/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include shared,rect,ellipse // For edges, the colors are the same. For corners, these // are the colors of each edge making up the corner. flat varying mediump vec4 vColor00; flat varying mediump vec4 vColor01; flat varying mediump vec4 vColor10; flat varying mediump vec4 vColor11; // A point + tangent defining the line where the edge // transition occurs. Used for corners only. flat varying mediump vec4 vColorLine; // x: segment, y: clip mode // We cast these to/from floats rather than using an ivec due to a driver bug // on Adreno 3xx. See bug 1730458. flat varying mediump vec2 vSegmentClipMode; // x, y: styles, z, w: edge axes // We cast these to/from floats rather than using an ivec (and bitshifting) // due to a driver bug on Adreno 3xx. See bug 1730458. flat varying mediump vec4 vStyleEdgeAxis; // xy = Local space position of the clip center. // zw = Scale the rect origin by this to get the outer // corner from the segment rectangle. flat varying highp vec4 vClipCenter_Sign; // An outer and inner elliptical radii for border // corner clipping. flat varying mediump vec4 vClipRadii; // Reference point for determine edge clip lines. flat varying mediump vec4 vEdgeReference; // Stores widths/2 and widths/3 to save doing this in FS. flat varying mediump vec4 vPartialWidths; // Clipping parameters for dot or dash. flat varying mediump vec4 vClipParams1; flat varying mediump vec4 vClipParams2; // Local space position varying highp vec2 vPos; #define SEGMENT_TOP_LEFT 0 #define SEGMENT_TOP_RIGHT 1 #define SEGMENT_BOTTOM_RIGHT 2 #define SEGMENT_BOTTOM_LEFT 3 #define SEGMENT_LEFT 4 #define SEGMENT_TOP 5 #define SEGMENT_RIGHT 6 #define SEGMENT_BOTTOM 7 // Border styles as defined in webrender_api/types.rs #define BORDER_STYLE_NONE 0 #define BORDER_STYLE_SOLID 1 #define BORDER_STYLE_DOUBLE 2 #define BORDER_STYLE_DOTTED 3 #define BORDER_STYLE_DASHED 4 #define BORDER_STYLE_HIDDEN 5 #define BORDER_STYLE_GROOVE 6 #define BORDER_STYLE_RIDGE 7 #define BORDER_STYLE_INSET 8 #define BORDER_STYLE_OUTSET 9 #define CLIP_NONE 0 #define CLIP_DASH_CORNER 1 #define CLIP_DASH_EDGE 2 #define CLIP_DOT 3 #ifdef WR_VERTEX_SHADER PER_INSTANCE in vec2 aTaskOrigin; PER_INSTANCE in vec4 aRect; PER_INSTANCE in vec4 aColor0; PER_INSTANCE in vec4 aColor1; PER_INSTANCE in int aFlags; PER_INSTANCE in vec2 aWidths; PER_INSTANCE in vec2 aRadii; PER_INSTANCE in vec4 aClipParams1; PER_INSTANCE in vec4 aClipParams2; vec2 get_outer_corner_scale(int segment) { vec2 p; switch (segment) { case SEGMENT_TOP_LEFT: p = vec2(0.0, 0.0); break; case SEGMENT_TOP_RIGHT: p = vec2(1.0, 0.0); break; case SEGMENT_BOTTOM_RIGHT: p = vec2(1.0, 1.0); break; case SEGMENT_BOTTOM_LEFT: p = vec2(0.0, 1.0); break; default: // The result is only used for non-default segment cases p = vec2(0.0); break; } return p; } // NOTE(emilio): If you change this algorithm, do the same change // in border.rs vec4 mod_color(vec4 color, bool is_black, bool lighter) { const float light_black = 0.7; const float dark_black = 0.3; const float dark_scale = 0.66666666; const float light_scale = 1.0; if (is_black) { if (lighter) { return vec4(vec3(light_black), color.a); } return vec4(vec3(dark_black), color.a); } if (lighter) { return vec4(color.rgb * light_scale, color.a); } return vec4(color.rgb * dark_scale, color.a); } vec4[2] get_colors_for_side(vec4 color, int style) { vec4 result[2]; bool is_black = color.rgb == vec3(0.0, 0.0, 0.0); switch (style) { case BORDER_STYLE_GROOVE: result[0] = mod_color(color, is_black, true); result[1] = mod_color(color, is_black, false); break; case BORDER_STYLE_RIDGE: result[0] = mod_color(color, is_black, false); result[1] = mod_color(color, is_black, true); break; default: result[0] = color; result[1] = color; break; } return