libcw/cwFlowCross.cpp

592 lines
18 KiB
C++

#include "cwCommon.h"
#include "cwLog.h"
#include "cwCommonImpl.h"
#include "cwTest.h"
#include "cwMem.h"
#include "cwText.h"
#include "cwObject.h"
#include "cwAudioFile.h"
#include "cwVectOps.h"
#include "cwMtx.h"
#include "cwDspTypes.h" // real_t, sample_t
#include "cwDspTransforms.h"
#include "cwTime.h"
#include "cwMidiDecls.h"
#include "cwFlowDecl.h"
#include "cwFlow.h"
#include "cwFlowTypes.h"
#include "cwFlowProc.h"
#include "cwFlowCross.h"
namespace cw
{
namespace flow_cross
{
enum
{
kInactiveStateId,
kActiveStateId,
kFadeInStateId,
kFadeOutStateId,
};
// Each duplicated network is represented by a flow_netword_t record in flow_cross_t.netA[].
typedef struct flow_network_str
{
dsp::recorder::obj_t* recorder;
flow::external_device_t* deviceA; // deviceA[ deviceN ] - cloned exteranl device array
unsigned deviceN;
flow::handle_t flowH;
unsigned stateId; // inactive, fade-in, fade-out
double fadeGain; // 0 0->1 1->0
unsigned fadeSmpN; //
unsigned net_idx;
} flow_network_t;
typedef struct flow_cross_str
{
unsigned cur_idx; // index of the network currently receiving parameter updates
double srate;
unsigned netN;
flow_network_t* netA;
flow::external_device_t* deviceA;
unsigned deviceN;
bool fadeInputFl;
} flow_cross_t;
flow_cross_t* _handleToPtr(handle_t h)
{ return handleToPtr<handle_t,flow_cross_t>(h); }
void _destroy_network( flow_network_t* net )
{
for(unsigned i=0; i<net->deviceN; ++i)
if( net->deviceA[i].typeId == flow::kAudioDevTypeId )
{
abuf_destroy(net->deviceA[i].u.a.abuf);
}
mem::release(net->deviceA);
flow::destroy(net->flowH);
char fname[256];
snprintf(fname,256,"/home/kevin/temp/temp_%i.json",net->net_idx);
dsp::recorder::write(net->recorder,fname);
dsp::recorder::destroy( net->recorder );
}
rc_t _destroy( flow_cross_t* p )
{
rc_t rc = kOkRC;
for(unsigned i=0; i<p->netN; ++i)
_destroy_network( p->netA + i );
mem::release(p->netA);
mem::release(p);
return rc;
}
flow::abuf_t* _clone_abuf( const flow::abuf_t* src )
{
flow::abuf_t* b = mem::allocZ<flow::abuf_t>();
memcpy(b,src,sizeof(flow::abuf_t));
b->buf = mem::allocZ<flow::sample_t>( b->frameN * b->chN );
return b;
}
flow::external_device_t* _clone_external_device_array( const flow::external_device_t* srcDevA, unsigned devN )
{
flow::external_device_t* devA = mem::allocZ<flow::external_device_t>(devN);
memcpy(devA,srcDevA,devN * sizeof(flow::external_device_t));
for(unsigned i=0; i<devN; ++i)
{
switch( devA[i].typeId )
{
case flow::kAudioDevTypeId:
devA[i].u.a.abuf = _clone_abuf( srcDevA[i].u.a.abuf );
break;
case flow::kMidiDevTypeId:
devA[i].u.m = srcDevA[i].u.m;
break;
default:
break;
}
}
return devA;
}
rc_t _create_network( flow_cross_t* p,
unsigned net_idx,
double srate,
const object_t& classCfg,
const object_t& networkCfg,
flow::external_device_t* deviceA,
unsigned deviceN )
{
rc_t rc;
flow_network_t* net = p->netA + net_idx;
dsp::recorder::create( net->recorder, srate, 10.0, 1 );
net->deviceA = _clone_external_device_array( deviceA, deviceN );
net->deviceN = 0;
net->stateId = net_idx == 0 ? kActiveStateId : kInactiveStateId;
