/*! Writes the data from \a pattern to a file with the given \a fileName. * Returns \c true if successful, otherwise returns \c false. */ int writePes(EmbPattern* pattern, const char* fileName) { int pecLocation; FILE* file = 0; if(!pattern) { embLog_error("format-pes.c writePes(), pattern argument is null\n"); return 0; } if(!fileName) { embLog_error("format-pes.c writePes(), fileName argument is null\n"); return 0; } file = fopen(fileName, "wb"); if(!file) { embLog_error("format-pes.c writePes(), cannot open %s for writing\n", fileName); return 0; } if(!pattern->stitchList || embStitchList_count(pattern->stitchList) == 0) /* TODO: review this. seems like only embStitchList_count should be needed. */ { embLog_error("format-pes.c writePes(), pattern contains no stitches\n"); return 0; } embPattern_flipVertical(pattern); embPattern_scale(pattern, 10.0); binaryWriteBytes(file, "#PES0001", 8); /* WRITE PECPointer 32 bit int */ binaryWriteInt(file, 0x00); binaryWriteShort(file, 0x01); binaryWriteShort(file, 0x01); /* Write object count */ binaryWriteShort(file, 0x01); binaryWriteShort(file, 0xFFFF); /* command */ binaryWriteShort(file, 0x00); /* unknown */ pesWriteEmbOneSection(pattern, file); pesWriteSewSegSection(pattern, file); pecLocation = ftell(file); fseek(file, 0x08, SEEK_SET); binaryWriteByte(file, (unsigned char)(pecLocation & 0xFF)); binaryWriteByte(file, (unsigned char)(pecLocation >> 8) & 0xFF); binaryWriteByte(file, (unsigned char)(pecLocation >> 16) & 0xFF); fseek(file, 0x00, SEEK_END); writePecStitches(pattern, file, fileName); fclose(file); return 1; }
static void xxxEncodeStitch(FILE* file, double deltaX, double deltaY, int flags) { if((flags & (JUMP | TRIM)) && (fabs(deltaX) > 124 || fabs(deltaY) > 124)) { binaryWriteByte(file, 0x7E); binaryWriteShort(file, (short)deltaX); binaryWriteShort(file, (short)deltaY); } else { /* TODO: Verify this works after changing this to unsigned char */ binaryWriteByte(file, (unsigned char)roundDouble(deltaX)); binaryWriteByte(file, (unsigned char)roundDouble(deltaY)); } }
void writePecStitches(EmbPattern* pattern, EmbFile* file, const char* fileName) { EmbStitchList* tempStitches = 0; EmbRect bounds; unsigned char image[38][48]; int i, flen, currentThreadCount, graphicsOffsetLocation, graphicsOffsetValue, height, width; double xFactor, yFactor; const char* forwardSlashPos = strrchr(fileName, '/'); const char* backSlashPos = strrchr(fileName, '\\'); const char* dotPos = strrchr(fileName, '.'); const char* start = 0; if(!pattern) { embLog_error("format-pec.c writePecStitches(), pattern argument is null\n"); return; } if(!file) { embLog_error("format-pec.c writePecStitches(), file argument is null\n"); return; } if(!fileName) { embLog_error("format-pec.c writePecStitches(), fileName argument is null\n"); return; } if(forwardSlashPos) { start = forwardSlashPos + 1; } if(backSlashPos && backSlashPos > start) { start = backSlashPos + 1; } if(!start) { start = fileName; } binaryWriteBytes(file, "LA:", 3); flen = (int)(dotPos - start); while(start < dotPos) { binaryWriteByte(file, (unsigned char)*start); start++; } for(i = 0; i < (int)(16-flen); i++) { binaryWriteByte(file, (unsigned char)0x20); } binaryWriteByte(file, 0x0D); for(i = 0; i < 12; i++) { binaryWriteByte(file, (unsigned char)0x20); } binaryWriteByte(file, (unsigned