-- some constants people might like to tweak
Text_color = {r=0, g=0, b=0}
Cursor_color = {r=1, g=0, b=0}
Hyperlink_decoration_color = {r=0.4, g=0.4, b=1}
Stroke_color = {r=0, g=0, b=0}
Current_stroke_color = {r=0.7, g=0.7, b=0.7} -- in process of being drawn
Current_name_background_color = {r=1, g=0, b=0, a=0.1} -- name currently being edited
Focus_stroke_color = {r=1, g=0, b=0} -- what mouse is hovering over
Highlight_color = {r=0.7, g=0.7, b=0.9} -- selected text
Icon_color = {r=0.7, g=0.7, b=0.7} -- color of current mode icon in drawings
Help_color = {r=0, g=0.5, b=0}
Help_background_color = {r=0, g=0.5, b=0, a=0.1}
Margin_top = 15
Margin_left = 25
Margin_right = 25
Drawing_padding_top = 10
Drawing_padding_bottom = 10
Drawing_padding_height = Drawing_padding_top + Drawing_padding_bottom
Same_point_distance = 4 -- pixel distance at which two points are considered the same
edit = {}
-- run in both tests and a real run
function edit.initialize_state(top, left, right, font_height, line_height) -- currently always draws to bottom of screen
local result = {
-- a line is either text or a drawing
-- a text is a table with:
-- mode = 'text',
-- string data,
-- a drawing is a table with:
-- mode = 'drawing'
-- a (y) coord in pixels (updated while painting screen),
-- a (h)eight,
-- an array of points, and
-- an array of shapes
-- a shape is a table containing:
-- a mode
-- an array points for mode 'freehand' (raw x,y coords; freehand drawings don't pollute the points array of a drawing)
-- an array vertices for mode 'polygon', 'rectangle', 'square'
-- p1, p2 for mode 'line'
-- center, radius for mode 'circle'
-- center, radius, start_angle, end_angle for mode 'arc'
-- Unless otherwise specified, coord fields are normalized; a drawing is always 256 units wide
-- The field names are carefully chosen so that switching modes in midstream
-- remembers previously entered points where that makes sense.
lines = {{mode='text', data=''}}, -- array of lines
-- Lines can be too long to fit on screen, in which case they _wrap_ into
-- multiple _screen lines_.
-- rendering wrapped text lines needs some additional short-lived data per line:
-- startpos, the index of data the line starts rendering from, can only be >1 for topmost line on screen
-- starty, the y coord in pixels the line starts rendering from
-- fragments: snippets of rendered love.graphics.Text, guaranteed to not straddle screen lines
-- screen_line_starting_pos: optional array of grapheme indices if it wraps over more than one screen line
line_cache = {},
-- Given wrapping, any potential location for the text cursor can be described in two ways:
-- * schema 1: As a combination of line index and position within a line (in utf8 codepoint units)
-- * schema 2: As a combination of line index, screen line index within the line, and a position within the screen line.
--
-- Most of the time we'll only persist positions in schema 1, translating to
-- schema 2 when that's convenient.
--
-- Make sure these coordinates are never aliased, so that changing one causes
-- action at a distance.
