/* * Copyright (c) 2001-2003, David Janssens * Copyright (c) 2002-2003, Yannick Verschueren * Copyright (c) 2003-2005, Francois Devaux and Antonin Descampe * Copyright (c) 2005, Herve Drolon, FreeImage Team * Copyright (c) 2002-2005, Communications and remote sensing Laboratory, Universite catholique de Louvain, Belgium * Copyright (c) 2006, Mónica Díez García, Image Processing Laboratory, University of Valladolid, Spain * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS `AS IS' * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include "opj_config.h" #include "openjp3d.h" #include "opj_getopt.h" #include "convert.h" #ifdef _WIN32 #include #else #define stricmp strcasecmp #define strnicmp strncasecmp #endif /* _WIN32 */ /* ----------------------------------------------------------------------- */ void encode_help_display() { fprintf(stdout, "List of parameters for the JPEG2000 Part 10 encoder:\n"); fprintf(stdout, "------------\n"); fprintf(stdout, "\n"); fprintf(stdout, "Required Parameters (except with -h):\n"); fprintf(stdout, "\n"); fprintf(stdout, "-i : source file (-i source.bin or source*.pgx) \n"); fprintf(stdout, "\n"); fprintf(stdout, "-m : source characteristics file (-m imgfile.img) \n"); fprintf(stdout, "\n"); fprintf(stdout, "-o : destination file (-o dest.jp3d) \n"); fprintf(stdout, "\n"); fprintf(stdout, "Optional Parameters:\n"); fprintf(stdout, "\n"); fprintf(stdout, "-h : display the help information \n "); fprintf(stdout, "\n"); fprintf(stdout, "-n : number of resolutions (-n 3,3,3) \n"); fprintf(stdout, "\n"); fprintf(stdout, "-I : use the irreversible transforms: ICT + DWT 9-7 (-I) \n"); fprintf(stdout, "\n"); fprintf(stdout, "-C : coding algorithm (-C 2EB) [2EB, 3EB] \n"); fprintf(stdout, "\n"); fprintf(stdout, "-r : different compression ratios for successive layers (-r 20,10,5)\n "); fprintf(stdout, " - The rate specified for each quality level is the desired compression factor.\n"); fprintf(stdout, " - Rate 1 means lossless compression\n"); fprintf(stdout, " (options -r and -q cannot be used together)\n "); fprintf(stdout, "\n"); fprintf(stdout, "-q : different psnr for successive layers (-q 30,40,50) \n "); fprintf(stdout, " (options -r and -q cannot be used together)\n "); fprintf(stdout, "\n"); fprintf(stdout, "-b : size of code block (-b 32,32,32) \n"); fprintf(stdout, "\n"); fprintf(stdout, "-c : size of precinct (-c 128,128,128) \n"); fprintf(stdout, "\n"); fprintf(stdout, "-t : size of tile (-t 512,512,512) \n"); fprintf(stdout, "\n"); fprintf(stdout, "-p : progression order (-p LRCP) [LRCP, RLCP, RPCL, PCRL, CPRL] \n"); fprintf(stdout, "\n"); fprintf(stdout, "-s : subsampling factor (-s 2,2,2) [-s X,Y,Z] \n"); fprintf(stdout, " - Remark: subsampling bigger than 2 can produce error\n"); fprintf(stdout, "\n"); fprintf(stdout, "-SOP : write SOP marker before each packet \n"); fprintf(stdout, "\n"); fprintf(stdout, "-EPH : write EPH marker after each header packet \n"); fprintf(stdout, "\n"); fprintf(stdout, "-M : code-block style (-M 0) [1=BYPASS(LAZY) 2=RESET 4=RESTART(TERMALL)\n"); fprintf(stdout, " 8=VSC 16=PTERM 32=SEGSYM 64=3DCTXT] \n"); fprintf(stdout, " Indicate multiple modes by adding their values. \n"); fprintf(stdout, " ex: RESTART(4) + RESET(2) + SEGMARK(32) = -M 38\n"); fprintf(stdout, "\n"); fprintf(stdout, "-D : define DC offset (-D 12) \n"); fprintf(stdout, "\n"); fprintf(stdout, "-x : create an index file *.Idx (-x