#
##
## This file is part of pyFormex 1.0.7 (Mon Jun 17 12:20:39 CEST 2019)
## pyFormex is a tool for generating, manipulating and transforming 3D
## geometrical models by sequences of mathematical operations.
## Home page: http://pyformex.org
## Project page: http://savannah.nongnu.org/projects/pyformex/
## Copyright 2004-2019 (C) Benedict Verhegghe (benedict.verhegghe@ugent.be)
## Distributed under the GNU General Public License version 3 or later.
##
## This program is free software: you can redistribute it and/or modify
## it under the terms of the GNU General Public License as published by
## the Free Software Foundation, either version 3 of the License, or
## (at your option) any later version.
##
## This program is distributed in the hope that it will be useful,
## but WITHOUT ANY WARRANTY; without even the implied warranty of
## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
## GNU General Public License for more details.
##
## You should have received a copy of the GNU General Public License
## along with this program. If not, see http://www.gnu.org/licenses/.
##
"""opengl/renderer.py
Python OpenGL framework for pyFormex
This OpenGL framework is intended to replace (in due time)
the current OpenGL framework in pyFormex.
(C) 2013 Benedict Verhegghe and the pyFormex project.
"""
from __future__ import absolute_import, division, print_function
import pyformex as pf
from pyformex.attributes import Attributes
from pyformex.opengl.matrix import Matrix4
from pyformex.opengl.camera import orthogonal_matrix
from pyformex.opengl.shader import Shader
import numpy as np
from OpenGL import GL
class Renderer(object):
def __init__(self, canvas, shader=None):
self.canvas = canvas
self.camera = canvas.camera
self.canvas.makeCurrent()
if shader is None:
shader = Shader()
self.shader = shader
def loadLightProfile(self):
lightprof = self.canvas.lightprof
mat = self.canvas.material
#print(lightprof)
lights = [light for light in lightprof.lights if light.enabled]
#for light in lights:
# print(light)
nlights = len(lights)
ambient = lightprof.ambient * np.ones(3) # global ambient
for light in lights:
ambient += light.ambient
ambient = np.clip(ambient, 0., 1.) # clip, OpenGL does anyways
diffuse = np.array([light.diffuse for light in lights]).ravel()
specular = np.array([light.specular for light in lights]).ravel()
position = np.array([light.position[:3] for light in lights]).ravel()
#print("diffcolor = %s" % diffuse)
#print("lightdir = %s" % position)
settings = Attributes({
'nlights': nlights,
'ambicolor': ambient,
'diffcolor': diffuse,
'speccolor': specular,
'lightdir': position,
'ambient': mat.ambient,
'diffuse': mat.diffuse,
'specular': mat.specular,
'shininess': mat.shininess,
'alphablend': self.canvas.settings.alphablend,
'alpha': self.canvas.settings.transparency,
'bkalpha': self.canvas.settings.transparency,
})
#print("LIGHT PROFILE to shader: %s" % settings)
self.shader.loadUniforms(settings)
def setDefaults(self):
"""Set the GL context and the shader uniforms to default values."""
GL.glLineWidth(self.canvas.settings.linewidth)
