new_g 233 ext/gd/libgd/gd_filter.c float new_r, new_g, new_b; new_g 259 ext/gd/libgd/gd_filter.c new_r = new_g = new_b = 0; new_g 267 ext/gd/libgd/gd_filter.c new_g += (float)gdImageGreen(srcback, pxl) * filter[j][i]; new_g 273 ext/gd/libgd/gd_filter.c new_g = (new_g/filter_div)+offset; new_g 277 ext/gd/libgd/gd_filter.c new_g = (new_g > 255.0f)? 255.0f : ((new_g < 0.0f)? 0.0f:new_g); new_g 280 ext/gd/libgd/gd_filter.c new_pxl = gdImageColorAllocateAlpha(src, (int)new_r, (int)new_g, (int)new_b, new_a); new_g 282 ext/gd/libgd/gd_filter.c new_pxl = gdImageColorClosestAlpha(src, (int)new_r, (int)new_g, (int)new_b, new_a); new_g 294 ext/gd/libgd/gd_filter.c float new_r, new_g, new_b; new_g 342 ext/gd/libgd/gd_filter.c new_g = ((float)gdImageGreen(srcback, cpxl)) - ((float)gdImageGreen(srcback, pxl)); new_g 344 ext/gd/libgd/gd_filter.c if (new_g < 0.0f) { new_g 345 ext/gd/libgd/gd_filter.c new_g = -new_g; new_g 347 ext/gd/libgd/gd_filter.c if (new_g != 0) { new_g 348 ext/gd/libgd/gd_filter.c flt_g[j][i] = 1.0f/new_g; new_g 385 ext/gd/libgd/gd_filter.c new_r = new_g = new_b = 0.0; new_g 391 ext/gd/libgd/gd_filter.c new_g += (float)gdImageGreen(srcback, pxl) * flt_g[j][i]; new_g 397 ext/gd/libgd/gd_filter.c new_g = (new_g > 255.0f)? 255.0f : ((new_g < 0.0f)? 0.0f:new_g); new_g 399 ext/gd/libgd/gd_filter.c new_pxl = gdImageColorAllocateAlpha(src, (int)new_r, (int)new_g, (int)new_b, new_a); new_g 401 ext/gd/libgd/gd_filter.c new_pxl = gdImageColorClosestAlpha(src, (int)new_r, (int)new_g, (int)new_b, new_a); new_g 814 ext/gd/libgd/gd_interpolation.c double new_r = 0.0f, new_g = 0.0f, new_b = 0.0f, new_a = 0.0f; new_g 854 ext/gd/libgd/gd_interpolation.c new_g += kernel * gdTrueColorGetGreen(rgbs); new_g 864 ext/gd/libgd/gd_interpolation.c new_g += kernel * gdTrueColorGetGreen(rgbs); new_g 872 ext/gd/libgd/gd_interpolation.c new_g = CLAMP(new_g, 0, 255); new_g 876 ext/gd/libgd/gd_interpolation.c return gdTrueColorAlpha(((int)new_r), ((int)new_g), ((int)new_b), ((int)new_a));