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path: root/tacanvas.py
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#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.

import gtk
from math import sin, cos, pi
import pango
import cairo

from sprites import Sprite
from tasprite_factory import SVG
from tautils import image_to_base64, data_to_string, round_int
from taconstants import CANVAS_LAYER, DEFAULT_TURTLE, BLACK, WHITE

import logging
_logger = logging.getLogger('turtleart-activity')


def wrap100(n):
    """ A variant on mod... 101 -> 99; 199 -> 1 """
    n = int(n)
    n %= 200
    if n > 99:
        n = 199 - n
    return n


def calc_shade(c, s):
    """ Convert a color to the current shade (lightness/darkness). """
    if s < 0:
        return int(c * (1 + s * 0.8))
    return int(c + (65536 - c) * s * 0.9)


def calc_gray(c, g):
    """ Gray is a psuedo saturation calculation. """
    if g == 100:
        return c
    return int(((c * g) + (32768 * (100 - g))) / 100)

colors = {}
DEGTOR = 2 * pi / 360

color_table = (
    0xFF0000, 0xFF0D00, 0xFF1A00, 0xFF2600, 0xFF3300,
    0xFF4000, 0xFF4D00, 0xFF5900, 0xFF6600, 0xFF7300,
    0xFF8000, 0xFF8C00, 0xFF9900, 0xFFA600, 0xFFB300,
    0xFFBF00, 0xFFCC00, 0xFFD900, 0xFFE600, 0xFFF200,
    0xFFFF00, 0xE6FF00, 0xCCFF00, 0xB3FF00, 0x99FF00,
    0x80FF00, 0x66FF00, 0x4DFF00, 0x33FF00, 0x1AFF00,
    0x00FF00, 0x00FF0D, 0x00FF1A, 0x00FF26, 0x00FF33,
    0x00FF40, 0x00FF4D, 0x00FF59, 0x00FF66, 0x00FF73,
    0x00FF80, 0x00FF8C, 0x00FF99, 0x00FFA6, 0x00FFB3,
    0x00FFBF, 0x00FFCC, 0x00FFD9, 0x00FFE6, 0x00FFF2,
    0x00FFFF, 0x00F2FF, 0x00E6FF, 0x00D9FF, 0x00CCFF,
    0x00BFFF, 0x00B3FF, 0x00A6FF, 0x0099FF, 0x008CFF,
    0x0080FF, 0x0073FF, 0x0066FF, 0x0059FF, 0x004DFF,
    0x0040FF, 0x0033FF, 0x0026FF, 0x001AFF, 0x000DFF,
    0x0000FF, 0x0D00FF, 0x1A00FF, 0x2600FF, 0x3300FF,
    0x4000FF, 0x4D00FF, 0x5900FF, 0x6600FF, 0x7300FF,
    0x8000FF, 0x8C00FF, 0x9900FF, 0xA600FF, 0xB300FF,
    0xBF00FF, 0xCC00FF, 0xD900FF, 0xE600FF, 0xF200FF,
    0xFF00FF, 0xFF00E6, 0xFF00CC, 0xFF00B3, 0xFF0099,
    0xFF0080, 0xFF0066, 0xFF004D, 0xFF0033, 0xFF001A)


class TurtleGraphics:
    """ A class for the Turtle graphics canvas """

