| /third_party/alsa-lib/alsalisp/ |
| D | test.lisp | 3 ; The test is indended to find memory leaks.
13 (!=) (&check-memory)
14 (!= 0) (&check-memory)
15 (!= 0 1) (&check-memory)
16 (!= 1 1) (&check-memory)
17 (!= 0 1 2) (&check-memory)
18 (!= 'aaaa 'bbbb) (&check-memory)
20 (%) (&check-memory)
21 (% 11) (&check-memory)
22 (% 11 5) (&check-memory)
[all …]
|
| /third_party/vk-gl-cts/android/cts/master/vk-master-2019-03-01/ |
| D | memory.txt | 1 dEQP-VK.memory.allocation.basic.size_64.forward.count_1
2 dEQP-VK.memory.allocation.basic.size_64.forward.count_10
3 dEQP-VK.memory.allocation.basic.size_64.forward.count_100
4 dEQP-VK.memory.allocation.basic.size_64.forward.count_1000
5 dEQP-VK.memory.allocation.basic.size_64.reverse.count_1
6 dEQP-VK.memory.allocation.basic.size_64.reverse.count_10
7 dEQP-VK.memory.allocation.basic.size_64.reverse.count_100
8 dEQP-VK.memory.allocation.basic.size_64.reverse.count_1000
9 dEQP-VK.memory.allocation.basic.size_64.mixed.count_1
10 dEQP-VK.memory.allocation.basic.size_64.mixed.count_10
[all …]
|
| /third_party/skia/third_party/externals/swiftshader/tests/regres/testlists/vk-default/ |
| D | memory.txt | 1 dEQP-VK.memory.allocation.basic.size_64.forward.count_1
2 dEQP-VK.memory.allocation.basic.size_64.forward.count_10
3 dEQP-VK.memory.allocation.basic.size_64.forward.count_100
4 dEQP-VK.memory.allocation.basic.size_64.forward.count_1000
5 dEQP-VK.memory.allocation.basic.size_64.reverse.count_1
6 dEQP-VK.memory.allocation.basic.size_64.reverse.count_10
7 dEQP-VK.memory.allocation.basic.size_64.reverse.count_100
8 dEQP-VK.memory.allocation.basic.size_64.reverse.count_1000
9 dEQP-VK.memory.allocation.basic.size_64.mixed.count_1
10 dEQP-VK.memory.allocation.basic.size_64.mixed.count_10
[all …]
|
| /third_party/vk-gl-cts/android/cts/master/vk-master/ |
| D | memory.txt | 1 dEQP-VK.memory.allocation.basic.size_64.forward.count_1
2 dEQP-VK.memory.allocation.basic.size_64.forward.count_10
3 dEQP-VK.memory.allocation.basic.size_64.forward.count_100
4 dEQP-VK.memory.allocation.basic.size_64.forward.count_1000
5 dEQP-VK.memory.allocation.basic.size_64.reverse.count_1
6 dEQP-VK.memory.allocation.basic.size_64.reverse.count_10
7 dEQP-VK.memory.allocation.basic.size_64.reverse.count_100
8 dEQP-VK.memory.allocation.basic.size_64.reverse.count_1000
9 dEQP-VK.memory.allocation.basic.size_64.mixed.count_1
10 dEQP-VK.memory.allocation.basic.size_64.mixed.count_10
[all …]
|
| /third_party/vk-gl-cts/external/vulkancts/mustpass/master/vk-default/ |
| D | memory.txt | 1 dEQP-VK.memory.allocation.basic.size_64.forward.count_1
2 dEQP-VK.memory.allocation.basic.size_64.forward.count_10
3 dEQP-VK.memory.allocation.basic.size_64.forward.count_100
4 dEQP-VK.memory.allocation.basic.size_64.forward.count_1000
