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add cleanEdge shader with edge-smoothing and rotation presets (#479)

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* add cleanEdge shader with edge-smoothing and rotation presets

* move cleanEdge to an include to customize available parameters in scale vs rotate versions
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hunterk 2023-09-10 10:03:07 -05:00 committed by GitHub
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edge-smoothing/cleanEdge/cleanEdge-scale.slangp Normal file
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shaders = 1
shader0 = shaders/cleanEdge-scale.slang
filter_linear0 = false
#scale_type0 = source
scale_type0 = viewport
scale0 = 1.0

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edge-smoothing/cleanEdge/shaders/cleanEdge-scale.slang Normal file
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#version 450
layout(push_constant) uniform Push
{
vec4 SourceSize;
vec4 OriginalSize;
vec4 OutputSize;
uint FrameCount;
float simthresh, linewidth, ce_mode;
} params;
#pragma parameter linewidth "Line Width" 1.0 0.01 2.0 0.1
float lineWidth = params.linewidth;
// Disable most of these settings, since they're not needed for scale mode
// +/-3.14 = 180 degrees; +/-6.28 = 360 degrees
//#pragma parameter ce_rotation "Rotation" 0.0 -6.28 6.28 0.01
const float ROTATION = 0.0;
//#pragma parameter ce_zoom "Zoom" 1.0 0.0 2.0 0.01
const float ZOOM = 1.0;
//#pragma parameter ce_x_off "X Offset" 0.0 -1.0 1.0 0.002
const float X_OFF = 0.0;
//#pragma parameter ce_y_off "Y Offset" 0.0 -1.0 1.0 0.002
const float Y_OFF = 0.0;
//how close two colors should be to be considered "similar".
// can group shapes of visually similar colors, but creates
// some artifacting and should be kept as low as possible.
#pragma parameter simthresh "Similarity Threshold" 0.0 0.0 1.0 0.01
float similarThreshold = params.simthresh;
#pragma parameter ce_mode "cleanEdge Effect Toggle (debug)" 1.0 0.0 1.0 1.0
bool mode = bool(params.ce_mode);
#include "../../../include/cleanEdge.inc"

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include/cleanEdge.inc Normal file
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// cleanEdge pixel art scaling and rotation algo
// ported to slang by hunterk
// based on https://gist.githubusercontent.com/torcado194/e2794f5a4b22049ac0a41f972d14c329/raw/3221e8d66e885d6221db2bd4d4d4fd7546254cd6/cleanEdge-shadertoy.glsl
/*** MIT LICENSE
Copyright (c) 2022 torcado
Permission is hereby granted, free of charge, to any person
obtaining a copy of this software and associated documentation
files (the "Software"), to deal in the Software without
restriction, including without limitation the rights to use,
copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the
Software is furnished to do so, subject to the following
conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
OTHER DEALINGS IN THE SOFTWARE.
***/
#define iChannel0 Source
#define fragColor FragColor
//rotation code taken from https://programmerall.com/article/63012289893/
vec2 rotate(vec2 uv, float th) {
return mat2(cos(th), sin(th), -sin(th), cos(th)) * uv;
}
layout(std140, set = 0, binding = 0) uniform UBO
{
mat4 MVP;
} global;
#pragma stage vertex
layout(location = 0) in vec4 Position;
layout(location = 1) in vec2 TexCoord;
layout(location = 0) out vec2 size;
layout(location = 1) out vec2 v_px;
layout(location = 2) out vec2 vTexCoord;
void main()
{
gl_Position = global.MVP * Position;
vTexCoord = TexCoord.xy;
// avoid rounding errors
size = params.SourceSize.xy+0.0001;
v_px = (TexCoord.xy-0.5)*size;
v_px *= ZOOM;
v_px += vec2(X_OFF, Y_OFF) * size;
v_px = rotate(v_px.xy, ROTATION) + 0.5*size;
}
#pragma stage fragment
layout(location = 0) in vec2 size;
layout(location = 1) in vec2 v_px;
layout(location = 2) in vec2 vTexCoord;
layout(location = 0) out vec4 FragColor;
layout(set = 0, binding = 2) uniform sampler2D Source;
//enables 2:1 slopes. otherwise only uses 45 degree slopes
#define SLOPE
//cleans up small detail slope transitions (if SLOPE is enabled)
//if only using for rotation, CLEANUP has negligable effect and should be disabled for speed
#define CLEANUP
//the color with the highest priority.
