/* Fibonacci heap for GNU compiler. Copyright (C) 2016-2024 Free Software Foundation, Inc. Contributed by Martin Liska This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see . */ #include "config.h" #include "system.h" #include "coretypes.h" #include "alloc-pool.h" #include "fibonacci_heap.h" #include "selftest.h" #if CHECKING_P namespace selftest { /* Selftests. */ /* Verify that operations with empty heap work. */ typedef fibonacci_node int_heap_node_t; typedef fibonacci_heap int_heap_t; static void test_empty_heap () { pool_allocator allocator ("fibheap test", sizeof (int_heap_node_t)); int_heap_t *h1 = new int_heap_t (INT_MIN, &allocator); ASSERT_TRUE (h1->empty ()); ASSERT_EQ (0, h1->nodes ()); ASSERT_EQ (NULL, h1->min ()); int_heap_t *h2 = new int_heap_t (INT_MIN, &allocator); int_heap_t *r = h1->union_with (h2); ASSERT_TRUE (r->empty ()); ASSERT_EQ (0, r->nodes ()); ASSERT_EQ (NULL, r->min ()); delete r; } #define TEST_HEAP_N 100 #define TEST_CALCULATE_VALUE(i) ((3 * i) + 10000) /* Verify heap basic operations. */ static void test_basic_heap_operations () { int values[TEST_HEAP_N]; int_heap_t *h1 = new int_heap_t (INT_MIN); for (unsigned i = 0; i < TEST_HEAP_N; i++) { values[i] = TEST_CALCULATE_VALUE (i); ASSERT_EQ (i, h1->nodes ()); h1->insert (i, &values[i]); ASSERT_EQ (0, h1->min_key ()); ASSERT_EQ (values[0], *h1->min ()); } for (unsigned i = 0; i < TEST_HEAP_N; i++) { ASSERT_EQ (TEST_HEAP_N - i, h1->nodes ()); ASSERT_EQ ((int)i, h1->min_key ()); ASSERT_EQ (values[i], *h1->min ()); h1->extract_min (); } ASSERT_TRUE (h1->empty ()); delete h1; } /* Builds a simple heap with values in interval 0..TEST_HEAP_N-1, where values of each key is equal to 3 * key + 10000. BUFFER is used as a storage of values and NODES points to inserted nodes. */ static int_heap_t * build_simple_heap (int *buffer, int_heap_node_t **nodes) { int_heap_t *h = new int_heap_t (INT_MIN); for (unsigned i = 0; i < TEST_HEAP_N; i++) { buffer[i] = TEST_CALCULATE_VALUE (i); nodes[i] = h->insert (i, &buffer[i]); } return h; } /* Verify that fibonacci_heap::replace_key works. */ static void test_replace_key () { int values[TEST_HEAP_N]; int_heap_node_t *nodes[TEST_HEAP_N]; int_heap_t *heap = build_simple_heap (values, nodes); int N = 10; for (unsigned i = 0; i < (unsigned)N; i++) heap->replace_key (nodes[i], 100 * 1000 + i); ASSERT_EQ (TEST_HEAP_N, heap->nodes ()); ASSERT_EQ (N, heap->min_key ()); ASSERT_EQ (TEST_CALCULATE_VALUE (N), *heap->min ()); for (int i = 0; i < TEST_HEAP_N - 1; i++) heap->extract_min (); ASSERT_EQ (1, heap->nodes ()); ASSERT_EQ (100 * 1000 + N - 1, heap->min_key ()); delete heap; } /* Verify that heap can handle duplicate keys. */ static void test_duplicate_keys () { int values[3 * TEST_HEAP_N]; int_heap_t *heap = new int_heap_t (INT_MIN); for (unsigned i = 0; i < 3 * TEST_HEAP_N; i++) { values[i] = TEST_CALCULATE_VALUE (i); heap->insert (i / 3, &values[i]); } ASSERT_EQ (3 * TEST_HEAP_N, heap->nodes ()); ASSERT_EQ (0, heap->min_key ()); ASSERT_EQ (TEST_CALCULATE_VALUE (0), *heap->min ()); for (unsigned i = 0; i < 9; i++) heap->extract_min (); for (unsigned i = 0; i < 3; i++) { ASSERT_EQ (3, heap->min_key ()); heap->extract_min (); } delete heap; } /* Verify that heap can handle union. */ static void test_union () { int value = 777; pool_allocator allocator ("fibheap test", sizeof (int_heap_node_t)); int_heap_t *heap1 = new int_heap_t (INT_MIN, &allocator); for (unsigned i = 0; i < 2 * TEST_HEAP_N; i++) heap1->insert (i, &value); int_heap_t *heap2 = new int_heap_t (INT_MIN, &allocator); for (unsigned i = 2 * TEST_HEAP_N; i < 3 * TEST_HEAP_N; i++) heap2->insert (i, &value); int_heap_t *union_heap = heap1->union_with (heap2); for (int i = 0; i < 3 * TEST_HEAP_N; i++) { ASSERT_EQ (i, union_heap->min_key ()); union_heap->extract_min (); } delete union_heap; } /* Verify that heap can handle union with a heap having exactly the same keys. */ static void test_union_of_equal_heaps () { int value = 777; pool_allocator allocator ("fibheap test", sizeof (int_heap_node_t)); int_heap_t *heap1 = new int_heap_t (INT_MIN, &allocator); for (unsigned i = 0; i < TEST_HEAP_N; i++) heap1->insert (i, &value); int_heap_t *heap2 = new int_heap_t (INT_MIN, &allocator); for (unsigned i = 0; i < TEST_HEAP_N; i++) heap2->insert (i, &value); int_heap_t *union_heap = heap1->union_with (heap2); for (int i = 0; i < TEST_HEAP_N; i++) for (int j = 0; j < 2; j++) { ASSERT_EQ (i, union_heap->min_key ()); union_heap->extract_min (); } delete union_heap; } /* Dummy struct for testing. */ class heap_key { public: heap_key (int k): key (k) { } int key; bool operator< (const heap_key &other) const { return key > other.key; } bool operator== (const heap_key &other) const { return key == other.key; } bool operator> (const heap_key &other) const { return !(*this == other || *this < other); } }; typedef fibonacci_heap class_fibonacci_heap_t; /* Verify that heap can handle a struct as key type. */ static void test_struct_key () { int value = 123456; class_fibonacci_heap_t *heap = new class_fibonacci_heap_t (INT_MIN); heap->insert (heap_key (1), &value); heap->insert (heap_key (10), &value); heap->insert (heap_key (100), &value); heap->insert (heap_key (1000), &value); ASSERT_EQ (1000, heap->min_key ().key); ASSERT_EQ (4, heap->nodes ()); heap->extract_min (); heap->extract_min (); ASSERT_EQ (10, heap->min_key ().key); heap->extract_min (); ASSERT_EQ (&value, heap->min ()); heap->extract_min (); ASSERT_TRUE (heap->empty ()); delete heap; } /* Run all of the selftests within this file. */ void fibonacci_heap_cc_tests () { test_empty_heap (); test_basic_heap_operations (); test_replace_key (); test_duplicate_keys (); test_union (); test_union_of_equal_heaps (); test_struct_key (); } } // namespace selftest #endif /* #if CHECKING_P */