/** \file * \brief TGA - Truevision Graphics Adapter File * * See Copyright Notice in im_lib.h * $Id: im_format_tga.cpp,v 1.1 2008/10/17 06:10:16 scuri Exp $ */ #include "im_format.h" #include "im_util.h" #include "im_format_all.h" #include "im_counter.h" #include "im_math.h" #include "im_binfile.h" #include #include #include #include #include #include /* |--------|--------|------------------------------------------------------------| | 0 | 1 | Number of Characters in Identification Field. | | | | This field is a one-byte unsigned integer, specifying | | | | the length of the Image Identification Field. Its range | | | | is 0 to 255. A value of 0 means that no Image | | | | Identification Field is included. | |--------|--------|------------------------------------------------------------| | 1 | 1 | Color Map Type. | |--------|--------|------------------------------------------------------------| | 2 | 1 | Image Type Code. | |--------|--------|------------------------------------------------------------| | 3 | 5 | Color Map Specification. | | 3 | 2 | Color Map Origin. | | | | Integer ( lo-hi ) index of first color map entry. | | 5 | 2 | Color Map Length. | | | | Integer ( lo-hi ) count of color map entries. | | 7 | 1 | Color Map Entry Size. | | | | Number of bits in each color map entry. 16 for | | | | the Targa 16, 24 for the Targa 24, 32 for the Targa 32. | |--------|--------|------------------------------------------------------------| | 8 | 10 | Image Specification. | | 8 | 2 | X Origin of Image. | | | | Integer ( lo-hi ) X coordinate of the lower left corner | | | | of the image. | | 10 | 2 | Y Origin of Image. | | | | Integer ( lo-hi ) Y coordinate of the lower left corner | | | | of the image. | | 12 | 2 | Width of Image. | | | | Integer ( lo-hi ) width of the image in pixels. | | 14 | 2 | Height of Image. | | | | Integer ( lo-hi ) height of the image in pixels. | | 16 | 1 | Image Pixel Size. | | | | Number of bits in a stored pixel index. | | 17 | 1 | Image Descriptor Byte. | | | | Bits 3-0 - number of attribute bits associated with each | | | | pixel. | | | | Bit 4 - reserved. Must be set to 0. | | | | Bit 5 - screen origin bit. | | | | 0 = Origin in lower left-hand corner. | | | | 1 = Origin in upper left-hand corner. | | | | Must be 0 for Truevision images. | | | | Bits 7-6 - Data storage interleaving flag. | | | | 00 = non-interleaved. | | | | 01 = two-way (even/odd) interleaving. | | | | 10 = four way interleaving. | | | | 11 = reserved. | | | | This entire byte should be set to 0. Don't ask me. | |--------|--------|------------------------------------------------------------| | 18 | varies | Image Identification Field. | | | | Contains a free-form identification field of the length | | | | specified in byte 1 of the image record. It's usually | | | | omitted ( length in byte 1 = 0 ), but can be up to 255 | | | | characters. If more identification information is | | | | required, it can be stored after the image data. | |--------|--------|------------------------------------------------------------| Extension Area: * The inclusion of a scaled-down “postage stamp” copy of the image * Date and Time of image file creation * Author Name * Author Comments * Job Name * Job Accumulated Time * Gamma Value * Correct Color LUT * Pixel Aspect Ratio * Scan Line Offset Table * Key Color * Software Package Name and Version Number * Developer Definable Areas * Attribute (Alpha) channel Type * The ability for simple expansion */ static int iTGADecodeScanLine(imBinFile* handle, imbyte *DecodedBuffer, int width, int pixel_size) { int i=0; unsigned char runcount; /* repetition count field */ imbyte pixel_buffer[4]; while (i < width) { imBinFileRead(handle, &runcount, 1, 1); if (runcount & 0x80) { imBinFileRead(handle, pixel_buffer, pixel_size, 1); runcount &= 0x7F; if (imBinFileError(handle)) return IM_ERR_ACCESS; runcount++; while (runcount-- && i < width) { memcpy(DecodedBuffer, pixel_buffer, pixel_size); i++; DecodedBuffer += pixel_size; } } else { runcount++; while (runcount-- && i < width) { imBinFileRead(handle, pixel_buffer, pixel_size, 1); memcpy(DecodedBuffer, pixel_buffer, pixel_size); i++; DecodedBuffer += pixel_size; } if (imBinFileError(handle)) return IM_ERR_ACCESS; } } return IM_ERR_NONE; } static inline int iTGAEqualPixel(const imbyte* Buffer1, const imbyte* Buffer2, int pixel_size) { while(pixel_size--) { if (*Buffer1++ != *Buffer2++) return 0; } return 1; } static int iTGAEncodeScanLine(imbyte* EncodedBuffer, const imbyte* DecodedBuffer, int width, int pixel_size) { imbyte pixel_buffer[4]; unsigned char runcount; /* Length of encoded pixel run */ int x = 0; /* Index into uncompressed data buffer */ imbyte* StartBuffer = EncodedBuffer; while (x < width) { runcount = 1; memcpy(pixel_buffer, &DecodedBuffer[x*pixel_size], pixel_size); // count equal pixels while (x+runcount < width && runcount < 128 && iTGAEqualPixel(pixel_buffer, &DecodedBuffer[(x+runcount)*pixel_size], pixel_size)) runcount++; if (runcount == 1) { // count different pixels while (x+runcount+1 < width && runcount < 128) { memcpy(pixel_buffer, &DecodedBuffer[(x+runcount)*pixel_size], pixel_size); if (!iTGAEqualPixel(pixel_buffer, &DecodedBuffer[(x+runcount+1)*pixel_size], pixel_size)) runcount++; else break; } *EncodedBuffer++ = (imbyte)(runcount-1); memcpy(EncodedBuffer, &DecodedBuffer[x*pixel_size], runcount*pixel_size); EncodedBuffer += runcount*pixel_size; } else { *EncodedBuffer++ = (imbyte)(0x80 | (runcount-1)); memcpy(EncodedBuffer, pixel_buffer, pixel_size); EncodedBuffer += pixel_size; } x += runcount; } return EncodedBuffer-StartBuffer; /* Return the number of unsigned chars written to buffer */ } static const char* iTGACompTable[2] = { "NONE", "RLE" }; class imFormatTGA: public imFormat { imBinFile* handle; /* the binary file handle */ unsigned char id_lenght; unsigned char map_type, image_type, map_bpp, bpp; int ReadPalette(); int WritePalette(); void FixRGB(); int LoadExtensionArea(); int SaveExtensionArea(); public: imFormatTGA() :imFormat("TGA", "Truevision Graphics Adapter File", "*.tga;*.icb;*.vst;*.tpic;", iTGACompTable, 2, 0) {} ~imFormatTGA() {} int Open(const char* file_name); int New(const char* file_name); void Close(); void* Handle(int index); int ReadImageInfo(int index); int ReadImageData(void* data); int WriteImageInfo(); int WriteImageData(void* data); int CanWrite(const char* compression, int color_mode, int data_type) const; }; void imFormatRegisterTGA(void) { imFormatRegister(new imFormatTGA()); } int imFormatTGA::Open(const char* file_name) { /* opens the binary file for reading with intel byte order */ handle = imBinFileOpen(file_name); if (!handle) return IM_ERR_OPEN; imBinFileByteOrder(handle, IM_LITTLEENDIAN); imBinFileRead(handle, &this->id_lenght, 1, 1); imBinFileRead(handle, &this->map_type, 1, 1); imBinFileRead(handle, &this->image_type, 1, 1); if (imBinFileError(handle)) { imBinFileClose(handle); return IM_ERR_ACCESS; } if (this->image_type != 1 && this->image_type != 2 && this->image_type != 3 && this->image_type != 9 && this->image_type != 10 && this->image_type != 11) { imBinFileClose(handle); return IM_ERR_FORMAT; } if (this->map_type != 0 && this->map_type != 1) { imBinFileClose(handle); return IM_ERR_FORMAT; } if (this->map_type == 0 && (this->image_type == 1 || this->image_type == 9)) { imBinFileClose(handle); return IM_ERR_FORMAT; } if (this->image_type == 9 || this->image_type == 10 || this->image_type == 11) strcpy(this->compression, "RLE"); else strcpy(this->compression, "NONE"); this->image_count = 1; return IM_ERR_NONE; } int imFormatTGA::New(const char* file_name) { /* opens the binary file for writing with intel byte order */ handle = imBinFileNew(file_name); if (!handle) return IM_ERR_OPEN; imBinFileByteOrder(handle, IM_LITTLEENDIAN); return IM_ERR_NONE; } void imFormatTGA::Close() { imBinFileClose(handle); } void* imFormatTGA::Handle(int index) { if (index == 0) return (void*)this->handle; else return NULL; } int imFormatTGA::ReadImageInfo(int index) { (void)index; unsigned char byte_value; unsigned short word_value; this->file_data_type = IM_BYTE; if (this->image_type == 1 || this->image_type == 9) this->file_color_mode = IM_MAP; else if (this->image_type == 2 || this->image_type == 10) { this->file_color_mode = IM_RGB; this->file_color_mode |= IM_PACKED; } else if (this->image_type == 3 || this->image_type == 11) this->file_color_mode = IM_GRAY; else return IM_ERR_DATA; if (this->map_type == 0) imBinFileSeekOffset(handle, 5); // jump color map information else { /* jump 2 bytes (first entry index) */ imBinFileSeekOffset(handle, 2); imBinFileRead(handle, &word_value, 1, 2); this->palette_count = word_value; imBinFileRead(handle, &this->map_bpp, 1, 1); if (this->map_bpp == 15) this->map_bpp = 16; if (this->map_bpp != 16 && this->map_bpp != 24 && this->map_bpp != 32) return IM_ERR_DATA; } /* jump 4 bytes (X-Origin, Y-Origin) */ unsigned short xmin, ymin; imBinFileRead(handle, &xmin, 1, 2); imBinFileRead(handle, &ymin, 1, 2); if (imBinFileError(handle)) return IM_ERR_ACCESS; imAttribTable* attrib_table = AttribTable(); if (xmin && ymin) { attrib_table->Set("XScreen", IM_USHORT, 1, &xmin); attrib_table->Set("YScreen", IM_USHORT, 1, &ymin); } /* reads the image width */ imBinFileRead(handle, &word_value, 1, 2); this->width = word_value; /* reads the image height */ imBinFileRead(handle, &word_value, 1, 2); this->height = word_value; if (imBinFileError(handle)) return IM_ERR_ACCESS; imBinFileRead(handle, &this->bpp, 1, 1); if (this->bpp > 8 && imColorModeSpace(this->file_color_mode) != IM_RGB) return IM_ERR_DATA; if (this->bpp == 15) this->bpp = 16; if (this->bpp != 8 && this->bpp != 16 && this->bpp != 24 && this->bpp != 32) return IM_ERR_DATA; if (this->bpp == 32) this->file_color_mode |= IM_ALPHA; // image descriptor imBinFileRead(handle, &byte_value, 1, 1); if (byte_value & 0x20) this->file_color_mode |= IM_TOPDOWN; // image ID if (this->id_lenght) { char desc[256]; imBinFileRead(handle, desc, this->id_lenght, 1); desc[this->id_lenght] = 0; attrib_table->Set("Title", IM_BYTE, this->id_lenght+1, desc); } if (imBinFileError(handle)) return IM_ERR_ACCESS; if (this->map_type) { if (!ReadPalette()) return IM_ERR_ACCESS; } long cur_offset = imBinFileTell(handle); imBinFileSeekFrom(handle, -18); char ext_sig[18]; imBinFileRead(handle, ext_sig, 18, 1); if (ext_sig[17] == 0 && imStrEqual(ext_sig, "TRUEVISION-XFILE.")) { if (!LoadExtensionArea()) return IM_ERR_ACCESS; } imBinFileSeekTo(handle, cur_offset); return IM_ERR_NONE; } int imFormatTGA::WriteImageInfo() { unsigned