예제 #1
0
    def __init__(self):
        pts = generate_cyl_points().T

        colors = np.zeros_like(pts)
        colors[:,1]=1.0 # all green

        n_pts = len(pts)
        pts = map(float,pts.flat) # convert to flat list of floats
        colors = map(float, colors.flat)

        # Create ctypes arrays of the lists
        vertices = (gl.GLfloat * (n_pts*3))(*pts)
        colors = (gl.GLfloat * (n_pts*3))(*colors)

        # Create a list of triangle indices.
        indices = range(n_pts)
        indices = (gl.GLuint * n_pts)(*indices)

        # Compile a display list
        self.list = gl.glGenLists(1)
        gl.glNewList(self.list, gl.GL_COMPILE)

        gl.glPushClientAttrib(gl.GL_CLIENT_VERTEX_ARRAY_BIT)
        gl.glEnableClientState(gl.GL_VERTEX_ARRAY)
        gl.glVertexPointer(3, gl.GL_FLOAT, 0, vertices)
        gl.glEnableClientState(gl.GL_COLOR_ARRAY)
        gl.glColorPointer(3, gl.GL_FLOAT, 0, colors)
        gl.glDrawElements(gl.GL_LINES, len(indices), gl.GL_UNSIGNED_INT, indices)
        gl.glPopClientAttrib()

        gl.glEndList()
예제 #2
0
파일: trees.py 프로젝트: Knio/miru
    def _draw(self):
        corner = c = self.octree.corner
        w = self.octree.width

        gl.glPushAttrib( gl.GL_ENABLE_BIT )
        gl.glEnable( gl.GL_COLOR_MATERIAL )

        if self.octree._child_nodes is None:
            if self.list_id:
                gl.glCallList(self.list_id)
            else:
                self.list_id = gl.glGenLists(1)
                gl.glNewList(self.list_id, gl.GL_COMPILE)

                gl.glColor3f(*self.color)
                gl.glBegin(gl.GL_LINE_LOOP)
                gl.glVertex3f(*c)
                gl.glVertex3f(*(c + (0,w,0)))
                gl.glVertex3f(*(c + (0,w,w)))
                gl.glVertex3f(*(c + (0,0,w)))
                gl.glEnd()

                c = corner + (w,0,0)

                gl.glBegin(gl.GL_LINE_LOOP)
                gl.glVertex3f(*c)
                gl.glVertex3f(*(c + (0,w,0)))
                gl.glVertex3f(*(c + (0,w,w)))
                gl.glVertex3f(*(c + (0,0,w)))
                gl.glEnd()

                gl.glBegin(gl.GL_LINES)
                gl.glVertex3f(*c)
                gl.glVertex3f(*(c - (w,0,0)))
                gl.glVertex3f(*(c + (0,w,0)))
                gl.glVertex3f(*(corner + (0,w,0)))
                gl.glVertex3f(*(c + (0,w,w)))
                gl.glVertex3f(*(corner + (0,w,w)))
                gl.glVertex3f(*(c + (0,0,w)))
                gl.glVertex3f(*(corner + (0,0,w)))
                gl.glEnd()

                gl.glEndList()

        # This could be optimized of course
        if self.octree._child_nodes is not None:
            r = self.color[0] + 0.14
            if r < 1.0:
                r = r % 1.0
            else:
                r = 1.0
            b = max((self.color[2] - 0.14), 0)
            for node in self.octree._child_nodes.values():
                if not self._cache.has_key(id(node)):
                    self._cache[id(node)] = OctreeDebug(node, color=(r,0,b))
                debugNode = self._cache[id(node)]
                debugNode._draw()
        gl.glColor3f(1,1,1)

        gl.glPopAttrib()
예제 #3
0
    def __init__(self):
        pts = generate_cyl_points().T

        colors = np.zeros_like(pts)
        colors[:,1]=1.0 # all green

        n_pts = len(pts)
        pts = map(float,pts.flat) # convert to flat list of floats
        colors = map(float, colors.flat)

        # Create ctypes arrays of the lists
        vertices = (gl.GLfloat * (n_pts*3))(*pts)
        colors = (gl.GLfloat * (n_pts*3))(*colors)

