d1369964d7
it. Add the license document and the header on all source files.
294 lines
9.2 KiB
Python
Executable File
294 lines
9.2 KiB
Python
Executable File
# UPIWIN - Micro Pi Windowing Framework Kernel
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# Copyright (C) 2019 Amy Bowersox/Erbosoft Metaverse Design Solutions
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License along
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# with this program; if not, write to the Free Software Foundation, Inc.,
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# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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# ------------------------------------------------------------------------
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# Demo script that implements a simple drawing program
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import upiwin
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# Save off some color values.
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BLACK = upiwin.rgb(0, 0, 0)
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WHITE = upiwin.rgb(255, 255, 255)
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LTGRAY = upiwin.rgb(204, 204, 204)
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RED = upiwin.rgb(255, 0, 0)
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GREEN = upiwin.rgb(0, 255, 0)
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BLUE = upiwin.rgb(0, 0, 255)
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CYAN = upiwin.rgb(0, 255, 255)
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MAGENTA = upiwin.rgb(255, 0, 255)
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YELLOW = upiwin.rgb(255, 255, 0)
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# Get the stock bitmaps.
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bmp_freehand = upiwin.Bitmap(stock='freehand')
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bmp_line = upiwin.Bitmap(stock='line')
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bmp_rect = upiwin.Bitmap(stock='rect')
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bmp_fillrect = upiwin.Bitmap(stock='fillrect')
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bmp_undo = upiwin.Bitmap(stock='undo')
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bmp_clear = upiwin.Bitmap(stock='clear')
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hdc = upiwin.DevCtxt(type='screen')
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hdc_bits = upiwin.DevCtxt(type='memory')
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# divide the screen into "drawing" and "command" areas
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screen_rect = hdc.get_clip_rect()
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drawing_rect = (screen_rect[0], screen_rect[1], screen_rect[2] - 60, screen_rect[3])
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command_rect = (drawing_rect[2], screen_rect[1], screen_rect[2], screen_rect[3])
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# further divide up the "command" area
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tool_select_rect = (command_rect[0], command_rect[1], command_rect[2], 60)
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color_select_rect = (command_rect[0], 60, command_rect[2], 120)
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undo_rect = (command_rect[0], 120, command_rect[2], 180)
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clear_rect = (command_rect[0], 180, command_rect[2], command_rect[3])
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def point_in_rect(rect, x, y):
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return (x >= rect[0]) and (x < rect[2]) and (y >= rect[1]) and (y < rect[3])
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# --- Backlight control ---
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backlight_level_list = [1023, 768, 512, 256]
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current_backlight = 0
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def do_backlight():
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upiwin.set_backlight_level(backlight_level_list[current_backlight])
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def select_next_backlight():
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global current_backlight
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current_backlight += 1
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if current_backlight == len(backlight_level_list):
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current_backlight = 0
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do_backlight()
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# --- Color selections ---
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color_list = [WHITE, RED, GREEN, BLUE, CYAN, MAGENTA, YELLOW]
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current_color = 0
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def draw_current_color():
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hdc.text_color = color_list[current_color]
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hdc.rop2 = upiwin.R2_COPYPEN
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hdc.solid_rectangle(color_select_rect[0] + 6, color_select_rect[1] + 6, color_select_rect[0] + 54, color_select_rect[1] + 54)
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def select_next_color():
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global current_color
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current_color += 1
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if current_color == len(color_list):
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current_color = 0
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draw_current_color()
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# --- Object drawing ---
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def draw_freehand(color, data):
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hdc.text_color = color
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hdc.rop2 = upiwin.R2_COPYPEN
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hdc.move_to(data[0][0], data[0][1])
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for pt in data[1:]:
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hdc.line_to(pt[0], pt[1])
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def draw_line(color, data):
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hdc.text_color = color
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hdc.rop2 = upiwin.R2_COPYPEN
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hdc.move_to(data[0][0], data[0][1])
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hdc.line_to(data[1][0], data[1][1])
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def draw_rectangle(color, data):