5 dEQP-VK.memory.allocation.basic.size_64.reverse.count_1
6 dEQP-VK.memory.allocation.basic.size_64.reverse.count_10
7 dEQP-VK.memory.allocation.basic.size_64.reverse.count_100
8 dEQP-VK.memory.allocation.basic.size_64.reverse.count_1000
9 dEQP-VK.memory.allocation.basic.size_64.mixed.count_1
10 dEQP-VK.memory.allocation.basic.size_64.mixed.count_10
[all …]
|
| /third_party/vk-gl-cts/android/cts/master/vk-master-2021-03-01/ |
| D | memory.txt | 1 dEQP-VK.memory.mapping.suballocation.full.variable.implicit_unmap
2 dEQP-VK.memory.mapping.dedicated_alloc.buffer.full.variable.implicit_unmap
3 dEQP-VK.memory.mapping.dedicated_alloc.image.full.variable.implicit_unmap
4 dEQP-VK.memory.requirements.memory_property_flags.check_all
5 dEQP-VK.memory.requirements.create_info.buffer.regular
6 dEQP-VK.memory.requirements.create_info.buffer.sparse
7 dEQP-VK.memory.requirements.create_info.buffer.sparse_residency
8 dEQP-VK.memory.requirements.create_info.buffer.sparse_aliased
9 dEQP-VK.memory.requirements.create_info.buffer.sparse_residency_aliased
10 dEQP-VK.memory.requirements.create_info.image.regular_tiling_linear
[all …]
|
| /third_party/vk-gl-cts/android/cts/master/vk-master-2020-03-01/ |
| D | memory.txt | 1 dEQP-VK.memory.pipeline_barrier.host_write_vertex_buffer.1024_vertex_buffer_stride_4
2 dEQP-VK.memory.pipeline_barrier.host_write_vertex_buffer.8192_vertex_buffer_stride_4
3 dEQP-VK.memory.pipeline_barrier.host_write_vertex_buffer.65536_vertex_buffer_stride_4
4 dEQP-VK.memory.pipeline_barrier.host_write_vertex_buffer.1048576_vertex_buffer_stride_4
5 dEQP-VK.memory.pipeline_barrier.transfer_dst_vertex_buffer.1024_vertex_buffer_stride_4
6 dEQP-VK.memory.pipeline_barrier.transfer_dst_vertex_buffer.8192_vertex_buffer_stride_4
7 dEQP-VK.memory.pipeline_barrier.transfer_dst_vertex_buffer.65536_vertex_buffer_stride_4
8 dEQP-VK.memory.pipeline_barrier.transfer_dst_vertex_buffer.1048576_vertex_buffer_stride_4
9 dEQP-VK.memory.pipeline_barrier.all.1024_vertex_buffer_stride_4
10 dEQP-VK.memory.pipeline_barrier.all.8192_vertex_buffer_stride_4
[all …]
|
| /third_party/mindspore/mindspore/ccsrc/backend/optimizer/mem_reuse/ |
| D | mem_dynamic_allocator.h | 20 #include <memory>
32 // The status of memory buf.
35 // Alloc memory aligned according to 512 bytes.
38 // The minimum unit size (1G) of memory block used for dynamic extend.
46 // Memory buf is the smallest operation object of dynamic memory pool.
55 // Multimap key is the tensor size, for finding the idle memory buf by tensor size.
57 // Map key is the device address, for finding the used memory buf in memory block by device address.
60 // Memory block is composed of memory buf.
72 // The map of all memory buf in this memory block by device address.
80 // The main class of dynamic memory pool.
