439 lines
14 KiB
C++
439 lines
14 KiB
C++
#ifndef string_hh_INCLUDED
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#define string_hh_INCLUDED
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#include "array_view.hh"
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#include "hash.hh"
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#include "optional.hh"
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#include "units.hh"
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#include "utf8.hh"
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#include "vector.hh"
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#include <cstring>
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#include <climits>
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namespace Kakoune
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{
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class StringView;
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template<typename Type, typename CharType>
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class StringOps
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{
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public:
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using value_type = CharType;
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friend inline size_t hash_value(const Type& str)
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{
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return hash_data(str.data(), (int)str.length());
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}
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using iterator = CharType*;
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using const_iterator = const CharType*;
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using reverse_iterator = std::reverse_iterator<iterator>;
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using const_reverse_iterator = std::reverse_iterator<const_iterator>;
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[[gnu::always_inline]]
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iterator begin() { return type().data(); }
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[[gnu::always_inline]]
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const_iterator begin() const { return type().data(); }
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[[gnu::always_inline]]
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iterator end() { return type().data() + (int)type().length(); }
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[[gnu::always_inline]]
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const_iterator end() const { return type().data() + (int)type().length(); }
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reverse_iterator rbegin() { return reverse_iterator{end()}; }
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const_reverse_iterator rbegin() const { return const_reverse_iterator{end()}; }
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reverse_iterator rend() { return reverse_iterator{begin()}; }
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const_reverse_iterator rend() const { return const_reverse_iterator{begin()}; }
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CharType& front() { return *type().data(); }
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const CharType& front() const { return *type().data(); }
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CharType& back() { return type().data()[(int)type().length() - 1]; }
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const CharType& back() const { return type().data()[(int)type().length() - 1]; }
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[[gnu::always_inline]]
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CharType& operator[](ByteCount pos) { return type().data()[(int)pos]; }
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[[gnu::always_inline]]
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const CharType& operator[](ByteCount pos) const { return type().data()[(int)pos]; }
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Codepoint operator[](CharCount pos) const
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{ return utf8::codepoint(utf8::advance(begin(), end(), pos), end()); }
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CharCount char_length() const { return utf8::distance(begin(), end()); }
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ColumnCount column_length() const { return utf8::column_distance(begin(), end()); }
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[[gnu::always_inline]]
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bool empty() const { return type().length() == 0_byte; }
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ByteCount byte_count_to(CharCount count) const
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{ return utf8::advance(begin(), end(), count) - begin(); }
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ByteCount byte_count_to(ColumnCount count) const
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{ return utf8::advance(begin(), end(), count) - begin(); }
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CharCount char_count_to(ByteCount count) const
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{ return utf8::distance(begin(), begin() + (int)count); }
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ColumnCount column_count_to(ByteCount count) const
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{ return utf8::column_distance(begin(), begin() + (int)count); }
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StringView substr(ByteCount from, ByteCount length = INT_MAX) const;
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StringView substr(CharCount from, CharCount length = INT_MAX) const;
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StringView substr(ColumnCount from, ColumnCount length = INT_MAX) const;
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private:
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[[gnu::always_inline]]
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Type& type() { return *static_cast<Type*>(this); }
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[[gnu::always_inline]]
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const Type& type() const { return *static_cast<const Type*>(this); }
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};
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[[gnu::optimize(3)]] // this is recursive for constexpr reason
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constexpr ByteCount strlen(const char* s)
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{
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return *s == 0 ? 0 : strlen(s+1) + 1;
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}
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class String : public StringOps<String, char>
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{
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public:
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String() {}
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String(const char* content) : m_data(content, (size_t)strlen(content)) {}
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String(const char* content, ByteCount len) : m_data(content, (size_t)len) {}
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explicit String(Codepoint cp, CharCount count = 1)
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{
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reserve(utf8::codepoint_size(cp) * (int)count);
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while (count-- > 0)
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utf8::dump(std::back_inserter(*this), cp);
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}
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explicit String(Codepoint cp, ColumnCount count)
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{
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kak_assert(count % codepoint_width(cp) == 0);
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int cp_count = (int)(count / std::max(codepoint_width(cp), 1_col));
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reserve(utf8::codepoint_size(cp) * cp_count);
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while (cp_count-- > 0)
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utf8::dump(std::back_inserter(*this), cp);
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}
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String(const char* begin, const char* end) : m_data(begin, end-begin) {}
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explicit String(StringView str);
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[[gnu::always_inline]]
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char* data() { return m_data.data(); }
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[[gnu::always_inline]]
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const char* data() const { return m_data.data(); }
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[[gnu::always_inline]]
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ByteCount length() const { return m_data.size(); }
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[[gnu::always_inline]]
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const char* c_str() const { return m_data.data(); }
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[[gnu::always_inline]]
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void append(const char* data, ByteCount count) { m_data.append(data, (size_t)count); }
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void clear() { m_data.clear(); }
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void push_back(char c) { m_data.append(&c, 1); }
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void force_size(ByteCount size) { m_data.force_size((size_t)size); }
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void reserve(ByteCount size) { m_data.reserve((size_t)size); }
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void resize(ByteCount size, char c);
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static const String ms_empty;
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static constexpr const char* option_type_name = "str";
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// String data storage using small string optimization.