        # Create a list of triangle indices.
        indices = range(n_pts)
        indices = (gl.GLuint * n_pts)(*indices)

        # Compile a display list
        self.list = gl.glGenLists(1)
        gl.glNewList(self.list, gl.GL_COMPILE)

        gl.glPushClientAttrib(gl.GL_CLIENT_VERTEX_ARRAY_BIT)
        gl.glEnableClientState(gl.GL_VERTEX_ARRAY)
        gl.glVertexPointer(3, gl.GL_FLOAT, 0, vertices)
        gl.glEnableClientState(gl.GL_COLOR_ARRAY)
        gl.glColorPointer(3, gl.GL_FLOAT, 0, colors)
        gl.glDrawElements(gl.GL_POINTS, len(indices), gl.GL_UNSIGNED_INT, indices)
        gl.glPopClientAttrib()

        gl.glEndList()
예제 #4
0
 def __init__(self, x, y, s):
     self.color = (200.0, 200.0, 200.0)
     self.s, self.x, self.y = s, x, y
     self.square = gl.glGenLists(1)
     self.move(0, 0)
     gl.glNewList(self.square, gl.GL_COMPILE)
     self.draw_square()
     gl.glEndList()
예제 #5
0
    def _text_glyphs_gl(self):
        if not self._text_dlist:
            dl_index = glGenLists(1)
            glNewList(dl_index, GL_COMPILE)

            # stime=getTime()

            # self._text_box._te_start_gl()

            ###
            glActiveTexture(GL_TEXTURE0)
            glEnable(GL_TEXTURE_2D)
            glBindTexture(GL_TEXTURE_2D,
                          self._text_box._current_glfont.atlas.texid)
            glTexEnvf(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE)
            glTranslatef(self._position[0], -self._position[1], 0)
            glPushMatrix()

            ###

            getLineInfoByIndex = self._text_document.getLineInfoByIndex
            active_text_style_dlist = self._current_font_display_lists.get
            cell_width, cell_height = self._cell_size
            num_cols, num_rows = self._shape
            line_spacing = self._text_box._getPixelTextLineSpacing()
            line_count = self.getRowCountWithText()

            glColor4f(*self._text_box._toRGBA(self._font_color))

            for r in range(line_count):
                cline, line_length, line_display_list, line_ords = getLineInfoByIndex(
                    r)
                if line_display_list[0] == 0:
                    line_display_list[0:line_length] = [
                        active_text_style_dlist(c) for c in line_ords
                    ]

                glTranslatef(
                    cline._trans_left * cell_width,
                    -int(line_spacing / 2.0 + cline._trans_top * cell_height),
                    0)
                glCallLists(line_length, GL_UNSIGNED_INT,
                            line_display_list[0:line_length].ctypes)
                cline._trans_left = 0
                glTranslatef(
                    -line_length * cell_width - cline._trans_left * cell_width,
                    -cell_height +
                    int(line_spacing / 2.0 + cline._trans_top * cell_height),
                    0)

                ###
            glPopMatrix()
            glBindTexture(GL_TEXTURE_2D, 0)
            glDisable(GL_TEXTURE_2D)

            glEndList()
            self._text_dlist = dl_index
        glCallList(self._text_dlist)
예제 #6
0
    def __init__(self, radius, inner_radius, slices, inner_slices):
        # Create the vertex and normal arrays.
        vertices = []
        normals = []

        u_step = 2 * math.pi / (slices - 1)
        v_step = 2 * math.pi / (inner_slices - 1)
        u = 0.
        for i in range(slices):
            cos_u = math.cos(u)
            sin_u = math.sin(u)
            v = 0.
            for j in range(inner_slices):
                cos_v = math.cos(v)
                sin_v = math.sin(v)

                d = (radius + inner_radius * cos_v)
                x = d * cos_u
                y = d * sin_u
                z = inner_radius * sin_v

                nx = cos_u * cos_v
                ny = sin_u * cos_v
                nz = sin_v

                vertices.extend([x, y, z])
                normals.extend([nx, ny, nz])
                v += v_step
            u += u_step

        # Create ctypes arrays of the lists
        vertices = (gl.GLfloat * len(vertices))(*vertices)
        normals = (gl.GLfloat * len(normals))(*normals)

        # Create a list of triangle indices.
        indices = []
        for i in range(slices - 1):
            for j in range(inner_slices - 1):
                p = i * inner_slices + j
                indices.extend([p, p + inner_slices, p + inner_slices + 1])
                indices.extend([p, p + inner_slices + 1, p + 1])
        indices = (gl.GLuint * len(indices))(*indices)

