home/src/string.cc

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#include "string.hh"
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#include "exception.hh"
#include "containers.hh"
#include "utf8_iterator.hh"
#include "unit_tests.hh"
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#include <cstdio>
namespace Kakoune
{
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String::Data::Data(const char* data, size_t size, size_t capacity)
{
if (capacity > Short::capacity)
{
if (capacity & 1)
++capacity;
kak_assert(capacity < Long::max_capacity);
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l.ptr = Alloc{}.allocate(capacity+1);
l.size = size;
l.capacity = capacity;
memcpy(l.ptr, data, size);
l.ptr[size] = 0;
}
else
set_short(data, size);
}
String::Data::Data(Data&& other) noexcept
{
if (other.is_long())
{
l = other.l;
other.set_empty();
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}
else
s = other.s;
}
String::Data& String::Data::operator=(const Data& other)
{
const size_t new_size = other.size();
reserve<false>(new_size);
memcpy(data(), other.data(), new_size+1);
set_size(new_size);
return *this;
}
String::Data& String::Data::operator=(Data&& other) noexcept
{
release();
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if (other.is_long())
{
l = other.l;
other.set_empty();
}
else
s = other.s;
return *this;
}
template<bool copy>
void String::Data::reserve(size_t new_capacity)
{
if (new_capacity <= capacity())
return;
if (is_long())
new_capacity = std::max(l.capacity * 2, new_capacity);
if (new_capacity & 1)
++new_capacity;
kak_assert(new_capacity < Long::max_capacity);
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char* new_ptr = Alloc{}.allocate(new_capacity+1);
if (copy)
{
memcpy(new_ptr, data(), size()+1);
l.size = size();
}
release();
l.ptr = new_ptr;
l.capacity = new_capacity;
}
template void String::Data::reserve<true>(size_t);
template void String::Data::reserve<false>(size_t);
void String::Data::force_size(size_t new_size)
{
reserve<false>(new_size);
set_size(new_size);
}
void String::Data::append(const char* str, size_t len)
{
const size_t new_size = size() + len;
reserve(new_size);
memcpy(data() + size(), str, len);
set_size(new_size);
data()[new_size] = 0;
}
void String::Data::clear()
{
release();
set_empty();
}
void String::Data::release()
{
if (is_long())
Alloc{}.deallocate(l.ptr, l.capacity+1);
}
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void String::resize(ByteCount size, char c)
{
const size_t target_size = (size_t)size;
const size_t current_size = m_data.size();
if (target_size < current_size)
m_data.set_size(target_size);
else if (target_size > current_size)
{
m_data.reserve(target_size);
m_data.set_size(target_size);
for (auto i = current_size; i < target_size; ++i)
m_data.data()[i] = c;
}
}
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void String::Data::set_size(size_t size)
{
if (is_long())
l.size = size;
else
s.size = (size << 1) | 1;
}
void String::Data::set_short(const char* data, size_t size)
{
s.size = (size << 1) | 1;
memcpy(s.string, data, size);
s.string[size] = 0;
}
const String String::ms_empty;
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Vector<String> split(StringView str, char separator, char escape)
{
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Vector<String> res;
auto it = str.begin();
auto start = it;
while (it != str.end())
{
res.emplace_back();
String& element = res.back();
while (it != str.end())
{
auto c = *it;
if (c == escape and it + 1 != str.end() and *(it+1) == separator)
{
element += StringView{start, it+1};
element.back() = separator;
it += 2;
start = it;
}
else if (c == separator)
{
element += StringView{start, it};
++it;
start = it;
break;
}
else
++it;
}
}
if (start != str.end())
res.back() += StringView{start, str.end()};
return res;
}
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Vector<StringView> split(StringView str, char separator)
{
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Vector<StringView> res;
if (str.empty())
return res;
auto beg = str.begin();
for (auto it = beg; it != str.end(); ++it)
{
if (*it == separator)
{
res.emplace_back(beg, it);
beg = it + 1;
}
}
res.emplace_back(beg, str.end());
return res;
}
String escape(StringView str, StringView characters, char escape)
{
String res;
res.reserve(str.length());
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for (auto it = str.begin(), end = str.end(); it != end; )
{
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auto next = std::find_if(it, end, [&characters](char c) { return contains(characters, c); });
if (next != end)
{
res += StringView{it, next+1};
res.back() = escape;
res += *next;
it = next+1;
}
else
{
res += StringView{it, next};
break;
}
}
return res;
}
String unescape(StringView str, StringView characters, char escape)
{
String res;
res.reserve(str.length());
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for (auto it = str.begin(), end = str.end(); it != end; )
{
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auto next = std::find(it, end, escape);
