server-skynet-source-3rd-je.../test/integration/allocm.c

#include "test/jemalloc_test.h"

#define CHUNK 0x400000
/* #define MAXALIGN ((size_t)UINT64_C(0x80000000000)) */
#define MAXALIGN ((size_t)0x2000000LU)
#define NITER 4

TEST_BEGIN(test_basic)
{
	size_t nsz, rsz, sz;
	void *p;

	sz = 42;
	nsz = 0;
	assert_d_eq(nallocm(&nsz, sz, 0), ALLOCM_SUCCESS,
	    "Unexpected nallocm() error");
	rsz = 0;
	assert_d_eq(allocm(&p, &rsz, sz, 0), ALLOCM_SUCCESS,
	    "Unexpected allocm() error");
	assert_zu_ge(rsz, sz, "Real size smaller than expected");
	assert_zu_eq(nsz, rsz, "nallocm()/allocm() rsize mismatch");
	assert_d_eq(dallocm(p, 0), ALLOCM_SUCCESS,
	    "Unexpected dallocm() error");

	assert_d_eq(allocm(&p, NULL, sz, 0), ALLOCM_SUCCESS,
	    "Unexpected allocm() error");
	assert_d_eq(dallocm(p, 0), ALLOCM_SUCCESS,
	    "Unexpected dallocm() error");

	nsz = 0;
	assert_d_eq(nallocm(&nsz, sz, ALLOCM_ZERO), ALLOCM_SUCCESS,
	    "Unexpected nallocm() error");
	rsz = 0;
	assert_d_eq(allocm(&p, &rsz, sz, ALLOCM_ZERO), ALLOCM_SUCCESS,
	    "Unexpected allocm() error");
	assert_zu_eq(nsz, rsz, "nallocm()/allocm() rsize mismatch");
	assert_d_eq(dallocm(p, 0), ALLOCM_SUCCESS,
	    "Unexpected dallocm() error");
}
TEST_END

TEST_BEGIN(test_alignment_errors)
{
	void *p;
	size_t nsz, rsz, sz, alignment;

#if LG_SIZEOF_PTR == 3
	alignment = UINT64_C(0x8000000000000000);
	sz        = UINT64_C(0x8000000000000000);
#else
	alignment = 0x80000000LU;
	sz        = 0x80000000LU;
#endif
	nsz = 0;
	assert_d_ne(nallocm(&nsz, sz, ALLOCM_ALIGN(alignment)), ALLOCM_SUCCESS,
	    "Expected error for nallocm(&nsz, %zu, %#x)",
	    sz, ALLOCM_ALIGN(alignment));
	rsz = 0;
	assert_d_ne(allocm(&p, &rsz, sz, ALLOCM_ALIGN(alignment)),
	    ALLOCM_SUCCESS, "Expected error for allocm(&p, %zu, %#x)",
	    sz, ALLOCM_ALIGN(alignment));
	assert_zu_eq(nsz, rsz, "nallocm()/allocm() rsize mismatch");

#if LG_SIZEOF_PTR == 3
	alignment = UINT64_C(0x4000000000000000);
	sz        = UINT64_C(0x8400000000000001);
#else
	alignment = 0x40000000LU;
	sz        = 0x84000001LU;
#endif
	nsz = 0;
	assert_d_eq(nallocm(&nsz, sz, ALLOCM_ALIGN(alignment)), ALLOCM_SUCCESS,
	    "Unexpected nallocm() error");
	rsz = 0;
	assert_d_ne(allocm(&p, &rsz, sz, ALLOCM_ALIGN(alignment)),
	    ALLOCM_SUCCESS, "Expected error for allocm(&p, %zu, %#x)",
	    sz, ALLOCM_ALIGN(alignment));

	alignment = 0x10LU;
#if LG_SIZEOF_PTR == 3
	sz = UINT64_C(0xfffffffffffffff0);
#else
	sz = 0xfffffff0LU;
#endif
	nsz = 0;
	assert_d_ne(nallocm(&nsz, sz, ALLOCM_ALIGN(alignment)), ALLOCM_SUCCESS,
	    "Expected error for nallocm(&nsz, %zu, %#x)",
	    sz, ALLOCM_ALIGN(alignment));
	rsz = 0;
	assert_d_ne(allocm(&p, &rsz, sz, ALLOCM_ALIGN(alignment)),
	    ALLOCM_SUCCESS, "Expected error for allocm(&p, %zu, %#x)",
	    sz, ALLOCM_ALIGN(alignment));
	assert_zu_eq(nsz, rsz, "nallocm()/allocm() rsize mismatch");
}
TEST_END

