我有一个名为Texture
的班级。该类负责管理纹理。在程序启动时,OpenGL上下文被正确初始化(这使得这个问题与大多数涉及意外的glGenTextures行为的不同)。 Texture
从glGenTextures()
获取纹理名称,然后将图像数据加载并绑定到函数texGLInit()
中的纹理名称的内存中。
这样可以正常显示纹理。
但是,我还希望我的纹理能够更改用户单击按钮时显示的纹理,并从OpenFileDiaglog
中的HDD中选择一个。此功能称为reloadTexture()
。此函数尝试从内存中删除旧图像/像素数据,并将其替换为用户选择的文件中的新数据。
但是,当发生这种情况时,它会使用glDeleteTextures
删除纹理名称,然后分配新的纹理名称并使用函数texGLInit()
将新的像素数据加载到内存中。但纹理名称与100%的纹理名称完全相同(通常为“1”)。
此后显示的图像是奇数。它具有新的图像尺寸,但仍然是旧的图像像素。简而言之,它将旧图像扭曲到新的图像大小。它仍然使用所谓的删除像素数据绘制。应该发生的是屏幕现在在屏幕上显示新的图像文件。我相信这与纹理名称不是唯一的有关。
代码如下:
Texture::Texture(string filename)//---Constructor loads in the initial image. Works fine!
{
textureID[0]=0;
const char* fnPtr = filename.c_str(); //our image loader accepts a ptr to a char, not a string
//printf(fnPtr);
lodepng::load_file(buffer, fnPtr);//load the file into a buffer
unsigned error = lodepng::decode(image,w,h,buffer);//lodepng's decode function will load the pixel data into image vector from the buffer
//display any errors with the texture
if(error)
{
cout << "\ndecoder error " << error << ": " << lodepng_error_text(error) <<endl;
}
//execute the code that'll throw exceptions to do with the images size
checkPOT(w);
checkPOT(h);
//image now contains our pixeldata. All ready for OpenGL to do its thing
//let's get this texture up in the video memory
texGLInit();
Draw_From_Corner = CENTER;
}
void Texture::reloadTexture(string filename)//Reload texture replaces the texture name and image/pixel data bound to this texture
{
//first and foremost clear the image and buffer vectors back down to nothing so we can start afresh
buffer.clear();
image.clear();
w = 0;
h = 0;
//also delete the texture name we were using before
glDeleteTextures(1, &textureID[0]);
const char* fnPtr = filename.c_str(); //our image loader accepts a ptr to a char, not a string
//printf(fnPtr);
lodepng::load_file(buffer, fnPtr);//load the file into a buffer
unsigned error = lodepng::decode(image,w,h,buffer);//lodepng's decode function will load the pixel data into image vector from the buffer
//display any errors with the texture
if(error)
{
cout << "\ndecoder error " << error << ": " << lodepng_error_text(error) <<endl;
}
//execute the code that'll throw exceptions to do with the images size
checkPOT(w);
checkPOT(h);
//image now contains our pixeldata. All ready for to do its thing
//let's get this texture up in the video memoryOpenGL
texGLInit();
Draw_From_Corner = CENTER;
}
void Texture::texGLInit()//Actually gets the new texture name loads the pixeldata into openGL
{
glGenTextures(1, &textureID[0]);
////printf("\ntextureID = %u", textureID[0]);
glBindTexture(GL_TEXTURE_2D, textureID[0]);//evrything we're about to do is about this texture
glPixelStorei(GL_UNPACK_ALIGNMENT, 1);
glTexParameteri (GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
glTexEnvf(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE);
//glDisable(GL_COLOR_MATERIAL);
glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA8,w,h,0, GL_RGBA, GL_UNSIGNED_BYTE, &image[0]);
//we COULD free the image vectors memory right about now. But we'll do it when there's a need to. At the beginning of the reloadtexture func, makes sure it happens when we need it to.
}
这里值得的是Texture类中的draw函数。
void Texture::draw(point* origin, ANCHOR drawFrom)
{
//let us set the DFC enum here.
