piet-gpu/shader/gen/draw_leaf.hlsl - external/github.com/linebender/vello - Git at Google

 struct DrawMonoid
 {
     uint path_ix;
     uint clip_ix;
     uint scene_offset;
     uint info_offset;
 };

 struct Alloc
 {
     uint offset;
 };

 struct Config
 {
     uint mem_size;
     uint n_elements;
     uint n_pathseg;
     uint width_in_tiles;
     uint height_in_tiles;
     Alloc tile_alloc;
     Alloc bin_alloc;
     Alloc ptcl_alloc;
     Alloc pathseg_alloc;
     Alloc anno_alloc;
     Alloc path_bbox_alloc;
     Alloc drawmonoid_alloc;
     Alloc clip_alloc;
     Alloc clip_bic_alloc;
     Alloc clip_stack_alloc;
     Alloc clip_bbox_alloc;
     Alloc draw_bbox_alloc;
     Alloc drawinfo_alloc;
     uint n_trans;
     uint n_path;
     uint n_clip;
     uint trans_offset;
     uint linewidth_offset;
     uint pathtag_offset;
     uint pathseg_offset;
     uint drawtag_offset;
     uint drawdata_offset;
 };

 static const uint3 gl_WorkGroupSize = uint3(256u, 1u, 1u);

 static const DrawMonoid _23 = { 0u, 0u, 0u, 0u };

 ByteAddressBuffer _93 : register(t1, space0);
 ByteAddressBuffer _103 : register(t2, space0);
 ByteAddressBuffer _203 : register(t3, space0);
 RWByteAddressBuffer _285 : register(u0, space0);

 static uint3 gl_WorkGroupID;
 static uint3 gl_LocalInvocationID;
 static uint3 gl_GlobalInvocationID;
 struct SPIRV_Cross_Input
 {
     uint3 gl_WorkGroupID : SV_GroupID;
     uint3 gl_LocalInvocationID : SV_GroupThreadID;
     uint3 gl_GlobalInvocationID : SV_DispatchThreadID;
 };

 groupshared DrawMonoid sh_scratch[256];

 DrawMonoid map_tag(uint tag_word)
 {
     uint has_path = uint(tag_word != 0u);
     DrawMonoid _76 = { has_path, tag_word & 1u, tag_word & 28u, (tag_word >> uint(4)) & 60u };
     return _76;
 }

 DrawMonoid combine_draw_monoid(DrawMonoid a, DrawMonoid b)
 {
     DrawMonoid c;
     c.path_ix = a.path_ix + b.path_ix;
     c.clip_ix = a.clip_ix + b.clip_ix;
     c.scene_offset = a.scene_offset + b.scene_offset;
     c.info_offset = a.info_offset + b.info_offset;
     return c;
 }

