mirror of
https://github.com/1j01/textual-paint.git
synced 2024-12-30 18:23:03 +03:00
cb6b4403a3
It took a while to figure out this magic. `textual run --help` says: > If you are running a file and want to pass command line arguments, wrap the > filename and arguments in quotes: > > textual run "foo.py arg --option" But it doesn't describe how to handle those arguments.
1164 lines
47 KiB
Python
1164 lines
47 KiB
Python
import os
|
||
import re
|
||
import sys
|
||
import argparse
|
||
from enum import Enum
|
||
from random import randint, random
|
||
from typing import List, Optional
|
||
import stransi
|
||
from rich.segment import Segment
|
||
from rich.style import Style
|
||
from textual import events
|
||
from textual.message import Message, MessageTarget
|
||
from textual.app import App, ComposeResult
|
||
from textual.containers import Container, Horizontal, Vertical
|
||
from textual.geometry import Offset, Region, Size
|
||
from textual.css.query import NoMatches
|
||
from textual.reactive import var, reactive
|
||
from textual.strip import Strip
|
||
from textual.widget import Widget
|
||
from textual.widgets import Button, Static, Input, DirectoryTree
|
||
from menus import MenuBar, Menu, MenuItem, Separator
|
||
from windows import Window, DialogWindow
|
||
|
||
ascii_only_icons = False
|
||
|
||
class Tool(Enum):
|
||
"""The tools available in the Paint app."""
|
||
free_form_select = 1
|
||
select = 2
|
||
eraser = 3
|
||
fill = 4
|
||
pick_color = 5
|
||
magnifier = 6
|
||
pencil = 7
|
||
brush = 8
|
||
airbrush = 9
|
||
text = 10
|
||
line = 11
|
||
curve = 12
|
||
rectangle = 13
|
||
polygon = 14
|
||
ellipse = 15
|
||
rounded_rectangle = 16
|
||
|
||
def get_icon(self) -> str:
|
||
"""Get the icon for this tool."""
|
||
# Alternatives considered:
|
||
# - Free-Form Select: ✂️📐🆓🕸✨⚝🫥🇫/🇸◌⁛⁘ ⢼⠮
|
||
# - Rectangular Select: ⬚▧🔲 ⣏⣹
|
||
# - Eraser/Color Eraser: 🧼🧽🧹🚫👋🗑️
|
||
# - Fill With Color: 🌊💦💧🌈🎉🎊🪣🫗
|
||
# - Pick Color: 🎨💉💅💧📌📍⤤𝀃🝯🍶
|
||
# - Magnifier: 🔍🔎👀🔬🔭🧐🕵️♂️🕵️♀️
|
||
# - Pencil: ✏️✎✍️🖎🖊️🖋️✒️🖆📝🖍️
|
||
# - Brush: 🖌️🖌👨🎨🧑🎨💅
|
||
# - Airbrush: 💨ᖜ╔🧴🥤🫠
|
||
# - Text: 🆎📝📄📃🔤📜AA
|
||
# - Line: 📏📉📈⟍𝈏╲⧹\⧵∖
|
||
# - Curve: ↪️🪝🌙〰️◡◠~∼≈∽∿〜〰﹋﹏≈≋~⁓
|
||
# - Rectangle: ▭▬▮▯🟥🟧🟨🟩🟦🟪🟫⬛⬜◼️◻️◾◽▪️▫️
|
||
# - Polygon: ▙𝗟𝙇﹄』⬣⬟🔶🔷🔸🔹🔺🔻△▲
|
||
# - Ellipse: ⬭⭕🔴🟠🟡🟢🔵🟣🟤⚫⚪🫧
|
||
# - Rounded Rectangle: ▢⬜⬛
|
||
if ascii_only_icons:
|
||
return {
|
||
Tool.free_form_select: "<[u]^[/]7", # "*" "<^>" "<[u]^[/]7"
|
||
Tool.select: "::", # "#" "::" ":_:" ":[u]:[/]:" ":[u]'[/]:"
|
||
Tool.eraser: "[u]/[/]7", # "47" "27" "/_/" "[u]/[/]7"
|
||
Tool.fill: "[u i]H[/]?", # "#?" "H?" "[u i]F[/]?"
|
||
Tool.pick_color: "[u i] P[/]", # "[u].[/]" "[u i]\\P[/]"
|
||
Tool.magnifier: ",O", # ",O" "o-" "O-" "o=" "O=" "Q"
|
||
Tool.pencil: "-==", # "c==>" "==-"
|
||
Tool.brush: "E)=", # "[u],h.[/u]" "[u],|.[/u]" "[u]h[/u]"
|
||
Tool.airbrush: "[u i]H[/]`<", # "H`" "H`<" "[u i]H[/]`<" "[u i]6[/]<"
|
||
Tool.text: "A", # "Abc"
|
||
Tool.line: "\\",
|
||
Tool.curve: "~", # "~" "S" "s"
|
||
Tool.rectangle: "[_]", # "[]"
|
||
Tool.polygon: "[b]L[/b]", # "L"
|
||
Tool.ellipse: "O", # "()"
|
||
Tool.rounded_rectangle: "(_)",
|
||
}[self]
|
||
return {
|
||
Tool.free_form_select: "⚝",
|
||
Tool.select: "⬚",
|
||
Tool.eraser: "🧼",
|
||
Tool.fill: "🌊", # "🫗" causes jutting out in Ubuntu terminal, "🪣" causes the opposite in VS Code terminal
|
||
Tool.pick_color: "💉",
|
||
Tool.magnifier: "🔍",
|
||
Tool.pencil: "✏️",
|
||
Tool.brush: "🖌️",
|
||
Tool.airbrush: "💨",
|
||
Tool.text: "A",
|
||
Tool.line: "⟍",
|
||
Tool.curve: "~",
|
||
Tool.rectangle: "▭",
|
||
Tool.polygon: "𝙇",
|
||
Tool.ellipse: "⬭",
|
||
Tool.rounded_rectangle: "▢",
|
||
}[self]
|
||
|
||
def get_name(self) -> str:
|
||
"""Get the name of this tool."""
