static int put_image(struct vf_instance_s* vf, mp_image_t *mpi, double pts){ mp_image_t *dmpi; // hope we'll get DR buffer: dmpi=vf_get_image(vf->next,vf->priv->fmt, MP_IMGTYPE_TEMP, MP_IMGFLAG_ACCEPT_STRIDE, mpi->w, mpi->h); if(mpi->stride[0]!=dmpi->stride[0] || mpi->stride[0]!=mpi->w*(mpi->bpp/8)){ int y; unsigned char* src=mpi->planes[0]; unsigned char* dst=dmpi->planes[0]; int srcsize=mpi->w*mpi->bpp/8; for(y=0;y<mpi->h;y++){ if(mpi->bpp==32) rgb32tobgr32(src,dst,srcsize); else rgb24tobgr24(src,dst,srcsize); src+=mpi->stride[0]; dst+=dmpi->stride[0]; } } else { if(mpi->bpp==32) rgb32tobgr32(mpi->planes[0],dmpi->planes[0],mpi->w*mpi->h*4); else rgb24tobgr24(mpi->planes[0],dmpi->planes[0],mpi->w*mpi->h*3); } return vf_next_put_image(vf,dmpi, pts); }
int main(int argc, char **argv) { int i, funcNum; uint8_t *srcBuffer= (uint8_t*)av_malloc(SIZE); uint8_t *dstBuffer= (uint8_t*)av_malloc(SIZE); int failedNum=0; int passedNum=0; av_log(NULL, AV_LOG_INFO, "memory corruption test ...\n"); args_parse(argc, argv); av_log(NULL, AV_LOG_INFO, "CPU capabilities forced to %x\n", cpu_caps); sws_rgb2rgb_init(cpu_caps); for(funcNum=0; funcNum<100; funcNum++){ int width; int failed=0; int srcBpp=0; int dstBpp=0; av_log(NULL, AV_LOG_INFO,"."); memset(srcBuffer, srcByte, SIZE); for(width=32; width<64; width++){ int dstOffset; for(dstOffset=128; dstOffset<196; dstOffset+=4){ int srcOffset; memset(dstBuffer, dstByte, SIZE); for(srcOffset=128; srcOffset<196; srcOffset+=4){ uint8_t *src= srcBuffer+srcOffset; uint8_t *dst= dstBuffer+dstOffset; char *name=NULL; if(failed) break; //don't fill the screen with shit ... switch(funcNum){ case 0: srcBpp=2; dstBpp=2; name="rgb15to16"; rgb15to16(src, dst, width*srcBpp); break; case 1: srcBpp=2; dstBpp=3; name="rgb15to24"; rgb15to24(src, dst, width*srcBpp); break; case 2: srcBpp=2; dstBpp=4; name="rgb15to32"; rgb15to32(src, dst, width*srcBpp); break; case 3: srcBpp=2; dstBpp=3; name="rgb16to24"; rgb16to24(src, dst, width*srcBpp); break; case 4: srcBpp=2; dstBpp=4; name="rgb16to32"; rgb16to32(src, dst, width*srcBpp); break; case 5: srcBpp=3; dstBpp=2; name="rgb24to15"; rgb24to15(src, dst, width*srcBpp); break; case 6: srcBpp=3; dstBpp=2; name="rgb24to16"; rgb24to16(src, dst, width*srcBpp); break; case 7: srcBpp=3; dstBpp=4; name="rgb24to32"; rgb24to32(src, dst, width*srcBpp); break; case 8: srcBpp=4; dstBpp=2; name="rgb32to15"; //((*s++) << TGA_SHIFT32) | TGA_ALPHA32; rgb32to15(src, dst, width*srcBpp); break; case 9: srcBpp=4; dstBpp=2; name="rgb32to16"; rgb32to16(src, dst, width*srcBpp); break; case 10: srcBpp=4; dstBpp=3; name="rgb32to24"; rgb32to24(src, dst, width*srcBpp); break; case 11: srcBpp=2; dstBpp=2; name="rgb16to15"; rgb16to15(src, dst, width*srcBpp); break; case 14: srcBpp=2; dstBpp=2; name="rgb15tobgr15"; rgb15tobgr15(src, dst, width*srcBpp); break; case 15: srcBpp=2; dstBpp=2; name="rgb15tobgr16"; rgb15tobgr16(src, dst, width*srcBpp); break; case 16: srcBpp=2; dstBpp=3; name="rgb15tobgr24"; rgb15tobgr24(src, dst, width*srcBpp); break; case 17: srcBpp=2; dstBpp=4; name="rgb15tobgr32"; rgb15tobgr32(src, dst, width*srcBpp); break; case 18: srcBpp=2; dstBpp=2; name="rgb16tobgr15"; rgb16tobgr15(src, dst, width*srcBpp); break; case 19: srcBpp=2; dstBpp=2; name="rgb16tobgr16"; rgb16tobgr16(src, dst, width*srcBpp); break; case 20: srcBpp=2; dstBpp=3; name="rgb16tobgr24"; rgb16tobgr24(src, dst, width*srcBpp); break; case 21: srcBpp=2; dstBpp=4; name="rgb16tobgr32"; rgb16tobgr32(src, dst, width*srcBpp); break; case 22: srcBpp=3; dstBpp=2; name="rgb24tobgr15"; rgb24tobgr15(src, dst, width*srcBpp); break; case 23: srcBpp=3; dstBpp=2; name="rgb24tobgr16"; rgb24tobgr16(src, dst, width*srcBpp); break; case 24: srcBpp=3; dstBpp=3; name="rgb24tobgr24"; rgb24tobgr24(src, dst, width*srcBpp); break; case 25: srcBpp=3; dstBpp=4; name="rgb24tobgr32"; rgb24tobgr32(src, dst, width*srcBpp); break; case 26: srcBpp=4; dstBpp=2; name="rgb32tobgr15"; rgb32tobgr15(src, dst, width*srcBpp); break; case 27: srcBpp=4; dstBpp=2; name="rgb32tobgr16"; rgb32tobgr16(src, dst, width*srcBpp); break; case 28: srcBpp=4; dstBpp=3; name="rgb32tobgr24"; rgb32tobgr24(src, dst, width*srcBpp); break; case 29: srcBpp=4; dstBpp=4; name="rgb32tobgr32"; rgb32tobgr32(src, dst, width*srcBpp); break; } if(!srcBpp) break; for(i=0; i<SIZE; i++){ if(srcBuffer[i]!=srcByte){ av_log(NULL, AV_LOG_INFO, "src damaged at %d w:%d src:%d dst:%d %s\n", i, width, srcOffset, dstOffset, name); failed=1; break; } } for(i=0; i<dstOffset; i++){ if(dstBuffer[i]!=dstByte){ av_log(NULL, AV_LOG_INFO, "dst damaged at %d w:%d src:%d dst:%d %s\n", i, width, srcOffset, dstOffset, name); failed=1; break; } } for(i=dstOffset + width*dstBpp; i<SIZE; i++){ if(dstBuffer[i]!=dstByte){ av_log(NULL, AV_LOG_INFO, "dst damaged at %d w:%d src:%d dst:%d %s\n", i, width, srcOffset, dstOffset, name); failed=1; break; } } } } } if(failed) failedNum++; else if(srcBpp) passedNum++; } av_log(NULL, AV_LOG_INFO, "%d converters passed, %d converters randomly overwrote memory\n", passedNum, failedNum); return failedNum; }
main(int argc, char **argv) { int i, funcNum; uint8_t *srcBuffer= (uint8_t*)memalign(128, SIZE); uint8_t *dstBuffer= (uint8_t*)memalign(128, SIZE); int failedNum=0; int passedNum=0; printf("memory corruption test ...\n"); if(argc==2){ GetCpuCaps(&gCpuCaps); printf("testing mmx\n"); } sws_rgb2rgb_init(get_sws_cpuflags()); for(funcNum=0; funcNum<100; funcNum++){ int width; int failed=0; int srcBpp=0; int dstBpp=0; printf("."); fflush(stdout); memset(srcBuffer, srcByte, SIZE); for(width=32; width<64; width++){ int dstOffset; for(dstOffset=128; dstOffset<196; dstOffset++){ int srcOffset; memset(dstBuffer, dstByte, SIZE); for(srcOffset=128; srcOffset<196; srcOffset++){ uint8_t *src= srcBuffer+srcOffset; uint8_t *dst= dstBuffer+dstOffset; char *name=NULL; if(failed) break; //don't fill the screen with shit ... switch(funcNum){ case 0: srcBpp=2; dstBpp=2; name="rgb15to16"; rgb15to16(src, dst, width*srcBpp); break; case 1: srcBpp=2; dstBpp=3; name="rgb15to24"; rgb15to24(src, dst, width*srcBpp); break; case 2: srcBpp=2; dstBpp=4; name="rgb15to32"; rgb15to32(src, dst, width*srcBpp); break; case 