def main():
width = 1600
height = 1200
timelimit = 10
modeltranslation = 200
SDL_Init(SDL_INIT_VIDEO)
window = SDL_CreateWindow(b"benchmark", SDL_WINDOWPOS_CENTERED,
SDL_WINDOWPOS_CENTERED, width, height,
SDL_WINDOW_SHOWN | SDL_WINDOW_OPENGL)
context = SDL_GL_CreateContext(window)
SDL_GL_SetSwapInterval(0) #no v-sync
#coin3d setup
vpRegion = SbViewportRegion(
width,
height,
)
m_sceneManager = SoSceneManager()
m_sceneManager.setViewportRegion(vpRegion)
m_sceneManager.setBackgroundColor(SbColor(0.0, 0.0, 0.8))
rootScene = SoSeparator()
rootScene.ref()
camera = SoFrustumCamera()
basePosition = SbVec3f(0.0, 0.0, 0.0)
camera.position.setValue(basePosition)
camera.focalDistance.setValue(5.0)
camera.viewportMapping.setValue(SoCamera.LEAVE_ALONE)
camera.nearDistance.setValue(0.1)
camera.farDistance.setValue(10000.0)
rootScene.addChild(camera)
light = SoDirectionalLight()
light2 = SoDirectionalLight()
rootScene.addChild(light)
rootScene.addChild(light2)
trans = SoTranslation()
trans.translation.setValue([0, 0, -modeltranslation])
rotat = SoRotation()
rotat.rotation.setValue(coin.SbVec3f(0, 1, 0), 0)
rootScene.addChild(
trans) #translation have to be earlier than translated object
rootScene.addChild(rotat)
sg = FreeCADGui.ActiveDocument.ActiveView.getSceneGraph()
rootScene.addChild(sg) #get active scenegraph
m_sceneManager.setSceneGraph(rootScene)
notfinished = 1
angle = 0
frames = 0
start = time()
# Loop until time limit happens
while notfinished:
glUseProgram(0)
#coin3d rendering
angle = angle + 0.001
frames = frames + 1
rotat.rotation.setValue(coin.SbVec3f(0, 1, 0), angle)
glEnable(GL_CULL_FACE)
glEnable(GL_DEPTH_TEST)
m_sceneManager.render()
glDisable(GL_CULL_FACE)
glDisable(GL_DEPTH_TEST)
glClearDepth(1.0)
# Swap front and back buffers
SDL_GL_SwapWindow(window)
stop = time()
elapsed = stop - start
if elapsed > timelimit:
notfinished = 0
print(frames, ' in ', elapsed, 'seconds, ', (frames / elapsed), 'fps')
rootScene.unref()
SDL_GL_DeleteContext(context)
SDL_DestroyWindow(window)
SDL_Quit()
class OpenVRTest(object):
"FreeCAD OpenVR testing script"
def __init__(self):
self._running = True
def setupscene(self):
#coin3d setup
vpRegion = SbViewportRegion(self.w, self.h)
self.m_sceneManager = SoSceneManager() #scene manager overhead over render manager seems to be pretty #small
self.m_sceneManager.setViewportRegion(vpRegion)
self.m_sceneManager.setBackgroundColor(SbColor(0.0, 0.0, 0.8))
light = SoDirectionalLight()
light2 = SoDirectionalLight()
light2.direction.setValue(-1,-1,-1)
light2.intensity.setValue(0.6)
light2.color.setValue(0.8,0.8,1)
self.scale = SoScale()
self.scale.scaleFactor.setValue(0.001, 0.001, 0.001) #OpenVR uses meters not milimeters
self.camtrans0 = SoTranslation()
self.camtrans1 = SoTranslation()
self.cgrp0 = SoGroup()
self.cgrp1 = SoGroup()
self.sgrp0 = SoGroup()
self.sgrp1 = SoGroup()
self.camtrans0.translation.setValue([self.camToHead[0][0][3],0,0])
self.camtrans1.translation.setValue([self.camToHead[1][0][3],0,0])
sg = FreeCADGui.ActiveDocument.ActiveView.getSceneGraph()#get active scenegraph
#LEFT EYE
self.rootScene0 = SoSeparator()
self.rootScene0.ref()
self.rootScene0.addChild(self.cgrp0)
