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#pragma once
#include "cast.h"
#include "split.h"
#include <util/generic/map.h>
#include <util/generic/strbuf.h>
#include <util/generic/string.h>
#include <util/generic/vector.h>
#include <util/string/cast.h>
#include <util/system/yassert.h>
#define KEEP_EMPTY_TOKENS 0x01
//
// NOTE: Check StringSplitter below to get more convenient split string interface.
namespace NPrivate {
void SplitStringImpl(TVector<TString>* res, const char* ptr,
const char* delimiter, size_t maxFields, int options);
void SplitStringImpl(TVector<TString>* res, const char* ptr, size_t len,
const char* delimiter, size_t maxFields, int options);
void SplitStringImpl(TVector<TUtf16String>* res, const wchar16* ptr,
const wchar16* delimiter, size_t maxFields, int options);
void SplitStringImpl(TVector<TUtf16String>* res, const wchar16* ptr, size_t len,
const wchar16* delimiter, size_t maxFields, int options);
template <typename C>
struct TStringDeducer;
template <>
struct TStringDeducer<char> {
using type = TString;
};
template <>
struct TStringDeducer<wchar16> {
using type = TUtf16String;
};
}
template <typename C>
TVector<typename ::NPrivate::TStringDeducer<C>::type>
SplitString(const C* ptr, const C* delimiter,
size_t maxFields = 0, int options = 0) {
TVector<typename ::NPrivate::TStringDeducer<C>::type> res;
::NPrivate::SplitStringImpl(&res, ptr, delimiter, maxFields, options);
return res;
}
template <typename C>
TVector<typename ::NPrivate::TStringDeducer<C>::type>
SplitString(const C* ptr, size_t len, const C* delimiter,
size_t maxFields = 0, int options = 0) {
TVector<typename ::NPrivate::TStringDeducer<C>::type> res;
::NPrivate::SplitStringImpl(&res, ptr, len, delimiter, maxFields, options);
return res;
}
template <typename C>
TVector<typename ::NPrivate::TStringDeducer<C>::type>
SplitString(const typename ::NPrivate::TStringDeducer<C>::type& str, const C* delimiter,
size_t maxFields = 0, int options = 0) {
return SplitString(str.data(), str.size(), delimiter, maxFields, options);
}
template <class TIter>
inline TString JoinStrings(TIter begin, TIter end, const TStringBuf delim) {
if (begin == end)
return TString();
TString result = ToString(*begin);
for (++begin; begin != end; ++begin) {
result.append(delim);
result.append(ToString(*begin));
}
return result;
}
template <class TIter>
inline TUtf16String JoinStrings(TIter begin, TIter end, const TWtringBuf delim) {
if (begin == end)
return TUtf16String();
TUtf16String result = ToWtring(*begin);
for (++begin; begin != end; ++begin) {
result.append(delim);
result.append(ToWtring(*begin));
}
return result;
}
/// Concatenates elements of given TVector<TString>.
inline TString JoinStrings(const TVector<TString>& v, const TStringBuf delim) {
return JoinStrings(v.begin(), v.end(), delim);
}
inline TString JoinStrings(const TVector<TString>& v, size_t index, size_t count, const TStringBuf delim) {
Y_ASSERT(index + count <= v.size() && "JoinStrings(): index or count out of range");
return JoinStrings(v.begin() + index, v.begin() + index + count, delim);
}
template <typename T>
inline TString JoinVectorIntoString(const TVector<T>& v, const TStringBuf delim) {
return JoinStrings(v.begin(), v.end(), delim);
}
template <typename T>
inline TString JoinVectorIntoString(const TVector<T>& v, size_t index, size_t count, const TStringBuf delim) {
Y_ASSERT(index + count <= v.size() && "JoinVectorIntoString(): index or count out of range");
return JoinStrings(v.begin() + index, v.begin() + index + count, delim);
}
TUtf16String JoinStrings(const TVector<TUtf16String>& v, const TWtringBuf delim);
TUtf16String JoinStrings(const TVector<TUtf16String>& v, size_t index, size_t count, const TWtringBuf delim);
//! Converts vector of strings to vector of type T variables
template <typename T, typename TStringType>
TVector<T> Scan(const TVector<TStringType>& input) {
TVector<T> output;
output.reserve(input.size());
for (int i = 0; i < input.ysize(); ++i) {
output.push_back(FromString<T>(input[i]));
}
return output;
}
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