/** \file * \brief File Access - Buffer Management * * See Copyright Notice in im_lib.h * $Id: im_filebuffer.cpp,v 1.1 2008/10/17 06:10:16 scuri Exp $ */ #include #include #include #include "im.h" #include "im_format.h" #include "im_util.h" #include "im_complex.h" #include "im_color.h" int imFileLineSizeAligned(int width, int bpp, int align) { if (align == 4) return ((width * bpp + 31) / 32) * 4; else if (align == 2) return ((width * bpp + 15) / 16) * 2; else return (width * bpp + 7) / 8; } template static void iDoFillLineBuffer(int width, int height, int line, int plane, int file_color_mode, T* line_buffer, int user_color_mode, const T* data) { // (writing) from data to file // will handle packing and alpha int file_depth = imColorModeDepth(file_color_mode); int data_depth = imColorModeDepth(user_color_mode); int data_plane_size = width*height; // This will be used in UNpacked data if (imColorModeIsPacked(user_color_mode)) data += line*width*data_depth; else data += line*width; for (int x = 0; x < width; x++) { int x_data_offset = x*data_depth; // This will be used in packed data if (imColorModeIsPacked(file_color_mode)) { int x_file_offset = x*file_depth; // This will be used in packed data // file is packed // NO color space conversion, color_space must match // If ignore alpha if necessary. int depth = IM_MIN(file_depth, data_depth); for (int d = 0; d < depth; d++) { if (imColorModeIsPacked(user_color_mode)) line_buffer[x_file_offset + d] = data[x_data_offset + d]; else line_buffer[x_file_offset + d] = data[d*data_plane_size + x]; } } else { // file NOT packed, copy just one plane // NO color space conversion, color_space must match if (plane >= imColorModeDepth(user_color_mode)) return; if (imColorModeIsPacked(user_color_mode)) line_buffer[x] = data[x_data_offset + plane]; else line_buffer[x] = data[plane*data_plane_size + x]; } } } template static void iDoFillData(int width, int height, int line, int plane, int file_color_mode, const T* line_buffer, int user_color_mode, T* data) { // (reading) from file to data // will handle packing and alpha int file_depth = imColorModeDepth(file_color_mode); int data_depth = imColorModeDepth(user_color_mode); int data_plane_size = width*height; // This will be used in UNpacked data if (imColorModeIsPacked(user_color_mode)) data += line*width*data_depth; else data += line*width; for (int x = 0; x < width; x++) { int x_data_offset = x*data_depth; // This will be used in packed data if (imColorModeIsPacked(file_color_mode)) { int x_file_offset = x*file_depth; // This will be used in packed data // file is packed // NO color space conversion, color_space must match // ignore alpha if necessary. int depth = IM_MIN(file_depth, data_depth); for (int d = 0; d < depth; d++) { if (imColorModeIsPacked(user_color_mode)) data[x_data_offset + d] = line_buffer[x_file_offset + d]; else data[d*data_plane_size + x] = line_buffer[x_file_offset + d]; } } else { // file NOT packed, copy just one plane // NO color space conversion, color_space must match if (plane >= imColorModeDepth(user_color_mode)) return; if (imColorModeIsPacked(user_color_mode)) data[x_data_offset + plane] = line_buffer[x]; else data[plane*data_plane_size + x] = line_buffer[x]; } } } template static inline void iConvertColor2RGB(T* data, int color_space, int data_type) { T zero, max = (T)imColorMax(data_type); // These are identical procedures to iDoConvert2RGB in "im_filebuffer.cpp". switch (color_space) { case IM_XYZ: { // to increase precision do intermediate conversions in float // scale to 0-1 float c0 = imColorReconstruct(data[0], max); float c1 = imColorReconstruct(data[1], max); float c2 = imColorReconstruct(data[2], max); // result is still 0-1 imColorXYZ2RGB(c0, c1, c2, c0, c1, c2, 1.0f); // do gamma correction then scale back to 0-max data[0] = imColorQuantize(imColorTransfer2Nonlinear(c0), max); data[1] = imColorQuantize(imColorTransfer2Nonlinear(c1), max); data[2] = imColorQuantize(imColorTransfer2Nonlinear(c2), max); } break; case