[all …]
|
| /third_party/openGLES/extensions/NV/ |
| D | NV_memory_attachment.txt | 48 This extension extends the memory objects introduced with EXT_memory_object
49 to allow existing textures and buffers to be migrated to an imported memory
59 void GetMemoryObjectDetachedResourcesuivNV(uint memory,
65 void ResetMemoryObjectParameterNV(uint memory,
69 uint memory,
73 uint memory,
79 uint memory,
83 uint memory,
125 (Memory Objects)
127 Add a new sections after 6.2 (Memory object parameters)
[all …]
|
| /third_party/gstreamer/gstplugins_base/tests/validate/giosrc/read-growing-file/flow-expectations/ |
| D | log-growing-file-sink-sink-expected | 3 buffer: content-id=0, dts=0:00:00.000000000, pts=0:00:00.000000000, flags=discont tag-memory
4 buffer: content-id=1, flags=tag-memory
5 buffer: content-id=2, flags=tag-memory
6 buffer: content-id=3, flags=tag-memory
7 buffer: content-id=4, flags=tag-memory
11 buffer: content-id=5, flags=tag-memory
12 buffer: content-id=6, flags=tag-memory
13 buffer: content-id=7, flags=tag-memory
14 buffer: content-id=8, flags=tag-memory
15 buffer: content-id=9, flags=tag-memory
[all …]
|
| D | log-filesink-sink-expected | 3 …id=0, dts=0:00:00.000000000, pts=0:00:00.000000000, dur=0:02:16.533333333, flags=discont tag-memory
4 …content-id=1, dts=0:02:16.533333333, pts=0:02:16.533333333, dur=0:02:16.533333333, flags=tag-memory
5 …content-id=2, dts=0:04:33.066666666, pts=0:04:33.066666666, dur=0:02:16.533333333, flags=tag-memory
6 …content-id=3, dts=0:06:49.600000000, pts=0:06:49.600000000, dur=0:02:16.533333333, flags=tag-memory
7 …content-id=4, dts=0:09:06.133333333, pts=0:09:06.133333333, dur=0:02:16.533333333, flags=tag-memory
8 …content-id=5, dts=0:11:22.666666666, pts=0:11:22.666666666, dur=0:02:16.533333333, flags=tag-memory
12 …content-id=6, dts=0:13:39.200000000, pts=0:13:39.200000000, dur=0:02:16.533333333, flags=tag-memory
13 …content-id=7, dts=0:15:55.733333333, pts=0:15:55.733333333, dur=0:02:16.533333333, flags=tag-memory
14 …content-id=8, dts=0:18:12.266666666, pts=0:18:12.266666666, dur=0:02:16.533333333, flags=tag-memory
15 …content-id=9, dts=0:20:28.800000000, pts=0:20:28.800000000, dur=0:02:16.533333333, flags=tag-memory
[all …]
|
| /third_party/gettext/libtextstyle/gnulib-local/modules/ |
| D | memory-ostream | 2 Output stream that accumulates the output in memory.
5 lib/memory-ostream.oo.h
6 lib/memory-ostream.oo.c
19 lib_SOURCES += memory-ostream.c
22 $(srcdir)/memory-ostream.h : $(top_srcdir)/build-aux/moopp memory-ostream.oo.h memory-ostream.oo.c …
23 …$(top_srcdir)/build-aux/moopp $(MOOPPFLAGS) $(srcdir)/memory-ostream.oo.c $(srcdir)/memory-ostream…
24 $(srcdir)/memory-ostream.c $(srcdir)/memory_ostream.priv.h $(srcdir)/memory_ostream.vt.h : memory-o…
26 trap 'rm -rf memory-ostream.lock' 1 2 13 15; \
27 if mkdir memory-ostream.lock 2>/dev/null; then \
28 …ho "$(top_srcdir)/build-aux/moopp $(MOOPPFLAGS) $(srcdir)/memory-ostream.oo.c $(srcdir)/memory-ost…
[all …]
|
| /third_party/mindspore/include/api/ |
| D | allocator.h | 20 #include <memory>
24 /// \brief Allocator defined a memory pool for malloc memory and free memory dynamically.
30 /// \brief Method to request memory.
32 /// \param[in] size Define the memory size to request.
35 /// \brief Method to request memory.
37 /// \param[in] weight Defines the width of memory to request
38 /// \param[in] height Defines the height of memory to request
39 /// \param[in] type Defines the data type of memory to request
44 /// \brief Method to free memory.
46 /// \param[in] ptr Define the pointer of a certain memory.