        # Compile a display list
        self.list = gl.glGenLists(1)
        gl.glNewList(self.list, gl.GL_COMPILE)

        gl.glPushClientAttrib(gl.GL_CLIENT_VERTEX_ARRAY_BIT)
        gl.glEnableClientState(gl.GL_VERTEX_ARRAY)
        gl.glEnableClientState(gl.GL_NORMAL_ARRAY)
        gl.glVertexPointer(3, gl.GL_FLOAT, 0, vertices)
        gl.glNormalPointer(gl.GL_FLOAT, 0, normals)
        gl.glDrawElements(gl.GL_TRIANGLES, len(indices), gl.GL_UNSIGNED_INT,
                          indices)
        gl.glPopClientAttrib()

        gl.glEndList()
예제 #7
0
파일: CobwebTool.py 프로젝트: cmorgan/dypy
    def init_points(self):
        self.points_lock.acquire()

        try:
            from pyglet.gl import (
                glGenLists,
                glNewList,
                GL_COMPILE,
                glBegin,
                GL_LINE_STRIP,
                GL_LINES,
                glColor4f,
                glVertex2f,
                glEnd,
                glEndList,
                glEnable,
            )

            self.server.clear_each_frame = False
            self.server.iteration = 0

            # initial state/parameters
            self.point = CobwebPoint(tool=self)

            # create display list for first iterate of function
            self.iterate_list = glGenLists(1)

            glNewList(self.iterate_list, GL_COMPILE)
            glBegin(GL_LINE_STRIP)
            glColor4f(217 / 255.0, 115 / 255.0, 56 / 255.0, 0.9)

            p = CobwebPoint(tool=self)
            state_index = self.state_indices[0]

            for i in numpy.arange(self.state_ranges[state_index][0], self.state_ranges[state_index][1], 0.001):
                p.state[state_index] = i
                state_new = self.system.iterate(p.state, p.parameters)
                glVertex2f(i, state_new[state_index])

            glEnd()
            glEndList()

            # create display list for axis of reflection
            self.reflection_list = glGenLists(1)

            glNewList(self.reflection_list, GL_COMPILE)
            glBegin(GL_LINES)
            glColor4f(217 / 255.0, 88 / 255.0, 41 / 255.0, 0.9)

            glVertex2f(self.state_ranges[state_index][0], self.state_ranges[state_index][0])
            glVertex2f(self.state_ranges[state_index][1], self.state_ranges[state_index][1])

            glEnd()
            glEndList()
        except Exception, detail:
            print "init_points()", type(detail), detail
예제 #8
0
    def __init__(self, radius, inner_radius, slices, inner_slices):
        # Create the vertex and normal arrays.
        vertices = []
        normals = []

        u_step = 2 * pi / (slices - 1)
        v_step = 2 * pi / (inner_slices - 1)
        u = 0.
        for i in range(slices):
            cos_u = cos(u)
            sin_u = sin(u)
            v = 0.
            for j in range(inner_slices):
                cos_v = cos(v)
                sin_v = sin(v)

                d = (radius + inner_radius * cos_v)
                x = d * cos_u
                y = d * sin_u
                z = inner_radius * sin_v

                nx = cos_u * cos_v
                ny = sin_u * cos_v
                nz = sin_v

                vertices.extend([x, y, z])
                normals.extend([nx, ny, nz])
                v += v_step
            u += u_step

        # Create ctypes arrays of the lists
        vertices = (GLfloat * len(vertices))(*vertices)
        normals = (GLfloat * len(normals))(*normals)

        # Create a list of triangle indices.
        indices = []
        for i in range(slices - 1):
            for j in range(inner_slices - 1):
                p = i * inner_slices + j
                indices.extend([p, p + inner_slices, p + inner_slices + 1])
                indices.extend([p, p + inner_slices + 1, p + 1])
        indices = (GLuint * len(indices))(*indices)

        # Compile a display list
        self.list = glGenLists(1)
        glNewList(self.list, GL_COMPILE)

        glPushClientAttrib(GL_CLIENT_VERTEX_ARRAY_BIT)
        glEnableClientState(GL_VERTEX_ARRAY)
        glEnableClientState(GL_NORMAL_ARRAY)
        glVertexPointer(3, GL_FLOAT, 0, vertices)
        glNormalPointer(GL_FLOAT, 0, normals)
        glDrawElements(GL_TRIANGLES, len(indices), GL_UNSIGNED_INT, indices)
        glPopClientAttrib()

        glEndList()
예제 #9
0
 def render_slow(self):
     self.disp_list = gl.glGenLists(1)
     gl.glNewList(self.disp_list, gl.GL_COMPILE)
     for x in range(ROOM_X):
         for y in range(ROOM_Y):
             square = self[x,y]
             if square.material and square.material.visible and square.material.texture != None:
                 gl.glColor3ub(*square.material.colour)
                 square.material.texture.blit(x*16,y*16)
     gl.glEndList()
예제 #10
0
    def _text_glyphs_gl(self):
        if not self._text_dlist:
            dl_index = glGenLists(1)
            glNewList(dl_index, GL_COMPILE)

