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ast/23-Nov-2023-1,730941

ir/23-Nov-2023-4,7803,293

lex/23-Nov-2023-1,314989

GLSL.std.450.hD22-Nov-20234 KiB13290

READMED23-Nov-20238.5 KiB165144

SkSLCFGGenerator.cppD23-Nov-202327.2 KiB645602

SkSLCFGGenerator.hD23-Nov-20235.8 KiB17185

SkSLCPP.hD23-Nov-20231.1 KiB5730

SkSLCPPCodeGenerator.cppD23-Nov-202350 KiB1,2061,025

SkSLCPPCodeGenerator.hD23-Nov-20234.7 KiB14263

SkSLCPPUniformCTypes.cppD23-Nov-20239.9 KiB230150

SkSLCPPUniformCTypes.hD23-Nov-20235.5 KiB13456

SkSLCodeGenerator.hD23-Nov-2023812 4322

SkSLCompiler.cppD23-Nov-202360 KiB1,5581,347

SkSLCompiler.hD23-Nov-20235.8 KiB191119

SkSLContext.hD23-Nov-202320.1 KiB409346

SkSLDefines.hD23-Nov-2023936 4531

SkSLErrorReporter.hD22-Nov-2023573 3415

SkSLFileOutputStream.hD23-Nov-20231.5 KiB7756

SkSLGLSLCodeGenerator.cppD23-Nov-202360.2 KiB1,5771,461

SkSLGLSLCodeGenerator.hD23-Nov-20237.2 KiB249164

SkSLHCodeGenerator.cppD23-Nov-202315.2 KiB380346

SkSLHCodeGenerator.hD23-Nov-20232.6 KiB8751

SkSLIRGenerator.cppD23-Nov-2023101.4 KiB2,3252,188

SkSLIRGenerator.hD23-Nov-20239.1 KiB202158

SkSLInterpreter.cppD23-Nov-202318.7 KiB473444

SkSLInterpreter.hD23-Nov-20231.7 KiB9057

SkSLJIT.cppD23-Nov-202391.2 KiB1,9321,813

SkSLJIT.hD23-Nov-202313.2 KiB357181

SkSLLexer.cppD23-Nov-202388.6 KiB1,0831,063

SkSLLexer.hD23-Nov-20234.2 KiB250232

SkSLMain.cppD23-Nov-20235.5 KiB153135

SkSLMemoryLayout.hD23-Nov-20234.8 KiB141103

SkSLMetalCodeGenerator.cppD23-Nov-202358.6 KiB1,5541,447

SkSLMetalCodeGenerator.hD23-Nov-20238.4 KiB284189

SkSLOutputStream.cppD23-Nov-2023690 3118

SkSLOutputStream.hD23-Nov-2023772 4322

SkSLParser.cppD23-Nov-202371.5 KiB2,0131,849

SkSLParser.hD23-Nov-20238 KiB301170

SkSLPipelineStageCodeGenerator.cppD23-Nov-20238 KiB230202

SkSLPipelineStageCodeGenerator.hD23-Nov-20231.8 KiB6837

SkSLPosition.hD22-Nov-2023634 3919

SkSLSPIRVCodeGenerator.cppD23-Nov-2023146.2 KiB3,2202,983

SkSLSPIRVCodeGenerator.hD23-Nov-202312.8 KiB359220

SkSLSectionAndParameterHelper.hD23-Nov-20235.9 KiB158135

SkSLString.cppD23-Nov-20237 KiB306248

SkSLString.hD23-Nov-20234.1 KiB170122

SkSLStringStream.hD22-Nov-20231.5 KiB8758

SkSLUtil.cppD22-Nov-2023564 3420

SkSLUtil.hD23-Nov-202310.9 KiB396311

sksl.incD23-Nov-202328.5 KiB563548

sksl_enums.incD22-Nov-2023992 3629

sksl_fp.incD23-Nov-20231.1 KiB2923

sksl_frag.incD23-Nov-2023912 2418

sksl_geom.incD23-Nov-2023675 2518

sksl_pipeline.incD23-Nov-2023711 2219

sksl_vert.incD22-Nov-2023317 1510

spirv.hD22-Nov-202327.7 KiB871780

README

1Overview
2========
3
4SkSL ("Skia Shading Language") is a variant of GLSL which is used as Skia's
5internal shading language. SkSL is, at its heart, a single standardized version
6of GLSL which avoids all of the various version and dialect differences found
7in GLSL "in the wild", but it does bring a few of its own changes to the table.
8
9Skia uses the SkSL compiler to convert SkSL code to GLSL, GLSL ES, or SPIR-V
10before handing it over to the graphics driver.
11
12
13Differences from GLSL
14=====================
15
16* Precision modifiers are not used. 'float', 'int', and 'uint' are always high
17  precision. New types 'half', 'short', and 'ushort' are medium precision (we
18  do not use low precision).
19* Vector types are named <base type><columns>, so float2 instead of vec2 and
20  bool4 instead of bvec4
21* Matrix types are named <base type><columns>x<rows>, so float2x3 instead of
22  mat2x3 and double4x4 instead of dmat4
23* "@if" and "@switch" are static versions of if and switch. They behave exactly
24  the same as if and switch in all respects other than it being a compile-time
25  error to use a non-constant expression as a test.
26* GLSL caps can be referenced via the syntax 'sk_Caps.<name>', e.g.
27  sk_Caps.sampleVariablesSupport. The value will be a constant boolean or int,