|
||
return {
|
||
Tool.free_form_select: "Free-Form Select",
|
||
Tool.select: "Rectangular Select",
|
||
Tool.eraser: "Eraser/Color Eraser",
|
||
Tool.fill: "Fill With Color",
|
||
Tool.pick_color: "Pick Color",
|
||
Tool.magnifier: "Magnifier",
|
||
Tool.pencil: "Pencil",
|
||
Tool.brush: "Brush",
|
||
Tool.airbrush: "Airbrush",
|
||
Tool.text: "Text",
|
||
Tool.line: "Line",
|
||
Tool.curve: "Curve",
|
||
Tool.rectangle: "Rectangle",
|
||
Tool.polygon: "Polygon",
|
||
Tool.ellipse: "Ellipse",
|
||
Tool.rounded_rectangle: "Rounded Rectangle",
|
||
}[self]
|
||
|
||
|
||
palette = [
|
||
"rgb(0,0,0)", # Black
|
||
"rgb(128,128,128)", # Dark Gray
|
||
"rgb(128,0,0)", # Dark Red
|
||
"rgb(128,128,0)", # Pea Green
|
||
"rgb(0,128,0)", # Dark Green
|
||
"rgb(0,128,128)", # Slate
|
||
"rgb(0,0,128)", # Dark Blue
|
||
"rgb(128,0,128)", # Lavender
|
||
"rgb(128,128,64)",
|
||
"rgb(0,64,64)",
|
||
"rgb(0,128,255)",
|
||
"rgb(0,64,128)",
|
||
"rgb(64,0,255)",
|
||
"rgb(128,64,0)",
|
||
|
||
"rgb(255,255,255)", # White
|
||
"rgb(192,192,192)", # Light Gray
|
||
"rgb(255,0,0)", # Bright Red
|
||
"rgb(255,255,0)", # Yellow
|
||
"rgb(0,255,0)", # Bright Green
|
||
"rgb(0,255,255)", # Cyan
|
||
"rgb(0,0,255)", # Bright Blue
|
||
"rgb(255,0,255)", # Magenta
|
||
"rgb(255,255,128)",
|
||
"rgb(0,255,128)",
|
||
"rgb(128,255,255)",
|
||
"rgb(128,128,255)",
|
||
"rgb(255,0,128)",
|
||
"rgb(255,128,64)",
|
||
]
|
||
|
||
class ToolsBox(Container):
|
||
"""Widget containing tool buttons"""
|
||
|
||
def compose(self) -> ComposeResult:
|
||
"""Add our buttons."""
|
||
with Container(id="tools_box"):
|
||
# tool buttons
|
||
for tool in Tool:
|
||
yield Button(tool.get_icon(), id="tool_button_" + tool.name)
|
||
|
||
class ColorsBox(Container):
|
||
"""Color palette widget."""
|
||
|
||
def compose(self) -> ComposeResult:
|
||
"""Add our selected color and color well buttons."""
|
||
with Container(id="colors_box"):
|
||
with Container(id="selected_colors"):
|
||
yield Static(id="selected_color", classes="color_well")
|
||
with Container(id="available_colors"):
|
||
for color in palette:
|
||
button = Button("", id="color_button_" + color, classes="color_well")
|
||
button.styles.background = color
|
||
yield button
|
||
|
||
|
||
debug_region_updates = False
|
||
|
||
ansi_escape_pattern = re.compile(r"(\N{ESC}\[[\d;]*[a-zA-Z])")
|
||
|
||
class AnsiArtDocument:
|
||
"""A document that can be rendered as ANSI."""
|
||
|
||
def __init__(self, width: int, height: int) -> None:
|
||
"""Initialize the document."""
|
||
self.width = width
|
||
self.height = height
|
||
self.ch = [[" " for _ in range(width)] for _ in range(height)]
|
||
self.bg = [["#ffffff" for _ in range(width)] for _ in range(height)]
|
||
self.fg = [["#000000" for _ in range(width)] for _ in range(height)]
|
||
|
||
def copy_region(self, source, source_region: Region = None, target_region: Region = None):
|
||
if source_region is None:
|
||
source_region = Region(0, 0, source.width, source.height)
|
||
if target_region is None:
|
||
target_region = Region(0, 0, source_region.width, source_region.height)
|
||
source_offset = source_region.offset
|
||
target_offset = target_region.offset
|
||
if debug_region_updates:
|
||
random_color = "rgb(" + str(randint(0, 255)) + "," + str(randint(0, 255)) + "," + str(randint(0, 255)) + ")"
|
||
for y in range(target_region.height):
|
||
for x in range(target_region.width):
|
||
if source_region.contains(x + source_offset.x, y + source_offset.y):
|
||
self.ch[y + target_offset.y][x + target_offset.x] = source.ch[y + source_offset.y][x + source_offset.x]
|
||
self.bg[y + target_offset.y][x + target_offset.x] = source.bg[y + source_offset.y][x + source_offset.x]
|
||
self.fg[y + target_offset.y][x + target_offset.x] = source.fg[y + source_offset.y][x + source_offset.x]
|
||
if debug_region_updates:
|
||
# self.bg[y + target_offset.y][x + target_offset.x] = "rgb(" + str((x + source_offset.x) * 255 // self.width) + "," + str((y + source_offset.y) * 255 // self.height) + ",0)"
|
||
self.bg[y + target_offset.y][x + target_offset.x] = random_color
|
||
else:
|
||
if debug_region_updates:
|
||
self.ch[y + target_offset.y][x + target_offset.x] = "?"
|
||
self.bg[y + target_offset.y][x + target_offset.x] = "#ff00ff"
|
||
self.fg[y + target_offset.y][x + target_offset.x] = "#000000"
|
||
|
||
def get_ansi(self) -> str:
|
||
"""Get the ANSI representation of the document. Untested. This is a freebie from the AI."""
|
||
|
||
def color_to_rgb(color_code: str) -> str:
|
||
"""Convert a color code to the RGB values format used for ANSI escape codes."""
|
||
if color_code.startswith('#'):
|
||
# Convert hex code to RGB values
|
||
color_code = color_code.lstrip('#')
|
||
rgb = tuple(int(color_code[i:i+2], 16) for i in (0, 2, 4))
|
||
elif color_code.startswith('rgb(') and color_code.endswith(')'):
|
||
# Convert "rgb(r,g,b)" style to RGB values
|
||
rgb_str = color_code[4:-1]
|
||
rgb = tuple(int(x.strip()) for x in rgb_str.split(','))
|
||
else:
|
||
raise ValueError("Invalid color code")
|
||
return f"{rgb[0]};{rgb[1]};{rgb[2]}"
|
||
|
||
ansi = ""
|
||
for y in range(self.height):
|
||
for x in range(self.width):
|
||
if x == 0:
|
||
ansi += "\033[0m"
|
||
ansi += "\033[48;2;" + color_to_rgb(self.bg[y][x]) + ";38;2;" + color_to_rgb(self.fg[y][x]) + "m" + self.ch[y][x]
|
||
ansi += "\033[0m\r\n"
|
||
return ansi
|
||
|
||
def get_html(self) -> str:
|
||
"""Get the HTML representation of the document."""
|
||
html = ""
|
||
for y in range(self.height):
|
||
for x in range(self.width):
|
||
html += "<span style='background-color:" + self.bg[y][x] + ";color:" + self.fg[y][x] + "'>" + self.ch[y][x] + "</span>"
|
||
html += "<br>"
|
||
return html
|
||
|
||
@staticmethod
|
||
def from_ascii(text: str) -> 'AnsiArtDocument':
|
||
"""Creates a document from the given ASCII plain text."""