            # stime=getTime()

            # self._text_box._te_start_gl()

            ###
            glActiveTexture(GL_TEXTURE0)
            glEnable(GL_TEXTURE_2D)
            glBindTexture(
                GL_TEXTURE_2D, self._text_box._current_glfont.atlas.texid)
            glTexEnvf(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE)
            glTranslatef(self._position[0], -self._position[1], 0)
            glPushMatrix()

            ###

            getLineInfoByIndex = self._text_document.getLineInfoByIndex
            active_text_style_dlist = self._current_font_display_lists.get
            cell_width, cell_height = self._cell_size
            num_cols, num_rows = self._shape
            line_spacing = self._text_box._getPixelTextLineSpacing()
            line_count = self.getRowCountWithText()

            glColor4f(*self._text_box._toRGBA(self._font_color))

            for r in range(line_count):
                cline, line_length, line_display_list, line_ords = getLineInfoByIndex(
                    r)
                if line_display_list[0] == 0:
                    line_display_list[0:line_length] = [
                        active_text_style_dlist(c) for c in line_ords]

                glTranslatef(cline._trans_left * cell_width, -
                             int(line_spacing/2.0 + cline._trans_top * cell_height), 0)
                glCallLists(line_length, GL_UNSIGNED_INT,
                            line_display_list[0:line_length].ctypes)
                cline._trans_left = 0
                glTranslatef(-line_length * cell_width - cline._trans_left * cell_width, -
                             cell_height + int(line_spacing/2.0 + cline._trans_top * cell_height), 0)

                ###
            glPopMatrix()
            glBindTexture(GL_TEXTURE_2D, 0)
            glDisable(GL_TEXTURE_2D)

            glEndList()
            self._text_dlist = dl_index
        glCallList(self._text_dlist)
예제 #11
0
    def multi_draw(*args, **kwargs):
        gl.glEnable(gl.GL_BLEND)
        gl.glBlendFunc(gl.GL_ONE, gl.GL_ONE)
        gl.glEnable(gl.GL_LINE_SMOOTH)
        gl.glEnable(gl.GL_POINT_SMOOTH)
        gl.glClearColor(0, 0, 0, 0)
        gl.glColor4f(1, 1, 1, 1)

        gl.glClear(gl.GL_COLOR_BUFFER_BIT)

        if not buffers:
            buffers.append(image.get_buffer_manager())
        x, y, w, h = buffers[0].get_viewport()

        #Draw lowres version
        gl.glViewport(0, 0, 256, 256)
        func(*args, **kwargs)
        ctex[0] = buffers[0].get_color_buffer().texture

        #Lay down copies of lowres version
        gl.glViewport(x, y, w, h)
        gl.glClear(gl.GL_COLOR_BUFFER_BIT)
        gl.glBindTexture(ctex[0].target, ctex[0].id)
        gl.glEnable(gl.GL_TEXTURE_2D)
        gl.glTexParameteri(gl.GL_TEXTURE_2D, gl.GL_TEXTURE_MAG_FILTER,
                           gl.GL_LINEAR)
        if not disp_list:
            disp_list.append(gl.glGenLists(1))
            gl.glNewList(disp_list[0], gl.GL_COMPILE)
            for u in range(-3, 4, 3):
                for v in range(-3, 4, 3):
                    gl.glColor4f(1, 1, 1, (20.0 - u**2 - v**2) / 72)
                    gl.glBegin(gl.GL_QUADS)
                    gl.glTexCoord2f(0, 0)
                    gl.glVertex3f(u, v, -.5)
                    gl.glTexCoord2f(1, 0)
                    gl.glVertex3f(u + w, v, -.5)
                    gl.glTexCoord2f(1, 1)
                    gl.glVertex3f(u + w, v + h, -.5)
                    gl.glTexCoord2f(0, 1)
                    gl.glVertex3f(u, v + h, -.5)
                    gl.glEnd()
            gl.glEndList()
        gl.glCallList(disp_list[0])
        gl.glDisable(gl.GL_TEXTURE_2D)