self.cgrp0.addChild(self.camtrans0)
self.cgrp0.addChild(self.camera0)
self.rootScene0.addChild(self.sgrp0)
self.sgrp0.addChild(light)
self.sgrp0.addChild(light2)
self.sgrp0.addChild(self.scale)
self.sgrp0.addChild(sg)#add scenegraph
#RIGHT EYE
self.rootScene1 = SoSeparator()
self.rootScene1.ref()
self.rootScene1.addChild(self.cgrp1)
self.cgrp1.addChild(self.camtrans1)
self.cgrp1.addChild(self.camera1)
self.rootScene1.addChild(self.sgrp1)
self.sgrp1.addChild(light)
self.sgrp1.addChild(light2)
self.sgrp1.addChild(self.scale)
self.sgrp1.addChild(sg)#add scenegraph
def setupcameras(self):
nearZ = self.nearZ
farZ = self.farZ
#LEFT EYE
self.camera0 = SoFrustumCamera()
self.basePosition0 = SbVec3f(0.0, 0.0, 0.0)
self.camera0.position.setValue(self.basePosition0)
self.camera0.viewportMapping.setValue(SoCamera.LEAVE_ALONE)
left = nearZ * self.proj_raw[0][0]
right = nearZ * self.proj_raw[0][1]
top = nearZ * self.proj_raw[0][3] #top and bottom are reversed https://github.com/ValveSoftware/openvr/issues/110
bottom = nearZ * self.proj_raw[0][2]
aspect = (top - bottom) / (right - left)
self.camera0.nearDistance.setValue(nearZ)
self.camera0.farDistance.setValue(farZ)
self.camera0.left.setValue(left)
self.camera0.right.setValue(right)
self.camera0.top.setValue(top)
self.camera0.bottom.setValue(bottom)
self.camera0.aspectRatio.setValue(aspect)
#RIGHT EYE
self.camera1 = SoFrustumCamera()
self.basePosition1 = SbVec3f(0.0, 0.0, 0.0)
self.camera1.position.setValue(self.basePosition1)
self.camera1.viewportMapping.setValue(SoCamera.LEAVE_ALONE)
left = nearZ * self.proj_raw[1][0]
right = nearZ * self.proj_raw[1][1]
top = nearZ * self.proj_raw[1][3]
bottom = nearZ * self.proj_raw[1][2]
aspect = (top - bottom) / (right - left)
self.camera1.nearDistance.setValue(nearZ)
self.camera1.farDistance.setValue(farZ)
self.camera1.left.setValue(left)
self.camera1.right.setValue(right)
self.camera1.top.setValue(top)
self.camera1.bottom.setValue(bottom)
self.camera1.aspectRatio.setValue(aspect)
def extractrotation(self, transfmat): #extract rotation quaternion
qw = sqrt(numpy.fmax(0, 1 + transfmat[0][0] + transfmat[1][1] + transfmat[2][2])) / 2
qx = sqrt(numpy.fmax(0, 1 + transfmat[0][0] - transfmat[1][1] - transfmat[2][2])) / 2
qy = sqrt(numpy.fmax(0, 1 - transfmat[0][0] + transfmat[1][1] - transfmat[2][2])) / 2
qz = sqrt(numpy.fmax(0, 1 - transfmat[0][0] - transfmat[1][1] + transfmat[2][2])) / 2
qx = copysign(qx, transfmat[2][1] - transfmat[1][2]);
qy = copysign(qy, transfmat[0][2] - transfmat[2][0])
qz = copysign(qz, transfmat[1][0] - transfmat[0][1])
hmdrot = SbRotation(qx, qy, qz, qw)
return hmdrot
def extracttranslation(self, transfmat):
hmdpos = SbVec3f(transfmat[0][3], transfmat[1][3], transfmat[2][3])
return hmdpos
def draw(self):
#self.vr_compositor.waitGetPoses(self.poses, openvr.k_unMaxTrackedDeviceCount, None, 0)
self.vr_compositor.waitGetPoses(self.poses, None)
headPose = self.poses[openvr.k_unTrackedDeviceIndex_Hmd]
if not headPose.bPoseIsValid:
return True
headToWorld = headPose.mDeviceToAbsoluteTracking
transfmat = numpy.array([ [headToWorld.m[j][i] for i in range(4)] for j in range(3) ])
hmdrot = self.extractrotation(transfmat)