screen_top1 = {line=1, pos=1}, -- position of start of screen line at top of screen
cursor1 = {line=1, pos=1}, -- position of cursor
screen_bottom1 = {line=1, pos=1}, -- position of start of screen line at bottom of screen
selection1 = {},
-- some extra state to compute selection between mouse press and release
old_cursor1 = nil,
old_selection1 = nil,
mousepress_shift = nil,
-- when selecting text, avoid recomputing some state on every single frame
recent_mouse = {},
-- cursor coordinates in pixels
cursor_x = 0,
cursor_y = 0,
current_drawing_mode = 'line',
previous_drawing_mode = nil, -- extra state for some ephemeral modes like moving/deleting/naming points
font_height = font_height,
line_height = line_height,
em = App.newText(love.graphics.getFont(), 'm'), -- widest possible character width
top = top,
left = math.floor(left),
right = math.floor(right),
width = right-left,
filename = love.filesystem.getSourceBaseDirectory()..'/lines.txt', -- '/' should work even on Windows
next_save = nil,
-- undo
history = {},
next_history = 1,
-- search
search_term = nil,
search_text = nil,
search_backup = nil, -- stuff to restore when cancelling search
}
return result
end -- App.initialize_state
function edit.check_locs(State)
-- if State is inconsistent (i.e. file changed by some other program),
-- throw away all cursor state entirely
if edit.invalid1(State, State.screen_top1)
or edit.invalid1(State, State.cursor1)
or not edit.cursor_on_text(State)
or not Text.le1(State.screen_top1, State.cursor1) then
State.screen_top1 = {line=1, pos=1}
edit.put_cursor_on_first_text_line(State)
end
end
function edit.invalid1(State, loc1)
return loc1.line > #State.lines
or loc1.pos > #State.lines[loc1.line].data
end
function edit.cursor_on_text(State)
return State.cursor1.line <= #State.lines
and State.lines[State.cursor1.line].mode == 'text'
end
function edit.put_cursor_on_first_text_line(State)
for i,line in ipairs(State.lines) do
if line.mode == 'text' then
State.cursor1 = {line=i, pos=1}
break
end
end
end
function edit.draw(State, hide_cursor)
State.button_handlers = {}
App.color(Text_color)
if #State.lines ~= #State.line_cache then
print(('line_cache is out of date; %d when it should be %d'):format(#State.line_cache, #State.lines))
assert(false)
end
if not Text.le1(State.screen_top1, State.cursor1) then
print(State.screen_top1.line, State.screen_top1.pos, State.cursor1.line, State.cursor1.pos)
assert(false)
end
State.cursor_x = nil
State.cursor_y = nil
local y = State.top
--? print('== draw')
for line_index = State.screen_top1.line,#State.lines do
local line = State.lines[line_index]
--? print('draw:', y, line_index, line)
if y + State.line_height > App.screen.height then break end
State.screen_bottom1 = {line=line_index, pos=nil}
if line.mode == 'text' then
--? print('text.draw', y, line_index)
local startpos = 1
if line_index == State.screen_top1.line then
startpos = State.screen_top1.pos
end
if line.data == '' then
-- button to insert new drawing
button(State, 'draw', {x=4,y=y+4, w=12,h=12, color={1,1,0},
icon = icon.insert_drawing,
onpress1 = function()
Drawing.before = snapshot(State, line_index-1, line_index)
table.insert(State.lines, line_index, {mode='drawing', y=y, h=256/2, points={}, shapes={}, pending={}})
table.insert(State.line_cache, line_index, {})
if State.cursor1.line >= line_index then
State.cursor1.line = State.cursor1.line+1
end
schedule_save(State)
record_undo_event(State, {before=Drawing.before, after=snapshot(State, line_index-1, line_index+1)})
end,
})
end
y, State.screen_bottom1.pos = Text.draw(State, line_index, y, startpos, hide_cursor)
y = y + State.line_height
--? print('=> y', y)
elseif line.mode == 'drawing' then
y = y+Drawing_padding_top
Drawing.draw(State, line_index, y)
y = y + Drawing.pixels(line.h, State.width) + Drawing_padding_bottom
else
print(line.mode)
assert(false)
end
end
if State.search_term then
Text.draw_search_bar(State)
end
end
function edit.update(State, dt)
Drawing.update(State, dt)
if State.next_save and State.next_save < Current_time then