if (next != end and next+1 != end and contains(characters, *(next+1)))
{
res += StringView{it, next+1};
res.back() = *(next+1);
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it = next + 2;
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}
else
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{
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res += StringView{it, next == end ? next : next + 1};
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it = next == end ? next : next + 1;
}
}
return res;
}
String indent(StringView str, StringView indent)
{
String res;
res.reserve(str.length());
bool was_eol = true;
for (ByteCount i = 0; i < str.length(); ++i)
{
if (was_eol)
res += indent;
res += str[i];
was_eol = is_eol(str[i]);
}
return res;
}
String replace(StringView str, StringView substr, StringView replacement)
{
String res;
for (auto it = str.begin(); it != str.end(); )
{
auto match = std::search(it, str.end(), substr.begin(), substr.end());
res += StringView{it, match};
if (match == str.end())
break;
res += replacement;
it = match + (int)substr.length();
}
return res;
}
Optional<int> str_to_int_ifp(StringView str)
{
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bool negative = not str.empty() and str[0] == '-';
if (negative)
str = str.substr(1_byte);
unsigned int res = 0;
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for (auto c : str)
{
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if (c < '0' or c > '9')
return {};
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res = res * 10 + c - '0';
}
return negative ? -(int)res : (int)res;
}
int str_to_int(StringView str)
{
if (auto val = str_to_int_ifp(str))
return *val;
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throw runtime_error{str + " is not a number"};
}
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InplaceString<15> to_string(int val)
{
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InplaceString<15> res;
res.m_length = sprintf(res.m_data, "%i", val);
return res;
}
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InplaceString<23> to_string(long int val)
{
InplaceString<23> res;
res.m_length = sprintf(res.m_data, "%li", val);
return res;
}
InplaceString<23> to_string(long long int val)
{
InplaceString<23> res;
res.m_length = sprintf(res.m_data, "%lli", val);
return res;
}
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InplaceString<23> to_string(size_t val)
{
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InplaceString<23> res;
res.m_length = sprintf(res.m_data, "%zu", val);
return res;
}
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InplaceString<23> to_string(Hex val)
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{
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InplaceString<23> res;
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res.m_length = sprintf(res.m_data, "%zx", val.val);
return res;
}
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InplaceString<23> to_string(float val)
{
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InplaceString<23> res;
res.m_length = sprintf(res.m_data, "%f", val);
return res;
}
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InplaceString<7> to_string(Codepoint c)
{
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InplaceString<7> res;
char* ptr = res.m_data;
utf8::dump(ptr, c);
res.m_length = (int)(ptr - res.m_data);
return res;
}
bool subsequence_match(StringView str, StringView subseq)
{
auto it = str.begin();
for (auto& c : subseq)
{
if (it == str.end())
return false;
while (*it != c)
{
if (++it == str.end())
return false;
}
++it;
}
return true;
}
String expand_tabs(StringView line, ColumnCount tabstop, ColumnCount col)
{
String res;
res.reserve(line.length());
for (auto it = line.begin(), end = line.end(); it != end; )
{
if (*it == '\t')
{
ColumnCount end_col = (col / tabstop + 1) * tabstop;
res += String{' ', end_col - col};
col = end_col;
++it;
}
else
{
auto char_beg = it;
auto cp = utf8::read_codepoint(it, end);
res += {char_beg, it};
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col += codepoint_width(cp);
}
}
return res;
}
Vector<StringView> wrap_lines(StringView text, ColumnCount max_width)
{
if (max_width <= 0)
throw runtime_error("Invalid max width");
using Utf8It = utf8::iterator<const char*>;
Utf8It it{text.begin(), text};
Utf8It end{text.end(), text};
Utf8It line_begin = it;
Utf8It last_word_end = it;
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Vector<StringView> lines;
while (it != end)
{
const CharCategories cat = categorize(*it);
if (cat == CharCategories::EndOfLine)
{
lines.emplace_back(line_begin.base(), it.base());
line_begin = it = it+1;
continue;
}
Utf8It word_end = it+1;
while (word_end != end and categorize(*word_end) == cat)
++word_end;
while (word_end > line_begin and
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utf8::column_distance(line_begin.base(), word_end.base()) >= max_width)
{
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auto line_end = last_word_end <= line_begin ?