IM_YCBCR: zero = (T)imColorZero(data_type); imColorYCbCr2RGB(data[0], data[1], data[2], data[0], data[1], data[2], zero, max); break; case IM_CMYK: imColorCMYK2RGB(data[0], data[1], data[2], data[3], data[0], data[1], data[2], max); break; case IM_LUV: case IM_LAB: { // to increase precision do intermediate conversions in float // scale to 0-1 and -0.5/+0.5 float c0 = imColorReconstruct(data[0], max); float c1 = imColorReconstruct(data[1], max) - 0.5f; float c2 = imColorReconstruct(data[2], max) - 0.5f; if (color_space == IM_LUV) imColorLuv2XYZ(c0, c1, c2, // conversion in-place c0, c1, c2); else imColorLab2XYZ(c0, c1, c2, // conversion in-place c0, c1, c2); imColorXYZ2RGB(c0, c1, c2, // conversion in-place c0, c1, c2, 1.0f); // do gamma correction then scale back to 0-max data[0] = imColorQuantize(imColorTransfer2Nonlinear(c0), max); data[1] = imColorQuantize(imColorTransfer2Nonlinear(c1), max); data[2] = imColorQuantize(imColorTransfer2Nonlinear(c2), max); } break; } } // These functions will be always converting RGB -> RGB (0-max) -> (0-255) static inline imbyte iConvertType2Byte(const imbyte& data) { return data; } static inline imbyte iConvertType2Byte(const imushort& data) { return imColorQuantize(imColorReconstruct(data, (imushort)65535), (imbyte)255); } static inline imbyte iConvertType2Byte(const int& data) { return imColorQuantize(imColorReconstruct(data, 16777215), (imbyte)255); } static inline imbyte iConvertType2Byte(const float& data) { return imColorQuantize(data, (imbyte)255); } // Fake float to avoid erros in the color conversion template rotines. // Since the color conversion use the double value, they are invalid, // so the automatic conversion to bitmap for complex images works only for RGB. static inline imbyte iConvertType2Byte(const double& data) { imcfloat* fdata = (imcfloat*)&data; return imColorQuantize(cpxmag(*fdata), (imbyte)255); } template static void iDoFillDataBitmap(int width, int height, int line, int plane, int data_type, int file_color_mode, const T* line_buffer, int user_color_mode, imbyte* data) { // (reading) from file to data // will handle packing, alpha, color space conversion to RGB and data_type to BYTE int file_depth = imColorModeDepth(file_color_mode); int data_depth = imColorModeDepth(user_color_mode); int copy_alpha = imColorModeHasAlpha(file_color_mode) && imColorModeHasAlpha(user_color_mode); int data_plane_size = width*height; // This will be used in UNpacked data if (imColorModeIsPacked(user_color_mode)) data += line*width*data_depth; else data += line*width; for (int x = 0; x < width; x++) { int x_data_offset = x*data_depth; // This will be used in packed data if (imColorModeIsPacked(file_color_mode)) { int x_file_offset = x*file_depth; // This will be used in packed data if (imColorModeMatch(file_color_mode, user_color_mode)) { // file is packed // same color space components (in this case means RGB) // ignore alpha if necessary. int depth = IM_MIN(file_depth, data_depth); for (int d = 0; d < depth; d++) { if (imColorModeIsPacked(user_color_mode)) data[x_data_offset + d] = iConvertType2Byte(line_buffer[x_file_offset + d]); else data[d*data_plane_size + x] = iConvertType2Byte(line_buffer[x_file_offset + d]); } } else { // file is packed // but different color space components // only to RGB conversions are accepted if (imColorModeSpace(user_color_mode) != IM_RGB) return; T src_data[4]; src_data[0] = line_buffer[x_file_offset]; src_data[1] = line_buffer[x_file_offset + 1]; src_data[2] = line_buffer[x_file_offset + 2]; if (imColorModeSpace(file_color_mode) == IM_CMYK) src_data[3] = line_buffer[x_file_offset + 3]; // Do conversion in place iConvertColor2RGB(src_data, imColorModeSpace(file_color_mode), data_type); if (imColorModeIsPacked(user_color_mode)) { data[x_data_offset] = iConvertType2Byte(src_data[0]); data[x_data_offset + 1] = iConvertType2Byte(src_data[1]); data[x_data_offset + 2] = iConvertType2Byte(src_data[2]); if (copy_alpha) { if (imColorModeSpace(file_color_mode) == IM_CMYK) data[x_data_offset + 3] = iConvertType2Byte(line_buffer[x_file_offset + 4]); else data[x_data_offset + 3] = iConvertType2Byte(line_buffer[x_file_offset + 3]); } } else { data[x] = iConvertType2Byte(src_data[0]); data[data_plane_size + x] = iConvertType2Byte(src_data[1]); data[2*data_plane_size + x] = iConvertType2Byte(src_data[2]); if (copy_alpha) { if (imColorModeSpace(file_color_mode) == IM_CMYK) data[3*data_plane_size + x] = iConvertType2Byte(line_buffer[x_file_offset + 4]); else data[3*data_plane_size + x] = iConvertType2Byte(line_buffer[x_file_offset + 3]); } } } } else { // file NOT packed, copy just one plane // NO color space conversion possible now if (plane >= imColorModeDepth(user_color_mode)) return; if (imColorModeIsPacked(user_color_mode)) data[x_data_offset + plane] = iConvertType2Byte(line_buffer[x]); else data[plane*data_plane_size + x] = iConvertType2Byte(line_buffer[x]); } } } static void iFileExpandBits(imFile* ifile) { // conversion will be done in place in backward order (from end to start) if (abs(ifile->convert_bpp) < 8) { imbyte* byte_buffer = (imbyte*)ifile->line_buffer; imbyte* bit_buffer = (imbyte*)ifile->line_buffer; byte_buffer += ifile->width-1; int bpp = ifile->convert_bpp; int expand_range = imColorModeSpace(ifile->file_color_mode) == IM_GRAY? 1: 0; for (int i=ifile->width-1; i >= 0; i--) { if (bpp == 1) *byte_buffer = (imbyte)((bit_buffer[i / 8] >> (7 - i % 8)) & 0x01); else if (bpp == 4) *byte_buffer = (imbyte)((bit_buffer[i / 2] >> ((1 - i % 2) * 4)) & 0x0F); else if (bpp == 2) *byte_buffer = (imbyte)((bit_buffer[i / 4] >> ((3 - i % 4) * 2)) & 0x03); if (expand_range) /* if convert_bpp<0 then only expand its range */ { if (bpp == 4 || bpp == -4) *byte_buffer *= 17; else if (bpp == 2 || bpp == -2) *byte_buffer *= 85; } byte_buffer--; } } else if (ifile->convert_bpp == 12) { imushort* ushort_buffer = (imushort*)ifile->line_buffer; imbyte* bit_buffer = (imbyte*)ifile->line_buffer; for (int i=ifile->width-1; i >= 0; i--) { int byte_index = (3*i)/2; if (i%2) ushort_buffer[i] = (bit_buffer[byte_index] << 4) | (bit_buffer[byte_index+1] & 0x0F); else ushort_buffer[i] = ((bit_buffer[byte_index] & 0x0F) << 8) | (bit_buffer[byte_index+1]); } } } static void iFileCompactBits(imFile* ifile) { // conversion will be done in place imbyte* byte_buffer = (imbyte*)ifile->line_buffer; imbyte* bit_buffer = (imbyte*)ifile->line_buffer; if (ifile->convert_bpp == 1) { for (int i = 0; i < ifile->width; i++) { if (*byte_buffer) bit_buffer[i / 8] |= (0x01 << (7 - (i % 8))); else bit_buffer[i / 8] &= ~(0x01 << (7 - (i % 8))); byte_buffer++; } } else // -1 == expand 1 to 255 { for (int i = 0; i < ifile->width; i++) { if (*byte_buffer) *byte_buffer = 255; byte_buffer++; } } } template static void iDoSwitchInt(int count, const SRC* src_data, DST* dst_data, int offset) { for (int i = 0; i < count; i++) { *dst_data++ = (DST)((int)*src_data++ + offset); } } template static void iDoSwitchReal(int count, const SRC* src_data, DST* dst_data) { for (int i = 0; i < count; i++) { *dst_data++ = (DST)(*src_data++); } } static void iFileSwitchFromType(imFile* ifile) { int line_count = imImageLineCount(ifile->width, ifile->file_color_mode); switch(ifile->file_data_type) { case IM_BYTE: // Source is char iDoSwitchInt(line_count, (const char*)ifile->line_buffer, (imbyte*)ifile->line_buffer, 128); break; case IM_USHORT: // Source is short iDoSwitchInt(line_count, (const short*)ifile->line_buffer, (imushort*)ifile->line_buffer, 32768); break; case IM_INT: // Source is uint iDoSwitchInt(line_count, (const unsigned int*)ifile->line_buffer, (int*)ifile->line_buffer, -8388608); break; case IM_FLOAT: // Source is double iDoSwitchReal(line_count, (const double*)ifile->line_buffer, (float*)ifile->line_buffer); break; case