mozilla-central/__GENERATED__/__RUST_BUILD_SCRIPT__/swgl/brush_image_TEXTURE_RECT.h

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struct brush_image_TEXTURE_RECT_common {
struct Samplers {
sampler2D_impl sClipMask_impl;
int sClipMask_slot;
sampler2DRect_impl sColor0_impl;
int sColor0_slot;
sampler2D_impl sGpuCache_impl;
int sGpuCache_slot;
sampler2D_impl sPrimitiveHeadersF_impl;
int sPrimitiveHeadersF_slot;
isampler2D_impl sPrimitiveHeadersI_impl;
int sPrimitiveHeadersI_slot;
sampler2D_impl sRenderTasks_impl;
int sRenderTasks_slot;
sampler2D_impl sTransformPalette_impl;
int sTransformPalette_slot;
bool set_slot(int index, int value) {
switch (index) {
case 7:
sClipMask_slot = value;
return true;
case 8:
sColor0_slot = value;
return true;
case 2:
sGpuCache_slot = value;
return true;
case 4:
sPrimitiveHeadersF_slot = value;
return true;
case 5:
sPrimitiveHeadersI_slot = value;
return true;
case 1:
sRenderTasks_slot = value;
return true;
case 3:
sTransformPalette_slot = value;
return true;
}
return false;
}
} samplers;
struct AttribLocations {
int aPosition = NULL_ATTRIB;
int aData = NULL_ATTRIB;
void bind_loc(const char* name, int index) {
if (strcmp("aPosition", name) == 0) { aPosition = index; return; }
if (strcmp("aData", name) == 0) { aData = index; return; }
}
int get_loc(const char* name) const {
if (strcmp("aPosition", name) == 0) { return aPosition != NULL_ATTRIB ? aPosition : -1; }
if (strcmp("aData", name) == 0) { return aData != NULL_ATTRIB ? aData : -1; }
return -1;
}
} attrib_locations;
vec4_scalar vTransformBounds;
vec4_scalar v_uv_bounds;
vec4_scalar v_uv_sample_bounds;
vec2_scalar v_perspective;
sampler2D sClipMask;
sampler2DRect sColor0;
sampler2D sGpuCache;
sampler2D sPrimitiveHeadersF;
isampler2D sPrimitiveHeadersI;
sampler2D sRenderTasks;
sampler2D sTransformPalette;
mat4_scalar uTransform;
void bind_textures() {
sClipMask = lookup_sampler(&samplers.sClipMask_impl, samplers.sClipMask_slot);
sColor0 = lookup_sampler(&samplers.sColor0_impl, samplers.sColor0_slot);
sGpuCache = lookup_sampler(&samplers.sGpuCache_impl, samplers.sGpuCache_slot);
sPrimitiveHeadersF = lookup_sampler(&samplers.sPrimitiveHeadersF_impl, samplers.sPrimitiveHeadersF_slot);
sPrimitiveHeadersI = lookup_isampler(&samplers.sPrimitiveHeadersI_impl, samplers.sPrimitiveHeadersI_slot);
sRenderTasks = lookup_sampler(&samplers.sRenderTasks_impl, samplers.sRenderTasks_slot);
sTransformPalette = lookup_sampler(&samplers.sTransformPalette_impl, samplers.sTransformPalette_slot);
}
};
struct brush_image_TEXTURE_RECT_vert : VertexShaderImpl, brush_image_TEXTURE_RECT_common {
private:
typedef brush_image_TEXTURE_RECT_vert Self;
// mat4_scalar uTransform;
vec2 aPosition;
// sampler2DRect sColor0;
// sampler2DRect sColor1;
// sampler2DRect sColor2;
struct RectWithSize_scalar {
vec2_scalar p0;
vec2_scalar size;
RectWithSize_scalar() = default;
RectWithSize_scalar(vec2_scalar p0, vec2_scalar size) : p0(p0), size(size){}
};
struct RectWithSize {
vec2 p0;
vec2 size;
RectWithSize() = default;
RectWithSize(vec2 p0, vec2 size) : p0(p0), size(size){}
RectWithSize(vec2_scalar p0, vec2_scalar size):p0(p0),size(size){
}
IMPLICIT RectWithSize(RectWithSize_scalar s):p0(s.p0),size(s.size){
}
friend RectWithSize if_then_else(I32 c, RectWithSize t, RectWithSize e) { return RectWithSize(
if_then_else(c, t.p0, e.p0), if_then_else(c, t.size, e.size));
}};
struct RectWithEndpoint_scalar {
vec2_scalar p0;
vec2_scalar p1;
RectWithEndpoint_scalar() = default;
RectWithEndpoint_scalar(vec2_scalar p0, vec2_scalar p1) : p0(p0), p1(p1){}
};
struct RectWithEndpoint {
vec2 p0;
vec2 p1;
RectWithEndpoint() = default;
RectWithEndpoint(vec2 p0, vec2 p1) : p0(p0), p1(p1){}
RectWithEndpoint(vec2_scalar p0, vec2_scalar p1):p0(p0),p1(p1){
}
IMPLICIT RectWithEndpoint(RectWithEndpoint_scalar s):p0(s.p0),p1(s.p1){
}
friend RectWithEndpoint if_then_else(I32 c, RectWithEndpoint t, RectWithEndpoint e) { return RectWithEndpoint(
if_then_else(c, t.p0, e.p0), if_then_else(c, t.p1, e.p1));
}};
// sampler2D sRenderTasks;
struct RenderTaskData_scalar {
RectWithEndpoint_scalar task_rect;
vec4_scalar user_data;
RenderTaskData_scalar() = default;
RenderTaskData_scalar(RectWithEndpoint_scalar task_rect, vec4_scalar user_data) : task_rect(task_rect), user_data(user_data){}
};
struct RenderTaskData {
RectWithEndpoint task_rect;
vec4 user_data;
RenderTaskData() = default;
RenderTaskData(RectWithEndpoint task_rect, vec4 user_data) : task_rect(task_rect), user_data(user_data){}
RenderTaskData(RectWithEndpoint_scalar task_rect, vec4_scalar user_data):task_rect(task_rect),user_data(user_data){
}
IMPLICIT RenderTaskData(RenderTaskData_scalar s):task_rect(s.task_rect),user_data(s.user_data){
}