TEST_BEGIN(test_alignment_and_size)
{
	int r;
	size_t nsz, rsz, sz, alignment, total;
	unsigned i;
	void *ps[NITER];

	for (i = 0; i < NITER; i++)
		ps[i] = NULL;

	for (alignment = 8;
	    alignment <= MAXALIGN;
	    alignment <<= 1) {
		total = 0;
		for (sz = 1;
		    sz < 3 * alignment && sz < (1U << 31);
		    sz += (alignment >> (LG_SIZEOF_PTR-1)) - 1) {
			for (i = 0; i < NITER; i++) {
				nsz = 0;
				r = nallocm(&nsz, sz, ALLOCM_ALIGN(alignment) |
				    ALLOCM_ZERO);
				assert_d_eq(r, ALLOCM_SUCCESS,
				    "nallocm() error for alignment=%zu, "
				    "size=%zu (%#zx): %d",
				    alignment, sz, sz, r);
				rsz = 0;
				r = allocm(&ps[i], &rsz, sz,
				    ALLOCM_ALIGN(alignment) | ALLOCM_ZERO);
				assert_d_eq(r, ALLOCM_SUCCESS,
				    "allocm() error for alignment=%zu, "
				    "size=%zu (%#zx): %d",
				    alignment, sz, sz, r);
				assert_zu_ge(rsz, sz,
				    "Real size smaller than expected for "
				    "alignment=%zu, size=%zu", alignment, sz);
				assert_zu_eq(nsz, rsz,
				    "nallocm()/allocm() rsize mismatch for "
				    "alignment=%zu, size=%zu", alignment, sz);
				assert_ptr_null(
				    (void *)((uintptr_t)ps[i] & (alignment-1)),
				    "%p inadequately aligned for"
				    " alignment=%zu, size=%zu", ps[i],
				    alignment, sz);
				sallocm(ps[i], &rsz, 0);
				total += rsz;
				if (total >= (MAXALIGN << 1))
					break;
			}
			for (i = 0; i < NITER; i++) {
				if (ps[i] != NULL) {
					dallocm(ps[i], 0);
					ps[i] = NULL;
				}
			}
		}
	}
}
TEST_END

int
main(void)
{

	return (test(
	    test_basic,
	    test_alignment_errors,
	    test_alignment_and_size));
}
Refactor to support more varied testing. Refactor the test harness to support three types of tests: - unit: White box unit tests. These tests have full access to all internal jemalloc library symbols. Though in actuality all symbols are prefixed by jet_, macro-based name mangling abstracts this away from test code. - integration: Black box integration tests. These tests link with the installable shared jemalloc library, and with the exception of some utility code and configure-generated macro definitions, they have no access to jemalloc internals. - stress: Black box stress tests. These tests link with the installable shared jemalloc library, as well as with an internal allocator with symbols prefixed by jet_ (same as for unit tests) that can be used to allocate data structures that are internal to the test code. Move existing tests into test/{unit,integration}/ as appropriate. Split out internal parts of jemalloc_defs.h.in and put them in jemalloc_internal_defs.h.in. This reduces internals exposure to applications that #include <jemalloc/jemalloc.h>. Refactor jemalloc.h header generation so that a single header file results, and the prototypes can be used to generate jet_ prototypes for tests. Split jemalloc.h.in into multiple parts (jemalloc_defs.h.in, jemalloc_macros.h.in, jemalloc_protos.h.in, jemalloc_mangle.h.in) and use a shell script to generate a unified jemalloc.h at configure time. Change the default private namespace prefix from "" to "je_". Add missing private namespace mangling. Remove hard-coded private_namespace.h. Instead generate it and private_unnamespace.h from private_symbols.txt. Use similar logic for public symbols, which aids in name mangling for jet_ symbols. Add test_warn() and test_fail(). Replace existing exit(1) calls with test_fail() calls. 2013-12-01 07:25:42 +08:00			`#include "test/jemalloc_test.h"`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00
			`#define CHUNK 0x400000`
Use UINT64_C() rather than LLU for 64-bit constants. 2012-03-06 04:26:26 +08:00			`/* #define MAXALIGN ((size_t)UINT64_C(0x80000000000)) */`
			`#define MAXALIGN ((size_t)0x2000000LU)`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00			`#define NITER 4`

Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`TEST_BEGIN(test_basic)`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00			`{`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`size_t nsz, rsz, sz;`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00			`void *p;`

Add nallocm(). Add nallocm(), which computes the real allocation size that would result from the corresponding allocm() call. nallocm() is a functional superset of OS X's malloc_good_size(), in that it takes alignment constraints into account. 2012-03-01 04:56:37 +08:00			`sz = 42;`
			`nsz = 0;`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`assert_d_eq(nallocm(&nsz, sz, 0), ALLOCM_SUCCESS,`
			`"Unexpected nallocm() error");`
Add nallocm(). Add nallocm(), which computes the real allocation size that would result from the corresponding allocm() call. nallocm() is a functional superset of OS X's malloc_good_size(), in that it takes alignment constraints into account. 2012-03-01 04:56:37 +08:00			`rsz = 0;`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`assert_d_eq(allocm(&p, &rsz, sz, 0), ALLOCM_SUCCESS,`
			`"Unexpected allocm() error");`
			`assert_zu_ge(rsz, sz, "Real size smaller than expected");`
			`assert_zu_eq(nsz, rsz, "nallocm()/allocm() rsize mismatch");`
			`assert_d_eq(dallocm(p, 0), ALLOCM_SUCCESS,`
			`"Unexpected dallocm() error");`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`assert_d_eq(allocm(&p, NULL, sz, 0), ALLOCM_SUCCESS,`
			`"Unexpected allocm() error");`
			`assert_d_eq(dallocm(p, 0), ALLOCM_SUCCESS,`
			`"Unexpected dallocm() error");`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00
Add nallocm(). Add nallocm(), which computes the real allocation size that would result from the corresponding allocm() call. nallocm() is a functional superset of OS X's malloc_good_size(), in that it takes alignment constraints into account. 2012-03-01 04:56:37 +08:00			`nsz = 0;`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`assert_d_eq(nallocm(&nsz, sz, ALLOCM_ZERO), ALLOCM_SUCCESS,`
			`"Unexpected nallocm() error");`
Add nallocm(). Add nallocm(), which computes the real allocation size that would result from the corresponding allocm() call. nallocm() is a functional superset of OS X's malloc_good_size(), in that it takes alignment constraints into account. 2012-03-01 04:56:37 +08:00			`rsz = 0;`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`assert_d_eq(allocm(&p, &rsz, sz, ALLOCM_ZERO), ALLOCM_SUCCESS,`
			`"Unexpected allocm() error");`
			`assert_zu_eq(nsz, rsz, "nallocm()/allocm() rsize mismatch");`
			`assert_d_eq(dallocm(p, 0), ALLOCM_SUCCESS,`
			`"Unexpected dallocm() error");`
			`}`
			`TEST_END`

