// Test calling differentiable function through dynamic dispatch. //TEST(compute):COMPARE_COMPUTE_EX:-slang -compute -shaderobj -output-using-type //TEST(compute, vulkan):COMPARE_COMPUTE_EX:-vk -compute -shaderobj -output-using-type //TEST(compute):COMPARE_COMPUTE_EX:-cuda -compute -shaderobj -output-using-type //TEST_INPUT:ubuffer(data=[0 0 0 0 0], stride=4):out,name=outputBuffer RWStructuredBuffer outputBuffer; [anyValueSize(16)] interface IFoo { float foo(); } [anyValueSize(16)] interface INestedInterface { associatedtype NestedAssocType : IFoo; } [anyValueSize(16)] interface IInterface { associatedtype MyAssocType : INestedInterface; MyAssocType.NestedAssocType calc(float x); } // ================================ struct A_Assoc_Assoc : IFoo { float a; float foo() { return a; } } struct A_Assoc : INestedInterface { typedef A_Assoc_Assoc NestedAssocType; } struct A : IInterface { typedef A_Assoc MyAssocType int data1; __init(int data1) { this.data1 = data1; } A_Assoc_Assoc calc(float x) { return { x * x * x * data1 }; } }; // ================================ struct B_Assoc_Assoc : IFoo { float b; float foo() { return b; } } struct B_Assoc : INestedInterface { typedef B_Assoc_Assoc NestedAssocType; } struct B : IInterface { typedef B_Assoc MyAssocType int data1; int data2; __init(int data1, int data2) { this.data1 = data1; this.data2 = data2; } B_Assoc_Assoc calc(float x) { return { x * x * data1 * data2 }; } }; // ================================ float doThing(IInterface obj, float x) { let o = obj.calc(x); return o.foo(); } float f(uint id, float x) { IInterface obj; switch (id) { case 0: obj = A(2); break; default: obj = B(2, 3); } return doThing(obj, x); } //TEST_INPUT: type_conformance A:IInterface = 0 //TEST_INPUT: type_conformance B:IInterface = 1 [numthreads(1, 1, 1)] void computeMain(uint3 dispatchThreadID : SV_DispatchThreadID) { outputBuffer[0] = f(dispatchThreadID.x, 1.0); // A.calc, expect 2 outputBuffer[1] = f(dispatchThreadID.x + 1, 1.5); // B.calc, expect 13.5 }