friend RenderTaskData if_then_else(I32 c, RenderTaskData t, RenderTaskData e) { return RenderTaskData(
if_then_else(c, t.task_rect, e.task_rect), if_then_else(c, t.user_data, e.user_data));
}};
struct PictureTask_scalar {
RectWithEndpoint_scalar task_rect;
float device_pixel_scale;
vec2_scalar content_origin;
PictureTask_scalar() = default;
PictureTask_scalar(RectWithEndpoint_scalar task_rect, float device_pixel_scale, vec2_scalar content_origin) : task_rect(task_rect), device_pixel_scale(device_pixel_scale), content_origin(content_origin){}
};
struct PictureTask {
RectWithEndpoint task_rect;
Float device_pixel_scale;
vec2 content_origin;
PictureTask() = default;
PictureTask(RectWithEndpoint task_rect, Float device_pixel_scale, vec2 content_origin) : task_rect(task_rect), device_pixel_scale(device_pixel_scale), content_origin(content_origin){}
PictureTask(RectWithEndpoint_scalar task_rect, float device_pixel_scale, vec2_scalar content_origin):task_rect(task_rect),device_pixel_scale(device_pixel_scale),content_origin(content_origin){
}
IMPLICIT PictureTask(PictureTask_scalar s):task_rect(s.task_rect),device_pixel_scale(s.device_pixel_scale),content_origin(s.content_origin){
}
friend PictureTask if_then_else(I32 c, PictureTask t, PictureTask e) { return PictureTask(
if_then_else(c, t.task_rect, e.task_rect), if_then_else(c, t.device_pixel_scale, e.device_pixel_scale), if_then_else(c, t.content_origin, e.content_origin));
}};
struct ClipArea_scalar {
RectWithEndpoint_scalar task_rect;
float device_pixel_scale;
vec2_scalar screen_origin;
ClipArea_scalar() = default;
ClipArea_scalar(RectWithEndpoint_scalar task_rect, float device_pixel_scale, vec2_scalar screen_origin) : task_rect(task_rect), device_pixel_scale(device_pixel_scale), screen_origin(screen_origin){}
};
struct ClipArea {
RectWithEndpoint task_rect;
Float device_pixel_scale;
vec2 screen_origin;
ClipArea() = default;
ClipArea(RectWithEndpoint task_rect, Float device_pixel_scale, vec2 screen_origin) : task_rect(task_rect), device_pixel_scale(device_pixel_scale), screen_origin(screen_origin){}
ClipArea(RectWithEndpoint_scalar task_rect, float device_pixel_scale, vec2_scalar screen_origin):task_rect(task_rect),device_pixel_scale(device_pixel_scale),screen_origin(screen_origin){
}
IMPLICIT ClipArea(ClipArea_scalar s):task_rect(s.task_rect),device_pixel_scale(s.device_pixel_scale),screen_origin(s.screen_origin){
}
friend ClipArea if_then_else(I32 c, ClipArea t, ClipArea e) { return ClipArea(
if_then_else(c, t.task_rect, e.task_rect), if_then_else(c, t.device_pixel_scale, e.device_pixel_scale), if_then_else(c, t.screen_origin, e.screen_origin));
}};
// sampler2D sGpuCache;
struct ImageSource_scalar {
RectWithEndpoint_scalar uv_rect;
vec4_scalar user_data;
ImageSource_scalar() = default;
ImageSource_scalar(RectWithEndpoint_scalar uv_rect, vec4_scalar user_data) : uv_rect(uv_rect), user_data(user_data){}
};
struct ImageSource {
RectWithEndpoint uv_rect;
vec4 user_data;
ImageSource() = default;
ImageSource(RectWithEndpoint uv_rect, vec4 user_data) : uv_rect(uv_rect), user_data(user_data){}
ImageSource(RectWithEndpoint_scalar uv_rect, vec4_scalar user_data):uv_rect(uv_rect),user_data(user_data){
}
IMPLICIT ImageSource(ImageSource_scalar s):uv_rect(s.uv_rect),user_data(s.user_data){
}
friend ImageSource if_then_else(I32 c, ImageSource t, ImageSource e) { return ImageSource(
if_then_else(c, t.uv_rect, e.uv_rect), if_then_else(c, t.user_data, e.user_data));
}};
struct ImageSourceExtra_scalar {
vec4_scalar st_tl;
vec4_scalar st_tr;
vec4_scalar st_bl;
vec4_scalar st_br;
ImageSourceExtra_scalar() = default;
ImageSourceExtra_scalar(vec4_scalar st_tl, vec4_scalar st_tr, vec4_scalar st_bl, vec4_scalar st_br) : st_tl(st_tl), st_tr(st_tr), st_bl(st_bl), st_br(st_br){}
};
struct ImageSourceExtra {
vec4 st_tl;
vec4 st_tr;
vec4 st_bl;
vec4 st_br;
ImageSourceExtra() = default;
ImageSourceExtra(vec4 st_tl, vec4 st_tr, vec4 st_bl, vec4 st_br) : st_tl(st_tl), st_tr(st_tr), st_bl(st_bl), st_br(st_br){}
ImageSourceExtra(vec4_scalar st_tl, vec4_scalar st_tr, vec4_scalar st_bl, vec4_scalar st_br):st_tl(st_tl),st_tr(st_tr),st_bl(st_bl),st_br(st_br){
}
IMPLICIT ImageSourceExtra(ImageSourceExtra_scalar s):st_tl(s.st_tl),st_tr(s.st_tr),st_bl(s.st_bl),st_br(s.st_br){
}
friend ImageSourceExtra if_then_else(I32 c, ImageSourceExtra t, ImageSourceExtra e) { return ImageSourceExtra(
if_then_else(c, t.st_tl, e.st_tl), if_then_else(c, t.st_tr, e.st_tr), if_then_else(c, t.st_bl, e.st_bl), if_then_else(c, t.st_br, e.st_br));
}};
// vec4_scalar vTransformBounds;
// sampler2D sTransformPalette;
struct Transform_scalar {
mat4_scalar m;
mat4_scalar inv_m;
bool is_axis_aligned;
Transform_scalar() = default;
Transform_scalar(mat4_scalar m, mat4_scalar inv_m, bool is_axis_aligned) : m(m), inv_m(inv_m), is_axis_aligned(is_axis_aligned){}
