/* * Copyright 2013 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SkTFitsIn_DEFINED #define SkTFitsIn_DEFINED #include <limits> #include <type_traits> /** * In C++ an unsigned to signed cast where the source value cannot be represented in the destination * type results in an implementation defined destination value. Unlike C, C++ does not allow a trap. * This makes "(S)(D)s == s" a possibly useful test. However, there are two cases where this is * incorrect: * * when testing if a value of a smaller signed type can be represented in a larger unsigned type * (int8_t)(uint16_t)-1 == -1 => (int8_t)0xFFFF == -1 => [implementation defined] == -1 * * when testing if a value of a larger unsigned type can be represented in a smaller signed type * (uint16_t)(int8_t)0xFFFF == 0xFFFF => (uint16_t)-1 == 0xFFFF => 0xFFFF == 0xFFFF => true. * * Consider the cases: * u = unsigned, less digits * U = unsigned, more digits * s = signed, less digits * S = signed, more digits * v is the value we're considering. * * u -> U: (u)(U)v == v, trivially true * U -> u: (U)(u)v == v, both casts well defined, test works * s -> S: (s)(S)v == v, trivially true * S -> s: (S)(s)v == v, first cast implementation value, second cast defined, test works * s -> U: (s)(U)v == v, *this is bad*, the second cast results in implementation defined value * S -> u: (S)(u)v == v, the second cast is required to prevent promotion of rhs to unsigned * u -> S: (u)(S)v == v, trivially true * U -> s: (U)(s)v == v, *this is bad*, * first cast results in implementation defined value, * second cast is defined. However, this creates false positives * uint16_t x = 0xFFFF * (uint16_t)(int8_t)x == x * => (uint16_t)-1 == x * => 0xFFFF == x * => true * * So for the eight cases three are trivially true, three more are valid casts, and two are special. * The two 'full' checks which otherwise require two comparisons are valid cast checks. * The two remaining checks s -> U [v >= 0] and U -> s [v <= max(s)] can be done with one op. */ template <typename D, typename S> static constexpr inline typename std::enable_if<(std::is_integral<S>::value || std::is_enum<S>::value) && (std::is_integral<D>::value || std::is_enum<D>::value), bool>::type /*bool*/ SkTFitsIn(S src) { // SkTFitsIn() is used in public headers, so needs to be written targeting at most C++11. return // E.g. (int8_t)(uint8_t) int8_t(-1) == -1, but the uint8_t == 255, not -1. (std::is_signed<S>::value && std::is_unsigned<D>::value && sizeof(S) <= sizeof(D)) ? (S)0 <= src : // E.g. (uint8_t)(int8_t) uint8_t(255) == 255, but the int8_t == -1. (std::is_signed<D>::value && std::is_unsigned<S>::value && sizeof(D) <= sizeof(S)) ? src <= (S)std::numeric_limits<D>::max() : // else (S)(D)src == src; } #endif