result; } void main(void) { int segment = aFlags & 0xff; int style0 = (aFlags >> 8) & 0xff; int style1 = (aFlags >> 16) & 0xff; int clip_mode = (aFlags >> 24) & 0x0f; vec2 size = aRect.zw - aRect.xy; vec2 outer_scale = get_outer_corner_scale(segment); vec2 outer = outer_scale * size; vec2 clip_sign = 1.0 - 2.0 * outer_scale; // Set some flags used by the FS to determine the // orientation of the two edges in this corner. ivec2 edge_axis = ivec2(0, 0); // Derive the positions for the edge clips, which must be handled // differently between corners and edges. vec2 edge_reference = vec2(0.0); switch (segment) { case SEGMENT_TOP_LEFT: edge_axis = ivec2(0, 1); edge_reference = outer; break; case SEGMENT_TOP_RIGHT: edge_axis = ivec2(1, 0); edge_reference = vec2(outer.x - aWidths.x, outer.y); break; case SEGMENT_BOTTOM_RIGHT: edge_axis = ivec2(0, 1); edge_reference = outer - aWidths; break; case SEGMENT_BOTTOM_LEFT: edge_axis = ivec2(1, 0); edge_reference = vec2(outer.x, outer.y - aWidths.y); break; case SEGMENT_TOP: case SEGMENT_BOTTOM: edge_axis = ivec2(1, 1); break; case SEGMENT_LEFT: case SEGMENT_RIGHT: default: break; } vSegmentClipMode = vec2(float(segment), float(clip_mode)); vStyleEdgeAxis = vec4(float(style0), float(style1), float(edge_axis.x), float(edge_axis.y)); vPartialWidths = vec4(aWidths / 3.0, aWidths / 2.0); vPos = size * aPosition.xy; vec4[2] color0 = get_colors_for_side(aColor0, style0); vColor00 = color0[0]; vColor01 = color0[1]; vec4[2] color1 = get_colors_for_side(aColor1, style1); vColor10 = color1[0]; vColor11 = color1[1]; vClipCenter_Sign = vec4(outer + clip_sign * aRadii, clip_sign); vClipRadii = vec4(aRadii, max(aRadii - aWidths, 0.0)); vColorLine = vec4(outer, aWidths.y * -clip_sign.y, aWidths.x * clip_sign.x); vEdgeReference = vec4(edge_reference, edge_reference + aWidths); vClipParams1 = aClipParams1; vClipParams2 = aClipParams2; // For the case of dot and dash clips, optimize the number of pixels that // are hit to just include the dot itself. if (clip_mode == CLIP_DOT) { float radius = aClipParams1.z; // Expand by a small amount to allow room for AA around // the dot if it's big enough. if (radius > 0.5) radius += 2.0; vPos = vClipParams1.xy + radius * (2.0 * aPosition.xy - 1.0); vPos = clamp(vPos, vec2(0.0), size); } else if (clip_mode == CLIP_DASH_CORNER) { vec2 center = (aClipParams1.xy + aClipParams2.xy) * 0.5; // This is a gross approximation which works out because dashes don't have // a strong curvature and we will overshoot by inflating the geometry by // this amount on each side (sqrt(2) * length(dash) would be enough and we // compute 2 * approx_length(dash)). float dash_length = length(aClipParams1.xy - aClipParams2.xy); float width = max(aWidths.x, aWidths.y); // expand by a small amout for AA just like we do for dots. vec2 r = vec2(max(dash_length, width)) + 2.0; vPos = clamp(vPos, center - r, center + r); } gl_Position = uTransform * vec4(aTaskOrigin + aRect.xy + vPos, 0.0, 1.0); } #endif #ifdef WR_FRAGMENT_SHADER vec4 evaluate_color_for_style_in_corner( vec2 clip_relative_pos, int style, vec4 color0, vec4 color1, vec4 clip_radii, float mix_factor, int segment, float aa_range ) { switch (style) { case BORDER_STYLE_DOUBLE: { // Get the distances from 0.33 of the radii, and // also 0.67 of the radii. Use these to form a // SDF subtraction which will clip out the inside // third of the rounded edge. float d_radii_a = distance_to_ellipse( clip_relative_pos, clip_radii.xy - vPartialWidths.xy ); float d_radii_b = distance_to_ellipse( clip_relative_pos, clip_radii.xy - 2.0 * vPartialWidths.xy ); float d = min(-d_radii_a, d_radii_b); color0 *= distance_aa(aa_range, d); break; } case BORDER_STYLE_GROOVE: case BORDER_STYLE_RIDGE: { float d = distance_to_ellipse( clip_relative_pos, clip_radii.xy - vPartialWidths.zw ); float alpha = distance_aa(aa_range, d); float swizzled_factor; switch (segment) { case SEGMENT_TOP_LEFT: swizzled_factor = 0.0; break; case SEGMENT_TOP_RIGHT: swizzled_factor = mix_factor; break; case SEGMENT_BOTTOM_RIGHT: swizzled_factor = 1.0; break; case SEGMENT_BOTTOM_LEFT: swizzled_factor = 1.0 - mix_factor; break; default: swizzled_factor = 0.0; break; }; vec4 c0 = mix(color1, color0, swizzled_factor); vec4 c1 = mix(color0, color1, swizzled_factor); color0 = mix(c0, c1, alpha); break; } default: break; } return color0; } vec4 evaluate_color_for_style_in_edge( vec2 pos_vec, int style, vec4 color0, vec4 color1, float aa_range, int edge_axis_id ) { vec2 edge_axis = edge_axis_id != 0 ? vec2(0.0, 1.0) : vec2(1.0, 0.0); float pos = dot(pos_vec, edge_axis); switch (style) { case BORDER_STYLE_DOUBLE: { float d = -1.0; float partial_width = dot(vPartialWidths.xy, edge_axis); if (partial_width >= 1.0) { vec2 ref = vec2( dot(vEdgeReference.xy, edge_axis) + partial_width, dot(vEdgeReference.zw, edge_axis) - partial_width ); d = min(pos - ref.x, ref.y - pos); } color0 *= distance_aa(aa_range, d); break; } case BORDER_STYLE_GROOVE: case BORDER_STYLE_RIDGE: { float ref = dot(vEdgeReference.xy + vPartialWidths.zw, edge_axis); float d = pos - ref; float alpha = distance_aa(aa_range, d); color0 = mix(color0, color1, alpha); break; } default: break; } return color0; } void main(void) { float aa_range = compute_aa_range(vPos); vec4 color0, color1; int segment = int(vSegmentClipMode.x); int clip_mode = int(vSegmentClipMode.y); ivec2 style = ivec2(int(vStyleEdgeAxis.x), int(vStyleEdgeAxis.y)); ivec2 edge_axis = ivec2(int(vStyleEdgeAxis.z), int(vStyleEdgeAxis.w)); float mix_factor = 0.0; if (edge_axis.x != edge_axis.y) { float d_line = distance_to_line(vColorLine.xy, vColorLine.zw, vPos); mix_factor = distance_aa(aa_range, -d_line); } // Check if inside corner clip-region vec2 clip_relative_pos = vPos - vClipCenter_Sign.xy; bool in_clip_region = all(lessThan(vClipCenter_Sign.zw * clip_relative_pos, vec2(0.0))); float d = -1.0; switch (clip_mode) { case CLIP_DOT: { // Set clip distance based or dot position and radius. d = distance(vClipParams1.xy, vPos) - vClipParams1.z; break; } case CLIP_DASH_EDGE: { bool is_vertical = vClipParams1.x == 0.; float half_dash = is_vertical ? vClipParams1.y : vClipParams1.x; // We want to draw something like: // +---+---+---+---+ // |xxx| | |xxx| // +---+---+---+---+ float pos = is_vertical ? vPos.y : vPos.x; bool in_dash = pos < half_dash || pos > 3.0 * half_dash; if (!in_dash) { d = 1.; } break; } case CLIP_DASH_CORNER: { // Get SDF for the two line/tangent clip lines, // do SDF subtract to get clip distance. float d0 = distance_to_line(vClipParams1.xy, vClipParams1.zw, vPos); float d1 = distance_to_line(vClipParams2.xy, vClipParams2.zw, vPos); d = max(d0, -d1); break; } case CLIP_NONE: default: break; } if (in_clip_region) { float d_radii_a = distance_to_ellipse(clip_relative_pos, vClipRadii.xy); float d_radii_b = distance_to_ellipse(clip_relative_pos, vClipRadii.zw); float d_radii = max(d_radii_a, -d_radii_b); d = max(d, d_radii); color0 = evaluate_color_for_style_in_corner( clip_relative_pos, style.x, vColor00, vColor01, vClipRadii, mix_factor, segment, aa_range ); color1 = evaluate_color_for_style_in_corner( clip_relative_pos, style.y, vColor10, vColor11, vClipRadii, mix_factor, segment, aa_range ); } else { color0 = evaluate_color_for_style_in_edge( vPos, style.x, vColor00, vColor01, aa_range, edge_axis.x ); color1 = evaluate_color_for_style_in_edge( vPos, style.y, vColor10, vColor11, aa_range, edge_axis.y ); } float alpha = distance_aa(aa_range, d); vec4 color = mix(color0, color1, mix_factor); oFragColor = color * alpha; } #endif