28  as appropriate. As SkSL supports constant folding and branch elimination, this
29  means that an 'if' statement which statically queries a cap will collapse down
30  to the chosen branch, meaning that:
31
32    if (sk_Caps.externalTextureSupport)
33        do_something();
34    else
35        do_something_else();
36
37  will compile as if you had written either 'do_something();' or
38  'do_something_else();', depending on whether that cap is enabled or not.
39* no #version statement is required, and it will be ignored if present
40* the output color is sk_FragColor (do not declare it)
41* use sk_Position instead of gl_Position. sk_Position is in device coordinates
42  rather than normalized coordinates.
43* use sk_PointSize instead of gl_PointSize
44* use sk_VertexID instead of gl_VertexID
45* use sk_InstanceID instead of gl_InstanceID
46* the fragment coordinate is sk_FragCoord, and is always relative to the upper
47  left.
48* use sk_Clockwise instead of gl_FrontFacing. This is always relative to an
49  upper left origin.
50* you do not need to include ".0" to make a number a float (meaning that
51  "float2(x, y) * 4" is perfectly legal in SkSL, unlike GLSL where it would
52  often have to be expressed "float2(x, y) * 4.0". There is no performance
53  penalty for this, as the number is converted to a float at compile time)
54* type suffixes on numbers (1.0f, 0xFFu) are both unnecessary and unsupported
55* creating a smaller vector from a larger vector (e.g. float2(float3(1))) is
56  intentionally disallowed, as it is just a wordier way of performing a swizzle.
57  Use swizzles instead.
58* Use texture() instead of textureProj(), e.g. texture(sampler2D, float3) is
59  equivalent to GLSL's textureProj(sampler2D, float3)
60* Render target width and height are available via sk_Width and sk_Height
61* some built-in functions and one or two rarely-used language features are not
62  yet supported (sorry!)
63
64SkSL is still under development, and is expected to diverge further from GLSL
65over time.
66
67
68SkSL Fragment Processors
69========================
70
71********************************************************************************
72*** IMPORTANT: You must set gn arg "skia_compile_processors = true" to cause ***
73*** .fp files to be recompiled! In order for compilation to succeed, you     ***
74*** must run bin/fetch-clang-format (once) to install our blessed version.   ***
75********************************************************************************
76
77An extension of SkSL allows for the creation of fragment processors in pure
78SkSL. The program defines its inputs similarly to a normal SkSL program (with
79'in' and 'uniform' variables), but the 'main()' function represents only this
80fragment processor's portion of the overall fragment shader.
81
82Within an '.fp' fragment processor file:
83
84* C++ code can be embedded in sections of the form:
85
86  @section_name { <arbitrary C++ code> }
87
88  Supported section are:
89    @header            (in the .h file, outside the class declaration)
90    @headerEnd         (at the end of the .h file)
91    @class             (in the .h file, inside the class declaration)
92    @cpp               (in the .cpp file)
93    @cppEnd            (at the end of the .cpp file)
94    @constructorParams (extra parameters to the constructor, comma-separated)
95    @constructor       (replaces the default constructor)
96    @initializers      (constructor initializer list, comma-separated)
97    @emitCode          (extra code for the emitCode function)
98    @fields            (extra private fields, each terminated with a semicolon)
99    @make              (replaces the default Make function)
100    @clone             (replaces the default clone() function)
101    @setData(<pdman>)  (extra code for the setData function, where <pdman> is
