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A Signed Distance Font Builder for Dear ImGui
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/* | |
* edtaa3() | |
* | |
* Sweep-and-update Euclidean distance transform of an | |
* image. Positive pixels are treated as object pixels, | |
* zero or negative pixels are treated as background. | |
* An attempt is made to treat antialiased edges correctly. | |
* The input image must have pixels in the range [0,1], | |
* and the antialiased image should be a box-filter | |
* sampling of the ideal, crisp edge. | |
* If the antialias region is more than 1 pixel wide, | |
* the result from this transform will be inaccurate. | |
* | |
* By Stefan Gustavson ([email protected]). | |
* | |
* Originally written in 1994, based on a verbal | |
* description of the SSED8 algorithm published in the | |
* PhD dissertation of Ingemar Ragnemalm. This is his | |
* algorithm, I only implemented it in C. | |
* | |
* Updated in 2004 to treat border pixels correctly, | |
* and cleaned up the code to improve readability. | |
* | |
* Updated in 2009 to handle anti-aliased edges. | |
* | |
* Updated in 2011 to avoid a corner case infinite loop. | |
* | |
* Updated 2012 to change license from LGPL to MIT. | |
* | |
* Updated 2014 to fix a bug in the gradient computations. Ahem. | |
* | |
*/ | |
/* | |
Copyright (C) 2009-2012 Stefan Gustavson ([email protected]) | |
The code in this file is distributed under the MIT license: | |
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. | |
*/ | |
// Flix01: Added the EDTAA3FUNC_HAS_IMGUI_SUPPORT definition that can be used | |
// to provide Dear Imgui (at https://github.com/ocornut/imgui) the method: | |
// ImGui::PostBuildForSignedDistanceFontEffect(ImFontAtlas* atlas). | |
// USAGE: | |
/* | |
// In imgui_impl_glfw.cpp (or similiar): | |
#define IMIMPL_BUILD_SDF // Twickable | |
#ifdef IMIMPL_BUILD_SDF | |
#define EDTAA3FUNC_HAS_IMGUI_SUPPORT | |
#include "edtaa3func.h" | |
#endif //IMIMPL_BUILD_SDF | |
bool ImGui_ImplGlfw_CreateFontsTexture() | |
{ | |
// Build texture atlas | |
ImGuiIO& io = ImGui::GetIO(); | |
unsigned char* pixels; | |
int width, height; | |
// New code ------------------------------------------------- | |
if (io.Fonts->ConfigData.empty()) io.Fonts->AddFontDefault(); | |
io.Fonts->Build(); // (change this line if you use [imgui_freetype](https://github.com/Vuhdo/imgui) appropriately) | |
# ifdef IMIMPL_BUILD_SDF | |
ImGui::PostBuildForSignedDistanceFontEffect(io.Fonts); | |
# endif //IMIMPL_BUILD_SDF | |
// End new code ---------------------------------------------- | |
... | |
} | |
*/ | |
// The methods ImGuiEdtaaHelper::make_distance_mapd(...) and ImGuiEdtaaHelper::make_distance_mapb(...) | |
// are based on https://github.com/rougier/freetype-gl/blob/master/distance-field.c [Copyright 2011,2012 Nicolas P. Rougier. All rights reserved.] | |
// freetype-gl license: | |
/* | |
/* ========================================================================= | |
* Freetype GL - A C OpenGL Freetype engine | |
* Platform: Any | |
* WWW: https://github.com/rougier/freetype-gl | |
* ------------------------------------------------------------------------- | |
* Copyright 2011,2012 Nicolas P. Rougier. All rights reserved. | |
* | |
* Redistribution and use in source and binary forms, with or without | |
* modification, are permitted provided that the following conditions are met: | |
* | |
* 1. Redistributions of source code must retain the above copyright notice, | |
