VC應用OPENGL加載BMP紋理圖的完成辦法匯總。本站提示廣大學習愛好者:(VC應用OPENGL加載BMP紋理圖的完成辦法匯總)文章只能為提供參考,不一定能成為您想要的結果。以下是VC應用OPENGL加載BMP紋理圖的完成辦法匯總正文
OpenGL是專業的圖形法式接口,功效異常壯大,挪用便利的底層圖形庫。本文匯總了應用OPENGL加載BMP紋理圖的幾個完成辦法。
辦法一:
起首獲得位圖句柄:
HBITMAP hBmp = (HBITMAP) ::LoadImage (AfxGetResourceHandle(),MAKEINTRESOURCE(IDB_BITMAP1), IMAGE_BITMAP, 0, 0,LR_CREATEDIBSECTION);
然後依據位圖句柄獲得位圖信息:
BITMAP BM; ::GetObject (hBmp, sizeof (BM), &BM);
最初依據位圖信息中的RGB值樹立紋理:
gluBuild2DMipmaps( GL_TEXTURE_2D, 3, BM.bmWidth, BM.bmHeight,GL_BGR_EXT, GL_UNSIGNED_BYTE,BM.bmBits);
辦法二:
起首用OpenGL幫助庫取得位圖信息:
AUX_RGBImageRec* TextureImage[1]; TextureImage[0]=auxDIBImageLoad("1.bmp");
然後樹立紋理
gluBuild2DMipmaps(GL_TEXTURE_2D, 3, TextureImage[0]->sizeX, TextureImage[0]->sizeY, GL_RGB, GL_UNSIGNED_BYTE, TextureImage[0]->data);
辦法三:
從底層做,須要懂得bmp文件的構造,起首讀取bmp文件構造,包含文件頭、信息頭和數據,數據用於前面界說紋理
long ImageWidth=256; long ImageHeight=256; GLubyte Image[256][256][3]; void ReadHeader(FILE *fp , BITMAPFH * p_bitmapheader , BITMAPIH *p_bitmapinfo) { fseek(fp, 0, SEEK_SET) ; fread( &p_bitmapheader->bfType,sizeof(unsigned short), 1, fp ); fseek(fp, 2, SEEK_SET) ; fread( &p_bitmapheader->bfSize,sizeof(unsigned long), 1, fp ); fseek(fp, 6, SEEK_SET) ; fread( &p_bitmapheader->bfReserved1,sizeof(unsigned short), 1, fp ); fseek(fp, 8, SEEK_SET) ; fread( &p_bitmapheader->bfReserved2,sizeof(unsigned short), 1, fp ); fseek(fp, 10, SEEK_SET) ; fread( &p_bitmapheader->bfOffBits,sizeof(unsigned long), 1, fp ); fseek(fp, 14, SEEK_SET) ; fread( &p_bitmapinfo->biSize, sizeof(unsigned long), 1, fp ); fseek(fp, 18, SEEK_SET) ; fread( &p_bitmapinfo->biWidth, sizeof(unsigned long), 1, fp ); fseek(fp, 22, SEEK_SET) ; fread( &p_bitmapinfo->biHeight, sizeof(unsigned long), 1, fp ); fseek(fp, 26, SEEK_SET) ; fread( &p_bitmapinfo->biPlanes, sizeof(unsigned short), 1, fp ); fseek(fp, 28, SEEK_SET) ; fread( &p_bitmapinfo->biBitCount, sizeof(unsigned short), 1, fp ); fseek(fp, 30, SEEK_SET) ; fread( &p_bitmapinfo->biCompression, sizeof(unsigned long), 1, fp ); fseek(fp, 34, SEEK_SET) ; fread( &p_bitmapinfo->biSizeImage, sizeof(unsigned long), 1, fp ); fseek(fp, 38, SEEK_SET) ; fread( &p_bitmapinfo->biXPelsPerMeter, sizeof(unsigned long), 1, fp ); fseek(fp, 42, SEEK_SET) ; fread( &p_bitmapinfo->biYPelsPerMeter, sizeof(unsigned long), 1, fp ); fseek(fp, 46, SEEK_SET) ; fread( &p_bitmapinfo->biClrUsed, sizeof(unsigned long), 1, fp ); fseek(fp, 50, SEEK_SET) ; fread( &p_bitmapinfo->biClrImportant, sizeof(unsigned long), 1, fp ); } void ReadBitmapFile() { BITMAPFH bitmapheader ; BITMAPIH bitmapinfo ; FILE *fp; fp = fopen("6.bmp" , "r") ; if(!fp) { puts("Read file failed.") ; return; } ReadHeader(fp, &bitmapheader , &bitmapinfo) ; if(bitmapinfo.biBitCount != 24) { puts("UNSUPPORT") ; return; } ImageWidth = bitmapinfo.biWidth; ImageHeight = bitmapinfo.biHeight; int i=bitmapheader.bfOffBits; while(i<bitmapheader.bfSize) { for(int j=0;j<ImageWidth;j++) for(int k=0;k<ImageHeight;k++) { fseek(fp, i, SEEK_SET) ; fread(Image[j][k]+2, 1, 1, fp) ; fseek(fp, i+1, SEEK_SET) ; fread(Image[j][k]+1, 1, 1, fp) ; fseek(fp, i+2, SEEK_SET) ; fread(Image[j][k], 1, 1, fp) ; i=i+3; } } fclose(fp) ; } glTexImage2D(GL_TEXTURE_2D,0,3,ImageWidth,ImageHeight,0,GL_RGB,GL_UNSIGNED_BYTE,&Image[0][0][0]);
#include <gl\glext.h>
這是由於前面的GL_BGR_EXT是界說在這個頭文件裡的,由於BMP格局是按Blue,Green,Red次序貯存圖象數據的,這與OpenGL中正好相反。GL_BGR_EXT就是完成二者之間的轉換的。
上面就是不消AUX庫來加載BMP圖片作為紋理的函數:
bool LoadTexture(LPTSTR szFileName, GLuint &texid) // Creates Texture From A Bitmap File { HBITMAP hBMP; // Handle Of The Bitmap BITMAP BMP; // Bitmap Structure glGenTextures(1, &texid); // Create The Texture hBMP=(HBITMAP)LoadImage(GetModuleHandle(NULL), szFileName, IMAGE_BITMAP, 0, 0, LR_CREATEDIBSECTION | LR_LOADFROMFILE ); if (!hBMP) // Does The Bitmap Exist? return FALSE; // If Not Return False GetObject(hBMP, sizeof(BMP), &BMP); // Get The Object // hBMP: Handle To Graphics Object // sizeof(BMP): Size Of Buffer For Object Information // &BMP: Buffer For Object Information glPixelStorei(GL_UNPACK_ALIGNMENT, 4); // Pixel Storage Mode (Word Alignment / 4 Bytes) // Typical Texture Generation Using Data From The Bitmap glBindTexture(GL_TEXTURE_2D, texid); // Bind To The Texture ID glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR); // Linear Min Filter glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR); // Linear Mag Filter glTexImage2D(GL_TEXTURE_2D, 0, 3, BMP.bmWidth, BMP.bmHeight, 0, GL_BGR_EXT, GL_UNSIGNED_BYTE, BMP.bmBits); DeleteObject(hBMP); // Delete The Object return TRUE; // Loading Was Successful }