102                        the name of the GrGLSLProgramDataManager)
103    @test(<testData>)  (the body of the TestCreate function, where <testData> is
104                        the name of the GrProcessorTestData* parameter)
105    @coordTransform(<sampler>)
106                       (the matrix to attach to the named sampler2D's
107                        GrCoordTransform)
108    @samplerParams(<sampler>)
109                       (the sampler params to attach to the named sampler2D)
110* global 'in' variables represent data passed to the fragment processor at
111  construction time. These variables become constructor parameters and are
112  stored in fragment processor fields. By default float2/half2 maps to SkPoints,
113  and float4/half4 maps to SkRects (in x, y, width, height) order. Similarly,
114  int2/short2 maps to SkIPoint and int4/half4 maps to SkIRect. Use ctype
115  (below) to override this default mapping.
116* global variables support an additional 'ctype' layout key, providing the type
117  they should be represented as from within the C++ code. For instance, you can
118  use 'layout(ctype=SkPMColor4f) in half4 color;' to create a variable that looks
119  like a half4 on the SkSL side of things, and a SkPMColor4f on the C++ side of
120  things.
121* 'uniform' variables become, as one would expect, top-level uniforms. By
122  default they do not have any data provided to them; you will need to provide
123  them with data via the @setData section.
124* 'in uniform' variables are uniforms that are automatically wired up to
125  fragment processor constructor parameters. The fragment processor will accept
126  a parameter representing the uniform's value, and automatically plumb it
127  through to the uniform's value in its generated setData() function.
128* 'in uniform' variables support a 'tracked' flag in the layout that will
129  have the generated code automatically implement state tracking on the uniform
130  value to minimize GPU calls.
131* the 'sk_TransformedCoords2D' array provides access to 2D transformed
132  coordinates. sk_TransformedCoords2D[0] is equivalent to calling
133  fragBuilder->ensureCoords2D(args.fTransformedCoords[0]) (and the result is
134  cached, so you need not worry about using the value repeatedly).
135* Uniform variables support an additional 'when' layout key.
136  'layout(when=foo) uniform int x;' means that this uniform will only be
137  emitted when the 'foo' expression is true.
138* 'in' variables support an additional 'key' layout key.
139  'layout(key) uniform int x;' means that this uniform should be included in
140  the program's key. Matrix variables additionally support 'key=identity',
141  which causes the key to consider only whether or not the matrix is an
142  identity matrix.
143* child processors can be declared with 'in fragmentProcessor <name>;', and can
144  be invoked by calling 'process(<name>)' or 'process(<name>, <inputColor>)'.
145  The first variant emits the child with a solid white input color. The second
146  variant emits the child with the result of the 2nd argument's expression,
147  which must evaluate to a half4. The process function returns a half4.
148
149
150Creating a new .fp file
151=======================
152
1531. Ensure that you have set gn arg "skia_compile_processors = true"
1542. Create your new .fp file, generally under src/gpu/effects.
1553. Add the .fp file to sksl.gni.
1564. Build Skia. This will cause the .fp file to be compiled, resulting in a new
157   .cpp and .h file for the fragment processor.
1585. Add the .cpp and .h files to gpu.gni.
1596. Add the new processor's ClassID (k<ProcessorName>_ClassID) to
160   GrProcessor::ClassID.
1617. At this point you can reference the new fragment processor from within Skia.
162
163Once you have done this initial setup, simply re-build Skia to pick up any
164changes to the .fp file.
165