libcw/cwFlowTypes.cpp

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//| Copyright: (C) 2020-2024 Kevin Larke <contact AT larke DOT org>
//| License: GNU GPL version 3.0 or above. See the accompanying LICENSE file.
#include "cwCommon.h"
#include "cwLog.h"
#include "cwCommonImpl.h"
#include "cwTest.h"
#include "cwMem.h"
#include "cwMath.h"
#include "cwText.h"
#include "cwObject.h"
#include "cwFileSys.h"
#include "cwVectOps.h"
#include "cwMtx.h"
#include "cwDspTypes.h" // real_t, sample_t
#include "cwTime.h"
#include "cwMidiDecls.h"
#include "cwFlowDecl.h"
#include "cwFlow.h"
#include "cwFlowTypes.h"
namespace cw
{
namespace flow
{
idLabelPair_t _varDescAttrFlagsA[] =
{
{ kSrcVarDescFl, "src" },
{ kSrcOptVarDescFl, "src_opt" },
{ kNoSrcVarDescFl, "no_src" },
{ kInitVarDescFl, "init" },
{ kMultVarDescFl, "mult" },
{ kUdpOutVarDescFl, "out" },
{ kInvalidVarDescFl, "<invalid>" }
};
idLabelPair_t _typeLabelFlagsA[] = {
{ kBoolTFl, "bool" },
{ kUIntTFl, "uint" },
{ kIntTFl, "int", },
{ kFloatTFl, "float"},
{ kDoubleTFl,"double"},
{ kBoolMtxTFl, "bool_mtx" },
{ kUIntMtxTFl, "uint_mtx" },
{ kIntMtxTFl, "int_mtx" },
{ kFloatMtxTFl, "float_mtx" },
{ kDoubleMtxTFl,"double_mtx" },
{ kABufTFl, "audio" },
{ kFBufTFl, "spectrum" },
{ kMBufTFl, "midi" },
{ kStringTFl, "string" },
{ kTimeTFl, "time" },
{ kCfgTFl, "cfg" },
// alias types to map to cwDspTypes.h
{ kFloatTFl, "srate"},
{ kFloatTFl, "sample"},
{ kFloatTFl, "coeff"},
{ kDoubleTFl, "ftime" },
{ kNumericTFl, "numeric" },
{ kAllTFl, "all" },
{ kRuntimeTFl, "runtime" },
{ kInvalidTFl, "<invalid>" }
};
const char* _typeFlagToLabel( unsigned flag )
{
return idToLabel(_typeLabelFlagsA,flag,kInvalidTFl);
}
void _value_release( value_t* v )
{
if( v == nullptr )
return;
switch( v->tflag & kTypeMask )
{
case kInvalidTFl:
break;
case kBoolTFl:
case kUIntTFl:
case kIntTFl:
case kFloatTFl:
case kDoubleTFl:
break;
case kABufTFl:
abuf_destroy( v->u.abuf );
break;
case kFBufTFl:
fbuf_destroy( v->u.fbuf );
break;
case kMBufTFl:
mbuf_destroy( v->u.mbuf );
break;
case kBoolMtxTFl:
case kUIntMtxTFl:
case kIntMtxTFl:
case kFloatMtxTFl:
case kDoubleMtxTFl:
assert(0); // not implemeneted
break;
case kStringTFl:
mem::release( v->u.s );
break;
case kTimeTFl:
assert(0);
break;
case kCfgTFl:
break;
default:
assert(0);
break;
}
v->tflag = kInvalidTFl;
}
void _value_duplicate( value_t& dst, const value_t& src )
{
switch( src.tflag & kTypeMask )
{
case kInvalidTFl:
break;
case kBoolTFl:
case kUIntTFl:
case kIntTFl:
case kFloatTFl:
case kDoubleTFl:
dst = src;
break;
case kABufTFl:
dst.u.abuf = src.u.abuf == nullptr ? nullptr : abuf_duplicate(dst.u.abuf,src.u.abuf);
dst.tflag = src.tflag;
break;
case kFBufTFl:
dst.u.fbuf = src.u.fbuf == nullptr ? nullptr : fbuf_duplicate(dst.u.fbuf,src.u.fbuf);
dst.tflag = src.tflag;
break;
case kMBufTFl:
dst.u.mbuf = src.u.mbuf == nullptr ? nullptr : mbuf_duplicate(src.u.mbuf);
dst.tflag = src.tflag;
break;
case kBoolMtxTFl:
case kUIntMtxTFl:
case kIntMtxTFl:
case kFloatMtxTFl:
case kDoubleMtxTFl:
assert(0); // not implemeneted
break;
case kStringTFl:
dst.u.s = mem::duplStr( dst.u.s );
dst.tflag = src.tflag;
break;
case kTimeTFl:
assert(0);
break;
case kCfgTFl:
dst = src;
break;
default:
assert(0);
break;
}
}
void _value_print( const value_t* v, bool info_fl=true )
{
if( v == nullptr )
return;
switch( v->tflag & kTypeMask )
{
case kInvalidTFl:
cwLogPrint("<invalid>");
break;
case kBoolTFl:
cwLogPrint("%s%s ", info_fl ? "b:" : "", v->u.b ? "true" : "false" );
break;
case kUIntTFl:
cwLogPrint("%s%i ", info_fl ? "u:" : "", v->u.u );
break;
case kIntTFl:
cwLogPrint("%s%i ", info_fl ? "i:" : "", v->u.i );
break;
case kFloatTFl:
cwLogPrint("%s%f ", info_fl ? "f:" : "", v->u.f );
break;
case kDoubleTFl:
cwLogPrint("%s%f ", info_fl ? "d:" : "", v->u.d );
break;
case kABufTFl:
if( info_fl )
{
if( v->u.abuf == nullptr )
cwLogPrint("abuf: <null>");
else
cwLogPrint("abuf: chN:%i frameN:%i srate:%8.1f ", v->u.abuf->chN, v->u.abuf->frameN, v->u.abuf->srate );
}
else
{
bool null_fl = v->u.abuf==nullptr || v->u.abuf->buf == nullptr;
cwLogPrint("(");
for(unsigned i=0; i<v->u.abuf->chN; ++i)
cwLogPrint("%f ",null_fl ? 0.0 : vop::rms(v->u.abuf->buf + i*v->u.abuf->frameN, v->u.abuf->frameN));
cwLogPrint(") ");
}
break;
case kFBufTFl:
if( info_fl )
{
if( v->u.fbuf == nullptr )
cwLogPrint("fbuf: <null>");
else
{
cwLogPrint("fbuf: chN:%i srate:%8.1f ", v->u.fbuf->chN, v->u.fbuf->srate );
for(unsigned i=0; i<v->u.fbuf->chN; ++i)
cwLogPrint("(binN:%i hopSmpN:%i) ", v->u.fbuf->binN_V[i], v->u.fbuf->hopSmpN_V[i] );
}
}
else
{
bool null_fl = v->u.fbuf==nullptr || v->u.fbuf->magV == nullptr;
cwLogPrint("(");
for(unsigned i=0; i<v->u.fbuf->chN; ++i)
cwLogPrint("%f ",null_fl ? 0.0 : vop::mean(v->u.fbuf->magV[i], v->u.fbuf->binN_V[i]));
cwLogPrint(") ");
}
break;
case kMBufTFl:
if( info_fl )
{
if( v->u.mbuf == nullptr )
cwLogPrint("mbuf: <null>");
else
{
cwLogPrint("mbuf: cnt: %i", v->u.mbuf->msgN );
}
}
else
{
//bool null_fl = v->u.mbuf==nullptr || v->u.mbuf->msgA == nullptr;
for(unsigned i=0; i<v->u.mbuf->msgN; ++i)
cwLogPrint("(0x%x 0x%x 0x%x) ",v->u.mbuf->msgA[i].status + v->u.mbuf->msgA[i].ch,v->u.mbuf->msgA[i].d0,v->u.mbuf->msgA[i].d1);
}
break;
case kBoolMtxTFl:
case kUIntMtxTFl:
case kIntMtxTFl:
case kFloatMtxTFl:
case kDoubleMtxTFl:
assert(0); // not implemeneted
break;
case kStringTFl:
cwLogPrint("s:%s ", v->u.s);
break;
case kTimeTFl:
assert(0);
break;
case kCfgTFl:
cwLogPrint("c:");
if( v->u.cfg != nullptr )
v->u.cfg->print();
break;
default:
assert(0);
break;
}
}
rc_t _val_get( const value_t* val, bool& valRef )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kBoolTFl: valRef = val->u.b; break;
case kUIntTFl: valRef = val->u.u!=0; break;
case kIntTFl: valRef = val->u.i!=0; break;
case kFloatTFl: valRef = val->u.f!=0; break;
case kDoubleTFl: valRef = val->u.d!=0; break;
default:
rc = cwLogError(kTypeMismatchRC,"The type %s (0x%x) could not be converted to a bool.",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_set( value_t* val, bool v )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kBoolTFl: val->u.b=v; break;
case kUIntTFl: val->u.u=v; break;
case kIntTFl: val->u.i=v; break;
case kFloatTFl: val->u.f=v; break;
case kDoubleTFl: val->u.d=v; break;
case kInvalidTFl:
val->u.b = v;
val->tflag = kBoolTFl;
break;
default:
rc = cwLogError(kTypeMismatchRC,"A bool could not be converted to a %s (0x%x).",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_get( const value_t* val, uint_t& valRef )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kBoolTFl: valRef = val->u.b ? 1 : 0; break;
case kUIntTFl: valRef = val->u.u; break;
case kIntTFl: valRef = val->u.i; break;
case kFloatTFl: valRef = (uint_t)val->u.f; break;
case kDoubleTFl: valRef = (uint_t)val->u.d; break;
default:
rc = cwLogError(kTypeMismatchRC,"The type %s (0x%x) could not be converted to a uint.",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_set( value_t* val, uint_t v )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kBoolTFl: val->u.b=v!=0; break;
case kUIntTFl: val->u.u=v; break;
case kIntTFl: val->u.i=v; break;
case kFloatTFl: val->u.f=v; break;
case kDoubleTFl: val->u.d=v; break;
case kInvalidTFl:
val->u.u = v;
val->tflag = kUIntTFl;
break;
default:
rc = cwLogError(kTypeMismatchRC,"A uint could not be converted to a %s (0x%x).",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_get( const value_t* val, int_t& valRef )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kBoolTFl: valRef = val->u.b ? 1 : 0; break;
case kUIntTFl: valRef = (int_t)val->u.u; break;
case kIntTFl: valRef = val->u.i; break;
case kFloatTFl: valRef = (int_t)val->u.f; break;
case kDoubleTFl: valRef = (int_t)val->u.d; break;
default:
rc = cwLogError(kTypeMismatchRC,"The type %s (0x%x) could not be converted to an int.",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_set( value_t* val, int_t v )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kBoolTFl: val->u.b=v!=0; break;
case kUIntTFl: val->u.u=v; break;
case kIntTFl: val->u.i=v; break;
case kFloatTFl: val->u.f=v; break;
case kDoubleTFl: val->u.d=v; break;
case kInvalidTFl:
val->u.i = v;
val->tflag = kIntTFl;
break;
default:
rc = cwLogError(kTypeMismatchRC,"An int could not be converted to a %s (0x%x).",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_get( const value_t* val, float& valRef )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kBoolTFl: valRef = val->u.b ? 1 : 0; break;
case kUIntTFl: valRef = (float)val->u.u; break;
case kIntTFl: valRef = (float)val->u.i; break;
case kFloatTFl: valRef = (float)val->u.f; break;
case kDoubleTFl: valRef = (float)val->u.d; break;
default:
rc = cwLogError(kTypeMismatchRC,"The type %s (0x%x) could not be converted to a float.",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_set( value_t* val, float v )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kBoolTFl: val->u.b=v!=0; break;
case kUIntTFl: val->u.u=(unsigned)v; break;
case kIntTFl: val->u.i=(int)v; break;
case kFloatTFl: val->u.f=v; break;
case kDoubleTFl: val->u.d=v; break;
case kInvalidTFl:
val->u.f = v;
val->tflag = kFloatTFl;
break;
default:
rc = cwLogError(kTypeMismatchRC,"A float could not be converted to a %s (0x%x).",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_get( const value_t* val, double& valRef )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kBoolTFl: valRef = val->u.b ? 1 : 0; break;
case kUIntTFl: valRef = (double)val->u.u; break;
case kIntTFl: valRef = (double)val->u.i; break;
case kFloatTFl: valRef = (double)val->u.f; break;
case kDoubleTFl: valRef = val->u.d; break;
default:
rc = cwLogError(kTypeMismatchRC,"The type %s (0x%x) could not be converted to a double.",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_set( value_t* val, double v )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kBoolTFl: val->u.b=v!=0; break;
case kUIntTFl: val->u.u=(unsigned)v; break;
case kIntTFl: val->u.i=(int)v; break;
case kFloatTFl: val->u.f=(float)v; break;
case kDoubleTFl: val->u.d=v; break;
case kInvalidTFl:
val->u.d = v;
val->tflag = kDoubleTFl;
break;
default:
rc = cwLogError(kTypeMismatchRC,"A double could not be converted to a %s (0x%x).",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_get( const value_t* val, const char*& valRef )
{
rc_t rc = kOkRC;
if( cwIsFlag(val->tflag & kTypeMask, kStringTFl) )
valRef = val->u.s;
else
{
rc = cwLogError(kTypeMismatchRC,"The type %s (0x%x) could not be converted to a string.",_typeFlagToLabel(val->tflag),val->tflag);
valRef = nullptr;
}
return rc;
}
rc_t _val_set( value_t* val, const char* v )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kStringTFl:
val->u.s=mem::duplStr(v); break;
case kInvalidTFl:
val->u.s = mem::duplStr(v);
val->tflag = kStringTFl;
break;
default:
rc = cwLogError(kTypeMismatchRC,"A string could not be converted to a %s (0x%x).",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_get( value_t* val, abuf_t*& valRef )
{
rc_t rc = kOkRC;
if( cwIsFlag(val->tflag & kTypeMask, kABufTFl) )
valRef = val->u.abuf;
else
{
rc = cwLogError(kTypeMismatchRC,"The type %s (0x%x) could not be converted to an abuf.",_typeFlagToLabel(val->tflag),val->tflag);
valRef = nullptr;
}
return rc;
}
rc_t _val_get( value_t* val, const abuf_t*& valRef )
{
abuf_t* non_const_val;
rc_t rc = kOkRC;
if((rc = _val_get(val,non_const_val)) == kOkRC )
valRef = non_const_val;
return rc;
}
rc_t _val_set( value_t* val, abuf_t* v )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kABufTFl:
val->u.abuf=v;
break;
case kInvalidTFl:
val->u.abuf=v;
val->tflag = kABufTFl;
break;
default:
rc = cwLogError(kTypeMismatchRC,"A audio signal could not be converted to a %s (0x%x).",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_get( value_t* val, fbuf_t*& valRef )
{
rc_t rc = kOkRC;
if( cwIsFlag(val->tflag & kTypeMask, kFBufTFl) )
valRef = val->u.fbuf;
else
{
valRef = nullptr;
rc = cwLogError(kTypeMismatchRC,"The type %s (0x%x) could not be converted to an fbuf.",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_get( value_t* val, const fbuf_t*& valRef )
{
fbuf_t* non_const_val;
rc_t rc = kOkRC;
if((rc = _val_get(val,non_const_val)) == kOkRC )
valRef = non_const_val;
return rc;
}
rc_t _val_set( value_t* val, fbuf_t* v )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kFBufTFl:
val->u.fbuf=v;
break;
case kInvalidTFl:
val->u.fbuf=v;
val->tflag = kFBufTFl;
break;
default:
rc = cwLogError(kTypeMismatchRC,"A spectrum signal could not be converted to a %s (0x%x).",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_get( value_t* val, mbuf_t*& valRef )
{
rc_t rc = kOkRC;
if( cwIsFlag(val->tflag & kTypeMask, kMBufTFl) )
valRef = val->u.mbuf;
else
{
valRef = nullptr;
rc = cwLogError(kTypeMismatchRC,"The type %s (0x%x) could not be converted to an mbuf.",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_set( value_t* val, mbuf_t* v )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kMBufTFl:
val->u.mbuf=v;
break;
case kInvalidTFl:
val->u.mbuf=v;
val->tflag = kMBufTFl;
break;
default:
rc = cwLogError(kTypeMismatchRC,"A MIDI signal could not be converted to a %s (0x%x).",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_get( value_t* val, const mbuf_t*& valRef )
{
mbuf_t* non_const_val;
rc_t rc = kOkRC;
if((rc = _val_get(val,non_const_val)) == kOkRC )
valRef = non_const_val;
return rc;
}
rc_t _val_get( value_t* val, const object_t*& valRef )
{
rc_t rc = kOkRC;
if( cwIsFlag(val->tflag & kTypeMask, kCfgTFl) )
valRef = val->u.cfg;
else
{
valRef = nullptr;
rc = cwLogError(kTypeMismatchRC,"The type %s (0x%x) could not be converted to a cfg.",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
rc_t _val_set( value_t* val, const object_t* v )
{
rc_t rc = kOkRC;
switch( val->tflag & kTypeMask )
{
case kCfgTFl:
val->u.cfg=v;
break;
case kInvalidTFl:
val->u.cfg=v;
val->tflag = kCfgTFl;
break;
default:
rc = cwLogError(kTypeMismatchRC,"A cfg. could not be converted to a %s (0x%x).",_typeFlagToLabel(val->tflag),val->tflag);
}
return rc;
}
template< typename T >
rc_t _val_get_driver( const variable_t* var, T& valRef )
{
if( var == nullptr )
return cwLogError(kInvalidArgRC,"Cannnot get the value of a non-existent variable.");
if( var->value == nullptr )
return cwLogError(kInvalidStateRC,"No value has been assigned to the variable: %s:%i.%s:%i ch:%i.",cwStringNullGuard(var->proc->label),var->proc->label_sfx_id,cwStringNullGuard(var->label),var->label_sfx_id,var->chIdx);
return _val_get(var->value,valRef);
}
// Variable lookup: Exact match on vid and chIdx
rc_t _var_find_on_vid_and_ch( proc_t* proc, unsigned vid, unsigned chIdx, variable_t*& varRef )