Draw_From_Corner = drawFrom;
glEnable(GL_TEXTURE_2D);
//printf("\nDrawing texture at (%f, %f)",centerPoint.x, centerPoint.y);
glBindTexture(GL_TEXTURE_2D, textureID[0]);//bind the texture
//create a quick vertex array for the primitive we're going to bind the texture to
////printf("TexID = %u",textureID[0]);
GLfloat vArray[8];
#pragma region anchor switch
switch (Draw_From_Corner)
{
case CENTER:
vArray[0] = origin->x-(w/2); vArray[1] = origin->y-(h/2);//bottom left i0
vArray[2] = origin->x-(w/2); vArray[3] = origin->y+(h/2);//top left i1
vArray[4] = origin->x+(w/2); vArray[5] = origin->y+(h/2);//top right i2
vArray[6] = origin->x+(w/2); vArray[7] = origin->y-(h/2);//bottom right i3
break;
case BOTTOMLEFT:
vArray[0] = origin->x; vArray[1] = origin->y;//bottom left i0
vArray[2] = origin->x; vArray[3] = origin->y+h;//top left i1
vArray[4] = origin->x+w; vArray[5] = origin->y+h;//top right i2
vArray[6] = origin->x+w; vArray[7] = origin->y;//bottom right i3
break;
case TOPLEFT:
vArray[0] = origin->x; vArray[1] = origin->y-h;//bottom left i0
vArray[2] = origin->x; vArray[3] = origin->y;//top left i1
vArray[4] = origin->x+w; vArray[5] = origin->y;//top right i2
vArray[6] = origin->x+w; vArray[7] = origin->y-h;//bottom right i3
break;
case TOPRIGHT:
vArray[0] = origin->x-w; vArray[1] = origin->y-h;//bottom left i0
vArray[2] = origin->x-w; vArray[3] = origin->y;//top left i1
vArray[4] = origin->x; vArray[5] = origin->y;//top right i2
vArray[6] = origin->x; vArray[7] = origin->y-h;//bottom right i3
break;
case BOTTOMRIGHT:
vArray[0] = origin->x-w; vArray[1] = origin->y;//bottom left i0
vArray[2] = origin->x-w; vArray[3] = origin->y+h;//top left i1
vArray[4] = origin->x-h; vArray[5] = origin->y;//top right i2
vArray[6] = origin->x; vArray[7] = origin->y;//bottom right i3
break;
default: //same as center
vArray[0] = origin->x-(w/2); vArray[1] = origin->y-(h/2);//bottom left i0
vArray[2] = origin->x-(w/2); vArray[3] = origin->y+(h/2);//top left i1
vArray[4] = origin->x+(w/2); vArray[5] = origin->y+(h/2);//top right i2
vArray[6] = origin->x+(w/2); vArray[7] = origin->y-(h/2);//bottom right i3
break;
}
#pragma endregion
//create a quick texture array (we COULD create this on the heap rather than creating/destoying every cycle)
GLfloat tArray[8] =
{
//this has been tinkered with from my normal order. I think LodePNG is bringing the PD upside down. SO A QUICK FIX HERE WAS NECESSARY.
0.0f,1.0f,//0
0.0f,0.0f,//1
1.0f,0.0f,//2
1.0f,1.0f//3
};
//and finally.. the index array...remember, we draw in triangles....(and we'll go CW)
GLubyte iArray[6] =
{
0,1,2,
0,2,3
};
//Activate arrays
glEnableClientState(GL_VERTEX_ARRAY);
glEnableClientState(GL_TEXTURE_COORD_ARRAY);
//Give openGL a pointer to our vArray and tArray
glVertexPointer(2, GL_FLOAT, 0, &vArray[0]);
glTexCoordPointer(2, GL_FLOAT, 0, &tArray[0]);
//Draw it all
glDrawElements(GL_TRIANGLES, 6, GL_UNSIGNED_BYTE, &iArray[0]);
//glDrawArrays(GL_TRIANGLES,0,6);
//Disable the vertex arrays
glDisableClientState(GL_VERTEX_ARRAY);
glDisableClientState(GL_TEXTURE_COORD_ARRAY);
glDisable(GL_TEXTURE_2D);
}
有人能告诉我为什么OpenGL不会加载并从我加载到它的新像素数据中提取?就像我说的那样,我怀疑它与glGenTextures没有给我一个新的纹理名称有关。
答案 0 :(得分:2)
您正在调用glTexImage2D
并将指针传递给客户端内存。请注意,文档说:
如果在指定纹理图像时将非零命名缓冲区对象绑定到
GL_PIXEL_UNPACK_BUFFER
目标(请参阅glBindBuffer
),则data
将被视为缓冲区中的字节偏移量对象的数据存储。
您可能希望调用glBindBuffer(GL_PIXEL_UNPACK_BUFFER, 0)
取消绑定任何缓冲区对象,以确保安全。