#ifndef display_buffer_hh_INCLUDED #define display_buffer_hh_INCLUDED #include #include "string.hh" #include "color.hh" #include "line_and_column.hh" #include "buffer.hh" namespace Kakoune { struct DisplayCoord : LineAndColumn { constexpr DisplayCoord(LineCount line = 0, CharCount column = 0) : LineAndColumn(line, column) {} template explicit constexpr DisplayCoord(const LineAndColumn& other) : LineAndColumn(other.line, other.column) {} }; typedef int Attribute; enum Attributes { Normal = 0, Underline = 1, Reverse = 2, Blink = 4, Bold = 8 }; struct AtomContent { 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; } } BufferIterator& begin() { assert(has_buffer_range()); return m_begin; } BufferIterator& end() { assert(has_buffer_range()); return m_end; } void replace(String text) { 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; } private: Type m_type; BufferIterator m_begin; BufferIterator m_end; String m_text; }; struct DisplayAtom { Color fg_color; Color bg_color; Attribute attribute; AtomContent content; DisplayAtom(AtomContent content) : content(std::move(content)), attribute(Normal), fg_color(Color::Default), bg_color(Color::Default) {} }; class DisplayLine { public: using AtomList = std::vector; using iterator = AtomList::iterator; using const_iterator = AtomList::const_iterator; explicit DisplayLine(LineCount buffer_line) : m_buffer_line(buffer_line) {} LineCount buffer_line() const { return m_buffer_line; } iterator begin() { return m_atoms.begin(); } iterator end() { return m_atoms.end(); } const_iterator begin() const { return m_atoms.begin(); } const_iterator end() const { return m_atoms.end(); } // 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)); } private: LineCount m_buffer_line; AtomList m_atoms; }; using BufferRange = std::pair; class DisplayBuffer { public: using LineList = std::list; 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 compute_range(); private: LineList m_lines; BufferRange m_range; }; } #endif // display_buffer_hh_INCLUDED