char)0xFF); binaryWriteByte(file, (unsigned char)0x00); binaryWriteByte(file, (unsigned char)0x06); binaryWriteByte(file, (unsigned char)0x26); for(i = 0; i < 12; i++) { binaryWriteByte(file, (unsigned char)0x20); } currentThreadCount = embThreadList_count(pattern->threadList); binaryWriteByte(file, (unsigned char)(currentThreadCount-1)); for(i = 0; i < currentThreadCount; i++) { binaryWriteByte(file, (unsigned char)embThread_findNearestColorInArray(embThreadList_getAt(pattern->threadList, i).color, (EmbThread*)pecThreads, pecThreadCount)); } for(i = 0; i < (int)(0x1CF - currentThreadCount); i++) { binaryWriteByte(file, (unsigned char)0x20); } binaryWriteShort(file, (short)0x0000); graphicsOffsetLocation = embFile_tell(file); /* placeholder bytes to be overwritten */ binaryWriteByte(file, (unsigned char)0x00); binaryWriteByte(file, (unsigned char)0x00); binaryWriteByte(file, (unsigned char)0x00); binaryWriteByte(file, (unsigned char)0x31); binaryWriteByte(file, (unsigned char)0xFF); binaryWriteByte(file, (unsigned char)0xF0); bounds = embPattern_calcBoundingBox(pattern); height = roundDouble(embRect_height(bounds)); width = roundDouble(embRect_width(bounds)); /* write 2 byte x size */ binaryWriteShort(file, (short)width); /* write 2 byte y size */ binaryWriteShort(file, (short)height); /* Write 4 miscellaneous int16's */ binaryWriteShort(file, (short)0x1E0); binaryWriteShort(file, (short)0x1B0); binaryWriteUShortBE(file, (unsigned short)(0x9000 | -roundDouble(bounds.left))); binaryWriteUShortBE(file, (unsigned short)(0x9000 | -roundDouble(bounds.top))); pecEncode(file, pattern); graphicsOffsetValue = embFile_tell(file) - graphicsOffsetLocation + 2; embFile_seek(file, graphicsOffsetLocation, SEEK_SET); binaryWriteByte(file, (unsigned char)(graphicsOffsetValue & 0xFF)); binaryWriteByte(file, (unsigned char)((graphicsOffsetValue >> 8) & 0xFF)); binaryWriteByte(file, (unsigned char)((graphicsOffsetValue >> 16) & 0xFF)); embFile_seek(file, 0x00, SEEK_END); /* Writing all colors */ clearImage(image); tempStitches = pattern->stitchList; yFactor = 32.0 / height; xFactor = 42.0 / width; while(tempStitches->next) { int x = roundDouble((tempStitches->stitch.xx - bounds.left) * xFactor) + 3; int y = roundDouble((tempStitches->stitch.yy - bounds.top) * yFactor) + 3; image[y][x] = 1; tempStitches = tempStitches->next; } writeImage(file, image); /* Writing each individual color */ tempStitches = pattern->stitchList; for(i = 0; i < currentThreadCount; i++) { clearImage(image); while(tempStitches->next) { int x = roundDouble((tempStitches->stitch.xx - bounds.left) * xFactor) + 3; int y = roundDouble((tempStitches->stitch.yy - bounds.top) * yFactor) + 3; if(tempStitches->stitch.flags & STOP) { tempStitches = tempStitches->next; break; } image[y][x] = 1; tempStitches = tempStitches->next; } writeImage(file, image); } }
