From 25e7097b3fbddcc140a081a5cf570d815c43c1d8 Mon Sep 17 00:00:00 2001 From: Walter Bender Date: Wed, 18 Aug 2010 18:16:39 +0000 Subject: removing files that were moved --- (limited to 'tasprite_factory.py') diff --git a/tasprite_factory.py b/tasprite_factory.py deleted file mode 100755 index 073f9f5..0000000 --- a/tasprite_factory.py +++ /dev/null @@ -1,1117 +0,0 @@ -#!/usr/bin/env python -# -*- coding: utf-8 -*- -#Copyright (c) 2009,10 Walter Bender - -#Permission is hereby granted, free of charge, to any person obtaining a copy -#of this software and associated documentation files (the "Software"), to deal -#in the Software without restriction, including without limitation the rights -#to use, copy, modify, merge, publish, distribute, sublicense, and/or sell -#copies of the Software, and to permit persons to whom the Software is -#furnished to do so, subject to the following conditions: - -#The above copyright notice and this permission notice shall be included in -#all copies or substantial portions of the Software. - -#THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR -#IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, -#FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE -#AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER -#LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, -#OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN -#THE SOFTWARE. - -import pygtk -pygtk.require('2.0') -import gtk -import os -from gettext import gettext as _ - -class SVG: - def __init__(self): - self._x = 0 - self._y = 0 - self._min_x = 10000 - self._min_y = 10000 - self._max_x = -10000 - self._max_y = -10000 - self._width = 0 - self._height = 0 - self.docks = [] - self._scale = 1 - self._orientation = 0 - self._radius = 8 - self._stroke_width = 1 - self._innie = [False] - self._outie = False - self._innie_x1 = (9-self._stroke_width)/2 - self._innie_y1 = 3 - self._innie_x2 = (9-self._stroke_width)/2 - self._innie_y2 = (9-self._stroke_width)/2 - self._innie_spacer = 9 - self._slot = True - self._cap = False - self._tab = True - self._bool = False - self._slot_x = 10 - self._slot_y = 2 - self._porch = False - self._porch_x = self._innie_x1+self._innie_x2+4*self._stroke_width - # self._porch_y = self._innie_y1+self._innie_y2+4*self._stroke_width - self._porch_y = self._innie_y2 - self._expand_x = 0 - self._expand_y = 0 - self._no_arm = False - self._else = False - self._draw_innies = True - self._hide = False - self._show = False - self._show_x = 0 - self._show_y = 0 - self._hide_x = 0 - self._hide_y = 0 - self._dot_radius = 8 - self._fill = "#00FF00" - self._stroke = "#00A000" - self._gradiant = False - self.margins = [0, 0, 0, 0] - - def basic_block(self): - self.reset_min_max() - (x, y) = self._calculate_x_y() - self.margins[2] = 0 - self.margins[3] = 0 - svg = self.new_path(x, y) - svg += self._corner(1, -1) - svg += self._do_slot() - svg += self._rline_to(self._expand_x, 0) - xx = self._x - svg += self._corner(1, 1) - for i in range(len(self._innie)): - if self._innie[i] is True: - svg += self._do_innie() - if i==0 and self._porch is True: - svg += self._do_porch(False) - elif len(self._innie)-1 > i: - svg += self._rline_to(0, 2*self._innie_y2+self._innie_spacer) - svg += self._rline_to(0, self._expand_y) - svg += self._corner(-1, 1) - svg += self.line_to(xx, self._y) - svg += self._rline_to(-self._expand_x, 0) - if self._tab: - svg += self._do_tab() - else: - svg += self._do_tail() - svg += self._corner(-1, -1) - svg += self._rline_to(0, -self._expand_y) - if True in self._innie: - svg += self.line_to(x, self._radius+self._innie_y2+\ - self._stroke_width/2.0) - svg += self._do_outie() - self.calc_w_h() - svg += self._close_path() - svg += self.style() - if self._show is True: - svg += self._show_dot() - if self._hide is True: - svg += self._hide_dot() - - svg += self.footer() - return self.header() + svg - - def basic_flow(self): - self.reset_min_max() - (x, y) = self._calculate_x_y() - self.margins[2] = 0 - self.margins[3] = 0 - svg = self.new_path(x, y) - svg += self._corner(1, -1) - svg += self._do_slot() - xx = self._x - svg += self._rline_to(self._expand_x, 0) - if self._bool: - svg += self._corner(1, 1, 90, 0, 1, True, False) - elif True in self._innie: - svg += self._corner(1, 1) - for i in range(len(self._innie)): - if self._innie[i] is True: - svg += self._do_innie() - svg += self._rline_to(0, self._innie_spacer) - else: - self.margins[2] =\ - int((self._x-self._stroke_width+0.5)*self._scale) - if self._bool is True: - svg += self._rline_to(0,self._radius/2.0) - svg += self._do_boolean() - svg += self._rline_to(0,self._stroke_width) - if self._else: - svg += self._rline_to(self._radius*3+self._slot_x*2, 0) - else: - svg += self._rline_to(self._radius+self._slot_x, 0) - hh = self._x - svg += self._corner(1, 1) - svg += self._rline_to(-self._radius,0) - if self._else: - svg += self._do_tab() - svg += self._rline_to(-self._radius*2, 0) - svg += self._do_tab() - svg += self._inverse_corner(-1, 1, 90, 0, 0, True, False) - svg += self._rline_to(0, self._expand_y) - svg += self._corner(-1, 1, 90, 0, 1, False, True) - svg += self.line_to(xx, self._y) - if self._tab: - svg += self._do_tab() - else: - svg += self._do_tail() - svg += self._corner(-1, -1) - svg += self._rline_to(0, -self._expand_y) - if True in self._innie: - svg += self.line_to(x, self._radius+self._innie_y2+\ - self._stroke_width) - svg += self._close_path() - self.calc_w_h() - svg += self.style() - if self._hide is True: - svg += self._hide_dot() - if self._show is True: - svg += self._show_dot() - svg += self.footer() - return self.header() + svg - - def portfolio(self): - self.reset_min_max() - (x, y) = self._calculate_x_y() - self.margins[0] = int(x+2*self._stroke_width+0.5) - self.margins[1] = int(y+self._stroke_width+0.5+self._slot_y) - self.margins[2] = 0 - self.margins[3] = 0 - x += self._innie_x1+self._innie_x2 - svg = self.new_path(x, y) - svg += self._corner(1, -1) - svg += self._do_slot() - xx = self._x - svg += self._rline_to(self._expand_x, 0) - svg += self._corner(1, 1) - svg += self._rline_to(0, self._expand_y) - for i in range(len(self._innie)): - if self._innie[i] is True and i > 0 and self._draw_innies: - svg += self._do_innie() - svg += self._rline_to(0, 2*self._innie_y2+self._innie_spacer) - else: - svg += self._rline_to(0, 2*self._innie_y2+self._innie_spacer) - svg += self._corner(-1, 1) - svg += self.line_to(xx, self._y) - svg += self._do_tab() - svg += self._corner(-1, -1) - for i in range(len(self._innie)): - if self._innie[len(self._innie)-i-1] is True: - svg += self._rline_to(0, -2*self._innie_y2-self._innie_spacer) - svg += self._do_reverse_innie() - else: - svg += self._rline_to(0, -2*self._innie_y2-self._innie_spacer) - svg += self._close_path() - self.calc_w_h() - svg += self.style() - svg += self.footer() - return self.header() + svg - - def basic_box(self): - self.reset_min_max() - self.set_outie(True) - x = self._stroke_width/2.0+self._innie_x1+self._innie_x2 - self.margins[0] = int((x+self._stroke_width+0.5)*self._scale) - self.margins[1] = int((self._stroke_width+0.5)*self._scale) - self.margins[2] = 0 - self.margins[3] = 0 - svg = self.new_path(x, self._stroke_width/2.0) - svg += self._rline_to(self._expand_x, 0) - svg += self._rline_to(0, 2*self._radius+self._innie_y2+self._expand_y) - svg += self._rline_to(-self._expand_x, 0) - svg += self.line_to(x, self._radius+self._innie_y2+\ - self._stroke_width/2.0) - svg += self._do_outie() - svg += self._close_path() - self.calc_w_h() - svg += self.style() - svg += self.footer() - return self.header() + svg - - def boolean_and_or(self): - self.reset_min_max() - svg = self._start_boolean(self._stroke_width/2.0, - self._radius*5.5+self._stroke_width/2.0+\ - self._innie_y2+self._innie_spacer) - svg += self._rline_to(0,-self._radius*3.5-self._innie_y2-\ - self._innie_spacer-self._stroke_width) - svg += self._rarc_to(1, -1) - svg += self._rline_to(self._radius/2.0+self._expand_x, 0) - xx = self._x - svg += self._rline_to(0,self._radius/2.0) - svg += self._do_boolean() - svg += self._rline_to(0,self._radius*1.5+self._innie_y2+\ - self._innie_spacer) - svg += self._do_boolean() - svg += self._rline_to(0,self._radius/2.0) - svg += self.line_to(xx, self._y) - svg += self._rline_to(-self._expand_x, 0) - svg += self._end_boolean() - self.margins[0] = int((self._radius+self._stroke_width+0.5)*self._scale) - self.margins[1] = int(self._stroke_width*self._scale) - self.margins[2] = int(self._stroke_width*self._scale) - self.margins[3] = int(self._stroke_width*self._scale) - return self.header() + svg - - def boolean_not(self): - self.reset_min_max() - svg = self._start_boolean(self._stroke_width/2.0, - self._radius*2.0+self._stroke_width/2.0) - svg += self._rline_to(0,-self._stroke_width) - svg += self._rarc_to(1, -1) - svg += self._rline_to(self._radius/2.0+self._expand_x, 0) - xx = self._x - svg += self._rline_to(0,self._radius/2.0) - svg += self._do_boolean() - svg += self._rline_to(0,self._radius/2.0) - svg += self.line_to(xx, self._y) - svg += self._rline_to(-self._expand_x, 0) - svg += self._end_boolean() - self.margins[0] = int((self._radius+self._stroke_width+0.5)*self._scale) - self.margins[1] = int(self._stroke_width*self._scale) - self.margins[2] = int((self._radius+self._stroke_width+0.5)*self._scale) - self.margins[3] = int(self._stroke_width*self._scale) - return self.header() + svg - - def boolean_compare(self): - self.reset_min_max() - yoffset = self._radius*2+2*self._innie_y2+\ - self._innie_spacer+self._stroke_width/2.0 - if self._porch is True: - yoffset += self._porch_y - svg = self._start_boolean(self._stroke_width/2.0, yoffset) - yoffset = -2*self._innie_y2-self._innie_spacer-self._stroke_width - if self._porch is True: - yoffset -= self._porch_y - svg += self._rline_to(0, yoffset) - svg += self._rarc_to(1, -1) - svg += self._rline_to(self._radius/2.0+self._expand_x, 0) - svg += self._rline_to(0,self._radius) - xx = self._x - svg += self._do_innie() - if self._porch is True: - svg += self._do_porch() - else: - svg += self._rline_to(0, 2*self._innie_y2+self._innie_spacer) - svg += self._do_innie() - svg += self._rline_to(0, self._radius) - svg += self.line_to(xx, self._y) - svg += self._rline_to(-self._expand_x, 0) - svg += self._end_boolean() - self.margins[0] = int((self._radius+self._stroke_width)*self._scale) - self.margins[1] = int(self._stroke_width*self._scale) - self.margins[2] = int(self._stroke_width*self._scale) - self.margins[3] = int(self._stroke_width*self._scale) - return self.header() + svg - - def turtle(self, colors): - self.reset_min_max() - self._fill, self._stroke = colors[0], colors[1] - svg = "%s%s%s%s%s%s%s%s" % (" \n") - svg +="%s%s%s%s%s%s%s%s%s%s" % (" \n") - svg +="%s%s%s%s%s%s%s%s%s%s" % (" \n") - svg +="%s%s%s%s%s%s%s%s%s%s" % (" \n") - svg +="%s%s%s%s%s%s%s%s%s%s" % (" \n") - svg +="%s%s%s%s%s%s%s%s%s%s%s%s" % (" \n") - svg +="%s%s%s%s%s%s%s%s%s%s%s%s" % (" \n") - svg +="%s%s%s%s%s" % (" \n") - svg +="%s%s%s%s%s%s" % (" \n") - svg +="%s%s%s%s%s%s" % (" \n") - svg +="%s%s%s%s%s%s" % (" \n") - svg +="%s%s%s%s%s%s" % (" \n") - svg +="%s%s%s%s%s%s" % (" \n") - self._width, self._height = 55, 55 - svg += self.footer() - return self.header() + svg - - def palette(self, width, height): - self.reset_min_max() - self._width, self._height = width, height - self._fill, self._stroke = "#FFD000", "none" - svg = self._rect(width, height, 0, 0) - self._hide_x = (width-self._radius*1.5)/2 - self._hide_y = (height-self._radius*1.5)/2 - svg += self._hide_dot(True) - svg += self.footer() - return self.header() + svg - - def toolbar(self, width, height): - self.reset_min_max() - self._width, self._height = width, height - self._fill, self._stroke = "#282828", "none" - svg = self._rect(width, height, 0, 0) - svg += self.footer() - return self.header() + svg - - def sandwich_top(self): - self.reset_min_max() - x = self._stroke_width/2.0 - y = self._stroke_width/2.0+self._radius - self.margins[0] = int((x+self._stroke_width+0.5)*self._scale) - self.margins[1] = int((self._stroke_width+0.5)*self._scale) - self.margins[2] = 0 - self.margins[3] = 0 - svg = self.new_path(x, y) - svg += self._corner(1, -1) - svg += self._rline_to(self._radius+self._stroke_width, 0) - svg += self._do_slot() - svg += self._rline_to(self._expand_x, 0) - xx = self._x - svg += self._corner(1, 1) - svg += self._do_innie() - svg += self._corner(-1, 1) - svg += self.line_to(xx, self._y) - svg += self._rline_to(-self._expand_x, 0) - svg += self._do_tab() - if self._no_arm: - svg += self._rline_to(-self._radius-self._stroke_width, 0) - svg += self._corner(-1, -1) - else: - svg += self._inverse_corner(-1, 1, 90, 0, 0) - svg += self._rline_to(0, self._expand_y) - svg += self._rline_to(-self._radius, 0) - svg += self._close_path() - self.calc_w_h() - svg += self.style() - svg += self.footer() - return self.header() + svg - - def sandwich_bottom(self): - self.reset_min_max() - x = self._stroke_width/2.0 - y = self._stroke_width/2.0 - self.margins[0] = int((x+self._stroke_width+0.5)*self._scale) - self.margins[1] = int((self._stroke_width+0.5)*self._scale) - self.margins[2] = 0 - self.margins[3] = 0 - svg = self.new_path(x, y) - svg += self._rline_to(self._radius, 0) - svg += self._rline_to(0, self._expand_y) - svg += self._inverse_corner(1, 1, 90, 0, 0) - svg += self._do_slot() - svg += self._rline_to(self._radius, 0) - svg += self._corner(-1, 1) - svg += self._do_tab() - svg += self._rline_to(-self._radius-self._stroke_width,0) - svg += self._corner(-1, -1) - svg += self._close_path() - self.calc_w_h() - svg += self.style() - self._hide_x = x + self._radius/2 - self._hide_y = y + self._radius/2 - if self._hide is True: - svg += self._hide_dot() - if self._show is True: - svg += self._show_dot() - svg += self.footer() - return self.header() + svg - - # - # Utility methods - # - def set_draw_innies(self, flag=True): - self._draw_innies = flag - - def set_hide(self, flag=False): - self._hide = flag - - def set_show(self, flag=False): - self._show = flag - - def get_width(self): - return self._width - - def get_height(self): - return self._height - - def get_innie_width(self): - return (self._innie_x1+self._innie_x2)*self._scale - - def get_slot_depth(self): - return self._slot_y*self._scale - - def clear_docks(self): - self.docks = [] - - def set_scale(self, scale=1): - self._scale = scale - - def set_orientation(self, orientation=0): - self._orientation = orientation - - def expand(self, w=0, h=0): - self._expand_x = w - self._expand_y = h - - def set_stroke_width(self, stroke_width=1.5): - self._stroke_width = stroke_width - self._calc_porch_params() - - def set_colors(self, colors=["#00FF00","#00A000"]): - self._fill = colors[0] - self._stroke = colors[1] - - def set_fill_color(self, color="#00FF00"): - self._fill = color - - def set_stroke_color(self, color="#00A000"): - self._stroke = color - - def set_gradiant(self, flag=False): - self._gradiant = flag - - def set_innie(self, innie_array=[False]): - self._innie = innie_array - - def set_outie(self, flag=False): - self._outie = flag - - def set_slot(self, flag=True): - self._slot = flag - if self._slot is True: - self._cap = False - - def set_cap(self, flag=False): - self._cap = flag - if self._cap is True: - self._slot = False - - def set_tab(self, flag=True): - self._tab = flag - - def set_porch(self, flag=False): - self._porch = flag - - def set_boolean(self, flag=False): - self._bool = flag - - def set_else(self, flag=False): - self._else = flag - - def set_no_arm(self, flag=True): - self._no_arm = flag - - def reset_min_max(self): - self._min_x = 10000 - self._min_y = 10000 - self._max_x = -10000 - self._max_y = -10000 - - # - # Exotic methods - # - - def set_radius(self, radius=8): - self._radius = radius - - def set_innie_params(self, x1=4, y1=3, x2=4, y2=4): - self._innie_x1 = x1 - self._innie_y1 = y1 - self._innie_x2 = x2 - self._innie_y2 = y2 - self._calc_porch_params() - - def set_innie_spacer(self, innie_spacer = 0): - self._innie_spacer = innie_spacer - - def set_slot_params(self, x=12, y=4): - self._slot_x = x - self._slot_y = y - - def _calc_porch_params(self): - self._porch_x = self._innie_x1+self._innie_x2+4*self._stroke_width - self._porch_y = self._innie_y1+self._innie_y2+4*self._stroke_width - - # - # SVG helper methods - # - def header(self, center=False): - return "%s%s%s%s%s%s%.1f%s%s%.1f%s%s%s" % ( - "\n", - self._defs(), - self._transform(center)) - - def _defs(self): - if self._gradiant is True: - return "%s%s%s%s%s%s%s%s%s%s%s%s%.1f%s%s%.1f%s%s%.1f%s%s" % ( - " \n \n", - " \n", - " \n", - " \n", - " \n \n") - else: - return "" - - def _transform(self, center): - if self._orientation != 0: - orientation = "\n" % ( - self._orientation, self._width/2.0, self._height/2.0) - else: - orientation = "" - if center: - return "\n" % ( - -self._min_x, -self._min_y) - else: - return "\n%s" % ( - self._scale, self._scale, orientation ) - - def footer(self): - if self._orientation != 0: - return " \n\n\n" - else: - return " \n\n" - - def style(self): - if self._gradiant is True: - fill = "url(#linearGradient5678)" - else: - fill = self._fill - return "%s%s;%s%s;%s%.1f;%s%s" % ( - " style=\"fill:",fill, - "fill-opacity:1;stroke:",self._stroke, - "stroke-width:",self._stroke_width, - "stroke-linecap:round;", - "stroke-opacity:1;\" />\n") - - def