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// This file is part of the uSTL library, an STL implementation. // // Copyright (c) 2005-2009 by Mike Sharov <msharov@users.sourceforge.net> // This file is free software, distributed under the MIT License. #include "stdtest.h" typedef vector<int> intvec_t; typedef const intvec_t& rcintvec_t; typedef intvec_t::const_iterator intiter_t; static void printint (int i) { cout.format ("%d ", i); } static void PrintVector (rcintvec_t v) { cout << "{ "; foreach (intiter_t, i, v) printint (*i); cout << "}\n"; } static bool is_even (int i) { return (i % 2 == 0); } static int sqr (int i) { return (i * i); } static int genint (void) { static int counter = 0; return (counter++); } // In its own function because compilers differ in selecting const/nonconst // members where no choice is needed. // static void TestEqualRange (rcintvec_t v) { pair<intiter_t,intiter_t> rv; rv = equal_range (v, 10); cout.format ("Range of 10 is { %2zd, %2zd }\n", abs_distance (v.begin(), rv.first), abs_distance (v.begin(), rv.second)); rv = equal_range (v, 0); cout.format ("Range of 0 is { %2zd, %2zd }\n", abs_distance (v.begin(), rv.first), abs_distance (v.begin(), rv.second)); rv = equal_range (v, 100); cout.format ("Range of 100 is { %2zd, %2zd }\n", abs_distance (v.begin(), rv.first), abs_distance (v.begin(), rv.second)); } template <typename T> void TestBigFill (const size_t size, const T magic) { vector<T> vbig (size); fill (vbig.begin() + 1, vbig.end(), magic); // offset to test prealignment loop typename vector<T>::const_iterator iMismatch; iMismatch = find_if (vbig.begin() + 1, vbig.end(), bind1st (not_equal_to<T>(), magic)); if (iMismatch == vbig.end()) cout << "works\n"; else cout.format ("does not work: mismatch at %zd, =0x%lX\n", abs_distance (vbig.begin(), iMismatch), (unsigned long)(*iMismatch)); } template <typename T> void TestBigCopy (const size_t size, const T magic) { vector<T> vbig1 (size), vbig2 (size); fill (vbig1, magic); copy (vbig1.begin() + 1, vbig1.end(), vbig2.begin() + 1); // offset to test prealignment loop typedef typename vector<T>::const_iterator iter_t; pair<iter_t, iter_t> iMismatch; iMismatch = mismatch (vbig1.begin() + 1, vbig1.end(), vbig2.begin() + 1); assert (iMismatch.second <= vbig2.end()); if (iMismatch.first == vbig1.end()) cout << "works\n"; else cout.format ("does not work: mismatch at %zd, 0x%lX != 0x%lX\n", abs_distance(vbig1.begin(), iMismatch.first), (unsigned long)(*iMismatch.first), (unsigned long)(*iMismatch.second)); } static void TestAlgorithms (void) { static const int c_TestNumbers[] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 10, 11, 12, 13, 13, 14, 15, 16, 17, 18 }; const int* first = c_TestNumbers; const int* last = first + VectorSize(c_TestNumbers); intvec_t v, buf; v.assign (first, last); PrintVector (v); cout << "swap(1,2)\n"; swap (v[0], v[1]); PrintVector (v); v.assign (first, last); cout << "copy(0,8,9)\n"; copy (v.begin(), v.begin() + 8, v.begin() + 9); PrintVector (v); v.assign (first, last); cout << "copy with back_inserter\n"; v.clear(); copy (first, last, back_inserter(v)); PrintVector (v); v.assign (first, last); cout << "copy with inserter\n"; v.clear(); copy (first, first + 5, inserter(v, v.begin())); copy (first, first + 5, inserter(v, v.begin() + 3)); PrintVector (v); v.assign (first, last); cout << "copy_n(0,8,9)\n"; copy_n (v.begin(), 8, v.begin() + 9); PrintVector (v); v.assign (first, last); cout << "copy_if(is_even)\n"; intvec_t v_even; copy_if (v, back_inserter(v_even), &is_even); PrintVector (v_even); v.assign (first, last); cout << "for_each(printint)\n{ "; for_each (v, &printint); cout << "}\n"; cout << "for_each(reverse_iterator, printint)\n{ "; for_each (v.rbegin(), v.rend(), &printint); cout << "}\n"; cout << "find(10)\n"; cout.format ("10 found at offset %zd\n", abs_distance (v.begin(), find (v, 10))); cout << "count(13)\n"; cout.format ("%zu values of 13, %zu values of 18\n", count(v,13), count(v,18)); cout << "transform(sqr)\n"; transform (v, &sqr); PrintVector (v); v.assign (first, last); cout << "replace(13,666)\n"; replace (v, 13, 666); PrintVector (v); v.assign (first, last); cout << "fill(13)\n"; fill (v, 13); PrintVector (v); v.assign (first, last); cout << "fill_n(5, 13)\n"; fill_n (v.begin(), 5, 13); PrintVector (v); v.assign (first, last); cout << "fill 64083 uint8_t(0x41) "; TestBigFill<uint8_t> (64083, 0x41); cout << "fill 64083 uint16_t(0x4142) "; TestBigFill<uint16_t> (64083, 0x4142); cout << "fill 64083 uint32_t(0x41424344) "; TestBigFill<uint32_t> (64083, 0x41424344); cout << "fill 64083 float(0.4242) "; TestBigFill<float> (64083, 0x4242f); #if HAVE_INT64_T cout << "fill 64083 uint64_t(0x4142434445464748) "; TestBigFill<uint64_t> (64083, UINT64_C(0x4142434445464748)); #else cout << "No 64bit types available on this platform\n"; #endif cout << "copy 64083 uint8_t(0x41) "; TestBigCopy<uint8_t> (64083, 0x41); cout << "copy 64083 uint16_t(0x4142) "; TestBigCopy<uint16_t> (64083, 0x4142); cout << "copy 64083 uint32_t(0x41424344) "; TestBigCopy<uint32_t> (64083, 0x41424344); cout << "copy 64083 float(0.4242) "; TestBigCopy<float> (64083, 0.4242f); #if HAVE_INT64_T cout << "copy 64083 uint64_t(0x4142434445464748) "; TestBigCopy<uint64_t> (64083, UINT64_C(0x4142434445464748)); #else cout << "No 64bit types available on this platform\n"; #endif cout << "generate(genint)\n"; generate (v, &genint); PrintVector (v); v.assign (first, last); cout << "rotate(4)\n"; rotate (v, 7); rotate (v, -3); PrintVector (v); v.assign (first, last); cout << "merge with (3,5,10,11,11,14)\n"; const int c_MergeWith[] = { 3,5,10,11,11,14 }; intvec_t vmerged; merge (v.begin(), v.end(), VectorRange(c_MergeWith), back_inserter(vmerged)); PrintVector (vmerged); v.assign (first, last); cout << "inplace_merge with (3,5,10,11,11,14)\n"; v.insert (v.end(), VectorRange(c_MergeWith)); inplace_merge (v.begin(), v.end() - VectorSize(c_MergeWith), v.end()); PrintVector (v); v.assign (first, last); cout << "remove(13)\n"; remove (v, 13); PrintVector (v); v.assign (first, last); cout << "remove (elements 3, 4, 6, 15, and 45)\n"; vector<uoff_t> toRemove; toRemove.push_back (3); toRemove.push_back (4); toRemove.push_back (6); toRemove.push_back (15); toRemove.push_back (45); typedef index_iterate<intvec_t::iterator, vector<uoff_t>::iterator> riiter_t; riiter_t rfirst = index_iterator (v.begin(), toRemove.begin()); riiter_t rlast = index_iterator (v.begin(), toRemove.end()); remove (v, rfirst, rlast); PrintVector (v); v.assign (first, last); cout << "unique\n"; unique (v); PrintVector (v); v.assign (first, last); cout << "reverse\n"; reverse (v); PrintVector (v); v.assign (first, last); cout << "lower_bound(10)\n"; PrintVector (v); cout.format ("10 begins at position %zd\n", abs_distance (v.begin(), lower_bound (v, 10))); v.assign (first, last); cout << "upper_bound(10)\n"; PrintVector (v); cout.format ("10 ends at position %zd\n", abs_distance (v.begin(), upper_bound (v, 10))); v.assign (first, last); cout << "equal_range(10)\n"; PrintVector (v); TestEqualRange (v); v.assign (first, last); cout << "sort\n"; reverse (v); PrintVector (v); random_shuffle (v); sort (v); PrintVector (v); v.assign (first, last); cout << "stable_sort\n"; reverse (v); PrintVector (v); random_shuffle (v); stable_sort (v); PrintVector (v); v.assign (first, last); cout << "is_sorted\n"; random_shuffle (v); const bool bNotSorted = is_sorted (v.begin(), v.end()); sort (v); const bool bSorted = is_sorted (v.begin(), v.end()); cout << "unsorted=" << bNotSorted << ", sorted=" << bSorted << endl; v.assign (first, last); cout << "find_first_of\n"; static const int c_FFO[] = { 10000, -34, 14, 27 }; cout.format ("found 14 at position %zd\n", abs_distance (v.begin(), find_first_of (v.begin(), v.end(), VectorRange(c_FFO)))); v.assign (first, last); static const int LC1[] = { 3, 1, 4, 1, 5, 9, 3 }; static const int LC2[] = { 3, 1, 4, 2, 8, 5, 7 }; static const int LC3[] = { 1, 