/* gradient.c - renders gradients * * Raster graphics library * * Copyright (c) 1997-2003 Alfredo K. Kojima * Copyright (c) 1998-2003 Dan Pascu * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the Free * Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, * MA 02110-1301, USA. */ #include #include #include #include #include #include "wraster.h" #include "wr_i18n.h" static RImage *renderHGradient(unsigned width, unsigned height, int r0, int g0, int b0, int rf, int gf, int bf); static RImage *renderVGradient(unsigned width, unsigned height, int r0, int g0, int b0, int rf, int gf, int bf); static RImage *renderDGradient(unsigned width, unsigned height, int r0, int g0, int b0, int rf, int gf, int bf); static RImage *renderMHGradient(unsigned width, unsigned height, RColor ** colors, int count); static RImage *renderMVGradient(unsigned width, unsigned height, RColor ** colors, int count); static RImage *renderMDGradient(unsigned width, unsigned height, RColor ** colors, int count); RImage *RRenderMultiGradient(unsigned width, unsigned height, RColor **colors, RGradientStyle style) { int count; count = 0; while (colors[count] != NULL) count++; if (count > 2) { switch (style) { case RHorizontalGradient: return renderMHGradient(width, height, colors, count); case RVerticalGradient: return renderMVGradient(width, height, colors, count); case RDiagonalGradient: return renderMDGradient(width, height, colors, count); } } else if (count > 1) { return RRenderGradient(width, height, colors[0], colors[1], style); } else if (count > 0) { return RRenderGradient(width, height, colors[0], colors[0], style); } assert(0); return NULL; } RImage *RRenderGradient(unsigned width, unsigned height, const RColor *from, const RColor *to, RGradientStyle style) { switch (style) { case RHorizontalGradient: return renderHGradient(width, height, from->red, from->green, from->blue, to->red, to->green, to->blue); case RVerticalGradient: return renderVGradient(width, height, from->red, from->green, from->blue, to->red, to->green, to->blue); case RDiagonalGradient: return renderDGradient(width, height, from->red, from->green, from->blue, to->red, to->green, to->blue); } assert(0); return NULL; } /* *---------------------------------------------------------------------- * renderHGradient-- * Renders a horizontal linear gradient of the specified size in the * RImage format with a border of the specified type. * * Returns: * A 24bit RImage with the gradient (no alpha channel). * * Side effects: * None *---------------------------------------------------------------------- */ static RImage *renderHGradient(unsigned width, unsigned height, int r0, int g0, int b0, int rf, int gf, int bf) { int i; long r, g, b, dr, dg, db; unsigned lineSize = width * 3; RImage *image; unsigned char *ptr; image = RCreateImage(width, height, False); if (!image) { return NULL; } ptr = image->data; r = r0 << 16; g = g0 << 16; b = b0 << 16; dr = ((rf - r0) << 16) / (int)width; dg = ((gf - g0) << 16) / (int)width; db = ((bf - b0) << 16) / (int)width; /* render the first line */ for (i = 0; i < width; i++) { *(ptr++) = (unsigned char)(r >> 16); *(ptr++) = (unsigned char)(g >> 16); *(ptr++) = (unsigned char)(b >> 16); r += dr; g += dg; b += db; } /* copy the first line to the other lines */ for (i = 1; i < height; i++) { memcpy(&(image->data[i * lineSize]), image->data, lineSize); } return image; } static inline unsigned char *renderGradientWidth(unsigned char *ptr, unsigned width, unsigned char r, unsigned char g, unsigned char b) { int i; for (i = width / 4; i--;) { *ptr++ = r; *ptr++ = g; *ptr++ = b; *ptr++ = r; *ptr++ = g; *ptr++ = b; *ptr++ = r; *ptr++ = g; *ptr++ = b; *ptr++ = r; *ptr++ = g; *ptr++ = b; } switch (width % 4) { case 3: *ptr++ = r; *ptr++ = g; *ptr++ = b; /* FALLTHRU */ case 2: *ptr++ = r; *ptr++ = g; *ptr++ = b; /* FALLTHRU */ case 1: *ptr++ = r; *ptr++ = g; *ptr++ = b; } return ptr; } /* *---------------------------------------------------------------------- * renderVGradient-- * Renders a vertical linear gradient of the specified size in the * RImage format with a border of the specified type. * * Returns: * A 24bit RImage with the gradient (no alpha channel). * * Side effects: * None *---------------------------------------------------------------------- */ static RImage *renderVGradient(unsigned width, unsigned height, int r0, int g0, int b0, int rf, int gf, int bf) { int i; long r, g, b, dr, dg, db; RImage *image; unsigned char *ptr; image = RCreateImage(width, height, False); if (!image) { return NULL; } ptr = image->data; r = r0 << 16; g = g0 << 16; b = b0 << 16; dr = ((rf - r0) << 16) / (int)height; dg = ((gf - g0) << 16) / (int)height; db = ((bf - b0) << 16) / (int)height; for (i = 0; i < height; i++) { ptr = renderGradientWidth(ptr, width, r >> 16, g >> 16, b >> 16); r += dr; g += dg; b += db; } return image; } /* *---------------------------------------------------------------------- * renderDGradient-- * Renders a diagonal linear gradient of the specified size in the * RImage format with a border of the specified type. * * Returns: * A 24bit RImage with the gradient (no alpha channel). * * Side effects: * None *---------------------------------------------------------------------- */ static RImage *renderDGradient(unsigned width, unsigned height, int r0, int g0, int b0, int rf, int gf, int bf) { RImage *image, *tmp; int j; float a, offset; unsigned char *ptr; if (width == 1) return renderVGradient(width, height, r0, g0, b0, rf, gf, bf); else if (height == 1) return renderHGradient(width, height, r0, g0, b0, rf, gf, bf); image = RCreateImage(width, height, False); if (!image) { return NULL; } tmp = renderHGradient(2 * width - 1, 1, r0, g0, b0, rf, gf, bf); if (!tmp) { RReleaseImage(image); return NULL; } ptr = tmp->data; a = ((float)(width - 1)) / ((float)(height - 1)); width = width * 3; /* copy the first line to the other lines with corresponding offset */ for (j = 0, offset = 0.0; j < width * height; j += width) { memcpy(&(image->data[j]), &ptr[3 * (int)offset], width); offset += a; } RReleaseImage(tmp); return image; } static RImage *renderMHGradient(unsigned width, unsigned height, RColor ** colors, int count) { int i, j, k; long r, g, b, dr, dg, db; unsigned lineSize = width * 3; RImage *image; unsigned char *ptr; unsigned width2; assert(count > 2); image = RCreateImage(width, height, False); if (!image) { return NULL; } ptr = image->data; if (count > width) count = width; if (count > 1) width2 = width / (count - 1); else width2 = width; k = 0; r = colors[0]->red << 16; g = colors[0]->green << 16; b = colors[0]->blue << 16; /* render the first line */ for (i = 1; i < count; i++) { dr = ((int)(colors[i]->red - colors[i - 1]->red) << 16) / (int)width2; dg = ((int)(colors[i]->green - colors[i - 1]->green) << 16) / (int)width2; db = ((int)(colors[i]->blue - colors[i - 1]->blue) << 16) / (int)width2; for (j = 0; j < width2; j++) { *ptr++ = (unsigned char)(r >> 16); *ptr++ = (unsigned char)(g >> 16); *ptr++ = (unsigned char)(b >> 16); r += dr; g += dg; b += db; k++; } r = colors[i]->red << 16; g = colors[i]->green << 16; b = colors[i]->blue << 16; } for (j = k; j < width; j++) { *ptr++ = (unsigned char)(r >> 16); *ptr++ = (unsigned char)(g >> 16); *ptr++ = (unsigned char)(b >> 16); } /* copy the first line to the other lines */ for (i = 1; i < height; i++) { memcpy(&(image->data[i * lineSize]), image->data, lineSize); } return image; } static RImage *renderMVGradient(unsigned width, unsigned height, RColor ** colors, int count) { int i, j, k; long r, g, b, dr, dg, db; unsigned lineSize = width * 3; RImage *image; unsigned char *ptr, *tmp; unsigned height2; assert(count > 2); image = RCreateImage(width, height, False); if (!image) { return NULL; } ptr = image->data; if (count > height) count = height; if (count > 1) height2 = height / (count - 1); else height2 = height; k = 0; r = colors[0]->red << 16; g = colors[0]->green << 16; b = colors[0]->blue << 16; for (i = 1; i < count; i++) { dr = ((int)(colors[i]->red - colors[i - 1]->red) << 16) / (int)height2; dg = ((int)(colors[i]->green - colors[i - 1]->green) << 16) / (int)height2; db = ((int)(colors[i]->blue - colors[i - 1]->blue) << 16) / (int)height2; for (j = 0; j < height2; j++) { ptr = renderGradientWidth(ptr, width, r >> 16, g >> 16, b >> 16); r += dr; g += dg; b += db; k++; } r = colors[i]->red << 16; g = colors[i]->green << 16; b = colors[i]->blue << 16; } if (k < height) { tmp = ptr; ptr = renderGradientWidth(ptr, width, r >> 16, g >> 16, b >> 16); for (j = k + 1; j < height; j++) { memcpy(ptr, tmp, lineSize); ptr += lineSize; } } return image; } static RImage *renderMDGradient(unsigned width, unsigned height, RColor ** colors, int count) { RImage *image, *tmp; float a, offset; int j; unsigned char *ptr; assert(count > 2); if (width == 1) return renderMVGradient(width, height, colors, count); else if (height == 1) return renderMHGradient(width, height, colors, count); image = RCreateImage(width, height, False); if (!image) { return NULL; } if (count > width) count = width; if (count > height) count = height; if (count > 2) tmp = renderMHGradient(2 * width - 1, 1, colors, count); else tmp = renderHGradient(2 * width - 1, 1, colors[0]->red << 8, colors[0]->green << 8, colors[0]->blue << 8, colors[1]->red << 8, colors[1]->green << 8, colors[1]->blue << 8); if (!tmp) { RReleaseImage(image); return NULL; } ptr = tmp->data; a = ((float)(width - 1)) / ((float)(height - 1)); width = width * 3; /* copy the first line to the other lines with corresponding offset */ for (j = 0, offset = 0; j < width * height; j += width) { memcpy(&(image->data[j]), &ptr[3 * (int)offset], width); offset += a; } RReleaseImage(tmp); return image; } RImage *RRenderInterwovenGradient(unsigned width, unsigned height, RColor colors1[2], int thickness1, RColor colors2[2], int thickness2) { int i, k, l, ll; long r1, g1, b1, dr1, dg1, db1; long r2, g2, b2, dr2, dg2, db2; RImage *image; unsigned char *ptr; image = RCreateImage(width, height, False); if (!image) { return NULL; } ptr = image->data; r1 = colors1[0].red << 16; g1 = colors1[0].green << 16; b1 = colors1[0].blue << 16; r2 = colors2[0].red << 16; g2 = colors2[0].green << 16; b2 = colors2[0].blue << 16; dr1 = ((colors1[1].red - colors1[0].red) << 16) / (int)height; dg1 = ((colors1[1].green - colors1[0].green) << 16) / (int)height; db1 = ((colors1[1].blue - colors1[0].blue) << 16) / (int)height; dr2 = ((colors2[1].red - colors2[0].red) << 16) / (int)height; dg2 = ((colors2[1].green - colors2[0].green) << 16) / (int)height; db2 = ((colors2[1].blue - colors2[0].blue) << 16) / (int)height; for (i = 0, k = 0, l = 0, ll = thickness1; i < height; i++) { if (k == 0) ptr = renderGradientWidth(ptr, width, r1 >> 16, g1 >> 16, b1 >> 16); else ptr = renderGradientWidth(ptr, width, r2 >> 16, g2 >> 16, b2 >> 16); if (++l == ll) { if (k == 0) { k = 1; ll = thickness2; } else { k = 0; ll = thickness1; } l = 0; } r1 += dr1; g1 += dg1; b1 += db1; r2 += dr2; g2 += dg2; b2 += db2; } return image; }