 DrawMonoid draw_monoid_identity()
 {
     return _23;
 }

 void comp_main()
 {
     uint ix = gl_GlobalInvocationID.x * 8u;
     uint drawtag_base = _93.Load(100) >> uint(2);
     uint tag_word = _103.Load((drawtag_base + ix) * 4 + 0);
     uint param = tag_word;
     DrawMonoid agg = map_tag(param);
     DrawMonoid local[8];
     local[0] = agg;
     for (uint i = 1u; i < 8u; i++)
     {
         tag_word = _103.Load(((drawtag_base + ix) + i) * 4 + 0);
         uint param_1 = tag_word;
         DrawMonoid param_2 = agg;
         DrawMonoid param_3 = map_tag(param_1);
         agg = combine_draw_monoid(param_2, param_3);
         local[i] = agg;
     }
     sh_scratch[gl_LocalInvocationID.x] = agg;
     for (uint i_1 = 0u; i_1 < 8u; i_1++)
     {
         GroupMemoryBarrierWithGroupSync();
         if (gl_LocalInvocationID.x >= (1u << i_1))
         {
             DrawMonoid other = sh_scratch[gl_LocalInvocationID.x - (1u << i_1)];
             DrawMonoid param_4 = other;
             DrawMonoid param_5 = agg;
             agg = combine_draw_monoid(param_4, param_5);
         }
         GroupMemoryBarrierWithGroupSync();
         sh_scratch[gl_LocalInvocationID.x] = agg;
     }
     GroupMemoryBarrierWithGroupSync();
     DrawMonoid row = draw_monoid_identity();
     if (gl_WorkGroupID.x > 0u)
     {
         DrawMonoid _209;
         _209.path_ix = _203.Load((gl_WorkGroupID.x - 1u) * 16 + 0);
         _209.clip_ix = _203.Load((gl_WorkGroupID.x - 1u) * 16 + 4);
         _209.scene_offset = _203.Load((gl_WorkGroupID.x - 1u) * 16 + 8);
         _209.info_offset = _203.Load((gl_WorkGroupID.x - 1u) * 16 + 12);
         row.path_ix = _209.path_ix;
         row.clip_ix = _209.clip_ix;
         row.scene_offset = _209.scene_offset;
         row.info_offset = _209.info_offset;
     }
     if (gl_LocalInvocationID.x > 0u)
     {
         DrawMonoid param_6 = row;
         DrawMonoid param_7 = sh_scratch[gl_LocalInvocationID.x - 1u];
         row = combine_draw_monoid(param_6, param_7);
     }
     uint drawdata_base = _93.Load(104) >> uint(2);
     uint drawinfo_base = _93.Load(68) >> uint(2);
     uint out_ix = gl_GlobalInvocationID.x * 8u;
     uint out_base = (_93.Load(44) >> uint(2)) + (out_ix * 4u);
     uint clip_out_base = _93.Load(48) >> uint(2);
     float4 mat;
     float2 translate;
     float2 p0;
     float2 p1;
     for (uint i_2 = 0u; i_2 < 8u; i_2++)
     {
         DrawMonoid m = row;
         if (i_2 > 0u)
         {
             DrawMonoid param_8 = m;
             DrawMonoid param_9 = local[i_2 - 1u];
             m = combine_draw_monoid(param_8, param_9);
         }
         _285.Store((out_base + (i_2 * 4u)) * 4 + 12, m.path_ix);
         _285.Store(((out_base + (i_2 * 4u)) + 1u) * 4 + 12, m.clip_ix);
         _285.Store(((out_base + (i_2 * 4u)) + 2u) * 4 + 12, m.scene_offset);
         _285.Store(((out_base + (i_2 * 4u)) + 3u) * 4 + 12, m.info_offset);
         uint dd = drawdata_base + (m.scene_offset >> uint(2));
         uint di = drawinfo_base + (m.info_offset >> uint(2));
         tag_word = _103.Load(((drawtag_base + ix) + i_2) * 4 + 0);
         if (((((tag_word == 68u) || (tag_word == 276u)) || (tag_word == 732u)) || (tag_word == 72u)) || (tag_word == 5u))
         {
             uint bbox_offset = (_93.Load(40) >> uint(2)) + (6u * m.path_ix);
             float bbox_l = float(_285.Load(bbox_offset * 4 + 12)) - 32768.0f;
             float bbox_t = float(_285.Load((bbox_offset + 1u) * 4 + 12)) - 32768.0f;
             float bbox_r = float(_285.Load((bbox_offset + 2u) * 4 + 12)) - 32768.0f;
             float bbox_b = float(_285.Load((bbox_offset + 3u) * 4 + 12)) - 32768.0f;
             float4 bbox = float4(bbox_l, bbox_t, bbox_r, bbox_b);
             float linewidth = asfloat(_285.Load((bbox_offset + 4u) * 4 + 12));
             uint fill_mode = uint(linewidth >= 0.0f);
             if (((linewidth >= 0.0f) || (tag_word == 276u)) || (tag_word == 732u))
             {
                 uint trans_ix = _285.Load((bbox_offset + 5u) * 4 + 12);