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hdc.text_color = color
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hdc.rop2 = upiwin.R2_COPYPEN
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hdc.rectangle(data[0], data[1], data[2], data[3])
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def draw_filled_rectangle(color, data):
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hdc.text_color = color
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hdc.rop2 = upiwin.R2_COPYPEN
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hdc.solid_rectangle(data[0], data[1], data[2], data[3])
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def draw_object(obj):
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obj['draw'](obj['color'], obj['data'])
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# --- Master object list ---
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objects_drawn = []
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def repaint():
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global drawing_rect, objects_drawn
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hdc.text_color = BLACK
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hdc.rop2 = upiwin.R2_COPYPEN
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hdc.solid_rectangle(drawing_rect[0], drawing_rect[1], drawing_rect[2], drawing_rect[3])
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for obj in objects_drawn:
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draw_object(obj)
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def undo_last():
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global objects_drawn
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if len(objects_drawn) > 0:
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last = len(objects_drawn) - 1
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del objects_drawn[last]
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repaint()
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def clear_all():
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global objects_drawn
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if len(objects_drawn) > 0:
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objects_drawn.clear()
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repaint()
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# --- Graphic feedback --
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origin_x = 0
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origin_y = 0
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current_x = 0
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current_y = 0
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freehand_points = []
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def freehand_draw(x, y, down, up):
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global current_x, current_y, freehand_points
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if down:
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freehand_points = []
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else:
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hdc.text_color = color_list[current_color]
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hdc.rop2 = upiwin.R2_COPYPEN
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hdc.move_to(current_x, current_y)
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hdc.line_to(x, y)
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current_x = x
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current_y = y
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freehand_points += [(x, y)]
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def rubberband_rectangle(x, y, down, up):
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global current_x, current_y
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hdc.text_color = LTGRAY
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hdc.rop2 = upiwin.R2_XORPEN
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if not down:
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hdc.rectangle(min(origin_x, current_x), min(origin_y, current_y), max(origin_x, current_x), max(origin_y, current_y))
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current_x = x
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current_y = y
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if not up:
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hdc.rectangle(min(origin_x, current_x), min(origin_y, current_y), max(origin_x, current_x), max(origin_y, current_y))
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def rubberband_line(x, y, down, up):
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global current_x, current_y
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hdc.text_color = LTGRAY
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hdc.rop2 = upiwin.R2_XORPEN
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if not down:
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hdc.move_to(origin_x, origin_y)
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hdc.line_to(current_x, current_y)
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current_x = x
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current_y = y
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if not up:
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hdc.move_to(origin_x, origin_y)
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hdc.line_to(current_x, current_y)
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# --- Tool definitions ---
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def save_freehand():
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return { 'draw': draw_freehand, 'color': color_list[current_color], 'data': freehand_points }
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def save_line():
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return { 'draw': draw_line, 'color': color_list[current_color], 'data': [(origin_x, origin_y), (current_x, current_y)] }
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def save_rectangle():
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return { 'draw': draw_rectangle, 'color': color_list[current_color],
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'data': (min(origin_x, current_x), min(origin_y, current_y), max(origin_x, current_x), max(origin_y, current_y)) }
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def save_filled_rectangle():
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return { 'draw': draw_filled_rectangle, 'color': color_list[current_color],
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'data': (min(origin_x, current_x), min(origin_y, current_y), max(origin_x, current_x), max(origin_y, current_y)) }
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tool_list = [