index_name.Idx) \n"); fprintf(stdout, "\n"); fprintf(stdout, "-ROI : c=%%d,U=%%d : quantization indices upshifted \n"); fprintf(stdout, " for component c=%%d [%%d = 0,1,2]\n"); fprintf(stdout, " with a value of U=%%d [0 <= %%d <= 37] (i.e. -ROI:c=0,U=25) \n"); fprintf(stdout, "\n"); fprintf(stdout, "-d : offset of the origin of the volume (-d 150,300,100) \n"); fprintf(stdout, "\n"); fprintf(stdout, "-l : offset of the origin of the tiles (-l 100,75,25) \n"); fprintf(stdout, "\n"); fprintf(stdout, "\n"); fprintf(stdout, "DEFAULT CODING:\n"); fprintf(stdout, "------------\n"); fprintf(stdout, "\n"); fprintf(stdout, " * Lossless\n"); fprintf(stdout, " * 1 tile\n"); fprintf(stdout, " * Size of precinct : 2^15 x 2^15 x 2^15 (means 1 precinct)\n"); fprintf(stdout, " * Size of code-block : 64 x 64 x 64\n"); fprintf(stdout, " * Number of resolutions in x, y and z axis: 3\n"); fprintf(stdout, " * No SOP marker in the codestream\n"); fprintf(stdout, " * No EPH marker in the codestream\n"); fprintf(stdout, " * No sub-sampling in x, y or z direction\n"); fprintf(stdout, " * No mode switch activated\n"); fprintf(stdout, " * Progression order: LRCP\n"); fprintf(stdout, " * No index file\n"); fprintf(stdout, " * No ROI upshifted\n"); fprintf(stdout, " * No offset of the origin of the volume\n"); fprintf(stdout, " * No offset of the origin of the tiles\n"); fprintf(stdout, " * Reversible DWT 5-3 on each 2D slice\n"); fprintf(stdout, " * Coding algorithm: 2D-EBCOT \n"); fprintf(stdout, "\n"); fprintf(stdout, "REMARKS:\n"); fprintf(stdout, "---------\n"); fprintf(stdout, "\n"); fprintf(stdout, "- The markers written to the main_header are : SOC SIZ COD QCD COM.\n"); fprintf(stdout, "- COD and QCD markers will never appear in the tile_header.\n"); fprintf(stdout, "\n"); fprintf(stdout, "- You need enough disk space memory (twice the original) to encode \n"); fprintf(stdout, "the volume,i.e. for a 1.5 GB volume you need a minimum of 3GB of disk memory)\n"); fprintf(stdout, "\n"); fprintf(stdout, "- When loading *.pgx files, a relative path to directory is needed for input argument \n"); fprintf(stdout, " followed by the common prefix of the slices and a '*' character representing sequential numeration.\n"); fprintf(stdout, "( -i relativepath/slices*.pgx )\n"); fprintf(stdout, "\n"); fprintf(stdout, " - The index file has the structure below:\n"); fprintf(stdout, "\n"); fprintf(stdout, "\t Image_height Image_width Image_depth\n"); fprintf(stdout, "\t Progression order: 0 (LRCP)\n"); fprintf(stdout, "\t Tiles_size_X Tiles_size_Y Tiles_size_Z\n"); fprintf(stdout, "\t Components_nb\n"); fprintf(stdout, "\t Layers_nb\n"); fprintf(stdout, "\t Decomposition_levels\n"); fprintf(stdout, "\t [Precincts_size_X_res_Nr Precincts_size_Y_res_Nr Precincts_size_Z_res_Nr]\n\t ...\n"); fprintf(stdout, "\t [Precincts_size_X_res_0 Precincts_size_Y_res_0 Precincts_size_Z_res_0]\n"); fprintf(stdout, "\t Main_header_end_position\n"); fprintf(stdout, "\t Codestream_size\n"); fprintf(stdout, "\t Tile_0 [start_pos end_header end_pos TotalDisto NumPix MaxMSE]\n"); fprintf(stdout, "\t ...\n"); fprintf(stdout, "\t Tile_Nt [ '' '' '' '' '' '' ]\n"); fprintf(stdout, "\t Tpacket_0 [Tile layer res. comp. prec. start_pos end_pos disto]\n"); fprintf(stdout, "\t ...