YouCompleteMe/cpp/BoostParts/boost/test/impl/test_tools.ipp
2013-03-16 11:00:13 -07:00

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// (C) Copyright Gennadiy Rozental 2005-2008.
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/libs/test for the library home page.
//
// File : $RCSfile$
//
// Version : $Revision: 54633 $
//
// Description : supplies offline implementation for the Test Tools
// ***************************************************************************
#ifndef BOOST_TEST_TEST_TOOLS_IPP_012205GER
#define BOOST_TEST_TEST_TOOLS_IPP_012205GER
// Boost.Test
#include <boost/test/test_tools.hpp>
#include <boost/test/unit_test_log.hpp>
#include <boost/test/output_test_stream.hpp>
#include <boost/test/framework.hpp>
#include <boost/test/execution_monitor.hpp> // execution_aborted
#include <boost/test/unit_test_suite_impl.hpp>
// Boost
#include <boost/config.hpp>
// STL
#include <fstream>
#include <string>
#include <cstring>
#include <cctype>
#include <cwchar>
#include <stdexcept>
#include <ios>
// !! should we use #include <cstdarg>
#include <stdarg.h>
#include <boost/test/detail/suppress_warnings.hpp>
//____________________________________________________________________________//
# ifdef BOOST_NO_STDC_NAMESPACE
namespace std { using ::strcmp; using ::strlen; using ::isprint; }
#if !defined( BOOST_NO_CWCHAR )
namespace std { using ::wcscmp; }
#endif
# endif
namespace boost {
namespace test_tools {
// ************************************************************************** //
// ************** print_log_value ************** //
// ************************************************************************** //
void
print_log_value<char>::operator()( std::ostream& ostr, char t )
{
if( (std::isprint)( static_cast<unsigned char>(t) ) )
ostr << '\'' << t << '\'';
else
ostr << std::hex
#if BOOST_TEST_USE_STD_LOCALE
<< std::showbase
#else
<< "0x"
#endif
<< static_cast<int>(t);
}
//____________________________________________________________________________//
void
print_log_value<unsigned char>::operator()( std::ostream& ostr, unsigned char t )
{
ostr << std::hex
// showbase is only available for new style streams:
#if BOOST_TEST_USE_STD_LOCALE
<< std::showbase
#else
<< "0x"
#endif
<< static_cast<int>(t);
}
//____________________________________________________________________________//
void
print_log_value<char const*>::operator()( std::ostream& ostr, char const* t )
{
ostr << ( t ? t : "null string" );
}
//____________________________________________________________________________//
void
print_log_value<wchar_t const*>::operator()( std::ostream& ostr, wchar_t const* t )
{
ostr << ( t ? t : L"null string" );
}
//____________________________________________________________________________//
namespace tt_detail {
// ************************************************************************** //
// ************** TOOL BOX Implementation ************** //
// ************************************************************************** //
using ::boost::unit_test::lazy_ostream;
bool
check_impl( predicate_result const& pr, lazy_ostream const& check_descr,
const_string file_name, std::size_t line_num,
tool_level tl, check_type ct,
std::size_t num_of_args, ... )
{
using namespace unit_test;
if( !framework::is_initialized() )
throw std::runtime_error( "can't use testing tools before framework is initialized" );
if( !!pr )
tl = PASS;
log_level ll;
char const* prefix;
char const* suffix;
switch( tl ) {
case PASS:
ll = log_successful_tests;
prefix = "check ";
suffix = " passed";
break;
case WARN:
ll = log_warnings;
prefix = "condition ";
suffix = " is not satisfied";
break;
case CHECK:
ll = log_all_errors;
prefix = "check ";
suffix = " failed";
break;
case REQUIRE:
ll = log_fatal_errors;
