number 244 opal/dss/dss.h int32_t *number); number 233 opal/dss/dss_internal.h int32_t *number); number 115 opal/mca/event/libevent2022/libevent/event_tagging.c #define ENCODE_INT_INTERNAL(data, number) do { \ number 118 opal/mca/event/libevent2022/libevent/event_tagging.c memset(data, 0, sizeof(number)+1); \ number 119 opal/mca/event/libevent2022/libevent/event_tagging.c while (number) { \ number 121 opal/mca/event/libevent2022/libevent/event_tagging.c data[off/2] = (data[off/2] & 0xf0) | (number & 0x0f); \ number 124 opal/mca/event/libevent2022/libevent/event_tagging.c ((number & 0x0f) << 4); \ number 125 opal/mca/event/libevent2022/libevent/event_tagging.c number >>= 4; \ number 139 opal/mca/event/libevent2022/libevent/event_tagging.c encode_int_internal(ev_uint8_t *data, ev_uint32_t number) number 141 opal/mca/event/libevent2022/libevent/event_tagging.c ENCODE_INT_INTERNAL(data, number); number 145 opal/mca/event/libevent2022/libevent/event_tagging.c encode_int64_internal(ev_uint8_t *data, ev_uint64_t number) number 147 opal/mca/event/libevent2022/libevent/event_tagging.c ENCODE_INT_INTERNAL(data, number); number 151 opal/mca/event/libevent2022/libevent/event_tagging.c evtag_encode_int(struct evbuffer *evbuf, ev_uint32_t number) number 154 opal/mca/event/libevent2022/libevent/event_tagging.c int len = encode_int_internal(data, number); number 159 opal/mca/event/libevent2022/libevent/event_tagging.c evtag_encode_int64(struct evbuffer *evbuf, ev_uint64_t number) number 162 opal/mca/event/libevent2022/libevent/event_tagging.c int len = encode_int64_internal(data, number); number 197 opal/mca/event/libevent2022/libevent/event_tagging.c ev_uint32_t number = 0; number 208 opal/mca/event/libevent2022/libevent/event_tagging.c evbuf, len < sizeof(number) + 1 ? len : sizeof(number) + 1); number 214 opal/mca/event/libevent2022/libevent/event_tagging.c number |= (lower & 0x7f) << shift; number 230 opal/mca/event/libevent2022/libevent/event_tagging.c *ptag = number; number 306 opal/mca/event/libevent2022/libevent/event_tagging.c #define DECODE_INT_INTERNAL(number, maxnibbles, pnumber, evbuf, offset) \ number 330 opal/mca/event/libevent2022/libevent/event_tagging.c number <<= 4; \ number 332 opal/mca/event/libevent2022/libevent/event_tagging.c number |= data[nibbles >> 1] & 0x0f; \ number 334 opal/mca/event/libevent2022/libevent/event_tagging.c number |= (data[nibbles >> 1] & 0xf0) >> 4; \ number 338 opal/mca/event/libevent2022/libevent/event_tagging.c *pnumber = number; \ number 355 opal/mca/event/libevent2022/libevent/event_tagging.c ev_uint32_t number = 0; number 356 opal/mca/event/libevent2022/libevent/event_tagging.c DECODE_INT_INTERNAL(number, 8, pnumber, evbuf, offset); number 362 opal/mca/event/libevent2022/libevent/event_tagging.c ev_uint64_t number = 0; number 363 opal/mca/event/libevent2022/libevent/event_tagging.c DECODE_INT_INTERNAL(number, 16, pnumber, evbuf, offset); number 1493 opal/mca/event/libevent2022/libevent/http.c char *number; number 1499 opal/mca/event/libevent2022/libevent/http.c number = strsep(&line, " "); number 1506 opal/mca/event/libevent2022/libevent/http.c req->response_code = atoi(number); number 1509 opal/mca/event/libevent2022/libevent/http.c __func__, number)); number 85 opal/mca/event/libevent2022/libevent/include/event2/tag.h void evtag_encode_int(struct evbuffer *evbuf, ev_uint32_t number); number 86 opal/mca/event/libevent2022/libevent/include/event2/tag.h void evtag_encode_int64(struct evbuffer *evbuf, ev_uint64_t number); number 45 opal/mca/event/libevent2022/libevent/include/event2/tag_compat.h #define encode_int(evbuf, number) evtag_encode_int((evbuf), (number)) number 46 opal/mca/event/libevent2022/libevent/include/event2/tag_compat.h #define encode_int64(evbuf, number) evtag_encode_int64((evbuf), (number)) number 1698 opal/mca/event/libevent2022/libevent/test/regress.c int evtag_encode_tag(struct evbuffer *evbuf, ev_uint32_t number); number 73 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-cuda.c char number[32]; number 