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glslang/Test/baseResults/hlsl.hull.ctrlpt-1.tesc.out
LoopDawg a5d8616478 HLSL: allow mixed user & builtin members in hull shader output structure 
Hull shaders have an implicitly arrayed output.  This is handled by creating an arrayed form of the
provided output type, and writing to the element of it indexed by InvocationID.

The implicit indirection into that array was causing some troubles when copying to a split
structure.  handleAssign was able to handle simple symbol lvalues, but not an lvalue composed
of an indirection into an array.
2017-09-14 16:50:37 -06:00

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hlsl.hull.ctrlpt-1.tesc
Shader version: 500
vertices = 3
vertex spacing = fractional_odd_spacing
triangle order = cw
0:? Sequence
0:27 Function Definition: @main(struct-hs_in_t-vf31[3];u1; ( temp structure{ temp 3-component vector of float val})
0:27 Function Parameters:
0:27 'i' ( in 3-element array of structure{ temp 3-component vector of float val})
0:27 'cpid' ( in uint)
0:? Sequence
0:29 move second child to first child ( temp 3-component vector of float)
0:29 val: direct index for structure ( temp 3-component vector of float)
0:29 'o' ( temp structure{ temp 3-component vector of float val})
0:29 Constant:
0:29 0 (const int)
0:29 Construct vec3 ( temp 3-component vector of float)
0:29 Convert uint to float ( temp float)
0:29 'cpid' ( in uint)
0:30 Branch: Return with expression
0:30 'o' ( temp structure{ temp 3-component vector of float val})
0:27 Function Definition: main( ( temp void)
0:27 Function Parameters:
0:? Sequence
0:27 move second child to first child ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? 'i' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? 'i' (layout( location=0) in 3-element array of structure{ temp 3-component vector of float val})
0:27 move second child to first child ( temp uint)
0:? 'cpid' ( temp uint)
0:? 'cpid' ( in uint InvocationID)
0:27 move second child to first child ( temp structure{ temp 3-component vector of float val})
0:27 indirect index (layout( location=0) out structure{ temp 3-component vector of float val})
0:? '@entryPointOutput' (layout( location=0) out 3-element array of structure{ temp 3-component vector of float val})
0:? 'cpid' ( in uint InvocationID)
0:27 Function Call: @main(struct-hs_in_t-vf31[3];u1; ( temp structure{ temp 3-component vector of float val})
0:? 'i' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? 'cpid' ( temp uint)
0:? Barrier ( temp void)
0:? Test condition and select ( temp void)
0:? Condition
0:? Compare Equal ( temp bool)
0:? 'cpid' ( in uint InvocationID)
0:? Constant:
0:? 0 (const int)
0:? true case
0:? Sequence
0:? move second child to first child ( temp structure{ temp 3-component vector of float val})
0:? direct index ( temp structure{ temp 3-component vector of float val})
0:? 'pcf_out' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Constant:
0:? 0 (const int)
0:? Function Call: @main(struct-hs_in_t-vf31[3];u1; ( temp structure{ temp 3-component vector of float val})
0:? 'i' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Constant:
0:? 0 (const uint)
0:? move second child to first child ( temp structure{ temp 3-component vector of float val})
0:? direct index ( temp structure{ temp 3-component vector of float val})
0:? 'pcf_out' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Constant:
0:? 1 (const int)
0:? Function Call: @main(struct-hs_in_t-vf31[3];u1; ( temp structure{ temp 3-component vector of float val})
0:? 'i' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Constant:
0:? 1 (const uint)
0:? move second child to first child ( temp structure{ temp 3-component vector of float val})
0:? direct index ( temp structure{ temp 3-component vector of float val})
0:? 'pcf_out' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Constant:
0:? 2 (const int)
0:? Function Call: @main(struct-hs_in_t-vf31[3];u1; ( temp structure{ temp 3-component vector of float val})