};
struct Transform {
mat4 m;
mat4 inv_m;
Bool is_axis_aligned;
Transform() = default;
Transform(mat4 m, mat4 inv_m, Bool is_axis_aligned) : m(m), inv_m(inv_m), is_axis_aligned(is_axis_aligned){}
Transform(mat4_scalar m, mat4_scalar inv_m, bool is_axis_aligned):m(m),inv_m(inv_m),is_axis_aligned(is_axis_aligned){
}
IMPLICIT Transform(Transform_scalar s):m(s.m),inv_m(s.inv_m),is_axis_aligned(s.is_axis_aligned){
}
friend Transform if_then_else(I32 c, Transform t, Transform e) { return Transform(
if_then_else(c, t.m, e.m), if_then_else(c, t.inv_m, e.inv_m), if_then_else(c, t.is_axis_aligned, e.is_axis_aligned));
}};
// sampler2D sClipMask;
// sampler2D sPrimitiveHeadersF;
// isampler2D sPrimitiveHeadersI;
ivec4_scalar aData;
struct Instance_scalar {
int32_t prim_header_address;
int32_t clip_address;
int32_t segment_index;
int32_t flags;
int32_t resource_address;
int32_t brush_kind;
Instance_scalar() = default;
Instance_scalar(int32_t prim_header_address, int32_t clip_address, int32_t segment_index, int32_t flags, int32_t resource_address, int32_t brush_kind) : prim_header_address(prim_header_address), clip_address(clip_address), segment_index(segment_index), flags(flags), resource_address(resource_address), brush_kind(brush_kind){}
};
struct Instance {
I32 prim_header_address;
I32 clip_address;
I32 segment_index;
I32 flags;
I32 resource_address;
I32 brush_kind;
Instance() = default;
Instance(I32 prim_header_address, I32 clip_address, I32 segment_index, I32 flags, I32 resource_address, I32 brush_kind) : prim_header_address(prim_header_address), clip_address(clip_address), segment_index(segment_index), flags(flags), resource_address(resource_address), brush_kind(brush_kind){}
Instance(int32_t prim_header_address, int32_t clip_address, int32_t segment_index, int32_t flags, int32_t resource_address, int32_t brush_kind):prim_header_address(prim_header_address),clip_address(clip_address),segment_index(segment_index),flags(flags),resource_address(resource_address),brush_kind(brush_kind){
}
IMPLICIT Instance(Instance_scalar s):prim_header_address(s.prim_header_address),clip_address(s.clip_address),segment_index(s.segment_index),flags(s.flags),resource_address(s.resource_address),brush_kind(s.brush_kind){
}
friend Instance if_then_else(I32 c, Instance t, Instance e) { return Instance(
if_then_else(c, t.prim_header_address, e.prim_header_address), if_then_else(c, t.clip_address, e.clip_address), if_then_else(c, t.segment_index, e.segment_index), if_then_else(c, t.flags, e.flags), if_then_else(c, t.resource_address, e.resource_address), if_then_else(c, t.brush_kind, e.brush_kind));
}};
struct PrimitiveHeader_scalar {
RectWithEndpoint_scalar local_rect;
RectWithEndpoint_scalar local_clip_rect;
float z;
int32_t specific_prim_address;
int32_t transform_id;
int32_t picture_task_address;
ivec4_scalar user_data;
PrimitiveHeader_scalar() = default;
PrimitiveHeader_scalar(RectWithEndpoint_scalar local_rect, RectWithEndpoint_scalar local_clip_rect, float z, int32_t specific_prim_address, int32_t transform_id, int32_t picture_task_address, ivec4_scalar user_data) : local_rect(local_rect), local_clip_rect(local_clip_rect), z(z), specific_prim_address(specific_prim_address), transform_id(transform_id), picture_task_address(picture_task_address), user_data(user_data){}
};
struct PrimitiveHeader {
RectWithEndpoint local_rect;
RectWithEndpoint local_clip_rect;
Float z;
I32 specific_prim_address;
I32 transform_id;
I32 picture_task_address;
ivec4 user_data;
PrimitiveHeader() = default;
PrimitiveHeader(RectWithEndpoint local_rect, RectWithEndpoint local_clip_rect, Float z, I32 specific_prim_address, I32 transform_id, I32 picture_task_address, ivec4 user_data) : local_rect(local_rect), local_clip_rect(local_clip_rect), z(z), specific_prim_address(specific_prim_address), transform_id(transform_id), picture_task_address(picture_task_address), user_data(user_data){}
PrimitiveHeader(RectWithEndpoint_scalar local_rect, RectWithEndpoint_scalar local_clip_rect, float z, int32_t specific_prim_address, int32_t transform_id, int32_t picture_task_address, ivec4_scalar user_data):local_rect(local_rect),local_clip_rect(local_clip_rect),z(z),specific_prim_address(specific_prim_address),transform_id(transform_id),picture_task_address(picture_task_address),user_data(user_data){
}
IMPLICIT PrimitiveHeader(PrimitiveHeader_scalar s):local_rect(s.local_rect),local_clip_rect(s.local_clip_rect),z(s.z),specific_prim_address(s.specific_prim_address),transform_id(s.transform_id),picture_task_address(s.picture_task_address),user_data(s.user_data){
}
friend PrimitiveHeader if_then_else(I32 c, PrimitiveHeader t, PrimitiveHeader e) { return PrimitiveHeader(