3: srcBpp=2; dstBpp=3; name="rgb16to24"; rgb16to24(src, dst, width*srcBpp); break; case 4: srcBpp=2; dstBpp=4; name="rgb16to32"; rgb16to32(src, dst, width*srcBpp); break; case 5: srcBpp=3; dstBpp=2; name="rgb24to15"; rgb24to15(src, dst, width*srcBpp); break; case 6: srcBpp=3; dstBpp=2; name="rgb24to16"; rgb24to16(src, dst, width*srcBpp); break; case 7: srcBpp=3; dstBpp=4; name="rgb24to32"; rgb24to32(src, dst, width*srcBpp); break; case 8: srcBpp=4; dstBpp=2; name="rgb32to15"; rgb32to15(src, dst, width*srcBpp); break; case 9: srcBpp=4; dstBpp=2; name="rgb32to16"; rgb32to16(src, dst, width*srcBpp); break; case 10: srcBpp=4; dstBpp=3; name="rgb32to24"; rgb32to24(src, dst, width*srcBpp); break; case 11: srcBpp=2; dstBpp=2; name="rgb16to15"; rgb16to15(src, dst, width*srcBpp); break; case 14: srcBpp=2; dstBpp=2; name="rgb15tobgr15"; rgb15tobgr15(src, dst, width*srcBpp); break; case 15: srcBpp=2; dstBpp=2; name="rgb15tobgr16"; rgb15tobgr16(src, dst, width*srcBpp); break; case 16: srcBpp=2; dstBpp=3; name="rgb15tobgr24"; rgb15tobgr24(src, dst, width*srcBpp); break; case 17: srcBpp=2; dstBpp=4; name="rgb15tobgr32"; rgb15tobgr32(src, dst, width*srcBpp); break; case 18: srcBpp=2; dstBpp=2; name="rgb16tobgr15"; rgb16tobgr15(src, dst, width*srcBpp); break; case 19: srcBpp=2; dstBpp=2; name="rgb16tobgr16"; rgb16tobgr16(src, dst, width*srcBpp); break; case 20: srcBpp=2; dstBpp=3; name="rgb16tobgr24"; rgb16tobgr24(src, dst, width*srcBpp); break; case 21: srcBpp=2; dstBpp=4; name="rgb16tobgr32"; rgb16tobgr32(src, dst, width*srcBpp); break; case 22: srcBpp=3; dstBpp=2; name="rgb24tobgr15"; rgb24tobgr15(src, dst, width*srcBpp); break; case 23: srcBpp=3; dstBpp=2; name="rgb24tobgr16"; rgb24tobgr16(src, dst, width*srcBpp); break; case 24: srcBpp=3; dstBpp=3; name="rgb24tobgr24"; rgb24tobgr24(src, dst, width*srcBpp); break; case 25: srcBpp=3; dstBpp=4; name="rgb24tobgr32"; rgb24tobgr32(src, dst, width*srcBpp); break; case 26: srcBpp=4; dstBpp=2; name="rgb32tobgr15"; rgb32tobgr15(src, dst, width*srcBpp); break; case 27: srcBpp=4; dstBpp=2; name="rgb32tobgr16"; rgb32tobgr16(src, dst, width*srcBpp); break; case 28: srcBpp=4; dstBpp=3; name="rgb32tobgr24"; rgb32tobgr24(src, dst, width*srcBpp); break; case 29: srcBpp=4; dstBpp=4; name="rgb32tobgr32"; rgb32tobgr32(src, dst, width*srcBpp); break; } if(!srcBpp) break; for(i=0; i<SIZE; i++){ if(srcBuffer[i]!=srcByte){ printf("src damaged at %d w:%d src:%d dst:%d %s\n", i, width, srcOffset, dstOffset, name); failed=1; break; } } for(i=0; i<dstOffset; i++){ if(dstBuffer[i]!=dstByte){ printf("dst damaged at %d w:%d src:%d dst:%d %s\n", i, width, srcOffset, dstOffset, name); failed=1; break; } } for(i=dstOffset + width*dstBpp; i<SIZE; i++){ if(dstBuffer[i]!=dstByte){ printf("dst damaged at %d w:%d src:%d dst:%d %s\n", i, width, srcOffset, dstOffset, name); failed=1; break; } } } } } if(failed) failedNum++; else if(srcBpp) passedNum++; } printf("%d converters passed, %d converters randomly overwrote memory\n", passedNum, failedNum); return failedNum; }