# Enable setting pointsize in the shader
# Maybe we should do pointsize with gl context?
GL.glEnable(GL.GL_VERTEX_PROGRAM_POINT_SIZE)
# NEXT, the shader uniforms
# When all attribute names are correct, this could be done with a
# single statement like
# self.shader.loadUniforms(self.canvas.settings)
#
self.shader.uniformInt('highlight', 0)
self.shader.uniformFloat('lighting', self.canvas.settings.lighting)
self.shader.uniformInt('useObjectColor', 1)
self.shader.uniformInt('rgbamode', 0)
self.shader.uniformVec3('objectColor', self.canvas.settings.fgcolor)
self.shader.uniformVec3('objectBkColor', self.canvas.settings.fgcolor)
self.shader.uniformVec3('highlightColor', self.canvas.settings.slcolor)
self.shader.uniformFloat('pointsize', self.canvas.settings.pointsize)
self.loadLightProfile()
def renderObjects(self, objects):
"""Render a list of objects"""
for obj in objects:
GL.glDepthFunc(GL.GL_LESS)
self.setDefaults()
if obj.trl or obj.rot or obj.trl0:
self.loadMatrices(rot=self.rot, trl=self.trl, trl0=self.trl0)
obj.render(self)
if obj.trl or obj.rot or obj.trl0:
self.loadMatrices()
def pickObjects(self, objects):
"""Draw a list of objects in picking mode"""
for i, obj in enumerate(objects):
GL.glPushName(i)
obj.render(self)
GL.glPopName()
def loadMatrices(self, rot=None, trl=None, trl0=None):
"""Load the rendering matrices.
rot, trl, trl0 are additional rotation, translation and
pre-translation for the object.
"""
# Get the current modelview*projection matrix
modelview = self.camera.modelview
if trl0:
modelview.translate(trl0)
if rot:
modelview.rotate(rot)
if trl:
modelview.translate(trl)
projection = self.camera.projection
transinv = self.camera.modelview.transinv().rot
# Propagate the matrices to the uniforms of the shader
self.shader.uniformMat4('modelview', modelview.gl())
self.shader.uniformMat4('projection', projection.gl())
self.shader.uniformMat3('normalstransform', transinv.flatten().astype(np.float32))
def render3D(self, actors, pick=None):
"""Render the 3D actors in the scene.
"""
if not actors:
return
## # Split off rendertype 1
## actors1 = [ a for a in actors if a.rendertype == -1 ]
## actors = [ a for a in actors if a.rendertype != -1 ]
# Get the current modelview*projection matrix
modelview = self.camera.modelview
projection = self.camera.projection
transinv = self.camera.modelview.transinv().rot
# Propagate the matrices to the uniforms of the shader
self.shader.uniformMat4('modelview', modelview.gl())
self.shader.uniformMat4('projection', projection.gl())
self.shader.uniformMat3('normalstransform', transinv.flatten().astype(np.float32))
# sort actors in back and front, and select visible
actors = back(actors) + front(actors)
actors = [o for o in actors if o.visible is not False]
GL.glEnable(GL.GL_DEPTH_TEST)
GL.glDepthMask(GL.GL_TRUE)
if pick:
# PICK MODE
from pyformex.opengl import camera
pickmat = camera.pick_matrix(*pick)
self.shader.uniformMat4('pickmat', pickmat.gl())
self.pickObjects(actors)
elif not self.canvas.settings.alphablend:
# NO ALPHABLEND
self.renderObjects(actors)
else:
# ALPHABLEND
# 2D actors are by default transparent!
opaque = [a for a in actors if a.opak]
transp = [a for a in actors if not a.opak]
# First render the opaque objects
self.renderObjects(opaque)
# Then the transparent ones
# Disable writing to the depth buffer
# as everything behind the transparent object
# also needs to be drawn
GL.glDepthMask(GL.GL_FALSE)
if pf.cfg['render/transp_nocull']:
GL.glDisable(GL.GL_CULL_FACE)
GL.glEnable(GL.GL_BLEND)
GL.glBlendEquation(GL.GL_FUNC_ADD)
if pf.cfg['render/alphablend'] == 'mult':
GL.glBlendFunc(GL.GL_ZERO, GL.GL_SRC_COLOR)
elif pf.cfg['render/alphablend'] == 'add':
GL.glBlendFunc(GL.GL_ONE, GL.GL_ONE)
elif pf.cfg['render/alphablend'] == 'trad1':
GL.glBlendFunc(GL.GL_SRC_ALPHA, GL.GL_ONE)
else:
GL.glBlendFunc(GL.GL_SRC_ALPHA, GL.GL_ONE_MINUS_SRC_ALPHA)
self.renderObjects(transp)
GL.glDisable(GL.GL_BLEND)
## if actors1:
## modelview = Matrix4()
## modelview[:3,:3] = self.camera.modelview.rot
## projection = perspective_matrix(-1, 0.5, -1, 0.5, 0.1, 10.)
## #self.shader.uniformMat4('modelview', modelview.gl())
## self.shader.uniformMat4('projection', projection.gl())
## self.renderObjects(actors1)
GL.glDepthMask(GL.GL_TRUE)
def render2D(self, actors):
"""Render 2D decorations.
