gtk/gsk/gl/resources/preamble.vs.glsl

uniform mat4 u_projection;
uniform mat4 u_modelview;
uniform float u_alpha;

#if defined(GSK_GLES) || defined(GSK_LEGACY)
attribute vec2 aPosition;
attribute vec2 aUv;
attribute vec4 aColor;
attribute vec4 aColor2;
_OUT_ vec2 vUv;
#else
_IN_ vec2 aPosition;
_IN_ vec2 aUv;
_IN_ vec4 aColor;
_IN_ vec4 aColor2;
_OUT_ vec2 vUv;
#endif

// amount is: top, right, bottom, left
GskRoundedRect
gsk_rounded_rect_shrink (GskRoundedRect r, vec4 amount)
{
  vec4 new_bounds = r.bounds + vec4(1.0,1.0,-1.0,-1.0) * amount.wxyz;
  vec4 new_corner_points1 = r.corner_points1;
  vec4 new_corner_points2 = r.corner_points2;

  if (r.corner_points1.xy == r.bounds.xy) new_corner_points1.xy = new_bounds.xy;
  if (r.corner_points1.zw == r.bounds.zy) new_corner_points1.zw = new_bounds.zy;
  if (r.corner_points2.xy == r.bounds.zw) new_corner_points2.xy = new_bounds.zw;
  if (r.corner_points2.zw == r.bounds.xw) new_corner_points2.zw = new_bounds.xw;

  return GskRoundedRect (new_bounds, new_corner_points1, new_corner_points2);
}

void
gsk_rounded_rect_offset(inout GskRoundedRect r, vec2 offset)
{
  r.bounds.xy += offset;
  r.bounds.zw += offset;
  r.corner_points1.xy += offset;
  r.corner_points1.zw += offset;
  r.corner_points2.xy += offset;
  r.corner_points2.zw += offset;
}

void gsk_rounded_rect_transform(inout GskRoundedRect r, mat4 mat)
{
  r.bounds.xy = (mat * vec4(r.bounds.xy, 0.0, 1.0)).xy;
  r.bounds.zw = (mat * vec4(r.bounds.zw, 0.0, 1.0)).xy;

  r.corner_points1.xy = (mat * vec4(r.corner_points1.xy, 0.0, 1.0)).xy;
  r.corner_points1.zw = (mat * vec4(r.corner_points1.zw, 0.0, 1.0)).xy;

  r.corner_points2.xy = (mat * vec4(r.corner_points2.xy, 0.0, 1.0)).xy;
  r.corner_points2.zw = (mat * vec4(r.corner_points2.zw, 0.0, 1.0)).xy;
}

#if defined(GSK_LEGACY)
// Can't have out or inout array parameters...
#define gsk_rounded_rect_encode(r, uni) uni[0] = r.bounds; uni[1] = r.corner_points1; uni[2] = r.corner_points2;
#else
void gsk_rounded_rect_encode(GskRoundedRect r, out _GSK_ROUNDED_RECT_UNIFORM_ out_r)
{
#if defined(GSK_GLES)
  out_r[0] = r.bounds;
  out_r[1] = r.corner_points1;
  out_r[2] = r.corner_points2;
#else
  out_r = r;
#endif
}

#endif
gsk: Give ngl its own shader sources We may want to change the interface between the shaders and the renderer for ngl, and therefore, sharing the shaders between gl and ngl will not be practical, going forward. 2021-03-12 02:31:31 +00:00			`uniform mat4 u_projection;`
			`uniform mat4 u_modelview;`
			`uniform float u_alpha;`