[all …]
|
| /third_party/python/Doc/c-api/ |
| D | memory.rst | 7 Memory Management
19 Memory management in Python involves a private heap containing all Python
21 internally by the *Python memory manager*. The Python memory manager has
25 At the lowest level, a raw memory allocator ensures that there is enough room in
27 memory manager of the operating system. On top of the raw memory allocator,
29 distinct memory management policies adapted to the peculiarities of every object
32 requirements and speed/space tradeoffs. The Python memory manager thus delegates
38 even if they regularly manipulate object pointers to memory blocks inside that
40 buffers is performed on demand by the Python memory manager through the Python/C
49 To avoid memory corruption, extension writers should never try to operate on
[all …]
|
| /third_party/openGLES/extensions/NVX/ |
| D | NVX_gpu_memory_info.txt | 42 high-performance memory for storing textures, geometric
46 objects (that is, the memory pools in which objects are placed)
50 applications that are willing to adjust their usage of these memory
52 to determine when the limited onboard memory resources are
57 hardware memory utilization in order to allow the application to
59 current available GPU memory. This information is made available
62 resource (e.g. free memory) as well as a count of the number and
63 total size of evictions of data from GPU memory since the last time
100 Section 6.1.x, GPU Memory Information Query
104 Information on GPU memory resources available can be queried
[all …]
|
| /third_party/skia/third_party/externals/opengl-registry/extensions/NVX/ |
| D | NVX_gpu_memory_info.txt | 42 high-performance memory for storing textures, geometric
46 objects (that is, the memory pools in which objects are placed)
50 applications that are willing to adjust their usage of these memory
52 to determine when the limited onboard memory resources are
57 hardware memory utilization in order to allow the application to
59 current available GPU memory. This information is made available
62 resource (e.g. free memory) as well as a count of the number and
63 total size of evictions of data from GPU memory since the last time
100 Section 6.1.x, GPU Memory Information Query
104 Information on GPU memory resources available can be queried
[all …]
|
| /third_party/musl/libc-test/src/functionalext/supplement/linux/ |
| D | mlock2.c | 22 * @tc.desc : Lock 4k memory, release memory after unlocking
28 char *memory = (char *)malloc(memsize); in mlock2_0100() local
29 if (memory == NULL) { in mlock2_0100()
30 EXPECT_PTRNE("mlock2_0100", memory, NULL); in mlock2_0100()
33 memset(memory, '\0', memsize); in mlock2_0100()
34 int ret = mlock2(memory, memsize, CMPFLAG); in mlock2_0100()
37 munlock(memory, memsize); in mlock2_0100()
38 free(memory); in mlock2_0100()
39 memory = NULL; in mlock2_0100()
44 * @tc.desc : Lock 1k memory and mark all 4k memory size, release memory after unlocking
[all …]
|
| /third_party/vk-gl-cts/doc/testspecs/VK/ |
| D | sparse_resources.txt | 14 6. Test memory aliasing for fully resident buffer objects
15 7. Test memory aliasing for partially resident images
23 of the test parameters. The memory requirements of the buffer are being checked. Device memory is a…
24 in chunks equal to the alignment parameter of buffer's memory requirements. The number of allocatio…
29 First queue is used to perform binding of device memory to sparse buffer. The binding operation sig…
37 The validation part retrieves data back from output buffer to host memory. The data is then compare…
43 The memory requirements of the image are being checked. Device memory is allocated in chunks equal …
44 of the image memory requirements. The number of allocations is equal to imageRequirements.size / im…
48 First queue is used to perform binding of device memory to sparse image. The binding operation sign…
56 The validation part retrieves data back from output buffer to host memory. The data is then compare…
[all …]
|
| /third_party/gstreamer/gstreamer/gst/ |
| D | gstmemory.c | 4 * gstmemory.c: memory block handling
25 * @short_description: refcounted wrapper for memory blocks
28 * GstMemory is a lightweight refcounted object that wraps a region of memory.
