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apache / stdcxx / refs/heads/4.2.0 / . / tests / algorithms / 25.find.first.cpp
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/***************************************************************************
*
* find.first.cpp - test exercising 25.1.4 [lib.alg.find.first.of]
*
* $Id$
*
***************************************************************************
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
* implied. See the License for the specific language governing
* permissions and limitations under the License.
*
* Copyright 1994-2006 Rogue Wave Software.
*
**************************************************************************/
#include <algorithm> // for find_first_of
#include <cstring> // for size_t, strlen()
#include <alg_test.h>
#include <rw_value.h> // for UserClass
#include <driver.h> // for rw_test
/**************************************************************************/
_RWSTD_NAMESPACE (std) {
#ifndef _RWSTD_NO_EXPLICIT_INSTANTIATION
template
FwdIter<eq_comp<base<> > >
find_first_of (FwdIter<eq_comp<base<> > >, FwdIter<eq_comp<base<> > >,
FwdIter<eq_comp<base<> > >, FwdIter<eq_comp<base<> > >);
template
FwdIter<eq_comp<base<> > >
find_first_of (FwdIter<eq_comp<base<> > >, FwdIter<eq_comp<base<> > >,
FwdIter<eq_comp<base<> > >, FwdIter<eq_comp<base<> > >,
binary_predicate<eq_comp<base<> > >);
#endif // _RWSTD_NO_EXPLICIT_INSTANTIATION
} // namespace std
/**************************************************************************/
template <class T, class U>
struct EqualityPredicate
{
static std::size_t funcalls_;
// dummy arguments provided to prevent the class
// from being default constructible
EqualityPredicate (T* /* dummy */, U* /* dummy */) {
funcalls_ = 0;
}
// return a type other than bool but one that is implicitly
// convertible to bool to detect incorrect assumptions
class ConvertibleToBool {
bool result_;
public:
ConvertibleToBool (bool res): result_ (res) { /* empty */ }
operator bool() const { return result_; }
};
ConvertibleToBool operator() (const T &x, const U &y) /* non-const */ {
++funcalls_;
return x == y;
}
};
template <class T, class U>
std::size_t EqualityPredicate<T, U>::funcalls_;
/**************************************************************************/
// used to initialize an array of objects of type T
static const char *tinit_begin;
int tinit ()
{
typedef unsigned char UChar;
return UChar (*tinit_begin++);
}
// exercises std::find_end()
template <class ForwardIterator1, class ForwardIterator2,
class Predicate, class T>
void do_test (int line, // line number of test case
const char *src, // source sequence
const char *fseq, // sequence to be found
std::size_t resoff, // offset of result
ForwardIterator1 &dummy_iter1,
ForwardIterator2 &dummy_iter2,
const T*,
const Predicate *pred)
{
static const char* const it1name = type_name (dummy_iter1, (T*)0);
static const char* const it2name = type_name (dummy_iter2, (T*)0);
static const char* const pname = pred ? "Predicate" : "operator==";
const std::size_t nsrc = std::strlen (src);
const std::size_t nfseq = std::strlen (fseq);
if (std::size_t (-1) == resoff)
resoff = nsrc;
// have the T default ctor initialize objects from `src'
tinit_begin = src;
T::gen_ = tinit;
T* const tsrc = new T [nsrc];
T* const src_begin = tsrc;
T* const src_end = tsrc + nsrc;
// have the T default ctor initialize sequence to be found
tinit_begin = fseq;
T* const tfseq = new T [nfseq];
T* const fseq_begin = tfseq;
T* const fseq_end = tfseq + nfseq;
// create iterators
const ForwardIterator1 first1 =
make_iter (src_begin, src_begin, src_end, dummy_iter1);
const ForwardIterator1 last1 =
make_iter (src_end, src_begin, src_end, dummy_iter1);
const ForwardIterator2 first2 =
make_iter (fseq_begin, fseq_begin, fseq_end, dummy_iter2);
const ForwardIterator2 last2 =
make_iter (fseq_end, fseq_begin, fseq_end, dummy_iter2);
// compute the number of invocations of the operator==()
std::size_t last_n_op_assign = T::n_total_op_assign_;
const Predicate fun((T*)0, (T*)0); // dummy arguments
const ForwardIterator1 res = pred ?