// other colors will be tested based on distance to this
// color to determine which colors take priority for overlaps.
/* uniform */ vec3 highestColor = vec3(1.,1.,1.);
const float scale = 4.0;
const mat3 yuv_matrix = mat3(vec3(0.299, 0.587, 0.114), vec3(-0.169, -0.331, 0.5), vec3(0.5, -0.419, -0.081));
vec3 yuv(vec3 col){
mat3 yuv = transpose(yuv_matrix);
return yuv * col;
}
bool similar(vec4 col1, vec4 col2){
return (col1.a == 0. && col2.a == 0.) || distance(col1, col2) <= similarThreshold;
}
//multiple versions because godot doesn't support function overloading
//note: inner check should ideally check between all permutations
// but this is good enough, and faster
bool similar3(vec4 col1, vec4 col2, vec4 col3){
return similar(col1, col2) && similar(col2, col3);
}
bool similar4(vec4 col1, vec4 col2, vec4 col3, vec4 col4){
return similar(col1, col2) && similar(col2, col3) && similar(col3, col4);
}
bool similar5(vec4 col1, vec4 col2, vec4 col3, vec4 col4, vec4 col5){
return similar(col1, col2) && similar(col2, col3) && similar(col3, col4) && similar(col4, col5);
}
bool higher(vec4 thisCol, vec4 otherCol){
if(similar(thisCol, otherCol)) return false;
if(thisCol.a == otherCol.a){
// return yuv(thisCol.rgb).x > yuv(otherCol.rgb).x;
// return distance(yuv(thisCol.rgb), yuv(highestColor)) < distance(yuv(otherCol.rgb), yuv(highestColor));
return distance(thisCol.rgb, highestColor) < distance(otherCol.rgb, highestColor);
} else {
return thisCol.a > otherCol.a;
}
}
vec4 higherCol(vec4 thisCol, vec4 otherCol){
return higher(thisCol, otherCol) ? thisCol : otherCol;
}
//color distance
float cd(vec4 col1, vec4 col2){
return distance(col1.rgba, col2.rgba);
}
float distToLine(vec2 testPt, vec2 pt1, vec2 pt2, vec2 dir){
vec2 lineDir = pt2 - pt1;
vec2 perpDir = vec2(lineDir.y, -lineDir.x);
vec2 dirToPt1 = pt1 - testPt;
return (dot(perpDir, dir) > 0.0 ? 1.0 : -1.0) * (dot(normalize(perpDir), dirToPt1));
}
//based on down-forward direction
vec4 sliceDist(vec2 point, vec2 mainDir, vec2 pointDir, vec4 u, vec4 uf, vec4 uff, vec4 b, vec4 c, vec4 f, vec4 ff, vec4 db, vec4 d, vec4 df, vec4 dff, vec4 ddb, vec4 dd, vec4 ddf){
#ifdef SLOPE
float minWidth = 0.44;
float maxWidth = 1.142;
#else
float minWidth = 0.0;
float maxWidth = 1.4;
#endif
float _lineWidth = max(minWidth, min(maxWidth, lineWidth));
point = mainDir * (point - 0.5) + 0.5; //flip point
//edge detection
float distAgainst = 4.0*cd(f,d) + cd(uf,c) + cd(c,db) + cd(ff,df) + cd(df,dd);
float distTowards = 4.0*cd(c,df) + cd(u,f) + cd(f,dff) + cd(b,d) + cd(d,ddf);
bool shouldSlice =
(distAgainst < distTowards)
|| (distAgainst < distTowards + 0.001) && !higher(c, f); //equivalent edges edge case
if(similar4(f, d, b, u) && similar3(uf, df, db/*, ub*/) && !similar(c, f)){ //checkerboard edge case
shouldSlice = false;
}
if(!shouldSlice) return vec4(-1.0);
//only applicable for very large lineWidth (>1.3)
// if(similar3(c, f, df)){ //don't make slice for same color
// return vec4(-1.0);
// }
float dist = 1.0;
bool flip = false;