\n"); fprintf(stdout, "\t Tpacket_Np ['' '' '' '' '' '' '' '' ]\n"); fprintf(stdout, "\t MaxDisto\n"); fprintf(stdout, "\t TotalDisto\n\n"); fprintf(stdout, "\n"); } OPJ_PROG_ORDER give_progression(char progression[4]) { if (strncmp(progression, "LRCP", 4) == 0) { return LRCP; } if (strncmp(progression, "RLCP", 4) == 0) { return RLCP; } if (strncmp(progression, "RPCL", 4) == 0) { return RPCL; } if (strncmp(progression, "PCRL", 4) == 0) { return PCRL; } if (strncmp(progression, "CPRL", 4) == 0) { return CPRL; } return PROG_UNKNOWN; } OPJ_TRANSFORM give_transform(char transform[4]) { if (strncmp(transform, "2DWT", 4) == 0) { return TRF_2D_DWT; } if (strncmp(transform, "3DWT", 4) == 0) { return TRF_3D_DWT; } return TRF_UNKNOWN; } OPJ_ENTROPY_CODING give_coding(char coding[3]) { if (strncmp(coding, "2EB", 3) == 0) { return ENCOD_2EB; } if (strncmp(coding, "3EB", 3) == 0) { return ENCOD_3EB; } /*if(strncmp(coding, "2GR", 3) == 0) { return ENCOD_2GR; } if(strncmp(coding, "3GR", 3) == 0) { return ENCOD_3GR; }*/ return ENCOD_UNKNOWN; } int get_file_format(char *filename) { int i; static const char *extension[] = {"pgx", "bin", "img", "j3d", "jp3d", "j2k"}; static const int format[] = { PGX_DFMT, BIN_DFMT, IMG_DFMT, J3D_CFMT, J3D_CFMT, J2K_CFMT}; char * ext = strrchr(filename, '.'); if (ext) { ext++; for (i = 0; i < sizeof(format) / sizeof(*format); i++) { if (strnicmp(ext, extension[i], 3) == 0) { return format[i]; } } } return -1; } /* ------------------------------------------------------------------------------------ */ int parse_cmdline_encoder(int argc, char **argv, opj_cparameters_t *parameters) { int i, value; /* parse the command line */ while (1) { int c = opj_getopt(argc, argv, "i:m:o:r:q:f:t:n:c:b:x:p:s:d:hP:S:E:M:D:R:l:T:C:A:I"); if (c == -1) { break; } switch (c) { case 'i': { /* input file */ char *infile = opj_optarg; parameters->decod_format = get_file_format(infile); switch (parameters->decod_format) { case PGX_DFMT: case BIN_DFMT: case IMG_DFMT: break; default: fprintf(stdout, "[ERROR] Unrecognized format for infile : %s [accept only *.pgx or *.bin] !!\n\n", infile); return 1; break; } strncpy(parameters->infile, infile, MAX_PATH); fprintf(stdout, "[INFO] Infile: %s \n", parameters->infile); } break; /* ----------------------------------------------------- */ case 'm': { /* input IMG file */ char *imgfile = opj_optarg; int imgformat = get_file_format(imgfile); switch (imgformat) { case IMG_DFMT: break; default: fprintf(stdout, "[ERROR] Unrecognized format for imgfile : %s [accept only *.img] !!\n\n", imgfile); return 1; break; } strncpy(parameters->imgfile, imgfile, MAX_PATH); fprintf(stdout, "[INFO] Imgfile: %s Format: %d\n", parameters->imgfile, imgformat); } break; /* ----------------------------------------------------- */ case 'o': { /* output file */ char *outfile = opj_optarg; parameters->cod_format = get_file_format(outfile); switch (parameters->cod_format) { case J3D_CFMT: case J2K_CFMT: case LSE_CFMT: break; default: fprintf(stdout, "[ERROR] Unknown output format volume %s [only *.j2k, *.lse3d or *.jp3d]!! \n", outfile); return 1; break; } strncpy(parameters->outfile, outfile, MAX_PATH); fprintf(stdout, "[INFO] Outfile: %s \n", parameters->outfile); } break; /* ----------------------------------------------------- */ case 'r': { /* define compression rates for each layer */ char *s = opj_optarg; while (sscanf(s, "%f", ¶meters->tcp_rates[parameters->tcp_numlayers]) == 1) { parameters->tcp_numlayers++; while (*s && *s != ',') { s++; } if (!