int writeXxx(EmbPattern* pattern, const char* fileName) { FILE* file = 0; int i; EmbRect rect; int endOfStitches; EmbThreadList* colors; int curColor = 0; if(!pattern) { embLog_error("format-xxx.c writeXxx(), pattern argument is null\n"); return 0; } if(!fileName) { embLog_error("format-xxx.c writeXxx(), fileName argument is null\n"); return 0; } embPattern_correctForMaxStitchLength(pattern, 124, 127); file = fopen(fileName, "wb"); if(!file) { embLog_error("format-xxx.c writeXxx(), cannot open %s for writing\n", fileName); return 0; } for(i = 0; i < 0x17; i++) { binaryWriteByte(file, 0x00); } binaryWriteUInt(file, (unsigned int) embStitchList_count(pattern->stitchList)); for(i = 0; i < 0x0C; i++) { binaryWriteByte(file, 0x00); } binaryWriteUShort(file, (unsigned short)embThreadList_count(pattern->threadList)); binaryWriteShort(file, 0x0000); rect = embPattern_calcBoundingBox(pattern); binaryWriteShort(file, (short)(embRect_width(rect) * 10.0)); binaryWriteShort(file, (short)(embRect_height(rect) * 10.0)); binaryWriteShort(file, (short)(embRect_width(rect) / 2.0 * 10)); /*TODO: xEnd from start point x=0 */ binaryWriteShort(file, (short)(embRect_height(rect) / 2.0 * 10)); /*TODO: yEnd from start point y=0 */ binaryWriteShort(file, (short)(embRect_width(rect)/2.0 * 10)); /*TODO: left from start x = 0 */ binaryWriteShort(file, (short)(embRect_height(rect)/2.0 * 10)); /*TODO: bottom from start y = 0 */ for(i = 0; i < 0xC5; i++) { binaryWriteByte(file, 0x00); } binaryWriteInt(file, 0x0000); /* place holder for end of stitches */ xxxEncodeDesign(file, pattern); endOfStitches = ftell(file); fseek(file, 0xFC, SEEK_SET); binaryWriteUInt(file, endOfStitches); fseek(file, 0, SEEK_END); binaryWriteByte(file, 0x7F); /* is this really correct? */ binaryWriteByte(file, 0x7F); binaryWriteByte(file, 0x03); binaryWriteByte(file, 0x14); binaryWriteByte(file, 0x00); binaryWriteByte(file, 0x00); colors = pattern->threadList; while(colors) { binaryWriteByte(file, 0x00); binaryWriteByte(file, colors->thread.color.r); binaryWriteByte(file, colors->thread.color.g); binaryWriteByte(file, colors->thread.color.b); curColor++; colors = colors->next; } for(i = 0; i < (22 - curColor); i++) { binaryWriteUInt(file, 0x01000000); } binaryWriteByte(file, 0x00); binaryWriteByte(file, 0x01); fclose(file); return 1; }
/*! Writes the data from \a pattern to a file with the given \a fileName. * Returns \c true if successful, otherwise returns \c false. */ int writeVip(EmbPattern* pattern, const char* fileName) { EmbRect boundingRect; int stitchCount, minColors, patternColor; int attributeSize = 0; int xCompressedSize = 0; int yCompressedSize = 0; double previousX = 0; double previousY = 0; unsigned char* xValues = 0, *yValues = 0, *attributeValues = 0; EmbStitchList* pointer = 0; double xx = 0.0; double yy = 0.0; int flags = 0; int i = 0; unsigned char* attributeCompressed = 0, *xCompressed = 0, *yCompressed = 0, *decodedColors = 0, *encodedColors = 0; unsigned char prevByte = 0; EmbThreadList* colorPointer = 0; EmbFile* file = 0; if(!pattern) { embLog_error("format-vip.c writeVip(), pattern argument is null\n"); return 0; } if(!fileName) { embLog_error("format-vip.c writeVip(), fileName argument is null\n"); return 0; } stitchCount = embStitchList_count(pattern->stitchList); if(!stitchCount) { embLog_error("format-vip.c writeVip(), pattern contains no stitches\n"); return 0; } /* Check for an END stitch and add one if it is not present */ if(pattern->lastStitch && pattern->lastStitch->stitch.flags != END) { embPattern_addStitchRel(pattern, 0, 0, END, 1); stitchCount++; } file = embFile_open(fileName, "wb"); if(file == 0) { embLog_error("format-vip.c writeVip(), cannot open %s for writing\n", fileName); return 0; } minColors = embThreadList_count(pattern->threadList); decodedColors = (unsigned