net->net_idx = net_idx;
if((rc = flow::create( net->flowH, &classCfg, &networkCfg, nullptr, nullptr )) == kOkRC )
{
rc = cwLogError(rc,"Flow cross index %i network create failed.",net_idx);
}
if((rc = flow::initialize( net->flowH, net->deviceA, deviceN )) == kOkRC )
net->deviceN = deviceN;
else
{
cwLogError(rc,"Flow cross index %i network initialize failed.",net_idx);
goto errLabel;
}
errLabel:
if(rc != kOkRC )
_destroy_network(net);
return rc;
}
void _fade_audio( const flow::abuf_t* src, flow::abuf_t* dst, flow_network_t* net )
{
unsigned frameN = std::min(dst->frameN,src->frameN);
unsigned chN = std::min(dst->chN,src->chN);
double dd = (double)frameN / net->fadeSmpN; // change in gain over frameN samples
double bf = net->fadeGain; // starting gain
double ef = 0;
switch( net->stateId )
{
case kFadeInStateId: ef = bf + dd; break;
case kFadeOutStateId: ef = bf - dd; break;
case kActiveStateId: ef = 1; break;
case kInactiveStateId: ef = 0; break;
default:
assert(0);
}
// pin the ending gain in the range 0.0 to 1.0
ef = std::min(1.0,std::max(0.0,ef));
dd = ef - bf; // gain change
flow::sample_t BUF[ chN * frameN ];
//memcpy(dst->buf,src->buf,frameN*chN*sizeof(flow::sample_t));
// apply gain slope to the src signal and sum the result into the output buffer
for(unsigned j = 0; j<chN; ++j)
{
flow::sample_t* dbuf = dst->buf + (j*frameN);
flow::sample_t* sbuf = src->buf + (j*frameN);
flow::sample_t* rbuf = BUF + (j*frameN);
for(unsigned i = 0; i<frameN; ++i)
{
flow::sample_t g = bf + (dd*i/frameN);
dbuf[i] += (flow::sample_t)(g * sbuf[i]);
rbuf[i] = g;
//dbuf[i] = sbuf[i];
}
}
dsp::recorder::exec( net->recorder, BUF, chN, frameN );
net->fadeGain += dd;
if( net->stateId == kFadeInStateId && ef == 1.0 )
net->stateId = kActiveStateId;
if( net->stateId == kFadeOutStateId && ef == 0.0 )
net->stateId = kInactiveStateId;
}
// Copy audio from the actual external audio device to a cloned audio device
void _update_midi_input( flow_cross_t* p, flow_network_t* net, unsigned devIdx )
{
flow::midi_dev_cfg_t& src = p->deviceA[devIdx].u.m; // src MIDI device
flow::midi_dev_cfg_t& dst = net->deviceA[devIdx].u.m; // dst MIDI device clone
// redirect the MIDI msg list array to the clones
dst.msgArray = src.msgArray;
dst.msgCnt = src.msgCnt;
}
// Copy audio from the actual external audio device to a cloned audio device
void _update_audio_input( flow_cross_t* p, flow_network_t* net, unsigned devIdx )
{
flow::abuf_t* src = p->deviceA[devIdx].u.a.abuf;
flow::abuf_t* dst = net->deviceA[devIdx].u.a.abuf;
memcpy( dst->buf, src->buf, dst->chN * dst->frameN * sizeof(flow::sample_t));
//_fade_audio( src, dst, net );
}
void _zero_audio_output( flow_cross_t* p, flow_network_t* net, unsigned devIdx )
{
flow::abuf_t* dst = net->deviceA[devIdx].u.a.abuf;
memset(dst->buf,0,dst->chN*dst->frameN*sizeof(flow::sample_t));
}
void _update_audio_output( flow_cross_t* p, flow_network_t* net, unsigned devIdx )
{
flow::abuf_t* src = net->deviceA[devIdx].u.a.abuf;
flow::abuf_t* dst = p->deviceA[devIdx].u.a.abuf;
assert( net->deviceA[ devIdx ].flags == flow::kOutFl && net->deviceA[ devIdx ].typeId==flow::kAudioDevTypeId);