* this list of conditions and the following disclaimer. | |
* | |
* 2. Redistributions in binary form must reproduce the above copyright | |
* notice, this list of conditions and the following disclaimer in the | |
* documentation and/or other materials provided with the distribution. | |
* | |
* THIS SOFTWARE IS PROVIDED BY NICOLAS P. ROUGIER ''AS IS'' AND ANY EXPRESS OR | |
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF | |
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO | |
* EVENT SHALL NICOLAS P. ROUGIER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, | |
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES | |
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; | |
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND | |
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT | |
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF | |
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. | |
* | |
* The views and conclusions contained in the software and documentation are | |
* those of the authors and should not be interpreted as representing official | |
* policies, either expressed or implied, of Nicolas P. Rougier. | |
* ========================================================================= | |
*/ | |
#ifndef EDTAA3FUNC_H_ | |
#define EDTAA3FUNC_H_ | |
#pragma once | |
#include <math.h> | |
#ifdef __cplusplus | |
extern "C" { | |
#endif //__cplusplus | |
/* | |
* Compute the local gradient at edge pixels using convolution filters. | |
* The gradient is computed only at edge pixels. At other places in the | |
* image, it is never used, and it's mostly zero anyway. | |
*/ | |
void computegradient(double *img, int w, int h, double *gx, double *gy) | |
{ | |
int i,j,k,p,q; | |
double glength, phi, phiscaled, ascaled, errsign, pfrac, qfrac, err0, err1, err; | |
#define SQRT2 1.4142136 | |
for(i = 1; i < h-1; i++) { // Avoid edges where the kernels would spill over | |
for(j = 1; j < w-1; j++) { | |
k = i*w + j; | |
if((img[k]>0.0) && (img[k]<1.0)) { // Compute gradient for edge pixels only | |
gx[k] = -img[k-w-1] - SQRT2*img[k-1] - img[k+w-1] + img[k-w+1] + SQRT2*img[k+1] + img[k+w+1]; | |
gy[k] = -img[k-w-1] - SQRT2*img[k-w] - img[k-w+1] + img[k+w-1] + SQRT2*img[k+w] + img[k+w+1]; | |
glength = gx[k]*gx[k] + gy[k]*gy[k]; | |
if(glength > 0.0) { // Avoid division by zero | |
glength = sqrt(glength); | |
gx[k]=gx[k]/glength; | |
gy[k]=gy[k]/glength; | |
} | |
} | |
} | |
} | |
// TODO: Compute reasonable values for gx, gy also around the image edges. | |
// (These are zero now, which reduces the accuracy for a 1-pixel wide region | |
// around the image edge.) 2x2 kernels would be suitable for this. | |
} | |
/* | |
* A somewhat tricky function to approximate the distance to an edge in a | |
* certain pixel, with consideration to either the local gradient (gx,gy) | |
* or the direction to the pixel (dx,dy) and the pixel greyscale value a. | |
* The latter alternative, using (dx,dy), is the metric used by edtaa2(). | |
* Using a local estimate of the edge gradient (gx,gy) yields much better | |
* accuracy at and near edges, and reduces the error even at distant pixels | |
* provided that the gradient direction is accurately estimated. | |
*/ | |
double edgedf(double gx, double gy, double a) | |
{ | |
double df, glength, temp, a1; | |
if ((gx == 0) || (gy == 0)) { // Either A) gu or gv are zero, or B) both | |
df = 0.5-a; // Linear approximation is A) correct or B) a fair guess | |
} else { | |
glength = sqrt(gx*gx + gy*gy); | |