"""
if not actors:
return
#print("Render %s decorations" % len(actors))
# Set modelview/projection
modelview = Matrix4()
self.shader.uniformMat4('modelview', modelview.gl())
left = 0. # -0.5
right = float(self.canvas.width()) # -0.5
bottom = 0. # -0.5
top = float(self.canvas.height()) # -0.5
near = -1.
far = 1.
projection = orthogonal_matrix(left, right, bottom, top, near, far)
self.shader.uniformMat4('projection', projection.gl())
GL.glDisable(GL.GL_DEPTH_TEST)
GL.glDisable(GL.GL_CULL_FACE)
GL.glDepthMask(GL.GL_FALSE)
# ALPHABLEND
#
# We need blending for text rendering!
#
# 2D actors are by default opak!
opaque = [a for a in actors if a.opak is None or a.opak]
transp = [a for a in actors if a.opak is False]
# First render the opaque objects
self.renderObjects(opaque)
# Then the transparent ones
# Disable writing to the depth buffer
# as everything behind the transparent object
# also needs to be drawn
GL.glEnable(GL.GL_BLEND)
GL.glBlendEquation(GL.GL_FUNC_ADD)
if pf.cfg['render/textblend'] == 'mult':
GL.glBlendFunc(GL.GL_ZERO, GL.GL_SRC_COLOR)
elif pf.cfg['render/textblend'] == 'add':
GL.glBlendFunc(GL.GL_ONE, GL.GL_ONE)
elif pf.cfg['render/textblend'] == 'trad1':
GL.glBlendFunc(GL.GL_SRC_ALPHA, GL.GL_ONE)
elif pf.cfg['render/textblend'] == 'zero':
GL.glBlendFunc(GL.GL_SRC_ALPHA, GL.GL_ZERO)
else:
GL.glBlendFunc(GL.GL_SRC_ALPHA, GL.GL_ONE_MINUS_SRC_ALPHA)
self.renderObjects(transp)
GL.glDisable(GL.GL_BLEND)
GL.glDepthMask(GL.GL_TRUE)
def renderBG(self, actors):
"""Render 2D background actors.
"""
if not actors:
return
#print("Render %s backgrounds" % len(actors))
# Set modelview/projection
modelview = projection = Matrix4()
self.shader.uniformMat4('modelview', modelview.gl())
self.shader.uniformMat4('projection', projection.gl())
self.canvas.zoom_2D() # should be combined with above
# in clip space
GL.glDisable(GL.GL_DEPTH_TEST)
self.renderObjects(actors)
def render(self, scene, pick=None):
"""Render the geometry for the scene."""
self.shader.bind(picking=bool(pick))
try:
# The back backgrounds
self.renderBG(back(scene.backgrounds))
# The 2D back decorations
self.render2D(back(scene.decorations)+back(scene.annotations))
# The 3D actors
self.render3D(scene.actors, pick)
# The 2D front decorations
self.render2D(front(scene.annotations)+front(scene.decorations))
# The front backgrounds
self.renderBG(front(scene.backgrounds))
finally:
self.shader.unbind()
[docs]def front(actorlist):
"""Return the actors from the list that have ontop=True"""
return [a for a in actorlist if a.ontop]
[docs]def back(actorlist):
"""Return the actors from the list that have ontop=False"""
return [a for a in actorlist if not a.ontop]
# End