2, 3, 4 }; static const int LC4[] = { 1, 2, 3, 4, 5 }; cout << "lexicographical_compare"; cout << "\nLC1 < LC2 == " << lexicographical_compare (VectorRange(LC1), VectorRange(LC2)); cout << "\nLC2 < LC2 == " << lexicographical_compare (VectorRange(LC2), VectorRange(LC2)); cout << "\nLC3 < LC4 == " << lexicographical_compare (VectorRange(LC3), VectorRange(LC4)); cout << "\nLC4 < LC1 == " << lexicographical_compare (VectorRange(LC4), VectorRange(LC1)); cout << "\nLC1 < LC4 == " << lexicographical_compare (VectorRange(LC1), VectorRange(LC4)); cout << "\nmax_element\n"; cout.format ("max element is %d\n", *max_element (v.begin(), v.end())); v.assign (first, last); cout << "min_element\n"; cout.format ("min element is %d\n", *min_element (v.begin(), v.end())); v.assign (first, last); cout << "partial_sort\n"; reverse (v); partial_sort (v.begin(), v.iat(v.size() / 2), v.end()); PrintVector (v); v.assign (first, last); cout << "partial_sort_copy\n"; reverse (v); buf.resize (v.size()); partial_sort_copy (v.begin(), v.end(), buf.begin(), buf.end()); PrintVector (buf); v.assign (first, last); cout << "partition\n"; partition (v.begin(), v.end(), &is_even); PrintVector (v); v.assign (first, last); cout << "stable_partition\n"; stable_partition (v.begin(), v.end(), &is_even); PrintVector (v); v.assign (first, last); cout << "next_permutation\n"; buf.resize (3); iota (buf.begin(), buf.end(), 1); PrintVector (buf); while (next_permutation (buf.begin(), buf.end())) PrintVector (buf); cout << "prev_permutation\n"; reverse (buf); PrintVector (buf); while (prev_permutation (buf.begin(), buf.end())) PrintVector (buf); v.assign (first, last); cout << "reverse_copy\n"; buf.resize (v.size()); reverse_copy (v.begin(), v.end(), buf.begin()); PrintVector (buf); v.assign (first, last); cout << "rotate_copy\n"; buf.resize (v.size()); rotate_copy (v.begin(), v.iat (v.size() / 3), v.end(), buf.begin()); PrintVector (buf); v.assign (first, last); static const int c_Search1[] = { 5, 6, 7, 8, 9 }, c_Search2[] = { 10, 10, 11, 14 }; cout << "search\n"; cout.format ("{5,6,7,8,9} at %zd\n", abs_distance (v.begin(), search (v.begin(), v.end(), VectorRange(c_Search1)))); cout.format ("{10,10,11,14} at %zd\n", abs_distance (v.begin(), search (v.begin(), v.end(), VectorRange(c_Search2)))); cout << "find_end\n"; cout.format ("{5,6,7,8,9} at %zd\n", abs_distance (v.begin(), find_end (v.begin(), v.end(), VectorRange(c_Search1)))); cout.format ("{10,10,11,14} at %zd\n", abs_distance (v.begin(), find_end (v.begin(), v.end(), VectorRange(c_Search2)))); cout << "search_n\n"; cout.format ("{14} at %zd\n", abs_distance (v.begin(), search_n (v.begin(), v.end(), 1, 14))); cout.format ("{13,13} at %zd\n", abs_distance (v.begin(), search_n (v.begin(), v.end(), 2, 13))); cout.format ("{10,10,10} at %zd\n", abs_distance (v.begin(), search_n (v.begin(), v.end(), 3, 10))); v.assign (first, last); cout << "includes\n"; static const int c_Includes[] = { 5, 14, 15, 18, 20 }; cout << "includes=" << includes (v.begin(), v.end(), VectorRange(c_Includes)-1); cout << ", not includes=" << includes (v.begin(), v.end(), VectorRange(c_Includes)); cout << endl; static const int c_Set1[] = { 1, 2, 3, 4, 5, 6 }, c_Set2[] = { 4, 4, 6, 7, 8 }; intvec_t::iterator setEnd; cout << "set_difference\n"; v.resize (4); setEnd = set_difference (VectorRange(c_Set1), VectorRange(c_Set2), v.begin()); PrintVector (v); assert (setEnd == v.end()); cout << "set_symmetric_difference\n"; v.resize (7); setEnd = set_symmetric_difference (VectorRange(c_Set1), VectorRange(c_Set2), v.begin()); PrintVector (v); assert (setEnd == v.end()); cout << "set_intersection\n"; v.resize (2); setEnd = set_intersection (VectorRange(c_Set1), VectorRange(c_Set2), v.begin()); PrintVector (v); assert (setEnd == v.end()); cout << "set_union\n"; v.resize (9); setEnd = set_union (VectorRange(c_Set1), VectorRange(c_Set2), v.begin()); PrintVector (v); assert (setEnd == v.end()); v.assign (first, last); } StdBvtMain (TestAlgorithms)