prefix = "critical check ";
suffix = " failed";
break;
default:
return true;
}
switch( ct ) {
case CHECK_PRED:
unit_test_log << unit_test::log::begin( file_name, line_num )
<< ll << prefix << check_descr << suffix;
if( !pr.has_empty_message() )
unit_test_log << ". " << pr.message();
unit_test_log << unit_test::log::end();
break;
case CHECK_MSG:
unit_test_log << unit_test::log::begin( file_name, line_num ) << ll;
if( tl == PASS )
unit_test_log << prefix << "'" << check_descr << "'" << suffix;
else
unit_test_log << check_descr;
if( !pr.has_empty_message() )
unit_test_log << ". " << pr.message();
unit_test_log << unit_test::log::end();
break;
case CHECK_EQUAL:
case CHECK_NE:
case CHECK_LT:
case CHECK_LE:
case CHECK_GT:
case CHECK_GE: {
static char const* check_str [] = { " == ", " != ", " < " , " <= ", " > " , " >= " };
static char const* rever_str [] = { " != ", " == ", " >= ", " > " , " <= ", " < " };
va_list args;
va_start( args, num_of_args );
char const* arg1_descr = va_arg( args, char const* );
lazy_ostream const* arg1_val = va_arg( args, lazy_ostream const* );
char const* arg2_descr = va_arg( args, char const* );
lazy_ostream const* arg2_val = va_arg( args, lazy_ostream const* );
unit_test_log << unit_test::log::begin( file_name, line_num )
<< ll << prefix << arg1_descr << check_str[ct-CHECK_EQUAL] << arg2_descr << suffix;
if( tl != PASS )
unit_test_log << " [" << *arg1_val << rever_str[ct-CHECK_EQUAL] << *arg2_val << "]" ;
va_end( args );
if( !pr.has_empty_message() )
unit_test_log << ". " << pr.message();
unit_test_log << unit_test::log::end();
break;
}
case CHECK_CLOSE:
case CHECK_CLOSE_FRACTION: {
va_list args;
va_start( args, num_of_args );
char const* arg1_descr = va_arg( args, char const* );
lazy_ostream const* arg1_val = va_arg( args, lazy_ostream const* );
char const* arg2_descr = va_arg( args, char const* );
lazy_ostream const* arg2_val = va_arg( args, lazy_ostream const* );
/* toler_descr = */ va_arg( args, char const* );
lazy_ostream const* toler_val = va_arg( args, lazy_ostream const* );
unit_test_log << unit_test::log::begin( file_name, line_num ) << ll;
unit_test_log << "difference{" << pr.message() << (ct == CHECK_CLOSE ? "%" : "")
<< "} between " << arg1_descr << "{" << *arg1_val
<< "} and " << arg2_descr << "{" << *arg2_val
<< ( tl == PASS ? "} doesn't exceed " : "} exceeds " )
<< *toler_val;
if( ct == CHECK_CLOSE )
unit_test_log << "%";
va_end( args );
unit_test_log << unit_test::log::end();
break;
}
case CHECK_SMALL: {
va_list args;
va_start( args, num_of_args );
char const* arg1_descr = va_arg( args, char const* );
lazy_ostream const* arg1_val = va_arg( args, lazy_ostream const* );
/* toler_descr = */ va_arg( args, char const* );
lazy_ostream const* toler_val = va_arg( args, lazy_ostream const* );
unit_test_log << unit_test::log::begin( file_name, line_num ) << ll;
unit_test_log << "absolute value of " << arg1_descr << "{" << *arg1_val << "}"
<< ( tl == PASS ? " doesn't exceed " : " exceeds " )
<< *toler_val;
va_end( args );
if( !pr.has_empty_message() )
unit_test_log << ". " << pr.message();
unit_test_log << unit_test::log::end();
break;
}
case CHECK_PRED_WITH_ARGS: {
unit_test_log << unit_test::log::begin( file_name, line_num )
<< ll << prefix << check_descr;
// print predicate call description
{
va_list args;
va_start( args, num_of_args );
unit_test_log << "( ";
for( std::size_t i = 0; i < num_of_args; ++i ) {
unit_test_log << va_arg( args, char const* );
va_arg( args, lazy_ostream const* ); // skip argument value;
if( i != num_of_args-1 )
unit_test_log << ", ";
}
unit_test_log << " )" << suffix;
va_end( args );
}
if( tl != PASS ) {
va_list args;
va_start( args, num_of_args );
unit_test_log << " for ( ";
for( std::size_t i = 0; i < num_of_args; ++i ) {
