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236 lines
8.5 KiB
C++
236 lines
8.5 KiB
C++
/*
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* Copyright 2016 Facebook, Inc.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#pragma once
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/*
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* Iterim macros (until we have C++0x range-based for) that simplify
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* writing loops of the form
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*
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* for (Container<data>::iterator i = c.begin(); i != c.end(); ++i) statement
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*
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* Just replace the above with:
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*
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* FOR_EACH (i, c) statement
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*
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* and everything is taken care of.
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*
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* The implementation is a bit convoluted to make sure the container is
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* evaluated only once (however, keep in mind that c.end() is evaluated
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* at every pass through the loop). To ensure the container is not
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* evaluated multiple times, the macro defines one do-nothing if
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* statement to inject the Boolean variable FOR_EACH_state1, and then a
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* for statement that is executed only once, which defines the variable
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* FOR_EACH_state2 holding an rvalue reference to the container being
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* iterated. The workhorse is the last loop, which uses the just-defined
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* rvalue reference FOR_EACH_state2.
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*
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* The state variables are nested so they don't interfere; you can use
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* FOR_EACH multiple times in the same scope, either at the same level or
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* nested.
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*
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* In optimized builds g++ eliminates the extra gymnastics entirely and
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* generates code 100% identical to the handwritten loop.
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*/
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#include <type_traits>
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#include <folly/Preprocessor.h>
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/*
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* Form a local variable name from "FOR_EACH_" x __LINE__, so that
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* FOR_EACH can be nested without creating shadowed declarations.
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*/
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#define _FE_ANON(x) FB_CONCATENATE(FOR_EACH_, FB_CONCATENATE(x, __LINE__))
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/*
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* Shorthand for:
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* for (auto i = c.begin(); i != c.end(); ++i)
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* except that c is evaluated only once.
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*/
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#define FOR_EACH(i, c) \
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if (bool _FE_ANON(s1_) = false) {} else \
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for (auto && _FE_ANON(s2_) = (c); \
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!_FE_ANON(s1_); _FE_ANON(s1_) = true) \
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for (auto i = _FE_ANON(s2_).begin(); \
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i != _FE_ANON(s2_).end(); ++i)
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/*
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* Similar to FOR_EACH, but iterates the container backwards by
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* using rbegin() and rend().
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*/
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#define FOR_EACH_R(i, c) \
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if (bool FOR_EACH_R_state1 = false) {} else \
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for (auto && FOR_EACH_R_state2 = (c); \
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!FOR_EACH_R_state1; FOR_EACH_R_state1 = true) \
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for (auto i = FOR_EACH_R_state2.rbegin(); \
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i != FOR_EACH_R_state2.rend(); ++i)
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/*
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* Similar to FOR_EACH but also allows client to specify a 'count' variable
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* to track the current iteration in the loop (starting at zero).
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* Similar to python's enumerate() function. For example:
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* string commaSeparatedValues = "VALUES: ";
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* FOR_EACH_ENUMERATE(ii, value, columns) { // don't want comma at the end!
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* commaSeparatedValues += (ii == 0) ? *value : string(",") + *value;
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* }
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*/
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#define FOR_EACH_ENUMERATE(count, i, c) \
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if (bool FOR_EACH_state1 = false) {} else \
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for (auto && FOR_EACH_state2 = (c); \
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!FOR_EACH_state1; FOR_EACH_state1 = true) \
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if (size_t FOR_EACH_privateCount = 0) {} else \
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if (const size_t& count = FOR_EACH_privateCount) {} else \
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for (auto i = FOR_EACH_state2.begin(); \
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i != FOR_EACH_state2.end(); ++FOR_EACH_privateCount, ++i)
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/**
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* Similar to FOR_EACH, but gives the user the key and value for each entry in
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* the container, instead of just the iterator to the entry. For example:
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* map<string, string> testMap;
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* FOR_EACH_KV(key, value, testMap) {
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* cout << key << " " << value;
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* }
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*/
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#define FOR_EACH_KV(k, v, c) \
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if (unsigned int FOR_EACH_state1 = 0) {} else \
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for (auto && FOR_EACH_state2 = (c); \
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!FOR_EACH_state1; FOR_EACH_state1 = 1) \
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for (auto FOR_EACH_state3 = FOR_EACH_state2.begin(); \
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FOR_EACH_state3 != FOR_EACH_state2.end(); \
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FOR_EACH_state1 == 2 \
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? ((FOR_EACH_state1 = 0), ++FOR_EACH_state3) \
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: (FOR_EACH_state3 = FOR_EACH_state2.end())) \
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for (auto &k = FOR_EACH_state3->first; \
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!FOR_EACH_state1; ++FOR_EACH_state1) \
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for (auto &v = FOR_EACH_state3->second; \
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!FOR_EACH_state1; ++FOR_EACH_state1)
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namespace folly { namespace detail {
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// Boost 1.48 lacks has_less, we emulate a subset of it here.
