/** Save LUT to file. * @param filename file name */ void BayesHistosToLut::save(std::string filename) { ColormapFile cmf; cmf.add_colormap(lut); cmf.write(filename.c_str()); }
/** Save LUT to file. * @param file file name */ void BayesHistosToLut::saveLut(char *file) { ColormapFile cmf; cmf.add_colormap(lut); cmf.write(file); }
virtual void fuse_inbound_received(FuseNetworkMessage *m) throw() { // printf("Received message of type %u\n", m->type()); switch (m->type() ) { case FUSE_MT_IMAGE: // we got an image, save it to the given file try { FuseImageContent *ic = m->msgc<FuseImageContent>(); if ( ic->format() == FUSE_IF_RAW ) { FvRawWriter *w = new FvRawWriter(__file, ic->pixel_width(), ic->pixel_height(), (colorspace_t)ic->colorspace(), ic->buffer()); w->write(); delete w; } else if ( ic->format() == FUSE_IF_JPEG ) { FILE *f = fopen(__file, "w"); if (fwrite(ic->buffer(), ic->buffer_size(), 1, f) == 0) { printf("Failed to write data to file"); } fclose(f); } else { printf("Image of unknown format (%u) received.\n", ic->format()); } delete ic; } catch (Exception &e) { printf("Received message cannot be casted to FuseImageMessage\n"); e.print_trace(); } __client->cancel(); break; case FUSE_MT_IMAGE_LIST: try { FuseImageListContent *ilc = m->msgc<FuseImageListContent>(); if ( ilc->has_next() ) { printf("Available images:\n"); while ( ilc->has_next() ) { FUSE_imageinfo_t *ii = ilc->next(); char tmp[IMAGE_ID_MAX_LENGTH + 1]; tmp[IMAGE_ID_MAX_LENGTH] = 0; strncpy(tmp, ii->image_id, IMAGE_ID_MAX_LENGTH); printf(" %s (%u x %u, %s)\n", tmp, ntohl(ii->width), ntohl(ii->height), colorspace_to_string((colorspace_t)ntohs(ii->colorspace))); } } else { printf("No images available\n"); } delete ilc; } catch (Exception &e) { printf("Received message cannot be casted to FuseImageListMessage\n"); e.print_trace(); } break; case FUSE_MT_LUT_LIST: try { FuseLutListContent *llc = m->msgc<FuseLutListContent>(); if ( llc->has_next() ) { printf("Available lookup tables:\n"); while ( llc->has_next() ) { FUSE_lutinfo_t *li = llc->next(); char tmp[LUT_ID_MAX_LENGTH + 1]; tmp[LUT_ID_MAX_LENGTH] = 0; strncpy(tmp, li->lut_id, LUT_ID_MAX_LENGTH); printf(" %s (%u x %u x %u, %u bpc)\n", tmp, ntohl(li->width), ntohl(li->height), ntohl(li->depth), ntohl(li->bytes_per_cell)); } } else { printf("No lookup tables available\n"); } delete llc; } catch (Exception &e) { printf("Received message cannot be casted to FuseImageListMessage\n"); e.print_trace(); } __client->cancel(); break; case FUSE_MT_LUT: // we got a LUT, save it to the given file try { FuseLutContent *lc = m->msgc<FuseLutContent>(); // Currently we expect colormaps, so make sure we get sensible dimensions if ( lc->width() != 256 ) { printf("Invalid dimensions for LUT received, colormap width %u != 256", lc->width()); } else if ( lc->height() != 256 ) { printf("Invalid dimensions for LUT received, colormap height %u != 256", lc->height()); } else if ( lc->depth() > 256 ) { printf("Invalid dimensions for LUT received, colormap depth %u > 256", lc->depth()); } else { try { YuvColormap yuvcm(lc->depth()); yuvcm.set(lc->buffer()); ColormapFile cmf; cmf.add_colormap(&yuvcm); cmf.write(__file); } catch (Exception &e) { e.append("Failed to save colormap"); e.print_trace(); } } delete lc; } catch (Exception &e) { printf("Received message cannot be casted to FuseLutMessage\n"); e.print_trace(); } __client->cancel(); break; case FUSE_MT_SET_LUT_SUCCEEDED: { FUSE_lutdesc_message_t *lutdesc = m->msg<FUSE_lutdesc_message_t>(); char lut_id[LUT_ID_MAX_LENGTH + 1]; lut_id[LUT_ID_MAX_LENGTH] = 0; strncpy(lut_id, lutdesc->lut_id, LUT_ID_MAX_LENGTH); printf("LUT %s has been uploaded successfully.