|
||
lines = text.splitlines()
|
||
width = 0
|
||
for line in lines:
|
||
width = max(len(line), width)
|
||
height = len(lines)
|
||
document = AnsiArtDocument(width, height)
|
||
for y, line in enumerate(lines):
|
||
for x, char in enumerate(line):
|
||
document.ch[y][x] = char
|
||
return document
|
||
|
||
@staticmethod
|
||
def from_ansi(text: str) -> 'AnsiArtDocument':
|
||
"""Creates a document from the given ANSI text."""
|
||
ansi = stransi.Ansi(text)
|
||
document = AnsiArtDocument(1, 1)
|
||
width = 1
|
||
height = 1
|
||
|
||
x = 0
|
||
y = 0
|
||
bg_color = "#000000"
|
||
fg_color = "#ffffff"
|
||
for instruction in ansi.instructions():
|
||
if isinstance(instruction, str):
|
||
# Text
|
||
for char in instruction:
|
||
if char == '\r':
|
||
x = 0
|
||
elif char == '\n':
|
||
x = 0
|
||
y += 1
|
||
height = max(y, height)
|
||
if len(document.ch) <= y:
|
||
document.ch.append([])
|
||
document.bg.append([])
|
||
document.fg.append([])
|
||
else:
|
||
x += 1
|
||
width = max(x, width)
|
||
document.ch[y].append(char)
|
||
document.bg[y].append(bg_color)
|
||
document.fg[y].append(fg_color)
|
||
elif isinstance(instruction, stransi.SetColor):
|
||
# Color
|
||
if instruction.role == stransi.color.ColorRole.FOREGROUND:
|
||
rgb = instruction.color.rgb
|
||
fg_color = "rgb(" + str(int(rgb.red * 255)) + "," + str(int(rgb.green * 255)) + "," + str(int(rgb.blue * 255)) + ")"
|
||
elif instruction.role == stransi.color.ColorRole.BACKGROUND:
|
||
rgb = instruction.color.rgb
|
||
bg_color = "rgb(" + str(int(rgb.red * 255)) + "," + str(int(rgb.green * 255)) + "," + str(int(rgb.blue * 255)) + ")"
|
||
elif isinstance(instruction, stransi.SetAttribute):
|
||
# Attribute
|
||
pass
|
||
else:
|
||
raise ValueError("Unknown instruction type")
|
||
document.width = width
|
||
document.height = height
|
||
# Fill in the rest of the lines
|
||
# just using the last color, not sure if that's correct...
|
||
for y in range(document.height):
|
||
for x in range(document.width - len(document.ch[y])):
|
||
document.ch[y].append(' ')
|
||
document.bg[y].append(bg_color)
|
||
document.fg[y].append(fg_color)
|
||
return document
|
||
|
||
@staticmethod
|
||
def from_text(text: str) -> 'AnsiArtDocument':
|
||
"""Creates a document from the given text, detecting if uses ANSI or not."""
|
||
if ansi_escape_pattern.search(text):
|
||
return AnsiArtDocument.from_ansi(text)
|
||
else:
|
||
return AnsiArtDocument.from_ascii(text)
|
||
|
||
class Action:
|
||
"""An action that can be undone efficiently using a region update."""
|
||
|
||
def __init__(self, name, document: AnsiArtDocument, region: Region = None) -> None:
|
||
"""Initialize the action using the document state before modification."""
|
||
if region is None:
|
||
region = Region(0, 0, document.width, document.height)
|
||
self.name = name
|
||
self.region = region
|
||
self.update(document)
|
||
|
||
def update(self, document: AnsiArtDocument) -> None:
|
||
"""Grabs the image data from the current region of the document."""
|
||
if self.region:
|
||
self.sub_image_before = AnsiArtDocument(self.region.width, self.region.height)
|
||
self.sub_image_before.copy_region(document, self.region)
|
||
|
||
def undo(self, target_document: AnsiArtDocument) -> None:
|
||
"""Undo this action. Note that a canvas refresh is not performed here."""
|
||
target_document.copy_region(self.sub_image_before, target_region=self.region)
|
||
|
||
def bresenham_walk(x0: int, y0: int, x1: int, y1: int) -> None:
|
||
"""Bresenham's line algorithm"""
|
||
dx = abs(x1 - x0)
|
||
dy = abs(y1 - y0)
|
||
sx = 1 if x0 < x1 else -1
|
||
sy = 1 if y0 < y1 else -1
|
||
err = dx - dy
|
||
while True:
|
||
yield x0, y0
|
||
if x0 == x1 and y0 == y1:
|
||
break
|
||
e2 = 2 * err
|
||
if e2 > -dy:
|
||
err = err - dy
|
||
x0 = x0 + sx
|
||
if e2 < dx:
|
||
err = err + dx
|
||
y0 = y0 + sy
|
||
|
||
def midpoint_ellipse(xc: int, yc: int, rx: int, ry: int) -> None:
|
||
"""Midpoint ellipse drawing algorithm. Yields points out of order."""
|
||
# Source: https://www.geeksforgeeks.org/midpoint-ellipse-drawing-algorithm/
|
||
|
||
x = 0
|
||
y = ry
|
||
|
||
# Initial decision parameter of region 1
|
||
d1 = ((ry * ry) - (rx * rx * ry) +
|
||
(0.25 * rx * rx))
|
||
dx = 2 * ry * ry * x
|
||
dy = 2 * rx * rx * y
|
||
|
||
# For region 1
|
||
while (dx < dy):
|
||
# Yield points based on 4-way symmetry
|
||
yield x + xc, y + yc
|
||
yield -x + xc, y + yc
|
||
yield x + xc, -y + yc
|
||
yield -x + xc, -y + yc
|
||
|
||
# Checking and updating value of
|
||
# decision parameter based on algorithm
|
||
if (d1 < 0):
|
||
x += 1
|
||
dx = dx + (2 * ry * ry)
|
||
d1 = d1 + dx + (ry * ry)
|
||
else:
|
||
x += 1
|
||
y -= 1
|
||
dx = dx + (2 * ry * ry)
|
||
dy = dy - (2 * rx * rx)
|
||
d1 = d1 + dx - dy + (ry * ry)
|
||
|
||
# Decision parameter of region 2
|
||
d2 = (((ry * ry) * ((x + 0.5) * (x + 0.5))) +
|
||
((rx * rx) * ((y - 1) * (y - 1))) -
|
||
(rx * rx * ry * ry))
|
||
|
||
# Plotting points of region 2
|
||
while (y >= 0):
|
||
# Yielding points based on 4-way symmetry
|
||
yield x + xc, y + yc
|
||
yield -x + xc, y + yc
|
||
yield x + xc, -y + yc
|
||
yield -x + xc, -y + yc
|
||
|
||
# Checking and updating parameter
|
||
# value based on algorithm
|
||
if (d2 > 0):
|
||
y -= 1
|
||
dy = dy - (2 * rx * rx)
|
||
d2 = d2 + (rx * rx) - dy
|
||
else:
|
||
y -= 1
|
||
x += 1
|
||
dx = dx + (2 * ry * ry)
|
||
dy = dy - (2 * rx * rx)
|
||
d2 = d2 + dx - dy + (rx * rx)
|
||
|
||
def flood_fill(document: AnsiArtDocument, x: int, y: int, fill_ch: str, fill_fg: str, fill_bg: str) -> None:
|
||
"""Flood fill algorithm."""
