They are not needed in <new> -- in fact they are only needed in .cpp files. Getting those out of the way makes the headers smaller and also makes it easier to use the library on platforms where aligned allocation is not available. Differential Revision: https://reviews.llvm.org/D139231
212 lines
5.8 KiB
C++
212 lines
5.8 KiB
C++
//===----------------------------------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include <cstdio>
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#include <deque>
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#include <cassert>
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#include <__threading_support>
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// UNSUPPORTED: c++03
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// UNSUPPORTED: modules-build && no-threads
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// Necessary because we include a private source file of libc++abi, which
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// only understands _LIBCXXABI_HAS_NO_THREADS.
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#include "test_macros.h"
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#ifdef TEST_HAS_NO_THREADS
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# define _LIBCXXABI_HAS_NO_THREADS
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#endif
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typedef std::deque<void *> container;
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TEST_DIAGNOSTIC_PUSH
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TEST_CLANG_DIAGNOSTIC_IGNORED("-Wprivate-header")
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// #define DEBUG_FALLBACK_MALLOC
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#define INSTRUMENT_FALLBACK_MALLOC
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#include "../src/fallback_malloc.cpp"
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TEST_DIAGNOSTIC_POP
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void assertAlignment(void* ptr) { assert(reinterpret_cast<size_t>(ptr) % alignof(FallbackMaxAlignType) == 0); }
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container alloc_series ( size_t sz ) {
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container ptrs;
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void *p;
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while (NULL != (p = fallback_malloc(sz))) {
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assertAlignment(p);
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ptrs.push_back(p);
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}
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return ptrs;
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}
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container alloc_series ( size_t sz, float growth ) {
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container ptrs;
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void *p;
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while ( NULL != ( p = fallback_malloc ( sz ))) {
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assertAlignment(p);
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ptrs.push_back(p);
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sz *= growth;
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}
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return ptrs;
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}
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container alloc_series ( const size_t *first, size_t len ) {
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container ptrs;
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const size_t *last = first + len;
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void * p;
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for ( const size_t *iter = first; iter != last; ++iter ) {
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if ( NULL == (p = fallback_malloc ( *iter )))
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break;
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assertAlignment(p);
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ptrs.push_back ( p );
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}
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return ptrs;
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}
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void *pop ( container &c, bool from_end ) {
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void *ptr;
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if ( from_end ) {
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ptr = c.back ();
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c.pop_back ();
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}
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else {
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ptr = c.front ();
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c.pop_front ();
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}
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return ptr;
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}
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void exhaustion_test1 () {
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container ptrs;
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init_heap ();
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std::printf("Constant exhaustion tests\n");
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// Delete in allocation order
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ptrs = alloc_series ( 32 );
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std::printf("Allocated %zu 32 byte chunks\n", ptrs.size());
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print_free_list ();
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for ( container::iterator iter = ptrs.begin (); iter != ptrs.end (); ++iter )
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fallback_free ( *iter );
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print_free_list ();
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std::printf("----\n");
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// Delete in reverse order
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ptrs = alloc_series ( 32 );
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std::printf("Allocated %zu 32 byte chunks\n", ptrs.size());
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for ( container::reverse_iterator iter = ptrs.rbegin (); iter != ptrs.rend (); ++iter )
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fallback_free ( *iter );
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print_free_list ();
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std::printf("----\n");
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// Alternate deletions
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ptrs = alloc_series ( 32 );
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std::printf("Allocated %zu 32 byte chunks\n", ptrs.size());
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while ( ptrs.size () > 0 )
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fallback_free ( pop ( ptrs, ptrs.size () % 1 == 1 ));
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print_free_list ();
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}
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void exhaustion_test2 () {
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container ptrs;
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init_heap ();
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std::printf("Growing exhaustion tests\n");
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// Delete in allocation order
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ptrs = alloc_series ( 32, 1.5 );
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std::printf("Allocated %zu { 32, 48, 72, 108, 162 ... } byte chunks\n",
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ptrs.size());
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print_free_list ();
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for ( container::iterator iter = ptrs.begin (); iter != ptrs.end (); ++iter )
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fallback_free ( *iter );
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print_free_list ();
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std::printf("----\n");
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// Delete in reverse order
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print_free_list ();
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ptrs = alloc_series ( 32, 1.5 );
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std::printf("Allocated %zu { 32, 48, 72, 108, 162 ... } byte chunks\n",
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ptrs.size());
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for ( container::reverse_iterator iter = ptrs.rbegin (); iter != ptrs.rend (); ++iter )
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fallback_free ( *iter );
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print_free_list ();
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std::printf("----\n");
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// Alternate deletions
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ptrs = alloc_series ( 32, 1.5 );
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std::printf("Allocated %zu { 32, 48, 72, 108, 162 ... } byte chunks\n",
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ptrs.size());
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while ( ptrs.size () > 0 )
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fallback_free ( pop ( ptrs, ptrs.size () % 1 == 1 ));
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print_free_list ();
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}
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void exhaustion_test3 () {
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const size_t allocs [] = { 124, 60, 252, 60, 4 };
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container ptrs;
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init_heap ();
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std::printf("Complete exhaustion tests\n");
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// Delete in allocation order
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ptrs = alloc_series ( allocs, sizeof ( allocs ) / sizeof ( allocs[0] ));
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std::printf("Allocated %zu chunks\n", ptrs.size());
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print_free_list ();
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for ( container::iterator iter = ptrs.begin (); iter != ptrs.end (); ++iter )
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fallback_free ( *iter );
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print_free_list ();
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std::printf("----\n");
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// Delete in reverse order
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print_free_list ();
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ptrs = alloc_series ( allocs, sizeof ( allocs ) / sizeof ( allocs[0] ));
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std::printf("Allocated %zu chunks\n", ptrs.size());
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for ( container::reverse_iterator iter = ptrs.rbegin (); iter != ptrs.rend (); ++iter )
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fallback_free ( *iter );
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print_free_list ();
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std::printf("----\n");
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// Alternate deletions
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ptrs = alloc_series ( allocs, sizeof ( allocs ) / sizeof ( allocs[0] ));
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std::printf("Allocated %zu chunks\n", ptrs.size());
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while ( ptrs.size () > 0 )
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fallback_free ( pop ( ptrs, ptrs.size () % 1 == 1 ));
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print_free_list ();
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}
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int main () {
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print_free_list ();
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char *p = (char *) fallback_malloc ( 1024 ); // too big!
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std::printf("fallback_malloc ( 1024 ) --> %lu\n", (unsigned long ) p);
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print_free_list ();
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p = (char *) fallback_malloc ( 32 );
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std::printf("fallback_malloc ( 32 ) --> %lu\n", (unsigned long) (p - heap));
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if ( !is_fallback_ptr ( p ))
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std::printf("### p is not a fallback pointer!!\n");
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print_free_list ();
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fallback_free ( p );
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print_free_list ();
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exhaustion_test1();
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exhaustion_test2();
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exhaustion_test3();
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return 0;
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}
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