Merge branch 'master' of git://git.sugarlabs.org/turtleart/refactoringv83

Conflicts:
	NEWS
	activity/activity.info
	tagplay.py
	tawindow.py

1 files changed, 367 insertions, 0 deletions

diff --git a/sprites.py b/sprites.py
new file mode 100644
index 0000000..045ab98
--- /dev/null
+++ b/sprites.py
@@ -0,0 +1,367 @@
+# -*- coding: utf-8 -*-
+
+#Copyright (c) 2007-8, Playful Invention Company.
+#Copyright (c) 2008-10 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.
+
+"""
+
+sprites.py is a simple sprites library for managing graphics objects,
+'sprites', on a canvas. It manages multiple sprites with methods such
+as move, hide, set_layer, etc.
+
+There are two classes:
+
+class Sprites maintains a collection of sprites.
+class Sprite manages individual sprites within the collection.
+
+Example usage:
+        # Import the classes into your program.
+        from sprites import Sprites, Sprite
+
+        # Create a new sprite collection for a gtk Drawing Area.
+        my_drawing_area = gtk.DrawingArea()
+        self.sprite_list = Sprites(my_drawing_area)
+
+        # Create a "pixbuf" (in this example, from SVG).
+        my_pixbuf = svg_str_to_pixbuf("<svg>...some svg code...</svg>")
+
+        # Create a sprite at position x1, y1.
+        my_sprite = sprites.Sprite(self.sprite_list, x1, y1, my_pixbuf)
+
+        # Move the sprite to a new position.
+        my_sprite.move((x1+dx, y1+dy))
+
+        # Create another "pixbuf".
+        your_pixbuf = svg_str_to_pixbuf("<svg>...some svg code...</svg>")
+
+        # Create a sprite at position x2, y2.
+        your_sprite = sprites.Sprite(self.sprite_list, x2, y2, my_pixbuf)
+
+        # Assign the sprites to layers.
+        # In this example, your_sprite will be on top of my_sprite.
+        my_sprite.set_layer(100)
+        your_sprite.set_layer(200)
+
+        # Now put my_sprite on top of your_sprite.
+        my_sprite.set_layer(300)
+
+# method for converting SVG to a gtk pixbuf
+def svg_str_to_pixbuf(svg_string):
+    pl = gtk.gdk.PixbufLoader('svg')
+    pl.write(svg_string)
+    pl.close()
+    pixbuf = pl.get_pixbuf()
+    return pixbuf
+"""
+
+import pygtk
+pygtk.require('2.0')
+import gtk
+import gobject
+import pango
+
+#
+# A class for the list of sprites and everything they share in common
+#
+
+class Sprites:
+    def __init__(self, canvas, area=None, gc=None):
+        self.canvas = canvas
+        if area == None:
+            self.area = self.canvas.window
+            self.gc = self.area.new_gc()
+        else:
+            self.area = area
+            self.gc = gc
+        self.cm = self.gc.get_colormap()
+        self.list = []
+
+    def get_sprite(self, i):
+        if i < 0 or i > len(self.list)-1:
+            return(None)
+        else:
+            return(self.list[i])
+
+    def length_of_list(self):
+        return(len(self.list))
+
+    def append_to_list(self, spr):
+        self.list.append(spr)
+
+    def insert_in_list(self, spr, i):
+        if i < 0:
+            self.list.insert(0, spr)
+        elif i > len(self.list)-1:
+            self.list.append(spr)
+        else:
+            self.list.insert(i, spr)
+
+    def remove_from_list(self, spr):
+        if spr in self.list:
+            self.list.remove(spr)
+
+    def find_sprite(self, pos):
+        list = self.list[:]
+        list.reverse()
+        for spr in list:
+            if spr.hit(pos): return spr
+        return None
+
+    def redraw_sprites(self):
+        for spr in self.list:
+            spr.draw()
+
+#
+# A class for the individual sprites
+#
+class Sprite:
+    def __init__(self, sprites, x, y, image):
+        self._sprites = sprites
+        self._x = int(x)
+        self._y = int(y)
+        self._scale = [12]
+        self._rescale = [True]
+        self._horiz_align = ["center"]
+        self._vert_align = ["middle"]
+        self._fd = None
+        self._bold = False
+        self._italic = False
+        self._color = None
+        self._width = 0
+        self._height = 0
+        self._margins = [0,0,0,0]
+        self.layer = 100
+        self.labels = []
+        self.images = []
+        self._dx = [] # image offsets
+        self._dy = []
+        self.set_image(image)
+        self._sprites.append_to_list(self)
+
+    def set_image(self, image, i=0, dx=0, dy=0):
+        while len(self.images) < i+1:
+           self.images.append(None)
+           self._dx.append(0)
+           self._dy.append(0)
+        self.images[i] = image
+        self._dx[i] = dx
+        self._dy[i] = dy
+        if isinstance(image, gtk.gdk.Pixbuf):
+            _w = image.get_width()
+            _h = image.get_height()
+        else:
+            _w, _h = image.get_size()
+        if i == 0: # Always reset width and height when base image changes.
