/* * Portions of this file are copyright Rebirth contributors and licensed as * described in COPYING.txt. * Portions of this file are copyright Parallax Software and licensed * according to the Parallax license below. * See COPYING.txt for license details. THE COMPUTER CODE CONTAINED HEREIN IS THE SOLE PROPERTY OF PARALLAX SOFTWARE CORPORATION ("PARALLAX"). PARALLAX, IN DISTRIBUTING THE CODE TO END-USERS, AND SUBJECT TO ALL OF THE TERMS AND CONDITIONS HEREIN, GRANTS A ROYALTY-FREE, PERPETUAL LICENSE TO SUCH END-USERS FOR USE BY SUCH END-USERS IN USING, DISPLAYING, AND CREATING DERIVATIVE WORKS THEREOF, SO LONG AS SUCH USE, DISPLAY OR CREATION IS FOR NON-COMMERCIAL, ROYALTY OR REVENUE FREE PURPOSES. IN NO EVENT SHALL THE END-USER USE THE COMPUTER CODE CONTAINED HEREIN FOR REVENUE-BEARING PURPOSES. THE END-USER UNDERSTANDS AND AGREES TO THE TERMS HEREIN AND ACCEPTS THE SAME BY USE OF THIS FILE. COPYRIGHT 1993-1998 PARALLAX SOFTWARE CORPORATION. ALL RIGHTS RESERVED. */ /* * * Routines to read/write pcx images. * */ #include #include #include #include #include "gr.h" #include "u_mem.h" #include "pcx.h" #include "physfsx.h" #include "palette.h" #include "dxxsconf.h" #include "dsx-ns.h" #include "compiler-poison.h" #include "compiler-range_for.h" #include "d_range.h" #include "partial_range.h" #include "console.h" #if DXX_USE_SDLIMAGE #include "physfsrwops.h" #include #endif namespace dcx { namespace { #if !DXX_USE_OGL && DXX_USE_SCREENSHOT_FORMAT_LEGACY [[nodiscard]] static int pcx_encode_byte(ubyte byt, ubyte cnt, PHYSFS_File *fid); [[nodiscard]] static int pcx_encode_line(std::span in, PHYSFS_File *fp); /* PCX Header data type */ struct PCXHeader { ubyte Manufacturer; ubyte Version; ubyte Encoding; ubyte BitsPerPixel; short Xmin; short Ymin; short Xmax; short Ymax; short Hdpi; short Vdpi; ubyte ColorMap[16][3]; ubyte Reserved; ubyte Nplanes; short BytesPerLine; ubyte filler[60]; } __pack__; #endif #define PCXHEADER_SIZE 128 #if DXX_USE_SDLIMAGE static pcx_result pcx_read_bitmap(const char *const filename, grs_main_bitmap &bmp, palette_array_t &palette, RWops_ptr rw) { RAII_SDL_Surface surface(IMG_LoadPCX_RW(rw.get())); if (!surface.surface) { con_printf(CON_NORMAL, "%s:%u: failed to create surface from \"%s\"", __FILE__, __LINE__, filename); return pcx_result::ERROR_OPENING; } const auto &s = *surface.surface.get(); const auto fmt = s.format; if (!fmt || fmt->BitsPerPixel != 8) return pcx_result::ERROR_WRONG_VERSION; const auto fpal = fmt->palette; if (!fpal || fpal->ncolors != palette.size()) return pcx_result::ERROR_NO_PALETTE; const unsigned xsize = s.w; const unsigned ysize = s.h; if (xsize > 3840) return pcx_result::ERROR_MEMORY; if (ysize > 2400) return pcx_result::ERROR_MEMORY; DXX_CHECK_MEM_IS_DEFINED(std::span(static_cast(s.pixels), xsize * ysize)); gr_init_bitmap_alloc(bmp, bm_mode::linear, 0, 0, xsize, ysize, xsize); std::copy_n(reinterpret_cast(s.pixels), xsize * ysize, &bmp.get_bitmap_data()[0]); { const auto a = [](const SDL_Color &c) { return rgb_t{ static_cast(c.r >> 2), static_cast(c.g >> 2), static_cast(c.b >> 2) }; }; std::transform(fpal->colors, fpal->colors + palette.size(), palette.begin(), a); } return pcx_result::SUCCESS; } #endif static pcx_result pcx_read_blank(grs_main_bitmap &bmp, palette_array_t &palette) { constexpr unsigned xsize = 640; constexpr unsigned ysize = 480; gr_init_bitmap_alloc(bmp, bm_mode::linear, 