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portapack-mayhem/firmware/application/apps/ui_text_editor.cpp
Kyle Reed 98f3bf151f
Lazy line caching for Notepad (#1042) 
* easier 'now', start adding text editor

* Adding scrolling to notepad

* Better scrolling

* Better scrolling, off-by-1 bugs

* MVP fit and finish

* Add tiny font and use in Notepad

* Font tweaking, tiny font cursor

* Fix warning

* Format changed files

* WIP No file limit

* WIP - adding CircularBuffer type

* WIP Caching

* add  unit test for circular_buffer

* WIP still have a bug when moving cache forward

* Finish lazy line caching

---------

Co-authored-by: kallanreed <kallanreed@outlook.com>
2023-05-22 13:08:59 -07:00

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/*
* Copyright (C) 2023 Kyle Reed
*
* This file is part of PortaPack.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street,
* Boston, MA 02110-1301, USA.
*/
#include "ui_fileman.hpp"
#include "ui_text_editor.hpp"
#include "log_file.hpp"
#include "string_format.hpp"
using namespace portapack;
namespace fs = std::filesystem;
namespace {
template <typename T>
T mid(const T& val1, const T& val2, const T& val3) {
return std::max(val1, std::min(val2, val3));
}
/*void log(const std::string& msg) {
LogFile log{};
log.append("LOGS/Notepad.txt");
log.write_entry(msg);
}*/
} // namespace
namespace ui {
/* FileWrapper ******************************************************/
FileWrapper::FileWrapper() {
}
Optional<FileWrapper::Error> FileWrapper::open(const fs::path& path) {
file_ = File();
auto result = file_.open(path);
if (!result.is_valid()) // No error
initialize();
return result;
}
std::string FileWrapper::get_text(Offset line, Offset col, Offset length) {
// TODO: better way to return errors.
auto range = line_range(line);
int32_t to_read = length;
if (!range.is_valid())
return "[UNCACHED LINE]";
// Don't read past end of line.
if (range->start + col + to_read >= range->end)
to_read = range->end - col - range->start;
if (to_read <= 0)
return {};
return read(range->start + col, to_read);
}
Optional<FileWrapper::Range> FileWrapper::line_range(Line line) {
ensure_cached(line);
auto offset = offset_for_line(line);
if (!offset.is_valid())
return {};
auto start = *offset == 0 ? start_offset_ : (newlines_[*offset - 1] + 1);
auto end = newlines_[*offset] + 1;
return {Range{start, end}};
}
FileWrapper::Offset FileWrapper::line_length(Line line) {
auto range = line_range(line);
if (range.is_valid())
return range->end - range->start;
return 0;
}
void FileWrapper::initialize() {
start_offset_ = 0;
start_line_ = 0;
line_count_ = 0;
newlines_.clear();
line_ending_ = LineEnding::LF;
Offset offset = 0;
auto result = next_newline(offset);
while (result.is_valid()) {
++line_count_;
if (newlines_.size() < max_newlines)
newlines_.push_back(*result);
offset = *result + 1;
result = next_newline(offset);
}
}
std::string FileWrapper::read(Offset offset, Offset length) {
// TODO: better way to return errors.
if (offset + length > file_.size())
return {"[BAD OFFSET]"};
std::string buffer(length, '\0');
file_.seek(offset);
auto result = file_.read(&buffer[0], length);
if (result.is_ok())
buffer.resize(*result);
else
return result.error().what();
return buffer;
}
Optional<FileWrapper::Offset> FileWrapper::offset_for_line(Line line) const {
if (line >= line_count_)
return {};
Offset actual = line - start_line_;
if (actual < newlines_.size()) // NB: underflow wrap.
return {actual};
return {};
}
void FileWrapper::ensure_cached(Line line) {
if (line >= line_count_)
return;
auto result = offset_for_line(line);
if (result.is_valid())
return;
if (line < start_line_) {
while (line < start_line_ && start_offset_ >= 2) {