+            self._width = _w + dx
+            self._height = _h + dy
+        else:
+            if _w + dx > self._width:
+                self._width = _w + dx
+            if _h + dy > self._height:
+                self._height = _h + dy
+
+    def move(self, pos):
+        self.inval()
+        self._x,self._y = int(pos[0]),int(pos[1])
+        self.inval()
+
+    def move_relative(self, pos):
+        self.inval()
+        self._x += int(pos[0])
+        self._y += int(pos[1])
+        self.inval()
+
+    def get_xy(self):
+        return (self._x, self._y)
+
+    def get_dimensions(self):
+        return (self._width, self._height)
+
+    def get_layer(self):
+        return self.layer
+
+    def set_shape(self, image, i=0):
+        self.inval()
+        self.set_image(image, i)
+        self.inval()
+
+    def set_layer(self, layer):
+        self._sprites.remove_from_list(self)
+        self.layer = layer
+        for i in range(self._sprites.length_of_list()):
+            if layer < self._sprites.get_sprite(i).layer:
+                self._sprites.insert_in_list(self, i)
+                self.inval()
+                return
+        self._sprites.append_to_list(self)
+        self.inval()
+
+    def set_label(self, new_label, i=0):
+        self._extend_labels_array(i)
+        if type(new_label) is str or type(new_label) is unicode:
+            # pango doesn't like nulls
+            self.labels[i] = new_label.replace("\0"," ")
+        else:
+            self.labels[i] = str(new_label)
+        self.inval()
+
+    def set_margins(self, l=0, t=0, r=0, b=0):
+        self._margins = [l,t,r,b]
+
+    def _extend_labels_array(self, i):
+        if self._fd is None:
+           self.set_font('Sans')
+        if self._color is None:
+           self._color = self._sprites.cm.alloc_color('black')
+        while len(self.labels) < i+1:
+           self.labels.append(" ")
+           self._scale.append(self._scale[0])
+           self._rescale.append(self._rescale[0])
+           self._horiz_align.append(self._horiz_align[0])
+           self._vert_align.append(self._vert_align[0])
+
+    def set_font(self, font):
+        self._fd = pango.FontDescription(font)
+
+    def set_label_color(self, rgb):
+        self._color = self._sprites.cm.alloc_color(rgb)
+
+    def set_label_attributes(self, scale, rescale=True, horiz_align="center",
+                             vert_align="middle", i=0):
+        self._extend_labels_array(i)
+        self._scale[i] = scale
+        self._rescale[i] = rescale
+        self._horiz_align[i] = horiz_align
+        self._vert_align[i] = vert_align
+
+    def hide(self):
+        self.inval()
+        self._sprites.remove_from_list(self)
+
+    def inval(self):
+        self._sprites.area.invalidate_rect(
+            gtk.gdk.Rectangle(self._x,self._y,self._width,self._height), False)
+
+    def draw(self):
+        for i,img in enumerate(self.images):
+            if isinstance(img, gtk.gdk.Pixbuf):
+                self._sprites.area.draw_pixbuf(
+                    self._sprites.gc, img, 0, 0, self._x+self._dx[i],
+                                                 self._y+self._dy[i])
+            elif img is not None:
+                self._sprites.area.draw_drawable(
+                    self._sprites.gc, img, 0, 0, self._x+self._dx[i],
+                                                 self._y+self._dy[i], -1, -1)
+        if len(self.labels) > 0:
+            self.draw_label()
+
+    def hit(self, pos):
+        x, y = pos
+        if x < self._x:
+            return False
+        if x > self._x+self._width:
+            return False
+        if y < self._y:
+            return False
+        if y > self._y+self._height:
+            return False
+        return True
+
+    def draw_label(self):
+        my_width = self._width-self._margins[0]-self._margins[2]
+        if my_width < 0:
+            my_width = 0
+        my_height = self._height-self._margins[1]-self._margins[3]
+        for i in range(len(self.labels)):
+            pl = self._sprites.canvas.create_pango_layout(str(self.labels[i]))
+            self._fd.set_size(int(self._scale[i]*pango.SCALE))
+            pl.set_font_description(self._fd)
+            w = pl.get_size()[0]/pango.SCALE
+            if w > my_width:
+                if self._rescale[i] is True:
+                    self._fd.set_size(
+                                    int(self._scale[i]*pango.SCALE*my_width/w))
+                    pl.set_font_description(self._fd)
+                    w = pl.get_size()[0]/pango.SCALE
+                else:
+                    j = len(self.labels[i])-1
+                    while(w > my_width and j > 0):
+                        pl = self._sprites.canvas.create_pango_layout(
+                                 "…"+self.labels[i][len(self.labels[i])-j:])
+                        self._fd.set_size(int(self._scale[i]*pango.SCALE))
+                        pl.set_font_description(self._fd)
+                        w = pl.get_size()[0]/pango.SCALE        
+                        j -= 1
+            if self._horiz_align[i] == "center":
+                x = int(self._x+self._margins[0]+(my_width-w)/2)
+            elif self._horiz_align[i] == 'left':
+                x = int(self._x+self._margins[0])
+            else: # right
+                x = int(self._x+self._width-w-self._margins[2])
+            h = pl.get_size()[1]/pango.SCALE
+            if self._vert_align[i] == "middle":
+                y = int(self._y+self._margins[1]+(my_height-h)/2)
+            elif self._vert_align[i] == "top":
+                y = int(self._y+self._margins[1])
+            else: # bottom
+                y = int(self._y+self._height-h-self._margins[3])
+            self._sprites.gc.set_foreground(self._color)
+            self._sprites.area.draw_layout(self._sprites.gc, x, y, pl)
+
+    def label_width(self):
+        max = 0
+        for i in range(len(self.labels)):
+            pl = self._sprites.canvas.create_pango_layout(self.labels[i])
+            self._fd.set_size(int(self._scale[i]*pango.SCALE))
+            pl.set_font_description(self._fd)
+            w = pl.get_size()[0]/pango.SCALE
+            if w > max:
+                max = w
+        return max
+
+    def label_safe_width(self):
+        return self._width-self._margins[0]-self._margins[2]
+    
+    def label_safe_height(self):
+        return self._height-self._margins[1]-self._margins[3]
+    
+    def label_left_top(self):
+        return (self._margins[0], self._margins[1])
+
+    def get_pixel(self, pos, i=0):
+        x, y = pos
+        x = x-self._x
+        y = y-self._y
+        if y > self.images[i].get_height()-1:
+            return (-1,-1,-1,-1)
+        try:
+            array = self.images[i].get_pixels()
+            if array is not None:
+                offset = (y*self.images[i].get_width()+x)*4
+                r,g,b,a = ord(array[offset]), ord(array[offset+1]),\
+                          ord(array[offset+2]), ord(array[offset+3])
+                return (r,g,b,a)
+            else:
+                return (-1,-1,-1,-1)
+        except IndexError:
+            print "Index Error: %d %d" % (len(array), offset)
+            return (-1,-1,-1,-1)
+