save_to_disk(State)
State.next_save = nil
end
end
function schedule_save(State)
if State.next_save == nil then
State.next_save = Current_time + 3 -- short enough that you're likely to still remember what you did
end
end
function edit.quit(State)
-- make sure to save before quitting
if State.next_save then
save_to_disk(State)
-- give some time for the OS to flush everything to disk
love.timer.sleep(0.1)
end
end
function edit.mouse_press(State, x,y, mouse_button)
if State.search_term then return end
--? print('press', State.selection1.line, State.selection1.pos)
if mouse_press_consumed_by_any_button_handler(State, x,y, mouse_button) then
-- press on a button and it returned 'true' to short-circuit
return
end
for line_index,line in ipairs(State.lines) do
if line.mode == 'text' then
if Text.in_line(State, line_index, x,y) then
-- delicate dance between cursor, selection and old cursor/selection
-- scenarios:
-- regular press+release: sets cursor, clears selection
-- shift press+release:
-- sets selection to old cursor if not set otherwise leaves it untouched
-- sets cursor
-- press and hold to start a selection: sets selection on press, cursor on release
-- press and hold, then press shift: ignore shift
-- i.e. mouse_release should never look at shift state
State.old_cursor1 = State.cursor1
State.old_selection1 = State.selection1
State.mousepress_shift = App.shift_down()
State.selection1 = {
line=line_index,
pos=Text.to_pos_on_line(State, line_index, x, y),
}
--? print('selection', State.selection1.line, State.selection1.pos)
break
end
elseif line.mode == 'drawing' then
local line_cache = State.line_cache[line_index]
if Drawing.in_drawing(line, line_cache, x, y, State.left,State.right) then
State.lines.current_drawing_index = line_index
State.lines.current_drawing = line
Drawing.before = snapshot(State, line_index)
Drawing.mouse_press(State, line_index, x,y, mouse_button)
break
end
end
end
end
function edit.mouse_release(State, x,y, mouse_button)
if State.search_term then return end
--? print('release')
if State.lines.current_drawing then
Drawing.mouse_release(State, x,y, mouse_button)
schedule_save(State)
if Drawing.before then
record_undo_event(State, {before=Drawing.before, after=snapshot(State, State.lines.current_drawing_index)})
Drawing.before = nil
end
else
for line_index,line in ipairs(State.lines) do
if line.mode == 'text' then
if Text.in_line(State, line_index, x,y) then
--? print('reset selection')
State.cursor1 = {
line=line_index,
pos=Text.to_pos_on_line(State, line_index, x, y),
}
--? print('cursor', State.cursor1.line, State.cursor1.pos)
if State.mousepress_shift then
if State.old_selection1.line == nil then
State.selection1 = State.old_cursor1
else
State.selection1 = State.old_selection1
end
end
State.old_cursor1, State.old_selection1, State.mousepress_shift = nil
if eq(State.cursor1, State.selection1) then
State.selection1 = {}
end
break
end
end
end
--? print('selection:', State.selection1.line, State.selection1.pos)
end
end
function edit.mouse_wheel_move(State, dx,dy)
if dy > 0 then
State.cursor1 = {line=State.screen_top1.line, pos=State.screen_top1.pos}
for i=1,math.floor(dy) do
Text.up(State)
end
elseif dy < 0 then
State.cursor1 = {line=State.screen_bottom1.line, pos=State.screen_bottom1.pos}
for i=1,math.floor(-dy) do
Text.down(State)
end
end
end
function edit.text_input(State, t)
if State.search_term then
State.search_term = State.search_term..t
State.search_text = nil
Text.search_next(State)
elseif State.current_drawing_mode == 'name' then
local before = snapshot(State, State.lines.current_drawing_index)
local drawing = State.lines.current_drawing
local p = drawing.points[drawing.pending.target_point]
p.name = p.name..t
record_undo_event(State, {before=before, after=snapshot(State, State.lines.current_drawing_index)})
else
local drawing_index, drawing = Drawing.current_drawing(State)
if drawing_index == nil then
for _,line_cache in ipairs(State.line_cache) do line_cache.starty = nil end -- just in case we scroll
