2019-06-27 23:36:19 +03:00
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/* ----------------------------------------------------------------------------
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2021-04-24 19:35:11 +03:00
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Copyright (c) 2018-2020, Microsoft Research, Daan Leijen
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2019-06-27 23:36:19 +03:00
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This is free software; you can redistribute it and/or modify it under the
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terms of the MIT license. A copy of the license can be found in the file
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"LICENSE" at the root of this distribution.
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-----------------------------------------------------------------------------*/
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2021-10-20 18:17:13 +03:00
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#if defined(__GNUC__) && !defined(__clang__)
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2021-10-20 01:13:01 +03:00
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#pragma GCC diagnostic ignored "-Walloc-size-larger-than="
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2021-10-20 18:17:13 +03:00
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#endif
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2019-06-27 23:36:19 +03:00
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/*
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Testing allocators is difficult as bugs may only surface after particular
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allocation patterns. The main approach to testing _mimalloc_ is therefore
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to have extensive internal invariant checking (see `page_is_valid` in `page.c`
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2020-01-18 06:59:55 +03:00
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for example), which is enabled in debug mode with `-DMI_DEBUG_FULL=ON`.
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2019-06-27 23:36:19 +03:00
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The main testing is then to run `mimalloc-bench` [1] using full invariant checking
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to catch any potential problems over a wide range of intensive allocation bench
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marks.
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However, this does not test well for the entire API surface. In this test file
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we therefore test the API over various inputs. Please add more tests :-)
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[1] https://github.com/daanx/mimalloc-bench
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*/
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#include <assert.h>
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#include <stdbool.h>
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#include <stdint.h>
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#include <errno.h>
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2020-01-07 03:44:55 +03:00
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#ifdef __cplusplus
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2020-01-07 03:18:22 +03:00
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#include <vector>
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2020-01-07 03:44:55 +03:00
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#endif
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2019-06-27 23:36:19 +03:00
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#include "mimalloc.h"
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2020-02-17 20:59:34 +03:00
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// #include "mimalloc-internal.h"
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2021-12-19 23:56:52 +03:00
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#include "mimalloc-types.h" // for MI_DEBUG
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2019-06-27 23:36:19 +03:00
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2021-12-21 14:39:17 +03:00
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#include "testhelper.h"
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2019-06-27 23:36:19 +03:00
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// ---------------------------------------------------------------------------
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// Test functions
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// ---------------------------------------------------------------------------
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2021-10-19 11:38:57 +03:00
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bool test_heap1(void);
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bool test_heap2(void);
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bool test_stl_allocator1(void);
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bool test_stl_allocator2(void);
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2019-06-27 23:36:19 +03:00
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// ---------------------------------------------------------------------------
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// Main testing
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// ---------------------------------------------------------------------------
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2021-10-19 11:38:57 +03:00
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int main(void) {
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2019-08-20 17:49:40 +03:00
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mi_option_disable(mi_option_verbose);
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2019-06-27 23:36:19 +03:00
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// ---------------------------------------------------
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// Malloc
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// ---------------------------------------------------
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CHECK_BODY("malloc-zero",{
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void* p = mi_malloc(0); mi_free(p);
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});
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CHECK_BODY("malloc-nomem1",{
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2021-06-29 21:07:13 +03:00
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result = (mi_malloc((size_t)PTRDIFF_MAX + (size_t)1) == NULL);
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2019-06-27 23:36:19 +03:00
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});
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CHECK_BODY("malloc-null",{
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mi_free(NULL);
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});
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2020-01-18 06:59:55 +03:00
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CHECK_BODY("calloc-overflow",{
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// use (size_t)&mi_calloc to get some number without triggering compiler warnings
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result = (mi_calloc((size_t)&mi_calloc,SIZE_MAX/1000) == NULL);
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});
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2020-01-19 07:30:12 +03:00
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CHECK_BODY("calloc0",{
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2020-01-20 04:33:36 +03:00
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result = (mi_usable_size(mi_calloc(0,1000)) <= 16);
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2020-01-19 07:30:12 +03:00
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});
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2022-02-10 22:46:28 +03:00
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CHECK_BODY("malloc-large",{ // see PR #544.
