def updateShaderState(self):
"""Sets all variables required by the vertex and fragment programs. """
if not self.ready():
return
opts = self.opts
shader = self.shader
# enable the vertex and fragment programs
shader.load()
# The voxValXform transformation turns
# an image texture value into a raw
# voxel value. The colourMapXform
# transformation turns a raw voxel value
# into a value between 0 and 1, suitable
# for looking up an appropriate colour
# in the 1D colour map texture.
voxValXform = transform.concat(self.colourTexture.getCoordinateTransform(),
self.imageTexture.voxValXform)
voxValXform = [voxValXform[0, 0], voxValXform[0, 3], 0, 0]
# And the clipping range, normalised
# to the image texture value range
invClip = 1 if opts.invertClipping else -1
useNegCmap = 1 if opts.useNegativeCmap else 0
imageIsClip = 1 if opts.clipImage is None else -1
imgXform = self.imageTexture.invVoxValXform
if opts.clipImage is None: clipXform = imgXform
else: clipXform = self.clipTexture.invVoxValXform
clipLo = opts.clippingRange[0] * clipXform[0, 0] + clipXform[0, 3]
clipHi = opts.clippingRange[1] * clipXform[0, 0] + clipXform[0, 3]
texZero = 0.0 * imgXform[ 0, 0] + imgXform[ 0, 3]
clipping = [clipLo, clipHi, invClip, imageIsClip]
negCmap = [useNegCmap, texZero, 0, 0]
changed = False
changed |= shader.setFragParam('voxValXform', voxValXform)
changed |= shader.setFragParam('clipping', clipping)
changed |= shader.setFragParam('negCmap', negCmap)
if self.threedee:
clipPlanes = np.zeros((5, 4), dtype=np.float32)
d2tmat = opts.getTransform('display', 'texture')
for i in range(opts.numClipPlanes):
origin, normal = self.get3DClipPlane(i)
origin = transform.transform(origin, d2tmat)
normal = transform.transformNormal(normal, d2tmat)
clipPlanes[i, :] = glroutines.planeEquation2(origin, normal)
changed |= shader.setFragParam('clipPlanes', clipPlanes)
self.shader.unload()
return changed
def updateShaderState(self):
"""Updates the parameters used by the shader programs, reflecting the
current display properties.
"""
if not self.ready():
return
opts = self.opts
display = self.display
shader = self.shader
# The clipping range options are in the voxel value
# range, but the shader needs them to be in image
# texture value range (0.0 - 1.0). So let's scale
# them.
imageIsClip = opts.clipImage is None
imgXform = self.imageTexture.invVoxValXform
if imageIsClip: clipXform = imgXform
else: clipXform = self.clipTexture.invVoxValXform
clipLow = opts.clippingRange[0] * clipXform[0, 0] + clipXform[0, 3]
clipHigh = opts.clippingRange[1] * clipXform[0, 0] + clipXform[0, 3]
texZero = 0.0 * imgXform[0, 0] + imgXform[0, 3]
imageShape = self.image.shape[:3]
if imageIsClip: clipImageShape = imageShape
else: clipImageShape = opts.clipImage.shape[:3]
# Create a single transformation matrix
# which transforms from image texture values
# to voxel values, and scales said voxel
# values to colour map texture coordinates.
img2CmapXform = transform.concat(
self.colourTexture.getCoordinateTransform(),
self.imageTexture.voxValXform)
shader.load()
changed = False
changed |= shader.set('useSpline', opts.interpolation == 'spline')
changed |= shader.set('imageShape', imageShape)
changed |= shader.set('clipLow', clipLow)
changed |= shader.set('clipHigh', clipHigh)
changed |= shader.set('texZero', texZero)
changed |= shader.set('invertClip', opts.invertClipping)
changed |= shader.set('useNegCmap', opts.useNegativeCmap)
changed |= shader.set('imageIsClip', imageIsClip)
changed |= shader.set('img2CmapXform', img2CmapXform)
changed |= shader.set('clipImageShape', clipImageShape)
changed |= shader.set('imageTexture', 0)
changed |= shader.set('colourTexture', 1)
changed |= shader.set('negColourTexture', 2)
changed |= shader.set('clipTexture', 3)
if self.threedee:
blendFactor = (1 - opts.blendFactor)**2
clipPlanes = np.zeros((opts.numClipPlanes, 4), dtype=np.float32)
d2tmat = opts.getTransform('display', 'texture')
if opts.clipMode == 'intersection': clipMode = 1
elif opts.clipMode == 'union': clipMode = 2
elif opts.clipMode == 'complement': clipMode = 3
else: clipMode = 0
for i in range(opts.numClipPlanes):
origin, normal = self.get3DClipPlane(i)
origin = transform.transform(origin, d2tmat)
normal = transform.transformNormal(normal, d2tmat)
clipPlanes[i, :] = glroutines.planeEquation2(origin, normal)
changed |= shader.set('numClipPlanes', opts.numClipPlanes)
changed |= shader.set('clipMode', clipMode)
changed |= shader.set('clipPlanes', clipPlanes, opts.numClipPlanes)
changed |= shader.set('blendFactor', blendFactor)
changed |= shader.set('stepLength', 1.0 / opts.getNumSteps())
changed |= shader.set('alpha', display.alpha / 100.0)
shader.unload()
return changed