unsigned char *buf, *buf2;
int bufsize, bufwidth, bufheight, bufpitch;
float blur, outline, shadowx, shadowy, shadowz;
- int padding, blurpadding, outlinepadding;
+ int padding_t, padding_b, padding_l, padding_r, blurpadding_lt, blurpadding_rb, outlinepadding_t, outlinepadding_b, outlinepadding_l, outlinepadding_r;
unsigned char circlematrix[2*POSTPROCESS_MAXRADIUS+1][2*POSTPROCESS_MAXRADIUS+1];
unsigned char gausstable[2*POSTPROCESS_MAXRADIUS+1];
}
font_postprocess_t;
-static font_postprocess_t pp = {};
+static font_postprocess_t pp;
/*
====================
float Font_VirtualToRealSize(float sz)
{
- int vh, vw, si;
+ int vh;
+ //int vw;
+ int si;
float sn;
if(sz < 0)
return sz;
- vw = ((vid.width > 0) ? vid.width : vid_width.value);
+ //vw = ((vid.width > 0) ? vid.width : vid_width.value);
vh = ((vid.height > 0) ? vid.height : vid_height.value);
// now try to scale to our actual size:
sn = sz * vh / vid_conheight.value;
void Font_Postprocess_Update(ft2_font_t *fnt, int bpp, int w, int h)
{
- qboolean need_gauss, need_circle;
int needed, x, y;
float gausstable[2*POSTPROCESS_MAXRADIUS+1];
- if(!pp.buf || pp.blur != fnt->settings->blur || pp.shadowz != fnt->settings->shadowz)
- need_gauss = true;
- if(!pp.buf || pp.outline != fnt->settings->outline || pp.shadowx != fnt->settings->shadowx || pp.shadowy != fnt->settings->shadowy)
- need_circle = true;
+ qboolean need_gauss = (!pp.buf || pp.blur != fnt->settings->blur || pp.shadowz != fnt->settings->shadowz);
+ qboolean need_circle = (!pp.buf || pp.outline != fnt->settings->outline || pp.shadowx != fnt->settings->shadowx || pp.shadowy != fnt->settings->shadowy);
pp.blur = fnt->settings->blur;
pp.outline = fnt->settings->outline;
pp.shadowx = fnt->settings->shadowx;
pp.shadowy = fnt->settings->shadowy;
pp.shadowz = fnt->settings->shadowz;
- pp.outlinepadding = bound(0, ceil(pp.outline) + ceil(max(max(pp.shadowx, pp.shadowy), max(-pp.shadowx, -pp.shadowy))), POSTPROCESS_MAXRADIUS);
- pp.blurpadding = bound(0, ceil(pp.blur) + ceil(max(pp.shadowz, -pp.shadowz)), POSTPROCESS_MAXRADIUS);
- // FIXME for high values of shadow, we can do better by doing different x and y padding...