|
||
|
||
# Get the original value of the cell.
|
||
# This is the color to be replaced.
|
||
original_fg = document.fg[y][x]
|
||
original_bg = document.bg[y][x]
|
||
original_ch = document.ch[y][x]
|
||
|
||
# Track the region affected by the fill.
|
||
min_x = x
|
||
min_y = y
|
||
max_x = x
|
||
max_y = y
|
||
|
||
def inside(x: int, y: int) -> bool:
|
||
"""Returns true if the cell at the given coordinates matches the color to be replaced. Treats foreground color as equal if character is a space."""
|
||
if x < 0 or x >= document.width or y < 0 or y >= document.height:
|
||
return False
|
||
return (
|
||
document.ch[y][x] == original_ch and
|
||
document.bg[y][x] == original_bg and
|
||
(original_ch == " " or document.fg[y][x] == original_fg)
|
||
)
|
||
|
||
def set_cell(x: int, y: int) -> None:
|
||
"""Sets the cell at the given coordinates to the fill color, and updates the region bounds."""
|
||
document.ch[y][x] = fill_ch
|
||
document.fg[y][x] = fill_fg
|
||
document.bg[y][x] = fill_bg
|
||
nonlocal min_x, min_y, max_x, max_y
|
||
min_x = min(min_x, x)
|
||
min_y = min(min_y, y)
|
||
max_x = max(max_x, x)
|
||
max_y = max(max_y, y)
|
||
|
||
# Simple translation of the "final, combined-scan-and-fill span filler"
|
||
# pseudo-code from https://en.wikipedia.org/wiki/Flood_fill
|
||
if not inside(x, y):
|
||
return
|
||
stack = [(x, x, y, 1), (x, x, y - 1, -1)]
|
||
while stack:
|
||
x1, x2, y, dy = stack.pop()
|
||
x = x1
|
||
if inside(x, y):
|
||
while inside(x - 1, y):
|
||
set_cell(x - 1, y)
|
||
x = x - 1
|
||
if x < x1:
|
||
stack.append((x, x1-1, y-dy, -dy))
|
||
while x1 <= x2:
|
||
while inside(x1, y):
|
||
set_cell(x1, y)
|
||
x1 = x1 + 1
|
||
stack.append((x, x1 - 1, y+dy, dy))
|
||
if x1 - 1 > x2:
|
||
stack.append((x2 + 1, x1 - 1, y-dy, -dy))
|
||
x1 = x1 + 1
|
||
while x1 < x2 and not inside(x1, y):
|
||
x1 = x1 + 1
|
||
x = x1
|
||
|
||
# Return the affected region.
|
||
return Region(min_x, min_y, max_x - min_x + 1, max_y - min_y + 1)
|
||
|
||
class Canvas(Widget):
|
||
"""The image document widget."""
|
||
|
||
# Is it kosher to include an event in a message?
|
||
# Is it better (and possible) to bubble up the event, even though I'm capturing the mouse?
|
||
# Or would it be better to just have Canvas own duplicate state for all tool parameters?
|
||
# That's what I was refactoring to avoid. So far I've made things more complicated,
|
||
# but I'm betting it will be good when implementing different tools.
|
||
# Maybe the PaintApp widget can capture the mouse events instead?
|
||
# Not sure if that would work as nicely when implementing selections.
|
||
# I'd have to think about it.
|
||
# But it would make the Canvas just be a widget for rendering, which seems good.
|
||
class ToolStart(Message):
|
||
"""Message when starting drawing."""
|
||
|
||
def __init__(self, mouse_down_event: events.MouseDown) -> None:
|
||
self.mouse_down_event = mouse_down_event
|
||
super().__init__()
|
||
|
||
class ToolUpdate(Message):
|
||
"""Message when dragging on the canvas."""
|
||
|
||
def __init__(self, mouse_move_event: events.MouseMove) -> None:
|
||
self.mouse_move_event = mouse_move_event
|
||
super().__init__()
|
||
|
||
class ToolPreviewUpdate(Message):
|
||
"""Message when moving the mouse while the mouse is up."""
|
||
|
||
def __init__(self, mouse_move_event: events.MouseMove) -> None:
|
||
self.mouse_move_event = mouse_move_event
|
||
super().__init__()
|
||
|
||
class ToolPreviewStop(Message):
|
||
"""Message when the mouse leaves the canvas while previewing (not while drawing)."""
|
||
|
||
def __init__(self) -> None:
|
||
super().__init__()
|
||
|
||
def __init__(self, **kwargs) -> None:
|
||
"""Initialize the canvas."""
|
||
super().__init__(**kwargs)
|
||
self.image = None
|
||
self.pointer_active = False
|
||
|
||
def on_mouse_down(self, event) -> None:
|
||
self.post_message(self.ToolStart(event))
|
||
self.pointer_active = True
|
||
self.capture_mouse(True)
|
||
|
||
def on_mouse_move(self, event) -> None:
|
||
# Hack to fix mouse coordinates, not needed for mouse down,
|
||
# or while the mouse is up.
|
||
# This seems like a bug.
|
||
if self.pointer_active:
|
||
event.x += int(self.parent.scroll_x)
|
||
event.y += int(self.parent.scroll_y)
|
||
|
||
if self.pointer_active:
|
||
self.post_message(self.ToolUpdate(event))
|
||
else:
|
||
self.post_message(self.ToolPreviewUpdate(event))
|
||
|
||
def on_mouse_up(self, event) -> None:
|
||
self.pointer_active = False
|
||
self.capture_mouse(False)
|
||
|
||
def on_leave(self, event) -> None:
|
||
if not self.pointer_active:
|
||
self.post_message(self.ToolPreviewStop())
|
||
|
||
def get_content_width(self, container: Size, viewport: Size) -> int:
|
||
return self.image.width
|
||
|
||
def get_content_height(self, container: Size, viewport: Size, width: int) -> int:
|
||
return self.image.height
|
||
|
||
def render_line(self, y: int) -> Strip:
|
||
"""Render a line of the widget. y is relative to the top of the widget."""
