int main() {
//set buffer size
setOutputBufferSize(8);
//enable DAC
*audioDacEnReg = 1;
// audio data
for(int i=0; i<4; i++) {
setOutputBuffer(audioArrayL[i], audioArrayR[i]);
}
printf("Done first\n");
printf("IWannaWaitVeryVeryLong\n");
// audio data
for(int j=0; j<3; j++) {
for(int i=0; i<4; i++) {
setOutputBuffer(audioArrayL[i]+3, audioArrayR[i]+3);
}
}
printf("done second\n");
return 0;
}
void Socket::disconnect() {
status = NOT_CONNECTED;
setInputBufferSize(0);
setOutputBufferSize(0);
clients.clear();
if(handle != -1)
closesocket(handle);
}
Socket::Socket() {
#if NETLINK_DEFAULT_INPUT_BUFFER_SIZE > 0
setInputBufferSize(NETLINK_DEFAULT_INPUT_BUFFER_SIZE);
#endif
#if NETLINK_DEFAULT_OUTPUT_BUFFER_SIZE > 0
setOutputBufferSize(NETLINK_DEFAULT_OUTPUT_BUFFER_SIZE);
#endif
};
Socket::Socket() :inputIntermediateSize(0),
ipVersion(ANY), type(NONE), status(NOT_CONNECTED),
handle(-1), portLocal(0), portRemote(0) {
#if NETLINK_DEFAULT_INPUT_BUFFER_SIZE > 0
setInputBufferSize(NETLINK_DEFAULT_INPUT_BUFFER_SIZE);
#endif
#if NETLINK_DEFAULT_OUTPUT_BUFFER_SIZE > 0
setOutputBufferSize(NETLINK_DEFAULT_OUTPUT_BUFFER_SIZE);
#endif
};
Socket::Socket(int _handle, const std::string& _hostLocal, unsigned _portLocal,
struct sockaddr_storage* remoteAddr, IPVersion _ipVersion)
:ipVersion(_ipVersion), type(TCP_SERVERS_CLIENT), status(READY),
handle(_handle), hostLocal(_hostLocal), portLocal(_portLocal) {
readSockaddr(remoteAddr, hostRemote, portRemote);
setBlockingMode(false);
#if NETLINK_DEFAULT_INPUT_BUFFER_SIZE > 0
setInputBufferSize(NETLINK_DEFAULT_INPUT_BUFFER_SIZE);
#endif
#if NETLINK_DEFAULT_OUTPUT_BUFFER_SIZE > 0
setOutputBufferSize(NETLINK_DEFAULT_OUTPUT_BUFFER_SIZE);
#endif
}
int main() {
short inL = 0;
short inR = 0;
//buffer sizes
setInputBufferSize(8);
setOutputBufferSize(8);
//enables
*audioAdcEnReg = 1;
*audioDacEnReg = 1;
for(int i=0; i<12; i++) {
getInputBuffer(&inL, &inR);
setOutputBuffer(inL, inR);
}
printf("done\n");
return 0;
}
int main() {
#if GUITAR == 1
setup(1); //for guitar
#else
setup(0); //for volca
#endif
// enable input and output
*audioDacEnReg = 1;
*audioAdcEnReg = 1;
setInputBufferSize(BUFFER_SIZE);
setOutputBufferSize(BUFFER_SIZE);
struct Filter filter1;
struct Filter *filter1Pnt = &filter1;
struct AudioFX *filter1FXPnt = (struct AudioFX *) filter1Pnt;
int FILTER_ALLOC_AMOUNT;
struct Filter32 filter321;
struct Filter32 *filter321Pnt = &filter321;
struct AudioFX *filter321FXPnt = (struct AudioFX *) filter321Pnt;
int FILTER32_ALLOC_AMOUNT;
printf("Press KEY0 to play LPF, KEY1 for HPF, KEY2 for BPF and KEY3 for BRF\n");
while(*keyReg == 15);
if(*keyReg == 14) {
FILTER_ALLOC_AMOUNT = alloc_filter_vars(filter1Pnt, 0, 600, 0.707, 0); //LPF
FILTER32_ALLOC_AMOUNT = alloc_filter32_vars(filter321Pnt, 0, 600, 0.707, 0); //LPF
}
if(*keyReg == 13) {
FILTER_ALLOC_AMOUNT = alloc_filter_vars(filter1Pnt, 0, 5000, 0.707, 1); //HPF
FILTER32_ALLOC_AMOUNT = alloc_filter32_vars(filter321Pnt, 0, 5000, 0.707, 1); //HPF
}
if(*keyReg == 11) {
FILTER_ALLOC_AMOUNT = alloc_filter_vars(filter1Pnt, 0, 1000, 300, 2); //BPF
FILTER32_ALLOC_AMOUNT = alloc_filter32_vars(filter321Pnt, 0, 1000, 300, 2); //BPF
}
if(*keyReg == 7) {
FILTER_ALLOC_AMOUNT = alloc_filter_vars(filter1Pnt, 0, 500, 2000, 3); //BRF
FILTER32_ALLOC_AMOUNT = alloc_filter32_vars(filter321Pnt, 0, 500, 2000, 3); //BRF
}
printf("Done!\n");
//CPU cycles stuff
//int CPUcycles[1000] = {0};
//int cpu_pnt = 0;
int type = 0;
printf("press KEY0 for 16-bit filter, KEY1 for 32-bit filter\n");
while(*keyReg != 3) {
if (type == 0) {
audioIn(filter1FXPnt);
audio_filter(filter1Pnt);
audioOut(filter1FXPnt);
}
else {
audioIn(filter321FXPnt);
audio_filter32(filter321Pnt);
audioOut(filter321FXPnt);
}
if( (*keyReg == 14) && (type==1) ) {
printf("16-bit\n");
type = 0;
}
if( (*keyReg == 13) && (type==0) ) {
printf("32-bit\n");
type = 1;
}
/*
//store CPU Cycles
CPUcycles[cpu_pnt] = get_cpu_cycles();
cpu_pnt++;
if(cpu_pnt == 1000) {
break;
}
*/
}
/*
//print CPU cycle time
for(int i=1; i<1000; i++) {
printf("%d\n", (CPUcycles[i]-CPUcycles[i-1]));
}
*/
return 0;
}