                 uint t = (_93.Load(84) >> uint(2)) + (trans_ix * 6u);
                 mat = asfloat(uint4(_103.Load(t * 4 + 0), _103.Load((t + 1u) * 4 + 0), _103.Load((t + 2u) * 4 + 0), _103.Load((t + 3u) * 4 + 0)));
                 if ((tag_word == 276u) || (tag_word == 732u))
                 {
                     translate = asfloat(uint2(_103.Load((t + 4u) * 4 + 0), _103.Load((t + 5u) * 4 + 0)));
                 }
             }
             if (linewidth >= 0.0f)
             {
                 linewidth *= sqrt(abs((mat.x * mat.w) - (mat.y * mat.z)));
             }
             switch (tag_word)
             {
                 case 68u:
                 case 72u:
                 {
                     _285.Store(di * 4 + 12, asuint(linewidth));
                     break;
                 }
                 case 276u:
                 {
                     _285.Store(di * 4 + 12, asuint(linewidth));
                     p0 = asfloat(uint2(_103.Load((dd + 1u) * 4 + 0), _103.Load((dd + 2u) * 4 + 0)));
                     p1 = asfloat(uint2(_103.Load((dd + 3u) * 4 + 0), _103.Load((dd + 4u) * 4 + 0)));
                     p0 = ((mat.xy * p0.x) + (mat.zw * p0.y)) + translate;
                     p1 = ((mat.xy * p1.x) + (mat.zw * p1.y)) + translate;
                     float2 dxy = p1 - p0;
                     float scale = 1.0f / ((dxy.x * dxy.x) + (dxy.y * dxy.y));
                     float line_x = dxy.x * scale;
                     float line_y = dxy.y * scale;
                     float line_c = -((p0.x * line_x) + (p0.y * line_y));
                     _285.Store((di + 1u) * 4 + 12, asuint(line_x));
                     _285.Store((di + 2u) * 4 + 12, asuint(line_y));
                     _285.Store((di + 3u) * 4 + 12, asuint(line_c));
                     break;
                 }
                 case 732u:
                 {
                     p0 = asfloat(uint2(_103.Load((dd + 1u) * 4 + 0), _103.Load((dd + 2u) * 4 + 0)));
                     p1 = asfloat(uint2(_103.Load((dd + 3u) * 4 + 0), _103.Load((dd + 4u) * 4 + 0)));
                     float r0 = asfloat(_103.Load((dd + 5u) * 4 + 0));
                     float r1 = asfloat(_103.Load((dd + 6u) * 4 + 0));
                     float inv_det = 1.0f / ((mat.x * mat.w) - (mat.y * mat.z));
                     float4 inv_mat = float4(mat.w, -mat.y, -mat.z, mat.x) * inv_det;
                     float2 inv_tr = (inv_mat.xz * translate.x) + (inv_mat.yw * translate.y);
                     inv_tr += p0;
                     float2 center1 = p1 - p0;
                     float rr = r1 / (r1 - r0);
                     float rainv = rr / ((r1 * r1) - dot(center1, center1));
                     float2 c1 = center1 * rainv;
                     float ra = rr * rainv;
                     float roff = rr - 1.0f;
                     _285.Store(di * 4 + 12, asuint(linewidth));
                     _285.Store((di + 1u) * 4 + 12, asuint(inv_mat.x));
                     _285.Store((di + 2u) * 4 + 12, asuint(inv_mat.y));
                     _285.Store((di + 3u) * 4 + 12, asuint(inv_mat.z));
                     _285.Store((di + 4u) * 4 + 12, asuint(inv_mat.w));
                     _285.Store((di + 5u) * 4 + 12, asuint(inv_tr.x));
                     _285.Store((di + 6u) * 4 + 12, asuint(inv_tr.y));
                     _285.Store((di + 7u) * 4 + 12, asuint(c1.x));
                     _285.Store((di + 8u) * 4 + 12, asuint(c1.y));
                     _285.Store((di + 9u) * 4 + 12, asuint(ra));
                     _285.Store((di + 10u) * 4 + 12, asuint(roff));
                     break;
                 }
                 case 5u:
                 {
                     break;
                 }
             }
         }
         if ((tag_word == 5u) || (tag_word == 37u))
         {
             uint path_ix = ~(out_ix + i_2);
             if (tag_word == 5u)
             {
                 path_ix = m.path_ix;
             }
             _285.Store((clip_out_base + m.clip_ix) * 4 + 12, path_ix);
         }
     }
 }