- pp.padding = pp.blurpadding + pp.outlinepadding;
+ pp.outlinepadding_l = bound(0, ceil(pp.outline - pp.shadowx), POSTPROCESS_MAXRADIUS);
+ pp.outlinepadding_r = bound(0, ceil(pp.outline + pp.shadowx), POSTPROCESS_MAXRADIUS);
+ pp.outlinepadding_t = bound(0, ceil(pp.outline - pp.shadowy), POSTPROCESS_MAXRADIUS);
+ pp.outlinepadding_b = bound(0, ceil(pp.outline + pp.shadowy), POSTPROCESS_MAXRADIUS);
+ pp.blurpadding_lt = bound(0, ceil(pp.blur - pp.shadowz), POSTPROCESS_MAXRADIUS);
+ pp.blurpadding_rb = bound(0, ceil(pp.blur + pp.shadowz), POSTPROCESS_MAXRADIUS);
+ pp.padding_l = pp.blurpadding_lt + pp.outlinepadding_l;
+ pp.padding_r = pp.blurpadding_rb + pp.outlinepadding_r;
+ pp.padding_t = pp.blurpadding_lt + pp.outlinepadding_t;
+ pp.padding_b = pp.blurpadding_rb + pp.outlinepadding_b;
if(need_gauss)
{
float sum = 0;
for(x = -POSTPROCESS_MAXRADIUS; x <= POSTPROCESS_MAXRADIUS; ++x)
- sum += (gausstable[POSTPROCESS_MAXRADIUS+x] = (pp.blur > 0 ? exp(-(pow(x + pp.shadowz, 2))/(pp.blur*pp.blur * 2)) : (floor(x + pp.shadowz + 0.5) == 0)));
+ gausstable[POSTPROCESS_MAXRADIUS+x] = (pp.blur > 0 ? exp(-(pow(x + pp.shadowz, 2))/(pp.blur*pp.blur * 2)) : (floor(x + pp.shadowz + 0.5) == 0));
+ for(x = -pp.blurpadding_rb; x <= pp.blurpadding_lt; ++x)
+ sum += gausstable[POSTPROCESS_MAXRADIUS+x];
for(x = -POSTPROCESS_MAXRADIUS; x <= POSTPROCESS_MAXRADIUS; ++x)
pp.gausstable[POSTPROCESS_MAXRADIUS+x] = floor(gausstable[POSTPROCESS_MAXRADIUS+x] / sum * 255 + 0.5);
}
pp.circlematrix[POSTPROCESS_MAXRADIUS+y][POSTPROCESS_MAXRADIUS+x] = (d >= 1) ? 255 : (d <= 0) ? 0 : floor(d * 255 + 0.5);
}
}
- pp.bufwidth = w + 2 * pp.padding;
- pp.bufheight = h + 2 * pp.padding;
+ pp.bufwidth = w + pp.padding_l + pp.padding_r;
+ pp.bufheight = h + pp.padding_t + pp.padding_b;
pp.bufpitch = pp.bufwidth;
needed = pp.bufwidth * pp.bufheight;
if(!pp.buf || pp.bufsize < needed * 2)
// perform operation, not exceeding the passed padding values,
// but possibly reducing them
- *pad_l = min(*pad_l, pp.padding);
- *pad_r = min(*pad_r, pp.padding);
- *pad_t = min(*pad_t, pp.padding);
- *pad_b = min(*pad_b, pp.padding);
+ *pad_l = min(*pad_l, pp.padding_l);
+ *pad_r = min(*pad_r, pp.padding_r);
+ *pad_t = min(*pad_t, pp.padding_t);
+ *pad_b = min(*pad_b, pp.padding_b);
// calculate gauss table
for(y = -*pad_t; y < h + *pad_b; ++y)
for(x = -*pad_l; x < w + *pad_r; ++x)
{
- int x1 = max(-x, -pp.outlinepadding);
- int y1 = max(-y, -pp.outlinepadding);
- int x2 = min(pp.outlinepadding, w-1-x);
- int y2 = min(pp.outlinepadding, h-1-y);
+ int x1 = max(-x, -pp.outlinepadding_r);
+ int y1 = max(-y, -pp.outlinepadding_b);
+ int x2 = min(pp.outlinepadding_l, w-1-x);
+ int y2 = min(pp.outlinepadding_t, h-1-y);
int mx, my;
int cur = 0;
int highest = 0;
if(cur > highest)
highest = cur;
}
- pp.buf[((x + pp.padding) + pp.bufpitch * (y + pp.padding))] = (highest + 128) / 255;