char byte_value; unsigned short word_value; this->map_bpp = 0; this->map_type = 0; this->file_color_mode = imColorModeSpace(this->user_color_mode); switch (this->file_color_mode) { case IM_BINARY: this->convert_bpp = -1; // expand 1 to 255 case IM_GRAY: this->bpp = 8; if (imStrEqual(this->compression, "RLE")) this->image_type = 11; else this->image_type = 3; break; case IM_MAP: this->bpp = 8; this->map_bpp = 24; this->map_type = 1; if (imStrEqual(this->compression, "RLE")) this->image_type = 9; else this->image_type = 1; break; case IM_RGB: this->bpp = 24; this->file_color_mode |= IM_PACKED; if (imStrEqual(this->compression, "RLE")) this->image_type = 10; else this->image_type = 2; break; } if (this->image_type > 3) { // allocates more than enough since compression algoritm can be ineficient this->line_buffer_extra += 2*this->width*imColorModeDepth(this->file_color_mode); } imAttribTable* attrib_table = AttribTable(); /* writes the TGA file header */ int length = 0; const char* desc_attrib = (const char*)attrib_table->Get("Title", NULL, &length); if (desc) { if (length > 255) this->id_lenght = 255; else this->id_lenght = (imbyte)length; } else this->id_lenght = 0; /* IDLength */ imBinFileWrite(handle, &this->id_lenght, 1, 1); /* Color Map Type */ imBinFileWrite(handle, &this->map_type, 1, 1); /* Image Type */ imBinFileWrite(handle, &this->image_type, 1, 1); /* Color Map Specification - 1st entry index */ word_value = 0; imBinFileWrite(handle, &word_value, 1, 2); /* Color map length */ word_value = (unsigned short) this->palette_count; imBinFileWrite(handle, &word_value, 1, 2); /* Color Map Entry size */ byte_value = this->map_type? this->map_bpp: (imbyte)0; imBinFileWrite(handle, &byte_value, 1, 1); if (imBinFileError(handle)) return IM_ERR_ACCESS; unsigned short xmin = 0, ymin = 0; const void* attrib_data = attrib_table->Get("XScreen"); if (attrib_data) xmin = *(unsigned short*)attrib_data; attrib_data = attrib_table->Get("YScreen"); if (attrib_data) ymin = *(unsigned short*)attrib_data; /* X-orign of image */ word_value = xmin; imBinFileWrite(handle, &word_value, 1, 2); /* Y-orign of image */ word_value = ymin; imBinFileWrite(handle, &word_value, 1, 2); /* Image Width */ word_value = (imushort)this->width; imBinFileWrite(handle, &word_value, 1, 2); /* Image Height */ word_value = (imushort)this->height; imBinFileWrite(handle, &word_value, 1, 2); /* Pixel Depth */ imBinFileWrite(handle, &this->bpp, 1, 1); /* Image Descriptor */ byte_value = 0x00; imBinFileWrite(handle, &byte_value, 1, 1); /* image ID */ if (this->id_lenght) { if (length > 255) { imBinFileWrite(handle, (void*)desc_attrib, 254, 1); byte_value = 0x00; imBinFileWrite(handle, &byte_value, 1, 1); } else imBinFileWrite(handle, (void*)desc_attrib, this->id_lenght, 1); } /* tests if everything was ok */ if (imBinFileError(handle)) return IM_ERR_ACCESS; if (this->map_type) { if (!WritePalette()) return IM_ERR_ACCESS; } return IM_ERR_NONE; } static long iTGARGB2Color(int c, unsigned char *colors, int map_bpp) { unsigned char r,g,b; if (map_bpp == 16) { unsigned short word_value = ((unsigned short*)colors)[c]; r = (imbyte)(((word_value & 0x7C00) >> 10)*8); g = (imbyte)(((word_value & 0x03E0) >> 5)*8); b = (imbyte)( (word_value & 0x001F) *8); } else // 24 or 32 { int i = c * (map_bpp / 8); r = colors[i+2]; g = colors[i+1]; b = colors[i]; } return imColorEncode(r, g, b); } int imFormatTGA::ReadPalette() { int map_size = imFileLineSizeAligned(this->palette_count, this->map_bpp, 1); unsigned char* tga_colors = (unsigned char*) malloc(map_size); /* reads the color palette */ imBinFileRead(handle, tga_colors, map_size, 1); if (imBinFileError(handle)) return 0; if (imBinCPUByteOrder() == IM_BIGENDIAN && this->map_bpp == 16) imBinSwapBytes2(tga_colors, map_size/2); /* convert the color map to the IM format */ for (int c = 0; c < this->palette_count; c++) this->palette[c] = iTGARGB2Color(c, tga_colors, this->map_bpp); free(tga_colors); return 1; } int imFormatTGA::WritePalette() { unsigned char tga_color[256*3]; /* convert the color map from the IM format */ for (int c = 0; c < this->palette_count; c++) { int i = 3*c; imColorDecode(&tga_color[i+2], &tga_color[i+1], &tga_color[i], this->palette[c]); } /* writes the color palette */ imBinFileWrite(handle, tga_color, this->palette_count * 3, 1); if (imBinFileError(handle)) return 0; return 1; } int imFormatTGA::LoadExtensionArea() { unsigned int dword_value; imBinFileSeekFrom(handle, -26); // extension offset imBinFileRead(handle, &dword_value, 1, 4); if (imBinFileError(handle)) return 0; imBinFileSeekTo(handle, dword_value); if (imBinFileError(handle)) return 0; unsigned short word_value; imbyte buffer[512]; imAttribTable* attrib_table = AttribTable(); // extension size imBinFileSeekOffset(handle, 2); // author name imBinFileRead(handle, buffer, 41, 1); if (buffer[0] != 0) attrib_table->Set("Author", IM_BYTE, imStrNLen((char*)buffer, 41)+1, buffer); // author comments imBinFileRead(handle, buffer, 324, 1); if (buffer[0] != 0) { int size1 = imStrNLen((char*)buffer, 81); for (int i = 1; i < 4; i++) { int sizei = imStrNLen((char*)buffer + i*81, 81); if (sizei) { memcpy(buffer + size1, buffer + i*81, sizei); size1 += sizei; } } buffer[size1] = 0; attrib_table->Set("Description", IM_BYTE, size1+1, buffer); } if (imBinFileError(handle)) return 0; { tm ttm; ttm.tm_wday = 0; ttm.tm_yday = 0; ttm.tm_isdst = -1; int valid = 0; imBinFileRead(handle, &word_value, 1, 2); // moth ttm.tm_mon = word_value-1; if (word_value) valid = 1; imBinFileRead(handle, &word_value, 1, 2); // day ttm.tm_mday = word_value; if (word_value) valid = 1; imBinFileRead(handle, &word_value, 1, 2); // year ttm.tm_year = word_value-1900; if (word_value) valid = 1; imBinFileRead(handle, &word_value, 1, 2); // hour ttm.tm_hour = word_value; imBinFileRead(handle, &word_value, 1, 2); // minute ttm.tm_min = word_value; imBinFileRead(handle, &word_value, 1, 2); // seconds ttm.tm_sec = word_value; if (imBinFileError(handle)) return 0; if (valid) { time_t tt = mktime(&ttm); char* str = ctime(&tt); if (str) { int size = strlen(str); str[size-1] = 0; // remove "\n" attrib_table->Set("DateTimeModified", IM_BYTE, size, str); } } } // job name imBinFileRead(handle, buffer, 41, 1); if (buffer[0] != 0) attrib_table->Set("JobName", IM_BYTE, imStrNLen((char*)buffer, 41)+1, buffer); // job time imBinFileSeekOffset(handle, 6); // Software imBinFileRead(handle, buffer, 41, 1); if (buffer[0] != 0) attrib_table->Set("Software", IM_BYTE, imStrNLen((char*)buffer, 41)+1, buffer); if (imBinFileError(handle)) return 0; // Software Version imBinFileRead(handle, &word_value, 1, 2); if (word_value) { int size = sprintf((char*)buffer, "%f", (double)word_value / 100.0); imBinFileRead(handle, &buffer[size], 1, 1); buffer[size+1] = 0; attrib_table->Set("SoftwareVersion", IM_BYTE, size+1, buffer); } // key color, aspect ratio imBinFileSeekOffset(handle, 8); // gamma imBinFileRead(handle, &word_value, 1, 2); // num if (word_value) { float gamma = (float)word_value; imBinFileRead(handle, &word_value, 1, 