        #Draw real thing
        gl.glColor4f(1, 1, 1, 1)
        func(*args, **kwargs)
예제 #12
0
 def __init__(self, x, y, s):
     self.selected = False
     self.neighbors = {}
     self.color = (0.0, 0.0, 0.0)
     self.points = (((s * x) + s * 10 * x - s * 5,
                     (s * y) + s * 10 * y - s * 5),
                    ((s * x) + s * 10 * x - s * 5,
                     (s * y) + s * 10 * y + s * 5),
                    ((s * x) + s * 10 * x + s * 5,
                     (s * y) + s * 10 * y + s * 5),
                    ((s * x) + s * 10 * x + s * 5,
                     (s * y) + s * 10 * y - s * 5))
     self.square = gl.glGenLists(1)
     gl.glNewList(self.square, gl.GL_COMPILE)
     self.draw_square()
     gl.glEndList()
예제 #13
0
파일: polygon.py 프로젝트: pfirsich/Pywi
	def compileDisplayList(self, triangulate=True):
		quad = gl.glGenLists(1)
		gl.glNewList(quad, gl.GL_COMPILE)
		if triangulate:
			gl.glBegin(gl.GL_TRIANGLES)
			triangles = self.triangulate()
			for triangle in triangles:
				for node in triangle:
					gl.glTexCoord2f(node[0], node[1])
					gl.glVertex2f(node[0], node[1])
			gl.glEnd()
		else:
			gl.glBegin(gl.GL_LINE_STRIP)
			for node in self:
				gl.glVertex2f(node[0], node[1])
			gl.glEnd()
		gl.glEndList()
		return quad
예제 #14
0
    def _textgrid_lines_gl(self):
        if self._line_color:
            if not self._gridlines_dlist:                
                dl_index = glGenLists(1)        
                glNewList(dl_index, GL_COMPILE)           

                glLineWidth(self._line_width)
                glColor4f(*self._text_box._toRGBA(self._line_color))                   
                glBegin(GL_LINES)
                for x in self._col_lines:
                    for y in self._row_lines:
                        if x == 0:
                            glVertex2i(x,y)
                            glVertex2i(int(self._size[0]), y)
                        if y == 0:
                            glVertex2i(x, y)
                            glVertex2i(x, int(-self._size[1]))                        
                glEnd()
                glColor4f(0.0,0.0,0.0,1.0)
                glEndList() 
                self._gridlines_dlist=dl_index
            glCallList(self._gridlines_dlist) 
예제 #15
0
    def _textgrid_lines_gl(self):
        if self._line_color:
            if not self._gridlines_dlist:
                dl_index = glGenLists(1)
                glNewList(dl_index, GL_COMPILE)

                glLineWidth(self._line_width)
                glColor4f(*self._text_box._toRGBA(self._line_color))
                glBegin(GL_LINES)
                for x in self._col_lines:
                    for y in self._row_lines:
                        if x == 0:
                            glVertex2i(x, y)
                            glVertex2i(int(self._size[0]), y)
                        if y == 0:
                            glVertex2i(x, y)
                            glVertex2i(x, int(-self._size[1]))
                glEnd()
                glColor4f(0.0, 0.0, 0.0, 1.0)
                glEndList()
                self._gridlines_dlist = dl_index
            glCallList(self._gridlines_dlist)
예제 #16
0
    def createDisplayLists(self):
        glyph_count = len(self.charcode2unichr)
        max_tile_width = self.max_tile_width
        max_tile_height = self.max_tile_height
        display_lists_for_chars = {}

        base = glGenLists(glyph_count)
        for i, (charcode, glyph) in enumerate(self.charcode2glyph.items()):
            dl_index = base + i
            uchar = self.charcode2unichr[charcode]

            # update tex coords to reflect earlier resize of atlas height.
            gx1, gy1, gx2, gy2 = glyph['texcoords']
            gx1 = gx1/float(self.atlas.width)
            gy1 = gy1/float(self.atlas.height)
            gx2 = gx2/float(self.atlas.width)
            gy2 = gy2/float(self.atlas.height)
            glyph['texcoords'] = [gx1, gy1, gx2, gy2]

            glNewList(dl_index, GL_COMPILE)
            if uchar not in [u'\t', u'\n']:
                glBegin(GL_QUADS)
                x1 = glyph['offset'][0]
                x2 = x1 + glyph['size'][0]
                y1 = (self.max_ascender - glyph['offset'][1])
                y2 = y1 + glyph['size'][1]

                glTexCoord2f(gx1, gy2), glVertex2f(x1, -y2)
                glTexCoord2f(gx1, gy1), glVertex2f(x1, -y1)
                glTexCoord2f(gx2, gy1), glVertex2f(x2, -y1)
                glTexCoord2f(gx2, gy2), glVertex2f(x2, -y2)
                glEnd()
                glTranslatef(max_tile_width, 0, 0)
            glEndList()

            display_lists_for_chars[charcode] = dl_index

        self.charcode2displaylist = display_lists_for_chars
예제 #17
0
    def createDisplayLists(self):
        glyph_count = len(self.charcode2unichr)
        max_tile_width = self.max_tile_width
        max_tile_height = self.max_tile_height
        display_lists_for_chars = {}

        base = glGenLists(glyph_count)
        for i, (charcode, glyph) in enumerate(self.charcode2glyph.items()):
            dl_index = base + i
            uchar = self.charcode2unichr[charcode]

