// REQUIRES: hexagon-registered-target // RUN: %clang_cc1 -emit-llvm -O2 -o - -triple hexagon-unknown-elf -target-cpu hexagonv60 %s | FileCheck %s // The return value should return the value in A[1]. // Check that the HexagonBuiltinExpr doesn't evaluate &(*ptr++) twice. If so, // the return value will be the value in A[2] // CHECK: @brev_ptr_inc // CHECK-DAG: llvm.hexagon.L2.loadri.pbr // CHECK-DAG: getelementptr{{.*}}i32 1 // CHECK-NOT: getelementptr{{.*}}i32 2 // CHECK-NOT: getelementptr{{.*}}i32 1 int brev_ptr_inc(int A[], int B[]) { int *p0 = &B[0]; int *p1 = &A[0]; __builtin_brev_ldw(p0, &*p1++, 8); return (*p1); } // The return value should return the value in A[0]. // CHECK: @brev_ptr_dec // CHECK: llvm.hexagon.L2.loadri.pbr // CHECK: [[RET:%[0-9]+]] = load{{.*}}%A // CHECK: ret{{.*}}[[RET]] int brev_ptr_dec(int A[], int B[]) { int *p0 = &B[0]; int *p1 = &A[1]; __builtin_brev_ldw(p0, &*p1--, 8); return (*p1); } // The store in bitcode needs to be of width correspondng to 16-bit. // CHECK: @brev_ptr_half // CHECK: llvm.hexagon.L2.loadrh.pbr // CHECK: store{{.*}}i16{{.*}}i16* short int brev_ptr_half(short int A[], short int B[]) { short int *p0 = &B[0]; short int *p1 = &A[0]; __builtin_brev_ldh(p0, &*p1++, 8); return (*p1); } // The store in bitcode needs to be of width correspondng to 8-bit. // CHECK: @brev_ptr_byte // CHECK: llvm.hexagon.L2.loadrub.pbr // CHECK: store{{.*}}i8{{.*}}i8* unsigned char brev_ptr_byte(unsigned char A[], unsigned char B[]) { unsigned char *p0 = &B[0]; unsigned char *p1 = &A[0]; __builtin_brev_ldub(p0, &*p1++, 8); return (*p1); }