0, 0, xsize, ysize, xsize); auto &bitmap_data = *reinterpret_cast(bmp.get_bitmap_data()); constexpr uint8_t border = 1; constexpr uint8_t body = 0; std::fill(&bitmap_data[0][0], &bitmap_data[2][0], border); std::fill(&bitmap_data[2][0], &bitmap_data[ysize - 2][0], body); std::fill(&bitmap_data[ysize - 2][0], &bitmap_data[ysize][0], border); for (auto &&y : xrange(2u, ysize - 2)) { bitmap_data[y][0] = border; bitmap_data[y][1] = border; bitmap_data[y][xsize - 2] = border; bitmap_data[y][xsize - 1] = border; } palette = {}; palette[border] = {63, 63, 63}; return pcx_result::SUCCESS; } #if !DXX_USE_SDLIMAGE static pcx_result pcx_support_not_compiled(const char *const filename, grs_main_bitmap &bmp, palette_array_t &palette) { con_printf(CON_NORMAL, "%s:%u: PCX support disabled at compile time; cannot read file \"%s\"", __FILE__, __LINE__, filename); pcx_read_blank(bmp, palette); } #endif } } #if defined(DXX_BUILD_DESCENT_I) namespace dsx { namespace { #if DXX_USE_SDLIMAGE static std::pair, std::size_t> load_physfs_blob(const char *const filename) { auto &&[file, physfserr] = PHYSFSX_openReadBuffered(filename); if (!file) { con_printf(CON_VERBOSE, "%s:%u: failed to open \"%s\": %s", __FILE__, __LINE__, filename, PHYSFS_getErrorByCode(physfserr)); return {}; } const std::size_t fsize = PHYSFS_fileLength(file); if (fsize > 0x100000) { con_printf(CON_VERBOSE, "%s:%u: file too large \"%s\"", __FILE__, __LINE__, filename); return {}; } auto encoded_buffer = std::make_unique(fsize); if (PHYSFS_read(file, encoded_buffer.get(), 1, fsize) < fsize) { con_printf(CON_VERBOSE, "%s:%u: failed to read \"%s\"", __FILE__, __LINE__, filename); return {}; } return {std::move(encoded_buffer), fsize}; } static std::pair, std::size_t> load_decoded_physfs_blob(const char *const filename) { auto encoded_blob = load_physfs_blob(filename); auto &&[encoded_buffer, fsize] = encoded_blob; if (!encoded_buffer) return encoded_blob; const std::size_t data_size = fsize - 1; auto &&transform_predicate = [xor_value = encoded_buffer[data_size]](uint8_t c) mutable { return c ^ --xor_value; }; auto &&decoded_buffer = std::make_unique(data_size); const auto b = encoded_buffer.get(); std::transform(std::make_reverse_iterator(std::next(b, data_size)), std::make_reverse_iterator(b), decoded_buffer.get(), transform_predicate); return {std::move(decoded_buffer), data_size}; } #endif } pcx_result bald_guy_load(const char *const filename, grs_main_bitmap &bmp, palette_array_t &palette) { #if DXX_USE_SDLIMAGE const auto &&[bguy_data, data_size] = load_decoded_physfs_blob(filename); if (!bguy_data) return pcx_result::ERROR_OPENING; RWops_ptr rw(SDL_RWFromConstMem(bguy_data.get(), data_size)); return pcx_read_bitmap(filename, bmp, palette, std::move(rw)); #else return pcx_support_not_compiled(filename, bmp, palette); #endif } } #endif namespace dcx { pcx_result pcx_read_bitmap(const char *const filename, grs_main_bitmap &bmp, palette_array_t &palette) { #if DXX_USE_SDLIMAGE /* Try to enable buffering on the PHYSFS file. On Windows, * unbuffered access to the file causes SDL_image to be slow enough * for users to detect the latency and report it as an issue. On * Linux, unbuffered access is still fast. */ auto &&[rw, physfserr] = PHYSFSRWOPS_openReadBuffered(filename, 1024 * 1024); if (!rw) { con_printf(CON_NORMAL, "%s:%u: failed to open \"%s\": %s", __FILE__, __LINE__, filename, PHYSFS_getErrorByCode(physfserr)); return pcx_result::ERROR_OPENING; } return pcx_read_bitmap(filename, bmp, palette, std::move(rw)); #else return pcx_support_not_compiled(filename, bmp, palette); #endif } pcx_result pcx_read_bitmap_or_default(const char *const filename, grs_main_bitmap &bmp, palette_array_t &palette) { const auto r = pcx_read_bitmap(filename, bmp, palette); if (r != pcx_result::SUCCESS) pcx_read_blank(bmp, palette); return r; } #if !DXX_USE_OGL && DXX_USE_SCREENSHOT_FORMAT_LEGACY unsigned pcx_write_bitmap(PHYSFS_File *const PCXfile, const grs_bitmap *const bmp, palette_array_t &palette) { int retval; ubyte data; PCXHeader header{}; header.Manufacturer = 10; header.Encoding = 1; header.Nplanes = 1; header.BitsPerPixel = 8; header.Version = 5; header.Xmax = bmp->bm_w-1; header.Ymax = bmp->bm_h-1; header.BytesPerLine = bmp->bm_w; if (PHYSFS_write(PCXfile, &header, PCXHEADER_SIZE, 1) != 1) { return 1; } { const uint_fast32_t bm_w = bmp->bm_w; const uint_fast32_t bm_rowsize = bmp->bm_rowsize; const auto bm_data = bmp->get_bitmap_data(); const auto e = &bm_data[bm_rowsize * bmp->bm_h]; for (auto i = &bm_data[0]; i != e; i += bm_rowsize) { if (!pcx_encode_line(std::span{i, bm_w}, PCXfile)) { return 1; } } } // Mark an extended palette data = 12; if (PHYSFS_write(PCXfile, &data, 1, 1) != 1) { return 1; } retval = PHYSFS_write(PCXfile, &palette[0], sizeof(palette), 1); if (retval !=1) { return 1; } return 0; } namespace { // returns number of bytes written into outBuff, 0 if failed int pcx_encode_line(const std::span in, PHYSFS_File *fp) { int i; int total; ubyte runCount; // max single runlength is 63 total = 0; auto last = in.front(); runCount = 1; range_for (const auto ub, unchecked_partial_range(in.data(), 1u, in.size())) { if (ub == last) { runCount++; // it encodes if (runCount == 63) { if (!(i=pcx_encode_byte(last, runCount, fp))) return(0); total += i; runCount = 0; } } else { // this != last if (runCount) { if (!(i=pcx_encode_byte(last, runCount, fp))) return(0); total += i; } last = ub; runCount = 1; } } if (runCount) { // finish up if (!(i=pcx_encode_byte(last, runCount, fp))) return 0; return total + i; } return total; } static inline int PHYSFSX_putc(PHYSFS_File *file, uint8_t ch) { if (PHYSFS_write(file, &ch, 1, 1) < 1) return -1; else return ch; } // subroutine for writing an encoded byte pair // returns count of bytes written, 0 if error int pcx_encode_byte(ubyte byt, ubyte cnt, PHYSFS_File *fid) { if (cnt) { if ( (cnt==1) && (0xc0 != (0xc0 & byt)) ) { if(EOF == PHYSFSX_putc(fid, static_cast(byt))) return 0; // disk write error (probably full) return 1; } else { if(EOF == PHYSFSX_putc(fid, 0xC0 | cnt)) return 0; // disk write error if(EOF == PHYSFSX_putc(fid, static_cast(byt))) return 0; // disk write error return 2; } } return 0; } } #endif //text for error messges constexpr char pcx_error_messages[] = { "No error.\0" "Error opening file.\0" "Could not read PCX header.\0" "Unsupported PCX version.\0" "Error reading data.\0" "Could not find palette information.\0" "Error writing data.\0" }; //function to return pointer to error message const char *pcx_errormsg(const pcx_result r) { const char *p = pcx_error_messages; unsigned error_number = static_cast(r); while (error_number--) { if (p == std::end(pcx_error_messages)) return nullptr; p += strlen(p)+1; } return p; } }