92 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-cuda.c snprintf(number, sizeof(number), "%llu", ((unsigned long long) prop.totalGlobalMem) >> 10); number 93 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-cuda.c hwloc_obj_add_info(cuda_device, "CUDAGlobalMemorySize", number); number 95 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-cuda.c snprintf(number, sizeof(number), "%llu", ((unsigned long long) prop.l2CacheSize) >> 10); number 96 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-cuda.c hwloc_obj_add_info(cuda_device, "CUDAL2CacheSize", number); number 98 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-cuda.c snprintf(number, sizeof(number), "%d", prop.multiProcessorCount); number 99 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-cuda.c hwloc_obj_add_info(cuda_device, "CUDAMultiProcessors", number); number 103 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-cuda.c snprintf(number, sizeof(number), "%u", cores); number 104 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-cuda.c hwloc_obj_add_info(cuda_device, "CUDACoresPerMP", number); number 107 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-cuda.c snprintf(number, sizeof(number), "%llu", ((unsigned long long) prop.sharedMemPerBlock) >> 10); number 108 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-cuda.c hwloc_obj_add_info(cuda_device, "CUDASharedMemorySizePerMP", number); number 2274 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-linux.c unsigned long long number; number 2281 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-linux.c number = strtoull(tmp+10, NULL, 10); number 2282 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-linux.c *local_memory = number << 10; number 2289 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-linux.c number = strtoull(tmp+14, NULL, 10); number 2290 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-linux.c *meminfo_hugepages_size = number << 10; number 2294 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-linux.c number = strtoull(tmp+16, NULL, 10); number 2295 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-linux.c *meminfo_hugepages_count = number; number 687 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-x86.c char number[8]; number 690 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-x86.c snprintf(number, sizeof(number), "%u", info->cpufamilynumber); number 691 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-x86.c hwloc__add_info_nodup(&obj->infos, &obj->infos_count, "CPUFamilyNumber", number, replace); number 692 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-x86.c snprintf(number, sizeof(number), "%u", info->cpumodelnumber); number 693 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-x86.c hwloc__add_info_nodup(&obj->infos, &obj->infos_count, "CPUModelNumber", number, replace); number 700 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-x86.c snprintf(number, sizeof(number), "%u", info->cpustepping); number 701 opal/mca/hwloc/hwloc201/hwloc/hwloc/topology-x86.c hwloc__add_info_nodup(&obj->infos, &obj->infos_count, "CPUStepping", number, replace); number 34 test/datatype/to_self.c create_struct_constant_gap_resized_ddt( int number, /* IGNORED: number of repetitions */ number 61 test/datatype/to_self.c create_indexed_constant_gap_ddt( int number, /* number of repetitions */ number 69 test/datatype/to_self.c types = (MPI_Datatype*)malloc( sizeof(MPI_Datatype) * number ); number 70 test/datatype/to_self.c bLength = (int*)malloc( sizeof(int) * number ); number 71 test/datatype/to_self.c displ = (MPI_Aint*)malloc( sizeof(MPI_Aint) * number ); number 76 test/datatype/to_self.c for( i = 1; i < number; i++ ) { number 81 test/datatype/to_self.c MPI_Type_create_struct( number, bLength, displ, types, &dt ); number 91 test/datatype/to_self.c create_optimized_indexed_constant_gap_ddt( int number, /* number of repetitions */ number 97 test/datatype/to_self.c MPI_Type_vector( number, contig_size, (contig_size + gap_size), MPI_DOUBLE, &dt );