vec2 center = vec2(0.5,0.5);
#ifdef SLOPE
if(similar3(f, d, db) && !similar3(f, d, b) && !similar(uf, db)){ //lower shallow 2:1 slant
if(similar(c, df) && higher(c, f)){ //single pixel wide diagonal, dont flip
} else {
//priority edge cases
if(higher(c, f)){
flip = true;
}
if(similar(u, f) && !similar(c, df) && !higher(c, u)){
flip = true;
}
}
if(flip){
dist = _lineWidth-distToLine(point, center+vec2(1.5, -1.0)*pointDir, center+vec2(-0.5, 0.0)*pointDir, -pointDir); //midpoints of neighbor two-pixel groupings
} else {
dist = distToLine(point, center+vec2(1.5, 0.0)*pointDir, center+vec2(-0.5, 1.0)*pointDir, pointDir); //midpoints of neighbor two-pixel groupings
}
//cleanup slant transitions
#ifdef CLEANUP
if(!flip && similar(c, uf) && !(similar3(c, uf, uff) && !similar3(c, uf, ff) && !similar(d, uff))){ //shallow
float dist2 = distToLine(point, center+vec2(2.0, -1.0)*pointDir, center+vec2(-0.0, 1.0)*pointDir, pointDir);
dist = min(dist, dist2);
}
#endif
dist -= (_lineWidth/2.0);
return dist <= 0.0 ? ((cd(c,f) <= cd(c,d)) ? f : d) : vec4(-1.0);
} else if(similar3(uf, f, d) && !similar3(u, f, d) && !similar(uf, db)){ //forward steep 2:1 slant
if(similar(c, df) && higher(c, d)){ //single pixel wide diagonal, dont flip
} else {
//priority edge cases
if(higher(c, d)){
flip = true;
}
if(similar(b, d) && !similar(c, df) && !higher(c, d)){
flip = true;
}
}
if(flip){
dist = _lineWidth-distToLine(point, center+vec2(0.0, -0.5)*pointDir, center+vec2(-1.0, 1.5)*pointDir, -pointDir); //midpoints of neighbor two-pixel groupings
} else {
dist = distToLine(point, center+vec2(1.0, -0.5)*pointDir, center+vec2(0.0, 1.5)*pointDir, pointDir); //midpoints of neighbor two-pixel groupings
}
//cleanup slant transitions
#ifdef CLEANUP
if(!flip && similar(c, db) && !(similar3(c, db, ddb) && !similar3(c, db, dd) && !similar(f, ddb))){ //steep
float dist2 = distToLine(point, center+vec2(1.0, 0.0)*pointDir, center+vec2(-1.0, 2.0)*pointDir, pointDir);
dist = min(dist, dist2);
}
#endif
dist -= (_lineWidth/2.0);
return dist <= 0.0 ? ((cd(c,f) <= cd(c,d)) ? f : d) : vec4(-1.0);
} else
#endif
if(similar(f, d)) { //45 diagonal
if(similar(c, df) && higher(c, f)){ //single pixel diagonal along neighbors, dont flip
if(!similar(c, dd) && !similar(c, ff)){ //line against triple color stripe edge case
flip = true;
}
} else {
//priority edge cases
if(higher(c, f)){
flip = true;
}
if(!similar(c, b) && similar4(b, f, d, u)){
flip = true;
}
}
//single pixel 2:1 slope, dont flip
if((( (similar(f, db) && similar3(u, f, df)) || (similar(uf, d) && similar3(b, d, df)) ) && !similar(c, df))){
flip = true;
}
if(flip){
dist = _lineWidth-distToLine(point, center+vec2(1.0, -1.0)*pointDir, center+vec2(-1.0, 1.0)*pointDir, -pointDir); //midpoints of own diagonal pixels
} else {
dist = distToLine(point, center+vec2(1.0, 0.0)*pointDir, center+vec2(0.0, 1.0)*pointDir, pointDir); //midpoints of corner neighbor pixels
}
//cleanup slant transitions
#ifdef SLOPE
#ifdef CLEANUP