va_arg( args, char const* ); // skip argument description;
unit_test_log << *va_arg( args, lazy_ostream const* );
if( i != num_of_args-1 )
unit_test_log << ", ";
}
unit_test_log << " )";
va_end( args );
}
if( !pr.has_empty_message() )
unit_test_log << ". " << pr.message();
unit_test_log << unit_test::log::end();
break;
}
case CHECK_EQUAL_COLL: {
va_list args;
va_start( args, num_of_args );
char const* left_begin_descr = va_arg( args, char const* );
char const* left_end_descr = va_arg( args, char const* );
char const* right_begin_descr = va_arg( args, char const* );
char const* right_end_descr = va_arg( args, char const* );
unit_test_log << unit_test::log::begin( file_name, line_num )
<< ll << prefix
<< "{ " << left_begin_descr << ", " << left_end_descr << " } == { "
<< right_begin_descr << ", " << right_end_descr << " }"
<< suffix;
va_end( args );
if( !pr.has_empty_message() )
unit_test_log << ". " << pr.message();
unit_test_log << unit_test::log::end();
break;
}
case CHECK_BITWISE_EQUAL: {
va_list args;
va_start( args, num_of_args );
char const* left_descr = va_arg( args, char const* );
char const* right_descr = va_arg( args, char const* );
unit_test_log << unit_test::log::begin( file_name, line_num )
<< ll << prefix << left_descr << " =.= " << right_descr << suffix;
va_end( args );
if( !pr.has_empty_message() )
unit_test_log << ". " << pr.message();
unit_test_log << unit_test::log::end();
break;
}
}
switch( tl ) {
case PASS:
framework::assertion_result( true );
return true;
case WARN:
return false;
case CHECK:
framework::assertion_result( false );
return false;
case REQUIRE:
framework::assertion_result( false );
framework::test_unit_aborted( framework::current_test_case() );
throw execution_aborted();
}
return true;
}
//____________________________________________________________________________//
predicate_result
equal_impl( char const* left, char const* right )
{
return (left && right) ? std::strcmp( left, right ) == 0 : (left == right);
}
//____________________________________________________________________________//
#if !defined( BOOST_NO_CWCHAR )
predicate_result
equal_impl( wchar_t const* left, wchar_t const* right )
{
return (left && right) ? std::wcscmp( left, right ) == 0 : (left == right);
}
#endif // !defined( BOOST_NO_CWCHAR )
//____________________________________________________________________________//
bool
is_defined_impl( const_string symbol_name, const_string symbol_value )
{
symbol_value.trim_left( 2 );
return symbol_name != symbol_value;
}
//____________________________________________________________________________//
} // namespace tt_detail
// ************************************************************************** //
// ************** output_test_stream ************** //
// ************************************************************************** //
struct output_test_stream::Impl
{
std::fstream m_pattern;
bool m_match_or_save;
bool m_text_or_binary;
std::string m_synced_string;
char get_char()
{
char res;
do {
m_pattern.get( res );
} while( m_text_or_binary && res == '\r' && !m_pattern.fail() && !m_pattern.eof() );
return res;
}
void check_and_fill( predicate_result& res )
{
if( !res.p_predicate_value )
res.message() << "Output content: \"" << m_synced_string << '\"';
}
};
//____________________________________________________________________________//
output_test_stream::output_test_stream( const_string pattern_file_name, bool match_or_save, bool text_or_binary )
: m_pimpl( new Impl )
{
if( !pattern_file_name.is_empty() ) {
std::ios::openmode m = match_or_save ? std::ios::in : std::ios::out;
if( !text_or_binary )
m |= std::ios::binary;
m_pimpl->m_pattern.open( pattern_file_name.begin(), m );
BOOST_WARN_MESSAGE( m_pimpl->m_pattern.is_open(),