if(glength>0) { | |
gx = gx/glength; | |
gy = gy/glength; | |
} | |
/* Everything is symmetric wrt sign and transposition, | |
* so move to first octant (gx>=0, gy>=0, gx>=gy) to | |
* avoid handling all possible edge directions. | |
*/ | |
gx = fabs(gx); | |
gy = fabs(gy); | |
if(gx<gy) { | |
temp = gx; | |
gx = gy; | |
gy = temp; | |
} | |
a1 = 0.5*gy/gx; | |
if (a < a1) { // 0 <= a < a1 | |
df = 0.5*(gx + gy) - sqrt(2.0*gx*gy*a); | |
} else if (a < (1.0-a1)) { // a1 <= a <= 1-a1 | |
df = (0.5-a)*gx; | |
} else { // 1-a1 < a <= 1 | |
df = -0.5*(gx + gy) + sqrt(2.0*gx*gy*(1.0-a)); | |
} | |
} | |
return df; | |
} | |
double distaa3(double *img, double *gximg, double *gyimg, int w, int c, int xc, int yc, int xi, int yi) | |
{ | |
double di, df, dx, dy, gx, gy, a; | |
int closest; | |
closest = c-xc-yc*w; // Index to the edge pixel pointed to from c | |
a = img[closest]; // Grayscale value at the edge pixel | |
gx = gximg[closest]; // X gradient component at the edge pixel | |
gy = gyimg[closest]; // Y gradient component at the edge pixel | |
if(a > 1.0) a = 1.0; | |
if(a < 0.0) a = 0.0; // Clip grayscale values outside the range [0,1] | |
if(a == 0.0) return 1000000.0; // Not an object pixel, return "very far" ("don't know yet") | |
dx = (double)xi; | |
dy = (double)yi; | |
di = sqrt(dx*dx + dy*dy); // Length of integer vector, like a traditional EDT | |
if(di==0) { // Use local gradient only at edges | |
// Estimate based on local gradient only | |
df = edgedf(gx, gy, a); | |
} else { | |
// Estimate gradient based on direction to edge (accurate for large di) | |
df = edgedf(dx, dy, a); | |
} | |
return di + df; // Same metric as edtaa2, except at edges (where di=0) | |
} | |
// Shorthand macro: add ubiquitous parameters dist, gx, gy, img and w and call distaa3() | |
#define DISTAA(c,xc,yc,xi,yi) (distaa3(img, gx, gy, w, c, xc, yc, xi, yi)) | |
void edtaa3(double *img, double *gx, double *gy, int w, int h, short *distx, short *disty, double *dist) | |
{ | |
int x, y, i, c; | |
int offset_u, offset_ur, offset_r, offset_rd, | |
offset_d, offset_dl, offset_l, offset_lu; | |
double olddist, newdist; | |
int cdistx, cdisty, newdistx, newdisty; | |
int changed; | |
double epsilon = 1e-3; | |
/* Initialize index offsets for the current image width */ | |
offset_u = -w; | |
offset_ur = -w+1; | |
offset_r = 1; | |
offset_rd = w+1; | |
offset_d = w; | |
offset_dl = w-1; | |
offset_l = -1; | |
offset_lu = -w-1; | |
/* Initialize the distance images */ | |
for(i=0; i<w*h; i++) { | |
distx[i] = 0; // At first, all pixels point to | |
disty[i] = 0; // themselves as the closest known. | |
if(img[i] <= 0.0) | |
{ | |
dist[i]= 1000000.0; // Big value, means "not set yet" | |
} | |
else if (img[i]<1.0) { | |
dist[i] = edgedf(gx[i], gy[i], img[i]); // Gradient-assisted estimate | |
} | |
else { | |
dist[i]= 0.0; // Inside the object | |
} | |
} | |
/* Perform the transformation */ | |
do | |
{ | |
changed = 0; | |
/* Scan rows, except first row */ | |
for(y=1; y<h; y++) | |
{ | |
/* move index to leftmost pixel of current row */ | |
i = y*w; | |
/* scan right, propagate distances from above & left */ | |
/* Leftmost pixel is special, has no left neighbors */ | |
olddist = dist[i]; | |
if(olddist > 0) // If non-zero distance or not set yet | |
{ | |
c = i + offset_u; // Index of candidate for testing | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx; | |
newdisty = cdisty+1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
olddist=newdist; | |
changed = 1; | |
} | |
