// RUN: %clang_cc1 -S %s -emit-llvm -o - | FileCheck %s // RUN: %clang_cc1 -S %s -emit-llvm -triple i686-unknown-unknown -o - | FileCheck %s // RUN: %clang_cc1 -S %s -emit-llvm -triple x86_64-unknown-unknown -o - | FileCheck %s #include <stdint.h> // This test is meant to verify code that handles the 'p = nullptr + n' idiom // used by some versions of glibc and gcc. This is undefined behavior but // it is intended there to act like a conversion from a pointer-sized integer // to a pointer, and we would like to tolerate that. #define NULLPTRI8 ((int8_t*)0) // This should get the inttoptr instruction. int8_t *test1(intptr_t n) { return NULLPTRI8 + n; } // CHECK-LABEL: test1 // CHECK: inttoptr // CHECK-NOT: getelementptr // This doesn't meet the idiom because the element type is larger than a byte. int16_t *test2(intptr_t n) { return (int16_t*)0 + n; } // CHECK-LABEL: test2 // CHECK: getelementptr // CHECK-NOT: inttoptr // This doesn't meet the idiom because the offset is subtracted. int8_t* test3(intptr_t n) { return NULLPTRI8 - n; } // CHECK-LABEL: test3 // CHECK: getelementptr // CHECK-NOT: inttoptr // This checks the case where the offset isn't pointer-sized. // The front end will implicitly cast the offset to an integer, so we need to // make sure that doesn't cause problems on targets where integers and pointers // are not the same size. int8_t *test4(int8_t b) { return NULLPTRI8 + b; } // CHECK-LABEL: test4 // CHECK: inttoptr // CHECK-NOT: getelementptr |