    def __init__(self, tw, width, height):
        """ Create a sprite to hold the canvas. """
        self.tw = tw
        self.width = width
        self.height = height
        if self.tw.interactive_mode:
            self.canvas = Sprite(tw.sprite_list, 0, 0,
                gtk.gdk.Pixmap(self.tw.area, self.width, self.height, -1))
        else:
            self.canvas = Sprite(None, 0, 0, self.tw.window)
        self.canvas.set_layer(CANVAS_LAYER)
        (self.cx, self.cy) = self.canvas.get_xy()
        self.canvas.type = 'canvas'
        self.gc = self.canvas.images[0].new_gc()
        self.cm = self.gc.get_colormap()
        self.fgrgb = [255, 0, 0]
        self.fgcolor = self.cm.alloc_color('red')
        self.bgrgb = [255, 248, 222]
        self.bgcolor = self.cm.alloc_color('#fff8de')
        self.textsize = 48
        self.textcolor = self.cm.alloc_color('blue')
        self.tw.active_turtle.show()
        self.shade = 0
        self.pendown = True
        self.xcor = 0
        self.ycor = 0
        self.heading = 0
        self.pensize = 5
        self.tcolor = 0
        self.color = 0
        self.gray = 100
        self.fill = False
        self.poly_points = []
        self.svg = SVG()
        self.svg.set_fill_color('none')
        self.tw.svg_string = ''
        self.clearscreen(False)

    def start_fill(self):
        """ Start accumulating points of a polygon to fill. """
        self.fill = True
        self.poly_points = []

    def stop_fill(self):
        """ Fill the polygon. """
        self.fill = False
        if len(self.poly_points) == 0:
            return
        minx = self.poly_points[0][0]
        miny = self.poly_points[0][1]
        maxx = minx
        maxy = miny
        for p in self.poly_points:
            if p[0] < minx:
                minx = p[0]
            elif p[0] > maxx:
                maxx = p[0]
            if p[1] < miny:
                miny = p[1]
            elif p[1] > maxy:
                maxy = p[1]
        w = maxx - minx
        h = maxy - miny
        self.canvas.images[0].draw_polygon(self.gc, True, self.poly_points)
        self.invalt(minx - self.pensize * self.tw.coord_scale / 2 - 3,
                    miny - self.pensize * self.tw.coord_scale / 2 - 3,
                    w + self.pensize * self.tw.coord_scale + 6,
                    h + self.pensize * self.tw.coord_scale + 6)
        self.poly_points = []

    def clearscreen(self, share=True):
        """Clear the canvas and reset most graphics attributes to defaults."""
        rect = gtk.gdk.Rectangle(0, 0, self.width, self.height)
        self.gc.set_foreground(self.bgcolor)
        self.canvas.images[0].draw_rectangle(self.gc, True, *rect)
        self.invalt(0, 0, self.width, self.height)
        self.setpensize(5, share)
        self.setgray(100, share)
        self.setcolor(0, share)
        self.settextcolor(70)
        self.settextsize(48)
        self.setshade(50, share)
        self.setpen(True, share)
        for turtle_key in iter(self.tw.turtles.dict):
            self.set_turtle(turtle_key)
            self.tw.active_turtle.set_color(0)
            self.tw.active_turtle.set_shade(50)
            self.tw.active_turtle.set_pen_size(5)
            self.tw.active_turtle.set_pen_state(True)
            self.seth(0, share)
            self.setxy(0, 0, share)
        self.set_turtle(DEFAULT_TURTLE)
        self.tw.svg_string = ''
        self.svg.reset_min_max()
        self.fill = False
        self.poly_points = []

    def forward(self, n, share=True):
        """ Move the turtle forward."""
        nn = n * self.tw.coord_scale
        self.gc.set_foreground(self.fgcolor)
        oldx, oldy = self.xcor, self.ycor
        try:
            self.xcor += nn * sin(self.heading * DEGTOR)
            self.ycor += nn * cos(self.heading * DEGTOR)
        except TypeError, ValueError:
            _logger.debug("bad value sent to %s" % (__name__))
            return
        if self.pendown:
            self.draw_line(oldx, oldy, self.xcor, self.ycor)
        self.move_turtle()
        if self.tw.saving_svg and self.pendown:
            self.tw.svg_string += self.svg.new_path(oldx,
                                                    self.height / 2 - oldy)
            self.tw.svg_string += self.svg.line_to(self.xcor,
                                                   self.height / 2 - self.ycor)
            self.tw.svg_string += "\"\n"
            self.tw.svg_string += self.svg.style()
        if self.tw.sharing() and share:
            self.tw.activity.send_event("f|%s" % \
                                            (data_to_string([self.tw.nick,
                                                             int(n)])))