0:? 'i' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Constant:
0:? 2 (const uint)
0:? move second child to first child ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? '@patchConstantResult' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? Function Call: PCF(struct-hs_out_t-vf31[3]; ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? 'pcf_out' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Sequence
0:? move second child to first child ( temp float)
0:? direct index ( patch out float TessLevelOuter)
0:? '@patchConstantOutput.tfactor' ( patch out 4-element array of float TessLevelOuter)
0:? Constant:
0:? 0 (const int)
0:? direct index ( temp float)
0:? tfactor: direct index for structure ( temp 3-element array of float)
0:? '@patchConstantResult' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? Constant:
0:? 0 (const int)
0:? Constant:
0:? 0 (const int)
0:? move second child to first child ( temp float)
0:? direct index ( patch out float TessLevelOuter)
0:? '@patchConstantOutput.tfactor' ( patch out 4-element array of float TessLevelOuter)
0:? Constant:
0:? 1 (const int)
0:? direct index ( temp float)
0:? tfactor: direct index for structure ( temp 3-element array of float)
0:? '@patchConstantResult' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? Constant:
0:? 0 (const int)
0:? Constant:
0:? 1 (const int)
0:? move second child to first child ( temp float)
0:? direct index ( patch out float TessLevelOuter)
0:? '@patchConstantOutput.tfactor' ( patch out 4-element array of float TessLevelOuter)
0:? Constant:
0:? 2 (const int)
0:? direct index ( temp float)
0:? tfactor: direct index for structure ( temp 3-element array of float)
0:? '@patchConstantResult' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? Constant:
0:? 0 (const int)
0:? Constant:
0:? 2 (const int)
0:? move second child to first child ( temp float)
0:? direct index ( patch out float TessLevelInner)
0:? '@patchConstantOutput.flInFactor' ( patch out 2-element array of float TessLevelInner)
0:? Constant:
0:? 0 (const int)
0:? flInFactor: direct index for structure ( temp float)
0:? '@patchConstantResult' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? Constant:
0:? 1 (const int)
0:34 Function Definition: PCF(struct-hs_out_t-vf31[3]; ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:34 Function Parameters:
0:34 'pcf_out' ( const (read only) 3-element array of structure{ temp 3-component vector of float val})
0:? Sequence
0:37 move second child to first child ( temp float)
0:37 direct index ( temp float)
0:37 tfactor: direct index for structure ( temp 3-element array of float)
0:37 'o' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:37 Constant:
0:37 0 (const int)
0:37 Constant:
0:37 0 (const int)
0:37 direct index ( temp float)
0:37 val: direct index for structure ( temp 3-component vector of float)
0:37 direct index ( temp structure{ temp 3-component vector of float val})
0:37 'pcf_out' ( const (read only) 3-element array of structure{ temp 3-component vector of float val})
0:37 Constant:
0:37 0 (const int)
0:37 Constant:
0:37 0 (const int)
0:37 Constant:
0:37 0 (const int)
0:38 move second child to first child ( temp float)
0:38 direct index ( temp float)
0:38 tfactor: direct index for structure ( temp 3-element array of float)
0:38 'o' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:38 Constant:
0:38 0 (const int)
0:38 Constant:
0:38 1 (const int)
0:38 direct index ( temp float)
0:38 val: direct index for structure ( temp 3-component vector of float)
0:38 direct index ( temp structure{ temp 3-component vector of float val})
0:38 'pcf_out' ( const (read only) 3-element array of structure{ temp 3-component vector of float val})
0:38 Constant:
0:38 1 (const int)
0:38 Constant:
0:38 0 (const int)
0:38 Constant:
0:38 0 (const int)
0:39 move second child to first child ( temp float)
0:39 direct index ( temp float)
0:39 tfactor: direct index for structure ( temp 3-element array of float)
0:39 'o' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:39 Constant:
0:39 0 (const int)
0:39 Constant:
0:39 2 (const int)
0:39 direct index ( temp float)
0:39 val: direct index for structure ( temp 3-component vector of float)
0:39 direct index ( temp structure{ temp 3-component vector of float val})
0:39 'pcf_out' ( const (read only) 3-element array of structure{ temp 3-component vector of float val})
0:39 Constant:
0:39 2 (const int)
0:39 Constant:
0:39 0 (const int)
0:39 Constant:
0:39 0 (const int)
0:40 move second child to first child ( temp float)
0:40 flInFactor: direct index for structure ( temp float)
0:40 'o' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:40 Constant:
0:40 1 (const int)
0:40 Constant:
0:40 4.000000
0:42 Branch: Return with expression
0:42 'o' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? Linker Objects
0:? '@entryPointOutput' (layout( location=0) out 3-element array of structure{ temp 3-component vector of float val})
0:? 'i' (layout( location=0) in 3-element array of structure{ temp 3-component vector of float val})
0:? 'cpid' ( in uint InvocationID)
0:? '@patchConstantOutput.tfactor' ( patch out 4-element array of float TessLevelOuter)
0:? '@patchConstantOutput.flInFactor' ( patch out 2-element array of float TessLevelInner)
Linked tessellation control stage:
Shader version: 500
vertices = 3
vertex spacing = fractional_odd_spacing
triangle order = cw
0:? Sequence
0:27 Function Definition: @main(struct-hs_in_t-vf31[3];u1; ( temp structure{ temp 3-component vector of float val})
0:27 Function Parameters:
0:27 'i' ( in 3-element array of structure{ temp 3-component vector of float val})
0:27 'cpid' ( in uint)
0:? Sequence
0:29 move second child to first child ( temp 3-component vector of float)
0:29 val: direct index for structure ( temp 3-component vector of float)
0:29 'o' ( temp structure{ temp 3-component vector of float val})
0:29 Constant:
0:29 0 (const int)
0:29 Construct vec3 ( temp 3-component vector of float)
0:29 Convert uint to float ( temp float)
0:29 'cpid' ( in uint)
0:30 Branch: Return with expression
0:30 'o' ( temp structure{ temp 3-component vector of float val})
0:27 Function Definition: main( ( temp void)
0:27 Function Parameters:
0:? Sequence
0:27 move second child to first child ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? 'i' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? 'i' (layout( location=0) in 3-element array of structure{ temp 3-component vector of float val})
0:27 move second child to first child ( temp uint)
0:? 'cpid' ( temp uint)
0:? 'cpid' ( in uint InvocationID)
0:27 move second child to first child ( temp structure{ temp 3-component vector of float val})
0:27 indirect index (layout( location=0) out structure{ temp 3-component vector of float val})
0:? '@entryPointOutput' (layout( location=0) out 3-element array of structure{ temp 3-component vector of float val})
0:? 'cpid' ( in uint InvocationID)
0:27 Function Call: @main(struct-hs_in_t-vf31[3];u1; ( temp structure{ temp 3-component vector of float val})
0:? 'i' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? 'cpid' ( temp uint)
0:? Barrier ( temp void)
0:? Test condition and select ( temp void)
0:? Condition
0:? Compare Equal ( temp bool)
0:? 'cpid' ( in uint InvocationID)
0:? Constant:
0:? 0 (const int)
0:? true case
0:? Sequence
0:? move second child to first child ( temp structure{ temp 3-component vector of float val})
0:? direct index ( temp structure{ temp 3-component vector of float val})
0:? 'pcf_out' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Constant:
0:? 0 (const int)
0:? Function Call: @main(struct-hs_in_t-vf31[3];u1; ( temp structure{ temp 3-component vector of float val})
0:? 'i' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Constant:
0:? 0 (const uint)
0:? move second child to first child ( temp structure{ temp 3-component vector of float val})
0:? direct index ( temp structure{ temp 3-component vector of float val})
0:? 'pcf_out' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Constant:
0:? 1 (const int)
0:? Function Call: @main(struct-hs_in_t-vf31[3];u1; ( temp structure{ temp 3-component vector of float val})
0:? 'i' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Constant:
0:? 1 (const uint)
0:? move second child to first child ( temp structure{ temp 3-component vector of float val})
0:? direct index ( temp structure{ temp 3-component vector of float val})
0:? 'pcf_out' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Constant:
0:? 2 (const int)
0:? Function Call: @main(struct-hs_in_t-vf31[3];u1; ( temp structure{ temp 3-component vector of float val})
0:? 'i' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Constant:
0:? 2 (const uint)
0:? move second child to first child ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? '@patchConstantResult' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? Function Call: PCF(struct-hs_out_t-vf31[3]; ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? 'pcf_out' ( temp 3-element array of structure{ temp 3-component vector of float val})
0:? Sequence
0:? move second child to first child ( temp float)
0:? direct index ( patch out float TessLevelOuter)
0:? '@patchConstantOutput.tfactor' ( patch out 4-element array of float TessLevelOuter)
0:? Constant:
0:? 0 (const int)
0:? direct index ( temp float)
0:? tfactor: direct index for structure ( temp 3-element array of float)
0:? '@patchConstantResult' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? Constant:
0:? 0 (const int)
0:? Constant:
0:? 0 (const int)
0:? move second child to first child ( temp float)
0:? direct index ( patch out float TessLevelOuter)
0:? '@patchConstantOutput.tfactor' ( patch out 4-element array of float TessLevelOuter)
0:? Constant:
0:? 1 (const int)
0:? direct index ( temp float)
0:? tfactor: direct index for structure ( temp 3-element array of float)
0:? '@patchConstantResult' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? Constant:
0:? 0 (const int)
0:? Constant:
0:? 1 (const int)
0:? move second child to first child ( temp float)
0:? direct index ( patch out float TessLevelOuter)
0:? '@patchConstantOutput.tfactor' ( patch out 4-element array of float TessLevelOuter)
0:? Constant:
0:? 2 (const int)
0:? direct index ( temp float)
0:? tfactor: direct index for structure ( temp 3-element array of float)
0:? '@patchConstantResult' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? Constant:
0:? 0 (const int)
0:? Constant:
0:? 2 (const int)
0:? move second child to first child ( temp float)
0:? direct index ( patch out float TessLevelInner)
0:? '@patchConstantOutput.flInFactor' ( patch out 2-element array of float TessLevelInner)
0:? Constant:
0:? 0 (const int)
0:? flInFactor: direct index for structure ( temp float)
0:? '@patchConstantResult' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? Constant:
0:? 1 (const int)
0:34 Function Definition: PCF(struct-hs_out_t-vf31[3]; ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:34 Function Parameters:
0:34 'pcf_out' ( const (read only) 3-element array of structure{ temp 3-component vector of float val})
0:? Sequence
0:37 move second child to first child ( temp float)
0:37 direct index ( temp float)
0:37 tfactor: direct index for structure ( temp 3-element array of float)
0:37 'o' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:37 Constant:
0:37 0 (const int)
0:37 Constant:
0:37 0 (const int)
0:37 direct index ( temp float)
0:37 val: direct index for structure ( temp 3-component vector of float)
0:37 direct index ( temp structure{ temp 3-component vector of float val})
0:37 'pcf_out' ( const (read only) 3-element array of structure{ temp 3-component vector of float val})
0:37 Constant:
0:37 0 (const int)
0:37 Constant:
0:37 0 (const int)
0:37 Constant:
0:37 0 (const int)
0:38 move second child to first child ( temp float)
0:38 direct index ( temp float)
0:38 tfactor: direct index for structure ( temp 3-element array of float)
0:38 'o' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:38 Constant:
0:38 0 (const int)
0:38 Constant:
0:38 1 (const int)
0:38 direct index ( temp float)
0:38 val: direct index for structure ( temp 3-component vector of float)
0:38 direct index ( temp structure{ temp 3-component vector of float val})
0:38 'pcf_out' ( const (read only) 3-element array of structure{ temp 3-component vector of float val})
0:38 Constant:
0:38 1 (const int)
0:38 Constant:
0:38 0 (const int)
0:38 Constant:
0:38 0 (const int)
0:39 move second child to first child ( temp float)
0:39 direct index ( temp float)
0:39 tfactor: direct index for structure ( temp 3-element array of float)
0:39 'o' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:39 Constant:
0:39 0 (const int)
0:39 Constant:
0:39 2 (const int)
0:39 direct index ( temp float)
0:39 val: direct index for structure ( temp 3-component vector of float)
0:39 direct index ( temp structure{ temp 3-component vector of float val})
0:39 'pcf_out' ( const (read only) 3-element array of structure{ temp 3-component vector of float val})
0:39 Constant:
0:39 2 (const int)
0:39 Constant:
0:39 0 (const int)
0:39 Constant:
0:39 0 (const int)
0:40 move second child to first child ( temp float)
0:40 flInFactor: direct index for structure ( temp float)
0:40 'o' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:40 Constant:
0:40 1 (const int)
0:40 Constant:
0:40 4.000000
0:42 Branch: Return with expression
0:42 'o' ( temp structure{ temp 3-element array of float tfactor, temp float flInFactor})
0:? Linker Objects
0:? '@entryPointOutput' (layout( location=0) out 3-element array of structure{ temp 3-component vector of float val})
0:? 'i' (layout( location=0) in 3-element array of structure{ temp 3-component vector of float val})
0:? 'cpid' ( in uint InvocationID)
0:? '@patchConstantOutput.tfactor' ( patch out 4-element array of float TessLevelOuter)
0:? '@patchConstantOutput.flInFactor' ( patch out 2-element array of float TessLevelInner)
// Module Version 10000
// Generated by (magic number): 80001
// Id's are bound by 124
Capability Tessellation
1: ExtInstImport "GLSL.std.450"
MemoryModel Logical GLSL450
EntryPoint TessellationControl 4 "main" 41 45 48 94 108
ExecutionMode 4 OutputVertices 3
ExecutionMode 4 Triangles
ExecutionMode 4 SpacingFractionalOdd
ExecutionMode 4 VertexOrderCw
Source HLSL 500
Name 4 "main"
Name 8 "hs_in_t"
MemberName 8(hs_in_t) 0 "val"
Name 14 "hs_out_t"
MemberName 14(hs_out_t) 0 "val"
Name 18 "@main(struct-hs_in_t-vf31[3];u1;"
Name 16 "i"
Name 17 "cpid"
Name 22 "hs_pcf_t"
MemberName 22(hs_pcf_t) 0 "tfactor"
MemberName 22(hs_pcf_t) 1 "flInFactor"
Name 25 "PCF(struct-hs_out_t-vf31[3];"
Name 24 "pcf_out"
Name 28 "o"
Name 39 "i"
Name 41 "i"
Name 43 "cpid"
Name 45 "cpid"
Name 48 "@entryPointOutput"
Name 50 "param"
Name 52 "param"
Name 66 "pcf_out"
Name 67 "i"
Name 68 "param"
Name 70 "param"
Name 74 "i"
Name 75 "param"
Name 77 "param"
Name 81 "i"
Name 82 "param"
Name 84 "param"
Name 88 "@patchConstantResult"
Name 94 "@patchConstantOutput.tfactor"
Name 108 "@patchConstantOutput.flInFactor"
Name 112 "o"
Decorate 41(i) Location 0
Decorate 45(cpid) BuiltIn InvocationId
Decorate 48(@entryPointOutput) Location 0
Decorate 94(@patchConstantOutput.tfactor) Patch
Decorate 94(@patchConstantOutput.tfactor) BuiltIn TessLevelOuter
Decorate 108(@patchConstantOutput.flInFactor) Patch
Decorate 108(@patchConstantOutput.flInFactor) BuiltIn TessLevelInner
2: TypeVoid
3: TypeFunction 2
6: TypeFloat 32
7: TypeVector 6(float) 3
8(hs_in_t): TypeStruct 7(fvec3)
9: TypeInt 32 0
10: 9(int) Constant 3
11: TypeArray 8(hs_in_t) 10
12: TypePointer Function 11
13: TypePointer Function 9(int)
14(hs_out_t): TypeStruct 7(fvec3)
15: TypeFunction 14(hs_out_t) 12(ptr) 13(ptr)
20: TypeArray 14(hs_out_t) 10
21: TypeArray 6(float) 10
22(hs_pcf_t): TypeStruct 21 6(float)
23: TypeFunction 22(hs_pcf_t) 20
27: TypePointer Function 14(hs_out_t)
29: TypeInt 32 1
30: 29(int) Constant 0
34: TypePointer Function 7(fvec3)
40: TypePointer Input 11
41(i): 40(ptr) Variable Input
44: TypePointer Input 9(int)
45(cpid): 44(ptr) Variable Input
47: TypePointer Output 20