char*)malloc(minColors << 2); if(!decodedColors) return 0; encodedColors = (unsigned char*)malloc(minColors << 2); if(encodedColors) /* TODO: review this line. It looks clearly wrong. If not, note why. */ { free(decodedColors); decodedColors = 0; return 0; } /* embPattern_correctForMaxStitchLength(pattern, 0x7F, 0x7F); */ patternColor = minColors; if(minColors > 24) minColors = 24; binaryWriteUInt(file, 0x0190FC5D); binaryWriteUInt(file, stitchCount); binaryWriteUInt(file, minColors); boundingRect = embPattern_calcBoundingBox(pattern); binaryWriteShort(file, (short) roundDouble(boundingRect.right * 10.0)); binaryWriteShort(file, (short) -roundDouble(boundingRect.top * 10.0 - 1.0)); binaryWriteShort(file, (short) roundDouble(boundingRect.left * 10.0)); binaryWriteShort(file, (short) -roundDouble(boundingRect.bottom * 10.0 - 1.0)); binaryWriteUInt(file, 0x38 + (minColors << 3)); xValues = (unsigned char*)malloc(sizeof(unsigned char)*(stitchCount)); yValues = (unsigned char*)malloc(sizeof(unsigned char)*(stitchCount)); attributeValues = (unsigned char*)malloc(sizeof(unsigned char)*(stitchCount)); if(xValues && yValues && attributeValues) { pointer = pattern->stitchList; while(pointer) { xx = pointer->stitch.xx; yy = pointer->stitch.yy; flags = pointer->stitch.flags; xValues[i] = vipEncodeByte((xx - previousX) * 10.0); previousX = xx; yValues[i] = vipEncodeByte((yy - previousY) * 10.0); previousY = yy; attributeValues[i] = vipEncodeStitchType(flags); pointer = pointer->next; i++; } attributeCompressed = vipCompressData(attributeValues, stitchCount, &attributeSize); xCompressed = vipCompressData(xValues, stitchCount, &xCompressedSize); yCompressed = vipCompressData(yValues, stitchCount, &yCompressedSize); binaryWriteUInt(file, (unsigned int) (0x38 + (minColors << 3) + attributeSize)); binaryWriteUInt(file, (unsigned int) (0x38 + (minColors << 3) + attributeSize + xCompressedSize)); binaryWriteUInt(file, 0x00000000); binaryWriteUInt(file, 0x00000000); binaryWriteUShort(file, 0x0000); binaryWriteInt(file, minColors << 2); colorPointer = pattern->threadList; for(i = 0; i < minColors; i++) { int byteChunk = i << 2; EmbColor currentColor = colorPointer->thread.color; decodedColors[byteChunk] = currentColor.r; decodedColors[byteChunk + 1] = currentColor.g; decodedColors[byteChunk + 2] = currentColor.b; decodedColors[byteChunk + 3] = 0x01; colorPointer = colorPointer->next; } for(i = 0; i < minColors << 2; ++i) { unsigned char tmpByte = (unsigned char) (decodedColors[i] ^ vipDecodingTable[i]); prevByte = (unsigned char) (tmpByte ^ prevByte); binaryWriteByte(file, prevByte); } for(i = 0; i <= minColors; i++) { binaryWriteInt(file, 1); } binaryWriteUInt(file, 0); /* string length */ binaryWriteShort(file, 0); binaryWriteBytes(file, (char*) attributeCompressed, attributeSize); binaryWriteBytes(file, (char*) xCompressed, xCompressedSize); binaryWriteBytes(file, (char*) yCompressed, yCompressedSize); } if(attributeCompressed) { free(attributeCompressed); attributeCompressed = 0; } if(xCompressed) { free(xCompressed); xCompressed = 0; } if(yCompressed) { free(yCompressed); yCompressed = 0; } if(attributeValues) { free(attributeValues); attributeValues = 0; } if(xValues) { free(xValues); xValues = 0; } if(yValues) { free(yValues); yValues = 0; } if(decodedColors) { free(decodedColors); decodedColors = 0; } if(encodedColors) { free(encodedColors); encodedColors = 0; } embFile_close(file); return 1; }