|
||
if y >= self.image.height:
|
||
return Strip.blank(self.size.width)
|
||
segments = []
|
||
for x in range(self.image.width):
|
||
bg = self.image.bg[y][x]
|
||
fg = self.image.fg[y][x]
|
||
ch = self.image.ch[y][x]
|
||
segments.append(Segment(ch, Style.parse(fg+" on "+bg)))
|
||
return Strip(segments, self.size.width)
|
||
|
||
|
||
class PaintApp(App):
|
||
"""MS Paint like image editor in the terminal."""
|
||
|
||
CSS_PATH = "paint.css"
|
||
|
||
# These call action_* methods on the widget.
|
||
# They can have parameters, if need be.
|
||
# https://textual.textualize.io/guide/actions/
|
||
BINDINGS = [
|
||
("ctrl+q", "quit", "Quit"),
|
||
("meta+q", "quit", "Quit"),
|
||
("ctrl+s", "save", "Save"),
|
||
("ctrl+shift+s", "save_as", "Save As"),
|
||
("ctrl+o", "open", "Open"),
|
||
("ctrl+n", "new", "New"),
|
||
# ("ctrl+shift+n", "clear_image", "Clear Image"),
|
||
("ctrl+t", "toggle_tools_box", "Toggle Tools Box"),
|
||
("ctrl+w", "toggle_colors_box", "Toggle Colors Box"),
|
||
("ctrl+z", "undo", "Undo"),
|
||
# Ctrl+Shift+Z doesn't seem to work on Ubuntu or VS Code terminal
|
||
("ctrl+shift+z", "redo", "Redo"),
|
||
("shift+ctrl+z", "redo", "Redo"),
|
||
("ctrl+y", "redo", "Redo"),
|
||
("f4", "redo", "Redo"),
|
||
# action_toggle_dark is built in to App
|
||
("ctrl+d", "toggle_dark", "Toggle Dark Mode"),
|
||
]
|
||
|
||
show_tools_box = var(True)
|
||
show_colors_box = var(True)
|
||
selected_tool = var(Tool.pencil)
|
||
selected_color = var(palette[0])
|
||
selected_char = var(" ")
|
||
filename = var(None)
|
||
image = var(None)
|
||
|
||
undos: List[Action] = []
|
||
redos: List[Action] = []
|
||
preview_action: Optional[Action] = None
|
||
|
||
NAME_MAP = {
|
||
# key to button id
|
||
}
|
||
|
||
def watch_show_tools_box(self, show_tools_box: bool) -> None:
|
||
"""Called when show_tools_box changes."""
|
||
self.query_one("#tools_box").display = show_tools_box
|
||
if self.has_class("show_tools_box"):
|
||
self.remove_class("show_tools_box")
|
||
else:
|
||
self.add_class("show_tools_box")
|
||
|
||
def watch_show_colors_box(self, show_colors_box: bool) -> None:
|
||
"""Called when show_colors_box changes."""
|
||
self.query_one("#colors_box").display = show_colors_box
|
||
if self.has_class("show_colors_box"):
|
||
self.remove_class("show_colors_box")
|
||
else:
|
||
self.add_class("show_colors_box")
|
||
|
||
def watch_selected_tool(self, old_selected_tool: Tool, selected_tool: Tool) -> None:
|
||
"""Called when selected_tool changes."""
|
||
self.query_one("#tool_button_" + old_selected_tool.name).remove_class("selected")
|
||
self.query_one("#tool_button_" + selected_tool.name).add_class("selected")
|
||
|
||
def watch_selected_color(self, old_selected_color: str, selected_color: str) -> None:
|
||
"""Called when selected_color changes."""
|
||
self.query_one("#selected_color").styles.background = selected_color
|
||
|
||
def stamp_brush(self, x: int, y: int, affected_region_base: Region = None) -> Region:
|
||
brush_diameter = 1
|
||
if self.selected_tool == Tool.brush or self.selected_tool == Tool.airbrush or self.selected_tool == Tool.eraser:
|
||
brush_diameter = 3
|
||
if brush_diameter == 1:
|
||
self.stamp_char(x, y)
|
||
else:
|
||
# plot points within a circle
|
||
for i in range(brush_diameter):
|
||
for j in range(brush_diameter):
|
||
if (i - brush_diameter // 2) ** 2 + (j - brush_diameter // 2) ** 2 <= (brush_diameter // 2) ** 2:
|
||
self.stamp_char(x + i - brush_diameter // 2, y + j - brush_diameter // 2)
|
||
# expand the affected region to include the brush
|
||
brush_diameter += 2 # safety margin
|
||
affected_region = Region(x - brush_diameter // 2, y - brush_diameter // 2, brush_diameter, brush_diameter)
|
||
if affected_region_base:
|
||
return affected_region_base.union(affected_region)
|
||
else:
|
||
return affected_region
|
||
|
||
def stamp_char(self, x: int, y: int) -> None:
|
||
char = self.selected_char
|
||
color = self.selected_color
|
||
if self.selected_tool == Tool.eraser:
|
||
char = " "
|
||
color = "#ffffff"
|
||
if self.selected_tool == Tool.airbrush:
|
||
if random() < 0.7:
|
||
return
|
||
if x < self.image.width and y < self.image.height and x >= 0 and y >= 0:
|
||
self.image.ch[y][x] = char
|
||
self.image.bg[y][x] = color
|
||
|
||
def action_undo(self) -> None:
|
||
if len(self.undos) > 0:
|
||
self.cancel_preview()
|
||
action = self.undos.pop()
|
||
redo_action = Action("Undo " + action.name, self.image, action.region)
|
||
action.undo(self.image)
|
||
self.redos.append(redo_action)
|
||
self.canvas.refresh()
|
||
|
||
def action_redo(self) -> None:
|
||
if len(self.redos) > 0:
|
||
self.cancel_preview()
|
||
action = self.redos.pop()
|
||
undo_action = Action("Undo " + action.name, self.image, action.region)
|
||
action.undo(self.image)
|
||
self.undos.append(undo_action)
|
||
self.canvas.refresh()
|
||
|
||
def action_save(self) -> None:
|
||
"""Save the image to a file."""
|
||
self.cancel_preview()
|
||
if self.filename:
|
||
ansi = self.image.get_ansi()
|
||
with open(self.filename, "w") as f:
|
||
f.write(ansi)
|
||
else:
|
||
self.action_save_as()
|
||
|
||
def action_save_as(self) -> None:
|
||
"""Save the image as a new file."""