*s) { break; } s++; } parameters->cp_disto_alloc = 1; } break; /* ----------------------------------------------------- */ case 'q': { /* define distorsion (PSNR) for each layer */ char *s = opj_optarg; while (sscanf(s, "%f", ¶meters->tcp_distoratio[parameters->tcp_numlayers]) == 1) { parameters->tcp_numlayers++; while (*s && *s != ',') { s++; } if (!*s) { break; } s++; } parameters->cp_fixed_quality = 1; } break; /* ----------------------------------------------------- */ case 'f': { fprintf(stdout, "/---------------------------------------------------\\\n"); fprintf(stdout, "| Fixed layer allocation option not implemented !! |\n"); fprintf(stdout, "\\---------------------------------------------------/\n"); /*int *row = NULL, *col = NULL; int numlayers = 0, matrix_width = 0; char *s = opj_optarg; sscanf(s, "%d", &numlayers); s++; if (numlayers > 9) s++; parameters->tcp_numlayers = numlayers; matrix_width = parameters->numresolution[0] + parameters->numresolution[1] + parameters->numresolution[2]; parameters->cp_matrice = (int *) malloc(numlayers * matrix_width * sizeof(int)); s = s + 2; for (i = 0; i < numlayers; i++) { row = ¶meters->cp_matrice[i * matrix_width]; col = row; parameters->tcp_rates[i] = 1; sscanf(s, "%d,", &col[0]); s += 2; if (col[0] > 9) s++; col[1] = 0; col[2] = 0; for (j = 1; j < matrix_width; j++) { col += 3; j+=2; sscanf(s, "%d,%d,%d", &col[0], &col[1], &col[2]); s += 6; if (col[0] > 9) s++; if (col[1] > 9) s++; if (col[2] > 9) s++; } if (i < numlayers - 1) s++; } parameters->cp_fixed_alloc = 1; */ } break; /* ----------------------------------------------------- */ case 't': { /* tiles */ if (sscanf(opj_optarg, "%d,%d,%d", ¶meters->cp_tdx, ¶meters->cp_tdy, ¶meters->cp_tdz) != 3) { fprintf(stdout, "[ERROR] '-t' 'dimensions of tiles' argument error ! [-t tdx,tdy,tdz]\n"); return 1; } parameters->tile_size_on = true; } break; /* ----------------------------------------------------- */ case 'n': { /* resolution */ int aux; aux = sscanf(opj_optarg, "%d,%d,%d", ¶meters->numresolution[0], ¶meters->numresolution[1], ¶meters->numresolution[2]); if (aux == 2) { parameters->numresolution[2] = 1; } else if (aux == 1) { parameters->numresolution[1] = parameters->numresolution[0]; parameters->numresolution[2] = 1; } else if (aux == 0) { parameters->numresolution[0] = 1; parameters->numresolution[1] = 1; parameters->numresolution[2] = 1; } } break; /* ----------------------------------------------------- */ case 'c': { /* precinct dimension */ char sep; int res_spec = 0; int aux; char *s = opj_optarg; do { sep = 0; aux = sscanf(s, "[%d,%d,%d]%c", ¶meters->prct_init[0][res_spec], ¶meters->prct_init[1][res_spec], ¶meters->prct_init[2][res_spec], &sep); if (sep == ',' && aux != 4) { fprintf(stdout, "[ERROR] '-c' 'dimensions of precincts' argument error ! [-c [prcx_res0,prcy_res0,prcz_res0],...,[prcx_resN,prcy_resN,prcz_resN]]\n"); return 1; } parameters->csty |= 0x01; res_spec++; s = strpbrk(s, "]") + 2; } while (sep == ','); parameters->res_spec = res_spec; /* number of precinct size specifications */ } break; /* ----------------------------------------------------- */ case 'b': { /* code-block dimension */ int cblockw_init = 0, cblockh_init = 0, cblockl_init = 0; if (sscanf(opj_optarg, "%d,%d,%d", &cblockw_init, &cblockh_init, &cblockl_init) != 3) { fprintf(stdout, "[ERROR] '-b' 'dimensions of codeblocks' argument error ! [-b cblkx,cblky,cblkz]\n"); return 1; } if (cblockw_init * cblockh_init * cblockl_init > (1 << 18) || cblockw_init > 1024 || cblockw_init < 4 || cblockh_init > 1024 || cblockh_init < 4 || cblockl_init > 1024 || cblockl_init < 4) { fprintf(stdout, "[ERROR] Size of code_block error (option -b) !!