diff --git a/ext/gd/config.m4 b/ext/gd/config.m4 index 44cf048df91..6bcd203db78 100644 --- a/ext/gd/config.m4 +++ b/ext/gd/config.m4 @@ -269,7 +269,8 @@ if test "$PHP_GD" = "yes"; then libgd/gdxpm.c libgd/gdfontt.c libgd/gdfonts.c libgd/gdfontmb.c libgd/gdfontl.c \ libgd/gdfontg.c libgd/gdtables.c libgd/gdft.c libgd/gdcache.c libgd/gdkanji.c \ libgd/wbmp.c libgd/gd_wbmp.c libgd/gdhelpers.c libgd/gd_topal.c libgd/gd_gif_in.c \ - libgd/xbm.c libgd/gd_gif_out.c libgd/gd_security.c libgd/gd_filter.c libgd/gd_pixelate.c libgd/gd_arc.c" + libgd/xbm.c libgd/gd_gif_out.c libgd/gd_security.c libgd/gd_filter.c \ + libgd/gd_pixelate.c libgd/gd_arc.c libgd/gd_rotate.c" dnl check for fabsf and floorf which are available since C99 AC_CHECK_FUNCS(fabsf floorf) @@ -342,7 +343,7 @@ else if test "$PHP_GD" != "no"; then GD_MODULE_TYPE=external - extra_sources="gdcache.c libgd/gd_compat.c libgd/gd_filter.c libgd/gd_pixelate.c libgd/gd_arc.c" + extra_sources="gdcache.c libgd/gd_compat.c libgd/gd_filter.c libgd/gd_pixelate.c libgd/gd_arc.c libgd/gd_rotate.c" dnl Various checks for GD features PHP_GD_ZLIB diff --git a/ext/gd/config.w32 b/ext/gd/config.w32 index 97c9a82bc51..aa0993bc4c6 100644 --- a/ext/gd/config.w32 +++ b/ext/gd/config.w32 @@ -33,7 +33,8 @@ if (PHP_GD != "no") { gdcache.c gdfontg.c gdfontl.c gdfontmb.c gdfonts.c gdfontt.c \ gdft.c gd_gd2.c gd_gd.c gd_gif_in.c gd_gif_out.c gdhelpers.c gd_io.c gd_io_dp.c \ gd_io_file.c gd_io_ss.c gd_jpeg.c gdkanji.c gd_png.c gd_ss.c \ - gdtables.c gd_topal.c gd_wbmp.c gdxpm.c wbmp.c xbm.c gd_security.c gd_filter.c gd_pixelate.c gd_arc.c", "gd"); + gdtables.c gd_topal.c gd_wbmp.c gdxpm.c wbmp.c xbm.c gd_security.c \ + gd_filter.c gd_pixelate.c gd_arc.c gd_rotate.c", "gd"); AC_DEFINE('HAVE_LIBGD', 1, 'GD support'); ADD_FLAG("CFLAGS_GD", " \ /D HAVE_GD_DYNAMIC_CTX_EX=1 \ diff --git a/ext/gd/gd.c b/ext/gd/gd.c index b83363cb4b1..6b655d553c4 100644 --- a/ext/gd/gd.c +++ b/ext/gd/gd.c @@ -300,14 +300,12 @@ ZEND_BEGIN_ARG_INFO(arginfo_imagegrabscreen, 0) ZEND_END_ARG_INFO() #endif -#ifdef HAVE_GD_BUNDLED ZEND_BEGIN_ARG_INFO_EX(arginfo_imagerotate, 0, 0, 3) ZEND_ARG_INFO(0, im) ZEND_ARG_INFO(0, angle) ZEND_ARG_INFO(0, bgdcolor) ZEND_ARG_INFO(0, ignoretransparent) ZEND_END_ARG_INFO() -#endif #if HAVE_GD_IMAGESETTILE ZEND_BEGIN_ARG_INFO(arginfo_imagesettile, 0) @@ -930,8 +928,9 @@ const zend_function_entry gd_functions[] = { PHP_FE(imagegrabscreen, arginfo_imagegrabscreen) #endif -#ifdef HAVE_GD_BUNDLED PHP_FE(imagerotate, arginfo_imagerotate) + +#ifdef HAVE_GD_BUNDLED PHP_FE(imageantialias, arginfo_imageantialias) #endif @@ -2104,7 +2103,6 @@ PHP_FUNCTION(imagegrabscreen) /* }}} */ #endif /* PHP_WIN32 */ -#ifdef HAVE_GD_BUNDLED /* {{{ proto resource imagerotate(resource src_im, float angle, int bgdcolor [, int ignoretransparent]) Rotate an image using a custom angle */ PHP_FUNCTION(imagerotate) @@ -2130,7 +2128,6 @@ PHP_FUNCTION(imagerotate) } } /* }}} */ -#endif #if HAVE_GD_IMAGESETTILE /* {{{ proto bool imagesettile(resource image, resource tile) diff --git a/ext/gd/libgd/gd.c b/ext/gd/libgd/gd.c index 7b6dcdc1fc0..d66bbbfad85 100644 --- a/ext/gd/libgd/gd.c +++ b/ext/gd/libgd/gd.c @@ -2557,540 +2557,6 @@ void gdImageCopyResampled (gdImagePtr dst, gdImagePtr src, int dstX, int dstY, i } } - -/* - * Rotate function Added on 2003/12 - * by Pierre-Alain Joye (pajoye@pearfr.org) - **/ -/* 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); - dst->transparent = src->transparent; - - if (dst != NULL) { - int old_blendmode = dst->alphaBlendingFlag; - dst->alphaBlendingFlag = 0; - - 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); - dst->transparent = src->transparent; - - if (dst != NULL) { - int old_blendmode = dst->alphaBlendingFlag; - dst->alphaBlendingFlag = 0; - - 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); - dst->transparent = src->transparent; - - if (dst != NULL) { - int old_blendmode = dst->alphaBlendingFlag; - dst->alphaBlendingFlag = 0; - - 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; -} - -gdImagePtr gdImageRotate45 (gdImagePtr src, double dAngle, int clrBack, int ignoretransparent) -{ - typedef int (*FuncPtr)(gdImagePtr, int, int); - gdImagePtr dst1,dst2,dst3; - FuncPtr f; - double dRadAngle, dSinE, dTan, dShear; - double dOffset; /* Variable skew offset */ - int u, iShear, newx, newy; - int clrBackR, clrBackG, clrBackB, clrBackA; - - /* See GEMS I for the algorithm details */ - dRadAngle = dAngle * ROTATE_DEG2RAD; /* Angle in radians */ - dSinE = sin (dRadAngle); - dTan = tan (dRadAngle / 2.0); - - newx = (int)(src->sx + src->sy * fabs(dTan)); - newy = src->sy; - - /* 1st shear */ - if (src->trueColor) { - f = gdImageGetTrueColorPixel; - } else { - f = gdImageGetPixel; - } - - dst1 = gdImageCreateTrueColor(newx, newy); - /******* Perform 1st shear (horizontal) ******/ - if (dst1 == NULL) { - return NULL; - } - dst1->alphaBlendingFlag = gdEffectReplace; - - if (dAngle == 0.0) { - /* Returns copy of src */ - gdImageCopy (dst1, src,0,0,0,0,src->sx,src->sy); - return dst1; - } - - gdImagePaletteCopy (dst1, src); - - if (ignoretransparent) { - if (gdImageTrueColor(src)) { - dst1->transparent = src->transparent; - } else { - - dst1->transparent = gdTrueColorAlpha(gdImageRed(src, src->transparent), gdImageBlue(src, src->transparent), gdImageGreen(src, src->transparent), 127); - } - } - - dRadAngle = dAngle * ROTATE_DEG2RAD; /* Angle in radians */ - dSinE = sin (dRadAngle); - dTan = tan (dRadAngle / 2.0); - - for (u = 0; u < dst1->sy; u++) { - if (dTan >= 0.0) { - dShear = ((double)(u + 0.5)) * dTan; - } else { - dShear = ((double)(u - dst1->sy) + 0.5) * dTan; - } - - iShear = (int)floor(dShear); - gdImageSkewX(dst1, src, u, iShear, (dShear - iShear), clrBack, ignoretransparent); - } - - /* - The 1st shear may use the original clrBack as color index - Convert it once here - */ - if(!src->trueColor) { - clrBackR = gdImageRed(src, clrBack); - clrBackG = gdImageGreen(src, clrBack); - clrBackB = gdImageBlue(src, clrBack); - clrBackA = gdImageAlpha(src, clrBack); - clrBack = gdTrueColorAlpha(clrBackR, clrBackG, clrBackB, clrBackA); - } - /* 2nd shear */ - newx = dst1->sx; - - if (dSinE > 0.0) { - dOffset = (src->sx-1) * dSinE; - } else { - dOffset = -dSinE * (src->sx - newx); - } - - newy = (int) ((double) src->sx * fabs( dSinE ) + (double) src->sy * cos (dRadAngle))+1; - - if (src->trueColor) { - f = gdImageGetTrueColorPixel; - } else { - f = gdImageGetPixel; - } - dst2 = gdImageCreateTrueColor(newx, newy); - if (dst2 == NULL) { - gdImageDestroy(dst1); - return NULL; - } - dst2->alphaBlendingFlag = gdEffectReplace; - if (ignoretransparent) { - dst2->transparent = dst1->transparent; - } - - for (u = 0; u < dst2->sx; u++, dOffset -= dSinE) { - iShear = (int)floor (dOffset); - gdImageSkewY(dst2, dst1, u, iShear, (dOffset - (double)iShear), clrBack, ignoretransparent); - } - - /* 3rd shear */ - gdImageDestroy(dst1); - - newx = (int) ((double)src->sy * fabs (dSinE) + (double)src->sx * cos (dRadAngle)) + 1; - newy = dst2->sy; - - if (src->trueColor) { - f = gdImageGetTrueColorPixel; - } else { - f = gdImageGetPixel; - } - dst3 = gdImageCreateTrueColor(newx, newy); - if (dst3 == NULL) { - gdImageDestroy(dst2); - return NULL; - } - - dst3->alphaBlendingFlag = gdEffectReplace; - if (ignoretransparent) { - dst3->transparent = dst2->transparent; - } - - if (dSinE >= 0.0) { - dOffset = (double)(src->sx - 1) * dSinE * -dTan; - } else { - dOffset = dTan * ((double)(src->sx - 1) * -dSinE + (double)(1 - newy)); - } - - for (u = 0; u < dst3->sy; u++, dOffset += dTan) { - int iShear = (int)floor(dOffset); - gdImageSkewX(dst3, dst2, u, iShear, (dOffset - iShear), clrBack, ignoretransparent); - } - - gdImageDestroy(dst2); - - return dst3; -} - -gdImagePtr gdImageRotate (gdImagePtr src, double dAngle, int clrBack, int ignoretransparent) -{ - gdImagePtr pMidImg; - gdImagePtr rotatedImg; - - if (src == NULL) { - return NULL; - } - - if (!gdImageTrueColor(src) && (clrBack < 0 || clrBack>=gdImageColorsTotal(src))) { - return NULL; - } - - while (dAngle >= 360.0) { - dAngle -= 360.0; - } - - while (dAngle < 0) { - dAngle += 360.0; - } - - if (dAngle == 90.00) { - return gdImageRotate90(src, ignoretransparent); - } - if (dAngle == 180.00) { - return gdImageRotate180(src, ignoretransparent); - } - if(dAngle == 270.00) { - return gdImageRotate270 (src, ignoretransparent); - } - - if ((dAngle > 45.0) && (dAngle <= 135.0)) { - pMidImg = gdImageRotate90 (src, ignoretransparent); - dAngle -= 90.0; - } else if ((dAngle > 135.0) && (dAngle <= 225.0)) { - pMidImg = gdImageRotate180 (src, ignoretransparent); - dAngle -= 180.0; - } else if ((dAngle > 225.0) && (dAngle <= 315.0)) { - pMidImg = gdImageRotate270 (src, ignoretransparent); - dAngle -= 270.0; - } else { - return gdImageRotate45 (src, dAngle, clrBack, ignoretransparent); - } - - if (pMidImg == NULL) { - return NULL; - } - - rotatedImg = gdImageRotate45 (pMidImg, dAngle, clrBack, ignoretransparent); - gdImageDestroy(pMidImg); - - return rotatedImg; -} -/* End Rotate function */ - void gdImagePolygon (gdImagePtr im, gdPointPtr p, int n, int c) { int i; diff --git a/ext/gd/libgd/gd_compat.h b/ext/gd/libgd/gd_compat.h index 54d522b3d05..382db9c4948 100644 --- a/ext/gd/libgd/gd_compat.h +++ b/ext/gd/libgd/gd_compat.h @@ -53,6 +53,7 @@ int gdImagePixelate(gdImagePtr im, int block_size, const unsigned int mode); void gdImageEllipse(gdImagePtr im, int cx, int cy, int w, int h, int c); #endif +gdImagePtr gdImageRotate (gdImagePtr src, double dAngle, int clrBack, int ignoretransparent); #endif diff --git a/ext/gd/libgd/gd_rotate.c b/ext/gd/libgd/gd_rotate.c