glReadPixels 获得的深度缓冲区始终为 1 [英] depth buffer got by glReadPixels is always 1
问题描述
我正在使用 glReadPixels 来获取所选像素的深度值,但我总是得到 1,我该如何解决?这是代码:
I'm using glReadPixels to get depth value of select pixel, but i always get 1, how can i solve it? here is the code:
glEnable(GL_DEPTH_TEST);
..
glReadPixels(x, viewport[3] - y, 1, 1, GL_DEPTH_COMPONENT, GL_FLOAT, z);
我有什么想念的吗?我的渲染部分如下所示.我使用不同的着色器来绘制场景的不同部分,那么我应该如何正确地从缓冲区读取深度值?
Do I miss anything? And my rendering part is shown below. I use different shaders to draw different part of scene, so how should i make it correct to read depth value from buffer?
void onDisplay(void)
{
// Clear the window and the depth buffer
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
// calculate the view matrix.
GLFrame eyeFrame;
eyeFrame.MoveUp(gb_eye_height);
eyeFrame.RotateWorld(gb_eye_theta * 3.1415926 / 180.0, 1.0, 0.0, 0.0);
eyeFrame.RotateWorld(gb_eye_phi * 3.1415926 / 180.0, 0.0, 1.0, 0.0);
eyeFrame.MoveForward(-gb_eye_radius);
eyeFrame.GetCameraMatrix(gb_hit_modelview);
gb_modelViewMatrix.PushMatrix(gb_hit_modelview);
// draw coordinate system
if(gb_bCoord)
{
DrawCoordinateAxis();
}
if(gb_bTexture)
{
GLfloat vEyeLight[] = { -100.0f, 100.0f, 150.0f };
GLfloat vAmbientColor[] = { 0.2f, 0.2f, 0.2f, 1.0f };
GLfloat vDiffuseColor[] = { 1.0f, 1.0f, 1.0f, 1.0f};
glUseProgram(normalMapShader);
glUniform4fv(locAmbient, 1, vAmbientColor);
glUniform4fv(locDiffuse, 1, vDiffuseColor);
glUniform3fv(locLight, 1, vEyeLight);
glUniform1i(locColorMap, 0);
glUniform1i(locNormalMap, 1);
gb_treeskl.Display(SetGeneralColor, SetSelectedColor, 0);
}
else
{
if(!gb_bOnlyVoxel)
{
if(gb_bPoints)
{
//GLfloat vPointColor[] = { 1.0, 1.0, 0.0, 0.6 };
GLfloat vPointColor[] = { 0.2, 0.0, 0.0, 0.9 };
gb_shaderManager.UseStockShader(GLT_SHADER_FLAT, gb_transformPipeline.GetModelViewProjectionMatrix(), vPointColor);
gb_treeskl.Display(NULL, NULL, 1);
}
if(gb_bSkeleton)
{
GLfloat vEyeLight[] = { -100.0f, 100.0f, 150.0f };
glUseProgram(adsPhongShader);
glUniform3fv(locLight, 1, vEyeLight);
gb_treeskl.Display(SetGeneralColor, SetSelectedColor, 0);
}
}
if(gb_bVoxel)
{
GLfloat vEyeLight[] = { -100.0f, 100.0f, 150.0f };
glUseProgram(adsPhongShader);
glUniform3fv(locLight, 1, vEyeLight);
SetVoxelColor();
glPolygonMode(GL_FRONT, GL_LINE);
glLineWidth(1.0f);
gb_treeskl.DisplayVoxel();
glPolygonMode(GL_FRONT, GL_FILL);
}
}
//glUniformMatrix4fv(locMVP, 1, GL_FALSE, gb_transformPipeline.GetModelViewProjectionMatrix());
//glUniformMatrix4fv(locMV, 1, GL_FALSE, gb_transformPipeline.GetModelViewMatrix());
//glUniformMatrix3fv(locNM, 1, GL_FALSE, gb_transformPipeline.GetNormalMatrix());
//gb_sphereBatch.Draw();
gb_modelViewMatrix.PopMatrix();
glutSwapBuffers();
}
推荐答案
我认为您没有看错,唯一的问题是您没有将深度从缓冲区线性化回 <znear...zfar>
范围因此整个屏幕的 ~1
值由于深度的对数依赖性(几乎所有值都非常接近 1).
I think you are reading correctly the only problem is that you are not linearize the depth from buffer back to <znear...zfar>
range hence the ~1
value for whole screen due to logarithmic dependence of depth (almost all the values are very close to 1).
我是这样做的:
double glReadDepth(double x,double y,double *per=NULL) // x,y [pixels], per[16]
{
GLfloat _z=0.0; double m[16],z,zFar,zNear;
if (per==NULL){ per=m; glGetDoublev(GL_PROJECTION_MATRIX,per); } // use actual perspective matrix if not passed
zFar =0.5*per[14]*(1.0-((per[10]-1.0)/(per[10]+1.0))); // compute zFar from perspective matrix
zNear=zFar*(per[10]+1.0)/(per[10]-1.0); // compute zNear from perspective matrix
glReadPixels(x,y,1,1,GL_DEPTH_COMPONENT,GL_FLOAT,&_z); // read depth value
z=_z; // logarithmic
z=(2.0*z)-1.0; // logarithmic NDC
z=(2.0*zNear*zFar)/(zFar+zNear-(z*(zFar-zNear))); // linear <zNear,zFar>
return -z;
}
不要忘记 x,y
是像素,(0,0)
是左下角!!! 返回的 depth 在
范围内.该函数假设您正在使用这样的透视变换:
Do not forget that x,y
is in pixels and (0,0)
is bottom left corner !!! The returned depth is in range <zNear,zFar>
. The function is assuming you are using perspective transform like this:
void glPerspective(double fovy,double aspect,double zNear,double zFar)
{
double per[16],f;
for (int i=0;i<16;i++) per[i]=0.0;
// original gluProjection
// f=divide(1.0,tan(0.5*fovy*deg))
// per[ 0]=f/aspect;
// per[ 5]=f;
// corrected gluProjection
f=divide(1.0,tan(0.5*fovy*deg*aspect));
per[ 0]=f;
per[ 5]=f*aspect;
// z range
per[10]=divide(zFar+zNear,zNear-zFar);
per[11]=-1.0;
per[14]=divide(2.0*zFar*zNear,zNear-zFar);
glLoadMatrixd(per);
}
请注意,深度精度仅适用于没有线性深度缓冲区的接近相机对象.有关更多信息,请参阅:
Beware the depth accuracy will be good only for close to camera object without linear depth buffer. For more info see:
如果问题仍然存在,可能还有另一个原因.你的像素格式有深度缓冲区吗?在 Windows 中,您可以这样检查:
If the problem persist there might be also another reason for this. Do you have Depth buffer in your pixel format? In windows You can check like this:
缺少深度缓冲区可以解释为什么值总是1
(不像~0.997
).在这种情况下,您需要更改窗口的初始化,为深度缓冲区启用一些位 (16/24/32
).见:
Missing depth buffer could explain why the value is always 1
(not like ~0.997
). In such case you need to change the init of your window enabling some bits for depth buffer (16/24/32
). See:
有关使用此技术的更多详细信息(使用 C++ 示例),请参阅:
For more detailed info about using this technique (with C++ example) see:
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