1// (C) Copyright Gennadiy Rozental 2001.
2// Distributed under the Boost Software License, Version 1.0.
3// (See accompanying file LICENSE_1_0.txt or copy at
4// http://www.boost.org/LICENSE_1_0.txt)
5
6// See http://www.boost.org/libs/test for the library home page.
7//
8// File : $RCSfile$
9//
10// Version : $Revision: 74248 $
11//
12// Description : implementation details for old toolbox
13// ***************************************************************************
14
15#ifndef BOOST_TEST_TOOLS_OLD_IMPL_HPP_012705GER
16#define BOOST_TEST_TOOLS_OLD_IMPL_HPP_012705GER
17
18// Boost.Test
19#include <boost/test/unit_test_log.hpp>
20#include <boost/test/tools/assertion_result.hpp>
21#include <boost/test/tools/floating_point_comparison.hpp>
22
23#include <boost/test/tools/detail/fwd.hpp>
24#include <boost/test/tools/detail/print_helper.hpp>
25
26// Boost
27#include <boost/limits.hpp>
28#include <boost/numeric/conversion/conversion_traits.hpp> // for numeric::conversion_traits
29#include <boost/type_traits/is_array.hpp>
30
31#include <boost/preprocessor/repetition/repeat.hpp>
32#include <boost/preprocessor/arithmetic/add.hpp>
33
34// STL
35#include <cstddef> // for std::size_t
36#include <climits> // for CHAR_BIT
37
38#include <boost/test/detail/suppress_warnings.hpp>
39
40//____________________________________________________________________________//
41
42namespace boost {
43namespace test_tools {
44namespace tt_detail {
45
46// ************************************************************************** //
47// ************** old TOOLBOX Implementation ************** //
48// ************************************************************************** //
49
50// This function adds level of indirection, but it makes sure we evaluate predicate
51// arguments only once
52
53#ifndef BOOST_TEST_PROD
54#define TEMPL_PARAMS( z, m, dummy ) , typename BOOST_JOIN( Arg, m )
55
56#define FUNC_PARAMS( z, m, dummy ) \
57 , BOOST_JOIN( Arg, m ) const& BOOST_JOIN( arg, m ) \
58 , char const* BOOST_JOIN( BOOST_JOIN( arg, m ), _descr ) \
59/**/
60
61#define PRED_PARAMS( z, m, dummy ) BOOST_PP_COMMA_IF( m ) BOOST_JOIN( arg, m )
62
63#define ARG_INFO( z, m, dummy ) \
64 , BOOST_JOIN( BOOST_JOIN( arg, m ), _descr ) \
65 , &static_cast<const unit_test::lazy_ostream&>(unit_test::lazy_ostream::instance() \
66 << ::boost::test_tools::tt_detail::print_helper( BOOST_JOIN( arg, m ) )) \
67/**/
68
69#define IMPL_FRWD( z, n, dummy ) \
70template<typename Pred \
71 BOOST_PP_REPEAT_ ## z( BOOST_PP_ADD( n, 1 ), TEMPL_PARAMS, _ )> \
72inline bool \
73check_frwd( Pred P, unit_test::lazy_ostream const& assertion_descr, \
74 const_string file_name, std::size_t line_num, \
75 tool_level tl, check_type ct \
76 BOOST_PP_REPEAT_ ## z( BOOST_PP_ADD( n, 1 ), FUNC_PARAMS, _ ) \
77) \
78{ \
79 return \
80 report_assertion( P( BOOST_PP_REPEAT_ ## z(BOOST_PP_ADD(n, 1), PRED_PARAMS,_) ),\
81 assertion_descr, file_name, line_num, tl, ct, \
82 BOOST_PP_ADD( n, 1 ) \
83 BOOST_PP_REPEAT_ ## z( BOOST_PP_ADD( n, 1 ), ARG_INFO, _ ) \
84 ); \
85} \
86/**/
87
88#ifndef BOOST_TEST_MAX_PREDICATE_ARITY
89#define BOOST_TEST_MAX_PREDICATE_ARITY 5
90#endif
91
92BOOST_PP_REPEAT( BOOST_TEST_MAX_PREDICATE_ARITY, IMPL_FRWD, _ )
93
94#undef TEMPL_PARAMS
95#undef FUNC_PARAMS
96#undef PRED_INFO
97#undef ARG_INFO
98#undef IMPL_FRWD
99
100#endif
101
102//____________________________________________________________________________//
103
104template <class Left, class Right>
105inline assertion_result equal_impl( Left const& left, Right const& right )
106{
107 return left == right;
108}
109
110//____________________________________________________________________________//
111
112inline assertion_result equal_impl( char* left, char const* right ) { return equal_impl( left: static_cast<char const*>(left), right: static_cast<char const*>(right) ); }
113inline assertion_result equal_impl( char const* left, char* right ) { return equal_impl( left: static_cast<char const*>(left), right: static_cast<char const*>(right) ); }