static void pesWriteSewSegSection(EmbPattern* pattern, FILE* file) { /* TODO: pointer safety */ EmbStitchList* pointer = 0; EmbStitchList* mainPointer = 0; short* colorInfo = 0; int flag = 0; int count = 0; int colorCode = -1; int stitchType = 0; int blockCount = 0; int colorCount = 0; int newColorCode = 0; int colorInfoIndex = 0; int i; EmbRect bounds = embPattern_calcBoundingBox(pattern); EmbColor color; mainPointer = pattern->stitchList; while(mainPointer) { pointer = mainPointer; flag = pointer->stitch.flags; color = embThreadList_getAt(pattern->threadList, pointer->stitch.color).color; newColorCode = embThread_findNearestColorInArray(color, (EmbThread*)pecThreads, pecThreadCount); if(newColorCode != colorCode) { colorCount++; colorCode = newColorCode; } while(pointer && (flag == pointer->stitch.flags)) { count++; pointer = pointer->next; } blockCount++; mainPointer = pointer; } binaryWriteShort(file, blockCount); /* block count */ binaryWriteUShort(file, 0xFFFF); binaryWriteShort(file, 0x00); binaryWriteShort(file, 0x07); /* string length */ binaryWriteBytes(file, "CSewSeg", 7); colorInfo = (short *) calloc(colorCount * 2, sizeof(short)); mainPointer = pattern->stitchList; colorCode = -1; blockCount = 0; while(mainPointer) { pointer = mainPointer; flag = pointer->stitch.flags; color = embThreadList_getAt(pattern->threadList, pointer->stitch.color).color; newColorCode = embThread_findNearestColorInArray(color, (EmbThread*)pecThreads, pecThreadCount); if(newColorCode != colorCode) { colorInfo[colorInfoIndex++] = blockCount; colorInfo[colorInfoIndex++] = newColorCode; colorCode = newColorCode; } count = 0; while(pointer && (flag == pointer->stitch.flags)) { count++; pointer = pointer->next; } if(flag & JUMP) { stitchType = 1; } else { stitchType = 0; } binaryWriteShort(file, stitchType); /* 1 for jump, 0 for normal */ binaryWriteShort(file, (short)colorCode); /* color code */ binaryWriteShort(file, count); /* stitches in block */ pointer = mainPointer; while(pointer && (flag == pointer->stitch.flags)) { EmbStitch s = pointer->stitch; binaryWriteShort(file, (short)(s.xx - bounds.left)); binaryWriteShort(file, (short)(s.yy + bounds.top)); pointer = pointer->next; } if(pointer) { binaryWriteShort(file, 0x8003); } blockCount++; mainPointer = pointer; } binaryWriteShort(file, colorCount); for(i = 0; i < colorCount; i++) { binaryWriteShort(file, colorInfo[i * 2]); binaryWriteShort(file, colorInfo[i * 2 + 1]); } binaryWriteInt(file, 0); if(colorInfo) { free(colorInfo); colorInfo = 0; } }
static void pesWriteEmbOneSection(EmbPattern* pattern, FILE* file) { /* TODO: pointer safety */ int i; int hoopHeight = 1800, hoopWidth = 1300; EmbRect bounds; binaryWriteShort(file, 0x07); /* string length */ binaryWriteBytes(file, "CEmbOne", 7); bounds = embPattern_calcBoundingBox(pattern); binaryWriteShort(file, 0); binaryWriteShort(file, 0); binaryWriteShort(file, 0); binaryWriteShort(file, 0); binaryWriteShort(file, 0); binaryWriteShort(file, 0); binaryWriteShort(file, 0); binaryWriteShort(file, 0); /* AffineTransform */ binaryWriteFloat(file, 1.0f); binaryWriteFloat(file, 0.0f); binaryWriteFloat(file, 0.0f); binaryWriteFloat(file, 1.0f); binaryWriteFloat(file, (float)((embRect_width(bounds) - hoopWidth) / 2)); binaryWriteFloat(file, (float)((embRect_height(bounds) + hoopHeight) / 2)); binaryWriteShort(file, 1); binaryWriteShort(file, 0); /* Translate X */ binaryWriteShort(file, 0); /* Translate Y */ binaryWriteShort(file, (short)embRect_width(bounds)); binaryWriteShort(file, (short)embRect_height(bounds)); for(i = 0; i < 8; i++) { binaryWriteByte(file, 0); } /*WriteSubObjects(br, pes, SubBlocks); */ }