			`#if defined(GSK_GLES) \|\| defined(GSK_LEGACY)`
			`attribute vec2 aPosition;`
			`attribute vec2 aUv;`
ngl: Set color as vertex attribute Instead of using uniforms for color used in multiple programs, pass it as vertex attributes. This will let us batch more draw calls, since we don't have to change uniforms so often. In particular, for syntax-highlighted text. 2021-03-12 00:46:15 +00:00			`attribute vec4 aColor;`
ngl: Special-case css backgrounds Recognize a common pattern: A rounded clip with a color node, followed by a border node, with the same outline. This is what CSS backgrounds frequently produce, and we can render it more efficiently with a combined shader. 2021-03-14 04:30:18 +00:00			`attribute vec4 aColor2;`
gsk: Give ngl its own shader sources We may want to change the interface between the shaders and the renderer for ngl, and therefore, sharing the shaders between gl and ngl will not be practical, going forward. 2021-03-12 02:31:31 +00:00			`_OUT_ vec2 vUv;`
			`#else`
			`_IN_ vec2 aPosition;`
			`_IN_ vec2 aUv;`
ngl: Set color as vertex attribute Instead of using uniforms for color used in multiple programs, pass it as vertex attributes. This will let us batch more draw calls, since we don't have to change uniforms so often. In particular, for syntax-highlighted text. 2021-03-12 00:46:15 +00:00			`_IN_ vec4 aColor;`
ngl: Special-case css backgrounds Recognize a common pattern: A rounded clip with a color node, followed by a border node, with the same outline. This is what CSS backgrounds frequently produce, and we can render it more efficiently with a combined shader. 2021-03-14 04:30:18 +00:00			`_IN_ vec4 aColor2;`
gsk: Give ngl its own shader sources We may want to change the interface between the shaders and the renderer for ngl, and therefore, sharing the shaders between gl and ngl will not be practical, going forward. 2021-03-12 02:31:31 +00:00			`_OUT_ vec2 vUv;`
			`#endif`

			`// amount is: top, right, bottom, left`
			`GskRoundedRect`
			`gsk_rounded_rect_shrink (GskRoundedRect r, vec4 amount)`
			`{`
			`vec4 new_bounds = r.bounds + vec4(1.0,1.0,-1.0,-1.0) * amount.wxyz;`
			`vec4 new_corner_points1 = r.corner_points1;`
			`vec4 new_corner_points2 = r.corner_points2;`

			`if (r.corner_points1.xy == r.bounds.xy) new_corner_points1.xy = new_bounds.xy;`
			`if (r.corner_points1.zw == r.bounds.zy) new_corner_points1.zw = new_bounds.zy;`
			`if (r.corner_points2.xy == r.bounds.zw) new_corner_points2.xy = new_bounds.zw;`
			`if (r.corner_points2.zw == r.bounds.xw) new_corner_points2.zw = new_bounds.xw;`

			`return GskRoundedRect (new_bounds, new_corner_points1, new_corner_points2);`
			`}`

			`void`
			`gsk_rounded_rect_offset(inout GskRoundedRect r, vec2 offset)`
			`{`
			`r.bounds.xy += offset;`
			`r.bounds.zw += offset;`
			`r.corner_points1.xy += offset;`
			`r.corner_points1.zw += offset;`
			`r.corner_points2.xy += offset;`
			`r.corner_points2.zw += offset;`
			`}`

			`void gsk_rounded_rect_transform(inout GskRoundedRect r, mat4 mat)`
			`{`
			`r.bounds.xy = (mat * vec4(r.bounds.xy, 0.0, 1.0)).xy;`
			`r.bounds.zw = (mat * vec4(r.bounds.zw, 0.0, 1.0)).xy;`

			`r.corner_points1.xy = (mat * vec4(r.corner_points1.xy, 0.0, 1.0)).xy;`
			`r.corner_points1.zw = (mat * vec4(r.corner_points1.zw, 0.0, 1.0)).xy;`

			`r.corner_points2.xy = (mat * vec4(r.corner_points2.xy, 0.0, 1.0)).xy;`
			`r.corner_points2.zw = (mat * vec4(r.corner_points2.zw, 0.0, 1.0)).xy;`
			`}`

			`#if defined(GSK_LEGACY)`
			`// Can't have out or inout array parameters...`
			`#define gsk_rounded_rect_encode(r, uni) uni[0] = r.bounds; uni[1] = r.corner_points1; uni[2] = r.corner_points2;`
			`#else`
			`void gsk_rounded_rect_encode(GskRoundedRect r, out _GSK_ROUNDED_RECT_UNIFORM_ out_r)`
			`{`
			`#if defined(GSK_GLES)`
			`out_r[0] = r.bounds;`
			`out_r[1] = r.corner_points1;`
			`out_r[2] = r.corner_points2;`
			`#else`
			`out_r = r;`
			`#endif`
			`}`

			`#endif`