114inline assertion_result equal_impl( char* left, char* right ) { return equal_impl( left: static_cast<char const*>(left), right: static_cast<char const*>(right) ); }
115
116#if !defined( BOOST_NO_CWCHAR )
117assertion_result BOOST_TEST_DECL equal_impl( wchar_t const* left, wchar_t const* right );
118inline assertion_result equal_impl( wchar_t* left, wchar_t const* right ) { return equal_impl( left: static_cast<wchar_t const*>(left), right: static_cast<wchar_t const*>(right) ); }
119inline assertion_result equal_impl( wchar_t const* left, wchar_t* right ) { return equal_impl( left: static_cast<wchar_t const*>(left), right: static_cast<wchar_t const*>(right) ); }
120inline assertion_result equal_impl( wchar_t* left, wchar_t* right ) { return equal_impl( left: static_cast<wchar_t const*>(left), right: static_cast<wchar_t const*>(right) ); }
121#endif
122
123//____________________________________________________________________________//
124
125struct equal_impl_frwd {
126 template <typename Left, typename Right>
127 inline assertion_result
128 call_impl( Left const& left, Right const& right, mpl::false_ ) const
129 {
130 return equal_impl( left, right );
131 }
132
133 template <typename Left, typename Right>
134 inline assertion_result
135 call_impl( Left const& left, Right const& right, mpl::true_ ) const
136 {
137 return (*this)( right, &left[0] );
138 }
139
140 template <typename Left, typename Right>
141 inline assertion_result
142 operator()( Left const& left, Right const& right ) const
143 {
144 typedef typename is_array<Left>::type left_is_array;
145 return call_impl( left, right, left_is_array() );
146 }
147};
148
149//____________________________________________________________________________//
150
151struct ne_impl {
152 template <class Left, class Right>
153 assertion_result operator()( Left const& left, Right const& right )
154 {
155 return !equal_impl_frwd()( left, right );
156 }
157};
158
159//____________________________________________________________________________//
160
161struct lt_impl {
162 template <class Left, class Right>
163 assertion_result operator()( Left const& left, Right const& right )
164 {
165 return left < right;
166 }
167};
168
169//____________________________________________________________________________//
170
171struct le_impl {
172 template <class Left, class Right>
173 assertion_result operator()( Left const& left, Right const& right )
174 {
175 return left <= right;
176 }
177};
178
179//____________________________________________________________________________//
180
181struct gt_impl {
182 template <class Left, class Right>
183 assertion_result operator()( Left const& left, Right const& right )
184 {
185 return left > right;
186 }
187};
188
189//____________________________________________________________________________//
190
191struct ge_impl {
192 template <class Left, class Right>
193 assertion_result operator()( Left const& left, Right const& right )
194 {
195 return left >= right;
196 }
197};
198
199//____________________________________________________________________________//
200
201struct equal_coll_impl {
202 template <typename Left, typename Right>
203 assertion_result operator()( Left left_begin, Left left_end, Right right_begin, Right right_end )
204 {
205 assertion_result pr( true );
206 std::size_t pos = 0;
207
208 for( ; left_begin != left_end && right_begin != right_end; ++left_begin, ++right_begin, ++pos ) {
209 if( *left_begin != *right_begin ) {
210 pr = false;
211 pr.message() << "\nMismatch at position " << pos << ": "
212 << ::boost::test_tools::tt_detail::print_helper(*left_begin)
213 << " != "
214 << ::boost::test_tools::tt_detail::print_helper(*right_begin);
215 }
216 }
217
218 if( left_begin != left_end ) {
219 std::size_t r_size = pos;
220 while( left_begin != left_end ) {
221 ++pos;
222 ++left_begin;
223 }
224
225 pr = false;
226 pr.message() << "\nCollections size mismatch: " << pos << " != " << r_size;
227 }
228
229 if( right_begin != right_end ) {
230 std::size_t l_size = pos;
231 while( right_begin != right_end ) {
232 ++pos;
233 ++right_begin;
234 }
235
