a580fb3f9e
Overriding bits of the paint was added with keyboard bindings but without being reflected in the GUI. This adds these flags to the GUI. Change-Id: I633801fb776248952afe7cbe8857676ef8b57135 Reviewed-on: https://skia-review.googlesource.com/121796 Reviewed-by: Brian Osman <brianosman@google.com> Commit-Queue: Ben Wagner <bungeman@google.com>
211 lines
8.9 KiB
C++
211 lines
8.9 KiB
C++
/*
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* Copyright 2013 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#ifndef SkTFitsIn_DEFINED
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#define SkTFitsIn_DEFINED
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#include "../private/SkTLogic.h"
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#include <limits>
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#include <type_traits>
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/**
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* In C++ an unsigned to signed cast where the source value cannot be represented in the destination
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* type results in an implementation defined destination value. Unlike C, C++ does not allow a trap.
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* This makes "(S)(D)s == s" a possibly useful test. However, there are two cases where this is
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* incorrect:
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*
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* when testing if a value of a smaller signed type can be represented in a larger unsigned type
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* (int8_t)(uint16_t)-1 == -1 => (int8_t)0xFFFF == -1 => [implementation defined] == -1
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*
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* when testing if a value of a larger unsigned type can be represented in a smaller signed type
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* (uint16_t)(int8_t)0xFFFF == 0xFFFF => (uint16_t)-1 == 0xFFFF => 0xFFFF == 0xFFFF => true.
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*
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* Consider the cases:
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* u = unsigned, s = signed, X = more digits, x = less digits
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* ux -> uX: (ux)(uX)ux == ux, trivially true
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* uX -> ux: (uX)(ux)uX == uX, both casts well defined, test works
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* sx -> sX: (sx)(sX)sx == sx, trivially true
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* sX -> sx: (sX)(sx)sX == sX, first cast implementation value, second cast defined, test works
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* sx -> uX: (sx)(uX)sx == sx, this is bad, the second cast results in implementation defined value
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* sX -> ux: (sX)(ux)sX == sX, the second cast is required to prevent promotion of rhs to unsigned
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* ux -> sX: (ux)(sX)ux == ux, trivially true
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* uX -> sx: (uX)(sx)uX == uX, this is bad,
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* first cast results in implementation defined value,
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* second cast is defined. However, this creates false positives
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* uint16_t x = 0xFFFF
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* (uint16_t)(int8_t)x == x
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* => (uint16_t)-1 == x
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* => 0xFFFF == x
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* => true
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*
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* So for the eight cases three are trivially true, three more are valid casts, and two are special.
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* The two 'full' checks which otherwise require two comparisons are valid cast checks.
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* The two remaining checks uX -> sx [uX < max(sx)] and sx -> uX [sx > 0] can be done with one op.
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*/
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namespace sktfitsin {
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namespace Private {
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/** SkTMux::type = (a && b) ? Both : (a) ? A : (b) ? B : Neither; */
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template <bool a, bool b, typename Both, typename A, typename B, typename Neither>
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struct SkTMux {
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using type = skstd::conditional_t<a, skstd::conditional_t<b, Both, A>,
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skstd::conditional_t<b, B, Neither>>;
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};
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/** SkTHasMoreDigits = (digits(A) >= digits(B)) ? true_type : false_type. */
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template <typename A, typename B> struct SkTHasMoreDigits
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: skstd::bool_constant<std::numeric_limits<A>::digits >= std::numeric_limits<B>::digits>
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{ };
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/** Returns true.
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* Used when it is statically known that source values are in the range of the Destination.
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*/
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template <typename S> struct SkTInRange_True {
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static constexpr bool fits(S) {
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return true;
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}
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};
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/** Tests that (S)(D)s == s.
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* This is not valid for uX -> sx and sx -> uX conversions.
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*/
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template <typename D, typename S> struct SkTInRange_Cast {
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static constexpr bool fits(S s) {
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using S_is_bigger = SkTHasMoreDigits<S, D>;
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using D_is_bigger = SkTHasMoreDigits<D, S>;
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using S_is_signed = skstd::bool_constant<std::numeric_limits<S>::is_signed>;
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using D_is_signed = skstd::bool_constant<std::numeric_limits<D>::is_signed>;
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using precondition = skstd::bool_constant<
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!((!S_is_signed::value && D_is_signed::value && S_is_bigger::value) ||
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( S_is_signed::value && !D_is_signed::value && D_is_bigger::value) )>;
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static_assert(precondition::value, "not valid for uX -> sx and sx -> uX conversions");
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return static_cast<S>(static_cast<D>(s)) == s;
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}
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};
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/** Tests if the source value <= Max(D).
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* Assumes that Max(S) >= Max(D).
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*/
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template <typename D, typename S> struct SkTInRange_LE_MaxD {
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static constexpr bool fits(S s) {
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using precondition = SkTHasMoreDigits<S, D>;
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static_assert(precondition::value, "maxS < maxD");
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return s <= static_cast<S>((std::numeric_limits<D>::max)());
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}
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};
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/** Tests if the source value >= 0. */
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template <typename D, typename S> struct SkTInRange_GE_Zero {
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static constexpr bool fits(S s) {
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return static_cast<S>(0) <= s;
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}
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};
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/** SkTFitsIn_Unsigned2Unsiged::type is an SkTInRange with an fits(S s) method
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* the implementation of which is tailored for the source and destination types.