{
varRef = nullptr;
for(variable_t* var = proc->varL; var!=nullptr; var=var->var_link)
{
// the variable vid and chIdx should form a unique pair
if( var->vid==vid && var->chIdx == chIdx )
{
varRef = var;
return kOkRC;
}
}
return cwLogError(kInvalidIdRC,"The variable matching id:%i ch:%i on proc '%s:%i' could not be found.", vid, chIdx, proc->label, proc->label_sfx_id);
}
// Variable lookup: Exact match on label and chIdx
variable_t* _var_find_on_label_and_ch( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned chIdx )
{
for(variable_t* var = proc->varL; var!=nullptr; var=var->var_link)
{
// the variable vid and chIdx should form a unique pair
if( var->label_sfx_id==sfx_id && textCompare(var->label,var_label)==0 && var->chIdx == chIdx )
return var;
}
return nullptr;
}
rc_t _var_find_on_label_and_ch( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned chIdx, variable_t*& var_ref )
{
rc_t rc = kOkRC;
if((var_ref = _var_find_on_label_and_ch(proc,var_label,sfx_id,chIdx)) == nullptr )
rc = cwLogError(kEleNotFoundRC,"The variable '%s:%i' cannot be found on the proc:%s.",cwStringNullGuard(var_label),sfx_id,cwStringNullGuard(proc->label));
return rc;
}
rc_t _validate_var_assignment( variable_t* var, unsigned typeFl )
{
if( cwIsFlag(var->varDesc->flags, kSrcVarDescFl ) )
return cwLogError(kInvalidStateRC, "The variable '%s:%i' on proc '%s:%i' cannot be set because it is a 'src' variable.", var->label, var->label_sfx_id, var->proc->label,var->proc->label_sfx_id);
/*
if( !cwIsFlag(var->varDesc->type, typeFl ) )
return cwLogError(kTypeMismatchRC, "The variable '%s:%i' on proc '%s:%i' is not a '%s'.", var->label, var->label_sfx_id, var->proc->label, var->proc->label_sfx_id, _typeFlagToLabel( typeFl ));
*/
return kOkRC;
}
void _var_print_addr( const char* title, const variable_t* v )
{ cwLogPrint("%s:%s:%i.%s:%i ",title,v->proc->label,v->proc->label_sfx_id,v->label,v->label_sfx_id); }
void _var_print( const variable_t* var )
{
2024-05-10 19:52:37 +00:00
const char* conn_label = is_connected_to_source(var) ? "extern" : " ";
cwLogPrint(" %12s:%3i vid:%3i ch:%3i : %s : ", var->label, var->label_sfx_id, var->vid, var->chIdx, conn_label );
if( var->value == nullptr )
_value_print( &var->local_value[0] );
else
_value_print( var->value );
if( var->src_var != nullptr )
cwLogPrint(" src:%s:%i.%s:%i",var->src_var->proc->label,var->src_var->proc->label_sfx_id,var->src_var->label,var->src_var->label_sfx_id);
if( var->dst_head != nullptr )
{
for(variable_t* v = var->dst_head; v!=nullptr; v=v->dst_link)
cwLogPrint(" dst:%s:%i.%s:%i",v->proc->label,v->proc->label_sfx_id,v->label,v->label_sfx_id);
}
cwLogPrint("\n");
}
rc_t _var_broadcast_new_value( variable_t* var )
{
rc_t rc = kOkRC;
// notify each connected var that the value has changed
for(variable_t* con_var = var->dst_head; con_var!=nullptr; con_var=con_var->dst_link)
{
// the var->local_value[] slot used by the source variable may have changed - update the destination variable
// so that it points to the correct value.
con_var->value = var->value;
cwLogMod("%s:%i %s:%i -> %s:%i %s:%i",
var->proc->label,var->proc->label_sfx_id,
var->label,var->label_sfx_id,
con_var->proc->label,con_var->proc->label_sfx_id,
con_var->label,con_var->label_sfx_id );
// Call the value() function on the connected variable
if((rc = var_call_custom_value_func(con_var)) != kOkRC )
break;
}
return rc;
}
// 'argTypeFlag' is the type (tflag) of 'val'.
template< typename T >
rc_t _var_set_template( variable_t* var, unsigned argTypeFlag, T val )
{
rc_t rc = kOkRC;
// it is not legal to set the value of a variable that is connected to a 'source' variable.
if( var->src_var != nullptr )
return cwLogError(kInvalidStateRC, "The variable '%s:%i %s:%i' cannot be set because it is connected to a source variable.", var->proc->label,var->proc->label_sfx_id, var->label, var->label_sfx_id);
// var->type is the allowable type for this var's value.
// It may be set to kInvalidTFl if the type has not yet been determined.
unsigned value_type_flag = var->type;
// Pick the slot in local_value[] that we will use to try out this new value.
unsigned next_local_value_idx = (var->local_value_idx + 1) % kLocalValueN;
// store the pointer to the current value of this variable
value_t* original_value = var->value;
unsigned original_value_idx = var->local_value_idx;
// release the previous value in the next slot
_value_release(&var->local_value[next_local_value_idx]);
// if the value type of this variable has not been established
if( value_type_flag == kInvalidTFl )
{
// if the var desc is a single type then use that ....
if( math::isPowerOfTwo(var->varDesc->type) )
{
value_type_flag = var->varDesc->type;
}
else // ... Otherwise select a type from the one of the possible flags given by the var desc
{
value_type_flag = var->varDesc->type & argTypeFlag;
}
// if the incoming type is not in the set of allowable types then it is an error
if( value_type_flag == 0 )
{
rc = cwLogError(kTypeMismatchRC,"The type 0x%x is not valid for the variable: %s:%i %s:%i type:0x%x.",
argTypeFlag,var->proc->label,var->proc->label_sfx_id,var->label,var->label_sfx_id,var->varDesc->type);
goto errLabel;
}
}
// set the type of the LHS to force the incoming value to be coerced to this type
var->local_value[ next_local_value_idx ].tflag = value_type_flag;
// set the new local value in var->local_value[next_local_value_idx]
if((rc = _val_set(var->local_value + next_local_value_idx, val )) != kOkRC )
{
rc = cwLogError(rc,"Value set failed on '%s:%i %s:%i",var->proc->label,var->proc->label_sfx_id,var->label,var->label_sfx_id);
goto errLabel;
}
// make the new local value current
var->value = var->local_value + next_local_value_idx;
var->local_value_idx = next_local_value_idx;
// If the proc is fully initialized ...
if( var->proc->varMapA != nullptr )
{
// ... then inform the proc. that the value changed
// Note 1: We don't want to this call to occur if we are inside or prior to 'proc.create()'
// call because calls' to 'proc.value()' will see the proc in a incomplete state)
// Note 2: If this call returns an error then the value assignment is cancelled
// and the value does not change.
rc = var_call_custom_value_func( var );
}
//printf("%p set: %s:%s 0x%x\n",var->value, var->proc->label,var->label,var->value->tflag);
if( rc == kOkRC )
{
// send the value to connected downstream proc's
rc = _var_broadcast_new_value( var );
}
else
{
// cancel the assignment and restore the original value
var->value = original_value;
var->local_value_idx = original_value_idx;
}
errLabel:
return rc;
}
// 'valueTypeFlag' is the type (tflag) of 'value'
template< typename T >
rc_t _var_set_driver( variable_t* var, unsigned valueTypeFlag, T value )
{
rc_t rc;
// if this variable is fed from the output of an external proc - then it's local value cannot be set
2024-05-10 19:52:37 +00:00
if(is_connected_to_source(var) )
{
return cwLogError(kInvalidStateRC,"Cannot set the value on the connected variable %s:%i-%s:%i.",var->proc->label,var->proc->label_sfx_id,var->label,var->label_sfx_id);
}
// if this assignment targets a specific channel ...
if( var->chIdx != kAnyChIdx )
{
rc = _var_set_template( var, valueTypeFlag, value ); // ... then set it alone
}
else // ... otherwise set all channels.