IM_CFLOAT: // Source is complex double iDoSwitchReal(2*line_count, (const double*)ifile->line_buffer, (float*)ifile->line_buffer); break; } } static void iFileSwitchToType(imFile* ifile) { int line_count = imImageLineCount(ifile->width, ifile->file_color_mode); switch(ifile->file_data_type) { case IM_BYTE: // Destiny is char iDoSwitchInt(line_count, (const imbyte*)ifile->line_buffer, (char*)ifile->line_buffer, -128); break; case IM_USHORT: // Destiny is short iDoSwitchInt(line_count, (const imushort*)ifile->line_buffer, (short*)ifile->line_buffer, -32768); break; case IM_INT: // Destiny is uint iDoSwitchInt(line_count, (const int*)ifile->line_buffer, (unsigned int*)ifile->line_buffer, 8388608); break; case IM_FLOAT: // Destiny is double iDoSwitchReal(line_count, (const float*)ifile->line_buffer, (double*)ifile->line_buffer); break; case IM_CFLOAT: // Destiny is complex double iDoSwitchReal(2*line_count, (const float*)ifile->line_buffer, (double*)ifile->line_buffer); break; } } void imFileLineBufferWrite(imFile* ifile, const void* data, int line, int plane) { // (writing) from data to file if (imColorModeIsTopDown(ifile->file_color_mode) != imColorModeIsTopDown(ifile->user_color_mode)) line = ifile->height-1 - line; if ((ifile->file_color_mode & 0x3FF) == (ifile->user_color_mode & 0x3FF)) // compare only packing, alpha and color space { int data_offset = line*ifile->line_buffer_size; if (plane != 0) data_offset += plane*ifile->height*ifile->line_buffer_size; memcpy(ifile->line_buffer, (unsigned char*)data + data_offset, ifile->line_buffer_size); } else { switch(ifile->file_data_type) { case IM_BYTE: iDoFillLineBuffer(ifile->width, ifile->height, line, plane, ifile->file_color_mode, (imbyte*)ifile->line_buffer, ifile->user_color_mode, (const imbyte*)data); break; case IM_USHORT: iDoFillLineBuffer(ifile->width, ifile->height, line, plane, ifile->file_color_mode, (imushort*)ifile->line_buffer, ifile->user_color_mode, (const imushort*)data); break; case IM_INT: iDoFillLineBuffer(ifile->width, ifile->height, line, plane, ifile->file_color_mode, (int*)ifile->line_buffer, ifile->user_color_mode, (const int*)data); break; case IM_FLOAT: iDoFillLineBuffer(ifile->width, ifile->height, line, plane, ifile->file_color_mode, (float*)ifile->line_buffer, ifile->user_color_mode, (const float*)data); break; case IM_CFLOAT: iDoFillLineBuffer(ifile->width, ifile->height, line, plane, ifile->file_color_mode, (imcfloat*)ifile->line_buffer, ifile->user_color_mode, (const imcfloat*)data); break; } } if (ifile->convert_bpp) iFileCompactBits(ifile); if (ifile->switch_type) iFileSwitchToType(ifile); } void imFileLineBufferRead(imFile* ifile, void* data, int line, int plane) { // (reading) from file to data if (imColorModeIsTopDown(ifile->file_color_mode) != imColorModeIsTopDown(ifile->user_color_mode)) line = ifile->height-1 - line; if (ifile->convert_bpp) iFileExpandBits(ifile); if (ifile->switch_type) iFileSwitchFromType(ifile); if ((ifile->file_color_mode & 0x3FF) == (ifile->user_color_mode & 0x3FF) && // compare only packing, alpha and color space, ignore bottom up. ifile->file_data_type == ifile->user_data_type) // compare data type when reading { int data_offset = line*ifile->line_buffer_size; if (plane != 0) data_offset += plane*ifile->height*ifile->line_buffer_size; memcpy((unsigned char*)data + data_offset, ifile->line_buffer, ifile->line_buffer_size); } else { // now we have 2 conversions groups // one to convert only packing and alpha // and the other to convert packing, alpha, color space and data type int convert2bitmap = 0; if (imColorModeSpace(ifile->user_color_mode) != imColorModeSpace(ifile->file_color_mode) || ifile->file_data_type != IM_BYTE) convert2bitmap = 1; switch(ifile->file_data_type) { case IM_BYTE: if (convert2bitmap) iDoFillDataBitmap(ifile->width, ifile->height, line, plane, ifile->file_data_type, ifile->file_color_mode, (const