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//
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// the LSB of the last byte is used to flag if we are using the small buffer
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// or an allocated one. On big endian systems that means the allocated
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// capacity must be pair, on little endian systems that means the allocated
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// capacity cannot use its most significant byte, so we effectively limit
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// capacity to 2^24 on 32bit arch, and 2^60 on 64.
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union Data
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{
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using Alloc = Allocator<char, MemoryDomain::String>;
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struct Long
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{
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static constexpr size_t max_capacity =
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(size_t)1 << 8 * (sizeof(size_t) - 1);
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char* ptr;
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size_t size;
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size_t capacity;
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} l;
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struct Short
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{
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static constexpr size_t capacity = sizeof(Long) - 2;
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char string[capacity+1];
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unsigned char size;
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} s;
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Data() { set_empty(); }
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Data(const char* data, size_t size, size_t capacity);
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Data(const char* data, size_t size) : Data(data, size, size) {}
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Data(const Data& other) : Data{other.data(), other.size()} {}
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~Data() { release(); }
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Data(Data&& other) noexcept;
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Data& operator=(const Data& other);
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Data& operator=(Data&& other) noexcept;
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bool is_long() const { return (s.size & 1) == 0; }
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size_t size() const { return is_long() ? l.size : (s.size >> 1); }
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size_t capacity() const { return is_long() ? l.capacity : Short::capacity; }
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const char* data() const { return is_long() ? l.ptr : s.string; }
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char* data() { return is_long() ? l.ptr : s.string; }
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template<bool copy = true>
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void reserve(size_t new_capacity);
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void set_size(size_t size);
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void force_size(size_t new_size);
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void append(const char* str, size_t len);
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void clear();
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private:
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void release();
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void set_empty() { s.size = 1; }
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void set_short(const char* data, size_t size);
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};
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private:
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Data m_data;
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};
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class StringView : public StringOps<StringView, const char>
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{
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public:
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StringView() = default;
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constexpr StringView(const char* data, ByteCount length)
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: m_data{data}, m_length{length} {}
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constexpr StringView(const char* data) : m_data{data}, m_length{data ? strlen(data) : 0} {}
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constexpr StringView(const char* begin, const char* end) : m_data{begin}, m_length{(int)(end - begin)} {}
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StringView(const String& str) : m_data{str.data()}, m_length{(int)str.length()} {}
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StringView(const char& c) : m_data(&c), m_length(1) {}
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StringView(int c) = delete;
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StringView(Codepoint c) = delete;
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[[gnu::always_inline]]
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constexpr const char* data() const { return m_data; }
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[[gnu::always_inline]]
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constexpr ByteCount length() const { return m_length; }
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String str() const { return {m_data, m_length}; }
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struct ZeroTerminatedString
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{
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ZeroTerminatedString(const char* begin, const char* end)
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{
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if (*end == '\0')
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unowned = begin;
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else
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owned = String::Data(begin, end - begin);
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}
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operator const char*() const { return unowned ? unowned : owned.data(); }
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private:
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String::Data owned;
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const char* unowned = nullptr;
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};
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ZeroTerminatedString zstr() const { return {begin(), end()}; }
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private:
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const char* m_data;
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ByteCount m_length;
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};
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static_assert(std::is_trivial<StringView>::value, "");
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template<> struct HashCompatible<String, StringView> : std::true_type {};
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template<> struct HashCompatible<StringView, String> : std::true_type {};
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inline String::String(StringView str) : String{str.begin(), str.length()} {}
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template<typename Type, typename CharType>
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inline StringView StringOps<Type, CharType>::substr(ByteCount from, ByteCount length) const
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{
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if (length < 0)
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length = INT_MAX;
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const auto str_len = type().length();
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kak_assert(from >= 0 and from <= str_len);
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return StringView{ type().data() + (int)from, std::min(str_len - from, length) };
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}
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template<typename Type, typename CharType>
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inline StringView StringOps<Type, CharType>::substr(CharCount from, CharCount length) const
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{
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if (length < 0)
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length = INT_MAX;
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auto beg = utf8::advance(begin(), end(), from);
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return StringView{ beg, utf8::advance(beg, end(), length) };
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}
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template<typename Type, typename CharType>
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inline StringView StringOps<Type, CharType>::substr(ColumnCount from, ColumnCount length) const
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{
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if (length < 0)
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length = INT_MAX;
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auto beg = utf8::advance(begin(), end(), from);
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return StringView{ beg, utf8::advance(beg, end(), length) };
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}
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inline String& operator+=(String& lhs, StringView rhs)
