// RUN: %clang_cc1 -triple dxil-pc-shadermodel6.3-library -fnative-half-type -finclude-default-header -Wconversion -verify -o - %s -DERROR=1 // RUN: %clang_cc1 -triple dxil-pc-shadermodel6.3-library -fnative-half-type -finclude-default-header -Wno-conversion -ast-dump %s | FileCheck %s // This test verifies floating point type implicit conversion ranks for overload // resolution. In HLSL the built-in type ranks are half < float < double. This // applies to both scalar and vector types. // HLSL allows implicit truncation fo types, so it differentiates between // promotions (converting to larger types) and conversions (converting to // smaller types). Promotions are preferred over conversions. Promotions prefer // promoting to the next lowest type in the ranking order. Conversions prefer // converting to the next highest type in the ranking order. void HalfFloatDouble(double2 D); void HalfFloatDouble(float2 F); void HalfFloatDouble(half2 H); // CHECK: FunctionDecl {{.*}} used HalfFloatDouble 'void (double2)' // CHECK: FunctionDecl {{.*}} used HalfFloatDouble 'void (float2)' // CHECK: FunctionDecl {{.*}} used HalfFloatDouble 'void (half2)' void FloatDouble(double2 D); // expected-note {{candidate function}} void FloatDouble(float2 F); // expected-note {{candidate function}} // CHECK: FunctionDecl {{.*}} used FloatDouble 'void (double2)' // CHECK: FunctionDecl {{.*}} used FloatDouble 'void (float2)' void HalfDouble(double2 D); void HalfDouble(half2 H); // CHECK: FunctionDecl {{.*}} used HalfDouble 'void (double2)' // CHECK: FunctionDecl {{.*}} used HalfDouble 'void (half2)' void HalfFloat(float2 F); // expected-note {{candidate function}} void HalfFloat(half2 H); // expected-note {{candidate function}} // CHECK: FunctionDecl {{.*}} used HalfFloat 'void (float2)' // CHECK: FunctionDecl {{.*}} used HalfFloat 'void (half2)' void Double(double2 D); void Float(float2 F); void Half(half2 H); // CHECK: FunctionDecl {{.*}} used Double 'void (double2)' // CHECK: FunctionDecl {{.*}} used Float 'void (float2)' // CHECK: FunctionDecl {{.*}} used Half 'void (half2)' // Case 1: A function declared with overloads for half float and double types. // (a) When called with half, it will resolve to half because half is an exact // match. // (b) When called with float it will resolve to float because float is an // exact match. // (c) When called with double it will resolve to double because it is an // exact match. // CHECK-LABEL: FunctionDecl {{.*}} Case1 'void (half2, float2, double2)' void Case1(half2 H, float2 F, double2 D) { // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(half2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (half2)' lvalue Function {{.*}} 'HalfFloatDouble' 'void (half2)' HalfFloatDouble(H); // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(float2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (float2)' lvalue Function {{.*}} 'HalfFloatDouble' 'void (float2)' HalfFloatDouble(F); // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(double2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (double2)' lvalue Function {{.*}} 'HalfFloatDouble' 'void (double2)' HalfFloatDouble(D); } // Case 2: A function declared with double and float overlaods. // (a) When called with half, it fails to resulve the ambiguous promotion. // (b) When called with float it will resolve to float because float is an // exact match. // (c) When called with double it will resolve to double because it is an // exact match. // CHECK-LABEL: FunctionDecl {{.*}} Case2 'void (half2, float2, double2)' void Case2(half2 H, float2 F, double2 D) { #if ERROR FloatDouble(H); // expected-error {{call to 'FloatDouble' is ambiguous}} #endif // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(float2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (float2)' lvalue Function {{.*}} 'FloatDouble' 'void (float2)' FloatDouble(F); // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(double2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (double2)' lvalue Function {{.*}} 'FloatDouble' 'void (double2)' FloatDouble(D); } // Case 3: A function declared with half and double overloads // (a) When called with half, it will resolve to half because it is an exact // match. // (b) When called with flaot, it will resolve to double because double is a // valid promotion. // (c) When called with double, it will resolve to double because it is an // exact match. // CHECK-LABEL: FunctionDecl {{.*}} Case3 'void (half2, float2, double2)' void Case3(half2 H, float2 F, double2 D) { // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(half2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (half2)' lvalue Function {{.