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void* p = mi_malloc(67108872);
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mi_free(p);
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});
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2019-06-27 23:36:19 +03:00
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// ---------------------------------------------------
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// Extended
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2020-02-17 20:59:34 +03:00
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// ---------------------------------------------------
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2019-06-27 23:36:19 +03:00
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CHECK_BODY("posix_memalign1", {
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2019-07-08 04:11:21 +03:00
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void* p = &p;
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2020-02-17 20:59:34 +03:00
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int err = mi_posix_memalign(&p, sizeof(void*), 32);
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result = ((err==0 && (uintptr_t)p % sizeof(void*) == 0) || p==&p);
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2019-06-27 23:36:19 +03:00
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mi_free(p);
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});
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CHECK_BODY("posix_memalign_no_align", {
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2019-07-08 04:11:21 +03:00
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void* p = &p;
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2020-02-17 20:59:34 +03:00
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int err = mi_posix_memalign(&p, 3, 32);
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result = (err==EINVAL && p==&p);
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2019-06-27 23:36:19 +03:00
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});
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CHECK_BODY("posix_memalign_zero", {
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2019-07-08 04:11:21 +03:00
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void* p = &p;
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2020-02-17 20:59:34 +03:00
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int err = mi_posix_memalign(&p, sizeof(void*), 0);
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2019-06-27 23:36:19 +03:00
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mi_free(p);
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result = (err==0);
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});
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CHECK_BODY("posix_memalign_nopow2", {
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2019-07-08 04:11:21 +03:00
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void* p = &p;
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2020-02-17 20:59:34 +03:00
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int err = mi_posix_memalign(&p, 3*sizeof(void*), 32);
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2019-07-08 04:11:21 +03:00
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result = (err==EINVAL && p==&p);
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2019-06-27 23:36:19 +03:00
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});
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CHECK_BODY("posix_memalign_nomem", {
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2019-07-08 04:11:21 +03:00
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void* p = &p;
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2020-02-17 20:59:34 +03:00
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int err = mi_posix_memalign(&p, sizeof(void*), SIZE_MAX);
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2019-07-08 04:11:21 +03:00
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result = (err==ENOMEM && p==&p);
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2019-06-27 23:36:19 +03:00
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});
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// ---------------------------------------------------
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// Aligned API
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// ---------------------------------------------------
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CHECK_BODY("malloc-aligned1", {
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2019-09-12 03:49:28 +03:00
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void* p = mi_malloc_aligned(32,32); result = (p != NULL && (uintptr_t)(p) % 32 == 0); mi_free(p);
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2019-06-27 23:36:19 +03:00
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});
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CHECK_BODY("malloc-aligned2", {
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2019-09-12 03:49:28 +03:00
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void* p = mi_malloc_aligned(48,32); result = (p != NULL && (uintptr_t)(p) % 32 == 0); mi_free(p);
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2019-06-27 23:36:19 +03:00
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});
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2020-02-03 03:21:06 +03:00
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CHECK_BODY("malloc-aligned3", {
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void* p1 = mi_malloc_aligned(48,32); bool result1 = (p1 != NULL && (uintptr_t)(p1) % 32 == 0);
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void* p2 = mi_malloc_aligned(48,32); bool result2 = (p2 != NULL && (uintptr_t)(p2) % 32 == 0);
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mi_free(p2);
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mi_free(p1);
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result = (result1&&result2);
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});
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2020-02-17 20:59:34 +03:00
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CHECK_BODY("malloc-aligned4", {
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void* p;
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bool ok = true;
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for (int i = 0; i < 8 && ok; i++) {
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p = mi_malloc_aligned(8, 16);
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ok = (p != NULL && (uintptr_t)(p) % 16 == 0); mi_free(p);
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}
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result = ok;
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});
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2020-04-06 14:05:44 +03:00
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CHECK_BODY("malloc-aligned5", {
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void* p = mi_malloc_aligned(4097,4096); size_t usable = mi_usable_size(p); result = usable >= 4097 && usable < 10000; mi_free(p);
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});
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2021-12-18 00:18:05 +03:00
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CHECK_BODY("malloc-aligned6", {
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bool ok = true;
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2021-12-18 22:11:44 +03:00
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for (size_t align = 1; align <= MI_ALIGNMENT_MAX && ok; align *= 2) {
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void* ps[8];
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for (int i = 0; i < 8 && ok; i++) {
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ps[i] = mi_malloc_aligned(align*13 /*size*/, align);
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if (ps[i] == NULL || (uintptr_t)(ps[i]) % align != 0) {
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ok = false;
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}
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}
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for (int i = 0; i < 8 && ok; i++) {
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mi_free(ps[i]);
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}
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2021-12-18 00:18:05 +03:00
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}