			`TEST_BEGIN(test_alignment_errors)`
			`{`
			`void *p;`
			`size_t nsz, rsz, sz, alignment;`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00
			`#if LG_SIZEOF_PTR == 3`
Use UINT64_C() rather than LLU for 64-bit constants. 2012-03-06 04:26:26 +08:00			`alignment = UINT64_C(0x8000000000000000);`
			`sz = UINT64_C(0x8000000000000000);`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00			`#else`
			`alignment = 0x80000000LU;`
			`sz = 0x80000000LU;`
			`#endif`
Add nallocm(). Add nallocm(), which computes the real allocation size that would result from the corresponding allocm() call. nallocm() is a functional superset of OS X's malloc_good_size(), in that it takes alignment constraints into account. 2012-03-01 04:56:37 +08:00			`nsz = 0;`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`assert_d_ne(nallocm(&nsz, sz, ALLOCM_ALIGN(alignment)), ALLOCM_SUCCESS,`
			`"Expected error for nallocm(&nsz, %zu, %#x)",`
			`sz, ALLOCM_ALIGN(alignment));`
Add nallocm(). Add nallocm(), which computes the real allocation size that would result from the corresponding allocm() call. nallocm() is a functional superset of OS X's malloc_good_size(), in that it takes alignment constraints into account. 2012-03-01 04:56:37 +08:00			`rsz = 0;`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`assert_d_ne(allocm(&p, &rsz, sz, ALLOCM_ALIGN(alignment)),`
			`ALLOCM_SUCCESS, "Expected error for allocm(&p, %zu, %#x)",`
			`sz, ALLOCM_ALIGN(alignment));`
			`assert_zu_eq(nsz, rsz, "nallocm()/allocm() rsize mismatch");`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00
			`#if LG_SIZEOF_PTR == 3`
Use UINT64_C() rather than LLU for 64-bit constants. 2012-03-06 04:26:26 +08:00			`alignment = UINT64_C(0x4000000000000000);`
			`sz = UINT64_C(0x8400000000000001);`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00			`#else`
			`alignment = 0x40000000LU;`
			`sz = 0x84000001LU;`
			`#endif`
Add nallocm(). Add nallocm(), which computes the real allocation size that would result from the corresponding allocm() call. nallocm() is a functional superset of OS X's malloc_good_size(), in that it takes alignment constraints into account. 2012-03-01 04:56:37 +08:00			`nsz = 0;`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`assert_d_eq(nallocm(&nsz, sz, ALLOCM_ALIGN(alignment)), ALLOCM_SUCCESS,`
			`"Unexpected nallocm() error");`
Add nallocm(). Add nallocm(), which computes the real allocation size that would result from the corresponding allocm() call. nallocm() is a functional superset of OS X's malloc_good_size(), in that it takes alignment constraints into account. 2012-03-01 04:56:37 +08:00			`rsz = 0;`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`assert_d_ne(allocm(&p, &rsz, sz, ALLOCM_ALIGN(alignment)),`
			`ALLOCM_SUCCESS, "Expected error for allocm(&p, %zu, %#x)",`
			`sz, ALLOCM_ALIGN(alignment));`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00
Use UINT64_C() rather than LLU for 64-bit constants. 2012-03-06 04:26:26 +08:00			`alignment = 0x10LU;`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00			`#if LG_SIZEOF_PTR == 3`
Use UINT64_C() rather than LLU for 64-bit constants. 2012-03-06 04:26:26 +08:00			`sz = UINT64_C(0xfffffffffffffff0);`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00			`#else`
Use UINT64_C() rather than LLU for 64-bit constants. 2012-03-06 04:26:26 +08:00			`sz = 0xfffffff0LU;`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00			`#endif`
Add nallocm(). Add nallocm(), which computes the real allocation size that would result from the corresponding allocm() call. nallocm() is a functional superset of OS X's malloc_good_size(), in that it takes alignment constraints into account. 2012-03-01 04:56:37 +08:00			`nsz = 0;`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`assert_d_ne(nallocm(&nsz, sz, ALLOCM_ALIGN(alignment)), ALLOCM_SUCCESS,`
			`"Expected error for nallocm(&nsz, %zu, %#x)",`
			`sz, ALLOCM_ALIGN(alignment));`
Add nallocm(). Add nallocm(), which computes the real allocation size that would result from the corresponding allocm() call. nallocm() is a functional superset of OS X's malloc_good_size(), in that it takes alignment constraints into account. 2012-03-01 04:56:37 +08:00			`rsz = 0;`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`assert_d_ne(allocm(&p, &rsz, sz, ALLOCM_ALIGN(alignment)),`
			`ALLOCM_SUCCESS, "Expected error for allocm(&p, %zu, %#x)",`
			`sz, ALLOCM_ALIGN(alignment));`
			`assert_zu_eq(nsz, rsz, "nallocm()/allocm() rsize mismatch");`
			`}`
			`TEST_END`

			`TEST_BEGIN(test_alignment_and_size)`
			`{`
			`int r;`
			`size_t nsz, rsz, sz, alignment, total;`
			`unsigned i;`
			`void *ps[NITER];`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00
			`for (i = 0; i < NITER; i++)`
			`ps[i] = NULL;`

