// RUN: %clang_cc1 -O3 -triple %itanium_abi_triple -emit-llvm -o - %s | FileCheck -check-prefixes=CHECK,DEFAULT %s // RUN: %clang_cc1 -O3 -triple %itanium_abi_triple -freciprocal-math -emit-llvm -o - %s | FileCheck -check-prefixes=CHECK,FLAG %s float base(float a, float b, float c) { // CHECK-LABEL: _Z4basefff // FLAG: %[[A:.+]] = fdiv arcp float %b, %c // FLAG: %[[M:.+]] = fdiv arcp float %[[A]], %b // FLAG-NEXT: fadd arcp float %[[M]], %c // DEFAULT: %[[A:.+]] = fdiv float %b, %c // DEFAULT: %[[M:.+]] = fdiv float %[[A]], %b // DEFAULT-NEXT: fadd float %[[M]], %c a = b / c; return a / b + c; } // Simple case float fp_recip_simple(float a, float b, float c) { // CHECK-LABEL: _Z15fp_recip_simplefff // CHECK: %[[A:.+]] = fdiv arcp float %b, %c // CHECK: %[[M:.+]] = fdiv arcp float %[[A]], %b // CHECK-NEXT: fadd arcp float %[[M]], %c #pragma clang fp reciprocal(on) a = b / c; return a / b + c; } // Test interaction with -freciprocal-math float fp_recip_disable(float a, float b, float c) { // CHECK-LABEL: _Z16fp_recip_disablefff // CHECK: %[[A:.+]] = fdiv float %b, %c // CHECK: %[[M:.+]] = fdiv float %[[A]], %b // CHECK-NEXT: fadd float %[[M]], %c #pragma clang fp reciprocal(off) a = b / c; return a / b + c; } float fp_recip_with_reassoc_simple(float a, float b, float c) { // CHECK-LABEL: _Z28fp_recip_with_reassoc_simplefff // CHECK: %[[A:.+]] = fmul reassoc arcp float %b, %c // CHECK: %[[M:.+]] = fdiv reassoc arcp float %b, %[[A]] // CHECK-NEXT: fadd reassoc arcp float %[[M]], %c #pragma clang fp reciprocal(on) reassociate(on) a = b / c; return a / b + c; } // arcp pragma should only apply to its scope float fp_recip_scoped(float a, float b, float c) { // CHECK-LABEL: _Z15fp_recip_scopedfff // DEFAULT: %[[M:.+]] = fdiv float %a, %b // DEFAULT-NEXT: fadd float %[[M]], %c // FLAG: %[[M:.+]] = fdiv arcp float %a, %b // FLAG-NEXT: fadd arcp float %[[M]], %c { #pragma clang fp reciprocal(on) } return a / b + c; } // arcp pragma should apply to templates as well class Foo {}; Foo operator+(Foo, Foo); template T template_recip(T a, T b, T c) { #pragma clang fp reciprocal(on) return ((a / b) - c) + c; } float fp_recip_template(float a, float b, float c) { // CHECK-LABEL: _Z17fp_recip_templatefff // CHECK: %[[A1:.+]] = fdiv arcp float %a, %b // CHECK-NEXT: %[[A2:.+]] = fsub arcp float %[[A1]], %c // CHECK-NEXT: fadd arcp float %[[A2]], %c return template_recip(a, b, c); } // File Scoping should work across functions #pragma clang fp reciprocal(on) float fp_file_scope_on(float a, float b, float c) { // CHECK-LABEL: _Z16fp_file_scope_onfff // CHECK: %[[M1:.+]] = fdiv arcp float %a, %c // CHECK-NEXT: %[[M2:.+]] = fdiv arcp float %b, %c // CHECK-NEXT: fadd arcp float %[[M1]], %[[M2]] return (a / c) + (b / c); } // Inner pragma has precedence float fp_file_scope_stop(float a, float b, float c) { // CHECK-LABEL: _Z18fp_file_scope_stopfff // CHECK: %[[A:.+]] = fdiv arcp float %a, %a // CHECK: %[[M1:.+]] = fdiv float %[[A]], %c // CHECK-NEXT: %[[M2:.+]] = fdiv float %b, %c // CHECK-NEXT: fsub float %[[M1]], %[[M2]] a = a / a; { #pragma clang fp reciprocal(off) return (a / c) - (b / c); } } #pragma clang fp reciprocal(off) float fp_recip_off(float a, float b, float c) { // CHECK-LABEL: _Z12fp_recip_offfff // CHECK: %[[D1:.+]] = fdiv float %a, %c // CHECK-NEXT: %[[D2:.+]] = fdiv float %b, %c // CHECK-NEXT: fadd float %[[D1]], %[[D2]] return (a / c) + (b / c); } // Takes latest flag float fp_recip_many(float a, float b, float c) { // CHECK-LABEL: _Z13fp_recip_manyfff // CHECK: %[[D1:.+]] = fdiv arcp float %a, %c // CHECK-NEXT: %[[D2:.+]] = fdiv arcp float %b, %c // CHECK-NEXT: fadd arcp float %[[D1]], %[[D2]] #pragma clang fp reciprocal(off) reciprocal(on) return (a / c) + (b / c); } // Pragma does not propagate through called functions float helper_func(float a, float b, float c) { return a + b + c; } float fp_recip_call_helper(float a, float b, float c) { // CHECK-LABEL: _Z20fp_recip_call_helperfff // CHECK: %[[S1:.+]] = fadd float %a, %b // CHECK-NEXT: fadd float %[[S1]], %c #pragma clang fp reciprocal(on) return helper_func(a, b, c); }