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/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
file Copyright.txt or https://cmake.org/licensing for details. */
#ifndef cmAlgorithms_h
#define cmAlgorithms_h
#include "cmConfigure.h" // IWYU pragma: keep
#include "cm_kwiml.h"
#include <algorithm>
#include <functional>
#include <iterator>
#include <memory>
#include <sstream>
#include <string.h>
#include <string>
#include <utility>
#include <vector>
inline bool cmHasLiteralPrefixImpl(const std::string& str1, const char* str2,
size_t N)
{
return strncmp(str1.c_str(), str2, N) == 0;
}
inline bool cmHasLiteralPrefixImpl(const char* str1, const char* str2,
size_t N)
{
return strncmp(str1, str2, N) == 0;
}
inline bool cmHasLiteralSuffixImpl(const std::string& str1, const char* str2,
size_t N)
{
size_t len = str1.size();
return len >= N && strcmp(str1.c_str() + len - N, str2) == 0;
}
inline bool cmHasLiteralSuffixImpl(const char* str1, const char* str2,
size_t N)
{
size_t len = strlen(str1);
return len >= N && strcmp(str1 + len - N, str2) == 0;
}
template <typename T, size_t N>
const T* cmArrayBegin(const T (&a)[N])
{
return a;
}
template <typename T, size_t N>
const T* cmArrayEnd(const T (&a)[N])
{
return a + N;
}
template <typename T, size_t N>
size_t cmArraySize(const T (&)[N])
{
return N;
}
template <typename T, size_t N>
bool cmHasLiteralPrefix(const T& str1, const char (&str2)[N])
{
return cmHasLiteralPrefixImpl(str1, str2, N - 1);
}
template <typename T, size_t N>
bool cmHasLiteralSuffix(const T& str1, const char (&str2)[N])
{
return cmHasLiteralSuffixImpl(str1, str2, N - 1);
}
struct cmStrCmp
{
cmStrCmp(const char* test)
: m_test(test)
{
}
cmStrCmp(const std::string& test)
: m_test(test)
{
}
bool operator()(const std::string& input) const { return m_test == input; }
bool operator()(const char* input) const
{
return strcmp(input, m_test.c_str()) == 0;
}
private:
const std::string m_test;
};
template <typename FwdIt>
FwdIt cmRotate(FwdIt first, FwdIt middle, FwdIt last)
{
const typename std::iterator_traits<FwdIt>::difference_type dist =
std::distance(middle, last);
std::rotate(first, middle, last);
std::advance(first, dist);
return first;
}
template <typename Container, typename Predicate>
void cmEraseIf(Container& cont, Predicate pred)
{
cont.erase(std::remove_if(cont.begin(), cont.end(), pred), cont.end());
}
namespace ContainerAlgorithms {
template <typename T>
struct cmIsPair
{
enum
{
value = false
};
};
template <typename K, typename V>
struct cmIsPair<std::pair<K, V>>
{
enum
{
value = true
};
};
template <typename Range,
bool valueTypeIsPair = cmIsPair<typename Range::value_type>::value>
struct DefaultDeleter
{
void operator()(typename Range::value_type value) const { delete value; }
};
template <typename Range>
struct DefaultDeleter<Range, /* valueTypeIsPair = */ true>
{
void operator()(typename Range::value_type value) const
{
delete value.second;
}
};
template <typename FwdIt>
FwdIt RemoveN(FwdIt i1, FwdIt i2, size_t n)
{
FwdIt m = i1;
std::advance(m, n);
return cmRotate(i1, m, i2);
}
template <typename Range>
struct BinarySearcher
{
typedef typename Range::value_type argument_type;
BinarySearcher(Range const& r)
: m_range(r)
{
}
bool operator()(argument_type const& item) const
{
return std::binary_search(m_range.begin(), m_range.end(), item);
}
private:
Range const& m_range;
};
}
template <typename const_iterator_>
struct cmRange
{
typedef const_iterator_ const_iterator;
typedef typename std::iterator_traits<const_iterator>::value_type value_type;
typedef typename std::iterator_traits<const_iterator>::difference_type
difference_type;
cmRange(const_iterator begin_, const_iterator end_)
: Begin(begin_)
, End(end_)
{
}
const_iterator begin() const { return Begin; }
const_iterator end() const { return End; }
bool empty() const { return std::distance(Begin, End) == 0; }
difference_type size() const { return std::distance(Begin, End); }
cmRange& advance(KWIML_INT_intptr_t amount)
{
std::advance(Begin, amount);
return *this;
}
cmRange& retreat(KWIML_INT_intptr_t amount)
{
std::advance(End, -amount);
return *this;
}
private:
const_iterator Begin;
const_iterator End;
};
typedef cmRange<std::vector<std::string>::const_iterator> cmStringRange;
class cmListFileBacktrace;
typedef cmRange<std::vector<cmListFileBacktrace>::const_iterator>
cmBacktraceRange;
template <typename Iter1, typename Iter2>
cmRange<Iter1> cmMakeRange(Iter1 begin, Iter2 end)
{
return cmRange<Iter1>(begin, end);
}
template <typename Range>
cmRange<typename Range::const_iterator> cmMakeRange(Range const& range)
{
return cmRange<typename Range::const_iterator>(range.begin(), range.end());
}
template <typename Range>
void cmDeleteAll(Range const& r)
{
std::for_each(r.begin(), r.end(),
ContainerAlgorithms::DefaultDeleter<Range>());
}
template <typename Range>
std::string cmJoin(Range const& r, const char* delimiter)
