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mirror of https://github.com/mawww/kakoune.git synced 2024-12-22 02:51:32 +03:00
kakoune/src/window.cc
Maxime Coste f310db639c Rework partial line display logic
Instead of highlighting full lines and then trim them to make them
fit in the window, highlight only the visible portion, and rely on
the compute_display_setup system introduced for wrapping to setup
our buffer range correctly
2017-06-09 13:22:32 +01:00

319 lines
10 KiB
C++

#include "window.hh"
#include "assert.hh"
#include "clock.hh"
#include "context.hh"
#include "highlighter.hh"
#include "hook_manager.hh"
#include "input_handler.hh"
#include "client.hh"
#include "buffer_utils.hh"
#include "option.hh"
#include <algorithm>
#include <sstream>
namespace Kakoune
{
// Implementation in highlighters.cc
void setup_builtin_highlighters(HighlighterGroup& group);
Window::Window(Buffer& buffer)
: Scope(buffer),
m_buffer(&buffer),
m_highlighters{HighlightPass::All},
m_builtin_highlighters{HighlightPass::All}
{
run_hook_in_own_context("WinCreate", buffer.name());
options().register_watcher(*this);
setup_builtin_highlighters(m_builtin_highlighters);
for (auto& option : options().flatten_options())
on_option_changed(*option);
}
Window::~Window()
{
run_hook_in_own_context("WinClose", buffer().name());
options().unregister_watcher(*this);
}
void Window::scroll(LineCount offset)
{
m_position.line = std::max(0_line, m_position.line + offset);
}
void Window::display_line_at(LineCount buffer_line, LineCount display_line)
{
if (display_line >= 0 or display_line < m_dimensions.line)
m_position.line = std::max(0_line, buffer_line - display_line);
}
void Window::center_line(LineCount buffer_line)
{
display_line_at(buffer_line, m_dimensions.line/2_line);
}
void Window::scroll(ColumnCount offset)
{
m_position.column = std::max(0_col, m_position.column + offset);
}
void Window::display_column_at(ColumnCount buffer_column, ColumnCount display_column)
{
if (display_column >= 0 or display_column < m_dimensions.column)
m_position.column = std::max(0_col, buffer_column - display_column);
}
void Window::center_column(ColumnCount buffer_column)
{
display_column_at(buffer_column, m_dimensions.column/2_col);
}
Window::Setup Window::build_setup(const Context& context) const
{
Vector<BufferRange, MemoryDomain::Display> selections;
for (auto& sel : context.selections())
selections.push_back({sel.cursor(), sel.anchor()});
return { m_position, m_dimensions,
context.buffer().timestamp(),
context.selections().main_index(),
std::move(selections) };
}
bool Window::needs_redraw(const Context& context) const
{
auto& selections = context.selections();
if (m_position != m_last_setup.position or
m_dimensions != m_last_setup.dimensions or
context.buffer().timestamp() != m_last_setup.timestamp or
selections.main_index() != m_last_setup.main_selection or
selections.size() != m_last_setup.selections.size())
return true;
for (int i = 0; i < selections.size(); ++i)
{
if (selections[i].cursor() != m_last_setup.selections[i].begin or
selections[i].anchor() != m_last_setup.selections[i].end)
return true;
}
return false;
}
const DisplayBuffer& Window::update_display_buffer(const Context& context)
{
const bool profile = context.options()["debug"].get<DebugFlags>() &
DebugFlags::Profile;
auto start_time = profile ? Clock::now() : Clock::time_point{};
DisplayBuffer::LineList& lines = m_display_buffer.lines();
lines.clear();
if (m_dimensions == DisplayCoord{0,0})
return m_display_buffer;
kak_assert(&buffer() == &context.buffer());
compute_display_setup(context);
const int tabstop = context.options()["tabstop"].get<int>();
for (LineCount line = 0; line < m_range.line; ++line)
{
LineCount buffer_line = m_position.line + line;
if (buffer_line >= buffer().line_count())
break;
auto beg_byte = get_byte_to_column(buffer(), tabstop, {buffer_line, m_position.column});
auto end_byte = get_byte_to_column(buffer(), tabstop, {buffer_line, m_position.column + m_range.column});
lines.emplace_back(AtomList{ {buffer(), {buffer_line, beg_byte}, {buffer_line, end_byte}} });
}
m_display_buffer.compute_range();
BufferRange range{{0,0}, buffer().end_coord()};
for (auto pass : { HighlightPass::Wrap, HighlightPass::Move, HighlightPass::Colorize })
m_highlighters.highlight(context, pass, m_display_buffer, range);
for (auto pass : { HighlightPass::Wrap, HighlightPass::Move, HighlightPass::Colorize })
m_builtin_highlighters.highlight(context, pass, m_display_buffer, range);
m_display_buffer.optimize();
m_last_setup = build_setup(context);