{
for(; var!=nullptr; var=var->ch_link)
if((rc = _var_set_template( var, valueTypeFlag, value )) != kOkRC)
break;
}
if(rc != kOkRC )
rc = cwLogError(rc,"Variable value set failed on '%s:%i %s:%i",cwStringNullGuard(var->proc->label),var->proc->label_sfx_id,cwStringNullGuard(var->label),var->label_sfx_id);
return rc;
}
rc_t _var_register_and_set( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned vid, unsigned chIdx, abuf_t* abuf )
{
rc_t rc;
variable_t* var = nullptr;
if((rc = var_register_and_set( proc, var_label, sfx_id, vid, chIdx, var)) != kOkRC )
return rc;
if( var != nullptr )
_var_set_driver( var, kABufTFl, abuf );
return rc;
}
rc_t _var_register_and_set( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned vid, unsigned chIdx, mbuf_t* mbuf )
{
rc_t rc;
variable_t* var = nullptr;
if((rc = var_register_and_set( proc, var_label, sfx_id, vid, chIdx, var)) != kOkRC )
return rc;
if( var != nullptr )
_var_set_driver( var, kMBufTFl, mbuf );
return rc;
}
rc_t _var_register_and_set( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned vid, unsigned chIdx, fbuf_t* fbuf )
{
rc_t rc;
variable_t* var = nullptr;
if((rc = var_register_and_set( proc, var_label, sfx_id, vid, chIdx, var)) != kOkRC )
return rc;
if( var != nullptr )
_var_set_driver( var, kFBufTFl, fbuf );
return rc;
}
rc_t _var_map_id_to_index( proc_t* proc, unsigned vid, unsigned chIdx, unsigned& idxRef )
{
unsigned idx = vid * proc->varMapChN + (chIdx == kAnyChIdx ? 0 : (chIdx+1));
// verify that the map idx is valid
if( idx >= proc->varMapN )
return cwLogError(kAssertFailRC,"The variable map positioning location %i is out of the range %i on proc '%s:%i' vid:%i ch:%i.", idx, proc->varMapN, proc->label,proc->label_sfx_id,vid,chIdx);
idxRef = idx;
return kOkRC;
}
rc_t _var_map_label_to_index( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned chIdx, unsigned& idxRef )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
idxRef = kInvalidIdx;
if((rc = var_find(proc, var_label, sfx_id, chIdx, var )) == kOkRC)
rc = _var_map_id_to_index( proc, var->vid, chIdx, idxRef );
return rc;
}
rc_t _var_add_to_ch_list( proc_t* proc, variable_t* new_var )
{
rc_t rc = kOkRC;
variable_t* base_var = nullptr;
variable_t* v0 = nullptr;
variable_t* v1 = nullptr;
if( new_var->chIdx == kAnyChIdx )
return kOkRC;
if((base_var = _var_find_on_label_and_ch( proc, new_var->label, new_var->label_sfx_id, kAnyChIdx )) == nullptr )
{
rc = cwLogError(kInvalidStateRC,"The base channel variable does not exist for '%s:%i.%s:%i'. This is an illegal state.", proc->label, proc->label_sfx_id, new_var->label, new_var->label_sfx_id );
goto errLabel;
}
// insert v0 in order by channel number
for(v0=base_var,v1=base_var->ch_link; v1!=nullptr; v1=v1->ch_link)
{
if( v1->chIdx > new_var->chIdx )
break;
v0 = v1;
}
// the new var channel index should never match the previous or next channel index
assert( v0->chIdx != new_var->chIdx && (v1==nullptr || v1->chIdx != new_var->chIdx ) );
new_var->ch_link = v1;
v0->ch_link = new_var;
errLabel:
return rc;
}
rc_t _var_set_type( variable_t* var, unsigned type_flag )
{
rc_t rc = kOkRC;
if( cwIsNotFlag(var->classVarDesc->type,kRuntimeTFl) )
{
rc = cwLogError(kOpFailRC,"It is invalid to change the type of a static (non-runtime) type variable.");
goto errLabel;
}
// Duplicate the varDesc with the 'type' field set to type_flag
if( var->localVarDesc == nullptr )
{
var->localVarDesc = mem::allocZ<var_desc_t>();
*(var->localVarDesc) = *(var->classVarDesc);
var->localVarDesc->link = nullptr;
}
var->localVarDesc->type = type_flag;
var->varDesc = var->localVarDesc;
errLabel:
return rc;
}
// Create a variable and set it's value from 'value_cfg'.
// If 'value_cfg' is null then use the value from var->varDesc->val_cfg.
rc_t _var_create( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned id, unsigned chIdx, const object_t* value_cfg, unsigned altTypeFl, variable_t*& varRef )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
var_desc_t* vd = nullptr;
varRef = nullptr;
// if this var already exists - it can't be created again
if((var = _var_find_on_label_and_ch(proc,var_label, sfx_id, chIdx)) != nullptr )
{
rc = cwLogError(kInvalidStateRC,"The variable '%s:%i' ch:%i has already been created on the proc: '%s:%i'.",var_label,sfx_id,chIdx,proc->label,proc->label_sfx_id);
goto errLabel;
}
// locate the var desc
if((vd = var_desc_find( proc->class_desc, var_label)) == nullptr )
{
rc = cwLogError(kInvalidIdRC,"Unable to locate the variable '%s:%i' in class '%s'.", var_label, sfx_id, proc->class_desc->label );
goto errLabel;
}
// create the var
var = mem::allocZ<variable_t>();
var->varDesc = vd;
var->classVarDesc = vd;
var->proc = proc;
var->label = mem::duplStr(var_label);
var->label_sfx_id = sfx_id;
var->vid = id;
var->chIdx = chIdx;
var->value = nullptr;
var->type = kInvalidTFl;
if( altTypeFl != kInvalidTFl )
_var_set_type(var,altTypeFl);
// if no value was given then set the value to the value given in the class
if( value_cfg == nullptr )
value_cfg = var->varDesc->val_cfg;
// if value_cfg is valid set the variable value
if( value_cfg != nullptr && cwIsNotFlag(vd->type,kRuntimeTFl))
if((rc = var_set_from_cfg( var, value_cfg )) != kOkRC )
goto errLabel;
// Add the variable to the end of the chain
if( proc->varL == nullptr )
proc->varL = var;
else
{
variable_t* v = proc->varL;
while( v->var_link != nullptr )
v=v->var_link;
v->var_link = var;
}
// link the new var into the ch_link list
if((rc = _var_add_to_ch_list(proc, var )) != kOkRC )
goto errLabel;
errLabel:
if( rc != kOkRC )
{
var_destroy(var);
cwLogError(kOpFailRC,"Variable creation failed on '%s:%i.%s:%i' ch:%i.", proc->label, proc->label_sfx_id, var_label, sfx_id, chIdx );
}
else
{
varRef = var;
cwLogMod("Created var: %s:%i.%s:%i ch:%i.", proc->label, proc->label_sfx_id, var_label, sfx_id, chIdx );
}
return rc;
}
void _class_desc_print( const class_desc_t* cd )
{
const var_desc_t* vd = cd->varDescL;
cwLogPrint("%s\n",cwStringNullGuard(cd->label));
for(; vd!=nullptr; vd=vd->link)
{
const char* srcFlStr = vd->flags & kSrcVarDescFl ? "src" : " ";
const char* srcOptFlStr = vd->flags & kSrcOptVarDescFl ? "srcOpt" : " ";
const char* plyMltFlStr = vd->flags & kMultVarDescFl ? "mult" : " ";
cwLogPrint(" %10s 0x%08x %s %s %s %s\n", cwStringNullGuard(vd->label), vd->type, srcFlStr, srcOptFlStr, plyMltFlStr, cwStringNullGuard(vd->docText) );
}
}
}
}
void cw::flow::value_duplicate( value_t& dst, const value_t& src )
{
_value_duplicate(dst,src);
}
void cw::flow::value_print( const value_t* value, bool info_fl)
{
_value_print(value,info_fl);
}
cw::flow::abuf_t* cw::flow::abuf_create( srate_t srate, unsigned chN, unsigned frameN )
{
if( chN*frameN == 0 )
{
cwLogError(kInvalidArgRC,"The %s audio signal parameter cannot be zero.", chN==0 ? "channel count" : "frame count");
return nullptr;
}
abuf_t* a = mem::allocZ<abuf_t>();
a->srate = srate;
a->chN = chN;
a->frameN = frameN;
a->bufAllocSmpN = chN*frameN;
a->buf = mem::allocZ<sample_t>(a->bufAllocSmpN);
return a;
}
void cw::flow::abuf_destroy( abuf_t*& abuf )
{
if( abuf == nullptr )
return;
mem::release(abuf->buf);
mem::release(abuf);
}
cw::flow::abuf_t* cw::flow::abuf_duplicate( abuf_t* dst, const abuf_t* src )
{
abuf_t* abuf = nullptr;
if( dst != nullptr && dst->bufAllocSmpN < src->bufAllocSmpN )
mem::release(dst->buf);
if( dst == nullptr || dst->buf == nullptr )
abuf = abuf_create( src->srate, src->chN, src->frameN );
else
abuf = dst;
if( abuf != nullptr )
vop::copy(abuf->buf,src->buf,src->chN*src->frameN);
return abuf;
}
cw::rc_t cw::flow::abuf_set_channel( abuf_t* abuf, unsigned chIdx, const sample_t* v, unsigned vN )
{
rc_t rc = kOkRC;
if( vN > abuf->frameN )
rc = cwLogError(kInvalidArgRC,"Cannot copy source vector of length %i into an abuf of length %i.", vN, abuf->frameN);
else
if( chIdx > abuf->chN )
rc = cwLogError(kInvalidArgRC,"The abuf destination channel %i is out of range.", chIdx);
else
vop::copy( abuf->buf + (chIdx*abuf->frameN), v, vN);
return rc;
}
const cw::flow::sample_t* cw::flow::abuf_get_channel( abuf_t* abuf, unsigned chIdx )
{
assert( abuf->buf != nullptr );
return abuf->buf + (chIdx*abuf->frameN);
}
cw::flow::fbuf_t* cw::flow::fbuf_create( srate_t srate, unsigned chN, const unsigned* maxBinN_V, const unsigned* binN_V, const unsigned* hopSmpN_V, const fd_sample_t** magV, const fd_sample_t** phsV, const fd_sample_t** hzV )
{
for(unsigned i=0; i<chN; ++i)
if( binN_V[i] > maxBinN_V[i] )
{
cwLogError(kInvalidArgRC,"A channel bin count (%i) execeeds the max bin count (%i).",binN_V[i],maxBinN_V[i]);
return nullptr;;
}
fbuf_t* f = mem::allocZ<fbuf_t>();
bool proxy_fl = magV != nullptr || phsV != nullptr || hzV != nullptr;
// Calculate the total count of bins for each data vector.