std::find_first_of (first1, last1, first2, last2, fun)
: std::find_first_of (first1, last1, first2, last2);
// silence a bogus EDG eccp remark #550-D:
// variable "res" was set but never used
_RWSTD_UNUSED (res);
if (!rw_assert (res.cur_ == first1.cur_ + resoff, 0, line,
"line %d: find_first_of<%s, %s>(it = \"%s\", \"%s\")"
" == (it + %zu), got (it + %td)",
__LINE__, it1name, it2name, src, fseq,
resoff, res.cur_ - first1.cur_)) {
delete[] tsrc;
delete[] tfseq;
return;
}
const std::size_t npreds = pred ?
fun.funcalls_ : T::n_total_op_assign_ - last_n_op_assign;
rw_assert (npreds <= nfseq * nsrc, 0, line,
"line %d: find_first_of<%s, %s>(it = \"%s\", \"%s\")"
"%s invoked %zu times, expected no more than %td",
__LINE__, it1name, it2name, src, fseq, pname,
npreds, nfseq * nsrc);
delete[] tsrc;
delete[] tfseq;
}
/**************************************************************************/
template <class ForwardIterator1, class ForwardIterator2,
class Predicate, class T>
void run_tests (const ForwardIterator1 &dummy_iter1,
const ForwardIterator2 &dummy_iter2,
const T*,
const Predicate *pred)
{
static const char* const it1name = type_name (dummy_iter1, (T*)0);
static const char* const it2name = type_name (dummy_iter2, (T*)0);
rw_info (0, 0, 0,
"%s std::find_first_of (%1$s, %1$s, %s, %2$s%{?}, %s%{;})",
it1name, it2name, 0 != pred, "Predicate");
#define TEST(src, fnd, off_res) \
do_test (__LINE__, src, fnd, std::size_t (off_res), \
dummy_iter1, dummy_iter2, (UserClass*)0, pred)
// +------------------ subject sequence
// | +--- sequence to be found
// | |
// | | +-- offset of returned iterator,
// | | | -1 denotes the end of sequence
// v v v
TEST ("abcdefghijk", "a", 0);
TEST ("abcdefghijk", "b", 1);
TEST ("abcdefghijk", "c", 2);
TEST ("abcdefghijk", "d", 3);
TEST ("abcdefghijk", "e", 4);
TEST ("abcdefghijk", "f", 5);
TEST ("abcdefghijk", "g", 6);
TEST ("abcdefghijk", "h", 7);
TEST ("abcdefghijk", "i", 8);
TEST ("abcdefghijk", "j", 9);
TEST ("abcdefghijk", "k", 10);
TEST ("aabcdefghijk", "a", 0);
TEST ("abbcdefghijk", "b", 1);
TEST ("abccdefghijk", "c", 2);
TEST ("abcddefghijk", "d", 3);
TEST ("abcdeefghijk", "e", 4);
TEST ("abcdeffghijk", "f", 5);
TEST ("abcdefgghijk", "g", 6);
TEST ("abcdefghhijk", "h", 7);
TEST ("abcdefghijjk", "i", 8);
TEST ("abcdefghijjk", "j", 9);
TEST ("abcdefghijkk", "k", 10);
TEST ("bbcdefghijk", "ab", 0);
TEST ("accdefghijk", "bc", 1);
TEST ("abddefghijk", "cd", 2);
TEST ("abceefghijk", "de", 3);
TEST ("abcdffghijk", "ef", 4);
TEST ("abcdegghijk", "fg", 5);
TEST ("abcdefhhijk", "gh", 6);
TEST ("abcdefgiijk", "hi", 7);
TEST ("abcdefghjjk", "ij", 8);
TEST ("abcdefghikk", "jk", 9);
TEST ("bbcdefghijk", "a", -1);
TEST ("accdefghijk", "b", -1);
TEST ("abddefghijk", "c", -1);
TEST ("abceefghijk", "d", -1);