hmdpos = self.extracttranslation(transfmat)
self.camera0.orientation.setValue(hmdrot)
self.camera0.position.setValue(self.basePosition0 + hmdpos)
self.camera1.orientation.setValue(hmdrot)
self.camera1.position.setValue(self.basePosition1 + hmdpos)
for eye in range(2):
glBindFramebuffer(GL_FRAMEBUFFER, self.frame_buffers[eye])
#coin3d rendering
glUseProgram(0)
if eye == 0:
self.m_sceneManager.setSceneGraph(self.rootScene0)
if eye == 1:
self.m_sceneManager.setSceneGraph(self.rootScene1)
glEnable(GL_CULL_FACE)
glEnable(GL_DEPTH_TEST)
self.m_sceneManager.render()
glDisable(GL_CULL_FACE)
glDisable(GL_DEPTH_TEST)
glClearDepth(1.0)
#end coin3d rendering
self.vr_compositor.submit(self.eyes[eye], self.textures[eye])
return True
def run(self):
self.vr_system = openvr.init(openvr.VRApplication_Scene)
self.vr_compositor = openvr.VRCompositor()
poses_t = openvr.TrackedDevicePose_t * openvr.k_unMaxTrackedDeviceCount
self.poses = poses_t()
self.w, self.h = self.vr_system.getRecommendedRenderTargetSize()
SDL_Init(SDL_INIT_VIDEO)
self.window = SDL_CreateWindow (b"test",
SDL_WINDOWPOS_CENTERED, SDL_WINDOWPOS_CENTERED,
100, 100, SDL_WINDOW_SHOWN|SDL_WINDOW_OPENGL)
self.context = SDL_GL_CreateContext(self.window)
SDL_GL_MakeCurrent(self.window, self.context)
self.depth_buffer = glGenRenderbuffers(1)
self.frame_buffers = glGenFramebuffers(2)
self.texture_ids = glGenTextures(2)
self.textures = [None] * 2
self.eyes = [openvr.Eye_Left, openvr.Eye_Right]
self.camToHead = [None] * 2
self.proj_raw = [None] * 2
self.nearZ = 0.01
self.farZ = 500
for eye in range(2):
glBindFramebuffer(GL_FRAMEBUFFER, self.frame_buffers[eye])
glBindRenderbuffer(GL_RENDERBUFFER, self.depth_buffer)
glRenderbufferStorage(GL_RENDERBUFFER, GL_DEPTH24_STENCIL8, self.w, self.h)
glFramebufferRenderbuffer(
GL_FRAMEBUFFER, GL_DEPTH_STENCIL_ATTACHMENT, GL_RENDERBUFFER,
self.depth_buffer)
glBindTexture(GL_TEXTURE_2D, self.texture_ids[eye])
glTexImage2D(
GL_TEXTURE_2D, 0, GL_RGBA8, self.w, self.h, 0, GL_RGBA, GL_UNSIGNED_BYTE,
None)
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR)
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR)
glFramebufferTexture2D(
GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_2D,
self.texture_ids[eye], 0)
texture = openvr.Texture_t()
texture.handle = int(self.texture_ids[eye])
texture.eType = openvr.TextureType_OpenGL
texture.eColorSpace = openvr.ColorSpace_Gamma
self.textures[eye] = texture
self.proj_raw[eye]= self.vr_system.getProjectionRaw(self.eyes[eye]) #void GetProjectionRaw( Hmd_Eye eEye, float *pfLeft, float *pfRight, float *pfTop, float *pfBottom )
eyehead = self.vr_system.getEyeToHeadTransform(self.eyes[eye]) #[0][3] is eye-center distance
self.camToHead[eye] = numpy.array([ [eyehead.m[j][i] for i in range(4)] for j in range(3) ])
self.setupcameras()
self.setupscene()
while self._running:
self.draw()
def terminate(self):
self._running = False
glDeleteBuffers(1, [self.depth_buffer])
for eye in range(2):
glDeleteBuffers(1, [self.frame_buffers[eye]])
self.rootScene0.unref()
self.rootScene1.unref()
SDL_GL_DeleteContext(self.context)
SDL_DestroyWindow(self.window)
SDL_Quit()
openvr.shutdown()