Utf8It{utf8::advance(line_begin.base(), text.end(), max_width), text}
: last_word_end;
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lines.emplace_back(line_begin.base(), line_end.base());
while (line_end != end and is_horizontal_blank(*line_end))
++line_end;
if (line_end != end and *line_end == '\n')
++line_end;
it = line_begin = line_end;
}
if (cat == CharCategories::Word or cat == CharCategories::Punctuation)
last_word_end = word_end;
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if (word_end > line_begin)
it = word_end;
}
if (line_begin != end)
lines.emplace_back(line_begin.base(), text.end());
return lines;
}
template<typename AppendFunc>
void format_impl(StringView fmt, ArrayView<const StringView> params, AppendFunc append)
{
int implicitIndex = 0;
for (auto it = fmt.begin(), end = fmt.end(); it != end;)
{
auto opening = std::find(it, end, '{');
if (opening == end)
{
append(StringView{it, opening});
break;
}
else if (opening != it and *(opening-1) == '\\')
{
append(StringView{it, opening-1});
append('{');
it = opening + 1;
}
else
{
append(StringView{it, opening});
auto closing = std::find(opening, end, '}');
if (closing == end)
throw runtime_error("Format string error, unclosed '{'");
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const int index = (closing == opening + 1) ?
implicitIndex : str_to_int({opening+1, closing});
if (index >= params.size())
throw runtime_error("Format string parameter index too big");
append(params[index]);
implicitIndex = index+1;
it = closing+1;
}
}
}
StringView format_to(ArrayView<char> buffer, StringView fmt, ArrayView<const StringView> params)
{
char* ptr = buffer.begin();
const char* end = buffer.end();
format_impl(fmt, params, [&](StringView s) mutable {
for (auto c : s)
{
if (ptr == end)
throw runtime_error("buffer is too small");
*ptr++ = c;
}
});
if (ptr == end)
throw runtime_error("buffer is too small");
*ptr = 0;
return { buffer.begin(), ptr };
}
String format(StringView fmt, ArrayView<const StringView> params)
{
ByteCount size = fmt.length();
for (auto& s : params) size += s.length();
String res;
res.reserve(size);
format_impl(fmt, params, [&](StringView s) { res += s; });
return res;
}
UnitTest test_string{[]()
{
kak_assert(String("youpi ") + "matin" == "youpi matin");
Vector<String> splited = split("youpi:matin::tchou\\:kanaky:hihi\\:", ':', '\\');
kak_assert(splited[0] == "youpi");
kak_assert(splited[1] == "matin");
kak_assert(splited[2] == "");
kak_assert(splited[3] == "tchou:kanaky");
kak_assert(splited[4] == "hihi:");
Vector<StringView> splitedview = split("youpi:matin::tchou\\:kanaky:hihi\\:", ':');
kak_assert(splitedview[0] == "youpi");
kak_assert(splitedview[1] == "matin");
kak_assert(splitedview[2] == "");
kak_assert(splitedview[3] == "tchou\\");
kak_assert(splitedview[4] == "kanaky");
kak_assert(splitedview[5] == "hihi\\");
kak_assert(splitedview[6] == "");
Vector<StringView> wrapped = wrap_lines("wrap this paragraph\n respecting whitespaces and much_too_long_words", 16);
kak_assert(wrapped.size() == 6);
kak_assert(wrapped[0] == "wrap this");
kak_assert(wrapped[1] == "paragraph");
kak_assert(wrapped[2] == " respecting");
kak_assert(wrapped[3] == "whitespaces and");
kak_assert(wrapped[4] == "much_too_long_wo");
kak_assert(wrapped[5] == "rds");
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Vector<StringView> wrapped2 = wrap_lines("error: unknown type", 7);
kak_assert(wrapped2.size() == 3);
kak_assert(wrapped2[0] == "error:");
kak_assert(wrapped2[1] == "unknown");
kak_assert(wrapped2[2] == "type");
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kak_assert(escape("youpi:matin:tchou:", ':', '\\') == "youpi\\:matin\\:tchou\\:");
kak_assert(unescape("youpi\\:matin\\:tchou\\:", ':', '\\') == "youpi:matin:tchou:");
kak_assert(prefix_match("tchou kanaky", "tchou"));
kak_assert(prefix_match("tchou kanaky", "tchou kanaky"));
kak_assert(prefix_match("tchou kanaky", "t"));
kak_assert(not prefix_match("tchou kanaky", "c"));
kak_assert(subsequence_match("tchou kanaky", "tknky"));
kak_assert(subsequence_match("tchou kanaky", "knk"));
kak_assert(subsequence_match("tchou kanaky", "tchou kanaky"));
kak_assert(not subsequence_match("tchou kanaky", "tchou kanaky"));
kak_assert(format("Youhou {1} {} {0} \\{}", 10, "hehe", 5) == "Youhou hehe 5 10 {}");
char buffer[20];
kak_assert(format_to(buffer, "Hey {}", 15) == "Hey 15");
kak_assert(str_to_int("5") == 5);
kak_assert(str_to_int(to_string(INT_MAX)) == INT_MAX);
kak_assert(str_to_int(to_string(INT_MIN)) == INT_MIN);
kak_assert(str_to_int("00") == 0);
kak_assert(str_to_int("-0") == 0);
kak_assert(replace("tchou/tcha/tchi", "/", "!!") == "tchou!!tcha!!tchi");
}};
}