c = i+offset_ur; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx-1; | |
newdisty = cdisty+1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
changed = 1; | |
} | |
} | |
i++; | |
/* Middle pixels have all neighbors */ | |
for(x=1; x<w-1; x++, i++) | |
{ | |
olddist = dist[i]; | |
if(olddist <= 0) continue; // No need to update further | |
c = i+offset_l; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx+1; | |
newdisty = cdisty; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
olddist=newdist; | |
changed = 1; | |
} | |
c = i+offset_lu; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx+1; | |
newdisty = cdisty+1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
olddist=newdist; | |
changed = 1; | |
} | |
c = i+offset_u; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx; | |
newdisty = cdisty+1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
olddist=newdist; | |
changed = 1; | |
} | |
c = i+offset_ur; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx-1; | |
newdisty = cdisty+1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
changed = 1; | |
} | |
} | |
/* Rightmost pixel of row is special, has no right neighbors */ | |
olddist = dist[i]; | |
if(olddist > 0) // If not already zero distance | |
{ | |
c = i+offset_l; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx+1; | |
newdisty = cdisty; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
olddist=newdist; | |
changed = 1; | |
} | |
c = i+offset_lu; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx+1; | |
newdisty = cdisty+1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
olddist=newdist; | |
changed = 1; | |
} | |
c = i+offset_u; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx; | |
newdisty = cdisty+1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
changed = 1; | |
} | |
} | |
/* Move index to second rightmost pixel of current row. */ | |
/* Rightmost pixel is skipped, it has no right neighbor. */ | |
i = y*w + w-2; | |
/* scan left, propagate distance from right */ | |
for(x=w-2; x>=0; x--, i--) | |
{ | |
olddist = dist[i]; | |
if(olddist <= 0) continue; // Already zero distance | |
c = i+offset_r; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx-1; | |
newdisty = cdisty; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
changed = 1; | |
} | |
} | |
} | |
/* Scan rows in reverse order, except last row */ | |
for(y=h-2; y>=0; y--) | |
{ | |
/* move index to rightmost pixel of current row */ | |
i = y*w + w-1; | |
/* Scan left, propagate distances from below & right */ | |
/* Rightmost pixel is special, has no right neighbors */ | |
olddist = dist[i]; | |
if(olddist > 0) // If not already zero distance | |
{ | |
c = i+offset_d; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx; | |
newdisty = cdisty-1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
olddist=newdist; | |
changed = 1; | |
} | |
c = i+offset_dl; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx+1; | |
newdisty = cdisty-1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
changed = 1; | |
} | |
} | |
i--; | |
/* Middle pixels have all neighbors */ | |
for(x=w-2; x>0; x--, i--) | |
{ | |
olddist = dist[i]; | |
if(olddist <= 0) continue; // Already zero distance | |
c = i+offset_r; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx-1; | |
newdisty = cdisty; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
olddist=newdist; | |
changed = 1; | |
} | |
c = i+offset_rd; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx-1; | |
newdisty = cdisty-1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