31 * A GstMemory object has an allocated region of memory of maxsize. The maximum
32 * size does not change during the lifetime of the memory object. The memory
33 * also has an offset and size property that specifies the valid range of memory
36 * Memory is usually created by allocators with a gst_allocator_alloc()
45 * New memory can be created with gst_memory_new_wrapped() that wraps the memory
48 * Refcounting of the memory block is performed with gst_memory_ref() and
51 * The size of the memory can be retrieved and changed with
[all …]
|
| /third_party/jerryscript/jerry-core/ecma/base/ |
| D | ecma-alloc.h | 24 * \addtogroup ecmaalloc Routines for allocation/freeing memory for ECMA data types
29 * Allocate memory for ecma-object
31 * @return pointer to allocated memory
36 * Dealloc memory from an ecma-object
41 * Allocate memory for extended object
43 * @return pointer to allocated memory
48 * Dealloc memory of an extended object
53 * Allocate memory for ecma-number
55 * @return pointer to allocated memory
60 * Dealloc memory from an ecma-number
[all …]
|
| /third_party/openGLES/extensions/EXT/ |
| D | EXT_external_objects.txt | 57 The Vulkan API introduces the concept of explicit memory objects and
61 Memory objects
64 Rather than allocating memory as a response to object allocation,
65 memory allocation and binding are two separate operations in Vulkan.
67 memory object, and to bind textures and/or buffer objects to it.
69 No methods to import memory objects are defined here. Separate
81 semaphores. To achieve full image and buffer memory coherence with
121 uint memory,
130 uint memory,
139 uint memory,
[all …]
|
| /third_party/skia/third_party/externals/opengl-registry/extensions/EXT/ |
| D | EXT_external_objects.txt | 57 The Vulkan API introduces the concept of explicit memory objects and
61 Memory objects
64 Rather than allocating memory as a response to object allocation,
65 memory allocation and binding are two separate operations in Vulkan.
67 memory object, and to bind textures and/or buffer objects to it.
69 No methods to import memory objects are defined here. Separate
81 semaphores. To achieve full image and buffer memory coherence with
121 uint memory,
130 uint memory,
139 uint memory,
[all …]
|
| /third_party/boost/libs/interprocess/doc/ |
| D | interprocess.qbk | 27 * Shared memory.
28 * Memory-mapped files.
30 them in shared memory and memory mapped files.
38 dynamically portions of a shared memory or a memory mapped file (in general,
39 to allocate portions of a fixed size memory segment). Using these mechanisms,
41 STL-like containers, in shared memory and memory mapped files:
43 * Dynamic creation of anonymous and named objects in a shared memory or memory
45 * STL-like containers compatible with shared memory/memory-mapped files.
46 * STL-like allocators ready for shared memory/memory-mapped files implementing
47 several memory allocation patterns (like pooling).
[all …]
|
| /third_party/python/Doc/library/ |
| D | multiprocessing.shared_memory.rst | 1 :mod:`multiprocessing.shared_memory` --- Provides shared memory for direct access across processes
5 :synopsis: Provides shared memory for direct access across processes.
12 single: Shared Memory
13 single: POSIX Shared Memory
14 single: Named Shared Memory
19 and management of shared memory to be accessed by one or more processes
21 the life-cycle management of shared memory especially across distinct
26 In this module, shared memory refers to "System V style" shared memory blocks
28 to "distributed shared memory". This style of shared memory permits distinct
30 volatile memory. Processes are conventionally limited to only have access to
[all …]
|
| /third_party/skia/third_party/externals/angle2/doc/ |
| D | GPUMemoryAnalysis.md | 1 # GPU Memory Reporting and Analysis
6 GPU memory usage data can be reported when using the Vulkan back-end with drivers that support the
8 based on every allocation, free, import, unimport, and failed allocation of GPU memory. This
12 ## GPU Memory Reporting
16 each of the following GPU memory events:
18 - Allocation of GPU memory by ANGLE
19 - Free of GPU memory by ANGLE
20 - Import of GPU memory provided by another process (e.g. Android SurfaceFlinger)
21 - Unimport of GPU memory provided by another process
26 and logs messages based on this information. ANGLE keeps track of how much of each type of memory
[all …]
|