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/* 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/. */
flat varying highp vec4 vTransformBounds;
#ifdef WR_VERTEX_SHADER
#define VECS_PER_TRANSFORM 8U
uniform HIGHP_SAMPLER_FLOAT sampler2D sTransformPalette;
void rectangle_aa_vertex(vec4 local_bounds) {
vTransformBounds = local_bounds;
}
struct Transform {
mat4 m;
mat4 inv_m;
bool is_axis_aligned;
};
Transform fetch_transform(int id) {
Transform transform;
transform.is_axis_aligned = (id >> 23) == 0;
int index = id & 0x007fffff;
// Create a UV base coord for each 8 texels.
// This is required because trying to use an offset
// of more than 8 texels doesn't work on some versions
// of macOS.
ivec2 uv = get_fetch_uv(index, VECS_PER_TRANSFORM);
ivec2 uv0 = ivec2(uv.x + 0, uv.y);
transform.m[0] = TEXEL_FETCH(sTransformPalette, uv0, 0, ivec2(0, 0));
transform.m[1] = TEXEL_FETCH(sTransformPalette, uv0, 0, ivec2(1, 0));
transform.m[2] = TEXEL_FETCH(sTransformPalette, uv0, 0, ivec2(2, 0));
transform.m[3] = TEXEL_FETCH(sTransformPalette, uv0, 0, ivec2(3, 0));
transform.inv_m[0] = TEXEL_FETCH(sTransformPalette, uv0, 0, ivec2(4, 0));
transform.inv_m[1] = TEXEL_FETCH(sTransformPalette, uv0, 0, ivec2(5, 0));
transform.inv_m[2] = TEXEL_FETCH(sTransformPalette, uv0, 0, ivec2(6, 0));
transform.inv_m[3] = TEXEL_FETCH(sTransformPalette, uv0, 0, ivec2(7, 0));
return transform;
}
// Return the intersection of the plane (set up by "normal" and "point")
// with the ray (set up by "ray_origin" and "ray_dir"),
// writing the resulting scaler into "t".
bool ray_plane(vec3 normal, vec3 pt, vec3 ray_origin, vec3 ray_dir, out float t)
{
float denom = dot(normal, ray_dir);
if (abs(denom) > 1e-6) {
vec3 d = pt - ray_origin;
t = dot(d, normal) / denom;
return t >= 0.0;
}
return false;
}
// Apply the inverse transform "inv_transform"
// to the reference point "ref" in CSS space,
// producing a local point on a Transform plane,
// set by a base point "a" and a normal "n".
vec4 untransform(vec2 ref, vec3 n, vec3 a, mat4 inv_transform) {
vec3 p = vec3(ref, -10000.0);
vec3 d = vec3(0, 0, 1.0);
float t = 0.0;
// get an intersection of the Transform plane with Z axis vector,
// originated from the "ref" point
ray_plane(n, a, p, d, t);
float z = p.z + d.z * t; // Z of the visible point on the Transform
vec4 r = inv_transform * vec4(ref, z, 1.0);
return r;
}
// Given a CSS space position, transform it back into the Transform space.
vec4 get_node_pos(vec2 pos, Transform transform) {
// get a point on the scroll node plane
vec4 ah = transform.m * vec4(0.0, 0.0, 0.0, 1.0);
vec3 a = ah.xyz / ah.w;
// get the normal to the scroll node plane
vec3 n = transpose(mat3(transform.inv_m)) * vec3(0.0, 0.0, 1.0);
return untransform(pos, n, a, transform.inv_m);
}
#endif //WR_VERTEX_SHADER
#ifdef WR_FRAGMENT_SHADER
// Assume transform bounds are set to a large scale to signal they are invalid.
bool has_valid_transform_bounds() {
return vTransformBounds.w < 1.0e15;
}
float rectangle_aa_fragment(vec2 local_pos) {
// Ideally we want to track distances in screen space after transformation
// as signed distance calculations lose context about the direction vector
// to exit the geometry, merely remembering the minimum distance to the
// exit. However, we can't always sanely track distances in screen space
// due to perspective transforms, clipping, and other concerns, so we do
// this in local space. However, this causes problems tracking distances
// in local space when attempting to scale by a uniform AA range later in
// the presence of a transform which actually has non-uniform scaling.
//
// To work around this, we independently track the distances on the local
// space X and Y axes and then scale them by the independent AA ranges (as
// computed from fwidth derivatives) for the X and Y axes. This can break
// down at certain angles (45 degrees or close to it), but still gives a
// better approximation of screen-space distances in the presence of non-
// uniform scaling for other rotations.
//
// Get signed distance from local rect bounds.
vec2 d = signed_distance_rect_xy(
local_pos,
vTransformBounds.xy,
vTransformBounds.zw
);
// Find the appropriate distance to apply the AA smoothstep over.
vec2 aa_range = compute_aa_range_xy(local_pos);
// Only apply AA to fragments outside the signed distance field.
return distance_aa_xy(aa_range, d);
}
float rectangle_aa_rough_fragment(vec2 local_pos) {
return point_inside_rect(
local_pos,
vTransformBounds.xy,
vTransformBounds.zw
);
}
#endif //WR_FRAGMENT_SHADER