if_then_else(c, t.local_rect, e.local_rect), if_then_else(c, t.local_clip_rect, e.local_clip_rect), if_then_else(c, t.z, e.z), if_then_else(c, t.specific_prim_address, e.specific_prim_address), if_then_else(c, t.transform_id, e.transform_id), if_then_else(c, t.picture_task_address, e.picture_task_address), if_then_else(c, t.user_data, e.user_data));
}};
struct VertexInfo_scalar {
vec2_scalar local_pos;
vec4_scalar world_pos;
VertexInfo_scalar() = default;
VertexInfo_scalar(vec2_scalar local_pos, vec4_scalar world_pos) : local_pos(local_pos), world_pos(world_pos){}
};
struct VertexInfo {
vec2 local_pos;
vec4 world_pos;
VertexInfo() = default;
VertexInfo(vec2 local_pos, vec4 world_pos) : local_pos(local_pos), world_pos(world_pos){}
VertexInfo(vec2_scalar local_pos, vec4_scalar world_pos):local_pos(local_pos),world_pos(world_pos){
}
IMPLICIT VertexInfo(VertexInfo_scalar s):local_pos(s.local_pos),world_pos(s.world_pos){
}
friend VertexInfo if_then_else(I32 c, VertexInfo t, VertexInfo e) { return VertexInfo(
if_then_else(c, t.local_pos, e.local_pos), if_then_else(c, t.world_pos, e.world_pos));
}};
vec2 v_uv;
// vec4_scalar v_uv_bounds;
// vec4_scalar v_uv_sample_bounds;
// vec2_scalar v_perspective;
struct ImageBrushData_scalar {
vec4_scalar color;
vec4_scalar background_color;
vec2_scalar stretch_size;
ImageBrushData_scalar() = default;
ImageBrushData_scalar(vec4_scalar color, vec4_scalar background_color, vec2_scalar stretch_size) : color(color), background_color(background_color), stretch_size(stretch_size){}
};
struct ImageBrushData {
vec4 color;
vec4 background_color;
vec2 stretch_size;
ImageBrushData() = default;
ImageBrushData(vec4 color, vec4 background_color, vec2 stretch_size) : color(color), background_color(background_color), stretch_size(stretch_size){}
ImageBrushData(vec4_scalar color, vec4_scalar background_color, vec2_scalar stretch_size):color(color),background_color(background_color),stretch_size(stretch_size){
}
IMPLICIT ImageBrushData(ImageBrushData_scalar s):color(s.color),background_color(s.background_color),stretch_size(s.stretch_size){
}
friend ImageBrushData if_then_else(I32 c, ImageBrushData t, ImageBrushData e) { return ImageBrushData(
if_then_else(c, t.color, e.color), if_then_else(c, t.background_color, e.background_color), if_then_else(c, t.stretch_size, e.stretch_size));
}};
Instance_scalar decode_instance_attributes() {
Instance_scalar instance;
(instance).prim_header_address = (aData).x;
(instance).clip_address = (aData).y;
(instance).segment_index = ((aData).z)&(65535);
(instance).flags = ((aData).z)>>(16);
(instance).resource_address = ((aData).w)&(16777215);
(instance).brush_kind = ((aData).w)>>(24);
return instance;
}
PrimitiveHeader_scalar fetch_prim_header(int32_t index) {
PrimitiveHeader_scalar ph;
ivec2_scalar uv_f = make_ivec2(make_int((2u)*((make_uint(index))%((1024u)/(2u)))), make_int((make_uint(index))/((1024u)/(2u))));
auto sPrimitiveHeadersF_uv_f_fetch = texelFetchPtr(sPrimitiveHeadersF, uv_f, 0, 1, 0, 0);
vec4_scalar local_rect = texelFetchUnchecked(sPrimitiveHeadersF, sPrimitiveHeadersF_uv_f_fetch, 0, 0);
vec4_scalar local_clip_rect = texelFetchUnchecked(sPrimitiveHeadersF, sPrimitiveHeadersF_uv_f_fetch, 1, 0);
(ph).local_rect = RectWithEndpoint_scalar((local_rect).sel(X,Y), (local_rect).sel(Z,W));
(ph).local_clip_rect = RectWithEndpoint_scalar((local_clip_rect).sel(X,Y), (local_clip_rect).sel(Z,W));
ivec2_scalar uv_i = make_ivec2(make_int((2u)*((make_uint(index))%((1024u)/(2u)))), make_int((make_uint(index))/((1024u)/(2u))));
auto sPrimitiveHeadersI_uv_i_fetch = texelFetchPtr(sPrimitiveHeadersI, uv_i, 0, 1, 0, 0);
ivec4_scalar data0 = texelFetchUnchecked(sPrimitiveHeadersI, sPrimitiveHeadersI_uv_i_fetch, 0, 0);
ivec4_scalar data1 = texelFetchUnchecked(sPrimitiveHeadersI, sPrimitiveHeadersI_uv_i_fetch, 1, 0);
(ph).z = make_float((data0).x);
(ph).specific_prim_address = (data0).y;
(ph).transform_id = (data0).z;
(ph).picture_task_address = (data0).w;
(ph).user_data = data1;
return ph;
}
Transform_scalar fetch_transform(int32_t id) {
Transform_scalar transform;
(transform).is_axis_aligned = ((id)>>(23))==(0);
int32_t index = (id)&(8388607);
ivec2_scalar uv = make_ivec2(make_int((8u)*((make_uint(index))%((1024u)/(8u)))), make_int((make_uint(index))/((1024u)/(8u))));
ivec2_scalar uv0 = make_ivec2(((uv).x)+(0), (uv).y);
auto sTransformPalette_uv0_fetch = texelFetchPtr(sTransformPalette, uv0, 0, 7, 0, 0);
(transform).m[0] = texelFetchUnchecked(sTransformPalette, sTransformPalette_uv0_fetch, 0, 0);
(transform).m[1] = texelFetchUnchecked(sTransformPalette, sTransformPalette_uv0_fetch, 1, 0);
(transform).m[2] = texelFetchUnchecked(sTransformPalette, sTransformPalette_uv0_fetch, 2, 0);
(transform).m[3] = texelFetchUnchecked(sTransformPalette, sTransformPalette_uv0_fetch, 3, 0);