unsigned maxTotalBinN = proxy_fl ? 0 : vop::sum(maxBinN_V, chN);
// calc the total size of memory required for all internal data structures
f->memByteN
= sizeof(unsigned) * chN*kFbufVectN // maxBinN_V[],binN_V[],hopSmpN_V[]
+ sizeof(fd_sample_t*) * chN*kFbufVectN // magV[],phsV[],hzV[] (pointer to bin buffers)
+ sizeof(bool) * chN*1 // readyFlV[]
+ sizeof(fd_sample_t) * maxTotalBinN*kFbufVectN; // bin buffer memory
// allocate mory
f->mem = mem::allocZ<uint8_t>(f->memByteN);
unsigned* base_maxBinV = (unsigned*)f->mem;
fd_sample_t** base_bufV = (fd_sample_t**)(base_maxBinV + kFbufVectN * chN);
bool* base_boolV = (bool*)(base_bufV + kFbufVectN * chN);
fd_sample_t* base_buf = (fd_sample_t*)(base_boolV + chN);
f->srate = srate;
f->chN = chN;
f->maxBinN_V = base_maxBinV;
f->binN_V = f->maxBinN_V + chN;
f->hopSmpN_V = f->binN_V + chN;
f->magV = base_bufV;
f->phsV = f->magV + chN;
f->hzV = f->phsV + chN;
f->readyFlV = base_boolV;
vop::copy( f->binN_V, binN_V, chN );
vop::copy( f->maxBinN_V, maxBinN_V, chN );
vop::copy( f->hopSmpN_V, hopSmpN_V, chN );
if( proxy_fl )
{
for(unsigned chIdx=0; chIdx<chN; ++chIdx)
{
f->magV[ chIdx ] = (fd_sample_t*)magV[chIdx];
f->phsV[ chIdx ] = (fd_sample_t*)phsV[chIdx];
f->hzV[ chIdx ] = (fd_sample_t*)hzV[chIdx];
}
}
else
{
fd_sample_t* m = base_buf;
for(unsigned chIdx=0; chIdx<chN; ++chIdx)
{
f->magV[chIdx] = m + 0 * f->binN_V[chIdx];
f->phsV[chIdx] = m + 1 * f->binN_V[chIdx];
f->hzV[ chIdx] = m + 2 * f->binN_V[chIdx];
m += f->maxBinN_V[chIdx];
assert( m <= base_buf + kFbufVectN * maxTotalBinN );
}
}
return f;
}
/*
cw::flow::fbuf_t* cw::flow::fbuf_create( srate_t srate, unsigned chN, const unsigned* maxBinN_V, const unsigned* binN_V, const unsigned* hopSmpN_V, const fd_sample_t** magV, const fd_sample_t** phsV, const fd_sample_t** hzV )
{
for(unsigned i=0; i<chN; ++i)
if( binN_V[i] > maxBinN_V[i] )
{
cwLogError(kInvalidArgRC,"A channel bin count (%i) execeeds the max bin count (%i).",binN_V[i],maxBinN_V[i]);
return nullptr;;
}
fbuf_t* f = mem::allocZ<fbuf_t>();
f->srate = srate;
f->chN = chN;
f->maxBinN_V = mem::allocZ<unsigned>(chN);
f->binN_V = mem::allocZ<unsigned>(chN);
f->hopSmpN_V = mem::allocZ<unsigned>(chN);
f->magV = mem::allocZ<fd_sample_t*>(chN);
f->phsV = mem::allocZ<fd_sample_t*>(chN);
f->hzV = mem::allocZ<fd_sample_t*>(chN);
f->readyFlV = mem::allocZ<bool>(chN);
vop::copy( f->binN_V, binN_V, chN );
vop::copy( f->maxBinN_V, maxBinN_V, chN );
vop::copy( f->hopSmpN_V, hopSmpN_V, chN );
if( magV != nullptr || phsV != nullptr || hzV != nullptr )
{
for(unsigned chIdx=0; chIdx<chN; ++chIdx)
{
f->magV[ chIdx ] = (fd_sample_t*)magV[chIdx];
f->phsV[ chIdx ] = (fd_sample_t*)phsV[chIdx];
f->hzV[ chIdx ] = (fd_sample_t*)hzV[chIdx];
}
}
else
{
unsigned maxTotalBinsN = vop::sum( maxBinN_V, chN );
fd_sample_t* buf = mem::allocZ<fd_sample_t>( kFbufVectN * maxTotalBinsN );
fd_sample_t* m = buf;
for(unsigned chIdx=0; chIdx<chN; ++chIdx)
{
f->magV[chIdx] = m + 0 * f->binN_V[chIdx];
f->phsV[chIdx] = m + 1 * f->binN_V[chIdx];
f->hzV[ chIdx] = m + 2 * f->binN_V[chIdx];
m += f->maxBinN_V[chIdx];
assert( m <= buf + kFbufVectN * maxTotalBinsN );
}
f->buf = buf;
}
return f;
}
*/
cw::flow::fbuf_t* cw::flow::fbuf_create( srate_t srate, unsigned chN, unsigned maxBinN, unsigned binN, unsigned hopSmpN, const fd_sample_t** magV, const fd_sample_t** phsV, const fd_sample_t** hzV )
{
unsigned maxBinN_V[ chN ];
unsigned binN_V[ chN ];
unsigned hopSmpN_V[ chN ];
vop::fill( maxBinN_V, chN, maxBinN );
vop::fill( binN_V, chN, binN );
vop::fill( hopSmpN_V, chN, binN );
return fbuf_create( srate, chN, maxBinN_V, binN_V, hopSmpN_V, magV, phsV, hzV );
}
void cw::flow::fbuf_destroy( fbuf_t*& fbuf )
{
if( fbuf == nullptr )
return;
mem::release( fbuf->mem);
mem::release( fbuf);
}
cw::flow::fbuf_t* cw::flow::fbuf_duplicate( fbuf_t* dst, const fbuf_t* src )
{
fbuf_t* fbuf = nullptr;
if( dst != nullptr && dst->memByteN < src->memByteN )
fbuf_destroy(dst);
if( dst == nullptr )
fbuf = fbuf_create( src->srate, src->chN, src->maxBinN_V, src->binN_V, src->hopSmpN_V );
else
fbuf = dst;
for(unsigned i=0; i<fbuf->chN; ++i)
{
fbuf->maxBinN_V[i] = src->maxBinN_V[i];
fbuf->binN_V[i] = src->binN_V[i];
fbuf->hopSmpN_V[i] = src->hopSmpN_V[i];
vop::copy( fbuf->magV[i], src->magV[i], fbuf->binN_V[i] );
vop::copy( fbuf->phsV[i], src->phsV[i], fbuf->binN_V[i] );
vop::copy( fbuf->hzV[i], src->hzV[i], fbuf->binN_V[i] );
}
return fbuf;
}
cw::flow::mbuf_t* cw::flow::mbuf_create( const midi::ch_msg_t* msgA, unsigned msgN )
{
mbuf_t* m = mem::allocZ<mbuf_t>();
m->msgA = msgA;
m->msgN = msgN;
return m;
}
void cw::flow::mbuf_destroy( mbuf_t*& buf )
{
mem::release(buf);
}
cw::flow::mbuf_t* cw::flow::mbuf_duplicate( const mbuf_t* src )
{
return mbuf_create(src->msgA,src->msgN);
}
unsigned cw::flow::value_type_label_to_flag( const char* s )
{
unsigned flags = labelToId(_typeLabelFlagsA,s,kInvalidTFl);
if( flags == kInvalidTFl )
cwLogError(kInvalidArgRC,"Invalid type flag: '%s'",cwStringNullGuard(s));
return flags;
}
const char* cw::flow::value_type_flag_to_label( unsigned flag )
{ return _typeFlagToLabel(flag); }
cw::flow::var_desc_t* cw::flow::var_desc_create( const char* label, const object_t* cfg )
{
var_desc_t* vd = mem::allocZ<var_desc_t>();
vd->label = label;
vd->cfg = cfg;
return vd;
}
void cw::flow::var_desc_destroy( var_desc_t* var_desc )
{
if( var_desc != nullptr )
{
mem::release(var_desc->proxyProcLabel);
mem::release(var_desc->proxyVarLabel);
mem::release(var_desc);
}
}
unsigned cw::flow::var_desc_attr_label_to_flag( const char* attr_label )
{
return labelToId(_varDescAttrFlagsA,attr_label,kInvalidVarDescFl);
}
const char* cw::flow::var_desc_flag_to_attribute( unsigned flag )
{
return idToLabel(_varDescAttrFlagsA,flag,kInvalidVarDescFl);
}
const cw::idLabelPair_t* cw::flow::var_desc_flag_array( unsigned& array_cnt_ref )
{
array_cnt_ref = sizeof(_varDescAttrFlagsA)/sizeof(_varDescAttrFlagsA[0]);
return _varDescAttrFlagsA;
}
void cw::flow::class_desc_destroy( class_desc_t* class_desc)
{
// release the var desc list
var_desc_t* vd0 = class_desc->varDescL;