 [numthreads(256, 1, 1)]
 void main(SPIRV_Cross_Input stage_input)
 {
     gl_WorkGroupID = stage_input.gl_WorkGroupID;
     gl_LocalInvocationID = stage_input.gl_LocalInvocationID;
     gl_GlobalInvocationID = stage_input.gl_GlobalInvocationID;
     comp_main();
 }
	struct DrawMonoid
	{
	uint path_ix;
	uint clip_ix;
	uint scene_offset;
	uint info_offset;
	};

	struct Alloc
	{
	uint offset;
	};

	struct Config
	{
	uint mem_size;
	uint n_elements;
	uint n_pathseg;
	uint width_in_tiles;
	uint height_in_tiles;
	Alloc tile_alloc;
	Alloc bin_alloc;
	Alloc ptcl_alloc;
	Alloc pathseg_alloc;
	Alloc anno_alloc;
	Alloc path_bbox_alloc;
	Alloc drawmonoid_alloc;
	Alloc clip_alloc;
	Alloc clip_bic_alloc;
	Alloc clip_stack_alloc;
	Alloc clip_bbox_alloc;
	Alloc draw_bbox_alloc;
	Alloc drawinfo_alloc;
	uint n_trans;
	uint n_path;
	uint n_clip;
	uint trans_offset;
	uint linewidth_offset;
	uint pathtag_offset;
	uint pathseg_offset;
	uint drawtag_offset;
	uint drawdata_offset;
	};

	static const uint3 gl_WorkGroupSize = uint3(256u, 1u, 1u);

	static const DrawMonoid _23 = { 0u, 0u, 0u, 0u };

	ByteAddressBuffer _93 : register(t1, space0);
	ByteAddressBuffer _103 : register(t2, space0);
	ByteAddressBuffer _203 : register(t3, space0);
	RWByteAddressBuffer _285 : register(u0, space0);

	static uint3 gl_WorkGroupID;
	static uint3 gl_LocalInvocationID;
	static uint3 gl_GlobalInvocationID;
	struct SPIRV_Cross_Input
	{
	uint3 gl_WorkGroupID : SV_GroupID;
	uint3 gl_LocalInvocationID : SV_GroupThreadID;
	uint3 gl_GlobalInvocationID : SV_DispatchThreadID;
	};

	groupshared DrawMonoid sh_scratch[256];

	DrawMonoid map_tag(uint tag_word)
	{
	uint has_path = uint(tag_word != 0u);
	DrawMonoid _76 = { has_path, tag_word & 1u, tag_word & 28u, (tag_word >> uint(4)) & 60u };
	return _76;
	}

	DrawMonoid combine_draw_monoid(DrawMonoid a, DrawMonoid b)
	{
	DrawMonoid c;
	c.path_ix = a.path_ix + b.path_ix;
	c.clip_ix = a.clip_ix + b.clip_ix;
	c.scene_offset = a.scene_offset + b.scene_offset;
	c.info_offset = a.info_offset + b.info_offset;
	return c;
	}

