/* -*- C++ -*- * Copyright 2019-2021 LibRaw LLC (info@libraw.org) * LibRaw uses code from dcraw.c -- Dave Coffin's raw photo decoder, dcraw.c is copyright 1997-2018 by Dave Coffin, dcoffin a cybercom o net. LibRaw do not use RESTRICTED code from dcraw.c LibRaw is free software; you can redistribute it and/or modify it under the terms of the one of two licenses as you choose: 1. GNU LESSER GENERAL PUBLIC LICENSE version 2.1 (See file LICENSE.LGPL provided in LibRaw distribution archive for details). 2. COMMON DEVELOPMENT AND DISTRIBUTION LICENSE (CDDL) Version 1.0 (See file LICENSE.CDDL provided in LibRaw distribution archive for details). */ #include "../../internal/dcraw_defs.h" #include int LibRaw::flip_index(int row, int col) { if (flip & 4) SWAP(row, col); if (flip & 2) row = iheight - 1 - row; if (flip & 1) col = iwidth - 1 - col; return row * iwidth + col; } void LibRaw::tiff_set(struct tiff_hdr *th, ushort *ntag, ushort tag, ushort type, int count, int val) { struct libraw_tiff_tag *tt; int c; tt = (struct libraw_tiff_tag *)(ntag + 1) + (*ntag)++; tt->val.i = val; if (tagtypeIs(LIBRAW_EXIFTAG_TYPE_BYTE) && count <= 4) FORC(4) tt->val.c[c] = val >> (c << 3); else if (tagtypeIs(LIBRAW_EXIFTAG_TYPE_ASCII)) { count = int(strnlen((char *)th + val, count - 1)) + 1; if (count <= 4) FORC(4) tt->val.c[c] = ((char *)th)[val + c]; } else if (tagtypeIs(LIBRAW_EXIFTAG_TYPE_SHORT) && count <= 2) FORC(2) tt->val.s[c] = val >> (c << 4); tt->count = count; tt->type = type; tt->tag = tag; } #define TOFF(ptr) ((char *)(&(ptr)) - (char *)th) void LibRaw::tiff_head(struct tiff_hdr *th, int full) { int c, psize = 0; struct tm *t; memset(th, 0, sizeof *th); th->t_order = htonl(0x4d4d4949) >> 16; th->magic = 42; th->ifd = 10; th->rat[0] = th->rat[2] = 300; th->rat[1] = th->rat[3] = 1; FORC(6) th->rat[4 + c] = 1000000; th->rat[4] *= shutter; th->rat[6] *= aperture; th->rat[8] *= focal_len; strncpy(th->t_desc, desc, 512); strncpy(th->t_make, make, 64); strncpy(th->t_model, model, 64); strcpy(th->soft, "dcraw v" DCRAW_VERSION); t = localtime(×tamp); sprintf(th->date, "%04d:%02d:%02d %02d:%02d:%02d", t->tm_year + 1900, t->tm_mon + 1, t->tm_mday, t->tm_hour, t->tm_min, t->tm_sec); strncpy(th->t_artist, artist, 64); if (full) { tiff_set(th, &th->ntag, 254, 4, 1, 0); tiff_set(th, &th->ntag, 256, 4, 1, width); tiff_set(th, &th->ntag, 257, 4, 1, height); tiff_set(th, &th->ntag, 258, 3, colors, output_bps); if (colors > 2) th->tag[th->ntag - 1].val.i = TOFF(th->bps); FORC4 th->bps[c] = output_bps; tiff_set(th, &th->ntag, 259, 3, 1, 1); tiff_set(th, &th->ntag, 262, 3, 1, 1 + (colors > 1)); } tiff_set(th, &th->ntag, 270, 2, 512, TOFF(th->t_desc)); tiff_set(th, &th->ntag, 271, 2, 64, TOFF(th->t_make)); tiff_set(th, &th->ntag, 272, 2, 64, TOFF(th->t_model)); if (full) { if (oprof) psize = ntohl(oprof[0]); tiff_set(th, &th->ntag, 273, 4, 1, sizeof *th + psize); tiff_set(th, &th->ntag, 277, 3, 1, colors); tiff_set(th, &th->ntag, 278, 4, 1, height); tiff_set(th, &th->ntag, 279, 4, 1, height * width * colors * output_bps / 