imbyte*)ifile->line_buffer, ifile->user_color_mode, (imbyte*)data); else iDoFillData(ifile->width, ifile->height, line, plane, ifile->file_color_mode, (const imbyte*)ifile->line_buffer, ifile->user_color_mode, (imbyte*)data); break; case IM_USHORT: if (convert2bitmap) iDoFillDataBitmap(ifile->width, ifile->height, line, plane, ifile->file_data_type, ifile->file_color_mode, (const imushort*)ifile->line_buffer, ifile->user_color_mode, (imbyte*)data); else iDoFillData(ifile->width, ifile->height, line, plane, ifile->file_color_mode, (const imushort*)ifile->line_buffer, ifile->user_color_mode, (imushort*)data); break; case IM_INT: if (convert2bitmap) iDoFillDataBitmap(ifile->width, ifile->height, line, plane, ifile->file_data_type, ifile->file_color_mode, (const int*)ifile->line_buffer, ifile->user_color_mode, (imbyte*)data); else iDoFillData(ifile->width, ifile->height, line, plane, ifile->file_color_mode, (const int*)ifile->line_buffer, ifile->user_color_mode, (int*)data); break; case IM_FLOAT: if (convert2bitmap) iDoFillDataBitmap(ifile->width, ifile->height, line, plane, ifile->file_data_type, ifile->file_color_mode, (const float*)ifile->line_buffer, ifile->user_color_mode, (imbyte*)data); else iDoFillData(ifile->width, ifile->height, line, plane, ifile->file_color_mode, (const float*)ifile->line_buffer, ifile->user_color_mode, (float*)data); break; case IM_CFLOAT: if (convert2bitmap) iDoFillDataBitmap(ifile->width, ifile->height, line, plane, ifile->file_data_type, ifile->file_color_mode, (const double*)ifile->line_buffer, ifile->user_color_mode, (imbyte*)data); else iDoFillData(ifile->width, ifile->height, line, plane, ifile->file_color_mode, (const imcfloat*)ifile->line_buffer, ifile->user_color_mode, (imcfloat*)data); break; } } } void imFileLineBufferInit(imFile* ifile) { ifile->line_buffer_size = imImageLineSize(ifile->width, ifile->file_color_mode, ifile->file_data_type); if (ifile->switch_type && (ifile->file_data_type == IM_FLOAT || ifile->file_data_type == IM_CFLOAT)) ifile->line_buffer_extra += ifile->line_buffer_size; // double the size at least if (ifile->line_buffer_size + ifile->line_buffer_extra > ifile->line_buffer_alloc) { ifile->line_buffer_alloc = ifile->line_buffer_size + ifile->line_buffer_extra; ifile->line_buffer = realloc(ifile->line_buffer, ifile->line_buffer_alloc); } } int imFileLineBufferCount(imFile* ifile) { int count = ifile->height; if (!imColorModeIsPacked(ifile->file_color_mode)) { if (imColorModeHasAlpha(ifile->file_color_mode) && imColorModeHasAlpha(ifile->user_color_mode)) count *= imColorModeDepth(ifile->file_color_mode); else count *= imColorModeDepth(imColorModeSpace(ifile->file_color_mode)); } return count; } void imFileLineBufferInc(imFile* ifile, int *row, int *plane) { if (!imColorModeIsPacked(ifile->file_color_mode)) { if (*row == ifile->height-1) { *row = 0; (*plane)++; return; } } (*row)++; } int imFileCheckConversion(imFile* ifile) { if ((ifile->file_color_mode & 0x3FF) == (ifile->user_color_mode & 0x3FF) && // compare only packing, alpha and color space ifile->file_data_type == ifile->user_data_type) return 1; int user_color_space = imColorModeSpace(ifile->user_color_mode); int file_color_space = imColorModeSpace(ifile->file_color_mode); // NO color space conversion if file is not packed. if(user_color_space != file_color_space && imColorModeDepth(file_color_space) > 1 && !imColorModeIsPacked(ifile->file_color_mode)) return 0; if (ifile->is_new) { // (writing) from data to file // NO data type conversions when writing. if (ifile->file_data_type != ifile->user_data_type) return 0; // NO color space conversions when writing. // If there is a necessary conversion the format driver will do it. if (user_color_space != file_color_space) return 0; } else { // (reading) from file to data // Data type conversions only to byte if (ifile->file_data_type != ifile->user_data_type && ifile->user_data_type != IM_BYTE) return 0; } return 1; }