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* Assumes that S and D are unsigned integer types.
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*/
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template <typename D, typename S> struct SkTFitsIn_Unsigned2Unsiged {
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using CastCheck = SkTInRange_Cast<D, S>;
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using NoCheck = SkTInRange_True<S>;
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// If std::numeric_limits<D>::digits >= std::numeric_limits<S>::digits, nothing to check.
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using sourceFitsInDesitination = SkTHasMoreDigits<D, S>;
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using type = skstd::conditional_t<sourceFitsInDesitination::value, NoCheck, CastCheck>;
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};
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/** SkTFitsIn_Signed2Signed::type is an SkTInRange with an fits(S s) method
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* the implementation of which is tailored for the source and destination types.
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* Assumes that S and D are signed integer types.
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*/
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template <typename D, typename S> struct SkTFitsIn_Signed2Signed {
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using CastCheck = SkTInRange_Cast<D, S>;
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using NoCheck = SkTInRange_True<S>;
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// If std::numeric_limits<D>::digits >= std::numeric_limits<S>::digits, nothing to check.
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using sourceFitsInDesitination = SkTHasMoreDigits<D, S>;
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using type = skstd::conditional_t<sourceFitsInDesitination::value, NoCheck, CastCheck>;
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};
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/** SkTFitsIn_Signed2Unsigned::type is an SkTInRange with an fits(S s) method
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* the implementation of which is tailored for the source and destination types.
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* Assumes that S is a signed integer type and D is an unsigned integer type.
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*/
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template <typename D, typename S> struct SkTFitsIn_Signed2Unsigned {
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using CastCheck = SkTInRange_Cast<D, S>;
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using LowSideOnlyCheck = SkTInRange_GE_Zero<D, S>;
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// If std::numeric_limits<D>::max() >= std::numeric_limits<S>::max(),
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// no need to check the high side. (Until C++11, assume more digits means greater max.)
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// This also protects the precondition of SkTInRange_Cast.
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using sourceCannotExceedDest = SkTHasMoreDigits<D, S>;
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using type = skstd::conditional_t<sourceCannotExceedDest::value, LowSideOnlyCheck, CastCheck>;
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};
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/** SkTFitsIn_Unsigned2Signed::type is an SkTInRange with an fits(S s) method
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* the implementation of which is tailored for the source and destination types.
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* Assumes that S is an usigned integer type and D is a signed integer type.
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*/
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template <typename D, typename S> struct SkTFitsIn_Unsigned2Signed {
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using HighSideCheck = SkTInRange_LE_MaxD<D, S>;
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using NoCheck = SkTInRange_True<S>;
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// If std::numeric_limits<D>::max() >= std::numeric_limits<S>::max(), nothing to check.
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// (Until C++11, assume more digits means greater max.)
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using sourceCannotExceedDest = SkTHasMoreDigits<D, S>;
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using type = skstd::conditional_t<sourceCannotExceedDest::value, NoCheck, HighSideCheck>;
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};
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/** SkTFitsIn::type is an SkTInRange with an fits(S s) method
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* the implementation of which is tailored for the source and destination types.
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* Assumes that S and D are integer types.
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*/
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template <typename D, typename S> struct SkTFitsIn {
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// One of the following will be the 'selector' type.
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using S2S = SkTFitsIn_Signed2Signed<D, S>;
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using S2U = SkTFitsIn_Signed2Unsigned<D, S>;
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using U2S = SkTFitsIn_Unsigned2Signed<D, S>;
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using U2U = SkTFitsIn_Unsigned2Unsiged<D, S>;
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using S_is_signed = skstd::bool_constant<std::numeric_limits<S>::is_signed>;
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using D_is_signed = skstd::bool_constant<std::numeric_limits<D>::is_signed>;
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using selector = typename SkTMux<S_is_signed::value, D_is_signed::value,
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S2S, S2U, U2S, U2U>::type;
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// This type is an SkTInRange.
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using type = typename selector::type;
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};
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template <typename T, bool = std::is_enum<T>::value> struct underlying_type {
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using type = skstd::underlying_type_t<T>;
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};
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template <typename T> struct underlying_type<T, false> {
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using type = T;
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};
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} // namespace Private
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} // namespace sktfitsin
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/** Returns true if the integer source value 's' will fit in the integer destination type 'D'. */
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template <typename D, typename S> constexpr inline bool SkTFitsIn(S s) {
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static_assert(std::is_integral<S>::value || std::is_enum<S>::value, "S must be integral.");
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static_assert(std::is_integral<D>::value || std::is_enum<D>::value, "D must be integral.");
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using RealS = typename sktfitsin::Private::underlying_type<S>::type;
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using RealD = typename sktfitsin::Private::underlying_type<D>::type;
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return sktfitsin::Private::SkTFitsIn<RealD, RealS>::type::fits(static_cast<RealS>(s));
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}
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#endif
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