    def seth(self, n, share=True):
        """ Set the turtle heading. """
        try:
            self.heading = n
        except TypeError, ValueError:
            _logger.debug("bad value sent to %s" % (__name__))
            return
        self.heading %= 360
        self.turn_turtle()
        if self.tw.sharing() and share:
            self.tw.activity.send_event("r|%s" % \
                (data_to_string([self.tw.nick, round_int(self.heading)])))

    def right(self, n, share=True):
        """ Rotate turtle clockwise """
        try:
            self.heading += n
        except TypeError, ValueError:
            _logger.debug("bad value sent to %s" % (__name__))
            return
        self.heading %= 360
        self.turn_turtle()
        if self.tw.sharing() and share:
            self.tw.activity.send_event("r|%s" % \
                (data_to_string([self.tw.nick, round_int(self.heading)])))

    def arc(self, a, r, share=True):
        """ Draw an arc """
        self.gc.set_foreground(self.fgcolor)
        rr = r * self.tw.coord_scale
        try:
            if a < 0:
                self.larc(-a, rr)
            else:
                self.rarc(a, rr)
        except TypeError, ValueError:
            _logger.debug("bad value sent to %s" % (__name__))
            return
        self.move_turtle()
        if self.tw.sharing() and share:
            self.tw.activity.send_event("a|%s" % \
                (data_to_string([self.tw.nick, [round_int(a), round_int(r)]])))

    def rarc(self, a, r):
        """ draw a clockwise arc """
        if r < 0:
            r = -r
            a = -a
            s = 0
        else:
            s = 1
        oldx, oldy = self.xcor, self.ycor
        cx = self.xcor + r * cos(self.heading * DEGTOR)
        cy = self.ycor - r * sin(self.heading * DEGTOR)
        x = self.width / 2 + int(cx - r)
        y = self.height / 2 - int(cy + r)
        w = int(2 * r)
        h = w
        if self.pendown:
            self.canvas.images[0].draw_arc(self.gc, False, x, y, w, h,
                                int(180 - self.heading - a) * 64, int(a) * 64)
            self.invalt(x - self.pensize * self.tw.coord_scale / 2 - 3,
                        y - self.pensize * self.tw.coord_scale / 2 - 3,
                        w + self.pensize * self.tw.coord_scale + 6,
                        h + self.pensize * self.tw.coord_scale + 6)
        self.right(a, False)
        self.xcor = cx - r * cos(self.heading * DEGTOR)
        self.ycor = cy + r * sin(self.heading * DEGTOR)
        if self.tw.saving_svg and self.pendown:
            self.tw.svg_string += self.svg.new_path(oldx,
                                                    self.height / 2 - oldy)
            self.tw.svg_string += self.svg.arc_to(self.xcor,
                                                  self.height / 2 - self.ycor,
                                                  r, a, 0, s)
            self.tw.svg_string += "\"\n"
            self.tw.svg_string += self.svg.style()

    def larc(self, a, r):
        """ draw a counter-clockwise arc """
        if r < 0:
            r = -r
            a = -a
            s = 1
        else:
            s = 0
        oldx, oldy = self.xcor, self.ycor
        cx = self.xcor - r * cos(self.heading * DEGTOR)
        cy = self.ycor + r * sin(self.heading * DEGTOR)
        x = self.width / 2 + int(cx-r)
        y = self.height / 2 - int(cy+r)
        w = int(2 * r)
        h = w
        if self.pendown:
            self.canvas.images[0].draw_arc(self.gc, False, x, y, w, h,
                                           int(360 - self.heading) * 64,
                                           int(a) * 64)
            self.invalt(x - self.pensize * self.tw.coord_scale / 2 - 3,
                        y - self.pensize * self.tw.coord_scale / 2 - 3,
                        w + self.pensize * self.tw.coord_scale + 6,
                        h + self.pensize * self.tw.coord_scale + 6)
        self.right(-a, False)
        self.xcor = cx + r * cos(self.heading * DEGTOR)
        self.ycor = cy - r * sin(self.heading * DEGTOR)
        if self.tw.saving_svg and self.pendown:
            self.tw.svg_string += self.svg.new_path(oldx, self.height / 2-oldy)
            self.tw.svg_string += self.svg.arc_to(self.xcor,
                                                  self.height / 2-self.ycor,
                                                  r, a, 0, s)
            self.tw.svg_string += "\"\n"
            self.tw.svg_string += self.svg.style()