8); } else tiff_set(th, &th->ntag, 274, 3, 1, "12435867"[flip] - '0'); tiff_set(th, &th->ntag, 282, 5, 1, TOFF(th->rat[0])); tiff_set(th, &th->ntag, 283, 5, 1, TOFF(th->rat[2])); tiff_set(th, &th->ntag, 284, 3, 1, 1); tiff_set(th, &th->ntag, 296, 3, 1, 2); tiff_set(th, &th->ntag, 305, 2, 32, TOFF(th->soft)); tiff_set(th, &th->ntag, 306, 2, 20, TOFF(th->date)); tiff_set(th, &th->ntag, 315, 2, 64, TOFF(th->t_artist)); tiff_set(th, &th->ntag, 34665, 4, 1, TOFF(th->nexif)); if (psize) tiff_set(th, &th->ntag, 34675, 7, psize, sizeof *th); tiff_set(th, &th->nexif, 33434, 5, 1, TOFF(th->rat[4])); tiff_set(th, &th->nexif, 33437, 5, 1, TOFF(th->rat[6])); tiff_set(th, &th->nexif, 34855, 3, 1, iso_speed); tiff_set(th, &th->nexif, 37386, 5, 1, TOFF(th->rat[8])); if (gpsdata[1]) { uchar latref[4] = { (uchar)(gpsdata[29]),0,0,0 }, lonref[4] = { (uchar)(gpsdata[30]),0,0,0 }; tiff_set(th, &th->ntag, 34853, 4, 1, TOFF(th->ngps)); tiff_set(th, &th->ngps, 0, 1, 4, 0x202); tiff_set(th, &th->ngps, 1, 2, 2, TOFF(latref)); tiff_set(th, &th->ngps, 2, 5, 3, TOFF(th->gps[0])); tiff_set(th, &th->ngps, 3, 2, 2, TOFF(lonref)); tiff_set(th, &th->ngps, 4, 5, 3, TOFF(th->gps[6])); tiff_set(th, &th->ngps, 5, 1, 1, gpsdata[31]); tiff_set(th, &th->ngps, 6, 5, 1, TOFF(th->gps[18])); tiff_set(th, &th->ngps, 7, 5, 3, TOFF(th->gps[12])); tiff_set(th, &th->ngps, 18, 2, 12, TOFF(th->gps[20])); tiff_set(th, &th->ngps, 29, 2, 12, TOFF(th->gps[23])); memcpy(th->gps, gpsdata, sizeof th->gps); } } void LibRaw::jpeg_thumb_writer(FILE *tfp, char *t_humb, int t_humb_length) { ushort exif[5]; struct tiff_hdr th; fputc(0xff, tfp); fputc(0xd8, tfp); if (strcmp(t_humb + 6, "Exif")) { memcpy(exif, "\xff\xe1 Exif\0\0", 10); exif[1] = htons(8 + sizeof th); fwrite(exif, 1, sizeof exif, tfp); tiff_head(&th, 0); fwrite(&th, 1, sizeof th, tfp); } fwrite(t_humb + 2, 1, t_humb_length - 2, tfp); } void LibRaw::write_ppm_tiff() { try { struct tiff_hdr th; ushort *ppm2; int c, row, col, soff, rstep, cstep; int perc, val, total, t_white = 0x2000; perc = width * height * auto_bright_thr; if (fuji_width) perc /= 2; if (!((highlight & ~2) || no_auto_bright)) for (t_white = c = 0; c < colors; c++) { for (val = 0x2000, total = 0; --val > 32;) if ((total += histogram[c][val]) > perc) break; if (t_white < val) t_white = val; } gamma_curve(gamm[0], gamm[1], 2, (t_white << 3) / bright); iheight = height; iwidth = width; if (flip & 4) SWAP(height, width); std::vector ppm(width * colors * output_bps / 8); ppm2 = (ushort *)ppm.data(); if (output_tiff) { tiff_head(&th, 1); fwrite(&th, sizeof th, 1, ofp); if (oprof) fwrite(oprof, ntohl(oprof[0]), 1, ofp); } else if (colors > 3) { if(imgdata.params.output_flags & LIBRAW_OUTPUT_FLAGS_PPMMETA) fprintf(ofp, "P7\n# EXPTIME=%0.5f\n# TIMESTAMP=%d\n# ISOSPEED=%d\n" "# APERTURE=%0.1f\n# FOCALLEN=%0.1f\n# MAKE=%s\n# MODEL=%s\n" "WIDTH %d\nHEIGHT %d\nDEPTH %d\nMAXVAL %d\nTUPLTYPE %s\nENDHDR\n", shutter, (int)timestamp, (int)iso_speed,aperture, focal_len, make, model, width, height, colors, (1 << output_bps) - 1, cdesc); else