TEST ("abcdffghijk", "e", -1);
TEST ("abcdegghijk", "f", -1);
TEST ("abcdefhhijk", "g", -1);
TEST ("abcdefgiijk", "h", -1);
TEST ("abcdefghjjk", "i", -1);
TEST ("abcdefghikk", "j", -1);
TEST ("", "a", -1);
TEST ("abcdefghijk", "", -1);
}
/**************************************************************************/
/* extern */ int rw_opt_no_fwd_iter; // --no-ForwardIterator
/* extern */ int rw_opt_no_bidir_iter; // --no-BidirectionalIterator
/* extern */ int rw_opt_no_rnd_iter; // --no-RandomAccessIterator
/* extern */ int rw_opt_no_predicate; // --no-Predicate
template <class ForwardIterator, class Predicate, class T>
void run_test (const ForwardIterator &dummy, T*, Predicate* pred)
{
if (rw_opt_no_fwd_iter) {
rw_note (0, __FILE__, __LINE__, "ForwardIterator test disabled");
}
else {
run_tests (dummy, FwdIter<T>(), (T*)0, pred);
}
if (rw_opt_no_bidir_iter) {
rw_note (0, __FILE__, __LINE__, "BidirectionalIterator test disabled");
}
else {
run_tests (dummy, BidirIter<T>(), (T*)0, pred);
}
if (rw_opt_no_rnd_iter) {
rw_note (0, __FILE__, __LINE__, "RandomAccessIterator test disabled");
}
else {
run_tests (dummy, RandomAccessIter<T>(), (T*)0, pred);
}
}
/**************************************************************************/
static void
run_test (bool test_predicate)
{
rw_info (0, 0, 0,
"template <class %s, class %s> "
"%1$s std::find_first_of (%1$s, %1$s, %2$s, %2$s%{?}, %s%{;})",
"ForwardIterator1", "ForwardIterator2",
0 != test_predicate, "Predicate");
typedef EqualityPredicate<UserClass, UserClass> EqPred;
const EqPred* const pred = test_predicate ? (EqPred*)1 : (EqPred*)0;
if (rw_opt_no_fwd_iter) {
rw_note (0, __FILE__, __LINE__, "ForwardIterator test disabled");
}
else {
run_test (FwdIter<UserClass>(), (UserClass*)0, pred);
}
if (rw_opt_no_bidir_iter) {
rw_note (0, __FILE__, __LINE__, "BidirectionalIterator test disabled");
}
else {
run_test (BidirIter<UserClass>(), (UserClass*)0, pred);
}
if (rw_opt_no_rnd_iter) {
rw_note (0, __FILE__, __LINE__, "RandomAccessIterator test disabled");
}
else {
run_test (RandomAccessIter<UserClass>(), (UserClass*)0, pred);
}
}
/**************************************************************************/
static int
run_test (int, char*[])
{
run_test (false);
if (rw_opt_no_predicate) {
rw_note (0, __FILE__, __LINE__, "Predicate test disabled");
}
else {
run_test (true);
}
return 0;
}
/**************************************************************************/
int main (int argc, char *argv[])
{
return rw_test (argc, argv, __FILE__,
"lib.alg.find.first.of",
0 /* no comment */, run_test,
"|-no-ForwardIterator#"
"|-no-BidirectionalIterator#"
"|-no-RandomAccessIterator#"
"|-no-Predicate#",
&rw_opt_no_fwd_iter,
&rw_opt_no_bidir_iter,
&rw_opt_no_rnd_iter,
&rw_opt_no_predicate);
}