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template <typename T, typename U>
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class HasLess {
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struct BiggerThanChar { char unused[2]; };
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template <typename C, typename D> static char test(decltype(C() < D())*);
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template <typename, typename> static BiggerThanChar test(...);
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public:
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enum { value = sizeof(test<T, U>(0)) == 1 };
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};
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/**
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* notThereYet helps the FOR_EACH_RANGE macro by opportunistically
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* using "<" instead of "!=" whenever available when checking for loop
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* termination. This makes e.g. examples such as FOR_EACH_RANGE (i,
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* 10, 5) execute zero iterations instead of looping virtually
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* forever. At the same time, some iterator types define "!=" but not
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* "<". The notThereYet function will dispatch differently for those.
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*
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* Below is the correct implementation of notThereYet. It is disabled
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* because of a bug in Boost 1.46: The filesystem::path::iterator
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* defines operator< (via boost::iterator_facade), but that in turn
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* uses distance_to which is undefined for that particular
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* iterator. So HasLess (defined above) identifies
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* boost::filesystem::path as properly comparable with <, but in fact
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* attempting to do so will yield a compile-time error.
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*
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* The else branch (active) contains a conservative
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* implementation.
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*/
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#if 0
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template <class T, class U>
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typename std::enable_if<HasLess<T, U>::value, bool>::type
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notThereYet(T& iter, const U& end) {
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return iter < end;
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}
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template <class T, class U>
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typename std::enable_if<!HasLess<T, U>::value, bool>::type
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notThereYet(T& iter, const U& end) {
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return iter != end;
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}
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#else
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template <class T, class U>
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typename std::enable_if<
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(std::is_arithmetic<T>::value && std::is_arithmetic<U>::value) ||
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(std::is_pointer<T>::value && std::is_pointer<U>::value),
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bool>::type
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notThereYet(T& iter, const U& end) {
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return iter < end;
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}
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template <class T, class U>
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typename std::enable_if<
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!(
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(std::is_arithmetic<T>::value && std::is_arithmetic<U>::value) ||
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(std::is_pointer<T>::value && std::is_pointer<U>::value)
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),
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bool>::type
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notThereYet(T& iter, const U& end) {
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return iter != end;
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}
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#endif
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/**
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* downTo is similar to notThereYet, but in reverse - it helps the
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* FOR_EACH_RANGE_R macro.
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*/
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template <class T, class U>
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typename std::enable_if<HasLess<U, T>::value, bool>::type
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downTo(T& iter, const U& begin) {
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return begin < iter--;
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}
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template <class T, class U>
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typename std::enable_if<!HasLess<U, T>::value, bool>::type
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downTo(T& iter, const U& begin) {
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if (iter == begin) return false;
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--iter;
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return true;
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}
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} }
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/*
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* Iteration with given limits. end is assumed to be reachable from
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* begin. end is evaluated every pass through the loop.
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*
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* NOTE: The type of the loop variable should be the common type of "begin"
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* and "end". e.g. If "begin" is "int" but "end" is "long", we want "i"
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* to be "long". This is done by getting the type of (true ? begin : end)
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*/
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#define FOR_EACH_RANGE(i, begin, end) \
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for (auto i = (true ? (begin) : (end)); \
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::folly::detail::notThereYet(i, (end)); \
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++i)
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/*
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* Iteration with given limits. begin is assumed to be reachable from
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* end by successive decrements. begin is evaluated every pass through
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* the loop.
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*
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* NOTE: The type of the loop variable should be the common type of "begin"
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* and "end". e.g. If "begin" is "int" but "end" is "long", we want "i"
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* to be "long". This is done by getting the type of (false ? begin : end)
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*/
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#define FOR_EACH_RANGE_R(i, begin, end) \
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for (auto i = (false ? (begin) : (end)); ::folly::detail::downTo(i, (begin));)
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