\n", lut_id); __client->cancel(); } break; case FUSE_MT_SET_LUT_FAILED: { FUSE_lutdesc_message_t *lutdesc = m->msg<FUSE_lutdesc_message_t>(); char lut_id[LUT_ID_MAX_LENGTH + 1]; lut_id[LUT_ID_MAX_LENGTH] = 0; strncpy(lut_id, lutdesc->lut_id, LUT_ID_MAX_LENGTH); printf("LUT upload of %s has failed.\n", lut_id); __client->cancel(); } break; default: printf("Unhandled message of type %u received\n", m->type()); __client->cancel(); break; } }
int main(int argc, char **argv) { const char *filename = "qatest.colormap"; if ( argc > 1 ) { filename = argv[1]; } printf("Creating simple one-plane colormap\n"); YuvColormap *cm = new YuvColormap(); for (unsigned int u = 100; u < 150; ++u) { for (unsigned int v = 100; v < 150; ++v) { cm->set(128, u, v, C_ORANGE); } } unsigned char *imgb = malloc_buffer(YUV422_PLANAR, cm->width() * 2, cm->height() * 2); cm->to_image(imgb); ImageDisplay *imgd = new ImageDisplay(cm->width() * 2, cm->height() * 2); imgd->show(imgb); imgd->loop_until_quit(); delete cm; printf("Trying to create colormap with illegal depth, should throw an exception.."); try { cm = new YuvColormap(3); printf(" Test failed, colormap was created\n"); delete cm; } catch (Exception &e) { printf(" Test succeeded, caught exception\n"); } printf("Trying colormap with depth of %u\n", BIGDEPTH); cm = new YuvColormap(BIGDEPTH); for (unsigned int d = 0; d < cm->depth(); ++d) { unsigned int y = 256 / cm->depth() * d; printf("d=%u y=%u u=[%u,%u] v=[%u,%u]\n", d, y, cm->depth() * d, cm->depth() * (d+1), cm->depth() * d, cm->depth() * (d+1)); for (unsigned int u = cm->deepness() / cm->depth() * d; u < cm->deepness() / cm->depth() * (d+1); ++u) { for (unsigned int v = cm->deepness() / cm->depth() * d; v < cm->deepness() / cm->depth() * (d+1); ++v) { cm->set(y, u, v, C_ORANGE); } } cm->to_image(imgb, d); imgd->show(imgb); imgd->loop_until_quit(); } printf("Saving colormap to a file\n"); ColormapFile cmf; cmf.add_colormap(cm); cmf.write(filename); ColormapFile::ColormapBlockVector *blocks = cmf.colormap_blocks(); printf("Written, created %zu blocks\n", blocks->size()); delete blocks; delete cm; cmf.clear(); printf("Reading colormap from file\n"); cmf.read(filename); Colormap *tcm = cmf.get_colormap(); if ( (cm = dynamic_cast<YuvColormap *>(tcm)) == 0 ) { printf("Error, did not get valid yuv colormap\n"); } else { printf("Showing all %u colormap levels\n", cm->depth()); for (unsigned int d = 0; d < cm->depth(); ++d) { cm->to_image(imgb, d); imgd->show(imgb); imgd->loop_until_quit(); } } delete cm; unsigned int depth = 4, width = 128, height = 128; printf("Trying colormap with low resolution, choosing %dx%dx%d\n", depth, width, height); cm = new YuvColormap(depth, width, height); printf("YuvColormap dimensions: %dx%dx%d\n", cm->depth(), cm->width(), cm->height()); ColormapFile cmfr(depth, width, height); delete cm; cmfr.write(filename); cmfr.clear(); cmfr.read(filename); cm = dynamic_cast<YuvColormap *>(cmfr.get_colormap()); printf("Read back colormap dimensions %dx%dx%d\n", cm->depth(), cm->width(), cm->height()); delete cm; //delete imgd; //free(imgb); return 0; }