fprintf( ofp, "P7\nWIDTH %d\nHEIGHT %d\nDEPTH %d\nMAXVAL %d\nTUPLTYPE %s\nENDHDR\n", width, height, colors, (1 << output_bps) - 1, cdesc); } else { if(imgdata.params.output_flags & LIBRAW_OUTPUT_FLAGS_PPMMETA) fprintf(ofp, "P%d\n# EXPTIME=%0.5f\n# TIMESTAMP=%d\n" "# ISOSPEED=%d\n# APERTURE=%0.1f\n# FOCALLEN=%0.1f\n" "# MAKE=%s\n# MODEL=%s\n%d %d\n%d\n", colors/2+5, shutter, (int)timestamp, (int)iso_speed,aperture,focal_len, make,model, width, height, (1 << output_bps)-1); else fprintf(ofp, "P%d\n%d %d\n%d\n", colors / 2 + 5, width, height, (1 << output_bps) - 1); } soff = flip_index(0, 0); cstep = flip_index(0, 1) - soff; rstep = flip_index(1, 0) - flip_index(0, width); for (row = 0; row < height; row++, soff += rstep) { for (col = 0; col < width; col++, soff += cstep) if (output_bps == 8) FORCC ppm[col * colors + c] = curve[image[soff][c]] >> 8; else FORCC ppm2[col * colors + c] = curve[image[soff][c]]; if (output_bps == 16 && !output_tiff && htons(0x55aa) != 0x55aa) libraw_swab(ppm2, width * colors * 2); fwrite(ppm.data(), colors * output_bps / 8, width, ofp); } } catch (...) { throw LIBRAW_EXCEPTION_ALLOC; // rethrow } } #if 0 void LibRaw::ppm_thumb() { try { thumb_length = thumb_width * thumb_height * 3; std::vector thumb(thumb_length); fprintf(ofp, "P6\n%d %d\n255\n", thumb_width, thumb_height); fread(thumb.data(), 1, thumb_length, ifp); fwrite(thumb.data(), 1, thumb_length, ofp); } catch (...) { throw LIBRAW_EXCEPTION_ALLOC; // rethrow } } void LibRaw::ppm16_thumb() { try { unsigned i; thumb_length = thumb_width * thumb_height * 3; std::vector thumb(thumb_length * 2, 0); read_shorts((ushort *)thumb.data(), thumb_length); for (i = 0; i < thumb_length; i++) thumb[i] = ((ushort *)thumb.data())[i] >> 8; fprintf(ofp, "P6\n%d %d\n255\n", thumb_width, thumb_height); fwrite(thumb.data(), 1, thumb_length, ofp); } catch (...) { throw LIBRAW_EXCEPTION_ALLOC; // rethrow } } void LibRaw::layer_thumb() { try { unsigned int i; int c; char map[][4] = { "012", "102" }; colors = thumb_misc >> 5 & 7; thumb_length = thumb_width * thumb_height; std::vector thumb(colors * thumb_length, 0); fprintf(ofp, "P%d\n%d %d\n255\n", 5 + (colors >> 1), thumb_width, thumb_height); fread(thumb.data(), thumb_length, colors, ifp); for (i = 0; i < thumb_length; i++) FORCC putc(thumb[i + thumb_length * (map[thumb_misc >> 8][c] - '0')], ofp); } catch (...) { throw LIBRAW_EXCEPTION_ALLOC; // rethrow } } void LibRaw::rollei_thumb() { try { unsigned i; thumb_length = thumb_width * thumb_height; std::vector thumb(thumb_length, 0); fprintf(ofp, "P6\n%d %d\n255\n", thumb_width, thumb_height); read_shorts(thumb.data(), thumb_length); for (i = 0; i < thumb_length; i++) { putc(thumb[i] << 3, ofp); putc(thumb[i] >> 5 << 2, ofp); putc(thumb[i] >> 11 << 3, ofp); } } catch (...) { throw LIBRAW_EXCEPTION_ALLOC; // rethrow } } void LibRaw::jpeg_thumb() { try { std::vector thumb(thumb_length); fread(thumb.data(), 1, thumb_length, ifp); jpeg_thumb_writer(ofp, thumb.data(), thumb_length); } catch (...) { throw LIBRAW_EXCEPTION_ALLOC; // rethrow } } #endif