|
||
for old_window in self.query("#save_as_dialog, #open_dialog").nodes:
|
||
old_window.close()
|
||
|
||
def on_submit():
|
||
name = self.query_one("#save_as_dialog_filename_input", Input).value
|
||
if name:
|
||
if self.directory_tree_selected_path:
|
||
name = os.path.join(self.directory_tree_selected_path, name)
|
||
def on_save_confirmed():
|
||
self.filename = name
|
||
self.action_save()
|
||
window.close()
|
||
if os.path.exists(name):
|
||
self.confirm_overwrite(name, on_save_confirmed)
|
||
else:
|
||
on_save_confirmed()
|
||
|
||
window = DialogWindow(
|
||
classes="dialog",
|
||
id="save_as_dialog",
|
||
title="Save As",
|
||
on_submit=on_submit,
|
||
)
|
||
window.content.mount(
|
||
DirectoryTree(id="save_as_dialog_directory_tree", path="/"),
|
||
Input(id="save_as_dialog_filename_input", placeholder="Filename"),
|
||
Button("Save", classes="dialog_window_submit", variant="primary"),
|
||
Button("Cancel", classes="dialog_window_cancel"),
|
||
)
|
||
self.mount(window)
|
||
self.expand_directory_tree(window.content.query_one("#save_as_dialog_directory_tree"))
|
||
|
||
def expand_directory_tree(self, tree: DirectoryTree) -> None:
|
||
"""Expand the directory tree to the target directory, either the folder of the open file or the current working directory."""
|
||
# TODO: os.path.normcase, and maybe os.path.samefile check
|
||
target_dir = (self.filename or os.getcwd()).rstrip(os.path.sep)
|
||
node = tree.root
|
||
def get_node_name(node):
|
||
return os.path.basename(node.data.path.rstrip(os.path.sep))
|
||
for dir_name in target_dir.split(os.path.sep):
|
||
# Find the child node with the right name.
|
||
for child in node.children:
|
||
if get_node_name(child) == dir_name:
|
||
node = child
|
||
break
|
||
if get_node_name(node) == dir_name:
|
||
if node.data.is_dir:
|
||
if not node.is_expanded and not node.data.loaded:
|
||
# load_directory also calls node.expand()
|
||
tree.load_directory(node)
|
||
else:
|
||
# Found a file.
|
||
break
|
||
else:
|
||
# Directory or file not found.
|
||
break
|
||
# Timer is needed to wait for the new nodes to mount, I think.
|
||
# tree.select_node(node)
|
||
self.set_timer(0.01, lambda: tree.select_node(node))
|
||
# widget.scroll_to_region supports a `top` argument,
|
||
# but tree.scroll_to_node doesn't.
|
||
# A simple workaround is to scroll to the bottom first.
|
||
# tree.scroll_to_line(tree.last_line)
|
||
# tree.scroll_to_node(node)
|
||
# That would work if scroll_to_node and scroll_to_line didn't animate,
|
||
# but the animations conflicts with each other and it ends up in the wrong spot.
|
||
# They don't support widget.scroll_to_region's `animate` argument either.
|
||
# Oh but I can use scroll_visible instead.
|
||
# node.scroll_visible(animate=False, top=True)
|
||
# That is, if node was a widget!
|
||
# Ugh. OK, I'm going to use some internals, and replicate how scroll_to_node works.
|
||
# tree.scroll_to_region(tree._get_label_region(node._line), animate=False, top=True)
|
||
# Timer is needed to wait for the new nodes to mount, I think.
|
||
self.set_timer(0.01, lambda: tree.scroll_to_region(tree._get_label_region(node._line), animate=False, top=True))
|
||
|
||
def confirm_overwrite(self, filename: str, callback) -> None:
|
||
for old_window in self.query("#overwrite_dialog").nodes:
|
||
old_window.close()
|
||
|
||
self.bell()
|
||
|
||
def on_submit():
|
||
callback()
|
||
window.close()
|
||
|
||
window = DialogWindow(
|
||
classes="dialog",
|
||
id="overwrite_dialog",
|
||
title="Save As",
|
||
on_submit=on_submit,
|
||
)
|
||
window.content.mount(
|
||
Horizontal(
|
||
Static("""[#ffff00]
|
||
_
|
||
/ \\
|
||
/ | \\
|
||
/ . \\
|
||
/_______\\
|
||
[/]""", classes="warning_icon"),
|
||
Vertical(
|
||
Static(filename + " already exists.", markup=False),
|
||
Static("Do you want to replace it?"),
|
||
Horizontal(
|
||
Button("Yes", classes="dialog_window_submit"),
|
||
Button("No", classes="dialog_window_cancel"),
|
||
),
|
||
classes="main_content"
|
||
)
|
||
)
|
||
)
|
||
self.mount(window)
|
||
|
||
def action_open(self) -> None:
|
||
"""Open an image from a file."""
|
||
|
||
def open_clicked():
|
||
filename = window.content.query_one("#open_dialog_filename_input").value
|
||
if self.directory_tree_selected_path:
|
||
filename = os.path.join(self.directory_tree_selected_path, filename)
|
||
if filename:
|
||
with open(filename, "r") as f:
|
||
self.action_new()
|
||
self.image = AnsiArtDocument.from_ansi(f.read())
|
||
self.canvas.image = self.image
|
||
self.canvas.refresh()
|
||
self.filename = filename
|
||
window.close()
|
||
|
||
for old_window in self.query("#save_as_dialog, #open_dialog").nodes:
|
||
old_window.close()
|
||
window = DialogWindow(
|
||
classes="dialog",
|
||
id="open_dialog",
|
||
title="Open",
|
||
on_submit=open_clicked,
|
||
)
|
||
window.content.mount(
|
||
DirectoryTree(id="open_dialog_directory_tree", path="/"),
|
||
Input(id="open_dialog_filename_input", placeholder="Filename"),
|
||
Button("Open", classes="dialog_window_submit", variant="primary"),
|
||
Button("Cancel", classes="dialog_window_cancel"),
|
||
)
|
||
self.mount(window)
|
||
self.expand_directory_tree(window.content.query_one("#open_dialog_directory_tree"))
|
||
|
||
def action_new(self) -> None:
|
||
"""Create a new image."""
|
||
# TODO: prompt to save if there are unsaved changes
|
||
self.image = AnsiArtDocument(80, 24)
|
||
self.canvas.image = self.image
|
||
self.canvas.refresh()
|
||
self.filename = None
|
||
self.undos = []
|
||
self.redos = []
|
||
self.preview_action = None
|
||
# Following MS Paint's lead and resetting the color (but not the tool.)
|
||
# It probably has to do with color modes.
|
||
self.selected_color = palette[0]
|
||
self.selected_char = " "
|
||
|
||
def compose(self) -> ComposeResult:
|
||
"""Add our widgets."""