_fade_audio( src, dst, net );
}
unsigned _get_flow_index( flow_cross_t* p, destId_t destId )
{
unsigned flow_idx = kInvalidIdx;
switch( destId )
{
case kCurDestId:
flow_idx = p->cur_idx;
break;
case kNextDestId:
flow_idx = (p->cur_idx + 1) % p->netN;
break;
default:
assert(0);
}
return flow_idx;
}
template< typename T >
rc_t _set_variable_value( handle_t h, destId_t destId, const char* inst_label, const char* var_label, unsigned chIdx, const T& value )
{
rc_t rc = kOkRC;
flow_cross_t* p = _handleToPtr(h);
unsigned flow_idx = destId == kAllDestId ? 0 : _get_flow_index(p, destId );
unsigned flow_cnt = destId == kAllDestId ? p->netN : flow_idx + 1;
for(; flow_idx < flow_cnt; ++flow_idx )
if((rc = set_variable_value( p->netA[ flow_idx ].flowH, inst_label, var_label, chIdx, value )) != kOkRC )
{
cwLogError(rc,"Set variable value failed on cross-network index: %i.",flow_idx);
goto errLabel;
}
errLabel:
return rc;
}
template< typename T >
rc_t _get_variable_value( handle_t h, destId_t destId, const char* inst_label, const char* var_label, unsigned chIdx, T& valueRef )
{
rc_t rc = kOkRC;
flow_cross_t* p = _handleToPtr(h);
unsigned flow_idx = destId == kAllDestId ? 0 : _get_flow_index(p, destId );
unsigned flow_cnt = destId == kAllDestId ? p->netN : flow_idx + 1;
for(; flow_idx < flow_cnt; ++flow_idx )
if((rc = get_variable_value( p->netA[ flow_idx ].flowH, inst_label, var_label, chIdx, valueRef )) != kOkRC )
{
cwLogError(rc,"Get variable value failed on cross-network index: %i.",flow_idx);
goto errLabel;
}
errLabel:
return rc;
}
}
}
cw::rc_t cw::flow_cross::create( handle_t& hRef,
const object_t& classCfg,
const object_t& networkCfg,
double srate,
unsigned crossN,
flow::external_device_t* deviceA,
unsigned deviceN)
{
rc_t rc;
if((rc = destroy(hRef)) != kOkRC )
return rc;
// There must be at least 2 networks to cross fade between
if( crossN < 2 )
crossN = 2;
flow_cross_t* p = mem::allocZ<flow_cross_t>();
p->netA = mem::allocZ<flow_network_t>( crossN );
p->netN = 0;
p->srate = srate;
p->deviceA = deviceA;
p->deviceN = deviceN;
for(unsigned i=0; i<crossN; ++i)
if((rc = _create_network(p,i,srate,classCfg,networkCfg,deviceA,deviceN)) == kOkRC )
p->netN += 1;
else
{
rc = cwLogError(rc,"Sub-network index '%i' create failed.",i);
goto errLabel;
}
hRef.set(p);
errLabel:
if( rc != kOkRC )
_destroy(p);
return rc;
}
cw::rc_t cw::flow_cross::destroy( handle_t& hRef )
{
rc_t rc = kOkRC;
if( !hRef.isValid() )
return rc;
flow_cross_t* p = _handleToPtr(hRef);
if((rc = _destroy(p)) != kOkRC )
return rc;
hRef.clear();
return rc;
}
unsigned cw::flow_cross::preset_cfg_flags( handle_t h )
{
flow_cross_t* p = _handleToPtr(h);
if( p->netN > 0 )
return preset_cfg_flags( p->netA[0].flowH );
return 0;
}
cw::rc_t cw::flow_cross::exec_cycle( handle_t h )
{
rc_t rc = kOkRC;
flow_cross_t* p = _handleToPtr(h);
// Note that all networks must be updated so that they maintain
// their state (e.g. delay line memory) event if their output
// is faded out
for(unsigned i=0; i<p->netN; ++i)
{
flow_network_t* net = p->netA + i;
for(unsigned j=0; j<p->deviceN; ++j)