(transform).inv_m[0] = texelFetchUnchecked(sTransformPalette, sTransformPalette_uv0_fetch, 4, 0);
(transform).inv_m[1] = texelFetchUnchecked(sTransformPalette, sTransformPalette_uv0_fetch, 5, 0);
(transform).inv_m[2] = texelFetchUnchecked(sTransformPalette, sTransformPalette_uv0_fetch, 6, 0);
(transform).inv_m[3] = texelFetchUnchecked(sTransformPalette, sTransformPalette_uv0_fetch, 7, 0);
return transform;
}
RenderTaskData_scalar fetch_render_task_data(int32_t index) {
ivec2_scalar uv = make_ivec2(make_int((2u)*((make_uint(index))%((1024u)/(2u)))), make_int((make_uint(index))/((1024u)/(2u))));
auto sRenderTasks_uv_fetch = texelFetchPtr(sRenderTasks, uv, 0, 1, 0, 0);
vec4_scalar texel0 = texelFetchUnchecked(sRenderTasks, sRenderTasks_uv_fetch, 0, 0);
vec4_scalar texel1 = texelFetchUnchecked(sRenderTasks, sRenderTasks_uv_fetch, 1, 0);
RectWithEndpoint_scalar task_rect = RectWithEndpoint_scalar((texel0).sel(X,Y), (texel0).sel(Z,W));
RenderTaskData_scalar data = RenderTaskData_scalar(task_rect, texel1);
return data;
}
PictureTask_scalar fetch_picture_task(int32_t address) {
RenderTaskData_scalar task_data = fetch_render_task_data(address);
PictureTask_scalar task = PictureTask_scalar((task_data).task_rect, ((task_data).user_data).x, ((task_data).user_data).sel(Y,Z));
return task;
}
ClipArea_scalar fetch_clip_area(int32_t index) {
RenderTaskData_scalar task_data;
if ((index)>=(2147483647)) {
{
task_data = RenderTaskData_scalar(RectWithEndpoint_scalar(make_vec2(0.f), make_vec2(0.f)), make_vec4(0.f));
}
} else {
task_data = fetch_render_task_data(index);
}
return ClipArea_scalar((task_data).task_rect, ((task_data).user_data).x, ((task_data).user_data).sel(Y,Z));
}
ivec2_scalar get_gpu_cache_uv(int32_t address) {
return make_ivec2((make_uint(address))%(1024u), (make_uint(address))/(1024u));
}
Array<vec4_scalar,2> fetch_from_gpu_cache_2(int32_t address) {
ivec2_scalar uv = get_gpu_cache_uv(address);
auto sGpuCache_uv_fetch = texelFetchPtr(sGpuCache, uv, 0, 1, 0, 0);
return Array<vec4_scalar,2>{{texelFetchUnchecked(sGpuCache, sGpuCache_uv_fetch, 0, 0), texelFetchUnchecked(sGpuCache, sGpuCache_uv_fetch, 1, 0)}};
}
RectWithEndpoint_scalar clip_and_init_antialiasing(RectWithEndpoint_scalar segment_rect, RectWithEndpoint_scalar prim_rect, RectWithEndpoint_scalar clip_rect, int32_t edge_flags, float z, Transform_scalar transform, PictureTask_scalar task) {
bvec4_scalar clipped = make_bvec4(greaterThan((clip_rect).p0, (segment_rect).p0), lessThan((clip_rect).p1, (segment_rect).p1));
swgl_antiAlias((edge_flags)|(((clipped).x ? 1 : 0)|(((clipped).y ? 2 : 0)|(((clipped).z ? 4 : 0)|((clipped).w ? 8 : 0)))));
(segment_rect).p0 = clamp((segment_rect).p0, (clip_rect).p0, (clip_rect).p1);
(segment_rect).p1 = clamp((segment_rect).p1, (clip_rect).p0, (clip_rect).p1);
return segment_rect;
}
vec2 rect_clamp(RectWithEndpoint_scalar rect, vec2 pt) {
return clamp(pt, (rect).p0, (rect).p1);
}
VertexInfo write_vertex(vec2 local_pos, RectWithEndpoint_scalar local_clip_rect, float z, Transform_scalar transform, PictureTask_scalar task) {
vec2 clamped_local_pos = rect_clamp(local_clip_rect, local_pos);
vec4 world_pos = ((transform).m)*(make_vec4(clamped_local_pos, 0.f, 1.f));
vec2 device_pos = ((world_pos).sel(X,Y))*((task).device_pixel_scale);
vec2_scalar final_offset = (-((task).content_origin))+(((task).task_rect).p0);
gl_Position = (uTransform)*(make_vec4((device_pos)+((final_offset)*((world_pos).w)), (z)*((world_pos).w), (world_pos).w));
VertexInfo vi = VertexInfo(clamped_local_pos, world_pos);
return vi;
}
vec2_scalar rect_size(RectWithEndpoint_scalar rect) {
return ((rect).p1)-((rect).p0);
}
void write_clip(vec4 world_pos, ClipArea_scalar area, PictureTask_scalar task) {
swgl_clipMask(sClipMask, ((((task).task_rect).p0)-((task).content_origin))-((((area).task_rect).p0)-((area).screen_origin)), ((area).task_rect).p0, rect_size((area).task_rect));
}
Array<vec4_scalar,3> fetch_from_gpu_cache_3(int32_t address) {
ivec2_scalar uv = get_gpu_cache_uv(address);
auto sGpuCache_uv_fetch = texelFetchPtr(sGpuCache, uv, 0, 2, 0, 0);
return Array<vec4_scalar,3>{{texelFetchUnchecked(sGpuCache, sGpuCache_uv_fetch, 0, 0), texelFetchUnchecked(sGpuCache, sGpuCache_uv_fetch, 1, 0), texelFetchUnchecked(sGpuCache, sGpuCache_uv_fetch, 2, 0)}};
}
ImageBrushData_scalar fetch_image_data(int32_t address) {
Array<vec4_scalar,3> raw_data = fetch_from_gpu_cache_3(address);
ImageBrushData_scalar data = ImageBrushData_scalar(raw_data[0], raw_data[1], (raw_data[2]).sel(X,Y));
return data;
}
ImageSource_scalar fetch_image_source(int32_t address) {
Array<vec4_scalar,2> data = fetch_from_gpu_cache_2(address);
RectWithEndpoint_scalar uv_rect = RectWithEndpoint_scalar((data[0]).sel(X,Y), (data[0]).sel(Z,W));