2); // den if (word_value) { gamma /= (float)word_value; attrib_table->Set("Gamma", IM_FLOAT, 1, &gamma); } } if (imBinFileError(handle)) return 0; return 1; } static void iGetRational(float fvalue, int *num, int *den) { if (floorf(fvalue) == fvalue) { *num = (int)floorf(fvalue); *den = 1; return; } float ivalue = 1.0f/fvalue; if (floorf(ivalue) == ivalue) { *den = (int)floorf(ivalue); *num = 1; return; } *den = 1; if (fvalue > 0) { while (fvalue < 1L<<(31-3) && *den < 1L<<(31-3)) { fvalue *= 1<<3; *den *= 1<<3; } } *num = imRound(fvalue); } int imFormatTGA::SaveExtensionArea() { unsigned int dword_value; unsigned short word_value; // get offset before write long ext_offset = imBinFileTell(handle); imbyte buffer[512]; memset(buffer, 0, 512); imAttribTable* attrib_table = AttribTable(); // extension size word_value = 495; imBinFileWrite(handle, &word_value, 1, 2); // author name int attrib_size; const void* attrib_data = attrib_table->Get("Author", NULL, &attrib_size); if (attrib_data) { int size = attrib_size > 41? 40: attrib_size; imBinFileWrite(handle, (void*)attrib_data, size, 1); if (size < 41) imBinFileWrite(handle, buffer, 41-size, 1); } else imBinFileWrite(handle, buffer, 41, 1); // author comments attrib_data = attrib_table->Get("Description", NULL, &attrib_size); if (attrib_data) { int size = 0, size2 = 0, i = 0; while(attrib_size && i < 4) { int line_size; if (attrib_size > 81) line_size = 80; else line_size = attrib_size; memcpy(buffer + size, (imbyte*)attrib_data + size2, line_size); attrib_size -= line_size; size2 += line_size; size += line_size; i++; int remain = 81-line_size; if (remain) { memset(buffer + size, 0, remain); size += remain; } } imBinFileWrite(handle, buffer, 324, 1); memset(buffer, 0, 512); } else imBinFileWrite(handle, buffer, 324, 1); if (imBinFileError(handle)) return 0; attrib_data = attrib_table->Get("DateTimeModified"); if (attrib_data) { time_t cur_time; time(&cur_time); tm* ttm = localtime(&cur_time); word_value = (imushort)ttm->tm_mon+1; imBinFileWrite(handle, &word_value, 1, 2); // moth word_value = (imushort)ttm->tm_mday; imBinFileWrite(handle, &word_value, 1, 2); // day word_value = (imushort)ttm->tm_year+1900; imBinFileWrite(handle, &word_value, 1, 2); // year word_value = (imushort)ttm->tm_hour; imBinFileWrite(handle, &word_value, 1, 2); // hour word_value = (imushort)ttm->tm_min; imBinFileWrite(handle, &word_value, 1, 2); // minute word_value = (imushort)ttm->tm_sec; imBinFileWrite(handle, &word_value, 1, 2); // seconds if (imBinFileError(handle)) return 0; } else imBinFileWrite(handle, buffer, 12, 1); // job name attrib_data = attrib_table->Get("JobName", NULL, &attrib_size); if (attrib_data) { int size = attrib_size > 41? 40: attrib_size; imBinFileWrite(handle, (void*)attrib_data, size, 1); if (size < 41) imBinFileWrite(handle, buffer, 41-size, 1); } else imBinFileWrite(handle, buffer, 41, 1); // job time imBinFileWrite(handle, buffer, 6, 1); // Software attrib_data = attrib_table->Get("Software", NULL, &attrib_size); if (attrib_data) { int size = attrib_size > 41? 