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result = ok;
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});
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2021-12-18 00:25:38 +03:00
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CHECK_BODY("malloc-aligned7", {
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2021-12-18 22:11:44 +03:00
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void* p = mi_malloc_aligned(1024,MI_ALIGNMENT_MAX); mi_free(p);
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2021-12-18 00:25:38 +03:00
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});
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CHECK_BODY("malloc-aligned8", {
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2021-12-18 22:11:44 +03:00
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void* p = mi_malloc_aligned(1024,2*MI_ALIGNMENT_MAX); mi_free(p);
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2021-12-18 00:25:38 +03:00
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});
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2019-06-27 23:36:19 +03:00
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CHECK_BODY("malloc-aligned-at1", {
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2019-09-12 03:49:28 +03:00
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void* p = mi_malloc_aligned_at(48,32,0); result = (p != NULL && ((uintptr_t)(p) + 0) % 32 == 0); mi_free(p);
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2019-06-27 23:36:19 +03:00
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});
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CHECK_BODY("malloc-aligned-at2", {
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2019-09-12 03:49:28 +03:00
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void* p = mi_malloc_aligned_at(50,32,8); result = (p != NULL && ((uintptr_t)(p) + 8) % 32 == 0); mi_free(p);
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2020-02-17 20:59:34 +03:00
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});
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CHECK_BODY("memalign1", {
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void* p;
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bool ok = true;
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for (int i = 0; i < 8 && ok; i++) {
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p = mi_memalign(16,8);
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ok = (p != NULL && (uintptr_t)(p) % 16 == 0); mi_free(p);
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}
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result = ok;
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2021-12-18 00:18:05 +03:00
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});
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2019-06-27 23:36:19 +03:00
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// ---------------------------------------------------
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// Heaps
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// ---------------------------------------------------
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CHECK("heap_destroy", test_heap1());
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CHECK("heap_delete", test_heap2());
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2019-07-02 17:23:24 +03:00
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//mi_stats_print(NULL);
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2019-07-09 03:43:10 +03:00
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// ---------------------------------------------------
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// various
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// ---------------------------------------------------
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CHECK_BODY("realpath", {
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char* s = mi_realpath( ".", NULL );
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// printf("realpath: %s\n",s);
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mi_free(s);
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});
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2020-01-07 03:18:22 +03:00
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CHECK("stl_allocator1", test_stl_allocator1());
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CHECK("stl_allocator2", test_stl_allocator2());
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2019-06-27 23:36:19 +03:00
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// ---------------------------------------------------
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// Done
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// ---------------------------------------------------[]
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2021-12-21 14:39:17 +03:00
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return print_test_summary();
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2019-06-27 23:36:19 +03:00
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}
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// ---------------------------------------------------
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// Larger test functions
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// ---------------------------------------------------
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bool test_heap1() {
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mi_heap_t* heap = mi_heap_new();
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int* p1 = mi_heap_malloc_tp(heap,int);
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int* p2 = mi_heap_malloc_tp(heap,int);
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*p1 = *p2 = 43;
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mi_heap_destroy(heap);
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return true;
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}
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bool test_heap2() {
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mi_heap_t* heap = mi_heap_new();
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int* p1 = mi_heap_malloc_tp(heap,int);
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int* p2 = mi_heap_malloc_tp(heap,int);
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mi_heap_delete(heap);
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*p1 = 42;
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mi_free(p1);
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mi_free(p2);
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return true;
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}
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2020-01-07 03:18:22 +03:00
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bool test_stl_allocator1() {
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#ifdef __cplusplus
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std::vector<int, mi_stl_allocator<int> > vec;
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vec.push_back(1);
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vec.pop_back();
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return vec.size() == 0;
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#else
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return true;
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#endif
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}
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2020-01-21 02:27:05 +03:00
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struct some_struct { int i; int j; double z; };
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2020-01-07 03:18:22 +03:00
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bool test_stl_allocator2() {
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#ifdef __cplusplus
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std::vector<some_struct, mi_stl_allocator<some_struct> > vec;
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vec.push_back(some_struct());
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vec.pop_back();
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return vec.size() == 0;
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#else
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return true;
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#endif
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}
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