\n\nRestriction :\n * width*height*length<=4096\n * 4<=width,height,length<= 1024\n\n"); return 1; } parameters->cblock_init[0] = cblockw_init; parameters->cblock_init[1] = cblockh_init; parameters->cblock_init[2] = cblockl_init; } break; /* ----------------------------------------------------- */ case 'x': { /* creation of index file */ char *index = opj_optarg; strncpy(parameters->index, index, MAX_PATH); parameters->index_on = 1; } break; /* ----------------------------------------------------- */ case 'p': { /* progression order */ char progression[4]; strncpy(progression, opj_optarg, 4); parameters->prog_order = give_progression(progression); if (parameters->prog_order == -1) { fprintf(stdout, "[ERROR] Unrecognized progression order [LRCP, RLCP, RPCL, PCRL, CPRL] !!\n"); return 1; } } break; /* ----------------------------------------------------- */ case 's': { /* subsampling factor */ if (sscanf(opj_optarg, "%d,%d,%d", ¶meters->subsampling_dx, ¶meters->subsampling_dy, ¶meters->subsampling_dz) != 3) { fprintf(stdout, "[ERROR] '-s' sub-sampling argument error ! [-s dx,dy,dz]\n"); return 1; } } break; /* ----------------------------------------------------- */ case 'd': { /* coordonnate of the reference grid */ if (sscanf(opj_optarg, "%d,%d,%d", ¶meters->volume_offset_x0, ¶meters->volume_offset_y0, ¶meters->volume_offset_z0) != 3) { fprintf(stdout, "[ERROR] -d 'coordonnate of the reference grid' argument error !! [-d x0,y0,z0]\n"); return 1; } } break; /* ----------------------------------------------------- */ case 'h': { /* display an help description */ encode_help_display(); return 1; } break; /* ----------------------------------------------------- */ case 'P': { /* POC */ int numpocs = 0; /* number of progression order change (POC) default 0 */ opj_poc_t *POC = NULL; /* POC : used in case of Progression order change */ char *s = opj_optarg; POC = parameters->POC; fprintf(stdout, "/----------------------------------\\\n"); fprintf(stdout, "| POC option not fully tested !! |\n"); fprintf(stdout, "\\----------------------------------/\n"); while (sscanf(s, "T%d=%d,%d,%d,%d,%d,%s", &POC[numpocs].tile, &POC[numpocs].resno0, &POC[numpocs].compno0, &POC[numpocs].layno1, &POC[numpocs].resno1, &POC[numpocs].compno1, POC[numpocs].progorder) == 7) { POC[numpocs].prg = give_progression(POC[numpocs].progorder); /* POC[numpocs].tile; */ numpocs++; while (*s && *s != '/') { s++; } if (!*s) { break; } s++; } parameters->numpocs = numpocs; } break; /* ------------------------------------------------------ */ case 'S': { /* SOP marker */ parameters->csty |= 0x02; } break; /* ------------------------------------------------------ */ case 'E': { /* EPH marker */ parameters->csty |= 0x04; } break; /* ------------------------------------------------------ */ case 'M': { /* Codification mode switch */ fprintf(stdout, "[INFO] Mode switch option not fully tested !!