout . str ( ) ) ;
}
void mathfunctionCall_fmod ( ) {
// fmod, fmodl, fmodf
check ( " void foo() \n "
" { \n "
" std::cout << fmod(1.0,0) << std::endl; \n "
" std::cout << fmodf(1.0,0) << std::endl; \n "
" std::cout << fmodl(1.0,0) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Passing values 1.0 and 0 to fmod() leads to implementation-defined result. \n "
" [test.cpp:4]: (warning) Passing values 1.0 and 0 to fmodf() leads to implementation-defined result. \n "
" [test.cpp:5]: (warning) Passing values 1.0 and 0 to fmodl() leads to implementation-defined result. \n " , errout . str ( ) ) ;
check ( " void foo() \n "
" { \n "
" std::cout << fmod(1.0,1) << std::endl; \n "
" std::cout << fmodf(1.0,1) << std::endl; \n "
" std::cout << fmodl(1.0,1) << std::endl; \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
}
void mathfunctionCall_precision ( ) {
check ( " void foo() { \n "
" print(exp(x) - 1); \n "
" print(log(1 + x)); \n "
" print(1 - erf(x)); \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:2]: (style) Expression 'exp(x) - 1' can be replaced by 'expm1(x)' to avoid loss of precision. \n "
" [test.cpp:3]: (style) Expression 'log(1 + x)' can be replaced by 'log1p(x)' to avoid loss of precision. \n "
" [test.cpp:4]: (style) Expression '1 - erf(x)' can be replaced by 'erfc(x)' to avoid loss of precision. \n " , errout . str ( ) ) ;
check ( " void foo() { \n "
" print(exp(x) - 1.0); \n "
" print(log(1.0 + x)); \n "
" print(1.0 - erf(x)); \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:2]: (style) Expression 'exp(x) - 1' can be replaced by 'expm1(x)' to avoid loss of precision. \n "
" [test.cpp:3]: (style) Expression 'log(1 + x)' can be replaced by 'log1p(x)' to avoid loss of precision. \n "
" [test.cpp:4]: (style) Expression '1 - erf(x)' can be replaced by 'erfc(x)' to avoid loss of precision. \n " , errout . str ( ) ) ;
check ( " void foo() { \n "
" print(exp(3 + x*f(a)) - 1); \n "
" print(log(x*4 + 1)); \n "
" print(1 - erf(34*x + f(x) - c)); \n "
" } " ) ;
ASSERT_EQUALS ( " [test.cpp:2]: (style) Expression 'exp(x) - 1' can be replaced by 'expm1(x)' to avoid loss of precision. \n "
" [test.cpp:3]: (style) Expression 'log(1 + x)' can be replaced by 'log1p(x)' to avoid loss of precision. \n "
" [test.cpp:4]: (style) Expression '1 - erf(x)' can be replaced by 'erfc(x)' to avoid loss of precision. \n " , errout . str ( ) ) ;
check ( " void foo() { \n "
" print(2*exp(x) - 1); \n "
" print(1 - erf(x)/2.0); \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
}
void checkIgnoredReturnValue ( ) {
Settings settings2 ;
settings2 . addEnabled ( " warning " ) ;
const char xmldata [ ] = " <?xml version= \" 1.0 \" ?> \n "
" <def version= \" 2 \" > \n "
" <function name= \" mystrcmp,foo::mystrcmp \" > \n "
" <use-retval/> \n "
" <arg nr= \" 1 \" /> \n "
" <arg nr= \" 2 \" /> \n "
" </function> \n "
" </def> " ;
tinyxml2 : : XMLDocument doc ;
doc . Parse ( xmldata , sizeof ( xmldata ) ) ;
settings2 . library . load ( doc ) ;
check ( " void foo() { \n "
" mystrcmp(a, b); \n "
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " [test.cpp:2]: (warning) Return value of function mystrcmp() is not used. \n " , errout . str ( ) ) ;
check ( " void foo() { \n "
" foo::mystrcmp(a, b); \n "
" } " , " test.cpp " , & settings2 ) ;
2017-03-05 22:23:16 +01:00
ASSERT_EQUALS ( " [test.cpp:2]: (warning) Return value of function foo::mystrcmp() is not used. \n " , errout . str ( ) ) ;
check ( " void f() { \n "
" foo x; \n "
" x.mystrcmp(a, b); \n "
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Return value of function x.mystrcmp() is not used. \n " , errout . str ( ) ) ;
2015-11-22 13:48:55 +01:00
check ( " bool mystrcmp(char* a, char* b); \n " // cppcheck sees a custom strcmp definition, but it returns a value. Assume it is the one specified in the library.
" void foo() { \n "
" mystrcmp(a, b); \n "
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) Return value of function mystrcmp() is not used. \n " , errout . str ( ) ) ;
check ( " void mystrcmp(char* a, char* b); \n " // cppcheck sees a custom strcmp definition which returns void!