"Can't open pattern file " << pattern_file_name
<< " for " << (match_or_save ? "reading" : "writing") );
}
m_pimpl->m_match_or_save = match_or_save;
m_pimpl->m_text_or_binary = text_or_binary;
}
//____________________________________________________________________________//
output_test_stream::~output_test_stream()
{
delete m_pimpl;
}
//____________________________________________________________________________//
predicate_result
output_test_stream::is_empty( bool flush_stream )
{
sync();
result_type res( m_pimpl->m_synced_string.empty() );
m_pimpl->check_and_fill( res );
if( flush_stream )
flush();
return res;
}
//____________________________________________________________________________//
predicate_result
output_test_stream::check_length( std::size_t length_, bool flush_stream )
{
sync();
result_type res( m_pimpl->m_synced_string.length() == length_ );
m_pimpl->check_and_fill( res );
if( flush_stream )
flush();
return res;
}
//____________________________________________________________________________//
predicate_result
output_test_stream::is_equal( const_string arg, bool flush_stream )
{
sync();
result_type res( const_string( m_pimpl->m_synced_string ) == arg );
m_pimpl->check_and_fill( res );
if( flush_stream )
flush();
return res;
}
//____________________________________________________________________________//
predicate_result
output_test_stream::match_pattern( bool flush_stream )
{
sync();
result_type result( true );
if( !m_pimpl->m_pattern.is_open() ) {
result = false;
result.message() << "Pattern file can't be opened!";
}
else {
if( m_pimpl->m_match_or_save ) {
for ( std::string::size_type i = 0; i < m_pimpl->m_synced_string.length(); ++i ) {
char c = m_pimpl->get_char();
result = !m_pimpl->m_pattern.fail() &&
!m_pimpl->m_pattern.eof() &&
(m_pimpl->m_synced_string[i] == c);
if( !result ) {
std::string::size_type suffix_size = (std::min)( m_pimpl->m_synced_string.length() - i,
static_cast<std::string::size_type>(5) );
// try to log area around the mismatch
result.message() << "Mismatch at position " << i << '\n'
<< "..." << m_pimpl->m_synced_string.substr( i, suffix_size ) << "..." << '\n'
<< "..." << c;
std::string::size_type counter = suffix_size;
while( --counter ) {
char c = m_pimpl->get_char();
if( m_pimpl->m_pattern.fail() || m_pimpl->m_pattern.eof() )
break;
result.message() << c;
}
result.message() << "...";
// skip rest of the bytes. May help for further matching
m_pimpl->m_pattern.ignore(
static_cast<std::streamsize>( m_pimpl->m_synced_string.length() - i - suffix_size) );
break;
}
}
}
else {
m_pimpl->m_pattern.write( m_pimpl->m_synced_string.c_str(),
static_cast<std::streamsize>( m_pimpl->m_synced_string.length() ) );
m_pimpl->m_pattern.flush();
}
}
if( flush_stream )
flush();
return result;
}
//____________________________________________________________________________//
void
output_test_stream::flush()
{
m_pimpl->m_synced_string.erase();
#ifndef BOOST_NO_STRINGSTREAM
str( std::string() );
#else
seekp( 0, std::ios::beg );
#endif
}
//____________________________________________________________________________//
std::size_t
output_test_stream::length()
{
sync();
return m_pimpl->m_synced_string.length();
}
//____________________________________________________________________________//
void
output_test_stream::sync()
{
#ifdef BOOST_NO_STRINGSTREAM
m_pimpl->m_synced_string.assign( str(), pcount() );
freeze( false );
#else
m_pimpl->m_synced_string = str();
#endif
}
//____________________________________________________________________________//
} // namespace test_tools
} // namespace boost
//____________________________________________________________________________//
#include <boost/test/detail/enable_warnings.hpp>
#endif // BOOST_TEST_TEST_TOOLS_IPP_012205GER