// start_offset_ - 1 should be a newline. Need to
// find the new value for start_offset_. start_line_
// has to be > 0 to get into this block so there should
// always be one newline before start_offset_.
auto offset = previous_newline(start_offset_ - 2);
newlines_.push_front(start_offset_ - 1);
if (!offset.is_valid()) {
// Must be at beginning.
start_line_ = 0;
start_offset_ = 0;
} else {
// Found an previous newline, the new start_line_
// starts at the newline offset + 1.
start_line_--;
start_offset_ = *offset + 1;
}
}
} else {
while (line >= start_line_ + newlines_.size()) {
auto offset = next_newline(newlines_.back() + 1);
if (offset.is_valid()) {
start_line_++;
start_offset_ = newlines_.front() + 1;
newlines_.push_back(*offset);
} /* else at the EOF. */
}
}
}
Optional<FileWrapper::Offset> FileWrapper::previous_newline(Offset start) {
constexpr size_t buffer_size = 128;
char buffer[buffer_size];
Offset offset = start;
auto to_read = buffer_size;
do {
if (offset < to_read) {
// NB: Char at 'offset' was read in the previous iteration.
to_read = offset;
offset = 0;
} else
offset -= to_read;
file_.seek(offset);
auto result = file_.read(buffer, to_read);
if (result.is_error())
break;
// Find newlines in the buffer backwards.
for (int32_t i = *result - 1; i >= 0; --i) {
switch (buffer[i]) {
case '\n':
return {offset + i};
}
}
if (offset == 0)
break;
} while (true);
return {}; // Didn't find one.
}
Optional<FileWrapper::Offset> FileWrapper::next_newline(Offset start) {
constexpr size_t buffer_size = 128;
char buffer[buffer_size];
Offset offset = start;
// EOF, nothing to do.
if (start >= size())
return {};
file_.seek(offset);
while (true) {
auto result = file_.read(buffer, buffer_size);
if (result.is_error())
return {};
// Find newlines in the buffer.
for (Offset i = 0; i < *result; ++i) {
switch (buffer[i]) {
case '\n':
return {offset + i};
}
}
offset += *result;
if (*result < buffer_size)
break;
}
// Fake a newline at the end for consistency.
return {offset};
}
/* TextEditorView ***************************************************/
TextEditorView::TextEditorView(NavigationView& nav)
: nav_{nav} {
add_children(
{
&button_open,
&text_position,
&text_size,
});
set_focusable(true);
button_open.on_select = [this](Button&) {
auto open_view = nav_.push<FileLoadView>(".TXT");
open_view->on_changed = [this](std::filesystem::path path) {
open_file(path);
};
};
}
void TextEditorView::on_focus() {
refresh_ui();
button_open.focus();
}
void TextEditorView::paint(Painter& painter) {
auto first_line = paint_state_.first_line;
auto first_col = paint_state_.first_col;
if (!paint_state_.has_file)
return;
// Move the viewport vertically.
if (cursor_.line < first_line)
first_line = cursor_.line;
else if (cursor_.line >= first_line + max_line)
first_line = cursor_.line - max_line + 1;
// Move the viewport horizontally.
if (cursor_.col < first_col)
first_col = cursor_.col;
if (cursor_.col >= first_col + max_col)
first_col = cursor_.col - max_col + 1;
// Viewport updated? Redraw text.
if (first_line != paint_state_.first_line ||
first_col != paint_state_.first_col) {
paint_state_.first_line = first_line;
paint_state_.first_col = first_col;
paint_state_.redraw_text = true;
}
if (paint_state_.redraw_text) {
paint_text(painter, first_line, first_col);
paint_state_.redraw_text = false;
}
paint_cursor(painter);
}
bool TextEditorView::on_key(const KeyEvent key) {
int16_t delta_col = 0;
int16_t delta_line = 0;
if (key == KeyEvent::Left)
delta_col = -1;
else if (key == KeyEvent::Right)
delta_col = 1;
else if (key == KeyEvent::Up)
delta_line = -1;
else if (key == KeyEvent::Down)
delta_line = 1;
/* else if (key == KeyEvent::Select)
; // TODO: Edit/Menu */