            # update tex coords to reflect earlier resize of atlas height.
            gx1, gy1, gx2, gy2 = glyph['texcoords']
            gx1 = gx1 / float(self.atlas.width)
            gy1 = gy1 / float(self.atlas.height)
            gx2 = gx2 / float(self.atlas.width)
            gy2 = gy2 / float(self.atlas.height)
            glyph['texcoords'] = [gx1, gy1, gx2, gy2]

            glNewList(dl_index, GL_COMPILE)
            if uchar not in [u'\t', u'\n']:
                glBegin(GL_QUADS)
                x1 = glyph['offset'][0]
                x2 = x1 + glyph['size'][0]
                y1 = (self.max_ascender - glyph['offset'][1])
                y2 = y1 + glyph['size'][1]

                glTexCoord2f(gx1, gy2), glVertex2f(x1, -y2)
                glTexCoord2f(gx1, gy1), glVertex2f(x1, -y1)
                glTexCoord2f(gx2, gy1), glVertex2f(x2, -y1)
                glTexCoord2f(gx2, gy2), glVertex2f(x2, -y2)
                glEnd()
                glTranslatef(max_tile_width, 0, 0)
            glEndList()

            display_lists_for_chars[charcode] = dl_index

        self.charcode2displaylist = display_lists_for_chars
예제 #18
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 def _create_display_list(self, function):
     dl = pgl.glGenLists(1)
     pgl.glNewList(dl, pgl.GL_COMPILE)
     function()
     pgl.glEndList()
     return dl
예제 #19
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 def begin(self):
     """Begin compilation of a display list."""
     gl.glNewList(self.id, gl.GL_COMPILE)
예제 #20
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파일: actors.py 프로젝트: ptitleud/Printrun
def compile_display_list(func, *options):
    display_list = glGenLists(1)
    glNewList(display_list, GL_COMPILE)
    func(*options)
    glEndList()
    return display_list
예제 #21
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파일: graphics.py 프로젝트: Knio/miru
 def __init__(self, drawf):
     self.list_id = gl.glGenLists( 1 )
     gl.glNewList( self.list_id, gl.GL_COMPILE )
     drawf()
     gl.glEndList()
예제 #22
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 def _create_display_list(self, function):
     dl = pgl.glGenLists(1)
     pgl.glNewList(dl, pgl.GL_COMPILE)
     function()
     pgl.glEndList()
     return dl
예제 #23
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    def render(self, scene):
        """ Add a ring to the view.

        :param scene: The view to render the model into
        :type scene: pyglet_helper.objects.View
        """
        if self.degenerate:
            return
        # The number of subdivisions around the hoop's radial direction.
        if self.thickness:
            band_coverage = scene.pixel_coverage(self.pos, self.thickness)
        else:
            band_coverage = scene.pixel_coverage(self.pos, self.radius * 0.1)
        if band_coverage < 0:
            band_coverage = 1000
        bands = sqrt(band_coverage * 4.0)
        bands = clamp(4, bands, 40)
        # The number of subdivisions around the hoop's tangential direction.
        ring_coverage = scene.pixel_coverage(self.pos, self.radius)
        if ring_coverage < 0:
            ring_coverage = 1000
        rings = sqrt(ring_coverage * 4.0)
        rings = clamp(4, rings, 80)
        slices = int(rings)
        inner_slices = int(bands)
        radius = self.radius
        inner_radius = self.thickness

        # Create the vertex and normal arrays.
        vertices = []
        normals = []

        outer_angle_step = 2 * pi / (slices - 1)
        inner_angle_step = 2 * pi / (inner_slices - 1)
        outer_angle = 0.
        for i in range(slices):
            cos_outer_angle = cos(outer_angle)
            sin_outer_angle = sin(outer_angle)
            inner_angle = 0.
            for j in range(inner_slices):
                cos_inner_angle = cos(inner_angle)
                sin_inner_angle = sin(inner_angle)

                diameter = (radius + inner_radius * cos_inner_angle)
                vertex_x = diameter * cos_outer_angle
                vertex_y = diameter * sin_outer_angle
                vertex_z = inner_radius * sin_inner_angle

                normal_x = cos_outer_angle * cos_inner_angle
                normal_y = sin_outer_angle * cos_inner_angle
                normal_z = sin_inner_angle

                vertices.extend([vertex_x, vertex_y, vertex_z])
                normals.extend([normal_x, normal_y, normal_z])
                inner_angle += inner_angle_step
            outer_angle += outer_angle_step