if(!flip && similar3(c, uf, uff) && !similar3(c, uf, ff) && !similar(d, uff)){ //shallow
float dist2 = distToLine(point, center+vec2(1.5, 0.0)*pointDir, center+vec2(-0.5, 1.0)*pointDir, pointDir);
dist = max(dist, dist2);
}
if(!flip && similar3(ddb, db, c) && !similar3(dd, db, c) && !similar(ddb, f)){ //steep
float dist2 = distToLine(point, center+vec2(1.0, -0.5)*pointDir, center+vec2(0.0, 1.5)*pointDir, pointDir);
dist = max(dist, dist2);
}
#endif
#endif
dist -= (_lineWidth/2.0);
return dist <= 0.0 ? ((cd(c,f) <= cd(c,d)) ? f : d) : vec4(-1.0);
}
#ifdef SLOPE
else if(similar3(ff, df, d) && !similar3(ff, df, c) && !similar(uff, d)){ //far corner of shallow slant
if(similar(f, dff) && higher(f, ff)){ //single pixel wide diagonal, dont flip
} else {
//priority edge cases
if(higher(f, ff)){
flip = true;
}
if(similar(uf, ff) && !similar(f, dff) && !higher(f, uf)){
flip = true;
}
}
if(flip){
dist = _lineWidth-distToLine(point, center+vec2(1.5+1.0, -1.0)*pointDir, center+vec2(-0.5+1.0, 0.0)*pointDir, -pointDir); //midpoints of neighbor two-pixel groupings
} else {
dist = distToLine(point, center+vec2(1.5+1.0, 0.0)*pointDir, center+vec2(-0.5+1.0, 1.0)*pointDir, pointDir); //midpoints of neighbor two-pixel groupings
}
dist -= (_lineWidth/2.0);
return dist <= 0.0 ? ((cd(f,ff) <= cd(f,df)) ? ff : df) : vec4(-1.0);
} else if(similar3(f, df, dd) && !similar3(c, df, dd) && !similar(f, ddb)){ //far corner of steep slant
if(similar(d, ddf) && higher(d, dd)){ //single pixel wide diagonal, dont flip
} else {
//priority edge cases
if(higher(d, dd)){
flip = true;
}
if(similar(db, dd) && !similar(d, ddf) && !higher(d, dd)){
flip = true;
}
// if(!higher(d, dd)){
// return vec4(1.0);
// flip = true;
// }
}
if(flip){
dist = _lineWidth-distToLine(point, center+vec2(0.0, -0.5+1.0)*pointDir, center+vec2(-1.0, 1.5+1.0)*pointDir, -pointDir); //midpoints of neighbor two-pixel groupings
} else {
dist = distToLine(point, center+vec2(1.0, -0.5+1.0)*pointDir, center+vec2(0.0, 1.5+1.0)*pointDir, pointDir); //midpoints of neighbor two-pixel groupings
}
dist -= (_lineWidth/2.0);
return dist <= 0.0 ? ((cd(d,df) <= cd(d,dd)) ? df : dd) : vec4(-1.0);
}
#endif
return vec4(-1.0);
}
void main()
{
vec2 f_px = v_px;
vec2 local = fract(f_px);
vec2 px = ceil(f_px);
vec2 pointDir = round(local)*2.0-1.0;
if(!mode){
FragColor = texture(iChannel0, (px+vec2( 0.0,0.0)*pointDir)/size);
return;
}
//neighbor pixels
//Up, Down, Forward, and Back
//relative to quadrant of current location within pixel
vec4 uub = texture(iChannel0, (px+vec2(-1.0,-2.0)*pointDir)/size);
vec4 uu = texture(iChannel0, (px+vec2( 0.0,-2.0)*pointDir)/size);
vec4 uuf = texture(iChannel0, (px+vec2( 1.0,-2.0)*pointDir)/size);
vec4 ubb = texture(iChannel0, (px+vec2(-2.0,-2.0)*pointDir)/size);
vec4 ub = texture(iChannel0, (px+vec2(-1.0,-1.0)*pointDir)/size);
vec4 u = texture(iChannel0, (px+vec2( 0.0,-1.0)*pointDir)/size);
vec4 uf = texture(iChannel0, (px+vec2( 1.0,-1.0)*pointDir)/size);
vec4 uff = texture(iChannel0, (px+vec2( 2.0,-1.0)*pointDir)/size);
