#include "gd.h" #include "gd_intern.h" #include /* * Rotate function Added on 2003/12 * by Pierre-Alain Joye (pierre@php.net) **/ /* Begin rotate function */ #ifdef ROTATE_PI #undef ROTATE_PI #endif /* ROTATE_PI */ #define ROTATE_DEG2RAD 3.1415926535897932384626433832795/180 void gdImageSkewX (gdImagePtr dst, gdImagePtr src, int uRow, int iOffset, double dWeight, int clrBack, int ignoretransparent) { typedef int (*FuncPtr)(gdImagePtr, int, int); int i, r, g, b, a, clrBackR, clrBackG, clrBackB, clrBackA; FuncPtr f; int pxlOldLeft, pxlLeft=0, pxlSrc; /* Keep clrBack as color index if required */ if (src->trueColor) { pxlOldLeft = clrBack; f = gdImageGetTrueColorPixel; } else { pxlOldLeft = clrBack; clrBackR = gdImageRed(src, clrBack); clrBackG = gdImageGreen(src, clrBack); clrBackB = gdImageBlue(src, clrBack); clrBackA = gdImageAlpha(src, clrBack); clrBack = gdTrueColorAlpha(clrBackR, clrBackG, clrBackB, clrBackA); f = gdImageGetPixel; } for (i = 0; i < iOffset; i++) { gdImageSetPixel (dst, i, uRow, clrBack); } if (i < dst->sx) { gdImageSetPixel (dst, i, uRow, clrBack); } for (i = 0; i < src->sx; i++) { pxlSrc = f (src,i,uRow); r = (int)(gdImageRed(src,pxlSrc) * dWeight); g = (int)(gdImageGreen(src,pxlSrc) * dWeight); b = (int)(gdImageBlue(src,pxlSrc) * dWeight); a = (int)(gdImageAlpha(src,pxlSrc) * dWeight); pxlLeft = gdImageColorAllocateAlpha(src, r, g, b, a); if (pxlLeft == -1) { pxlLeft = gdImageColorClosestAlpha(src, r, g, b, a); } r = gdImageRed(src,pxlSrc) - (gdImageRed(src,pxlLeft) - gdImageRed(src,pxlOldLeft)); g = gdImageGreen(src,pxlSrc) - (gdImageGreen(src,pxlLeft) - gdImageGreen(src,pxlOldLeft)); b = gdImageBlue(src,pxlSrc) - (gdImageBlue(src,pxlLeft) - gdImageBlue(src,pxlOldLeft)); a = gdImageAlpha(src,pxlSrc) - (gdImageAlpha(src,pxlLeft) - gdImageAlpha(src,pxlOldLeft)); if (r>255) { r = 255; } if (g>255) { g = 255; } if (b>255) { b = 255; } if (a>127) { a = 127; } if (ignoretransparent && pxlSrc == dst->transparent) { pxlSrc = dst->transparent; } else { pxlSrc = gdImageColorAllocateAlpha(dst, r, g, b, a); if (pxlSrc == -1) { pxlSrc = gdImageColorClosestAlpha(dst, r, g, b, a); } } if ((i + iOffset >= 0) && (i + iOffset < dst->sx)) { gdImageSetPixel (dst, i+iOffset, uRow, pxlSrc); } pxlOldLeft = pxlLeft; } i += iOffset; if (i < dst->sx) { gdImageSetPixel (dst, i, uRow, pxlLeft); } gdImageSetPixel (dst, iOffset, uRow, clrBack); i--; while (++i < dst->sx) { gdImageSetPixel (dst, i, uRow, clrBack); } } void gdImageSkewY (gdImagePtr dst, gdImagePtr src, int uCol, int iOffset, double dWeight, int clrBack, int ignoretransparent) { typedef int (*FuncPtr)(gdImagePtr, int, int); int i, iYPos=0, r, g, b, a; FuncPtr f; int pxlOldLeft, pxlLeft=0, pxlSrc; if (src->trueColor) { f = gdImageGetTrueColorPixel; } else { f = gdImageGetPixel; } for (i = 0; i<=iOffset; i++) { gdImageSetPixel (dst, uCol, i, clrBack); } r = (int)((double)gdImageRed(src,clrBack) * dWeight); g = (int)((double)gdImageGreen(src,clrBack) * dWeight); b = (int)((double)gdImageBlue(src,clrBack) * dWeight); a = (int)((double)gdImageAlpha(src,clrBack) * dWeight); pxlOldLeft = gdImageColorAllocateAlpha(dst, r, g, b, a); for (i = 0; i < src->sy; i++) { pxlSrc = f (src, uCol, i); iYPos = i + iOffset; r = (int)((double)gdImageRed(src,pxlSrc) * dWeight); g = (int)((double)gdImageGreen(src,pxlSrc) * dWeight); b = (int)((double)gdImageBlue(src,pxlSrc) * dWeight); a = (int)((double)gdImageAlpha(src,pxlSrc) * dWeight); pxlLeft = gdImageColorAllocateAlpha(src, r, g, b, a); if (pxlLeft == -1) { pxlLeft = gdImageColorClosestAlpha(src, r, g, b, a); } r = gdImageRed(src,pxlSrc) - (gdImageRed(src,pxlLeft) - gdImageRed(src,pxlOldLeft)); g = gdImageGreen(src,pxlSrc) - (gdImageGreen(src,pxlLeft) - gdImageGreen(src,pxlOldLeft)); b = gdImageBlue(src,pxlSrc) - (gdImageBlue(src,pxlLeft) - gdImageBlue(src,pxlOldLeft)); a = gdImageAlpha(src,pxlSrc) - (gdImageAlpha(src,pxlLeft) - gdImageAlpha(src,pxlOldLeft)); if (r>255) { r = 255; } if (g>255) { g = 255; } if (b>255) { b = 255; } if (a>127) { a = 127; } if (ignoretransparent && pxlSrc == dst->transparent) { pxlSrc = dst->transparent; } else { pxlSrc = gdImageColorAllocateAlpha(dst, r, g, b, a); if (pxlSrc == -1) { pxlSrc = gdImageColorClosestAlpha(dst, r, g, b, a); } } if ((iYPos >= 0) && (iYPos < dst->sy)) { gdImageSetPixel (dst, uCol, iYPos, pxlSrc); } pxlOldLeft = pxlLeft; } i = iYPos; if (i < dst->sy) { gdImageSetPixel (dst, uCol, i, pxlLeft); } i--; while (++i < dst->sy) { gdImageSetPixel (dst, uCol, i, clrBack); } } /* Rotates an image by 90 degrees (counter clockwise) */ gdImagePtr gdImageRotate90 (gdImagePtr src, int ignoretransparent) { int uY, uX; int c,r,g,b,a; gdImagePtr dst; typedef int (*FuncPtr)(gdImagePtr, int, int); FuncPtr f; if (src->trueColor) { f = gdImageGetTrueColorPixel; } else { f = gdImageGetPixel; } dst = gdImageCreateTrueColor(src->sy, src->sx); if (dst != NULL) { int old_blendmode = dst->alphaBlendingFlag; dst->alphaBlendingFlag = 0; dst->saveAlphaFlag = 1; dst->transparent = src->transparent; gdImagePaletteCopy (dst, src); for (uY = 0; uYsy; uY++) { for (uX = 0; uXsx; uX++) { c = f (src, uX, uY); if (!src->trueColor) { r = gdImageRed(src,c); g = gdImageGreen(src,c); b = gdImageBlue(src,c); a = gdImageAlpha(src,c); c = gdTrueColorAlpha(r, g, b, a); } if (ignoretransparent && c == dst->transparent) { gdImageSetPixel(dst, uY, (dst->sy - uX - 1), dst->transparent); } else { gdImageSetPixel(dst, uY, (dst->sy - uX - 1), c); } } } dst->alphaBlendingFlag = old_blendmode; } return dst; } /* Rotates an image by 180 degrees (counter clockwise) */ gdImagePtr gdImageRotate180 (gdImagePtr src, int ignoretransparent) { int uY, uX; int c,r,g,b,a; gdImagePtr dst; typedef int (*FuncPtr)(gdImagePtr, int, int); FuncPtr f; if (src->trueColor) { f = gdImageGetTrueColorPixel; } else { f = gdImageGetPixel; } dst = gdImageCreateTrueColor(src->sx, src->sy); if (dst != NULL) { int old_blendmode = dst->alphaBlendingFlag; dst->alphaBlendingFlag = 0; dst->saveAlphaFlag = 1; dst->transparent = src->transparent; gdImagePaletteCopy (dst, src); for (uY = 0; uYsy; uY++) { for (uX = 0; uXsx; uX++) { c = f (src, uX, uY); if (!src->trueColor) { r = gdImageRed(src,c); g = gdImageGreen(src,c); b = gdImageBlue(src,c); a = gdImageAlpha(src,c); c = gdTrueColorAlpha(r, g, b, a); } if (ignoretransparent && c == dst->transparent) { gdImageSetPixel(dst, (dst->sx - uX - 1), (dst->sy - uY - 1), dst->transparent); } else { gdImageSetPixel(dst, (dst->sx - uX - 1), (dst->sy - uY - 1), c); } } } dst->alphaBlendingFlag = old_blendmode; } return dst; } /* Rotates an image by 270 degrees (counter clockwise) */ gdImagePtr gdImageRotate270 (gdImagePtr src, int ignoretransparent) { int uY, uX; int c,r,g,b,a; gdImagePtr dst; typedef int (*FuncPtr)(gdImagePtr, int, int); FuncPtr f; if (src->trueColor) { f = gdImageGetTrueColorPixel; } else { f = gdImageGetPixel; } dst = gdImageCreateTrueColor (src->sy, src->sx); if (dst != NULL) { int old_blendmode = dst->alphaBlendingFlag; dst->alphaBlendingFlag = 0; dst->saveAlphaFlag = 1; dst->transparent = src->transparent; gdImagePaletteCopy (dst, src); for (uY = 0; uYsy; uY++) { for (uX = 0; uXsx; uX++) { c = f (src, uX, uY); if (!src->trueColor) { r = gdImageRed(src,c); g = gdImageGreen(src,c); b = gdImageBlue(src,c); a = gdImageAlpha(src,c); c = gdTrueColorAlpha(r, g, b, a); } if (ignoretransparent && c == dst->transparent) { gdImageSetPixel(dst, (dst->sx - uY - 1), uX, dst->transparent); } else { gdImageSetPixel(dst, (dst->sx - uY - 1), uX, c); } } } dst->alphaBlendingFlag = old_blendmode; } return dst; }