130 lines
4.0 KiB
Python
130 lines
4.0 KiB
Python
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import math
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import gtk
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import gtk.gtkgl
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from OpenGL.GL import *
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from Line import Line
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from Circle import Circle
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class SketchWidget:
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def __init__(self, sketch):
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self.sketch = sketch
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try:
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# try double-buffered
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self.glconfig = gtk.gdkgl.Config(mode = (gtk.gdkgl.MODE_RGB |
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gtk.gdkgl.MODE_DOUBLE |
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gtk.gdkgl.MODE_DEPTH))
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except gtk.gdkgl.NoMatches:
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# try single-buffered
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self.glconfig = gtk.gdkgl.Config(mode = (gtk.gdkgl.MODE_RGB |
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gtk.gdkgl.MODE_DEPTH))
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self.widget = gtk.gtkgl.DrawingArea(self.glconfig)
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self.widget.connect_after('realize', self.init)
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self.widget.connect('configure_event', self.reshape)
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self.widget.connect('expose_event', self.draw)
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def init(self, glarea):
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# get GLContext and GLDrawable
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glcontext = glarea.get_gl_context()
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gldrawable = glarea.get_gl_drawable()
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# GL calls
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if not gldrawable.gl_begin(glcontext): return
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glLightfv(GL_LIGHT0, GL_POSITION, (1, 1, 1, 0))
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glEnable(GL_CULL_FACE)
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glEnable(GL_LIGHTING)
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glEnable(GL_LIGHT0)
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glEnable(GL_DEPTH_TEST)
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gldrawable.gl_end()
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def reshape(self, glarea, event):
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# get GLContext and GLDrawable
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glcontext = glarea.get_gl_context()
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gldrawable = glarea.get_gl_drawable()
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# GL calls
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if not gldrawable.gl_begin(glcontext): return
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x, y, width, height = glarea.get_allocation()
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glViewport(0, 0, width, height)
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glMatrixMode(GL_PROJECTION)
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glOrtho(-2, 2, -1.5, 1.5, 1.0, -1.0)
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glMatrixMode(GL_MODELVIEW)
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glLoadIdentity()
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gldrawable.gl_end()
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return True
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def draw(self, glarea, event):
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# get GLContext and GLDrawable
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glcontext = glarea.get_gl_context()
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gldrawable = glarea.get_gl_drawable()
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# GL calls
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if not gldrawable.gl_begin(glcontext): return
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glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT)
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for shape in self.sketch:
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if isinstance(shape, Line):
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self.drawLine(shape, 0.03)
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elif isinstance(shape, Circle):
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self.drawCircle(shape, 0.03)
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if gldrawable.is_double_buffered():
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gldrawable.swap_buffers()
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else:
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glFlush()
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gldrawable.gl_end()
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return True
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def drawLine(self, shape, size):
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self.drawFilledLine(shape.vars[0], shape.vars[1],
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shape.vars[2], shape.vars[3], size)
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def drawCircle(self, shape, size):
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steps = 24
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for i in range(steps + 1):
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angle = i * 2 * math.pi / steps
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next_angle = (i + 1) * 2 * math.pi / steps
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self.drawFilledLine(shape.vars[0] + shape.vars[2] * math.cos(angle),
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shape.vars[1] + shape.vars[2] * math.sin(angle),
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shape.vars[0] + shape.vars[2] * math.cos(next_angle),
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shape.vars[1] + shape.vars[2] * math.sin(next_angle),
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size)
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def drawFilledLine(self, x0, y0, x1, y1, size):
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glBegin(GL_QUADS)
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angle = math.atan2(y1 - y0, x1 - x0)
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ninety = math.pi / 2
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x_left = size * math.cos(angle + ninety)
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y_left = size * math.sin(angle + ninety)
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x_right = size * math.cos(angle - ninety)
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y_right = size * math.sin(angle - ninety)
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glVertex(x0 + x_left, y0 + y_left)
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glVertex(x0 + x_right, y0 + y_right)
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glVertex(x1 + x_right, y1 + y_right)
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glVertex(x1 + x_left, y1 + y_left)
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glEnd()
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self.drawFilledCircle(x0, y0, size, 16)
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self.drawFilledCircle(x1, y1, size, 16)
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def drawFilledCircle(self, x, y, radius, steps):
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glBegin(GL_TRIANGLE_FAN)
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glVertex(x, y)
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for i in range(steps + 1):
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angle = i * 2 * math.pi / steps
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glVertex(x + radius * math.cos(angle), y + radius * math.sin(angle))
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glEnd()
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