" void foo() { \n "
" mystrcmp(a, b); \n "
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void foo() { \n "
" class mystrcmp { mystrcmp() {} }; \n " // strcmp is a constructor definition here
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void foo() { \n "
" return mystrcmp(a, b); \n "
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void foo() { \n "
" return foo::mystrcmp(a, b); \n "
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void foo() { \n "
" if(mystrcmp(a, b)); \n "
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void foo() { \n "
" bool b = mystrcmp(a, b); \n "
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
// #6194
check ( " void foo() { \n "
" MyStrCmp mystrcmp(x, y); \n "
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
// #6197
check ( " void foo() { \n "
" abc::def.mystrcmp(a,b); \n "
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
// #6233
check ( " int main() { \n "
" auto lambda = [](double value) { \n "
" double rounded = floor(value + 0.5); \n "
" printf( \" Rounded value = %f \\ n \" , rounded); \n "
" }; \n "
" lambda(13.3); \n "
" return 0; \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
// #6669
check ( " void foo(size_t size) { \n "
" void * res{malloc(size)}; \n "
" } " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
2017-02-12 16:50:45 +01:00
2017-02-12 16:33:28 +01:00
// #7447
check ( " void foo() { \n "
" int x{mystrcmp(a,b)}; \n "
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
2017-02-12 16:50:45 +01:00
// #7905
check ( " void foo() { \n "
" int x({mystrcmp(a,b)}); \n "
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
2017-04-07 13:18:53 +02:00
// #7979 - code is not well configured
check ( " void foo() { \n "
" DEBUG(x(); mystrcmp(a,b);); \n "
" } " , " test.cpp " , & settings2 ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
2017-04-11 20:16:33 +02:00
check ( " void foo() { \n " // don't crash
" DEBUG(123)(mystrcmp(a,b))(fd); \n "
" } " , " test.c " , & settings2 ) ;
2017-04-23 07:53:41 +02:00
}
2017-04-11 20:16:33 +02:00
2017-04-23 07:53:41 +02:00
void memsetZeroBytes ( ) {
check ( " void f() { \n "
" memset(p, 10, 0x0); \n "
" } \n " ) ;
ASSERT_EQUALS ( " [test.cpp:2]: (warning) memset() called to fill 0 bytes. \n " , errout . str ( ) ) ;
check ( " void f() { \n "
" memset(p, sizeof(p), 0); \n "
" } \n " ) ;
ASSERT_EQUALS ( " [test.cpp:2]: (warning) memset() called to fill 0 bytes. \n " , errout . str ( ) ) ;
check ( " void f() { \n "
" memset(p, sizeof(p), i); \n "
" } \n " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
// #6269 false positives in case of overloaded standard library functions
check ( " class c { \n "
" void memset( int i ); \n "
" void f( void ) { \n "
" memset( 0 ); \n "
" } \n "
" }; " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
// #7285
check ( " void f() { \n "
" memset(&tm, sizeof(tm), 0); \n "
" } \n " ) ;
ASSERT_EQUALS ( " [test.cpp:2]: (warning) memset() called to fill 0 bytes. \n " , errout . str ( ) ) ;
}
void memsetInvalid2ndParam ( ) {
check ( " void f() { \n "
" int* is = new int[10]; \n "
" memset(is, 1.0f, 40); \n "
" int* is2 = new int[10]; \n "
" memset(is2, 0.1f, 40); \n "
" } \n " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (portability) The 2nd memset() argument '1.0f' is a float, its representation is implementation defined. \n "
" [test.cpp:5]: (portability) The 2nd memset() argument '0.1f' is a float, its representation is implementation defined. \n " , errout . str ( ) ) ;
check ( " void f() { \n "
" int* is = new int[10]; \n "
" float g = computeG(); \n "
" memset(is, g, 40); \n "
" } \n " ) ;
ASSERT_EQUALS ( " [test.cpp:4]: (portability) The 2nd memset() argument 'g' is a float, its representation is implementation defined. \n " , errout . str ( ) ) ;
check ( " void f() { \n "
" int* is = new int[10]; \n "
" memset(is, 0.0f, 40); \n "
" } \n " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void f() { \n " // FP
" float x = 2.3f; \n "
" memset(a, (x?64:0), 40); \n "
" } \n " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void f() { \n "
" short ss[] = {1, 2}; \n "
" memset(ss, 256, 4); \n "
" short ss2[2]; \n "
" memset(ss2, -129, 4); \n "
" } \n " ) ;
ASSERT_EQUALS ( " [test.cpp:3]: (warning) The 2nd memset() argument '256' doesn't fit into an 'unsigned char'. \n "
" [test.cpp:5]: (warning) The 2nd memset() argument '-129' doesn't fit into an 'unsigned char'. \n " , errout . str ( ) ) ;
check ( " void f() { \n "
" int is[10]; \n "
" memset(is, 0xEE, 40); \n "
" unsigned char* cs = malloc(256); \n "
" memset(cs, -1, 256); \n "
" short* ss[30]; \n "
" memset(ss, -128, 60); \n "
" char cs2[30]; \n "
" memset(cs2, 255, 30); \n "
" char cs3[30]; \n "
" memset(cs3, 0, 30); \n "
" } \n " ) ;
ASSERT_EQUALS ( " " , errout . str ( ) ) ;
check ( " void f() { \n "
" int is[10]; \n "
" const int i = g(); \n "
" memset(is, 1.0f + i, 40); \n "
" } \n " ) ;
ASSERT_EQUALS ( " [test.cpp:4]: (portability) The 2nd memset() argument '1.0f+i' is a float, its representation is implementation defined. \n " , errout . str ( ) ) ;
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}
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} ;
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REGISTER_TEST ( TestFunctions )