new file mode 100644 index 00000000000..430d51d9636 --- /dev/null +++ b/ext/gd/libgd/gd_rotate.c @@ -0,0 +1,557 @@ +#if HAVE_GD_BUNDLED +# include "gd.h" +#else +# include +#endif + +#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); + dst->transparent = src->transparent; + + if (dst != NULL) { + int old_blendmode = dst->alphaBlendingFlag; + dst->alphaBlendingFlag = 0; + + 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); + dst->transparent = src->transparent; + + if (dst != NULL) { + int old_blendmode = dst->alphaBlendingFlag; + dst->alphaBlendingFlag = 0; + + 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); + dst->transparent = src->transparent; + + if (dst != NULL) { + int old_blendmode = dst->alphaBlendingFlag; + dst->alphaBlendingFlag = 0; + + 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; +} + +gdImagePtr gdImageRotate45 (gdImagePtr src, double dAngle, int clrBack, int ignoretransparent) +{ + typedef int (*FuncPtr)(gdImagePtr, int, int); + gdImagePtr dst1,dst2,dst3; + FuncPtr f; + double dRadAngle, dSinE, dTan, dShear; + double dOffset; /* Variable skew offset */ + int u, iShear, newx, newy; + int clrBackR, clrBackG, clrBackB, clrBackA; + + /* See GEMS I for the algorithm details */ + dRadAngle = dAngle * ROTATE_DEG2RAD; /* Angle in radians */ + dSinE = sin (dRadAngle); + dTan = tan (dRadAngle / 2.0); + + newx = (int)(src->sx + src->sy * fabs(dTan)); + newy = src->sy; + + /* 1st shear */ + if (src->trueColor) { + f = gdImageGetTrueColorPixel; + } else { + f = gdImageGetPixel; + } + + dst1 = gdImageCreateTrueColor(newx, newy); + /******* Perform 1st shear (horizontal) ******/ + if (dst1 == NULL) { + return NULL; + } +#ifdef HAVE_GD_BUNDLED + dst1->alphaBlendingFlag = gdEffectReplace; +#else + gdImageAlphaBlending(dst1, 0); +#endif + if (dAngle == 0.0) { + /* Returns copy of src */ + gdImageCopy (dst1, src,0,0,0,0,src->sx,src->sy); + return dst1; + } + + gdImagePaletteCopy (dst1, src); + + if (ignoretransparent) { + if (gdImageTrueColor(src)) { + dst1->transparent = src->transparent; + } else { + + dst1->transparent = gdTrueColorAlpha(gdImageRed(src, src->transparent), gdImageBlue(src, src->transparent), gdImageGreen(src, src->transparent), 127); + } + } + + dRadAngle = dAngle * ROTATE_DEG2RAD; /* Angle in radians */ + dSinE = sin (dRadAngle); + dTan = tan (dRadAngle / 2.0); + + for (u = 0; u < dst1->sy; u++) { + if (dTan >= 0.0) { + dShear = ((double)(u + 0.5)) * dTan; + } else { + dShear = ((double)(u - dst1->sy) + 0.5) * dTan; + } + + iShear = (int)floor(dShear); + gdImageSkewX(dst1, src, u, iShear, (dShear - iShear), clrBack, ignoretransparent); + } + + /* + The 1st shear may use the original clrBack as color index + Convert it once here + */ + if(!src->trueColor) { + clrBackR = gdImageRed(src, clrBack); + clrBackG = gdImageGreen(src, clrBack); + clrBackB = gdImageBlue(src, clrBack); + clrBackA = gdImageAlpha(src, clrBack); + clrBack = gdTrueColorAlpha(clrBackR, clrBackG, clrBackB, clrBackA); + } + /* 2nd shear */ + newx = dst1->sx; + + if (dSinE > 0.0) { + dOffset = (src->sx-1) * dSinE; + } else { + dOffset = -dSinE * (src->sx - newx); + } + + newy = (int) ((double) src->sx * fabs( dSinE ) + (double) src->sy * cos (dRadAngle))+1; + + if (src->trueColor) { + f = gdImageGetTrueColorPixel; + } else { + f = gdImageGetPixel; + } + dst2 = gdImageCreateTrueColor(newx, newy); + if (dst2 == NULL) { + gdImageDestroy(dst1); + return NULL; + } + +#ifdef HAVE_GD_BUNDLED + dst2->alphaBlendingFlag = gdEffectReplace; +#else + gdImageAlphaBlending(dst2, 0); +#endif + + if (ignoretransparent) { + dst2->transparent = dst1->transparent; + } + + for (u = 0; u < dst2->sx; u++, dOffset -= dSinE) { + iShear = (int)floor (dOffset); + gdImageSkewY(dst2, dst1, u, iShear, (dOffset - (double)iShear), clrBack, ignoretransparent); + } + + /* 3rd shear */ + gdImageDestroy(dst1); + + newx = (int) ((double)src->sy * fabs (dSinE) + (double)src->sx * cos (dRadAngle)) + 1; + newy = dst2->sy; + + if (src->trueColor) { + f = gdImageGetTrueColorPixel; + } else { + f = gdImageGetPixel; + } + dst3 = gdImageCreateTrueColor(newx, newy); + if (dst3 == NULL) { + gdImageDestroy(dst2); + return NULL; + } + +#ifdef HAVE_GD_BUNDLED + dst3->alphaBlendingFlag = gdEffectReplace; +#else + gdImageAlphaBlending(dst3, 0); +#endif + + if (ignoretransparent) { + dst3->transparent = dst2->transparent; + } + + if (dSinE >= 0.0) { + dOffset = (double)(src->sx - 1) * dSinE * -dTan; + } else { + dOffset = dTan * ((double)(src->sx - 1) * -dSinE + (double)(1 - newy)); + } + + for (u = 0; u < dst3->sy; u++, dOffset += dTan) { + int iShear = (int)floor(dOffset); + gdImageSkewX(dst3, dst2, u, iShear, (dOffset - iShear), clrBack, ignoretransparent); + } + + gdImageDestroy(dst2); + + return dst3; +} + +gdImagePtr gdImageRotate (gdImagePtr src, double dAngle, int clrBack, int ignoretransparent) +{ + gdImagePtr pMidImg; + gdImagePtr rotatedImg; + + if (src == NULL) { + return NULL; + } + + if (!gdImageTrueColor(src) && (clrBack < 0 || clrBack>=gdImageColorsTotal(src))) { + return NULL; + } + + while (dAngle >= 360.0) { + dAngle -= 360.0; + } + + while (dAngle < 0) { + dAngle += 360.0; + } + + if (dAngle == 90.00) { + return gdImageRotate90(src, ignoretransparent); + } + if (dAngle == 180.00) { + return gdImageRotate180(src, ignoretransparent); + } + if(dAngle == 270.00) { + return gdImageRotate270 (src, ignoretransparent); + } + + if ((dAngle > 45.0) && (dAngle <= 135.0)) { + pMidImg = gdImageRotate90 (src, ignoretransparent); + dAngle -= 90.0; + } else if ((dAngle > 135.0) && (dAngle <= 225.0)) { + pMidImg = gdImageRotate180 (src, ignoretransparent); + dAngle -= 180.0; + } else if ((dAngle > 225.0) && (dAngle <= 315.0)) { + pMidImg = gdImageRotate270 (src, ignoretransparent); + dAngle -= 270.0; + } else { + return gdImageRotate45 (src, dAngle, clrBack, ignoretransparent); + } + + if (pMidImg == NULL) { + return NULL; + } + + rotatedImg = gdImageRotate45 (pMidImg, dAngle, clrBack, ignoretransparent); + gdImageDestroy(pMidImg); + + return rotatedImg; +} +/* End Rotate function */ + + diff --git a/ext/gd/php_gd.h b/ext/gd/php_gd.h index 9091c16ef46..cc87bd5bab1 100644 --- a/ext/gd/php_gd.h +++ b/ext/gd/php_gd.h @@ -121,8 +121,9 @@ PHP_FUNCTION(imagegrabwindow); PHP_FUNCTION(imagegrabscreen); #endif -#ifdef HAVE_GD_BUNDLED PHP_FUNCTION(imagerotate); + +#ifdef HAVE_GD_BUNDLED PHP_FUNCTION(imageantialias); #endif