if (profile and not (buffer().flags() & Buffer::Flags::Debug))
{
using namespace std::chrono;
auto duration = duration_cast<microseconds>(Clock::now() - start_time);
write_to_debug_buffer(format("window display update for '{}' took {} us",
buffer().display_name(), (size_t)duration.count()));
}
return m_display_buffer;
}
void Window::set_position(DisplayCoord position)
{
m_position.line = std::max(0_line, position.line);
m_position.column = std::max(0_col, position.column);
}
void Window::set_dimensions(DisplayCoord dimensions)
{
if (m_dimensions != dimensions)
{
m_dimensions = dimensions;
run_hook_in_own_context("WinResize", format("{}.{}", dimensions.line,
dimensions.column));
}
}
void Window::compute_display_setup(const Context& context)
{
DisplayCoord offset = options()["scrolloff"].get<DisplayCoord>();
offset.line = std::min(offset.line, (m_dimensions.line + 1) / 2);
offset.column = std::min(offset.column, (m_dimensions.column + 1) / 2);
const int tabstop = context.options()["tabstop"].get<int>();
const auto& cursor = context.selections().main().cursor();
// Ensure cursor line is visible
if (cursor.line - offset.line < m_position.line)
m_position.line = std::max(0_line, cursor.line - offset.line);
if (cursor.line + offset.line >= m_position.line + m_dimensions.line)
m_position.line = std::min(buffer().line_count()-1, cursor.line + offset.line - m_dimensions.line + 1);
DisplaySetup setup{
m_position,
m_dimensions,
{cursor.line - m_position.line,
get_column(buffer(), tabstop, cursor) - m_position.column},
offset
};
for (auto pass : { HighlightPass::Move, HighlightPass::Wrap })
m_highlighters.compute_display_setup(context, pass, setup);
for (auto pass : { HighlightPass::Move, HighlightPass::Wrap })
m_builtin_highlighters.compute_display_setup(context, pass, setup);
// now ensure the cursor column is visible
{
auto underflow = setup.cursor_pos.column - setup.scroll_offset.column;
if (underflow < 0)
{
setup.window_pos.column += underflow;
setup.cursor_pos.column -= underflow;
}
auto overflow = setup.cursor_pos.column + setup.scroll_offset.column - setup.window_range.column + 1;
if (overflow > 0)
{
setup.window_pos.column += overflow;
setup.cursor_pos.column -= overflow;
}
}
m_position = setup.window_pos;
m_range = setup.window_range;
}
namespace
{
ColumnCount find_display_column(const DisplayLine& line, const Buffer& buffer,
BufferCoord coord)
{
ColumnCount column = 0;
for (auto& atom : line)
{
if (atom.has_buffer_range() and
coord >= atom.begin() and coord < atom.end())
{
if (atom.type() == DisplayAtom::Range)
column += column_length(buffer, atom.begin(), coord);
return column;
}
column += atom.length();
}
return column;
}
BufferCoord find_buffer_coord(const DisplayLine& line, const Buffer& buffer,
ColumnCount column)
{
auto& range = line.range();
for (auto& atom : line)
{
ColumnCount len = atom.length();
if (atom.has_buffer_range() and column < len)
{
if (atom.type() == DisplayAtom::Range)
return buffer.clamp(
utf8::advance(buffer.iterator_at(atom.begin()),
buffer.iterator_at(range.end),
std::max(0_col, column)).coord());
return buffer.clamp(atom.begin());
}
column -= len;
}
return buffer.clamp(buffer.prev(range.end));
}
}
DisplayCoord Window::display_position(BufferCoord coord) const
{
LineCount l = 0;
for (auto& line : m_display_buffer.lines())
{
auto& range = line.range();
if (range.begin <= coord and coord < range.end)
return {l, find_display_column(line, buffer(), coord)};
++l;
}
return { 0, 0 };
}
BufferCoord Window::buffer_coord(DisplayCoord coord) const
{
if (m_display_buffer.lines().empty())
return {0,0};
if (coord <= 0_line)
coord = {0,0};
if ((size_t)coord.line >= m_display_buffer.lines().size())
coord = DisplayCoord{(int)m_display_buffer.lines().size()-1, INT_MAX};
return find_buffer_coord(m_display_buffer.lines()[(int)coord.line],
buffer(), coord.column);
}
void Window::clear_display_buffer()
{
m_display_buffer = DisplayBuffer{};
}
void Window::on_option_changed(const Option& option)
{
run_hook_in_own_context("WinSetOption", format("{}={}", option.name(),
option.get_as_string()));
// an highlighter might depend on the option, so we need to redraw
force_redraw();
}
void Window::run_hook_in_own_context(StringView hook_name, StringView param,
String client_name)
{
if (m_buffer->flags() & Buffer::Flags::NoHooks)
return;
InputHandler hook_handler{{ *m_buffer, Selection{} },
Context::Flags::Transient,
std::move(client_name)};
hook_handler.context().set_window(*this);
if (m_client)
hook_handler.context().set_client(*m_client);
hooks().run_hook(hook_name, param, hook_handler.context());
}
}