I want my application to correctly detect the presence of a quad buffered video card, so I can enable stereo viewing, only when 3D viewing is possible.
I have two Mac computers here: 1) Mac Pro Mac OS 10.6.8 desktop with nvidia Quadro 4000 video card ; 2) MacBook Pro laptop Mac OS 10.6.8 with two video boards a: built in Intel HD graphics and b: nvidia GeForce 330M.
The first computer has a connector for 3D glasses on the card. That's the one I want to display stereo 3D on. I don't think it's possible to view hardware stereo on the second laptop computer. So I want my application to detect which sort of computer it is on, and react appropriately. I thought I knew how to do that. But it isn't working. My application thinks quad buffered stereo works on both computers.
Witness a simple test program:
#!/usr/bin/python """ Test program to demonstrate apparent quad- buffered stereo support on Mac laptop """ from OpenGL.GL import * from PySide.QtGui import QMainWindow, QApplication from PySide.QtOpenGL import QGLWidget, QGLFormat import sys class MyGLWidget(QGLWidget): "Simple OpenGL canvas to test stereoscopic display capabilities" def __init__(self, parent=None): # Constructor for QGLWidget grabs a default OpenGL context # (which was set up in the main program, below) QGLWidget.__init__(self, parent) if self.format().stereo(): # According to Qt docs, this is supposed to be the way to detect # quad buffered stereo support print "Quad buffered stereo appears to work(2)" self.useStereo = self.format().stereo() def initializeGL(self): "initializeGL is called once, after the OpenGL context is really ready" print "initializeGL" if glGetBooleanv(GL_STEREO): # This is the real OpenGL way to detect quad buffered stereo print "Quad buffered stereo appears to work(3)" self.useStereo = glGetBooleanv(GL_STEREO) def paintGL(self): if self.useStereo: # Left eye fill with yellow glDrawBuffer(GL_BACK_LEFT) glClearColor(1, 1, 0, 1) glClear(GL_COLOR_BUFFER_BIT) # Right eye fill with cyan glDrawBuffer(GL_BACK_RIGHT) glClearColor(0, 1, 1, 1) glClear(GL_COLOR_BUFFER_BIT) else: # Both eyes fill with green glDrawBuffer(GL_BACK) # both left and right glClearColor(0, 1, 0, 1) glClear(GL_COLOR_BUFFER_BIT) # Attempt to use stereoscopic QGLFormat OpenGL format # To work, this must be called before MyGLWidget is constructed. fmt = QGLFormat.defaultFormat() fmt.setStereo(True) if fmt.stereo(): print "Quad buffered stereo appears to work(1)" QGLFormat.setDefaultFormat(fmt) # The usual Qt hello world boilerplate... app = QApplication(sys.argv) win = QMainWindow() win.setCentralWidget(MyGLWidget(win)) win.show() sys.exit(app.exec_())
On both computers, all three "Quad buffered stereo appears to work" messages are printed.
On the stereo-ready workstation with a 120Hz stereo monitor, the background of the window appears pale lime green, as it switches between the yellow and cyan colors at 120 Hz. On a 60Hz monitor, it is possible to perceive the seizure-inducing flickering between the two colors. This flickering also appears on the laptop, suggesting that maybe it really does support quad buffered stereo?
One final wrinkle: If I connect the laptop to an external monitor, I see the flickery superposition on the external monitor, but on the laptop screen the window is yellow, i.e. the BACK_LEFT buffer color only. With just the laptop screen or just the external monitor, I observe the flickery phenotype.
Does the GeForce 330M video board really support quad buffered stereo on Mac? Is there a better way to detect a real quadro board from my program?