    def setxy(self, x, y, share=True):
        """ Move turtle to position x,y """
        x *= self.tw.coord_scale
        y *= self.tw.coord_scale
        try:
            self.xcor, self.ycor = x, y
        except TypeError, ValueError:
            _logger.debug("bad value sent to %s" % (__name__))
            return
        self.move_turtle()
        if self.tw.sharing() and share:
            self.tw.activity.send_event("x|%s" % \
                (data_to_string([self.tw.nick, [round_int(x), round_int(y)]])))

    def setpensize(self, ps, share=True):
        """ Set the pen size """
        try:
            if ps < 0:
                ps = 0
            self.pensize = ps
        except TypeError, ValueError:
            _logger.debug("bad value sent to %s" % (__name__))
            return
        self.tw.active_turtle.set_pen_size(ps)
        self.gc.set_line_attributes(int(self.pensize*self.tw.coord_scale),
                     gtk.gdk.LINE_SOLID, gtk.gdk.CAP_ROUND, gtk.gdk.JOIN_MITER)
        self.svg.set_stroke_width(self.pensize)
        if self.tw.sharing() and share:
            self.tw.activity.send_event("w|%s" % \
                (data_to_string([self.tw.nick, round_int(ps)])))

    def setcolor(self, c, share=True):
        """ Set the pen color """
        try:
            self.color = c
            self.tcolor = c
        except TypeError, ValueError:
            _logger.debug("bad value sent to %s" % (__name__))
            return
        self.tw.active_turtle.set_color(c)
        self.set_fgcolor()
        self.set_textcolor()
        if self.tw.sharing() and share:
            self.tw.activity.send_event("c|%s" % \
                (data_to_string([self.tw.nick, round_int(c)])))

    def setgray(self, g, share=True):
        """ Set the gray level """
        try:
            self.gray = g
        except TypeError, ValueError:
            _logger.debug("bad value sent to %s" % (__name__))
            return
        if self.gray < 0:
            self.gray = 0
        if self.gray > 100:
            self.gray = 100
        self.set_fgcolor()
        self.set_textcolor()
        self.tw.active_turtle.set_gray(self.gray)
        if self.tw.sharing() and share:
            self.tw.activity.send_event("g|%s" % \
                (data_to_string([self.tw.nick, round_int(self.gray)])))

    def settextcolor(self, c):
        """ Set the text color """
        try:
            self.tcolor = c
        except TypeError, ValueError:
            _logger.debug("bad value sent to %s" % (__name__))
            return
        self.set_textcolor()

    def settextsize(self, c):
        """ Set the text size """
        try:
            self.tw.textsize = c
        except TypeError, ValueError:
            _logger.debug("bad value sent to %s" % (__name__))

    def setshade(self, s, share=True):
        """ Set the color shade """
        try:
            self.shade = s
        except TypeError, ValueError:
            _logger.debug("bad value sent to %s" % (__name__))
            return
        self.tw.active_turtle.set_shade(s)
        self.set_fgcolor()
        self.set_textcolor()
        if self.tw.sharing() and share:
            self.tw.activity.send_event("s|%s" % \
                (data_to_string([self.tw.nick, round_int(s)])))