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{ 'icon': bmp_freehand, 'feedback': freehand_draw, 'save': save_freehand, 'dodraw': False },
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{ 'icon': bmp_line, 'feedback': rubberband_line, 'save': save_line, 'dodraw': True },
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{ 'icon': bmp_rect, 'feedback': rubberband_rectangle, 'save': save_rectangle, 'dodraw': True },
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{ 'icon': bmp_fillrect, 'feedback': rubberband_rectangle, 'save': save_filled_rectangle, 'dodraw': True }
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]
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current_tool = 0
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def draw_current_tool():
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hdc_bits.select_object(tool_list[current_tool]['icon'])
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hdc.bitblt(tool_select_rect[0] + 6, tool_select_rect[1] + 6, tool_select_rect[0] + 54, tool_select_rect[1] + 54, hdc_bits, 0, 0, 0)
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def select_next_tool():
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global current_tool
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current_tool += 1
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if current_tool == len(tool_list):
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current_tool = 0
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draw_current_tool()
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# --- Message handlers ---
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def on_touchdown(x, y):
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global origin_x, origin_y
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if point_in_rect(drawing_rect, x, y):
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origin_x = x
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origin_y = y
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tool_list[current_tool]['feedback'](x, y, True, False)
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def on_touchmove(x, y):
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if point_in_rect(drawing_rect, x, y):
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tool_list[current_tool]['feedback'](x, y, False, False)
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def on_touchup(x, y):
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global objects_drawn
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if point_in_rect(drawing_rect, x, y):
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tool_list[current_tool]['feedback'](x, y, False, True)
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object = tool_list[current_tool]['save']()
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if tool_list[current_tool]['dodraw']:
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draw_object(object)
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objects_drawn += [object]
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def on_touchclick(x, y):
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if point_in_rect(tool_select_rect, x, y):
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select_next_tool()
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elif point_in_rect(color_select_rect, x, y):
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select_next_color()
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elif point_in_rect(undo_rect, x, y):
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undo_last()
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elif point_in_rect(clear_rect, x, y):
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clear_all()
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def on_button_click(button):
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if button == 1: # Button 1 = Set backlight level
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select_next_backlight()
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if button == 4: # Button 4 = Exit app
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upiwin.post_quit_message(0)
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# --- Initialize and start message loop ---
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do_backlight()
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# Draw the basic layout.
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hdc.text_color = LTGRAY
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hdc.rop2 = upiwin.R2_COPYPEN
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hdc.rectangle(tool_select_rect[0], tool_select_rect[1], tool_select_rect[2], tool_select_rect[3])
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hdc.rectangle(color_select_rect[0], color_select_rect[1], color_select_rect[2], color_select_rect[3])
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hdc.rectangle(undo_rect[0], undo_rect[1], undo_rect[2], undo_rect[3])
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hdc.rectangle(clear_rect[0], clear_rect[1], clear_rect[2], clear_rect[3])
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draw_current_tool()
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draw_current_color()
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hdc_bits.select_object(bmp_undo)
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hdc.bitblt(undo_rect[0] + 6, undo_rect[1] + 6, undo_rect[0] + 54, undo_rect[1] + 54, hdc_bits, 0, 0, 0)
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hdc_bits.select_object(bmp_clear)
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hdc.bitblt(clear_rect[0] + 6, clear_rect[1] + 6, clear_rect[0] + 54, clear_rect[1] + 54, hdc_bits, 0, 0, 0)
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# Main message loop
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msg = {}
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while upiwin.get_message(msg):
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if msg['message'] == upiwin.WM_TOUCHDOWN:
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on_touchdown(msg['attrs'][0], msg['attrs'][1])
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if msg['message'] == upiwin.WM_TOUCHMOVE:
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on_touchmove(msg['attrs'][0], msg['attrs'][1])
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if msg['message'] == upiwin.WM_TOUCHUP:
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on_touchup(msg['attrs'][0], msg['attrs'][1])
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if msg['message'] == upiwin.WM_TOUCHCLICK:
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on_touchclick(msg['attrs'][0], msg['attrs'][1])
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elif msg['message'] == upiwin.WM_HWBUTTONCLICK:
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on_button_click(msg['attrs'][0])
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