\n"); value = 0; if (sscanf(opj_optarg, "%d", &value) == 1) { for (i = 0; i <= 6; i++) { int cache = value & (1 << i); if (cache) { parameters->mode |= (1 << i); } } } } break; /* ------------------------------------------------------ */ case 'D': { /* DCO */ if (sscanf(opj_optarg, "%d", ¶meters->dcoffset) != 1) { fprintf(stdout, "[ERROR] DC offset error !! [-D %d]\n", parameters->dcoffset); return 1; } } break; /* ------------------------------------------------------ */ case 'R': { /* ROI */ if (sscanf(opj_optarg, "OI:c=%d,U=%d", ¶meters->roi_compno, ¶meters->roi_shift) != 2) { fprintf(stdout, "[ERROR] ROI error !! [-ROI:c='compno',U='shift']\n"); return 1; } } break; /* ------------------------------------------------------ */ case 'l': { /* Tile offset */ if (sscanf(opj_optarg, "%d,%d,%d", ¶meters->cp_tx0, ¶meters->cp_ty0, ¶meters->cp_tz0) != 3) { fprintf(stdout, "[ERROR] -l 'tile offset' argument error !! [-l X0,Y0,Z0]"); return 1; } } break; /* ------------------------------------------------------ case 'T': // Transformation of original data (2D-DWT/3D-DWT/3D-RLS/2D-DWT+1D-RLS) { char transform[4]; strncpy(transform, opj_optarg, 4); parameters->transform_format = give_transform(transform); if (parameters->transform_format == -1) { fprintf(stdout, "[ERROR] -T 'Transform domain' argument error !! [-T 2DWT, 3DWT, 3RLS or 3LSE only]"); return 1; } } break; ------------------------------------------------------ */ case 'C': { /* Coding of transformed data */ char coding[3]; strncpy(coding, opj_optarg, 3); parameters->encoding_format = give_coding(coding); if (parameters->encoding_format == -1) { fprintf(stdout, "[ERROR] -C 'Coding algorithm' argument error !! [-C 2EB, 3EB, 2GR, 3GR or GRI only]"); return 1; } } break; /* ------------------------------------------------------ */ case 'I': { /* reversible or not */ parameters->irreversible = 1; } break; default: fprintf(stdout, "[ERROR] This option is not valid \"-%c %s\"\n", c, opj_optarg); return 1; } } /* check for possible errors */ if ((parameters->infile[0] == 0) || (parameters->outfile[0] == 0)) { fprintf(stdout, "usage: jp3d_vm_enc -i volume-file -o jp3d-file (+ options)\n"); return 1; } if ((parameters->decod_format == BIN_DFMT) && (parameters->imgfile[0] == 0)) { fprintf(stdout, "usage: jp3d_vm_enc -i bin-volume-file -m img-file -o jp3d-file (+ options)\n"); return 1; } if ((parameters->decod_format != BIN_DFMT) && (parameters->decod_format != PGX_DFMT) && (parameters->decod_format != IMG_DFMT)) { fprintf(stdout, "usage: jp3d_vm_enc -i input-volume-file [*.bin,*.pgx,*.img] -o jp3d-file [*.jp3d,*.j2k] (+ options)\n"); return 1; } if ((parameters->cod_format != J3D_CFMT) && (parameters->cod_format != J2K_CFMT)) { fprintf(stdout, "usage: jp3d_vm_enc -i input-volume-file [*.bin,*.pgx,*.img] -o jp3d-file [*.jp3d,*.j2k] (+ options)\n"); return 1; } if ((parameters->encoding_format == ENCOD_2GR || parameters->encoding_format == ENCOD_3GR) && parameters->transform_format != TRF_3D_LSE && parameters->transform_format != TRF_3D_RLS) { fprintf(stdout, "[ERROR] Entropy coding options -C [2GR,3GR] are only compatible with predictive-based transform algorithms: -T [3RLS,3LSE].\n"); return 1; } if (parameters->encoding_format == ENCOD_3EB) { parameters->mode |= (1 << 6); } if ((parameters->mode >> 6) & 1) { parameters->encoding_format = ENCOD_3EB; } if ((parameters->numresolution[2] == 0 || (parameters->numresolution[1] == 0) || (parameters->numresolution[0] == 0))) { fprintf(stdout, "[ERROR] -n 'resolution levels' argument error ! Resolutions must be greater than 1 in order to perform DWT.\n"); return 1; } if (parameters->numresolution[1] != parameters->numresolution[0]) { fprintf(stdout, "[ERROR] -n 'resolution levels' argument error ! Resolutions in X and Y axis must be the same in this implementation.