if( cwIsFlag(p->deviceA[j].flags, flow::kInFl ) )
{
switch( p->deviceA[j].typeId)
{
case flow::kAudioDevTypeId:
// We generally don't want to fade the input because the state
// of the network delay lines would then be invalid when the
// network is eventually made active again
// copy audio from the actual audio device to the cloned audio devices
_update_audio_input( p, p->netA + i, j );
break;
case flow::kMidiDevTypeId:
// update the cloned MIDI devices from the master device
_update_midi_input( p, p->netA + i, j );
}
}
// zero the audio device output buffers because we are about to sum into them
for(unsigned j=0; j<p->deviceN; ++j)
if( p->deviceA[j].typeId == flow::kAudioDevTypeId && cwIsFlag(p->deviceA[j].flags, flow::kOutFl ) )
_zero_audio_output( p, net, j );
// update the network
flow::exec_cycle( net->flowH );
// sum the output from the network into the audio output device buffer
// (this is were newly active networks are faded in)
for(unsigned j=0; j<p->deviceN; ++j)
if( p->deviceA[j].typeId == flow::kAudioDevTypeId && cwIsFlag(p->deviceA[j].flags, flow::kOutFl ) )
_update_audio_output( p, net, j );
}
return rc;
}
/*
cw::rc_t cw::flow_cross::exec_cycle( handle_t h )
{
rc_t rc = kOkRC;
flow_cross_t* p = _handleToPtr(h);
flow_network_t* net = p->netA;
flow::exec_cycle( net->flowH );
for(unsigned j=0; j<p->deviceN; ++j)
if( p->deviceA[j].typeId == flow::kAudioDevTypeId && cwIsFlag(p->deviceA[j].flags, flow::kOutFl ) )
_update_audio_output( p, net, j );
return rc;
}
*/
cw::rc_t cw::flow_cross::apply_preset( handle_t h, destId_t destId, const char* presetLabel )
{
rc_t rc = kOkRC;
flow_cross_t* p = _handleToPtr(h);
unsigned flow_idx = _get_flow_index(p, destId );
if((rc = flow::apply_preset( p->netA[flow_idx].flowH, presetLabel )) != kOkRC )
rc = cwLogError(rc,"Preset application '%s' failed.",cwStringNullGuard(presetLabel));
return rc;
}
cw::rc_t cw::flow_cross::apply_preset( handle_t h, destId_t destId, const flow::multi_preset_selector_t& multi_preset_sel )
{
rc_t rc = kOkRC;
flow_cross_t* p = _handleToPtr(h);
unsigned flow_idx = _get_flow_index(p, destId );
if((rc = flow::apply_preset( p->netA[flow_idx].flowH, multi_preset_sel )) != kOkRC )
rc = cwLogError(rc,"Muti-preset application failed.");
return rc;
}
cw::rc_t cw::flow_cross::set_variable_value( handle_t h, destId_t destId, const char* inst_label, const char* var_label, unsigned chIdx, bool value )
{ return _set_variable_value(h,destId,inst_label,var_label,chIdx,value); }
cw::rc_t cw::flow_cross::set_variable_value( handle_t h, destId_t destId, const char* inst_label, const char* var_label, unsigned chIdx, int value )
{ return _set_variable_value(h,destId,inst_label,var_label,chIdx,value); }
cw::rc_t cw::flow_cross::set_variable_value( handle_t h, destId_t destId, const char* inst_label, const char* var_label, unsigned chIdx, unsigned value )
{ return _set_variable_value(h,destId,inst_label,var_label,chIdx,value); }
cw::rc_t cw::flow_cross::set_variable_value( handle_t h, destId_t destId, const char* inst_label, const char* var_label, unsigned chIdx, float value )
