/* This file is part of ksquirrel-libs (http://ksquirrel.sf.net) Copyright (c) 2005 Dmitry Baryshev This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include #include #include #include "ksquirrel-libs/fmt_types.h" #include "ksquirrel-libs/fileio.h" #include "fmt_codec_hdr_defs.h" #include "fmt_codec_hdr.h" #include "ksquirrel-libs/error.h" #include "ksquirrel-libs/fmt_utils.h" #include "../xpm/codec_hdr.xpm" /* * * Radiance HDR image * */ fmt_codec::fmt_codec() : fmt_codec_base() {} fmt_codec::~fmt_codec() {} void fmt_codec::options(codec_options *o) { o->version = "0.1.0"; o->name = "Radiance HDR image"; o->filter = "*.hdr "; o->config = ""; o->mime = "#.RADIANCE"; o->mimetype = "image/x-hdr"; o->pixmap = codec_hdr; o->readable = true; o->canbemultiple = false; o->writestatic = false; o->writeanimated = false; o->needtempfile = false; } s32 fmt_codec::read_init(const std::string &file) { scanline = 0; frs.open(file.c_str(), ios::binary | ios::in); if(!frs.good()) return SQE_R_NOFILE; currentImage = -1; read_error = false; finfo.animated = false; if(!getHdrHead()) return SQE_R_BADFILE; if(strcmp(hdr.sig, "#?RADIANCE")) return SQE_R_BADFILE; return SQE_OK; } s32 fmt_codec::read_next() { currentImage++; if(currentImage) return SQE_NOTOK; fmt_image image; image.w = hdr.width; image.h = hdr.height; image.bpp = 32; scanline = new u8 [hdr.width * sizeof(RGBA)]; if(!scanline) return SQE_R_NOMEMORY; image.compression = "RGBE"; image.colorspace = fmt_utils::colorSpaceByBpp(32); finfo.image.push_back(image); return SQE_OK; } s32 fmt_codec::read_next_pass() { return SQE_OK; } s32 fmt_codec::read_scanline(RGBA *scan) { u32 r, g, b, e, i, j; fmt_image *im = image(currentImage); fmt_utils::fillAlpha(scan, im->w); if(!read_scan(scanline, im->w)) return SQE_R_BADFILE; for(j = 0, i = 0; j < (u32)im->w * 4; j += 4, i++) { float t; e = scanline[j + 3]; r = scanline[j + 0]; g = scanline[j + 1]; b = scanline[j + 2]; //t = (float)pow(2.f, ((ILint)e) - 128); if (e != 0) e = (e - 1) << 23; t = *(float *)&e; (scan + i)->r = u8((r / 255.0f) * t); (scan + i)->g = u8((g / 255.0f) * t); (scan + i)->b = u8((b / 255.0f) * t); } return SQE_OK; } void fmt_codec::read_close() { frs.close(); finfo.meta.clear(); finfo.image.clear(); delete [] scanline; scanline = 0; } // // These two methods were taken from DevIL // http://imagelib.org // bool fmt_codec::read_scan(u8 *scanline, const s32 w) { u8 *runner, c; u32 r, g, b, e, read, shift; if(!frs.readK(&c, sizeof(u8))) return false; r = c; if(!frs.readK(&c, sizeof(u8))) return false; g = c; if(!frs.readK(&c, sizeof(u8))) return false; b = c; if(!frs.readK(&c, sizeof(u8))) return false; e = c; //check if the scanline is in the new format //if so, e, r, g, g are stored separated and are //rle-compressed independently. if (r == 2 && g == 2) { u32 length = (b << 8) | e; u32 j, t, k; if (length > (u32)w) length = w; //fix broken files for(k = 0; k < 4; ++k) { runner = scanline + k; j = 0; while (j < length) { if(!frs.readK(&c, sizeof(u8))) return false; t = c; if(t > 128) { //Run? if(!frs.readK(&c, sizeof(u8))) return false; t &= 127; //copy current byte while (t > 0 && j < length) { *runner = c; runner += 4; --t; ++j; } } else { //No Run. //read new bytes while (t > 0 && j < length) { if(!frs.readK(&c, sizeof(u8))) return false; *runner = c; runner += 4; --t; ++j; } } } } return true; //done decoding a scanline in separated format } //if we come here, we are dealing with old-style scanlines shift = 0; read = 0; runner = scanline; while(read < (u32)w) { if (read != 0) { if(!frs.readK(&c, sizeof(u8))) return false; r = c; if(!frs.readK(&c, sizeof(u8))) return false; g = c; if(!frs.readK(&c, sizeof(u8))) return false; b = c; if(!frs.readK(&c, sizeof(u8))) return false; e = c; } //if all three mantissas are 1, then this is a rle //count dword if (r == 1 && g == 1 && b == 1) { u32 length = e; u32 j; for (j = length << shift; j > 0; --j) { memcpy(runner, runner - 4, 4); runner += 4; } //if more than one rle count dword is read //consecutively, they are higher order bytes //of the first read value. shift keeps track of //that. shift += 8; read += length; } else { runner[0] = r; runner[1] = g; runner[2] = b; runner[3] = e; shift = 0; runner += 4; ++read; } } return true; } bool fmt_codec::getHdrHead() { bool done = false; s8 a, b; s8 x[2], y[2]; const u32 buffSize = 80; s8 buff[buffSize]; u32 count = 0; if(!frs.readK(hdr.sig, sizeof(hdr.sig)-1)) return false; hdr.sig[10] = '\0'; //skip lines until an empty line is found. //this marks the end of header information, //the next line contains the image's dimension. //TODO: read header contents into variables //(EXPOSURE, orientation, xyz correction, ...) if(!frs.readK(&a, sizeof(s8))) return false; while(!done) { if(!frs.readK(&b, sizeof(s8))) return false; if (b == '\n' && a == '\n') done = true; else a = b; } //read dimensions (note that this assumes a somewhat valid image) if(!frs.readK(&a, sizeof(s8))) return false; while (a != '\n') { buff[count] = a; if(!frs.readK(&a, sizeof(s8))) return false; ++count; if (count > buffSize-1) { return false; } } buff[count] = '\0'; sscanf(buff, "%s %d %s %d", x, &hdr.width, y, &hdr.height); return true; } #include "fmt_codec_cd_func.h"