			`for (alignment = 8;`
			`alignment <= MAXALIGN;`
			`alignment <<= 1) {`
			`total = 0;`
			`for (sz = 1;`
			`sz < 3 * alignment && sz < (1U << 31);`
			`sz += (alignment >> (LG_SIZEOF_PTR-1)) - 1) {`
			`for (i = 0; i < NITER; i++) {`
Add nallocm(). Add nallocm(), which computes the real allocation size that would result from the corresponding allocm() call. nallocm() is a functional superset of OS X's malloc_good_size(), in that it takes alignment constraints into account. 2012-03-01 04:56:37 +08:00			`nsz = 0;`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`r = nallocm(&nsz, sz, ALLOCM_ALIGN(alignment) \|`
			`ALLOCM_ZERO);`
			`assert_d_eq(r, ALLOCM_SUCCESS,`
			`"nallocm() error for alignment=%zu, "`
			`"size=%zu (%#zx): %d",`
			`alignment, sz, sz, r);`
Add nallocm(). Add nallocm(), which computes the real allocation size that would result from the corresponding allocm() call. nallocm() is a functional superset of OS X's malloc_good_size(), in that it takes alignment constraints into account. 2012-03-01 04:56:37 +08:00			`rsz = 0;`
Add --with-mangling. Add the --with-mangling configure option, which can be used to specify name mangling on a per public symbol basis that takes precedence over --with-jemalloc-prefix. Expose the memalign() and valloc() overrides even if --with-jemalloc-prefix is specified. This change does no real harm, and simplifies the code. 2012-03-02 09:19:20 +08:00			`r = allocm(&ps[i], &rsz, sz,`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00			`ALLOCM_ALIGN(alignment) \| ALLOCM_ZERO);`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`assert_d_eq(r, ALLOCM_SUCCESS,`
			`"allocm() error for alignment=%zu, "`
			`"size=%zu (%#zx): %d",`
			`alignment, sz, sz, r);`
			`assert_zu_ge(rsz, sz,`
			`"Real size smaller than expected for "`
			`"alignment=%zu, size=%zu", alignment, sz);`
			`assert_zu_eq(nsz, rsz,`
			`"nallocm()/allocm() rsize mismatch for "`
			`"alignment=%zu, size=%zu", alignment, sz);`
			`assert_ptr_null(`
			`(void *)((uintptr_t)ps[i] & (alignment-1)),`
			`"%p inadequately aligned for"`
			`" alignment=%zu, size=%zu", ps[i],`
			`alignment, sz);`
Add --with-mangling. Add the --with-mangling configure option, which can be used to specify name mangling on a per public symbol basis that takes precedence over --with-jemalloc-prefix. Expose the memalign() and valloc() overrides even if --with-jemalloc-prefix is specified. This change does no real harm, and simplifies the code. 2012-03-02 09:19:20 +08:00			`sallocm(ps[i], &rsz, 0);`
Add nallocm(). Add nallocm(), which computes the real allocation size that would result from the corresponding allocm() call. nallocm() is a functional superset of OS X's malloc_good_size(), in that it takes alignment constraints into account. 2012-03-01 04:56:37 +08:00			`total += rsz;`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00			`if (total >= (MAXALIGN << 1))`
			`break;`
			`}`
			`for (i = 0; i < NITER; i++) {`
			`if (ps[i] != NULL) {`
Add --with-mangling. Add the --with-mangling configure option, which can be used to specify name mangling on a per public symbol basis that takes precedence over --with-jemalloc-prefix. Expose the memalign() and valloc() overrides even if --with-jemalloc-prefix is specified. This change does no real harm, and simplifies the code. 2012-03-02 09:19:20 +08:00			`dallocm(ps[i], 0);`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00			`ps[i] = NULL;`
			`}`
			`}`
			`}`
			`}`
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`}`
			`TEST_END`

			`int`
			`main(void)`
			`{`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00
Refactor tests. Refactor tests to use explicit testing assertions, rather than diff'ing test output. This makes the test code a bit shorter, more explicitly encodes testing intent, and makes test failure diagnosis more straightforward. 2013-12-09 12:52:21 +08:00			`return (test(`
			`test_basic,`
			`test_alignment_errors,`
			`test_alignment_and_size));`
Add {,r,s,d}allocm(). Add allocm(), rallocm(), sallocm(), and dallocm(), which are a functional superset of malloc(), calloc(), posix_memalign(), malloc_usable_size(), and free(). 2010-09-18 06:46:18 +08:00			`}`