var_desc_t* vd1 = nullptr;
while( vd0 != nullptr )
{
vd1 = vd0->link;
var_desc_destroy(vd0);
vd0 = vd1;
}
// release the preset list
class_preset_t* pr0 = class_desc->presetL;
class_preset_t* pr1 = nullptr;
while( pr0 != nullptr )
{
pr1 = pr0->link;
mem::release(pr0);
pr0 = pr1;
}
if( class_desc->ui != nullptr )
{
mem::release(class_desc->ui->presetA);
mem::release(class_desc->ui);
}
}
cw::flow::class_desc_t* cw::flow::class_desc_find( flow_t* p, const char* label )
{
for(unsigned i=0; i<p->classDescN; ++i)
if( textIsEqual(p->classDescA[i].label,label))
return p->classDescA + i;
for(unsigned i=0; i<p->udpDescN; ++i)
if( textIsEqual(p->udpDescA[i].label,label))
return p->udpDescA + i;
return nullptr;
}
const cw::flow::var_desc_t* cw::flow::var_desc_find( const class_desc_t* cd, const char* label )
{
const var_desc_t* vd = cd->varDescL;
for(; vd != nullptr; vd=vd->link )
if( textCompare(vd->label,label) == 0 )
return vd;
return nullptr;
}
cw::flow::var_desc_t* cw::flow::var_desc_find( class_desc_t* cd, const char* label )
{
return (var_desc_t*)var_desc_find( (const class_desc_t*)cd, label);
}
cw::rc_t cw::flow::var_desc_find( class_desc_t* cd, const char* label, var_desc_t*& vdRef )
{
if((vdRef = var_desc_find(cd,label)) == nullptr )
return cwLogError(kInvalidArgRC,"The variable desc. named '%s' could not be found on the class '%s'.",label,cd->label);
return kOkRC;
}
const cw::flow::class_preset_t* cw::flow::class_preset_find( const class_desc_t* cd, const char* preset_label )
{
const class_preset_t* pr;
for(pr=cd->presetL; pr!=nullptr; pr=pr->link)
if( textCompare(pr->label,preset_label) == 0 )
return pr;
return nullptr;
}
void cw::flow::class_dict_print( flow_t* p )
{
for(unsigned i=0; i<p->classDescN; ++i)
_class_desc_print(p->classDescA+i);
for(unsigned i=0; i<p->udpDescN; ++i)
_class_desc_print(p->udpDescA+i);
}
void cw::flow::network_print( const network_t& net )
{
// for each proc in the network
for(unsigned i=0; i<net.procN; ++i)
{
proc_t* proc = net.procA[i];
proc_print(proc);
// if this proc has an internal network
if( proc->internal_net != nullptr )
{
cwLogPrint("------- Begin Nested Network: %s -------\n",cwStringNullGuard(proc->label));
network_print(*(proc->internal_net));
cwLogPrint("------- End Nested Network: %s -------\n",cwStringNullGuard(proc->label));
}
}
if(net.presetN > 0 )
{
cwLogPrint("Presets:\n");
for(unsigned i=0; i<net.presetN; ++i)
{
const network_preset_t* net_preset = net.presetA + i;
cwLogPrint("%i %s\n",i,net_preset->label);
switch( net_preset->tid )
{
case kPresetVListTId:
{
const preset_value_t* net_val = net_preset->u.vlist.value_head;
for(; net_val!=nullptr; net_val=net_val->link)
{
cwLogPrint(" %s:%i %s:%i ",cwStringNullGuard(net_val->proc->label),net_val->proc->label_sfx_id,cwStringNullGuard(net_val->var->label),net_val->var->label_sfx_id);
_value_print( &net_val->value );
cwLogPrint("\n");
}
}
break;
case kPresetDualTId:
cwLogPrint(" %s %s %f",net_preset->u.dual.pri->label,net_preset->u.dual.sec->label,net_preset->u.dual.coeff);
break;
}
}
cwLogPrint("\n");
}
}
void* cw::flow::network_global_var( proc_t* proc, const char* var_label )
{
net_global_var_t* gv;
assert( proc->net != nullptr );
for(gv=proc->net->globalVarL; gv!=nullptr; gv=gv->link )
if( textIsEqual(proc->class_desc->label,gv->class_label) && textIsEqual(gv->var_label,var_label) )
return gv->blob;
return nullptr;
}
cw::rc_t cw::flow::network_global_var_alloc( proc_t* proc, const char* var_label, const void* blob, unsigned blobByteN )
{
rc_t rc = kOkRC;
net_global_var_t* gv;
void* v;
unsigned allocWordN = 0;
if((v = network_global_var(proc,var_label)) != nullptr )
{
rc = cwLogError(kInvalidArgRC,"The global variable '%s:%s' already exists.",cwStringNullGuard(proc->class_desc->label),cwStringNullGuard(var_label));
goto errLabel;
}
gv = mem::allocZ<net_global_var_t>();
allocWordN = std::max(blobByteN/sizeof(unsigned),1ul);
gv->class_label = proc->class_desc->label;
gv->var_label = mem::duplStr(var_label);
gv->blob = mem::allocZ<unsigned>(allocWordN);
gv->blobByteN = blobByteN;
memcpy(gv->blob,blob,blobByteN);
gv->link = proc->net->globalVarL;
proc->net->globalVarL = gv;
errLabel:
return rc;
}
const cw::flow::network_preset_t* cw::flow::network_preset_from_label( const network_t& net, const char* preset_label )
{
for(unsigned i=0; i<net.presetN; ++i)
if( textIsEqual(net.presetA[i].label,preset_label))
return net.presetA + i;
return nullptr;
}
unsigned cw::flow::proc_mult_count( const network_t& net, const char* proc_label )
{
unsigned multN = 0;
for(unsigned i=0; i<net.procN; ++i)
if( textIsEqual(net.procA[i]->label,proc_label) )
multN += 1;
return multN;
}
cw::rc_t cw::flow::proc_mult_sfx_id_array( const network_t& net, const char* proc_label, unsigned* idA, unsigned idAllocN, unsigned& idN_ref )
{
rc_t rc = kOkRC;
unsigned multN = 0;
idN_ref = 0;
for(unsigned i=0; i<net.procN; ++i)
if( textIsEqual(net.procA[i]->label,proc_label) )
{
if( multN >= idAllocN )
{
rc = cwLogError(kBufTooSmallRC,"The mult-sfx-id result array is too small for the proc:'%s'.",cwStringNullGuard(proc_label));
goto errLabel;
}
idA[multN] = net.procA[i]->label_sfx_id;
multN += 1;
}
idN_ref = multN;
errLabel:
return rc;
}
unsigned cw::flow::network_poly_count( const network_t& net )
{
unsigned n =1;
for(const network_t* n0 = net.poly_link; n0!=nullptr; n0=n0->poly_link)
++n;
return n;
}
void cw::flow::proc_destroy( proc_t* proc )
{
if( proc == nullptr )
return;
if( proc->class_desc->members != nullptr && proc->class_desc->members->destroy != nullptr && proc->userPtr != nullptr )
proc->class_desc->members->destroy( proc );
// destroy the proc instance variables
variable_t* var0 = proc->varL;
variable_t* var1 = nullptr;
while( var0 != nullptr )
{
var1 = var0->var_link;
var_destroy(var0);
var0 = var1;
}
proc->varL = nullptr;
mem::release(proc->label);
mem::release(proc->varMapA);
mem::release(proc);
}
cw::rc_t cw::flow::proc_validate( proc_t* proc )
{
rc_t rc = kOkRC;
for(variable_t* var=proc->varL; var!=nullptr; var=var->var_link)
{
if( var->label == nullptr )