        # Create ctypes arrays of the lists
        vertices = (gl.GLfloat *len(vertices))(*vertices)
        normals = (gl.GLfloat * len(normals))(*normals)

        # Create a list of triangle indices.
        indices = []
        for i in range(slices - 1):
            for j in range(inner_slices - 1):
                pos = i * inner_slices + j
                indices.extend([pos, pos + inner_slices, pos + inner_slices +
                                1])
                indices.extend([pos, pos + inner_slices + 1, pos + 1])
        indices = (gl.GLuint * len(indices))(*indices)

        # Compile a display list
        self.list = gl.glGenLists(1)
        gl.glNewList(self.list, gl.GL_COMPILE)
        self.color.gl_set(self.opacity)

        gl.glPushClientAttrib(gl.GL_CLIENT_VERTEX_ARRAY_BIT)
        gl.glEnableClientState(gl.GL_VERTEX_ARRAY)
        gl.glEnableClientState(gl.GL_NORMAL_ARRAY)
        self.model_world_transform(scene.gcf,
                                   Vector([self.radius, self.radius,
                                           self.radius])).gl_mult()

        gl.glVertexPointer(3, gl.GL_FLOAT, 0, vertices)
        gl.glNormalPointer(gl.GL_FLOAT, 0, normals)
        gl.glDrawElements(gl.GL_TRIANGLES, len(indices), gl.GL_UNSIGNED_INT,
                          indices)
        gl.glPopClientAttrib()

        gl.glEndList()
        gl.glCallList(self.list)
예제 #24
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    def __init__(self, font_name, size):
        FT = freetype2.FT  # easier access to constants
        self.lib = freetype2.get_default_lib()

        # Load font  and check it is monotype
        face = self.lib.find_face(font_name)
        face.set_char_size(size=size, resolution=90)
        if face.face_flags & FT.FACE_FLAG_FIXED_WIDTH == 0:
            raise 'Font is not monotype'

        # Determine largest glyph size
        width, height, ascender, descender = 0, 0, 0, 0
        for c in range(32, 128):
            face.load_char(c, FT.LOAD_RENDER | FT.LOAD_FORCE_AUTOHINT)
            bitmap = face.glyph.bitmap
            width = max(width, bitmap.width)
            ascender = max(ascender, face.glyph.bitmap_top)
            descender = max(descender, bitmap.rows - face.glyph.bitmap_top)
        height = ascender + descender

        # Generate texture data
        Z = numpy.zeros((height * 6, width * 16), dtype=numpy.ubyte)
        for j in range(6):
            for i in range(16):
                face.load_char(32 + j * 16 + i,
                               FT.LOAD_RENDER | FT.LOAD_FORCE_AUTOHINT)
                bitmap = face.glyph.bitmap.copy_with_array()
                x = i * width + face.glyph.bitmap_left
                y = j * height + ascender - face.glyph.bitmap_top
                Z[y:y + bitmap.rows, x:x + bitmap.width].flat = bitmap.buffer

        # Bound texture
        self.texture_ids = (pyglet.gl.GLuint * 1)()
        gl.glGenTextures(1, self.texture_ids)
        self.texture_id = self.texture_ids[0]
        gl.glBindTexture(gl.GL_TEXTURE_2D, self.texture_id)
        gl.glTexParameterf(gl.GL_TEXTURE_2D, gl.GL_TEXTURE_MAG_FILTER,
                           gl.GL_LINEAR)
        gl.glTexParameterf(gl.GL_TEXTURE_2D, gl.GL_TEXTURE_MIN_FILTER,
                           gl.GL_LINEAR)
        gl.glTexImage2D(gl.GL_TEXTURE_2D, 0, gl.GL_ALPHA, Z.shape[1],
                        Z.shape[0], 0, gl.GL_ALPHA, gl.GL_UNSIGNED_BYTE,
                        Z.tostring())