236 pr = false;
237 pr.message() << "\nCollections size mismatch: " << l_size << " != " << pos;
238 }
239
240 return pr;
241 }
242};
243
244//____________________________________________________________________________//
245
246struct bitwise_equal_impl {
247 template <class Left, class Right>
248 assertion_result operator()( Left const& left, Right const& right )
249 {
250 assertion_result pr( true );
251
252 std::size_t left_bit_size = sizeof(Left)*CHAR_BIT;
253 std::size_t right_bit_size = sizeof(Right)*CHAR_BIT;
254
255 static Left const leftOne( 1 );
256 static Right const rightOne( 1 );
257
258 std::size_t total_bits = left_bit_size < right_bit_size ? left_bit_size : right_bit_size;
259
260 for( std::size_t counter = 0; counter < total_bits; ++counter ) {
261 if( ( left & ( leftOne << counter ) ) != ( right & ( rightOne << counter ) ) ) {
262 pr = false;
263 pr.message() << "\nMismatch at position " << counter;
264 }
265 }
266
267 if( left_bit_size != right_bit_size ) {
268 pr = false;
269 pr.message() << "\nOperands bit sizes mismatch: " << left_bit_size << " != " << right_bit_size;
270 }
271
272 return pr;
273 }
274};
275
276//____________________________________________________________________________//
277
278template<typename FPT1, typename FPT2>
279struct comp_supertype {
280 // deduce "better" type from types of arguments being compared
281 // if one type is floating and the second integral we use floating type and
282 // value of integral type is promoted to the floating. The same for float and double
283 // But we don't want to compare two values of integral types using this tool.
284 typedef typename numeric::conversion_traits<FPT1,FPT2>::supertype type;
285 BOOST_STATIC_ASSERT_MSG( !is_integral<type>::value, "Only floating-point types can be compared!");
286};
287
288} // namespace tt_detail
289
290namespace fpc = math::fpc;
291
292// ************************************************************************** //
293// ************** check_is_close ************** //
294// ************************************************************************** //
295
296struct BOOST_TEST_DECL check_is_close_t {
297 // Public typedefs
298 typedef assertion_result result_type;
299
300 template<typename FPT1, typename FPT2, typename ToleranceType>
301 assertion_result
302 operator()( FPT1 left, FPT2 right, ToleranceType tolerance ) const
303 {
304 fpc::close_at_tolerance<typename tt_detail::comp_supertype<FPT1,FPT2>::type> pred( tolerance, fpc::FPC_STRONG );
305
306 assertion_result ar( pred( left, right ) );
307
308 if( !ar )
309 ar.message() << pred.tested_rel_diff();
310
311 return ar;
312 }
313};
314
315//____________________________________________________________________________//
316
317template<typename FPT1, typename FPT2, typename ToleranceType>
318inline assertion_result
319check_is_close( FPT1 left, FPT2 right, ToleranceType tolerance )
320{
321 return check_is_close_t()( left, right, tolerance );
322}
323
324//____________________________________________________________________________//
325
326// ************************************************************************** //
327// ************** check_is_small ************** //
328// ************************************************************************** //
329
330struct BOOST_TEST_DECL check_is_small_t {
331 // Public typedefs
332 typedef bool result_type;
333
334 template<typename FPT>
335 bool
336 operator()( FPT fpv, FPT tolerance ) const
337 {
338 return fpc::is_small( fpv, tolerance );
339 }
340};
341
342//____________________________________________________________________________//
343
344template<typename FPT>
345inline bool
346check_is_small( FPT fpv, FPT tolerance )
347{
348 return fpc::is_small( fpv, tolerance );
349}
350
351//____________________________________________________________________________//
352
353} // namespace test_tools
354} // namespace boost
355
356#include <boost/test/detail/enable_warnings.hpp>
357
358#endif // BOOST_TEST_TOOLS_OLD_IMPL_HPP_012705GER
359

source code of boost/boost/test/tools/old/impl.hpp