/** * Copyright (c) 2014-2018 Enzien Audio Ltd. * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ #include "HvTable.h" #include "HvMessage.h" hv_size_t hTable_init(HvTable *o, int length) { o->length = length; // true size of the table is always an integer multple of HV_N_SIMD o->size = (length + HV_N_SIMD_MASK) & ~HV_N_SIMD_MASK; // add an extra length for mirroring o->allocated = o->size + HV_N_SIMD; o->head = 0; hv_size_t numBytes = o->allocated * sizeof(float); o->buffer = (float *) hv_malloc(numBytes); hv_assert(o->buffer != NULL); hv_memclear(o->buffer, numBytes); return numBytes; } hv_size_t hTable_initWithData(HvTable *o, int length, const float *data) { o->length = length; o->size = (length + HV_N_SIMD_MASK) & ~HV_N_SIMD_MASK; o->allocated = o->size + HV_N_SIMD; o->head = 0; hv_size_t numBytes = o->size * sizeof(float); o->buffer = (float *) hv_malloc(numBytes); hv_assert(o->buffer != NULL); hv_memclear(o->buffer, numBytes); hv_memcpy(o->buffer, data, length*sizeof(float)); return numBytes; } hv_size_t hTable_initWithFinalData(HvTable *o, int length, float *data) { o->length = length; o->size = length; o->allocated = length; o->buffer = data; o->head = 0; return 0; } void hTable_free(HvTable *o) { hv_free(o->buffer); } int hTable_resize(HvTable *o, hv_uint32_t newLength) { // TODO(mhroth): update context with memory allocated by table // NOTE(mhroth): mirrored bytes are not necessarily carried over const hv_uint32_t newSize = (newLength + HV_N_SIMD_MASK) & ~HV_N_SIMD_MASK; if (newSize == o->size) return 0; // early exit if no change in size const hv_uint32_t oldSizeBytes = (hv_uint32_t) (o->size * sizeof(float)); const hv_uint32_t newAllocated = newSize + HV_N_SIMD; const hv_uint32_t newAllocatedBytes = (hv_uint32_t) (newAllocated * sizeof(float)); float *b = (float *) hv_realloc(o->buffer, newAllocatedBytes); hv_assert(b != NULL); // error while reallocing! // ensure that hv_realloc has given us a correctly aligned buffer if ((((hv_uintptr_t) (const void *) b) & ((0x1< o->size) { hv_memclear(b + o->size, (newAllocated - o->size) * sizeof(float)); // clear new parts of the buffer } o->buffer = b; } else { // if not, we have to re-malloc ourselves char *c = (char *) hv_malloc(newAllocatedBytes); hv_assert(c != NULL); // error while allocating new buffer! if (newAllocatedBytes > oldSizeBytes) { hv_memcpy(c, b, oldSizeBytes); hv_memclear(c + oldSizeBytes, newAllocatedBytes - oldSizeBytes); } else { hv_memcpy(c, b, newAllocatedBytes); } hv_free(b); o->buffer = (float *) c; } o->length = newLength; o->size = newSize; o->allocated = newAllocated; return (int) (newAllocated - oldSizeBytes - (HV_N_SIMD*sizeof(float))); } void hTable_onMessage(HeavyContextInterface *_c, HvTable *o, int letIn, const HvMessage *m, void (*sendMessage)(HeavyContextInterface *, int, const HvMessage *)) { if (msg_compareSymbol(m,0,"resize") && msg_isFloat(m,1) && msg_getFloat(m,1) >= 0.0f) { hTable_resize(o, (int) hv_ceil_f(msg_getFloat(m,1))); // apply ceil to ensure that tables always have enough space // send out the new size of the table HvMessage *n = HV_MESSAGE_ON_STACK(1); msg_initWithFloat(n, msg_getTimestamp(m), (float) hTable_getSize(o)); sendMessage(_c, 0, n); } else if (msg_compareSymbol(m,0,"mirror")) { hv_memcpy(o->buffer+o->size, o->buffer, HV_N_SIMD*sizeof(float)); } }