vec4 bb = texture(iChannel0, (px+vec2(-2.0, 0.0)*pointDir)/size);
vec4 b = texture(iChannel0, (px+vec2(-1.0, 0.0)*pointDir)/size);
vec4 c = texture(iChannel0, (px+vec2( 0.0, 0.0)*pointDir)/size);
vec4 f = texture(iChannel0, (px+vec2( 1.0, 0.0)*pointDir)/size);
vec4 ff = texture(iChannel0, (px+vec2( 2.0, 0.0)*pointDir)/size);
vec4 dbb = texture(iChannel0, (px+vec2(-2.0, 1.0)*pointDir)/size);
vec4 db = texture(iChannel0, (px+vec2(-1.0, 1.0)*pointDir)/size);
vec4 d = texture(iChannel0, (px+vec2( 0.0, 1.0)*pointDir)/size);
vec4 df = texture(iChannel0, (px+vec2( 1.0, 1.0)*pointDir)/size);
vec4 dff = texture(iChannel0, (px+vec2( 2.0, 1.0)*pointDir)/size);
vec4 ddb = texture(iChannel0, (px+vec2(-1.0, 2.0)*pointDir)/size);
vec4 dd = texture(iChannel0, (px+vec2( 0.0, 2.0)*pointDir)/size);
vec4 ddf = texture(iChannel0, (px+vec2( 1.0, 2.0)*pointDir)/size);
vec4 col = c;
//c_orner, b_ack, and u_p slices
// (slices from neighbor pixels will only ever reach these 3 quadrants
vec4 c_col = sliceDist(local, vec2( 1.0, 1.0), pointDir, u, uf, uff, b, c, f, ff, db, d, df, dff, ddb, dd, ddf);
vec4 b_col = sliceDist(local, vec2(-1.0, 1.0), pointDir, u, ub, ubb, f, c, b, bb, df, d, db, dbb, ddf, dd, ddb);
vec4 u_col = sliceDist(local, vec2( 1.0,-1.0), pointDir, d, df, dff, b, c, f, ff, ub, u, uf, uff, uub, uu, uuf);
if(c_col.r >= 0.0){
col = c_col;
}
if(b_col.r >= 0.0){
col = b_col;
}
if(u_col.r >= 0.0){
col = u_col;
}
fragColor = col;
}

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pixel-art-scaling/cleanEdge-rotate.slangp Normal file
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shaders = 1
shader0 = shaders/cleanEdge-rotate.slang
filter_linear0 = false
scale_type0 = source
scale0 = 1.0

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pixel-art-scaling/shaders/cleanEdge-rotate.slang Normal file
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#version 450
layout(push_constant) uniform Push
{
vec4 SourceSize;
vec4 OriginalSize;
vec4 OutputSize;
uint FrameCount;
float simthresh, linewidth, ce_rotation, ce_zoom, ce_x_off, ce_y_off, ce_mode;
} params;
#pragma parameter linewidth "Line Width" 1.0 0.01 2.0 0.1
float lineWidth = params.linewidth;
// +/-3.14 = 180 degrees; +/-6.28 = 360 degrees
#pragma parameter ce_rotation "Rotation" 0.0 -6.28 6.28 0.01
float ROTATION = params.ce_rotation;
#pragma parameter ce_zoom "Zoom" 1.0 0.0 2.0 0.01
float ZOOM = params.ce_zoom;
#pragma parameter ce_x_off "X Offset" 0.0 -1.0 1.0 0.002
float X_OFF = params.ce_x_off;
#pragma parameter ce_y_off "Y Offset" 0.0 -1.0 1.0 0.002
float Y_OFF = params.ce_y_off;
//how close two colors should be to be considered "similar".
// can group shapes of visually similar colors, but creates
// some artifacting and should be kept as low as possible.
#pragma parameter simthresh "Similarity Threshold" 0.0 0.0 1.0 0.01
float similarThreshold = params.simthresh;
#pragma parameter ce_mode "cleanEdge Effect Toggle (debug)" 1.0 0.0 1.0 1.0
bool mode = bool(params.ce_mode);
#include "../../include/cleanEdge.inc"