    def fillscreen(self, c, s):
        """ Fill screen with color/shade and reset to defaults """
        oldc, olds = self.color, self.shade
        self.setcolor(c, False)
        self.setshade(s, False)
        rect = gtk.gdk.Rectangle(0, 0, self.width, self.height)
        self.gc.set_foreground(self.fgcolor)
        self.bgrgb = self.fgrgb[:]
        self.canvas.images[0].draw_rectangle(self.gc, True, *rect)
        self.invalt(0, 0, self.width, self.height)
        self.setcolor(oldc, False)
        self.setshade(olds, False)
        self.tw.svg_string = ''
        self.svg.reset_min_max()
        self.fill = False
        self.poly_points = []

    def set_fgcolor(self):
        """ Set the foreground color """
        if self.color == WHITE or self.shade == WHITE:
            r = 0xFF00
            g = 0xFF00
            b = 0xFF00
        elif self.color == BLACK or self.shade == BLACK:
            r = 0x0000
            g = 0x0000
            b = 0x0000
        else:
            sh = (wrap100(self.shade) - 50) / 50.0
            rgb = color_table[wrap100(self.color)]
            r = (rgb >> 8) & 0xff00
            r = calc_gray(r, self.gray)
            r = calc_shade(r, sh)
            g = rgb & 0xff00
            g = calc_gray(g, self.gray)
            g = calc_shade(g, sh)
            b = (rgb << 8) & 0xff00
            b = calc_gray(b, self.gray)
            b = calc_shade(b, sh)
        self.fgrgb = [r >> 8, g >> 8, b >> 8]
        self.fgcolor = self.cm.alloc_color(r, g, b)
        self.svg.set_stroke_color("#%02x%02x%02x" % (self.fgrgb[0],
                                                     self.fgrgb[1],
                                                     self.fgrgb[2]))

    def set_textcolor(self):
        """ Set the text color """
        sh = (wrap100(self.shade) - 50) / 50.0
        rgb = color_table[wrap100(self.tcolor)]
        r, g, b = (rgb >> 8) & 0xff00, rgb & 0xff00, (rgb << 8) & 0xff00
        r, g, b = calc_shade(r, sh), calc_shade(g, sh), calc_shade(b, sh)
        self.tw.textcolor = self.cm.alloc_color(r, g, b)

    def setpen(self, bool, share=True):
        """ Lower or raise the pen """
        self.pendown = bool
        if self.tw.sharing() and share:
            self.tw.activity.send_event("p|%s" % \
                (data_to_string([self.tw.nick, bool])))

    def draw_pixbuf(self, pixbuf, a, b, x, y, w, h, path):
        """ Draw a pixbuf """
        w *= self.tw.coord_scale
        h *= self.tw.coord_scale
        self.canvas.images[0].draw_pixbuf(self.gc, pixbuf, a, b, x, y)
        self.invalt(x, y, w, h)
        if self.tw.saving_svg:
            if self.tw.running_sugar:
                # In Sugar, we need to embed the images inside the SVG
                self.tw.svg_string += self.svg.image(x - self.width / 2,
                                                     y, w, h, path,
                                                     image_to_base64(pixbuf,
                                                             self.tw.activity))
            else:
                self.tw.svg_string += self.svg.image(x - self.width / 2,
                                                     y, w, h, path)

    def draw_text(self, label, x, y, size, w):
        """ Draw text """
        w *= self.tw.coord_scale
        self.gc.set_foreground(self.tw.textcolor)
        fd = pango.FontDescription('Sans')
        try:
            fd.set_size(int(size * self.tw.coord_scale) * pango.SCALE)
        except TypeError, ValueError:
            _logger.debug("bad value sent to %s" % (__name__))
            return
        if self.tw.interactive_mode:
            if type(label) == str or type(label) == unicode:
                pl = self.tw.window.create_pango_layout(label.replace("\0", 
                                                                      " "))
            elif type(label) == float or type(label) == int:
                pl = self.tw.window.create_pango_layout(str(label))
            else:
                pl = self.tw.window.create_pango_layout(str(label))
            pl.set_font_description(fd)
            pl.set_width(int(w) * pango.SCALE)
            self.canvas.images[0].draw_layout(self.gc, int(x), int(y), pl)
            w, h = pl.get_pixel_size()
            self.invalt(x, y, w, h)
        else: # pixmap doesn't support pango
            message = str(label).replace("\0"," ")
            context = self.canvas.images[0].cairo_create()
            context.set_font_size(size)
            q, k, w, h = context.text_extents(message)[:4]
            context.set_source_rgb(0, 0, 0)
            context.move_to(x, y + h)
            context.show_text(message)

