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source: src/Common/Iterate.hpp@ 35cc6d4

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Last change on this file since 35cc6d4 was 45a091b, checked in by Andrew Beach <ajbeach@…>, 23 months ago
It turns out enumerate does work if you use this very particular form of the for loop added in C++17. Ironically in this simple vector case it is about as complex. Swapped the order of fields in the enuemate value to make the binding read key-then-value.
Property mode set to `100644`
File size: 7.8 KB

Rev	Line
[8f06277]	1	//
	2	// Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo
	3	//
	4	// The contents of this file are covered under the licence agreement in the
	5	// file "LICENCE" distributed with Cforall.
	6	//
	7	// Iterate.hpp --
	8	//
	9	// Author : Andrew Beach
	10	// Created On : Fri Feb 17 13:32:00 2023
	11	// Last Modified By : Andrew Beach
	12	// Last Modified On : Fri Feb 17 13:32:00 2023
	13	// Update Count : 0
	14	//
	15
	16	#pragma once
	17
	18	#include <algorithm>
	19	#include <functional>
	20	#include <iterator>
	21
[1b8fc06c]	22	// Returns an iterator that is it advanced n times.
[8f06277]	23	template< class InputIt, class Distance >
	24	InputIt operator+( InputIt it, Distance n ) {
	25	advance(it, n);
	26	return it;
	27	}
	28
	29	// -----------------------------------------------------------------------------
	30	// Helper struct and function to support
	31	// for ( val : reverseIterate( container ) ) {}
	32	// syntax to have a for each that iterates backwards
	33
	34	template< typename T >
	35	struct reverse_iterate_t {
	36	T& ref;
	37
	38	reverse_iterate_t( T & ref ) : ref(ref) {}
	39
	40	// this does NOT work on const T!!!
	41	// typedef typename T::reverse_iterator iterator;
	42	auto begin() { return ref.rbegin(); }
	43	auto end() { return ref.rend(); }
	44	};
	45
	46	template< typename T >
	47	reverse_iterate_t< T > reverseIterate( T & ref ) {
	48	return reverse_iterate_t< T >( ref );
	49	}
	50
	51	// -----------------------------------------------------------------------------
[1b8fc06c]	52	// Helper struct and function to support
	53	// for ( val_and_index : enumerate( container ) ) {}
	54	// which iterates through the container and tracks the index as well.
	55
[8f06277]	56	template< typename T >
	57	struct enumerate_t {
	58	template<typename val_t>
	59	struct value_t {
	60	size_t idx;
[45a091b]	61	val_t & val;
[8f06277]	62	};
	63
	64	template< typename iter_t, typename val_t >
	65	struct iterator_t {
	66	iter_t it;
	67	size_t idx;
	68
	69	iterator_t( iter_t _it, size_t _idx ) : it(_it), idx(_idx) {}
	70
[45a091b]	71	value_t<val_t> operator() const { return value_t<val_t>{ idx, it }; }
[8f06277]	72
	73	bool operator==(const iterator_t & o) const { return o.it == it; }
	74	bool operator!=(const iterator_t & o) const { return o.it != it; }
	75
	76	iterator_t & operator++() {
	77	it++;
	78	idx++;
	79	return *this;
	80	}
	81
	82	using difference_type = typename std::iterator_traits< iter_t >::difference_type;
	83	using value_type = value_t<val_t>;
	84	using pointer = value_t<val_t> *;
	85	using reference = value_t<val_t> &;
	86	using iterator_category = std::forward_iterator_tag;
	87	};
	88
	89	T & ref;
	90
	91	using iterator = iterator_t< typename T::iterator, typename T::value_type >;
	92	using const_iterator = iterator_t< typename T::const_iterator, const typename T::value_type >;
	93
	94	iterator begin() { return iterator( ref.begin(), 0 ); }
	95	iterator end() { return iterator( ref.end(), ref.size() ); }
	96
	97	const_iterator begin() const { return const_iterator( ref.cbegin(), 0 ); }
	98	const_iterator end() const { return const_iterator( ref.cend(), ref.size() ); }
	99
	100	const_iterator cbegin() const { return const_iterator( ref.cbegin(), 0 ); }
	101	const_iterator cend() const { return const_iterator( ref.cend(), ref.size() ); }
	102	};
	103
	104	template< typename T >
	105	enumerate_t<T> enumerate( T & ref ) {
	106	return enumerate_t< T >{ ref };
	107	}
	108
	109	template< typename T >
	110	const enumerate_t< const T > enumerate( const T & ref ) {
	111	return enumerate_t< const T >{ ref };
	112	}
	113
	114	// -----------------------------------------------------------------------------
[1b8fc06c]	115	// Helper function to transform one iterable container into another.
	116
[8f06277]	117	template< typename OutType, typename Range, typename Functor >
	118	OutType map_range( const Range& range, Functor&& functor ) {
	119	OutType out;
	120
	121	std::transform(
	122	begin( range ),
	123	end( range ),
	124	std::back_inserter( out ),
	125	std::forward< Functor >( functor )
	126	);
	127
	128	return out;
	129	}
	130
	131	// -----------------------------------------------------------------------------
	132	// Helper struct and function to support:
	133	// for ( auto val : group_iterate( container1, container2, ... ) ) { ... }
	134	// This iteraters through multiple containers of the same size.
	135
	136	template<typename... Args>
	137	class group_iterate_t {
	138	using Iterables = std::tuple<Args...>;
	139	Iterables iterables;
	140
	141	// Getting the iterator and value types this way preserves const.
	142	template<size_t I> using Iter = decltype(std::get<I>(iterables).begin());
	143	template<size_t I> using Data = decltype(*std::get<I>(iterables).begin());
	144	template<typename> struct base_iterator;
	145
	146	// This inner template puts the sequence of `0, 1, ... sizeof...(Args)-1`
	147	// into a pack. These are the indexes into the tuples, so unpacking can
	148	// go over each element of the tuple.
	149	// The std::integer_sequence is just used to build that sequence.
	150	// A library reference will probably explain it better than I can.
	151	template<std::size_t... Indices>
	152	struct base_iterator<std::integer_sequence<std::size_t, Indices...>> {
	153	using value_type = std::tuple< Data<Indices>... >;
	154	std::tuple<Iter<Indices>...> iterators;
	155
	156	base_iterator( Iter<Indices>... is ) : iterators( is... ) {}
	157	base_iterator operator++() {
	158	return base_iterator( ++std::get<Indices>( iterators )... );
	159	}
	160	bool operator!=( const base_iterator& other ) const {
	161	return iterators != other.iterators;
	162	}
	163	value_type operator*() const {
	164	return std::tie( *std::get<Indices>( iterators )... );
	165	}
	166
	167	static base_iterator make_begin( Iterables & data ) {
	168	return base_iterator( std::get<Indices>( data ).begin()... );
	169	}
	170	static base_iterator make_end( Iterables & data ) {
	171	return base_iterator( std::get<Indices>( data ).end()... );
	172	}
	173	};
	174
	175	public:
	176	group_iterate_t( const Args &... args ) : iterables( args... ) {}
	177
	178	using iterator = base_iterator<decltype(
	179	std::make_integer_sequence<std::size_t, sizeof...(Args)>())>;
	180
	181	iterator begin() { return iterator::make_begin( iterables ); }
	182	iterator end() { return iterator::make_end( iterables ); }
	183	};
	184
	185	// Helpers for the bounds checks (the non-varatic part of group_iterate):
	186	static inline void runGroupBoundsCheck(size_t size0, size_t size1) {
	187	assertf( size0 == size1,
	188	"group iteration requires containers of the same size: <%zd, %zd>.",
	189	size0, size1 );
	190	}
	191
	192	static inline void runGroupBoundsCheck(size_t size0, size_t size1, size_t size2) {
	193	assertf( size0 == size1 && size1 == size2,
	194	"group iteration requires containers of the same size: <%zd, %zd, %zd>.",
	195	size0, size1, size2 );
	196	}
	197
	198	/// Performs bounds check to ensure that all arguments are of the same length.
	199	template< typename... Args >
	200	group_iterate_t<Args...> group_iterate( Args &&... args ) {
	201	runGroupBoundsCheck( args.size()... );
	202	return group_iterate_t<Args...>( std::forward<Args>( args )... );
	203	}
	204
	205	/// Does not perform a bounds check - requires user to ensure that iteration terminates when appropriate.
	206	template< typename... Args >
	207	group_iterate_t<Args...> unsafe_group_iterate( Args &&... args ) {
	208	return group_iterate_t<Args...>( std::forward<Args>( args )... );
	209	}
	210
	211	// -----------------------------------------------------------------------------
	212	// Helper struct and function to support
	213	// for ( val : lazy_map( container1, f ) ) {}
[1b8fc06c]	214	// syntax to have a for each that iterates a container,
	215	// mapping each element by applying f.
	216
[8f06277]	217	template< typename T, typename Func >
	218	struct lambda_iterate_t {
	219	const T & ref;
	220	std::function<Func> f;
	221
	222	struct iterator {
	223	typedef decltype(begin(ref)) Iter;
	224	Iter it;
	225	std::function<Func> f;
	226	iterator( Iter it, std::function<Func> f ) : it(it), f(f) {}
	227	iterator & operator++() {
	228	++it; return *this;
	229	}
	230	bool operator!=( const iterator &other ) const { return it != other.it; }
	231	auto operator() const -> decltype(f(it)) { return f(*it); }
	232	};
	233
	234	lambda_iterate_t( const T & ref, std::function<Func> f ) : ref(ref), f(f) {}
	235
	236	auto begin() const -> decltype(iterator(std::begin(ref), f)) { return iterator(std::begin(ref), f); }
	237	auto end() const -> decltype(iterator(std::end(ref), f)) { return iterator(std::end(ref), f); }
	238	};
	239
	240	template< typename... Args >
	241	lambda_iterate_t<Args...> lazy_map( const Args &... args ) {
	242	return lambda_iterate_t<Args...>( args...);
	243	}
	244
	245	// Local Variables: //
	246	// tab-width: 4 //
	247	// mode: c++ //
	248	// compile-command: "make install" //
	249	// End: //

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