{
rc = cwLogError(kInvalidStateRC,"A var with no label was encountered.");
continue;
}
if( var->value == nullptr )
{
rc = cwLogError(kInvalidStateRC,"The var '%s:%i' has no value.",var->label,var->label_sfx_id);
continue;
}
// the assigned value must have exactly one type
if(!math::isPowerOfTwo( var->value->tflag ) )
{
rc = cwLogError(kInvalidStateRC,"The var '%s:%i' has the invalid type flag:0x%x",var->label,var->label_sfx_id,var->value->tflag);
continue;
}
// if var is using a local value (not connected to a source variable) then the type of the value must be valid with the variable class
2024-05-10 19:52:37 +00:00
if( !is_connected_to_source(var) && !(var->varDesc->type & var->value->tflag) )
{
rc = cwLogError(kInvalidStateRC, "The value type flag '%s' (0x%x) of '%s:%i-%s:%i' is not found in the variable class type flags: '%s' (0x%x)",
_typeFlagToLabel(var->value->tflag),var->value->tflag,
var->proc->label,var->proc->label_sfx_id,
var->label,var->label_sfx_id,
_typeFlagToLabel(var->varDesc->type),var->varDesc->type);
continue;
}
// By setting the var->type field all future assignments to this variable
// must be coercible to this type. See _var_set_template()
var->type = var->value->tflag;
}
return rc;
}
cw::flow::proc_t* cw::flow::proc_find( network_t& net, const char* proc_label, unsigned sfx_id )
{
for(unsigned i=0; i<net.procN; ++i)
{
assert( net.procA[i] != nullptr );
if( net.procA[i]->label_sfx_id==sfx_id && textIsEqual(proc_label,net.procA[i]->label) )
return net.procA[i];
}
if( net.poly_link != nullptr )
return proc_find(*net.poly_link, proc_label, sfx_id );
return nullptr;
}
cw::rc_t cw::flow::proc_find( network_t& net, const char* proc_label, unsigned sfx_id, proc_t*& procPtrRef )
{
rc_t rc = kOkRC;
if((procPtrRef = proc_find(net,proc_label,sfx_id)) != nullptr )
return rc;
return cwLogError(kInvalidArgRC,"The proc '%s:%i' was not found.", proc_label, sfx_id );
}
cw::flow::external_device_t* cw::flow::external_device_find( flow_t* p, const char* device_label, unsigned typeId, unsigned inOrOutFl, const char* midiPortLabel )
{
for(unsigned i=0; i<p->deviceN; ++i)
if( (device_label==nullptr || cw::textIsEqual(p->deviceA[i].devLabel,device_label))
&& p->deviceA[i].typeId==typeId
&& cwIsFlag(p->deviceA[i].flags,inOrOutFl)
&& (midiPortLabel==nullptr || cw::textIsEqual(p->deviceA[i].portLabel,midiPortLabel)) )
return p->deviceA + i;
cwLogError(kInvalidArgRC,"The %s device named '%s' could not be found.", cwIsFlag(inOrOutFl,kInFl) ? "in" : "out", device_label );
return nullptr;
}
void cw::flow::proc_print( proc_t* proc )
{
cwLogPrint("%s:%i\n", proc->label,proc->label_sfx_id);
for(variable_t* var = proc->varL; var!=nullptr; var=var->var_link)
if( var->chIdx == kAnyChIdx )
for(variable_t* v0 = var; v0!=nullptr; v0=v0->ch_link)
_var_print(v0);
if( proc->class_desc->members->report )
proc->class_desc->members->report( proc );
}
unsigned cw::flow::proc_var_count( proc_t* proc )
{
unsigned n = 0;
for(variable_t* var=proc->varL; var!=nullptr; var=var->var_link)
++n;
return n;
}
char* cw::flow::proc_expand_filename( const proc_t* proc, const char* fname )
{
bool useProjDirFl = proc->ctx->proj_dir != nullptr && textLength(fname) > 1 && fname[0] == '$';
char* fn0 = nullptr;
if( useProjDirFl )
fn0 = filesys::makeFn(proc->ctx->proj_dir,fname+1,nullptr,nullptr);
char* fn1 = filesys::expandPath(useProjDirFl ? fn0 : fname);
mem::release(fn0);
return fn1;
}
cw::rc_t cw::flow::var_create( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned id, unsigned chIdx, const object_t* value_cfg, unsigned altTypeFl, variable_t*& varRef )
{
rc_t rc = kOkRC;
rc = _var_create( proc, var_label, sfx_id, id, chIdx, value_cfg, altTypeFl, varRef );
return rc;
}
void cw::flow::var_destroy( variable_t* var )
{
if( var != nullptr )
{
for(unsigned i=0; i<kLocalValueN; ++i)
_value_release(var->local_value+i);
if( var->localVarDesc != nullptr )
mem::release(var->localVarDesc);
mem::release(var->label);
mem::release(var);
}
}
cw::rc_t cw::flow::var_channelize( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned chIdx, const object_t* value_cfg, unsigned vid, variable_t*& varRef )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
variable_t* base_var = nullptr;
varRef = nullptr;
if((base_var = _var_find_on_label_and_ch( proc, var_label, sfx_id, kAnyChIdx)) == nullptr)
{
rc = cwLogError(kInvalidStateRC,"The base ('any') channel variable could not be located on '%s:%i.%s:%i'.",proc->label,proc->label_sfx_id,var_label,sfx_id);
goto errLabel;
}
// locate the variable with the stated chIdx
var = _var_find_on_label_and_ch( proc, var_label, sfx_id, chIdx );
// 'src' variables cannot be channelized
/*
if( cwIsFlag(base_var->varDesc->flags,kSrcVarFl) )
{
rc = cwLogError(rc,"'src' variables cannot be channelized.");
goto errLabel;
}
*/
// if the requested var was not found then create a new variable with the requested channel index
if( var == nullptr && chIdx != kAnyChIdx )
{
// create the channelized var
if((rc = _var_create( proc, var_label, sfx_id, vid, chIdx, value_cfg, kInvalidTFl, var )) != kOkRC )
goto errLabel;
// if no value was set then set the value from the 'any' channel
if( value_cfg == nullptr )
{
// if the base-var is connected to a source ...
2024-05-10 19:52:37 +00:00
if( is_connected_to_source(base_var) )
{
// ... then connect the new var to a source also
// Attempt to find a matching channel on the source
variable_t* src_ch_var = base_var->src_var;
variable_t* last_src_ch_var = base_var->src_var;
unsigned src_ch_cnt = 0;
bool anyChFl = false;
bool zeroChFl = false;
for(; src_ch_var!=nullptr; src_ch_var=src_ch_var->ch_link)
{
last_src_ch_var = src_ch_var;
if( src_ch_var->chIdx == var->chIdx )
break;
if( src_ch_var->chIdx == kAnyChIdx )
anyChFl = true;
if( src_ch_var->chIdx == 0 )
zeroChFl = true;
src_ch_cnt += 1;
}
// If there is more than one channel available, in addition to the kAnyCh, and the src and dst var's do not have matching ch indexes
// then there is a possibility that this is an unexpected connection between different channels.