        if self.tw.saving_svg and self.pendown:
            self.tw.svg_string += self.svg.text(x - self.width / 2,
                                                y + size,
                                                size, w, label)

    def draw_line(self, x1, y1, x2, y2):
        """ Draw a line """
        x1, y1 = self.width / 2 + int(x1), self.height / 2 - int(y1)
        x2, y2 = self.width / 2 + int(x2), self.height / 2 - int(y2)
        if x1 < x2:
            minx, maxx = x1, x2
        else:
            minx, maxx = x2, x1
        if y1 < y2:
            miny, maxy = y1, y2
        else:
            miny, maxy = y2, y1
        w, h = maxx-minx, maxy-miny
        self.canvas.images[0].draw_line(self.gc, x1, y1, x2, y2)
        if self.fill and self.poly_points == []:
            self.poly_points.append((x1, y1))
        if self.fill:
            self.poly_points.append((x2, y2))
        self.invalt(minx - self.pensize * self.tw.coord_scale / 2 - 3,
                    miny - self.pensize * self.tw.coord_scale / 2 - 3,
                    w + self.pensize * self.tw.coord_scale + 6,
                    h + self.pensize * self.tw.coord_scale + 6)

    def turn_turtle(self):
        """ Change the orientation of the turtle """
        self.tw.active_turtle.set_heading(self.heading)

    def move_turtle(self):
        """ Move the turtle """
        x, y = self.width / 2 + int(self.xcor), self.height / 2 - int(self.ycor)
        self.tw.active_turtle.move((self.cx + x - 28, self.cy + y - 30))

    def invalt(self, x, y, w, h):
        """ Mark a region for refresh """
        if self.tw.interactive_mode:
            self.tw.area.invalidate_rect(gtk.gdk.Rectangle(int(x + self.cx),
                                                           int(y + self.cy),
                                                           int(w), int(h)),
                                         False)

    def set_turtle(self, k, colors=None):
        """ Select the current turtle and associated pen status """
        if not self.tw.turtles.dict.has_key(k):
            # if it is a new turtle, start it in the center of the screen
            self.tw.active_turtle = self.tw.turtles.get_turtle(k, True, colors)
            self.seth(0, False)
            self.setxy(0, 0, False)
            self.tw.active_turtle.set_pen_state(True)
        self.tw.active_turtle = self.tw.turtles.get_turtle(k, False)
        tx, ty = self.tw.active_turtle.get_xy()
        self.xcor = -self.width / 2 + tx + 28
        self.ycor = self.height / 2 - ty - 30
        self.heading = self.tw.active_turtle.get_heading()
        self.setcolor(self.tw.active_turtle.get_color(), False)
        self.setgray(self.tw.active_turtle.get_gray(), False)
        self.setshade(self.tw.active_turtle.get_shade(), False)
        self.setpensize(self.tw.active_turtle.get_pen_size(), False)
        self.setpen(self.tw.active_turtle.get_pen_state(), False)

    def svg_close(self):
        """ Close current SVG graphic """
        if self.tw.svg_string == '':
            return
        self.svg.calc_w_h(False)
        self.tw.svg_string = "%s%s%s%s" % (self.svg.header(True),
                              self.svg.background("#%02x%02x%02x" %\
                              (self.bgrgb[0], self.bgrgb[1], self.bgrgb[2])),
                              self.tw.svg_string, self.svg.footer())