	DrawMonoid draw_monoid_identity()
	{
	return _23;
	}

	void comp_main()
	{
	uint ix = gl_GlobalInvocationID.x * 8u;
	uint drawtag_base = _93.Load(100) >> uint(2);
	uint tag_word = _103.Load((drawtag_base + ix) * 4 + 0);
	uint param = tag_word;
	DrawMonoid agg = map_tag(param);
	DrawMonoid local[8];
	local[0] = agg;
	for (uint i = 1u; i < 8u; i++)
	{
	tag_word = _103.Load(((drawtag_base + ix) + i) * 4 + 0);
	uint param_1 = tag_word;
	DrawMonoid param_2 = agg;
	DrawMonoid param_3 = map_tag(param_1);
	agg = combine_draw_monoid(param_2, param_3);
	local[i] = agg;
	}
	sh_scratch[gl_LocalInvocationID.x] = agg;
	for (uint i_1 = 0u; i_1 < 8u; i_1++)
	{
	GroupMemoryBarrierWithGroupSync();
	if (gl_LocalInvocationID.x >= (1u << i_1))
	{
	DrawMonoid other = sh_scratch[gl_LocalInvocationID.x - (1u << i_1)];
	DrawMonoid param_4 = other;
	DrawMonoid param_5 = agg;
	agg = combine_draw_monoid(param_4, param_5);
	}
	GroupMemoryBarrierWithGroupSync();
	sh_scratch[gl_LocalInvocationID.x] = agg;
	}
	GroupMemoryBarrierWithGroupSync();
	DrawMonoid row = draw_monoid_identity();
	if (gl_WorkGroupID.x > 0u)
	{
	DrawMonoid _209;
	_209.path_ix = _203.Load((gl_WorkGroupID.x - 1u) * 16 + 0);
	_209.clip_ix = _203.Load((gl_WorkGroupID.x - 1u) * 16 + 4);
	_209.scene_offset = _203.Load((gl_WorkGroupID.x - 1u) * 16 + 8);
	_209.info_offset = _203.Load((gl_WorkGroupID.x - 1u) * 16 + 12);
	row.path_ix = _209.path_ix;
	row.clip_ix = _209.clip_ix;
	row.scene_offset = _209.scene_offset;
	row.info_offset = _209.info_offset;
	}
	if (gl_LocalInvocationID.x > 0u)
	{
	DrawMonoid param_6 = row;
	DrawMonoid param_7 = sh_scratch[gl_LocalInvocationID.x - 1u];
	row = combine_draw_monoid(param_6, param_7);
	}
	uint drawdata_base = _93.Load(104) >> uint(2);
	uint drawinfo_base = _93.Load(68) >> uint(2);
	uint out_ix = gl_GlobalInvocationID.x * 8u;
	uint out_base = (_93.Load(44) >> uint(2)) + (out_ix * 4u);
	uint clip_out_base = _93.Load(48) >> uint(2);
	float4 mat;
	float2 translate;
	float2 p0;
	float2 p1;
	for (uint i_2 = 0u; i_2 < 8u; i_2++)
	{
	DrawMonoid m = row;
	if (i_2 > 0u)
	{
	DrawMonoid param_8 = m;
	DrawMonoid param_9 = local[i_2 - 1u];
	m = combine_draw_monoid(param_8, param_9);
	}
	_285.Store((out_base + (i_2 * 4u)) * 4 + 12, m.path_ix);
	_285.Store(((out_base + (i_2 * 4u)) + 1u) * 4 + 12, m.clip_ix);
	_285.Store(((out_base + (i_2 * 4u)) + 2u) * 4 + 12, m.scene_offset);
	_285.Store(((out_base + (i_2 * 4u)) + 3u) * 4 + 12, m.info_offset);
	uint dd = drawdata_base + (m.scene_offset >> uint(2));
	uint di = drawinfo_base + (m.info_offset >> uint(2));
	tag_word = _103.Load(((drawtag_base + ix) + i_2) * 4 + 0);
	if (((((tag_word == 68u) \|\| (tag_word == 276u)) \|\| (tag_word == 732u)) \|\| (tag_word == 72u)) \|\| (tag_word == 5u))
	{
	uint bbox_offset = (_93.Load(40) >> uint(2)) + (6u * m.path_ix);
	float bbox_l = float(_285.Load(bbox_offset * 4 + 12)) - 32768.0f;
	float bbox_t = float(_285.Load((bbox_offset + 1u) * 4 + 12)) - 32768.0f;
	float bbox_r = float(_285.Load((bbox_offset + 2u) * 4 + 12)) - 32768.0f;
	float bbox_b = float(_285.Load((bbox_offset + 3u) * 4 + 12)) - 32768.0f;
	float4 bbox = float4(bbox_l, bbox_t, bbox_r, bbox_b);