{
if (r.empty()) {
return std::string();
}
std::ostringstream os;
typedef typename Range::value_type ValueType;
typedef typename Range::const_iterator InputIt;
const InputIt first = r.begin();
InputIt last = r.end();
--last;
std::copy(first, last, std::ostream_iterator<ValueType>(os, delimiter));
os << *last;
return os.str();
}
template <typename Range>
std::string cmJoin(Range const& r, std::string const& delimiter)
{
return cmJoin(r, delimiter.c_str());
}
template <typename Range>
typename Range::const_iterator cmRemoveN(Range& r, size_t n)
{
return ContainerAlgorithms::RemoveN(r.begin(), r.end(), n);
}
template <typename Range, typename InputRange>
typename Range::const_iterator cmRemoveIndices(Range& r, InputRange const& rem)
{
typename InputRange::const_iterator remIt = rem.begin();
typename InputRange::const_iterator remEnd = rem.end();
const typename Range::iterator rangeEnd = r.end();
if (remIt == remEnd) {
return rangeEnd;
}
typename Range::iterator writer = r.begin();
std::advance(writer, *remIt);
typename Range::iterator pivot = writer;
typename InputRange::value_type prevRem = *remIt;
++remIt;
size_t count = 1;
for (; writer != rangeEnd && remIt != remEnd; ++count, ++remIt) {
std::advance(pivot, *remIt - prevRem);
prevRem = *remIt;
writer = ContainerAlgorithms::RemoveN(writer, pivot, count);
}
return ContainerAlgorithms::RemoveN(writer, rangeEnd, count);
}
template <typename Range, typename MatchRange>
typename Range::const_iterator cmRemoveMatching(Range& r, MatchRange const& m)
{
return std::remove_if(r.begin(), r.end(),
ContainerAlgorithms::BinarySearcher<MatchRange>(m));
}
namespace ContainerAlgorithms {
template <typename Range, typename T = typename Range::value_type>
struct RemoveDuplicatesAPI
{
typedef typename Range::const_iterator const_iterator;
typedef typename Range::const_iterator value_type;
static bool lessThan(value_type a, value_type b) { return *a < *b; }
static value_type uniqueValue(const_iterator a) { return a; }
template <typename It>
static bool valueCompare(It it, const_iterator it2)
{
return **it != *it2;
}
};
template <typename Range, typename T>
struct RemoveDuplicatesAPI<Range, T*>
{
typedef typename Range::const_iterator const_iterator;
typedef T* value_type;
static bool lessThan(value_type a, value_type b) { return a < b; }
static value_type uniqueValue(const_iterator a) { return *a; }
template <typename It>
static bool valueCompare(It it, const_iterator it2)
{
return *it != *it2;
}
};
}
template <typename Range>
typename Range::const_iterator cmRemoveDuplicates(Range& r)
{
typedef typename ContainerAlgorithms::RemoveDuplicatesAPI<Range> API;
typedef typename API::value_type T;
std::vector<T> unique;
unique.reserve(r.size());
std::vector<size_t> indices;
size_t count = 0;
const typename Range::const_iterator end = r.end();
for (typename Range::const_iterator it = r.begin(); it != end;
++it, ++count) {
const typename std::vector<T>::iterator low = std::lower_bound(
unique.begin(), unique.end(), API::uniqueValue(it), API::lessThan);
if (low == unique.end() || API::valueCompare(low, it)) {
unique.insert(low, API::uniqueValue(it));
} else {
indices.push_back(count);
}
}
if (indices.empty()) {
return end;
}
return cmRemoveIndices(r, indices);
}
template <typename Range>
std::string cmWrap(std::string const& prefix, Range const& r,
std::string const& suffix, std::string const& sep)
{
if (r.empty()) {
return std::string();
}
return prefix + cmJoin(r, suffix + sep + prefix) + suffix;
}
template <typename Range>
std::string cmWrap(char prefix, Range const& r, char suffix,
std::string const& sep)
{
return cmWrap(std::string(1, prefix), r, std::string(1, suffix), sep);
}
template <typename Range, typename T>
typename Range::const_iterator cmFindNot(Range const& r, T const& t)
{
return std::find_if(r.begin(), r.end(),
std::bind1st(std::not_equal_to<T>(), t));
}
template <typename Range>
cmRange<typename Range::const_reverse_iterator> cmReverseRange(
Range const& range)
{
return cmRange<typename Range::const_reverse_iterator>(range.rbegin(),
range.rend());
}
template <class Iter>
std::reverse_iterator<Iter> cmMakeReverseIterator(Iter it)
{
return std::reverse_iterator<Iter>(it);
}
inline bool cmHasSuffix(const std::string& str, const std::string& suffix)
{
if (str.size() < suffix.size()) {
return false;
}
return str.compare(str.size() - suffix.size(), suffix.size(), suffix) == 0;
}
inline void cmStripSuffixIfExists(std::string& str, const std::string& suffix)
{
if (cmHasSuffix(str, suffix)) {
str.resize(str.size() - suffix.size());
}
}
namespace cm {
#if defined(CMake_HAVE_CXX_MAKE_UNIQUE)
using std::make_unique;
#else
template <typename T, typename... Args>
std::unique_ptr<T> make_unique(Args&&... args)
{
return std::unique_ptr<T>(new T(std::forward<Args>(args)...));
}
#endif
} // namespace cm
#endif
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