\n"); return 1; } if (parameters->numresolution[2] > parameters->numresolution[0]) { fprintf(stdout, "[ERROR] -n 'resolution levels' argument error ! Resolutions in Z axis must be lower than in X-Y axis.\n"); return 1; } if (parameters->dcoffset >= 128 && parameters->dcoffset <= -128) { fprintf(stdout, "[ERROR] -D 'DC offset' argument error ! Value must be -128<=DCO<=128.\n"); return 1; } if (parameters->numresolution[2] != 1) { parameters->transform_format = TRF_3D_DWT; /*fprintf(stdout, "[Warning] Resolution level in axial dim > 1 : 3D-DWT will be performed... \n");*/ } else if (parameters->numresolution[2] == 1) { parameters->transform_format = TRF_2D_DWT; /*fprintf(stdout, "[Warning] Resolution level in axial dim == 1 : 2D-DWT will be performed... \n");*/ } if ((parameters->cod_format == J2K_CFMT) && (parameters->transform_format != TRF_2D_DWT || parameters->encoding_format != ENCOD_2EB)) { fprintf(stdout, "[WARNING] Incompatible options -o *.j2k and defined transform or encoding algorithm. Latter will be ignored\n"); parameters->transform_format = TRF_2D_DWT; parameters->encoding_format = ENCOD_2EB; } if ((parameters->cp_disto_alloc || parameters->cp_fixed_alloc || parameters->cp_fixed_quality) && (!(parameters->cp_disto_alloc ^ parameters->cp_fixed_quality))) { fprintf(stdout, "[ERROR] Options -r and -q cannot be used together !!\n"); return 1; } /* mod fixed_quality */ /* if no rate entered, lossless by default */ if (parameters->tcp_numlayers == 0) { parameters->tcp_rates[0] = 0.0; /* MOD antonin : losslessbug */ parameters->tcp_numlayers++; parameters->cp_disto_alloc = 1; } if ((parameters->cp_tx0 > parameters->volume_offset_x0) || (parameters->cp_ty0 > parameters->volume_offset_y0) || (parameters->cp_tz0 > parameters->volume_offset_z0)) { fprintf(stdout, "[ERROR] Tile offset dimension is unnappropriate --> TX0(%d)<=IMG_X0(%d) TYO(%d)<=IMG_Y0(%d) TZO(%d)<=IMG_Z0(%d)\n", parameters->cp_tx0, parameters->volume_offset_x0, parameters->cp_ty0, parameters->volume_offset_y0, parameters->cp_tz0, parameters->volume_offset_z0); return 1; } for (i = 0; i < parameters->numpocs; i++) { if (parameters->POC[i].prg == -1) { fprintf(stdout, "[ERROR] Unrecognized progression order in option -P (POC n %d) [LRCP, RLCP, RPCL, PCRL, CPRL] !!\n", i + 1); } } return 0; } /* -------------------------------------------------------------------------- */ /** sample error callback expecting a FILE* client object */ void error_callback(const char *msg, void *client_data) { FILE *stream = (FILE*)client_data; fprintf(stream, "[ERROR] %s", msg); } /** sample warning callback expecting a FILE* client object */ void warning_callback(const char *msg, void *client_data) { FILE *stream = (FILE*)client_data; fprintf(stream, "[WARNING] %s", msg); } /** sample debug callback expecting a FILE* client object */ void info_callback(const char *msg, void *client_data) { FILE *stream = (FILE*)client_data; fprintf(stream, "[INFO] %s", msg); } /* -------------------------------------------------------------------------- */ int main(int argc, char **argv) { bool bSuccess; bool delete_comment = true; opj_cparameters_t parameters; /* compression parameters */ opj_event_mgr_t event_mgr; /* event manager */ opj_volume_t *volume = NULL; /* configure the event callbacks (not required) setting of each callback is optional */ memset(&event_mgr, 0, sizeof(opj_event_mgr_t)); event_mgr.error_handler = error_callback; event_mgr.warning_handler = warning_callback; event_mgr.info_handler = info_callback; /* set encoding parameters to default values */ opj_set_default_encoder_parameters(¶meters); /* parse input and get user encoding parameters */ if (parse_cmdline_encoder(argc, argv, ¶meters) == 1) { return 0; } if (parameters.cp_comment == NULL) { parameters.cp_comment = "Created by OpenJPEG version JP3D"; /* no need to delete parameters.cp_comment on exit */ delete_comment = false; } /* encode the destination volume */ /* ---------------------------- */ if (parameters.cod_format == J3D_CFMT || parameters.cod_format == J2K_CFMT) { int codestream_length, pixels, bitsin; opj_cio_t *cio = NULL; FILE *f = NULL; opj_cinfo_t* cinfo = NULL; /* decode the source volume */ /* ----------------------- */ switch (parameters.decod_format) { case PGX_DFMT: fprintf(stdout, "[INFO] Loading pgx file(s)\n"); volume = pgxtovolume(parameters.infile, ¶meters); if (!volume) { fprintf(stdout, "[ERROR] Unable to load pgx files\n"); return 1; } break; case BIN_DFMT: fprintf(stdout, "[INFO] Loading bin file\n"); volume = bintovolume(parameters.infile, parameters.imgfile, ¶meters); if (!volume) { fprintf(stdout, "[ERROR] Unable to load bin file\n"); return 1; } break; case IMG_DFMT: fprintf(stdout, "[INFO] Loading img file\n"); volume = imgtovolume(parameters.infile, ¶meters); if (!volume) { fprintf(stderr, "[ERROR] Unable to load img file\n"); return 1; } break; } /* get a JP3D or J2K compressor handle */ if (parameters.cod_format == J3D_CFMT) { cinfo = opj_create_compress(CODEC_J3D); } else if (parameters.cod_format == J2K_CFMT) { cinfo = opj_create_compress(CODEC_J2K); } /* catch events using our callbacks and give a local context */ opj_set_event_mgr((opj_common_ptr)cinfo, &event_mgr, stdout); /* setup the encoder parameters using the current volume and using user parameters */ opj_setup_encoder(cinfo, ¶meters, volume); /* open a byte stream for writing */ /* allocate memory for all tiles */ cio = opj_cio_open((opj_common_ptr)cinfo, NULL, 0); /* encode the volume */ /*fprintf(stdout, "[INFO] Encode the volume\n");*/ bSuccess = opj_encode(cinfo, cio, volume, parameters.index); if (!bSuccess) { opj_cio_close(cio); fprintf(stdout, "[ERROR] Failed to encode volume\n"); return 1; } codestream_length = cio_tell(cio); pixels = (volume->x1 - volume->x0) * (volume->y1 - volume->y0) * (volume->z1 - volume->z0); bitsin = pixels * volume->comps[0].prec; fprintf(stdout, "[RESULT] Volume: %d x %d x %d (x %d bpv)\n Codestream: %d B, Ratio: %5.3f bpv, (%5.3f : 1) \n", (volume->x1 - volume->x0), (volume->y1 - volume->y0), (volume->z1 - volume->z0), volume->comps[0].prec, codestream_length, ((double)codestream_length * 8.0 / (double)pixels), ((double)bitsin / (8.0 * (double)codestream_length))); /* write the buffer to disk */ f = fopen(parameters.outfile, "wb"); if (!f) { fprintf(stdout, "[ERROR] Failed to open %s for writing\n", parameters.outfile); return 1; } fwrite(cio->buffer, 1, codestream_length, f); fclose(f); /* close and free the byte stream */ opj_cio_close(cio); /* free remaining compression structures */ opj_destroy_compress(cinfo); } else { fprintf(stdout, "[ERROR] Cod_format != JP3d !!! \n"); return 1; } /* free user parameters structure */ if (delete_comment) { if (parameters.cp_comment) { free(parameters.cp_comment); } } if (parameters.cp_matrice) { free(parameters.cp_matrice); } /* free volume data */ opj_volume_destroy(volume); return 0; }