olddist=newdist; | |
changed = 1; | |
} | |
c = i+offset_d; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx; | |
newdisty = cdisty-1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
olddist=newdist; | |
changed = 1; | |
} | |
c = i+offset_dl; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx+1; | |
newdisty = cdisty-1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
changed = 1; | |
} | |
} | |
/* Leftmost pixel is special, has no left neighbors */ | |
olddist = dist[i]; | |
if(olddist > 0) // If not already zero distance | |
{ | |
c = i+offset_r; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx-1; | |
newdisty = cdisty; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
olddist=newdist; | |
changed = 1; | |
} | |
c = i+offset_rd; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx-1; | |
newdisty = cdisty-1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
olddist=newdist; | |
changed = 1; | |
} | |
c = i+offset_d; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx; | |
newdisty = cdisty-1; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
changed = 1; | |
} | |
} | |
/* Move index to second leftmost pixel of current row. */ | |
/* Leftmost pixel is skipped, it has no left neighbor. */ | |
i = y*w + 1; | |
for(x=1; x<w; x++, i++) | |
{ | |
/* scan right, propagate distance from left */ | |
olddist = dist[i]; | |
if(olddist <= 0) continue; // Already zero distance | |
c = i+offset_l; | |
cdistx = distx[c]; | |
cdisty = disty[c]; | |
newdistx = cdistx+1; | |
newdisty = cdisty; | |
newdist = DISTAA(c, cdistx, cdisty, newdistx, newdisty); | |
if(newdist < olddist-epsilon) | |
{ | |
distx[i]=newdistx; | |
disty[i]=newdisty; | |
dist[i]=newdist; | |
changed = 1; | |
} | |
} | |
} | |
} | |
while(changed); // Sweep until no more updates are made | |
/* The transformation is completed. */ | |
} | |
#ifdef __cplusplus | |
} // extern "C" | |
#endif //__cplusplus | |
#ifdef EDTAA3FUNC_HAS_IMGUI_SUPPORT | |
#include <imgui.h> | |
namespace ImGuiEdtaaHelper { | |
// The purpose of TmpData is to allow releasing the memory all togther | |
// at the end of a multiple call to make_distance_mapb(...)/make_distance_mapd(...) | |
// [However we don't use this feature here] | |
struct TmpData { | |
ImVector<double> v_data; | |
ImVector<short> v_xdist; | |
ImVector<short> v_ydist; | |
ImVector<double> v_gx; | |
ImVector<double> v_gy; | |
ImVector<double> v_outside; | |
ImVector<double> v_inside; | |
void freeMemory() { | |
TmpData tmp; | |
v_data.swap(tmp.v_data); | |
v_xdist.swap(tmp.v_xdist); | |
v_ydist.swap(tmp.v_ydist); | |
v_gx.swap(tmp.v_gx); | |
v_outside.swap(tmp.v_outside); | |
v_inside.swap(tmp.v_inside); | |
} | |
}; | |
static TmpData tmpData; | |
static void FreeTmpMemory() {tmpData.freeMemory();} | |
// These two methods are adapted from: https://github.com/rougier/freetype-gl (Copyright 2011,2012 Nicolas P. Rougier), | |
// so that the memory they use can optionally be freed once, after all the glyphs are processed. | |
static double * make_distance_mapd( double *data, unsigned int width, unsigned int height, TmpData* pOptionalTmpData=NULL) | |
{ | |
if (!pOptionalTmpData) pOptionalTmpData=&tmpData; | |
const unsigned int area = width * height; | |
IM_ASSERT(area>0); | |
pOptionalTmpData->v_xdist.resize(area); short* xdist = &pOptionalTmpData->v_xdist[0]; | |
pOptionalTmpData->v_ydist.resize(area); short* ydist = &pOptionalTmpData->v_ydist[0]; | |
pOptionalTmpData->v_gx.resize(area); double* gx = &pOptionalTmpData->v_gx[0]; | |
