Mercurial > hg > beaglert
view projects/heavy/hello-world/Heavy.c @ 160:5bcf04234f80 heavy-updated
- added -std=c99 to Makefile for user-supplied C files (required for heavy files)
- changed heavy core render.cpp file to use latest API and removed all redundant functions (e.g. foleyDesigner/touchkey stuff)
- use build_pd.sh to compile and run pd files (-h for usage instructions)
| author | chnrx <chris.heinrichs@gmail.com> |
|---|---|
| date | Thu, 05 Nov 2015 18:58:26 +0000 |
| parents | |
| children |
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/** * Copyright (c) 2014, 2015, 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 "HvBase.h" #include "HvTable.h" #if !HV_WIN #pragma mark - Heavy Table #endif int hv_table_resize(HvTable *o, hv_uint32_t newLength) { return hTable_resize(o, newLength); } float *hv_table_getBuffer(HvTable *o) { return hTable_getBuffer(o); } hv_size_t hv_table_getLength(HvTable *o) { return hTable_getLength(o); } #if !HV_WIN #pragma mark - Heavy Message #endif hv_size_t hv_msg_getByteSize (hv_uint32_t numElements) { return msg_getByteSize(numElements); } void hv_msg_init(HvMessage *m, int numElements, hv_uint32_t timestamp) { msg_init(m, numElements, timestamp); } hv_size_t hv_msg_getNumElements(const HvMessage *const m) { return msg_getNumElements(m); } double hv_msg_getTimestamp(const HvMessage *const m) { return msg_getTimestamp(m); } void hv_msg_setTimestamp(HvMessage *m, hv_uint32_t timestamp) { msg_setTimestamp(m, timestamp); } bool hv_msg_isBang(const HvMessage *const m, int i) { return msg_isBang(m,i); } void hv_msg_setBang(HvMessage *m, int i) { msg_setBang(m,i); } bool hv_msg_isFloat(const HvMessage *const m, int i) { return msg_isFloat(m, i); } float hv_msg_getFloat(const HvMessage *const m, int i) { return msg_getFloat(m,i); } void hv_msg_setFloat(HvMessage *m, int i, float f) { msg_setFloat(m,i,f); } bool hv_msg_isSymbol(const HvMessage *const m, int i) { return msg_isSymbol(m,i); } char *hv_msg_getSymbol(const HvMessage *const m, int i) { return msg_getSymbol(m,i); } void hv_msg_setSymbol(HvMessage *m, int i, char *s) { msg_setSymbol(m,i,s); } bool hv_msg_isHash(const HvMessage *const m, int i) { return msg_isHash(m, i); } unsigned int hv_msg_getHash(const HvMessage *const m, int i) { return msg_getHash(m, i); } bool hv_msg_hasFormat(const HvMessage *const m, const char *fmt) { return msg_hasFormat(m, fmt); } char *hv_msg_toString(const HvMessage *const m) { return msg_toString(m); } HvMessage *hv_msg_copy(HvMessage *m) { return msg_copy(m); } void hv_msg_free(HvMessage *m) { msg_free(m); } #if !HV_WIN #pragma mark - Heavy Common #endif double hv_getSampleRate(HvBase *c) { return ctx_getSampleRate(c); } int hv_getNumInputChannels(HvBase *c) { return ctx_getNumInputChannels(c); } int hv_getNumOutputChannels(HvBase *c) { return ctx_getNumOutputChannels(c); } const char *hv_getName(HvBase *c) { return ctx_getName(c); } void hv_setPrintHook(HvBase *c, void (*f)(double, const char *, const char *, void *)) { ctx_setPrintHook(c, f); } void hv_setSendHook(HvBase *c, void (*f)(double, const char *, const HvMessage *const, void *)) { ctx_setSendHook(c, f); } void hv_vscheduleMessageForReceiver(HvBase *c, const char *receiverName, const double delayMs, const char *format, ...) { va_list ap; va_start(ap, format); const int numElem = (int) hv_strlen(format); HvMessage *m = HV_MESSAGE_ON_STACK(numElem); msg_init(m, numElem, c->blockStartTimestamp + (hv_uint32_t) (hv_max_d(0.0, delayMs)*ctx_getSampleRate(c)/1000.0)); for (int i = 0; i < numElem; i++) { switch (format[i]) { case 'b': msg_setBang(m,i); break; case 'f': msg_setFloat(m, i, (float) va_arg(ap, double)); break; case 's': msg_setSymbol(m, i, (char *) va_arg(ap, char *)); break; default: break; } } ctx_scheduleMessageForReceiver(c, receiverName, m); va_end(ap); } void hv_scheduleMessageForReceiver(HvBase *c, const char *receiverName, double delayMs, HvMessage *m) { hv_assert(delayMs >= 0.0); msg_setTimestamp(m, c->blockStartTimestamp + (hv_uint32_t) (delayMs*ctx_getSampleRate(c)/1000.0)); ctx_scheduleMessageForReceiver(c, receiverName, m); } HvTable *hv_getTableForName(HvBase *c, const char *tableName) { return ctx_getTableForName(c, tableName); } void hv_cancelMessage(HvBase *c, HvMessage *m) { ctx_cancelMessage(c, m, NULL); } double hv_getCurrentTime(HvBase *c) { return ((double) c->blockStartTimestamp)/c->sampleRate; } void *hv_getUserData(HvBase *c) { return ctx_getUserData(c); } void hv_setUserData(HvBase *c, void *userData) { ctx_setUserData(c, userData); } void hv_setBasePath(HvBase *c, const char *basePath) { ctx_setBasePath(c, basePath); }