+ pp.buf[((x + pp.padding_l) + pp.bufpitch * (y + pp.padding_t))] = (highest + 128) / 255;
}
// blur the outline buffer
for(y = 0; y < pp.bufheight; ++y)
for(x = 0; x < pp.bufwidth; ++x)
{
- int x1 = max(-x, -pp.blurpadding);
- int x2 = min(pp.blurpadding, pp.bufwidth-1-x);
+ int x1 = max(-x, -pp.blurpadding_rb);
+ int x2 = min(pp.blurpadding_lt, pp.bufwidth-1-x);
int mx;
int blurred = 0;
for(mx = x1; mx <= x2; ++mx)
blurred += pp.gausstable[POSTPROCESS_MAXRADIUS+mx] * (int)pp.buf[(x+mx) + pp.bufpitch * y];
- pp.buf2[x + pp.bufpitch * y] = blurred / 255;
+ pp.buf2[x + pp.bufpitch * y] = bound(0, blurred, 65025) / 255;
}
// vertical blur
for(y = 0; y < pp.bufheight; ++y)
for(x = 0; x < pp.bufwidth; ++x)
{
- int y1 = max(-y, -pp.blurpadding);
- int y2 = min(pp.blurpadding, pp.bufheight-1-y);
+ int y1 = max(-y, -pp.blurpadding_rb);
+ int y2 = min(pp.blurpadding_lt, pp.bufheight-1-y);
int my;
int blurred = 0;
for(my = y1; my <= y2; ++my)
blurred += pp.gausstable[POSTPROCESS_MAXRADIUS+my] * (int)pp.buf2[x + pp.bufpitch * (y+my)];
- pp.buf[x + pp.bufpitch * y] = blurred / 255;
+ pp.buf[x + pp.bufpitch * y] = bound(0, blurred, 65025) / 255;
}
}
for(y = -*pad_t; y < h + *pad_b; ++y)
for(x = -*pad_l; x < w + *pad_r; ++x)
{
- unsigned char outlinealpha = pp.buf[(x + pp.padding) + pp.bufpitch * (y + pp.padding)];
+ unsigned char outlinealpha = pp.buf[(x + pp.padding_l) + pp.bufpitch * (y + pp.padding_t)];
if(outlinealpha > 0)
{
unsigned char oldalpha = imagedata[x * bpp + pitch * y + (bpp - 1)];
}
imagedata[x * bpp + pitch * y + (bpp - 1)] = newalpha;
}
+ //imagedata[x * bpp + pitch * y + (bpp - 1)] |= 0x80;
}
}
}
else
{
// just calculate parameters
- *pad_l = *pad_r = *pad_t = *pad_b = pp.padding;
+ *pad_l = pp.padding_l;
+ *pad_r = pp.padding_r;
+ *pad_t = pp.padding_t;
+ *pad_b = pp.padding_b;
}
}
//double mWidth = (glyph->metrics.width >> 6) / map->size;
//double mHeight = (glyph->metrics.height >> 6) / map->size;
- mapglyph->txmin = ( (double)(gC * map->glyphSize) ) / ( (double)(map->glyphSize * FONT_CHARS_PER_LINE) );
+ mapglyph->txmin = ( (double)(gC * map->glyphSize) + (double)(gpad_l - pad_l) ) / ( (double)(map->glyphSize * FONT_CHARS_PER_LINE) );
mapglyph->txmax = mapglyph->txmin + (double)(bmp->width + pad_l + pad_r) / ( (double)(map->glyphSize * FONT_CHARS_PER_LINE) );
- mapglyph->tymin = ( (double)(gR * map->glyphSize) ) / ( (double)(map->glyphSize * FONT_CHAR_LINES) );
+ mapglyph->tymin = ( (double)(gR * map->glyphSize) + (double)(gpad_r - pad_r) ) / ( (double)(map->glyphSize * FONT_CHAR_LINES) );
mapglyph->tymax = mapglyph->tymin + (double)(bmp->rows + pad_t + pad_b) / ( (double)(map->glyphSize * FONT_CHAR_LINES) );
//mapglyph->vxmin = bearingX;
//mapglyph->vxmax = bearingX + mWidth;
projects / xonotic / darkplaces.git / blobdiff