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{
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lhs.append(rhs.data(), rhs.length());
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return lhs;
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}
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inline String operator+(StringView lhs, StringView rhs)
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{
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String res;
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res.reserve(lhs.length() + rhs.length());
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res.append(lhs.data(), lhs.length());
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res.append(rhs.data(), rhs.length());
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return res;
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}
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[[gnu::always_inline]]
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inline bool operator==(const StringView& lhs, const StringView& rhs)
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{
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return lhs.length() == rhs.length() and
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std::equal(lhs.begin(), lhs.end(), rhs.begin());
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}
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[[gnu::always_inline]]
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inline bool operator!=(const StringView& lhs, const StringView& rhs)
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{ return not (lhs == rhs); }
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inline bool operator<(const StringView& lhs, const StringView& rhs)
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{
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return std::lexicographical_compare(lhs.begin(), lhs.end(),
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rhs.begin(), rhs.end());
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}
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inline String operator"" _str(const char* str, size_t)
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{
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return String(str);
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}
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inline StringView operator"" _sv(const char* str, size_t)
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{
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return StringView{str};
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}
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Vector<String> split(StringView str, char separator, char escape);
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Vector<StringView> split(StringView str, char separator);
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StringView trim_whitespaces(StringView str);
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String escape(StringView str, StringView characters, char escape);
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String unescape(StringView str, StringView characters, char escape);
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String indent(StringView str, StringView indent = " ");
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String replace(StringView str, StringView substr, StringView replacement);
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template<typename Container>
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String join(const Container& container, char joiner, bool esc_joiner = true)
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{
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const char to_escape[2] = { joiner, '\\' };
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String res;
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for (const auto& str : container)
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{
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if (not res.empty())
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res += joiner;
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res += esc_joiner ? escape(str, {to_escape, 2}, '\\') : str;
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}
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return res;
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}
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inline bool prefix_match(StringView str, StringView prefix)
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{
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return str.substr(0_byte, prefix.length()) == prefix;
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}
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bool subsequence_match(StringView str, StringView subseq);
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String expand_tabs(StringView line, ColumnCount tabstop, ColumnCount col = 0);
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Vector<StringView> wrap_lines(StringView text, ColumnCount max_width);
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int str_to_int(StringView str); // throws on error
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Optional<int> str_to_int_ifp(StringView str);
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inline String option_to_string(StringView opt) { return opt.str(); }
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inline void option_from_string(StringView str, String& opt) { opt = str.str(); }
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inline bool option_add(String& opt, StringView val) { opt += val; return not val.empty(); }
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template<size_t N>
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struct InplaceString
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{
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static_assert(N < 256, "InplaceString cannot handle sizes >= 256");
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constexpr operator StringView() const { return {m_data, ByteCount{m_length}}; }
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operator String() const { return {m_data, ByteCount{m_length}}; }
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unsigned char m_length;
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char m_data[N];
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};
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struct Hex { size_t val; };
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constexpr Hex hex(size_t val) { return {val}; }
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InplaceString<15> to_string(int val);
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InplaceString<23> to_string(long int val);
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InplaceString<23> to_string(size_t val);
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InplaceString<23> to_string(long long int val);
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InplaceString<23> to_string(Hex val);
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InplaceString<23> to_string(float val);
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InplaceString<7> to_string(Codepoint c);
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template<typename RealType, typename ValueType>
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decltype(to_string(std::declval<ValueType>()))
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to_string(const StronglyTypedNumber<RealType, ValueType>& val)
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{
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return to_string((ValueType)val);
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}
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namespace detail
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{
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template<typename T> using IsString = std::is_convertible<T, StringView>;
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template<typename T, class = typename std::enable_if<not IsString<T>::value>::type>
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auto format_param(const T& val) -> decltype(to_string(val)) { return to_string(val); }
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template<typename T, class = typename std::enable_if<IsString<T>::value>::type>
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StringView format_param(const T& val) { return val; }
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}
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String format(StringView fmt, ArrayView<const StringView> params);
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template<typename... Types>
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String format(StringView fmt, Types&&... params)
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{
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return format(fmt, ArrayView<const StringView>{detail::format_param(std::forward<Types>(params))...});
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}
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StringView format_to(ArrayView<char> buffer, StringView fmt, ArrayView<const StringView> params);
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template<typename... Types>
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StringView format_to(ArrayView<char> buffer, StringView fmt, Types&&... params)
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{
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return format_to(buffer, fmt, ArrayView<const StringView>{detail::format_param(std::forward<Types>(params))...});
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}
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}
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#endif // string_hh_INCLUDED
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