Text.text_input(State, t)
end
end
schedule_save(State)
end
function edit.keychord_press(State, chord, key)
if State.selection1.line and
not State.lines.current_drawing and
-- printable character created using shift key => delete selection
-- (we're not creating any ctrl-shift- or alt-shift- combinations using regular/printable keys)
(not App.shift_down() or utf8.len(key) == 1) and
chord ~= 'C-a' and chord ~= 'C-c' and chord ~= 'C-x' and chord ~= 'backspace' and chord ~= 'delete' and chord ~= 'C-z' and not App.is_cursor_movement(chord) then
Text.delete_selection(State, State.left, State.right)
end
if State.search_term then
for _,line_cache in ipairs(State.line_cache) do line_cache.starty = nil end -- just in case we scroll
if chord == 'escape' then
State.search_term = nil
State.search_text = nil
State.cursor1 = State.search_backup.cursor
State.screen_top1 = State.search_backup.screen_top
State.search_backup = nil
Text.redraw_all(State) -- if we're scrolling, reclaim all fragments to avoid memory leaks
elseif chord == 'return' then
State.search_term = nil
State.search_text = nil
State.search_backup = nil
elseif chord == 'backspace' then
local len = utf8.len(State.search_term)
local byte_offset = Text.offset(State.search_term, len)
State.search_term = string.sub(State.search_term, 1, byte_offset-1)
State.search_text = nil
elseif chord == 'down' then
State.cursor1.pos = State.cursor1.pos+1
Text.search_next(State)
elseif chord == 'up' then
Text.search_previous(State)
end
return
elseif chord == 'C-f' then
State.search_term = ''
State.search_backup = {
cursor={line=State.cursor1.line, pos=State.cursor1.pos},
screen_top={line=State.screen_top1.line, pos=State.screen_top1.pos},
}
assert(State.search_text == nil)
-- zoom
elseif chord == 'C-=' then
edit.update_font_settings(State, State.font_height+2)
Text.redraw_all(State)
elseif chord == 'C--' then
if State.font_height > 2 then
edit.update_font_settings(State, State.font_height-2)
Text.redraw_all(State)
end
elseif chord == 'C-0' then
edit.update_font_settings(State, 20)
Text.redraw_all(State)
-- undo
elseif chord == 'C-z' then
for _,line_cache in ipairs(State.line_cache) do line_cache.starty = nil end -- just in case we scroll
local event = undo_event(State)
if event then
local src = event.before
State.screen_top1 = deepcopy(src.screen_top)
State.cursor1 = deepcopy(src.cursor)
State.selection1 = deepcopy(src.selection)
patch(State.lines, event.after, event.before)
patch_placeholders(State.line_cache, event.after, event.before)
-- invalidate various cached bits of lines
State.lines.current_drawing = nil
-- if we're scrolling, reclaim all fragments to avoid memory leaks
Text.redraw_all(State)
schedule_save(State)
end
elseif chord == 'C-y' then
for _,line_cache in ipairs(State.line_cache) do line_cache.starty = nil end -- just in case we scroll
local event = redo_event(State)
if event then
local src = event.after
State.screen_top1 = deepcopy(src.screen_top)
State.cursor1 = deepcopy(src.cursor)
State.selection1 = deepcopy(src.selection)
patch(State.lines, event.before, event.after)
-- invalidate various cached bits of lines
State.lines.current_drawing = nil
-- if we're scrolling, reclaim all fragments to avoid memory leaks
Text.redraw_all(State)
schedule_save(State)
end
-- clipboard
elseif chord == 'C-a' then
State.selection1 = {line=1, pos=1}
State.cursor1 = {line=#State.lines, pos=utf8.len(State.lines[#State.lines].data)+1}
elseif chord == 'C-c' then
local s = Text.selection(State)
if s then
App.setClipboardText(s)
end
elseif chord == 'C-x' then
for _,line_cache in ipairs(State.line_cache) do line_cache.starty = nil end -- just in case we scroll
local s = Text.cut_selection(State, State.left, State.right)
if s then
App.setClipboardText(s)
end
schedule_save(State)
elseif chord == 'C-v' then
for _,line_cache in ipairs(State.line_cache) do line_cache.starty = nil end -- just in case we scroll
-- We don't have a good sense of when to scroll, so we'll be conservative
-- and sometimes scroll when we didn't quite need to.