return ImageSource_scalar(uv_rect, data[1]);
}
Array<vec4_scalar,4> fetch_from_gpu_cache_4(int32_t address) {
ivec2_scalar uv = get_gpu_cache_uv(address);
auto sGpuCache_uv_fetch = texelFetchPtr(sGpuCache, uv, 0, 3, 0, 0);
return Array<vec4_scalar,4>{{texelFetchUnchecked(sGpuCache, sGpuCache_uv_fetch, 0, 0), texelFetchUnchecked(sGpuCache, sGpuCache_uv_fetch, 1, 0), texelFetchUnchecked(sGpuCache, sGpuCache_uv_fetch, 2, 0), texelFetchUnchecked(sGpuCache, sGpuCache_uv_fetch, 3, 0)}};
}
ImageSourceExtra_scalar fetch_image_source_extra(int32_t address) {
Array<vec4_scalar,4> data = fetch_from_gpu_cache_4((address)+(2));
return ImageSourceExtra_scalar(data[0], data[1], data[2], data[3]);
}
vec2 get_image_quad_uv(int32_t address, vec2 f) {
ImageSourceExtra_scalar extra_data = fetch_image_source_extra(address);
vec4 x = mix((extra_data).st_tl, (extra_data).st_tr, (f).x);
vec4 y = mix((extra_data).st_bl, (extra_data).st_br, (f).x);
vec4 z = mix(x, y, (f).y);
return ((z).sel(X,Y))/((z).w);
}
void brush_vs(VertexInfo vi, int32_t prim_address, RectWithEndpoint_scalar prim_rect, RectWithEndpoint_scalar segment_rect, ivec4_scalar prim_user_data, int32_t specific_resource_address, mat4_scalar transform, PictureTask_scalar pic_task, int32_t brush_flags, vec4_scalar segment_data) {
ImageBrushData_scalar image_data = fetch_image_data(prim_address);
vec2_scalar texture_size = make_vec2(1, 1);
ImageSource_scalar res = fetch_image_source(specific_resource_address);
vec2_scalar uv0 = ((res).uv_rect).p0;
vec2_scalar uv1 = ((res).uv_rect).p1;
RectWithEndpoint_scalar local_rect = prim_rect;
vec2_scalar stretch_size = (image_data).stretch_size;
if (((stretch_size).x)<(0.f)) {
{
stretch_size = rect_size(local_rect);
}
}
if (((brush_flags)&(2))!=(0)) {
{
local_rect = segment_rect;
stretch_size = rect_size(local_rect);
if (((brush_flags)&(512))!=(0)) {
{
vec2_scalar uv_size = (((res).uv_rect).p1)-(((res).uv_rect).p0);
uv0 = (((res).uv_rect).p0)+(((segment_data).sel(X,Y))*(uv_size));
uv1 = (((res).uv_rect).p0)+(((segment_data).sel(Z,W))*(uv_size));
}
}
}
}
float perspective_interpolate = ((brush_flags)&(1))!=(0) ? 1.f : 0.f;
(v_perspective).x = perspective_interpolate;
vec2_scalar min_uv = min(uv0, uv1);
vec2_scalar max_uv = max(uv0, uv1);
v_uv_sample_bounds = (make_vec4((min_uv)+(make_vec2(0.5f)), (max_uv)-(make_vec2(0.5f))))/((texture_size).sel(X,Y,X,Y));
vec2 f = (((vi).local_pos)-((local_rect).p0))/(rect_size(local_rect));
int32_t raster_space = (prim_user_data).y;
if ((raster_space)==(1)) {
{
f = get_image_quad_uv(specific_resource_address, f);
}
}
vec2_scalar repeat = (rect_size(local_rect))/(stretch_size);
v_uv = (mix(uv0, uv1, f))-(min_uv);
v_uv *= (repeat).sel(X,Y);
vec2_scalar normalized_offset = make_vec2(0.f);
v_uv /= texture_size;
if ((perspective_interpolate)==(0.f)) {
{
v_uv *= ((vi).world_pos).w;
}
}
v_uv_bounds = make_vec4(0.f, 0.f, make_vec2(textureSize(sColor0)));
}
void brush_shader_main_vs(Instance_scalar instance, PrimitiveHeader_scalar ph, Transform_scalar transform, PictureTask_scalar pic_task, ClipArea_scalar clip_area) {
int32_t edge_flags = (((instance).flags)>>(12))&(15);
int32_t brush_flags = ((instance).flags)&(4095);
vec4_scalar segment_data;
RectWithEndpoint_scalar segment_rect;
if (((instance).segment_index)==(65535)) {
{
segment_rect = (ph).local_rect;
segment_data = make_vec4(0.f);
}
} else {
int32_t segment_address = (((ph).specific_prim_address)+(3))+(((instance).segment_index)*(2));
Array<vec4_scalar,2> segment_info = fetch_from_gpu_cache_2(segment_address);
segment_rect = RectWithEndpoint_scalar((segment_info[0]).sel(X,Y), (segment_info[0]).sel(Z,W));
(segment_rect).p0 += ((ph).local_rect).p0;
(segment_rect).p1 += ((ph).local_rect).p0;
segment_data = segment_info[1];
}
RectWithEndpoint_scalar adjusted_segment_rect = segment_rect;
bool antialiased = (!((transform).is_axis_aligned))||(((brush_flags)&(1024))!=(0));
if (antialiased) {
{
adjusted_segment_rect = clip_and_init_antialiasing(segment_rect, (ph).local_rect, (ph).local_clip_rect, edge_flags, (ph).z, transform, pic_task);
((ph).local_clip_rect).p0 = make_vec2(-(10000000000000000.f));
((ph).local_clip_rect).p1 = make_vec2(10000000000000000.f);
}
} else {
}
vec2 local_pos = mix((adjusted_segment_rect).p0, (adjusted_segment_rect).p1, (aPosition).sel(X,Y));
VertexInfo vi = write_vertex(local_pos, (ph).local_clip_rect, (ph).z, transform, pic_task);
write_clip((vi).world_pos, clip_area, pic_task);
brush_vs(vi, (ph).specific_prim_address, (ph).local_rect, segment_rect, (ph).user_data, (instance).resource_address, (transform).m, pic_task, brush_flags, segment_data);
}
ALWAYS_INLINE void main(void) {
Instance_scalar instance = decode_instance_attributes();