|
||
with Container(id="paint"):
|
||
yield MenuBar([
|
||
MenuItem("File", submenu=Menu([
|
||
MenuItem("New", self.action_new),
|
||
MenuItem("Open", self.action_open),
|
||
MenuItem("Save", self.action_save),
|
||
MenuItem("Save As", self.action_save_as),
|
||
# self.action_quit doesn't work, even though it seems to just call self.exit?
|
||
# action_quit is async, whereas exit is not. Is that somehow causing the problem?
|
||
# At any rate, exit works fine.
|
||
MenuItem("Exit", self.exit),
|
||
])),
|
||
MenuItem("Edit", submenu=Menu([
|
||
MenuItem("Undo", self.action_undo),
|
||
MenuItem("Redo", self.action_redo),
|
||
])),
|
||
MenuItem("View", submenu=Menu([
|
||
MenuItem("Tool Box", self.action_toggle_tools_box),
|
||
MenuItem("Color Box", self.action_toggle_colors_box),
|
||
])),
|
||
MenuItem("Image"),
|
||
MenuItem("Colors"),
|
||
MenuItem("Help"),
|
||
])
|
||
yield Container(
|
||
ToolsBox(),
|
||
Container(
|
||
Canvas(id="canvas"),
|
||
id="editing-area",
|
||
),
|
||
id="main-horizontal-split",
|
||
)
|
||
yield ColorsBox()
|
||
|
||
def on_mount(self) -> None:
|
||
"""Called when the app is mounted."""
|
||
# Image can be set from the outside, via CLI
|
||
if self.image is None:
|
||
self.image = AnsiArtDocument(80, 24)
|
||
self.canvas = self.query_one("#canvas")
|
||
self.canvas.image = self.image
|
||
|
||
def pick_color(self, x: int, y: int) -> None:
|
||
"""Select a color from the image."""
|
||
self.selected_color = self.image.bg[y][x]
|
||
self.selected_char = self.image.ch[y][x]
|
||
|
||
def on_canvas_tool_start(self, event: Canvas.ToolStart) -> None:
|
||
"""Called when the user starts drawing on the canvas."""
|
||
event.stop()
|
||
self.cancel_preview()
|
||
|
||
if self.selected_tool == Tool.pick_color:
|
||
self.pick_color(event.mouse_down_event.x, event.mouse_down_event.y)
|
||
return
|
||
|
||
if self.selected_tool in [Tool.free_form_select, Tool.select, Tool.magnifier, Tool.text, Tool.curve, Tool.polygon]:
|
||
self.selected_tool = Tool.pencil
|
||
# TODO: support other tools
|
||
self.image_at_start = AnsiArtDocument(self.image.width, self.image.height)
|
||
self.image_at_start.copy_region(self.image)
|
||
self.mouse_at_start = (event.mouse_down_event.x, event.mouse_down_event.y)
|
||
if len(self.redos) > 0:
|
||
self.redos = []
|
||
action = Action(self.selected_tool.get_name(), self.image)
|
||
self.undos.append(action)
|
||
|
||
affected_region = None
|
||
if self.selected_tool == Tool.pencil or self.selected_tool == Tool.brush:
|
||
affected_region = self.stamp_brush(event.mouse_down_event.x, event.mouse_down_event.y)
|
||
elif self.selected_tool == Tool.fill:
|
||
affected_region = flood_fill(self.image, event.mouse_down_event.x, event.mouse_down_event.y, self.selected_char, "#ffffff", self.selected_color)
|
||
|
||
if affected_region:
|
||
action.region = affected_region
|
||
action.region = action.region.intersection(Region(0, 0, self.image.width, self.image.height))
|
||
action.update(self.image_at_start)
|
||
self.canvas.refresh(affected_region)
|
||
|
||
def cancel_preview(self) -> None:
|
||
"""Revert the currently previewed action."""
|
||
if self.preview_action:
|
||
self.preview_action.undo(self.image)
|
||
self.canvas.refresh(self.preview_action.region)
|
||
self.preview_action = None
|
||
|
||
def on_canvas_tool_preview_update(self, event: Canvas.ToolPreviewUpdate) -> None:
|
||
"""Called when the user is hovering over the canvas but not drawing yet."""
|
||
event.stop()
|
||
self.cancel_preview()
|
||
|
||
if self.selected_tool in [Tool.brush, Tool.pencil, Tool.eraser]:
|
||
image_before = AnsiArtDocument(self.image.width, self.image.height)
|
||
image_before.copy_region(self.image)
|
||
affected_region = self.stamp_brush(event.mouse_move_event.x, event.mouse_move_event.y)
|
||
if affected_region:
|
||
self.preview_action = Action(self.selected_tool.get_name(), self.image)
|
||
self.preview_action.region = affected_region.intersection(Region(0, 0, self.image.width, self.image.height))
|
||
self.preview_action.update(image_before)
|
||
self.canvas.refresh(affected_region)
|
||
|
||
def on_canvas_tool_preview_stop(self, event: Canvas.ToolPreviewStop) -> None:
|
||
"""Called when the user stops hovering over the canvas (while previewing, not drawing)."""
|
||
event.stop()
|
||
self.cancel_preview()
|
||
|
||
def on_canvas_tool_update(self, event: Canvas.ToolUpdate) -> None:
|
||
"""Called when the user is drawing on the canvas."""
|
||
event.stop()
|
||
self.cancel_preview()
|
||
|
||
if self.selected_tool == Tool.pick_color:
|
||
self.pick_color(event.mouse_move_event.x, event.mouse_move_event.y)
|
||
return
|
||
|
||
if self.selected_tool in [Tool.fill, Tool.magnifier]:
|
||
return
|
||
|
||
if len(self.undos) == 0:
|
||
# This can happen if you undo while drawing.
|
||
# Ideally we'd stop getting events in this case.
|
||
# This might be buggy if there were multiple undos.
|
||
# It might replace the action instead of doing nothing.
|
||
return
|
||
|
||
mm = event.mouse_move_event
|
||
action = self.undos[-1]
|
||
affected_region = None
|
||
|
||
replace_action = self.selected_tool in [Tool.ellipse, Tool.rectangle, Tool.line, Tool.rounded_rectangle]
|
||
if replace_action:
|
||
old_action = self.undos.pop()
|
||
old_action.undo(self.image)
|
||
action = Action(self.selected_tool.get_name(), self.image, affected_region)
|
||
self.undos.append(action)
|
||
|
||
if self.selected_tool == Tool.pencil or self.selected_tool == Tool.brush or self.selected_tool == Tool.eraser or self.selected_tool == Tool.airbrush:
|
||
for x, y in bresenham_walk(mm.x - mm.delta_x, mm.y - mm.delta_y, mm.x, mm.y):
|
||
affected_region = self.stamp_brush(x, y, affected_region)
|
||
elif self.selected_tool == Tool.line:
|
||
for x, y in bresenham_walk(self.mouse_at_start[0], self.mouse_at_start[1], mm.x, mm.y):
|
||
affected_region = self.stamp_brush(x, y, affected_region)
|
||
elif self.selected_tool == Tool.rectangle:
|
||
for x in range(min(self.mouse_at_start[0], mm.x), max(self.mouse_at_start[0], mm.x) + 1):
|
||
for y in range(min(self.mouse_at_start[1], mm.y), max(self.mouse_at_start[1], mm.y) + 1):
|
||
if x in range(min(self.mouse_at_start[0], mm.x) + 1, max(self.mouse_at_start[0], mm.x)) and y in range(min(self.mouse_at_start[1], mm.y) + 1, max(self.mouse_at_start[1], mm.y)):
|
||
continue
|
||
affected_region = self.stamp_brush(x, y, affected_region)
|
||
elif self.selected_tool == Tool.rounded_rectangle:
|
||
arc_radius = min(2, abs(self.mouse_at_start[0] - mm.x) // 2, abs(self.mouse_at_start[1] - mm.y) // 2)
|
||
min_x = min(self.mouse_at_start[0], mm.x)
|
||
max_x = max(self.mouse_at_start[0], mm.x)
|
||
min_y = min(self.mouse_at_start[1], mm.y)
|
||
max_y = max(self.mouse_at_start[1], mm.y)
|
||
for x, y in midpoint_ellipse(0, 0, arc_radius, arc_radius):
|
||
if x < 0:
|
||
x = min_x + x + arc_radius
|
||
else:
|
||
x = max_x + x - arc_radius
|
||
if y < 0:
|
||
y = min_y + y + arc_radius
|
||
else:
|
||
y = max_y + y - arc_radius
|
||
affected_region = self.stamp_brush(x, y, affected_region)
|
||
for x in range(min_x + arc_radius, max_x - arc_radius + 1):
|
||
affected_region = self.stamp_brush(x, min_y, affected_region)
|
||
affected_region = self.stamp_brush(x, max_y, affected_region)
|
||
for y in range(min_y + arc_radius, max_y - arc_radius + 1):
|
||
affected_region = self.stamp_brush(min_x, y, affected_region)
|
||
affected_region = self.stamp_brush(max_x, y, affected_region)
|
||
elif self.selected_tool == Tool.ellipse:
|
||
center_x = (self.mouse_at_start[0] + mm.x) // 2
|
||
center_y = (self.mouse_at_start[1] + mm.y) // 2
|
||
radius_x = abs(self.mouse_at_start[0] - mm.x) // 2
|
||
radius_y = abs(self.mouse_at_start[1] - mm.y) // 2
|
||
for x, y in midpoint_ellipse(center_x, center_y, radius_x, radius_y):
|
||
affected_region = self.stamp_brush(x, y, affected_region)
|
||
else:
|
||
raise NotImplementedError
|
||
|
||
# Update action region and image data
|
||
if action.region and affected_region:
|
||
action.region = action.region.union(affected_region)
|
||
elif affected_region:
|
||
action.region = affected_region
|
||
if action.region:
|
||
action.region = action.region.intersection(Region(0, 0, self.image.width, self.image.height))
|
||
action.update(self.image_at_start)
|
||
|
||
# Only for refreshing, include replaced action region
|
||
# (The new action is allowed to shrink the region compared to the old one)
|
||
if affected_region:
|
||
if replace_action:
|
||
affected_region = affected_region.union(old_action.region)
|
||
self.canvas.refresh(affected_region)
|
||
|
||
def on_key(self, event: events.Key) -> None:
|
||
"""Called when the user presses a key."""
|
||
|
||
def press(button_id: str) -> None:
|
||
try:
|
||
self.query_one(f"#{button_id}", Button).press()
|
||
except NoMatches:
|
||
pass
|
||
|
||
key = event.key
|
||
|
||
button_id = self.NAME_MAP.get(key)
|
||
if button_id is not None:
|
||
press(self.NAME_MAP.get(key, key))
|
||
|
||
def action_toggle_tools_box(self) -> None:
|
||
self.show_tools_box = not self.show_tools_box
|
||
|
||
def action_toggle_colors_box(self) -> None:
|
||
self.show_colors_box = not self.show_colors_box
|
||
|
||
def on_button_pressed(self, event: Button.Pressed) -> None:
|
||
"""Called when a button is clicked or activated with the keyboard."""
|
||
|
||
button_id = event.button.id
|
||
# button_classes = event.button.classes
|
||
|
||
if button_id:
|
||
if button_id.startswith("tool_button_"):
|
||
self.selected_tool = Tool[button_id[len("tool_button_") :]]
|
||
elif button_id.startswith("color_button_"):
|
||
self.selected_color = button_id[len("color_button_") :]
|
||
|
||
def on_tree_node_highlighted(self, event: DirectoryTree.FileSelected) -> None:
|
||
"""
|
||
Called when a file/folder is selected in the DirectoryTree.
|
||
|
||
This message comes from Tree.
|
||
DirectoryTree gives FileSelected but only for files.
|
||
"""
|
||
if event.node.data.is_dir:
|
||
self.directory_tree_selected_path = event.node.data.path
|
||
elif event.node.parent:
|
||
self.directory_tree_selected_path = event.node.parent.data.path
|
||
name = os.path.basename(event.node.data.path)
|
||
self.query_one("#save_as_dialog_filename_input, #open_dialog_filename_input", Input).value = name
|
||
else:
|
||
self.directory_tree_selected_path = None
|
||
|
||
# `textual run --dev paint.py` will search for a
|
||
# global variable named `app`, and fallback to
|
||
# anything that is an instance of `App`, or
|
||
# a subclass of `App`.
|
||
# Creating the app and parsing arguments must not be within an if __name__ == "__main__" block,
|
||
# since __name__ will be "<run_path>" when running with the textual CLI,
|
||
# and it would create a new app instance, and all arguments would be ignored.
|
||
app = PaintApp()
|
||
|
||
parser = argparse.ArgumentParser(description='Paint in the terminal.')
|
||
parser.add_argument('--ascii-only-icons', action='store_true', help='Use only ASCII characters for tool icons')
|
||
parser.add_argument('filename', nargs='?', default=None, help='File to open')
|
||
if __name__ == "<run_path>":
|
||
# Arguments have to be passed like `textual run --dev "paint.py LICENSE.txt"`
|
||
# so we need to look for an argument starting with "paint.py",
|
||
# and parse the rest of the string as arguments.
|
||
args = None
|
||
for arg in sys.argv:
|
||
if arg.startswith("paint.py"):
|
||
args = parser.parse_args(arg[len("paint.py") :].split())
|
||
break
|
||
else:
|
||
args = parser.parse_args()
|
||
if args.ascii_only_icons:
|
||
ascii_only_icons = True
|
||
if args.filename:
|
||
# if args.filename == "-" and not sys.stdin.isatty():
|
||
# app.image = AnsiArtDocument.from_text(sys.stdin.read())
|
||
# app.filename = "<stdin>"
|
||
# else:
|
||
with open(args.filename, 'r') as my_file:
|
||
app.image = AnsiArtDocument.from_text(my_file.read())
|
||
app.filename = args.filename
|
||
|
||
if __name__ == "__main__":
|
||
app.run()
|