	float linewidth = asfloat(_285.Load((bbox_offset + 4u) * 4 + 12));
	uint fill_mode = uint(linewidth >= 0.0f);
	if (((linewidth >= 0.0f) \|\| (tag_word == 276u)) \|\| (tag_word == 732u))
	{
	uint trans_ix = _285.Load((bbox_offset + 5u) * 4 + 12);
	uint t = (_93.Load(84) >> uint(2)) + (trans_ix * 6u);
	mat = asfloat(uint4(_103.Load(t * 4 + 0), _103.Load((t + 1u) * 4 + 0), _103.Load((t + 2u) * 4 + 0), _103.Load((t + 3u) * 4 + 0)));
	if ((tag_word == 276u) \|\| (tag_word == 732u))
	{
	translate = asfloat(uint2(_103.Load((t + 4u) * 4 + 0), _103.Load((t + 5u) * 4 + 0)));
	}
	}
	if (linewidth >= 0.0f)
	{
	linewidth = sqrt(abs((mat.x mat.w) - (mat.y * mat.z)));
	}
	switch (tag_word)
	{
	case 68u:
	case 72u:
	{
	_285.Store(di * 4 + 12, asuint(linewidth));
	break;
	}
	case 276u:
	{
	_285.Store(di * 4 + 12, asuint(linewidth));
	p0 = asfloat(uint2(_103.Load((dd + 1u) * 4 + 0), _103.Load((dd + 2u) * 4 + 0)));
	p1 = asfloat(uint2(_103.Load((dd + 3u) * 4 + 0), _103.Load((dd + 4u) * 4 + 0)));
	p0 = ((mat.xy * p0.x) + (mat.zw * p0.y)) + translate;
	p1 = ((mat.xy * p1.x) + (mat.zw * p1.y)) + translate;
	float2 dxy = p1 - p0;
	float scale = 1.0f / ((dxy.x * dxy.x) + (dxy.y * dxy.y));
	float line_x = dxy.x * scale;
	float line_y = dxy.y * scale;
	float line_c = -((p0.x * line_x) + (p0.y * line_y));
	_285.Store((di + 1u) * 4 + 12, asuint(line_x));
	_285.Store((di + 2u) * 4 + 12, asuint(line_y));
	_285.Store((di + 3u) * 4 + 12, asuint(line_c));
	break;
	}
	case 732u:
	{
	p0 = asfloat(uint2(_103.Load((dd + 1u) * 4 + 0), _103.Load((dd + 2u) * 4 + 0)));
	p1 = asfloat(uint2(_103.Load((dd + 3u) * 4 + 0), _103.Load((dd + 4u) * 4 + 0)));
	float r0 = asfloat(_103.Load((dd + 5u) * 4 + 0));
	float r1 = asfloat(_103.Load((dd + 6u) * 4 + 0));
	float inv_det = 1.0f / ((mat.x * mat.w) - (mat.y * mat.z));
	float4 inv_mat = float4(mat.w, -mat.y, -mat.z, mat.x) * inv_det;
	float2 inv_tr = (inv_mat.xz * translate.x) + (inv_mat.yw * translate.y);
	inv_tr += p0;
	float2 center1 = p1 - p0;
	float rr = r1 / (r1 - r0);
	float rainv = rr / ((r1 * r1) - dot(center1, center1));
	float2 c1 = center1 * rainv;
	float ra = rr * rainv;
	float roff = rr - 1.0f;
	_285.Store(di * 4 + 12, asuint(linewidth));
	_285.Store((di + 1u) * 4 + 12, asuint(inv_mat.x));
	_285.Store((di + 2u) * 4 + 12, asuint(inv_mat.y));
	_285.Store((di + 3u) * 4 + 12, asuint(inv_mat.z));
	_285.Store((di + 4u) * 4 + 12, asuint(inv_mat.w));
	_285.Store((di + 5u) * 4 + 12, asuint(inv_tr.x));
	_285.Store((di + 6u) * 4 + 12, asuint(inv_tr.y));
	_285.Store((di + 7u) * 4 + 12, asuint(c1.x));
	_285.Store((di + 8u) * 4 + 12, asuint(c1.y));
	_285.Store((di + 9u) * 4 + 12, asuint(ra));
	_285.Store((di + 10u) * 4 + 12, asuint(roff));
	break;
	}
	case 5u:
	{
	break;
	}
	}
	}
	if ((tag_word == 5u) \|\| (tag_word == 37u))
	{
	uint path_ix = ~(out_ix + i_2);
	if (tag_word == 5u)
	{
	path_ix = m.path_ix;
	}
	_285.Store((clip_out_base + m.clip_ix) * 4 + 12, path_ix);
	}
	}
	}

	[numthreads(256, 1, 1)]
	void main(SPIRV_Cross_Input stage_input)
	{
	gl_WorkGroupID = stage_input.gl_WorkGroupID;
	gl_LocalInvocationID = stage_input.gl_LocalInvocationID;
	gl_GlobalInvocationID = stage_input.gl_GlobalInvocationID;
	comp_main();
	}