48(@entryPointOutput): 47(ptr) Variable Output
55: TypePointer Output 14(hs_out_t)
57: 9(int) Constant 2
58: 9(int) Constant 1
59: 9(int) Constant 0
61: TypeBool
65: TypePointer Function 20
73: 29(int) Constant 1
80: 29(int) Constant 2
87: TypePointer Function 22(hs_pcf_t)
91: 9(int) Constant 4
92: TypeArray 6(float) 91
93: TypePointer Output 92
94(@patchConstantOutput.tfactor): 93(ptr) Variable Output
95: TypePointer Function 6(float)
98: TypePointer Output 6(float)
106: TypeArray 6(float) 57
107: TypePointer Output 106
108(@patchConstantOutput.flInFactor): 107(ptr) Variable Output
119: 6(float) Constant 1082130432
4(main): 2 Function None 3
5: Label
39(i): 12(ptr) Variable Function
43(cpid): 13(ptr) Variable Function
50(param): 12(ptr) Variable Function
52(param): 13(ptr) Variable Function
66(pcf_out): 65(ptr) Variable Function
67(i): 12(ptr) Variable Function
68(param): 12(ptr) Variable Function
70(param): 13(ptr) Variable Function
74(i): 12(ptr) Variable Function
75(param): 12(ptr) Variable Function
77(param): 13(ptr) Variable Function
81(i): 12(ptr) Variable Function
82(param): 12(ptr) Variable Function
84(param): 13(ptr) Variable Function
88(@patchConstantResult): 87(ptr) Variable Function
42: 11 Load 41(i)
Store 39(i) 42
46: 9(int) Load 45(cpid)
Store 43(cpid) 46
49: 9(int) Load 45(cpid)
51: 11 Load 39(i)
Store 50(param) 51
53: 9(int) Load 43(cpid)
Store 52(param) 53
54:14(hs_out_t) FunctionCall 18(@main(struct-hs_in_t-vf31[3];u1;) 50(param) 52(param)
56: 55(ptr) AccessChain 48(@entryPointOutput) 49
Store 56 54
ControlBarrier 57 58 59
60: 9(int) Load 45(cpid)
62: 61(bool) IEqual 60 30
SelectionMerge 64 None
BranchConditional 62 63 64
63: Label
69: 11 Load 67(i)
Store 68(param) 69
Store 70(param) 59
71:14(hs_out_t) FunctionCall 18(@main(struct-hs_in_t-vf31[3];u1;) 68(param) 70(param)
72: 27(ptr) AccessChain 66(pcf_out) 30
Store 72 71
76: 11 Load 74(i)
Store 75(param) 76
Store 77(param) 58
78:14(hs_out_t) FunctionCall 18(@main(struct-hs_in_t-vf31[3];u1;) 75(param) 77(param)
79: 27(ptr) AccessChain 66(pcf_out) 73
Store 79 78
83: 11 Load 81(i)
Store 82(param) 83
Store 84(param) 57
85:14(hs_out_t) FunctionCall 18(@main(struct-hs_in_t-vf31[3];u1;) 82(param) 84(param)
86: 27(ptr) AccessChain 66(pcf_out) 80
Store 86 85
89: 20 Load 66(pcf_out)
90:22(hs_pcf_t) FunctionCall 25(PCF(struct-hs_out_t-vf31[3];) 89
Store 88(@patchConstantResult) 90
96: 95(ptr) AccessChain 88(@patchConstantResult) 30 30
97: 6(float) Load 96
99: 98(ptr) AccessChain 94(@patchConstantOutput.tfactor) 30
Store 99 97
100: 95(ptr) AccessChain 88(@patchConstantResult) 30 73
101: 6(float) Load 100
102: 98(ptr) AccessChain 94(@patchConstantOutput.tfactor) 73
Store 102 101
103: 95(ptr) AccessChain 88(@patchConstantResult) 30 80
104: 6(float) Load 103
105: 98(ptr) AccessChain 94(@patchConstantOutput.tfactor) 80
Store 105 104
109: 95(ptr) AccessChain 88(@patchConstantResult) 73
110: 6(float) Load 109
111: 98(ptr) AccessChain 108(@patchConstantOutput.flInFactor) 30
Store 111 110
Branch 64
64: Label
Return
FunctionEnd
18(@main(struct-hs_in_t-vf31[3];u1;):14(hs_out_t) Function None 15
16(i): 12(ptr) FunctionParameter
17(cpid): 13(ptr) FunctionParameter
19: Label
28(o): 27(ptr) Variable Function
31: 9(int) Load 17(cpid)
32: 6(float) ConvertUToF 31
33: 7(fvec3) CompositeConstruct 32 32 32
35: 34(ptr) AccessChain 28(o) 30
Store 35 33
36:14(hs_out_t) Load 28(o)
ReturnValue 36
FunctionEnd
25(PCF(struct-hs_out_t-vf31[3];):22(hs_pcf_t) Function None 23
24(pcf_out): 20 FunctionParameter
26: Label
112(o): 87(ptr) Variable Function
113: 6(float) CompositeExtract 24(pcf_out) 0 0 0
114: 95(ptr) AccessChain 112(o) 30 30
Store 114 113
115: 6(float) CompositeExtract 24(pcf_out) 1 0 0
116: 95(ptr) AccessChain 112(o) 30 73
Store 116 115
117: 6(float) CompositeExtract 24(pcf_out) 2 0 0
118: 95(ptr) AccessChain 112(o) 30 80
Store 118 117
120: 95(ptr) AccessChain 112(o) 73
Store 120 119
121:22(hs_pcf_t) Load 112(o)
ReturnValue 121
FunctionEnd
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