pOptionalTmpData->v_gy.resize(area); double* gy = &pOptionalTmpData->v_gy[0]; | |
pOptionalTmpData->v_outside.resize(area); double* outside=&pOptionalTmpData->v_outside[0]; | |
pOptionalTmpData->v_inside.resize(area); double* inside= &pOptionalTmpData->v_inside[0]; | |
double vmin = DBL_MAX; | |
unsigned int i; | |
// Compute outside = edtaa3(bitmap); % Transform background (0's) | |
computegradient( data, width, height, gx, gy); | |
edtaa3(data, gx, gy, width, height, xdist, ydist, outside); | |
for( i=0; i<area; ++i) { | |
if( outside[i] < 0.0 ) outside[i] = 0.0; | |
} | |
// Compute inside = edtaa3(1-bitmap); % Transform foreground (1's) | |
memset( gx, 0, sizeof(double)*area ); | |
memset( gy, 0, sizeof(double)*area ); | |
for( i=0; i<area; ++i) data[i] = 1 - data[i]; | |
computegradient( data, width, height, gx, gy ); | |
edtaa3( data, gx, gy, width, height, xdist, ydist, inside ); | |
for( i=0; i<area; ++i ) { | |
if( inside[i] < 0 ) inside[i] = 0.0; | |
} | |
// distmap = outside - inside; % Bipolar distance field | |
for( i=0; i<area; ++i) { | |
outside[i] -= inside[i]; | |
if( outside[i] < vmin ) vmin = outside[i]; | |
} | |
vmin = fabs(vmin); | |
for( i=0; i<area; ++i) { | |
double v = outside[i]; | |
if ( v < -vmin) outside[i] = -vmin; | |
else if( v > +vmin) outside[i] = +vmin; | |
data[i] = (outside[i]+vmin)/(2*vmin); | |
} | |
return data; | |
} | |
static unsigned char * make_distance_mapb(const unsigned char *img,unsigned int width, unsigned int height, unsigned char* imgOutSameSize, TmpData* pOptionalTmpData=NULL) | |
{ | |
IM_ASSERT(imgOutSameSize); | |
if (!pOptionalTmpData) pOptionalTmpData=&tmpData; | |
const unsigned int area = width * height; | |
IM_ASSERT(area>0); | |
pOptionalTmpData->v_data.resize(area); | |
double* data = &pOptionalTmpData->v_data[0]; | |
unsigned int i; | |
// find minimimum and maximum values | |
double img_min = DBL_MAX,img_max = DBL_MIN,v; | |
for( i=0; i<area; ++i) { | |
data[i] = v = img[i]; | |
if (v > img_max) img_max = v; | |
if (v < img_min) img_min = v; | |
} | |
// Map values from 0 - 255 to 0.0 - 1.0 | |
for( i=0; i<area; ++i) data[i] = (img[i]-img_min)/img_max; | |
data = make_distance_mapd(data, width, height,pOptionalTmpData); | |
// map values from 0.0 - 1.0 to 0 - 255 | |
for( i=0; i<area; ++i) imgOutSameSize[i] = (unsigned char)(255*(1-data[i])); | |
return imgOutSameSize; | |
} | |
} //ImGuiEdtaaHelper | |
namespace ImGui { | |
void ProcessAlpha8ImageForSignedDistanceFontEffect(unsigned char* pixels,int w,int h) { | |
IM_ASSERT(pixels && w>0 && h>0); | |
ImVector<unsigned char> tmpData;tmpData.resize(w*h); | |
ImGuiEdtaaHelper::make_distance_mapb(pixels,w,h,&tmpData[0]); | |
ImGuiEdtaaHelper::FreeTmpMemory(); | |
memcpy(pixels,&tmpData[0],w*h); | |
} | |
void PostBuildForSignedDistanceFontEffect(ImFontAtlas* atlas) { | |
if (!atlas->TexPixelsAlpha8) atlas->GetTexDataAsAlpha8(&atlas->TexPixelsAlpha8,NULL,NULL); | |
ProcessAlpha8ImageForSignedDistanceFontEffect(atlas->TexPixelsAlpha8,atlas->TexWidth,atlas->TexHeight); | |
} | |
} | |
#endif //EDTAA3FUNC_HAS_IMGUI_SUPPORT | |
#endif //EDTAA3FUNC_H_ |
@NewHand007: the fragment shader code has been stripped from the comment: you may need to download Rev.2 if you need it.
bro
The Rev.2 file with the comment is here
The Rev.2 file with the comment is here
thank you bro !
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I've been working on font strokes for a few days. Can you share a copy of the code that works my bro?