def _UploadTexture(self, data, *args):
""" "Overloaded" method to upload texture data
"""
# Set alignment to 1. It is 4 by default, but my data array has no
# strides, so in order for the image not to be distorted, I set it
# to 1. I assume graphics cards can still render in hardware. If
# not, I would have to add one or two rows to my data instead.
gl.glPixelStorei(gl.GL_UNPACK_ALIGNMENT,1)
# init transferfunctions and set clim to full range
self._ScaleBias_init(data.dtype.name)
# create texture
TextureObject._UploadTexture(self, data, *args)
# set interpolation and extrapolation parameters
tmp1 = gl.GL_NEAREST
tmp2 = {False:gl.GL_NEAREST, True:gl.GL_LINEAR}[self._interpolate]
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_MIN_FILTER, tmp1)
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_MAG_FILTER, tmp2)
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_WRAP_S, gl.GL_CLAMP)
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_WRAP_T, gl.GL_CLAMP)
# reset transfer
self._ScaleBias_afterUpload()
# Set clamping. When testing the raycasting, comment these lines!
if self._ndim==3:
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_WRAP_S, gl.GL_CLAMP)
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_WRAP_T, gl.GL_CLAMP)
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_WRAP_R, gl.GL_CLAMP)
def _UploadTexture(self, data, *args):
""" "Overloaded" method to upload texture data
"""
# Set alignment to 1. It is 4 by default, but my data array has no
# strides, so in order for the image not to be distorted, I set it
# to 1. I assume graphics cards can still render in hardware. If
# not, I would have to add one or two rows to my data instead.
gl.glPixelStorei(gl.GL_UNPACK_ALIGNMENT, 1)
# init transferfunctions and set clim to full range
self._ScaleBias_init(data.dtype.name)
# create texture
TextureObject._UploadTexture(self, data, *args)
# set interpolation and extrapolation parameters
tmp1 = gl.GL_NEAREST
tmp2 = {False: gl.GL_NEAREST, True: gl.GL_LINEAR}[self._interpolate]
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_MIN_FILTER, tmp1)
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_MAG_FILTER, tmp2)
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_WRAP_S, gl.GL_CLAMP)
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_WRAP_T, gl.GL_CLAMP)
# reset transfer
self._ScaleBias_afterUpload()
# Set clamping. When testing the raycasting, comment these lines!
if self._ndim == 3:
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_WRAP_S,
gl.GL_CLAMP)
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_WRAP_T,
gl.GL_CLAMP)
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_WRAP_R,
gl.GL_CLAMP)
def __init__(self, ndim, data, interpolate=False):
TextureObject.__init__(self, ndim)
# interpolate?
self._interpolate = interpolate
# the limits
self._clim = Range(0,1)
self._climCorrection = 1.0
self._climRef = Range(0,1) # the "original" range
# init clim and colormap
self._climRef.Set(*minmax(data))
self._clim = self._climRef.Copy()
def __init__(self, ndim, data, interpolate=False):
TextureObject.__init__(self, ndim)
# interpolate?
self._interpolate = interpolate
# the limits
self._clim = Range(0, 1)
self._climCorrection = 1.0
self._climRef = Range(0, 1) # the "original" range
# init clim and colormap
self._climRef.Set(*minmax(data))
self._clim = self._climRef.Copy()
def _UpdateTexture(self, data, *args):
""" "Overloaded" method to update texture data
"""
# init transferfunctions and set clim to full range
self._ScaleBias_init(data.dtype.name)
# create texture
TextureObject._UpdateTexture(self, data, *args)
# Update interpolation
tmp = {False:gl.GL_NEAREST, True:gl.GL_LINEAR}[self._interpolate]
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_MAG_FILTER, tmp)
# reset transfer
self._ScaleBias_afterUpload()
def _UpdateTexture(self, data, *args):
""" "Overloaded" method to update texture data
"""
# init transferfunctions and set clim to full range
self._ScaleBias_init(data.dtype.name)
# create texture
TextureObject._UpdateTexture(self, data, *args)
# Update interpolation
tmp = {False: gl.GL_NEAREST, True: gl.GL_LINEAR}[self._interpolate]
gl.glTexParameteri(self._texType, gl.GL_TEXTURE_MAG_FILTER, tmp)
# reset transfer
self._ScaleBias_afterUpload()
def __init__(self, parent, data1, data2):
Texture3D.__init__(self, parent, data1)
# create second texture and set data
self._texture2 = TextureObject(gl.GL_TEXTURE_3D)
self.SetData(data2)
class MultiTexture3D(Texture3D):
""" MultiTexture3D(parent, data1, data2)
This is an example of what multi-texturing would look like
in Visvis. Not tested.
"""
def __init__(self, parent, data1, data2):
Texture3D.__init__(self, parent, data1)
# create second texture and set data
self._texture2 = TextureObject(gl.GL_TEXTURE_3D)
self.SetData(data2)
def OnDraw(self, fast=False):
# Draw the texture.
# Enable texture, so that it has a corresponding OpenGl texture.
# Binding is done by the shader
self._texture1.Enable(-1)
self.shader.SetUniform('texture', self._texture1)
self.shader.SetUniform('texture2', self._texture2)
# _texture._shape is a good indicator of a valid texture
if not self._texture1._shape:
return
# Prepare by setting things to their defaults. This might release some
# memory so result in a bigger chance that the shader is run in
# hardware mode. On ATI, the line and point smoothing should be off
# if you want to use gl_FragCoord. (Yeah, I do not see the connection
# either...)
gl.glPointSize(1)
gl.glLineWidth(1)
gl.glDisable(gl.GL_LINE_STIPPLE)
gl.glDisable(gl.GL_LINE_SMOOTH)
gl.glDisable(gl.GL_POINT_SMOOTH)
# only draw front-facing parts
gl.glEnable(gl.GL_CULL_FACE)
gl.glCullFace(gl.GL_BACK)
# Set step ratio
if fast:
self.shader.SetUniform('stepRatio', self._stepRatio * 0.5)
else:
self.shader.SetUniform('stepRatio', float(self._stepRatio))
# fragment shader on
if self.shader.isUsable and self.shader.hasCode:
# turn glsl shader on
self.shader.Enable()
else:
pass # glsl not available, or someone cleared the code
# do the actual drawing
self._DrawQuads()
# clean up
gl.glFlush()
self.shader.Disable()
#
gl.glDisable(gl.GL_CULL_FACE)
gl.glEnable(gl.GL_LINE_SMOOTH)
gl.glEnable(gl.GL_POINT_SMOOTH)
def OnDestroyGl(self):
# Clean up OpenGl resources.
# remove texture from opengl memory
self._texture1.DestroyGl()
self._texture2.DestroyGl()
# clear shaders
self._shader.program.DestroyGl()
# remove colormap's texture from memory
if hasattr(self, '_colormap'):
self._colormap.DestroyGl()
def OnDestroy(self):
# Clean up any resources.
self._texture1.Destroy()
self._texture2.Destroy()
if hasattr(self, '_colormap'):
self._colormap.Destroy()