text(self, x, y, size, width, string): - self._x = x - self._y = y - self._check_min_max() - self._x = x+width - self._y = y-size - self._check_min_max() - return " %s%.1f%s%s%s%.1f%s%.1f%s%.1f%s%s%s%s%s" % ( - "\n ", - string, "\n \n") - - def image(self, x, y, w, h, path, image_data=None): - self._x = x - self._y = y - self._check_min_max() - self._x = x+w - self._y = y+h - self._check_min_max() - if image_data == None: - return " %s%.1f%s%.1f%s%.1f%s%.1f%s%s%s" % ( - "\n") - else: - return " %s%.1f%s%.1f%s%.1f%s%.1f%s%s%s" % ( - "\n") - - - def _circle(self, r, cx, cy): - return "%s%s%s%s%s%f%s%f%s%f%s" % ("\n") - - def _rect(self, w, h, x, y): - return "%s%s%s%s%s%f%s%f%s%f%s%f%s" % ("\n") - - def background(self, fill): - return "%s%s%s%s%s%f%s%f%s%f%s%f%s" % ("\n") - - def _check_min_max(self): - if self._x < self._min_x: - self._min_x = self._x - if self._y < self._min_y: - self._min_y = self._y - if self._x > self._max_x: - self._max_x = self._x - if self._y > self._max_y: - self._max_y = self._y - - def line_to(self, x, y): - self._check_min_max() - if self._x == x and self._y == y: - return "" - else: - self._x = x - self._y = y - self._check_min_max() - return "L %.1f %.1f " % (x, y) - - def _rline_to(self, dx, dy): - if dx == 0 and dy == 0: - return "" - else: - return self.line_to(self._x+dx, self._y+dy) - - def arc_to(self, x, y, r, a=90, l=0, s=1): - self._check_min_max() - if r == 0: - return self.line_to(x, y) - else: - self._x = x - self._y = y - self._check_min_max() - return "A %.1f %.1f %.1f %d %d %.1f %.1f " % ( - r, r, a, l, s, x, y) - - def _rarc_to(self, sign_x, sign_y, a=90, l=0, s=1): - if self._radius == 0: - return "" - else: - x = self._x + sign_x*self._radius - y = self._y + sign_y*self._radius - return self.arc_to(x, y, self._radius, a, l, s) - - def _inverse_corner(self, sign_x, sign_y, a=90, l=0, s=1, start=True, - end=True): - r2 = self._stroke_width+self._radius/2.0 - if start: - if sign_x*sign_y == -1: - svg_str =self._rline_to(sign_x*(r2-self._stroke_width), 0) - else: - svg_str =self._rline_to(0, sign_y*+(r2-self._stroke_width)) - x = self._x + sign_x*r2 - y = self._y + sign_y*r2 - svg_str += self.arc_to(x, y, r2, a, l, s) - if end: - if sign_x*sign_y == -1: - svg_str +=self._rline_to(0, sign_y*(r2-self._stroke_width)) - else: - svg_str +=self._rline_to(sign_x*(r2-self._stroke_width), 0) - return svg_str - - def _corner(self, sign_x, sign_y, a=90, l=0, s=1, start=True, end=True): - svg_str = "" - if sign_x == 1 and sign_y == -1: - self._hide_x = self._x + self._radius/2 - self._hide_y = self._y - self._radius/2 - if sign_x == -1 and sign_y == 1: - self._show_x = self._x - self._radius/2 - self._show_y = self._y + self._radius/2 - if True in self._innie: - self._show_x -= (self._innie_x1+self._innie_x2) - self._show_y -= (self._innie_y1+self._innie_y2) - if self._radius > 0: - r2 = self._radius/2.0 - if start: - if sign_x*sign_y == 1: - svg_str +=self._rline_to(sign_x*r2, 0) - else: - svg_str +=self._rline_to(0, sign_y*r2) - x = self._x + sign_x*r2 - y = self._y + sign_y*r2 - svg_str += self.arc_to(x, y, r2, a, l, s) - if end: - if sign_x*sign_y == 1: - svg_str +=self._rline_to(0, sign_y*r2) - else: - svg_str +=self._rline_to(sign_x*r2, 0) - return svg_str - - def new_path(self, x, y): - """ - self._min_x = x - self._min_y = y - self._max_x = x - self._max_y = y - """ - self._x = x - self._y = y - return "