int writeVip(EmbPattern* pattern, const char* fileName) { EmbRect boundingRect; int stitchCount, minColors, patternColor; int attributeSize = 0; int xCompressedSize = 0; int yCompressedSize = 0; double previousX = 0; double previousY = 0; unsigned char* xValues, *yValues, *attributeValues; EmbStitchList* pointer; double xx = 0.0; double yy = 0.0; int flags = 0; int i = 0; unsigned char* attributeCompressed, *xCompressed, *yCompressed, *decodedColors, *encodedColors; unsigned char prevByte = 0; EmbThreadList *colorPointer; FILE* file = fopen(fileName, "wb"); if(file == 0) { /*TODO: set status here "Error opening HUS file for write:" */ return 0; } stitchCount = embStitch_count(pattern->stitchList); minColors = embThread_count(pattern->threadList); decodedColors = (unsigned char *) malloc(minColors* 4 *sizeof(unsigned char)); encodedColors = (unsigned char *) malloc(minColors* 4 *sizeof(unsigned char)); /* embPattern_correctForMaxStitchLength(pattern, 0x7F, 0x7F); */ patternColor = minColors; if(minColors > 24) minColors = 24; binaryWriteUInt(file, 0x0190FC5D); binaryWriteUInt(file, stitchCount); binaryWriteUInt(file, minColors); boundingRect = embPattern_calcBoundingBox(pattern); binaryWriteShort(file, (short) roundDouble(boundingRect.right * 10.0)); binaryWriteShort(file, (short) -roundDouble(boundingRect.top * 10.0 - 1.0)); binaryWriteShort(file, (short) roundDouble(boundingRect.left * 10.0)); binaryWriteShort(file, (short) -roundDouble(boundingRect.bottom * 10.0 - 1.0)); binaryWriteUInt(file, 0x38 + (minColors << 3)); xValues = (unsigned char*)malloc(sizeof(unsigned char)*(stitchCount)); yValues = (unsigned char*)malloc(sizeof(unsigned char)*(stitchCount)); attributeValues = (unsigned char*)malloc(sizeof(unsigned char)*(stitchCount)); pointer = pattern->stitchList; while(pointer) { xx = pointer->stitch.xx; yy = pointer->stitch.yy; flags = pointer->stitch.flags; xValues[i] = vipEncodeByte((xx - previousX) * 10.0); previousX = xx; yValues[i] = vipEncodeByte((yy - previousY) * 10.0); previousY = yy; attributeValues[i] = vipEncodeStitchType(flags); pointer = pointer->next; i++; } attributeCompressed = vipCompressData(attributeValues, stitchCount, &attributeSize); xCompressed = vipCompressData(xValues, stitchCount, &xCompressedSize); yCompressed = vipCompressData(yValues, stitchCount, &yCompressedSize); binaryWriteUInt(file, (unsigned int) (0x38 + (minColors << 3) + attributeSize)); binaryWriteUInt(file, (unsigned int) (0x38 + (minColors << 3) + attributeSize + xCompressedSize)); binaryWriteUInt(file, 0x00000000); binaryWriteUInt(file, 0x00000000); binaryWriteUShort(file, 0x0000); binaryWriteInt(file, minColors << 2); colorPointer = pattern->threadList; for (i = 0; i < minColors; i++) { int byteChunk = i << 2; EmbColor currentColor = colorPointer->thread.color; decodedColors[byteChunk] = currentColor.r; decodedColors[byteChunk + 1] = currentColor.g; decodedColors[byteChunk + 2] = currentColor.b; decodedColors[byteChunk + 3] = 0x01; colorPointer = colorPointer->next; } for (i = 0; i < minColors << 2; ++i) { unsigned char tmpByte = (unsigned char) (decodedColors[i] ^ vipDecodingTable[i]); prevByte = (unsigned char) (tmpByte ^ prevByte); binaryWriteByte(file, prevByte); } for (i = 0; i <= minColors; i++) { binaryWriteInt(file, 1); } binaryWriteUInt(file, 0); /* string length */ binaryWriteShort(file, 0); binaryWriteBytes(file, (char*) attributeCompressed, attributeSize); binaryWriteBytes(file, (char*) xCompressed, xCompressedSize); binaryWriteBytes(file, (char*) yCompressed, yCompressedSize); fclose(file); return 1; }
/*! Writes the data from \a pattern to a file with the given \a fileName. * Returns \c true if successful, otherwise returns \c false. */ int writeDst(EmbPattern* pattern, const char* fileName) { EmbRect boundingRect; FILE* file = 0; int xx, yy, dx, dy, flags; int i; int co = 1, st = 0; int ax, ay, mx, my; char* pd = 0; EmbStitchList* pointer = 0; if(!pattern) { embLog_error("format-dst.c writeDst(), pattern argument is null\n"); return 0; } if(!fileName) { embLog_error("format-dst.c writeDst(), fileName argument is null\n"); return 0; } file = fopen(fileName, "wb"); if(!file) { embLog_error("format-dst.c writeDst(), cannot open %s for writing\n", fileName); return 0; } embPattern_correctForMaxStitchLength(pattern, 12.1, 12.1); xx = yy = 0; co = 1; co = embThreadList_count(pattern->threadList); st = 0; st = embStitchList_count(pattern->stitchList); flags = NORMAL; boundingRect = embPattern_calcBoundingBox(pattern); /* TODO: review the code below if (pattern->get_variable("design_name") != NULL) { char *la = stralloccopy(pattern->get_variable("design_name")); if (strlen(la)>16) la[16]='\0'; fprintf(file,"LA:%-16s\x0d",la); free (la); } else { */ fprintf(file, "LA:%-16s\x0d", "Untitled"); /*} */ fprintf(file, "ST:%7d\x0d", st); fprintf(file, "CO:%3d\x0d", co - 1); /* number of color changes, not number of colors! */ fprintf(file, "+X:%5d\x0d", (int)(boundingRect.right * 10.0)); fprintf(file, "-X:%5d\x0d", (int)(fabs(boundingRect.left) * 10.0)); fprintf(file, "+Y:%5d\x0d", (int)(boundingRect.bottom * 10.0)); fprintf(file, "-Y:%5d\x0d", (int)(fabs(boundingRect.top) * 10.0)); ax = ay = mx = my = 0; /* TODO: review the code below */ /*ax=pattern->get_variable_int("ax"); */ /* will return 0 if not defined */ /*ay=pattern->get_variable_int("ay"); */ /*mx=pattern->get_variable_int("mx"); */ /*my=pattern->get_variable_int("my"); */ /*pd=pattern->get_variable("pd");*/ /* will return null pointer if not defined */ pd = 0; if(pd == 0 || strlen(pd) != 6) { /* pd is not valid, so fill in a default consisting of "******" */ pd = "******"; }; fprintf(file, "AX:+%5d\x0d", ax); fprintf(file, "AY:+%5d\x0d", ay); fprintf(file, "MX:+%5d\x0d", mx); fprintf(file, "MY:+%5d\x0d", my); fprintf(file, "PD:%6s\x0d", pd); binaryWriteByte(file, 0x1a); /* 0x1a is the code for end of section. */ /* pad out header to proper length */ for(i = 125; i < 512; i++) { fprintf(file, " "); } /* write stitches */ xx = yy = 0; pointer = pattern->stitchList; while(pointer) { /* convert from mm to 0.1mm for file format */ dx = roundDouble(pointer->stitch.xx * 10.0) - xx; dy = roundDouble(pointer->stitch.yy * 10.0) - yy; xx = roundDouble(pointer->stitch.xx * 10.0); yy = roundDouble(pointer->stitch.yy * 10.0); flags = pointer->stitch.flags; encode_record(file, dx, dy, flags); pointer = pointer->next; } binaryWriteByte(file, 0xA1); /* finish file with a terminator character */ binaryWriteShort(file, 0); fclose(file); return 1; }