        # Generate display lists
        dx, dy = width / float(Z.shape[1]), height / float(Z.shape[0])
        self.base = gl.glGenLists(8 * 16)
        for i in range(8 * 16):
            c = chr(i)
            x = i % 16
            y = i // 16 - 2
            gl.glNewList(self.base + i, gl.GL_COMPILE)
            if (c == '\n'):
                gl.glPopMatrix()
                gl.glTranslatef(0, -height, 0)
                gl.glPushMatrix()
            elif (c == '\t'):
                gl.glTranslatef(4 * width, 0, 0)
            elif (i >= 32):
                gl.glBegin(gl.GL_QUADS)
                gl.glTexCoord2d((x) * dx,
                                (y + 1) * dy), gl.glVertex2d(0, -height)
                gl.glTexCoord2d((x) * dx, (y) * dy), gl.glVertex2d(0, 0)
                gl.glTexCoord2d((x + 1) * dx,
                                (y) * dy), gl.glVertex2d(width, 0)
                gl.glTexCoord2d((x + 1) * dx,
                                (y + 1) * dy), gl.glVertex2d(width, -height)
                gl.glEnd()
                gl.glTranslatef(width, 0, 0)
            gl.glEndList()
예제 #25
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    def _text_glyphs_gl(self):
        if not self._text_dlist:            
            dl_index = glGenLists(1)        
            glNewList(dl_index, GL_COMPILE)           

            #stime=getTime()

            #self._text_box._te_start_gl()                         
    
            ###
            glActiveTexture(GL_TEXTURE0)        
            glEnable( GL_TEXTURE_2D )
            glBindTexture( GL_TEXTURE_2D, self._text_box._current_glfont.atlas.texid)
            glTexEnvf(GL_TEXTURE_ENV,GL_TEXTURE_ENV_MODE,GL_MODULATE )
            glTranslatef( self._position[0], -self._position[1], 0 )
            glPushMatrix()

            ###
            
            hjust=self._horz_justification
            vjust=self._vert_justification
            pad_left_proportion=0     
            pad_top_proportion=0     
            if hjust=='center':
                pad_left_proportion=0.5
            elif hjust=='right':
                pad_left_proportion=1.0
            if vjust=='center':
                pad_top_proportion=0.5
            elif vjust=='bottom':
                pad_top_proportion=1.0
            
            getLineInfoByIndex=self._text_document.getLineInfoByIndex
            active_text_style_dlist=self._current_font_display_lists.get
            cell_width,cell_height=self._cell_size
            num_cols,num_rows=self._shape
            line_spacing=self._text_box._getPixelTextLineSpacing()
            line_count=min(num_rows,self._text_document.getParsedLineCount())
            apply_padding=pad_left_proportion or (pad_top_proportion and line_count>1)
            trans_left=0
            trans_top=0
            glColor4f(*self._text_box._toRGBA(self._font_color))    

            for r in range(line_count):            
                line_length,line_display_list,line_ords=getLineInfoByIndex(r)
                if line_display_list[0]==0: 
                    line_display_list[0:line_length]=[active_text_style_dlist(c) for c in line_ords] 
                    
                if apply_padding:
                    empty_cell_count=num_cols-line_length
                    empty_line_count=num_rows-line_count
                    trans_left=int((empty_cell_count+1)*pad_left_proportion)*cell_width
                    trans_top=int(empty_line_count*pad_top_proportion)*cell_height
                    
                glTranslatef(trans_left,-int(line_spacing/2.0+trans_top),0)
                glCallLists(line_length,GL_UNSIGNED_INT,line_display_list[0:line_length].ctypes)
                glTranslatef(-line_length*cell_width-trans_left,-cell_height+int(line_spacing/2.0+trans_top),0)
    
                ###
            glPopMatrix()       
            glBindTexture( GL_TEXTURE_2D,0 )
            glDisable( GL_TEXTURE_2D ) 

            glEndList()            
            #print 'GL_TIME: %.3f'%((etime-stime)*1000.0)
            self._text_dlist=dl_index
        glCallList(self._text_dlist) 
예제 #26
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 def gl_compile_begin(self):
     """ Generates the beginning of the list.
     """
     gl.glNewList(self.handle, gl.GL_COMPILE)
예제 #27
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파일: misc.py 프로젝트: feisuzhu/thbattle
 def __enter__(self):
     self.compiled = True
     from pyglet import gl
     gl.glNewList(self._list_id, gl.GL_COMPILE)
     return self
예제 #28
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 def __enter__(self):
     self.compiled = True
     from pyglet import gl
     gl.glNewList(self._list_id, gl.GL_COMPILE)
     return self
예제 #29
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 def gl_compile_begin(self):
     """ Generates the beginning of the list.
     """
     gl.glNewList(self.handle, gl.GL_COMPILE)