{ return _set_variable_value(h,destId,inst_label,var_label,chIdx,value); }
cw::rc_t cw::flow_cross::set_variable_value( handle_t h, destId_t destId, const char* inst_label, const char* var_label, unsigned chIdx, double value )
{ return _set_variable_value(h,destId,inst_label,var_label,chIdx,value); }
cw::rc_t cw::flow_cross::get_variable_value( handle_t h, destId_t destId, const char* inst_label, const char* var_label, unsigned chIdx, bool& valueRef )
{ return _get_variable_value(h,destId,inst_label,var_label,chIdx,valueRef); }
cw::rc_t cw::flow_cross::get_variable_value( handle_t h, destId_t destId, const char* inst_label, const char* var_label, unsigned chIdx, int& valueRef )
{ return _get_variable_value(h,destId,inst_label,var_label,chIdx,valueRef); }
cw::rc_t cw::flow_cross::get_variable_value( handle_t h, destId_t destId, const char* inst_label, const char* var_label, unsigned chIdx, unsigned& valueRef )
{ return _get_variable_value(h,destId,inst_label,var_label,chIdx,valueRef); }
cw::rc_t cw::flow_cross::get_variable_value( handle_t h, destId_t destId, const char* inst_label, const char* var_label, unsigned chIdx, float& valueRef )
{ return _get_variable_value(h,destId,inst_label,var_label,chIdx,valueRef); }
cw::rc_t cw::flow_cross::get_variable_value( handle_t h, destId_t destId, const char* inst_label, const char* var_label, unsigned chIdx, double& valueRef )
{ return _get_variable_value(h,destId,inst_label,var_label,chIdx,valueRef); }
cw::rc_t cw::flow_cross::begin_cross_fade( handle_t h, unsigned crossFadeMs )
{
rc_t rc = kOkRC;
flow_cross_t* p = _handleToPtr(h);
p->netA[ p->cur_idx ].stateId = kFadeOutStateId;
p->cur_idx = _get_flow_index( p, kNextDestId );
p->netA[ p->cur_idx ].stateId = kFadeInStateId;
p->netA[ p->cur_idx ].fadeSmpN = (unsigned)(p->srate * crossFadeMs / 1000.0);
return rc;
}
void cw::flow_cross::print( handle_t h )
{
flow_cross_t* p = _handleToPtr(h);
unsigned cur_flow_idx = _get_flow_index( p, kCurDestId );
unsigned next_flow_idx = _get_flow_index( p, kNextDestId );
printf("flow_cross: sr:%7.1f\n", p->srate );
printf("master devices:\n");
for(unsigned i=0; i<p->deviceN; ++i)
flow::print_external_device( p->deviceA + i );
for(unsigned i=0; i<p->netN; ++i)
{
const char* label = i==cur_flow_idx ? "Current" : (i==next_flow_idx ? "Next" : "");
printf("cross network:%i (%s)\n",i,label);
flow::print_network( p->netA[i].flowH );
}
}
void cw::flow_cross::print_network( handle_t h, destId_t destId )
{
flow_cross_t* p = _handleToPtr(h);
unsigned flow_idx = _get_flow_index( p, destId );
if( flow_idx == kInvalidIdx )
cwLogError(kInvalidArgRC,"The network id '%i' is not valid. Cannot print the network state.",destId);
else
flow::print_network( p->netA[flow_idx].flowH );
}
void cw::flow_cross::report( handle_t h )
{
flow_cross_t* p = _handleToPtr(h);
unsigned cur_flow_idx = _get_flow_index( p, kCurDestId );
unsigned next_flow_idx = _get_flow_index( p, kNextDestId );
for(unsigned i=0; i<p->netN; ++i)
{
const char* label = i==cur_flow_idx ? "Current" : (i==next_flow_idx ? "Next" : "");
printf("%s %f : ",label,p->netA[i].fadeGain );
}
printf("\n");
}