int writeHus(EmbPattern* pattern, const char* fileName) { EmbRect boundingRect; int stitchCount, minColors, patternColor; int attributeSize = 0; int xCompressedSize = 0; int yCompressedSize = 0; double previousX = 0; double previousY = 0; unsigned char* xValues, *yValues, *attributeValues; EmbStitchList* pointer = 0; double xx = 0.0; double yy = 0.0; int flags = 0; int i = 0; unsigned char* attributeCompressed, *xCompressed, *yCompressed; FILE* file = 0; file = fopen(fileName, "wb"); if(!file) { /*TODO: set status here "Error opening HUS file for write:" */ return 0; } stitchCount = embStitchList_count(pattern->stitchList); /* embPattern_correctForMaxStitchLength(pattern, 0x7F, 0x7F); */ minColors = embThreadList_count(pattern->threadList); patternColor = minColors; if(minColors > 24) minColors = 24; binaryWriteUInt(file, 0x00C8AF5B); binaryWriteUInt(file, stitchCount); binaryWriteUInt(file, minColors); boundingRect = embPattern_calcBoundingBox(pattern); binaryWriteShort(file, (short) roundDouble(boundingRect.right * 10.0)); binaryWriteShort(file, (short) -roundDouble(boundingRect.top * 10.0 - 1.0)); binaryWriteShort(file, (short) roundDouble(boundingRect.left * 10.0)); binaryWriteShort(file, (short) -roundDouble(boundingRect.bottom * 10.0 - 1.0)); binaryWriteUInt(file, 0x2A + 2 * minColors); xValues = (unsigned char*)malloc(sizeof(unsigned char)*(stitchCount)); /* TODO: malloc fail error */ yValues = (unsigned char*)malloc(sizeof(unsigned char)*(stitchCount)); /* TODO: malloc fail error */ attributeValues = (unsigned char*)malloc(sizeof(unsigned char)*(stitchCount)); /* TODO: malloc fail error */ pointer = pattern->stitchList; while(pointer) { xx = pointer->stitch.xx; yy = pointer->stitch.yy; flags = pointer->stitch.flags; xValues[i] = husEncodeByte((xx - previousX) * 10.0); previousX = xx; yValues[i] = husEncodeByte((yy - previousY) * 10.0); previousY = yy; attributeValues[i] = husEncodeStitchType(flags); pointer = pointer->next; i++; } attributeCompressed = husCompressData(attributeValues, stitchCount, &attributeSize); xCompressed = husCompressData(xValues, stitchCount, &xCompressedSize); yCompressed = husCompressData(yValues, stitchCount, &yCompressedSize); /* TODO: error if husCompressData returns zero? */ binaryWriteUInt(file, (unsigned int) (0x2A + 2 * patternColor + attributeSize)); binaryWriteUInt(file, (unsigned int) (0x2A + 2 * patternColor + attributeSize + xCompressedSize)); binaryWriteUInt(file, 0x00000000); binaryWriteUInt(file, 0x00000000); binaryWriteUShort(file, 0x0000); for(i = 0; i < patternColor; i++) { binaryWriteShort(file, (short)embThread_findNearestColorInArray(embThreadList_getAt(pattern->threadList, i).color, (EmbThread*)husThreads, husThreadCount)); } binaryWriteBytes(file, (char*) attributeCompressed, attributeSize); binaryWriteBytes(file, (char*) xCompressed, xCompressedSize); binaryWriteBytes(file, (char*) yCompressed, yCompressedSize); free(xValues); free(xCompressed); free(yValues); free(yCompressed); free(attributeValues); free(attributeCompressed); fclose(file); return 1; }