*}} 'HalfDouble' 'void (half2)' HalfDouble(H); // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(double2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (double2)' lvalue Function {{.*}} 'HalfDouble' 'void (double2)' HalfDouble(F); // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(double2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (double2)' lvalue Function {{.*}} 'HalfDouble' 'void (double2)' HalfDouble(D); } // Case 4: A function declared with half and float overloads. // (a) When called with half, it will resolve to half because half is an exact // match. // (b) When called with float it will resolve to float because float is an // exact match. // (c) When called with double it fails to resolve the ambigjuous conversion. // CHECK-LABEL: FunctionDecl {{.*}} Case4 'void (half2, float2, double2)' void Case4(half2 H, float2 F, double2 D) { // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(half2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (half2)' lvalue Function {{.*}} 'HalfFloat' 'void (half2)' HalfFloat(H); // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(float2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (float2)' lvalue Function {{.*}} 'HalfFloat' 'void (float2)' HalfFloat(F); #if ERROR HalfFloat(D); // expected-error{{call to 'HalfFloat' is ambiguous}} #endif } // Case 5: A function declared with only a double overload. // (a) When called with half, it will resolve to double because double is a // valid promotion. // (b) When called with float it will resolve to double because double is a // valid promotion. // (c) When called with double it will resolve to double because it is an // exact match. // CHECK-LABEL: FunctionDecl {{.*}} Case5 'void (half2, float2, double2)' void Case5(half2 H, float2 F, double2 D) { // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(double2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (double2)' lvalue Function {{.*}} 'Double' 'void (double2)' Double(H); // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(double2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (double2)' lvalue Function {{.*}} 'Double' 'void (double2)' Double(F); // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(double2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (double2)' lvalue Function {{.*}} 'Double' 'void (double2)' Double(D); } // Case 6: A function declared with only a float overload. // (a) When called with half, it will resolve to float because float is a // valid promotion. // (b) When called with float it will resolve to float because float is an // exact match. // (c) When called with double it will resolve to float because it is a // valid conversion. // CHECK-LABEL: FunctionDecl {{.*}} Case6 'void (half2, float2, double2)' void Case6(half2 H, float2 F, double2 D) { // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(float2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (float2)' lvalue Function {{.*}} 'Float' 'void (float2)' Float(H); // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(float2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (float2)' lvalue Function {{.*}} 'Float' 'void (float2)' Float(F); // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(float2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (float2)' lvalue Function {{.*}} 'Float' 'void (float2)' Float(D); // expected-warning{{implicit conversion loses floating-point precision: 'double2' (aka 'vector') to 'vector' (vector of 2 'float' values)}} } // Case 7: A function declared with only a half overload. // (a) When called with half, it will resolve to half because half is an // exact match // (b) When called with float it will resolve to half because half is a // valid conversion. // (c) When called with double it will resolve to float because it is a // valid conversion. // CHECK-LABEL: FunctionDecl {{.*}} Case7 'void (half2, float2, double2)' void Case7(half2 H, float2 F, double2 D) { // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(half2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (half2)' lvalue Function {{.*}} 'Half' 'void (half2)' Half(H); // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(half2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (half2)' lvalue Function {{.*}} 'Half' 'void (half2)' Half(F); // expected-warning{{implicit conversion loses floating-point precision: 'float2' (aka 'vector') to 'vector' (vector of 2 'half' values)}} // CHECK: CallExpr {{.*}} 'void' // CHECK-NEXT: ImplicitCastExpr {{.*}} 'void (*)(half2)' // CHECK-NEXT: DeclRefExpr {{.*}} 'void (half2)' lvalue Function {{.*}} 'Half' 'void (half2)' Half(D); // expected-warning{{implicit conversion loses floating-point precision: 'double2' (aka 'vector') to 'vector' (vector of 2 'half' values)}} }