40: attrib_size; imBinFileWrite(handle, (void*)attrib_data, size, 1); if (size < 41) imBinFileWrite(handle, buffer, 41-size, 1); } else imBinFileWrite(handle, buffer, 41, 1); if (imBinFileError(handle)) return 0; // Software Version, key color, aspect ratio imBinFileWrite(handle, buffer, 11, 1); // gamma attrib_data = attrib_table->Get("Gamma"); if (attrib_data) { float gamma = *(float*)attrib_data; int num, den; iGetRational(gamma, &num, &den); word_value = (imushort)num; imBinFileWrite(handle, &word_value, 1, 2); // num word_value = (imushort)den; imBinFileWrite(handle, &word_value, 1, 2); // den } else imBinFileWrite(handle, buffer, 4, 1); // Color Correction, Postage Stamp, Scanline Offset, Attributes Type imBinFileWrite(handle, buffer, 13, 1); // FOOTER // extension offset dword_value = ext_offset; imBinFileWrite(handle, &dword_value, 1, 4); // Developer Directory Offset imBinFileWrite(handle, buffer, 4, 1); // signature, reserved, zero string terminator imBinFileWrite(handle, (void*)"TRUEVISION-XFILE.\0", 18, 1); if (imBinFileError(handle)) return 0; return 1; } void imFormatTGA::FixRGB() { int x; imbyte* byte_data = (imbyte*)this->line_buffer; if (this->bpp == 16) { /* inverts the WORD values if not intel */ if (imBinCPUByteOrder() == IM_BIGENDIAN) imBinSwapBytes2(this->line_buffer, this->width); imushort* word_data = (imushort*)this->line_buffer; // from end to start for (x = this->width-1; x >= 0; x--) { imushort word_value = word_data[x]; int c = x*3; byte_data[c] = (imbyte)(((word_value & 0x7C00) >> 10)*8); byte_data[c+1] = (imbyte)(((word_value & 0x03E0) >> 5)*8); byte_data[c+2] = (imbyte)( (word_value & 0x001F) *8); } } else // 24 and 32 { // convert BGR <-> RGB // convert BGRA <-> RGBA imbyte* byte_data = (imbyte*)this->line_buffer; int planes = this->bpp/8; for (x = 0; x < this->width; x++) { int c = x*planes; imbyte temp = byte_data[c]; // swap R and B byte_data[c] = byte_data[c+2]; byte_data[c+2] = temp; } } } int imFormatTGA::ReadImageData(void* data) { imCounterTotal(this->counter, this->height, "Reading TGA..."); int line_size = this->line_buffer_size; if (this->bpp == 16) line_size = this->width*2; for (int row = 0; row < this->height; row++) { if (this->image_type > 3) { if (iTGADecodeScanLine(handle, (imbyte*)this->line_buffer, this->width, this->bpp/8) == IM_ERR_ACCESS) return IM_ERR_ACCESS; } else { imBinFileRead(handle, this->line_buffer, line_size, 1); if (imBinFileError(handle)) return IM_ERR_ACCESS; } if (this->bpp > 8) FixRGB(); imFileLineBufferRead(this, data, row, 0); if (!imCounterInc(this->counter)) return IM_ERR_COUNTER; } return IM_ERR_NONE; } int imFormatTGA::WriteImageData(void* data) { imCounterTotal(this->counter, this->height, "Writing TGA..."); imbyte* compressed_buffer = NULL; if (this->image_type > 3) // point to the extra buffer compressed_buffer = (imbyte*)this->line_buffer + this->line_buffer_size; for (int row = 0; row < this->height; row++) { imFileLineBufferWrite(this, data, row, 0); if (this->bpp > 8) FixRGB(); if (this->image_type > 3) { int compressed_size = iTGAEncodeScanLine(compressed_buffer, (imbyte*)this->line_buffer, this->width, this->bpp/8); imBinFileWrite(handle, compressed_buffer, compressed_size, 1); } else { imBinFileWrite(handle, this->line_buffer, this->line_buffer_size, 1); } if (imBinFileError(handle)) return IM_ERR_ACCESS; if (!imCounterInc(this->counter)) return IM_ERR_COUNTER; } if (!SaveExtensionArea()) return IM_ERR_ACCESS; return IM_ERR_NONE; } int imFormatTGA::CanWrite(const char* compression, int color_mode, int data_type) const { int color_space = imColorModeSpace(color_mode); if (color_space == IM_YCBCR || color_space == IM_LAB || color_space == IM_LUV || color_space == IM_XYZ || color_space == IM_CMYK) return IM_ERR_DATA; if (data_type != IM_BYTE) return IM_ERR_DATA; if (!compression || compression[0] == 0) return IM_ERR_NONE; if (!imStrEqual(compression, "NONE") && !imStrEqual(compression, "RLE")) return IM_ERR_COMPRESS; return IM_ERR_NONE; }