PrimitiveHeader_scalar ph = fetch_prim_header((instance).prim_header_address);
Transform_scalar transform = fetch_transform((ph).transform_id);
PictureTask_scalar task = fetch_picture_task((ph).picture_task_address);
ClipArea_scalar clip_area = fetch_clip_area((instance).clip_address);
brush_shader_main_vs(instance, ph, transform, task, clip_area);
}
static void set_uniform_1i(VertexShaderImpl* impl, int index, int value) {
Self* self = (Self*)impl;
if (self->samplers.set_slot(index, value)) return;
switch (index) {
case 7:
assert(0); // sClipMask
break;
case 8:
assert(0); // sColor0
break;
case 2:
assert(0); // sGpuCache
break;
case 4:
assert(0); // sPrimitiveHeadersF
break;
case 5:
assert(0); // sPrimitiveHeadersI
break;
case 1:
assert(0); // sRenderTasks
break;
case 3:
assert(0); // sTransformPalette
break;
case 6:
assert(0); // uTransform
break;
}
}
static void set_uniform_4fv(VertexShaderImpl* impl, int index, const float *value) {
Self* self = (Self*)impl;
switch (index) {
case 7:
assert(0); // sClipMask
break;
case 8:
assert(0); // sColor0
break;
case 2:
assert(0); // sGpuCache
break;
case 4:
assert(0); // sPrimitiveHeadersF
break;
case 5:
assert(0); // sPrimitiveHeadersI
break;
case 1:
assert(0); // sRenderTasks
break;
case 3:
assert(0); // sTransformPalette
break;
case 6:
assert(0); // uTransform
break;
}
}
static void set_uniform_matrix4fv(VertexShaderImpl* impl, int index, const float *value) {
Self* self = (Self*)impl;
switch (index) {
case 7:
assert(0); // sClipMask
break;
case 8:
assert(0); // sColor0
break;
case 2:
assert(0); // sGpuCache
break;
case 4:
assert(0); // sPrimitiveHeadersF
break;
case 5:
assert(0); // sPrimitiveHeadersI
break;
case 1:
assert(0); // sRenderTasks
break;
case 3:
assert(0); // sTransformPalette
break;
case 6:
self->uTransform = mat4_scalar::load_from_ptr(value);
break;
}
}
static void load_attribs(VertexShaderImpl* impl, VertexAttrib *attribs, uint32_t start, int instance, int count) {Self* self = (Self*)impl;
load_attrib(self->aPosition, attribs[self->attrib_locations.aPosition], start, instance, count);
load_flat_attrib(self->aData, attribs[self->attrib_locations.aData], start, instance, count);
}
public:
struct InterpOutputs {
vec2_scalar v_uv;
};
private:
ALWAYS_INLINE void store_interp_outputs(char* dest_ptr, size_t stride) {
for(int n = 0; n < 4; n++) {
auto* dest = reinterpret_cast<InterpOutputs*>(dest_ptr);
dest->v_uv = get_nth(v_uv, n);
dest_ptr += stride;
}
}
static void run(VertexShaderImpl* impl, char* interps, size_t interp_stride) {
Self* self = (Self*)impl;
self->main();
self->store_interp_outputs(interps, interp_stride);
}
static void init_batch(VertexShaderImpl* impl) {
Self* self = (Self*)impl; self->bind_textures(); }
public:
brush_image_TEXTURE_RECT_vert() {
set_uniform_1i_func = &set_uniform_1i;
set_uniform_4fv_func = &set_uniform_4fv;
set_uniform_matrix4fv_func = &set_uniform_matrix4fv;
init_batch_func = &init_batch;
load_attribs_func = &load_attribs;
run_primitive_func = &run;
}
};
struct brush_image_TEXTURE_RECT_frag : FragmentShaderImpl, brush_image_TEXTURE_RECT_vert {
private:
typedef brush_image_TEXTURE_RECT_frag Self;
#define oFragColor gl_FragColor
// vec4 oFragColor;
// sampler2DRect sColor0;
// sampler2DRect sColor1;
// sampler2DRect sColor2;
struct RectWithSize_scalar {
vec2_scalar p0;
vec2_scalar size;
RectWithSize_scalar() = default;
RectWithSize_scalar(vec2_scalar p0, vec2_scalar size) : p0(p0), size(size){}
};
struct RectWithSize {
vec2 p0;
vec2 size;
RectWithSize() = default;
RectWithSize(vec2 p0, vec2 size) : p0(p0), size(size){}
RectWithSize(vec2_scalar p0, vec2_scalar size):p0(p0),size(size){
}
IMPLICIT RectWithSize(RectWithSize_scalar s):p0(s.p0),size(s.size){
}
friend RectWithSize if_then_else(I32 c, RectWithSize t, RectWithSize e) { return RectWithSize(
if_then_else(c, t.p0, e.p0), if_then_else(c, t.size, e.size));
}};
struct RectWithEndpoint_scalar {
vec2_scalar p0;
vec2_scalar p1;
RectWithEndpoint_scalar() = default;
RectWithEndpoint_scalar(vec2_scalar p0, vec2_scalar p1) : p0(p0), p1(p1){}
};
struct RectWithEndpoint {
vec2 p0;
vec2 p1;
RectWithEndpoint() = default;
RectWithEndpoint(vec2 p0, vec2 p1) : p0(p0), p1(p1){}
RectWithEndpoint(vec2_scalar p0, vec2_scalar p1):p0(p0),p1(p1){
}
IMPLICIT RectWithEndpoint(RectWithEndpoint_scalar s):p0(s.p0),p1(s.p1){
}
friend RectWithEndpoint if_then_else(I32 c, RectWithEndpoint t, RectWithEndpoint e) { return RectWithEndpoint(
if_then_else(c, t.p0, e.p0), if_then_else(c, t.p1, e.p1));
}};
// sampler2D sGpuCache;
// vec4_scalar vTransformBounds;
// sampler2D sClipMask;
struct Fragment_scalar {
vec4_scalar color;
Fragment_scalar() = default;
explicit Fragment_scalar(vec4_scalar color) : color(color){}
};
struct Fragment {
vec4 color;
Fragment() = default;
