// // Tests for // T& operator[](std::ptrdiff_t n); // T const& operator[](std::ptrdiff_t n) const; // #include #include #include "test_utils.h" #include #include struct T { long i; }; template static void tests() { // Test the non-const version { RawT* memory = reinterpret_cast(malloc_allocator::allocate(10 * sizeof(RawT))); for (RawT* ptr = memory; ptr != memory + 10; ++ptr) { *ptr = RawT{ptr - memory}; // number from 0 to 9 } test_safe_allocation array(memory, 10, libkern::adopt_memory); for (std::ptrdiff_t n = 0; n != 10; ++n) { QualT& element = array[n]; CHECK(&element == memory + n); } } // Test the const version { RawT* memory = reinterpret_cast(malloc_allocator::allocate(10 * sizeof(RawT))); for (RawT* ptr = memory; ptr != memory + 10; ++ptr) { *ptr = RawT{ptr - memory}; // number from 0 to 9 } test_safe_allocation const array(memory, 10, libkern::adopt_memory); for (std::ptrdiff_t n = 0; n != 10; ++n) { QualT const& element = array[n]; CHECK(&element == memory + n); } } // Test with OOB offsets (should trap) { using Alloc = libkern::safe_allocation; RawT* memory = reinterpret_cast(malloc_allocator::allocate(10 * sizeof(RawT))); Alloc const array(memory, 10, libkern::adopt_memory); // Negative offsets { tracking_trapping_policy::reset(); (void)array[-1]; CHECK(tracking_trapping_policy::did_trap); } { tracking_trapping_policy::reset(); (void)array[-10]; CHECK(tracking_trapping_policy::did_trap); } // Too large offsets { tracking_trapping_policy::reset(); (void)array[10]; CHECK(tracking_trapping_policy::did_trap); } { tracking_trapping_policy::reset(); (void)array[11]; CHECK(tracking_trapping_policy::did_trap); } } } T_DECL(operator_subscript, "safe_allocation.operator.subscript", T_META_TAG_VM_PREFERRED) { tests(); tests(); }