uniform mat4 u_projection; uniform mat4 u_modelview; uniform float u_alpha; #if defined(GSK_GLES) || defined(GSK_LEGACY) attribute vec2 aPosition; attribute vec2 aUv; _OUT_ vec2 vUv; #else _IN_ vec2 aPosition; _IN_ vec2 aUv; _OUT_ vec2 vUv; #endif // amount is: top, right, bottom, left GskRoundedRect gsk_rounded_rect_shrink (GskRoundedRect r, vec4 amount) { vec4 new_bounds = r.bounds + vec4(1.0,1.0,-1.0,-1.0) * amount.wxyz; vec4 new_corner_points1 = r.corner_points1; vec4 new_corner_points2 = r.corner_points2; if (r.corner_points1.xy == r.bounds.xy) new_corner_points1.xy = new_bounds.xy; if (r.corner_points1.zw == r.bounds.zy) new_corner_points1.zw = new_bounds.zy; if (r.corner_points2.xy == r.bounds.zw) new_corner_points2.xy = new_bounds.zw; if (r.corner_points2.zw == r.bounds.xw) new_corner_points2.zw = new_bounds.xw; return GskRoundedRect (new_bounds, new_corner_points1, new_corner_points2); } void gsk_rounded_rect_offset(inout GskRoundedRect r, vec2 offset) { r.bounds.xy += offset; r.bounds.zw += offset; r.corner_points1.xy += offset; r.corner_points1.zw += offset; r.corner_points2.xy += offset; r.corner_points2.zw += offset; } void gsk_rounded_rect_transform(inout GskRoundedRect r, mat4 mat) { r.bounds.xy = (mat * vec4(r.bounds.xy, 0.0, 1.0)).xy; r.bounds.zw = (mat * vec4(r.bounds.zw, 0.0, 1.0)).xy; r.corner_points1.xy = (mat * vec4(r.corner_points1.xy, 0.0, 1.0)).xy; r.corner_points1.zw = (mat * vec4(r.corner_points1.zw, 0.0, 1.0)).xy; r.corner_points2.xy = (mat * vec4(r.corner_points2.xy, 0.0, 1.0)).xy; r.corner_points2.zw = (mat * vec4(r.corner_points2.zw, 0.0, 1.0)).xy; } #if defined(GSK_LEGACY) // Can't have out or inout array parameters... #define gsk_rounded_rect_encode(r, uni) uni[0] = r.bounds; uni[1] = r.corner_points1; uni[2] = r.corner_points2; #else void gsk_rounded_rect_encode(GskRoundedRect r, out _GSK_ROUNDED_RECT_UNIFORM_ out_r) { #if defined(GSK_GLES) out_r[0] = r.bounds; out_r[1] = r.corner_points1; out_r[2] = r.corner_points2; #else out_r = r; #endif } #endif