explicit Fragment(vec4 color) : color(color){}
explicit Fragment(vec4_scalar color):color(color){
}
IMPLICIT Fragment(Fragment_scalar s):color(s.color){
}
friend Fragment if_then_else(I32 c, Fragment t, Fragment e) { return Fragment(
if_then_else(c, t.color, e.color));
}};
vec2 v_uv;
// vec4_scalar v_uv_bounds;
// vec4_scalar v_uv_sample_bounds;
// vec2_scalar v_perspective;
vec2 compute_repeated_uvs(Float perspective_divisor) {
return ((v_uv)*(perspective_divisor))+((v_uv_bounds).sel(X,Y));
}
Fragment brush_fs() {
Float perspective_divisor = mix((gl_FragCoord).w, 1.f, (v_perspective).x);
vec2 repeated_uv = compute_repeated_uvs(perspective_divisor);
vec2 uv = clamp(repeated_uv, (v_uv_sample_bounds).sel(X,Y), (v_uv_sample_bounds).sel(Z,W));
vec4 texel = texture(sColor0, (uv).sel(X,Y));
Fragment frag;
(frag).color = texel;
return frag;
}
void write_output(vec4 color) {
oFragColor = color;
}
ALWAYS_INLINE void main(void) {
Fragment frag = brush_fs();
write_output((frag).color);
}
vec2 compute_repeated_uvs(float perspective_divisor) {
return ((v_uv)*(perspective_divisor))+((v_uv_bounds).sel(X,Y));
}
void swgl_drawSpanRGBA8() {
if (!(swgl_isTextureRGBA8(sColor0))) {
{
return;
}
}
float perspective_divisor = mix(swgl_forceScalar((gl_FragCoord).w), 1.f, (v_perspective).x);
vec2 uv = compute_repeated_uvs(perspective_divisor);
swgl_commitTextureRGBA8(sColor0, uv, v_uv_sample_bounds);
}
typedef brush_image_TEXTURE_RECT_vert::InterpOutputs InterpInputs;
InterpInputs interp_step;
struct InterpPerspective {
vec2 v_uv;
};
InterpPerspective interp_perspective;
static void read_interp_inputs(FragmentShaderImpl* impl, const void* init_, const void* step_) {Self* self = (Self*)impl;const InterpInputs* init = (const InterpInputs*)init_;const InterpInputs* step = (const InterpInputs*)step_;
self->v_uv = init_interp(init->v_uv, step->v_uv);
self->interp_step.v_uv = step->v_uv * 4.0f;
}
static void read_perspective_inputs(FragmentShaderImpl* impl, const void* init_, const void* step_) {Self* self = (Self*)impl;const InterpInputs* init = (const InterpInputs*)init_;const InterpInputs* step = (const InterpInputs*)step_;
Float w = 1.0f / self->gl_FragCoord.w;
self->interp_perspective.v_uv = init_interp(init->v_uv, step->v_uv);
self->v_uv = self->interp_perspective.v_uv * w;
self->interp_step.v_uv = step->v_uv * 4.0f;
}
ALWAYS_INLINE void step_interp_inputs(int steps = 4) {
float chunks = steps * 0.25f;
v_uv += interp_step.v_uv * chunks;
}
ALWAYS_INLINE void step_perspective_inputs(int steps = 4) {
step_perspective(steps);
float chunks = steps * 0.25f;
Float w = 1.0f / gl_FragCoord.w;
interp_perspective.v_uv += interp_step.v_uv * chunks;
v_uv = w * interp_perspective.v_uv;
}
static void run(FragmentShaderImpl* impl) {
Self* self = (Self*)impl;
self->main();
self->step_interp_inputs();
}
static void skip(FragmentShaderImpl* impl, int steps) {
Self* self = (Self*)impl;
self->step_interp_inputs(steps);
}
static void run_perspective(FragmentShaderImpl* impl) {
Self* self = (Self*)impl;
self->main();
self->step_perspective_inputs();
}
static void skip_perspective(FragmentShaderImpl* impl, int steps) {
Self* self = (Self*)impl;
self->step_perspective_inputs(steps);
}
static int draw_span_RGBA8(FragmentShaderImpl* impl) {
Self* self = (Self*)impl; DISPATCH_DRAW_SPAN(self, RGBA8); }
public:
brush_image_TEXTURE_RECT_frag() {
init_span_func = &read_interp_inputs;
run_func = &run;
skip_func = &skip;
draw_span_RGBA8_func = &draw_span_RGBA8;
enable_perspective();
init_span_w_func = &read_perspective_inputs;
run_w_func = &run_perspective;
skip_w_func = &skip_perspective;
}
};
struct brush_image_TEXTURE_RECT_program : ProgramImpl, brush_image_TEXTURE_RECT_frag {
int get_uniform(const char *name) const override {
if (strcmp("sClipMask", name) == 0) { return 7; }
if (strcmp("sColor0", name) == 0) { return 8; }
if (strcmp("sGpuCache", name) == 0) { return 2; }
if (strcmp("sPrimitiveHeadersF", name) == 0) { return 4; }
if (strcmp("sPrimitiveHeadersI", name) == 0) { return 5; }
if (strcmp("sRenderTasks", name) == 0) { return 1; }
if (strcmp("sTransformPalette", name) == 0) { return 3; }
if (strcmp("uTransform", name) == 0) { return 6; }
return -1;
}
void bind_attrib(const char* name, int index) override {
attrib_locations.bind_loc(name, index);
}
int get_attrib(const char* name) const override {
return attrib_locations.get_loc(name);
}
size_t interpolants_size() const override { return sizeof(InterpOutputs); }
VertexShaderImpl* get_vertex_shader() override {
return this;
}
FragmentShaderImpl* get_fragment_shader() override {
return this;
}
const char* get_name() const override { return "brush_image_TEXTURE_RECT"; }
static ProgramImpl* loader() { return new brush_image_TEXTURE_RECT_program; }
};