// Always allow cursor direction to be updated.
cursor_.dir = delta_col != 0 ? ScrollDirection::Horizontal : ScrollDirection::Vertical;
auto updated = apply_scrolling_constraints(delta_line, delta_col);
if (updated)
refresh_ui();
return updated;
}
bool TextEditorView::on_encoder(EncoderEvent delta) {
bool updated = false;
if (cursor_.dir == ScrollDirection::Horizontal)
updated = apply_scrolling_constraints(0, delta);
else
updated = apply_scrolling_constraints(delta, 0);
if (updated)
refresh_ui();
return updated;
}
bool TextEditorView::apply_scrolling_constraints(int16_t delta_line, int16_t delta_col) {
int32_t new_line = cursor_.line + delta_line;
int32_t new_col = cursor_.col + delta_col;
int32_t new_line_length = file_.line_length(new_line);
if (new_col < 0)
--new_line;
else if (new_col >= new_line_length && delta_line == 0) {
// Only wrap if moving horizontally.
new_col = 0;
++new_line;
}
if (new_line < 0 || (uint32_t)new_line >= file_.line_count())
return false;
new_line_length = file_.line_length(new_line);
// TODO: don't wrap with encoder?
// Wrap or clamp column.
if (new_line_length == 0)
new_col = 0;
else if (new_col >= new_line_length || new_col < 0)
new_col = new_line_length - 1;
cursor_.line = new_line;
cursor_.col = new_col;
return true;
}
void TextEditorView::refresh_ui() {
if (paint_state_.has_file) {
text_position.set(
"Ln " + to_string_dec_uint(cursor_.line + 1) +
", Col " + to_string_dec_uint(cursor_.col + 1));
text_size.set(
"Lines:" + to_string_dec_uint(file_.line_count()) +
" (" + to_string_file_size(file_.size()) + ")");
} else {
// if (!button_open.has_focus())
// button_open.focus();
text_position.set("");
text_size.set("");
}
set_dirty();
}
void TextEditorView::open_file(const fs::path& path) {
// TODO: need a temp backing file for edits.
auto result = file_.open(path);
if (result.is_valid())
nav_.display_modal("Read Error", "Cannot open file:\n" + result->what());
paint_state_.has_file = !result.is_valid(); // Has an error.
paint_state_.first_line = 0;
paint_state_.first_col = 0;
cursor_.line = 0;
cursor_.col = 0;
paint_state_.redraw_text = true;
refresh_ui();
}
void TextEditorView::paint_text(Painter& painter, uint32_t line, uint16_t col) {
// TODO: A line cache would use more memory but save a lot of IO.
// Only the new lines/characters would need to be refetched.
auto r = screen_rect();
// Draw the lines from the file
for (auto i = 0u; i < max_line; ++i) {
if (line + i >= file_.line_count())
break;
auto str = file_.get_text(line + i, col, max_col);
// Draw text.
if (str.length() > 0)
painter.draw_string(
{0, r.location().y() + (int)i * char_height},
style_default, str);
// Clear empty line sections.
int32_t clear_width = max_col - str.length();
if (clear_width > 0)
painter.fill_rectangle(
{(max_col - clear_width) * char_width,
r.location().y() + (int)i * char_height,
clear_width * char_width, char_height},
style_default.background);
}
}
void TextEditorView::paint_cursor(Painter& painter) {
auto draw_cursor = [this, &painter](uint32_t line, uint16_t col, Color c) {
auto r = screen_rect();
line = line - paint_state_.first_line;
col = col - paint_state_.first_col;
painter.draw_rectangle(
{(int)col * char_width - 1,
r.location().y() + (int)line * char_height,
char_width + 1, char_height},
c);
};
// TODO: XOR cursor?
// Clear old cursor.
draw_cursor(paint_state_.line, paint_state_.col, style_default.background);
draw_cursor(cursor_.line, cursor_.col, style_default.foreground);
paint_state_.line = cursor_.line;
paint_state_.col = cursor_.col;
}
uint16_t TextEditorView::line_length() {
return file_.line_length(cursor_.line);
}
} // namespace ui
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