kakoune/src/display_buffer.hh

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#ifndef display_buffer_hh_INCLUDED
#define display_buffer_hh_INCLUDED
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#include "buffer.hh"
#include "color.hh"
#include "line_and_column.hh"
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#include "string.hh"
#include "utf8.hh"
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#include <vector>
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namespace Kakoune
{
struct DisplayCoord : LineAndColumn<DisplayCoord, LineCount, CharCount>
{
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constexpr DisplayCoord(LineCount line = 0, CharCount column = 0)
: LineAndColumn(line, column) {}
};
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typedef char Attribute;
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enum Attributes
{
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Normal = 0,
Underline = 1,
Reverse = 2,
Blink = 4,
Bold = 8
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};
class DisplayLine;
struct AtomContent
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{
public:
enum Type { BufferRange, ReplacedBufferRange, Text };
AtomContent(BufferIterator begin, BufferIterator end)
: m_type(BufferRange),
m_begin(std::move(begin)),
m_end(std::move(end)) {}
AtomContent(String str)
: m_type(Text), m_text(std::move(str)) {}
String content() const
{
switch (m_type)
{
case BufferRange:
return m_begin.buffer().string(m_begin, m_end);
case Text:
case ReplacedBufferRange:
return m_text;
}
kak_assert(false);
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return 0;
}
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CharCount length() const
{
switch (m_type)
{
case BufferRange:
return utf8::distance(m_begin, m_end);
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case Text:
case ReplacedBufferRange:
return m_text.char_length();
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}
kak_assert(false);
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return 0;
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}
const BufferIterator& begin() const
{
kak_assert(has_buffer_range());
return m_begin;
}
const BufferIterator& end() const
{
kak_assert(has_buffer_range());
return m_end;
}
void replace(String text)
{
kak_assert(m_type == BufferRange);
m_type = ReplacedBufferRange;
m_text = std::move(text);
}
bool has_buffer_range() const
{
return m_type == BufferRange or m_type == ReplacedBufferRange;
}
Type type() const { return m_type; }
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private:
friend class DisplayLine;
Type m_type;
BufferIterator m_begin;
BufferIterator m_end;
String m_text;
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};
struct DisplayAtom
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{
ColorPair colors;
Attribute attribute;
AtomContent content;
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DisplayAtom(AtomContent content,
ColorPair colors = {Colors::Default, Colors::Default},
Attribute attribute = Normal)
: content{std::move(content)}, colors{colors}, attribute{attribute}
{}
};
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class DisplayLine
{
public:
using AtomList = std::vector<DisplayAtom>;
using iterator = AtomList::iterator;
using const_iterator = AtomList::const_iterator;
explicit DisplayLine(LineCount buffer_line) : m_buffer_line(buffer_line) {}
DisplayLine(LineCount buffer_line, AtomList atoms)
: m_buffer_line(buffer_line), m_atoms(std::move(atoms)) {}
DisplayLine(String str, ColorPair color)
: m_buffer_line(-1), m_atoms{ { std::move(str), color } } {}
LineCount buffer_line() const { return m_buffer_line; }
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iterator begin() { return m_atoms.begin(); }
iterator end() { return m_atoms.end(); }
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const_iterator begin() const { return m_atoms.begin(); }
const_iterator end() const { return m_atoms.end(); }
const AtomList& atoms() const { return m_atoms; }
CharCount length() const;
// Split atom pointed by it at pos, returns an iterator to the first atom
iterator split(iterator it, BufferIterator pos);
iterator insert(iterator it, DisplayAtom atom) { return m_atoms.insert(it, std::move(atom)); }
void push_back(DisplayAtom atom) { m_atoms.push_back(std::move(atom)); }
void optimize();
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private:
LineCount m_buffer_line;
AtomList m_atoms;
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};
using BufferRange = std::pair<BufferIterator, BufferIterator>;
class DisplayBuffer
{
public:
using LineList = std::vector<DisplayLine>;
DisplayBuffer() {}
LineList& lines() { return m_lines; }
const LineList& lines() const { return m_lines; }
// returns the smallest BufferIterator range which contains every DisplayAtoms
const BufferRange& range() const { return m_range; }
void optimize();
void compute_range();
private:
LineList m_lines;
BufferRange m_range;
};
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}
#endif // display_buffer_hh_INCLUDED