local before_line = State.cursor1.line
local before = snapshot(State, before_line)
local clipboard_data = App.getClipboardText()
for _,code in utf8.codes(clipboard_data) do
local c = utf8.char(code)
if c == '\n' then
Text.insert_return(State)
else
Text.insert_at_cursor(State, c)
end
end
if Text.cursor_out_of_screen(State) then
Text.snap_cursor_to_bottom_of_screen(State, State.left, State.right)
end
schedule_save(State)
record_undo_event(State, {before=before, after=snapshot(State, before_line, State.cursor1.line)})
-- dispatch to drawing or text
elseif App.mouse_down(1) or chord:sub(1,2) == 'C-' then
-- DON'T reset line_cache.starty here
local drawing_index, drawing = Drawing.current_drawing(State)
if drawing_index then
local before = snapshot(State, drawing_index)
Drawing.keychord_press(State, chord)
record_undo_event(State, {before=before, after=snapshot(State, drawing_index)})
schedule_save(State)
end
elseif chord == 'escape' and not App.mouse_down(1) then
for _,line in ipairs(State.lines) do
if line.mode == 'drawing' then
line.show_help = false
end
end
elseif State.current_drawing_mode == 'name' then
if chord == 'return' then
State.current_drawing_mode = State.previous_drawing_mode
State.previous_drawing_mode = nil
else
local before = snapshot(State, State.lines.current_drawing_index)
local drawing = State.lines.current_drawing
local p = drawing.points[drawing.pending.target_point]
if chord == 'escape' then
p.name = nil
record_undo_event(State, {before=before, after=snapshot(State, State.lines.current_drawing_index)})
elseif chord == 'backspace' then
local len = utf8.len(p.name)
local byte_offset = Text.offset(p.name, len-1)
if len == 1 then byte_offset = 0 end
p.name = string.sub(p.name, 1, byte_offset)
record_undo_event(State, {before=before, after=snapshot(State, State.lines.current_drawing_index)})
end
end
schedule_save(State)
else
for _,line_cache in ipairs(State.line_cache) do line_cache.starty = nil end -- just in case we scroll
Text.keychord_press(State, chord)
end
end
function edit.key_release(State, key, scancode)
end
function edit.update_font_settings(State, font_height)
State.font_height = font_height
love.graphics.setFont(love.graphics.newFont(State.font_height))
State.line_height = math.floor(font_height*1.3)
State.em = App.newText(love.graphics.getFont(), 'm')
Text_cache = {}
end
--== some methods for tests
-- Insulate tests from some key globals so I don't have to change the vast
-- majority of tests when they're modified for the real app.
Test_margin_left = 25
Test_margin_right = 0
function edit.initialize_test_state()
-- if you change these values, tests will start failing
return edit.initialize_state(
15, -- top margin
Test_margin_left,
App.screen.width - Test_margin_right,
14, -- font height assuming default LÖVE font
15) -- line height
end
-- all text_input events are also keypresses
-- TODO: handle chords of multiple keys
function edit.run_after_text_input(State, t)
edit.keychord_press(State, t)
edit.text_input(State, t)
edit.key_release(State, t)
App.screen.contents = {}
edit.update(State, 0)
edit.draw(State)
end
-- not all keys are text_input
function edit.run_after_keychord(State, chord)
edit.keychord_press(State, chord)
edit.key_release(State, chord)
App.screen.contents = {}
edit.update(State, 0)
edit.draw(State)
end
function edit.run_after_mouse_click(State, x,y, mouse_button)
App.fake_mouse_press(x,y, mouse_button)
edit.mouse_press(State, x,y, mouse_button)
App.fake_mouse_release(x,y, mouse_button)
edit.mouse_release(State, x,y, mouse_button)
App.screen.contents = {}
edit.update(State, 0)
edit.draw(State)
end
function edit.run_after_mouse_press(State, x,y, mouse_button)
App.fake_mouse_press(x,y, mouse_button)
edit.mouse_press(State, x,y, mouse_button)
App.screen.contents = {}
edit.update(State, 0)
edit.draw(State)
end
function edit.run_after_mouse_release(State, x,y, mouse_button)
App.fake_mouse_release(x,y, mouse_button)
edit.mouse_release(State, x,y, mouse_button)
App.screen.contents = {}
edit.update(State, 0)
edit.draw(State)
end