// However if there only any-ch and/or ch=0 is available then this is simply a one channel to many channels which is common.
if( src_ch_var == nullptr && (anyChFl==false || (src_ch_cnt>1 && zeroChFl==false)) && last_src_ch_var->chIdx != var->chIdx )
{
cwLogWarning("A connection is being made where channel src and dst. channels don't match and more than one src channel is available. src:%s:%i-%s:%i ch:%i of %i dst:%s:%i-%s:%i ch:%i",
last_src_ch_var->proc->label, last_src_ch_var->proc->label_sfx_id,
last_src_ch_var->label, last_src_ch_var->label_sfx_id, last_src_ch_var->chIdx, src_ch_cnt,
var->proc->label, var->proc->label_sfx_id,
var->label, var->label_sfx_id, var->chIdx );
}
// if no matching channel is found connect to the last valid source channel
// (Connecting to the last valid source is better than connecting to base_var->src_var
// because if a var has more than a base var it is unlikely to update the base_var.)
var_connect( last_src_ch_var, var );
}
else // the base-var is not connected, and no value was provided for the new var
{
// Set the value of the new variable to the value of the 'any' channel
_value_duplicate( var->local_value[ var->local_value_idx], base_var->local_value[ base_var->local_value_idx ] );
// If the 'any' channel value was set to point to it's local value then do same with this value
if( base_var->local_value + base_var->local_value_idx == base_var->value )
var->value = var->local_value + var->local_value_idx;
}
}
}
else // the var was found - set the value
{
// a correctly channelized var was found - but we still may need to set the value
if( value_cfg != nullptr )
{
rc = var_set_from_cfg( var, value_cfg );
}
else
{
cwLogWarning("An existing var (%s:%i.%s:%i ch:%i) was specified for channelizing but no value was provided.", cwStringNullGuard(proc->label), proc->label_sfx_id, cwStringNullGuard(var_label), sfx_id, chIdx );
}
}
assert( var != nullptr );
varRef = var;
errLabel:
if( rc != kOkRC )
rc = cwLogError(rc,"Channelize failed for variable '%s:%i' on proc '%s:%i' ch:%i.", var_label, sfx_id, proc->label, proc->label_sfx_id, chIdx );
return rc;
}
unsigned cw::flow::var_channel_count( proc_t* proc, const char* var_label, unsigned sfx_id )
{
rc_t rc = kOkRC;
unsigned chN = kInvalidCnt;
variable_t* base_var = nullptr;
if((rc = _var_find_on_label_and_ch( proc, var_label, sfx_id, kAnyChIdx, base_var)) != kOkRC || base_var==nullptr)
{
cwLogError(rc,"Var. channel count calc failed.");
goto errLabel;
}
chN = 0;
for(base_var=base_var->ch_link; base_var!=nullptr; base_var=base_var->ch_link)
if( base_var->chIdx+1 > chN )
chN = base_var->chIdx + 1;
errLabel:
return chN;
}
cw::rc_t cw::flow::var_call_custom_value_func( variable_t* var )
{
rc_t rc;
if((rc = var->proc->class_desc->members->value( var->proc, var )) != kOkRC )
goto errLabel;
if( var->flags & kLogVarFl )
{
if( var->proc->ctx->printLogHdrFl )
{
cwLogPrint("%s","exe cycle: process: id: variable: id vid ch : : : type:value : destination\n");
cwLogPrint("%s","---------- ----------- ----- --------------- -- --- ----- ------------: -------------\n");
//: 0 : a: 0: out: 0 vid: 2 ch: -1 : : : <invalid>:
var->proc->ctx->printLogHdrFl = false;
}
cwLogPrint("%8i ",var->proc->ctx->cycleIndex);
cwLogPrint("%10s:%5i", var->proc->label,var->proc->label_sfx_id);
if( var->chIdx == kAnyChIdx )
{
_var_print(var);
}
else
{
printf("\n");
for(variable_t* ch_var = var; ch_var!=nullptr; ch_var=ch_var->ch_link)
{
_var_print(ch_var);
}
}
}
errLabel:
return rc;
}
cw::rc_t cw::flow::var_flags( proc_t* proc, unsigned chIdx, const char* var_label, unsigned sfx_id, unsigned& flags_ref )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
flags_ref = 0;
if((rc = _var_find_on_label_and_ch(proc,var_label,sfx_id,chIdx,var)) != kOkRC )
goto errLabel;
flags_ref = var->flags;
errLabel:
return rc;
}
cw::rc_t cw::flow::var_set_flags( proc_t* proc, unsigned chIdx, const char* var_label, unsigned sfx_id, unsigned flag )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = _var_find_on_label_and_ch(proc,var_label,sfx_id,chIdx,var)) != kOkRC )
goto errLabel;
var->flags |= flag;
errLabel:
return rc;
}
cw::rc_t cw::flow::var_clr_flags( proc_t* proc, unsigned chIdx, const char* var_label, unsigned sfx_id, unsigned flag )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = _var_find_on_label_and_ch(proc,var_label,sfx_id,chIdx,var)) != kOkRC )
goto errLabel;
var->flags = cwClrFlag(var->flags,flag);
errLabel:
return rc;
}
bool cw::flow::var_exists( proc_t* proc, const char* label, unsigned sfx_id, unsigned chIdx )
{ return _var_find_on_label_and_ch(proc,label,sfx_id,chIdx) != nullptr; }
bool cw::flow::var_has_value( proc_t* proc, const char* label, unsigned sfx_id, unsigned chIdx )
{
variable_t* varPtr = nullptr;
rc_t rc;
if((rc = var_find( proc, label, sfx_id, chIdx, varPtr )) != kOkRC )
return false;
return varPtr->value != nullptr;
}
bool cw::flow::var_is_a_source( proc_t* proc, const char* label, unsigned sfx_id, unsigned chIdx )
{
rc_t rc;
variable_t* varPtr = nullptr;
if((rc = var_find( proc, label, sfx_id, chIdx, varPtr)) != kOkRC )
{
cwLogError(kEleNotFoundRC,"The variable '%s:%i' was not found on proc:'%s:%i'. 'source' state query is invalid.",cwStringNullGuard(label),sfx_id,cwStringNullGuard(proc->label),proc->label_sfx_id);
return false;
}
return is_a_source_var(varPtr);
}
bool cw::flow::var_is_a_source( proc_t* proc, unsigned vid, unsigned chIdx )
{
rc_t rc;
variable_t* varPtr = nullptr;
if((rc = var_find( proc, vid, chIdx, varPtr)) != kOkRC )
{
cwLogError(kEleNotFoundRC,"The variable with vid '%i' was not found on proc:'%s:%i'. 'source' state query is invalid.",vid,cwStringNullGuard(proc->label),proc->label_sfx_id);
return false;
}
return is_a_source_var(varPtr);
}
cw::rc_t cw::flow::var_find( proc_t* proc, unsigned vid, unsigned chIdx, variable_t*& varRef )
{
rc_t rc = kOkRC;
unsigned idx = kInvalidIdx;
variable_t* var = nullptr;
varRef = nullptr;
// if the varMapA[] has not yet been formed (we are inside the proc constructor) then do a slow lookup of the variable
if( proc->varMapA == nullptr )
{
if((rc = _var_find_on_vid_and_ch(proc,vid,chIdx,var)) != kOkRC )
goto errLabel;
}
else
{
// otherwise do a fast lookup using proc->varMapA[]
if((rc = _var_map_id_to_index(proc, vid, chIdx, idx )) == kOkRC && (idx != kInvalidIdx ))
var = proc->varMapA[idx];
else
{
rc = cwLogError(kInvalidIdRC,"The index of variable vid:%i chIdx:%i on proc '%s:%i' could not be calculated and the variable value could not be retrieved.", vid, chIdx, proc->label,proc->label_sfx_id);
goto errLabel;
}
}
// if we get here var must be non-null - (was the var registered?)
assert( var != nullptr && rc == kOkRC );
varRef = var;
errLabel:
return rc;
}
cw::rc_t cw::flow::var_find( proc_t* proc, const char* label, unsigned sfx_id, unsigned chIdx, variable_t*& vRef )
{
variable_t* var;
vRef = nullptr;
if((var = _var_find_on_label_and_ch(proc,label,sfx_id,chIdx)) != nullptr )
{
vRef = var;
return kOkRC;
}
return cwLogError(kInvalidIdRC,"The proc '%s:%i' does not have a variable named '%s:%i'.", proc->label, proc->label_sfx_id, label, sfx_id );
}
cw::rc_t cw::flow::var_find( proc_t* proc, const char* label, unsigned sfx_id, unsigned chIdx, const variable_t*& vRef )
{
variable_t* v = nullptr;
rc_t rc = var_find(proc,label,sfx_id,chIdx,v);
vRef = v;
return rc;
}
cw::rc_t cw::flow::var_channel_count( proc_t* proc, const char* label, unsigned sfx_id, unsigned& chCntRef )
{
rc_t rc = kOkRC;
const variable_t* var= nullptr;
if((rc = var_find(proc,label,sfx_id,kAnyChIdx,var)) != kOkRC )
return cwLogError(rc,"Channel count was not available because the variable '%s:%i.%s:%i' does not exist.",cwStringNullGuard(proc->label),proc->label_sfx_id,cwStringNullGuard(label),sfx_id);
return var_channel_count(var,chCntRef);
}
cw::rc_t cw::flow::var_channel_count( const variable_t* var, unsigned& chCntRef )
{
rc_t rc = kOkRC;
const variable_t* v;
chCntRef = 0;
if((rc = var_find( var->proc, var->label, var->label_sfx_id, kAnyChIdx, v )) != kOkRC )
{
rc = cwLogError(kInvalidStateRC,"The base channel variable proc could not be found for the variable '%s:%i.%s:%i'.",var->proc->label,var->proc->label_sfx_id,var->label,var->label_sfx_id);
goto errLabel;
}
for(v = v->ch_link; v!=nullptr; v=v->ch_link)
chCntRef += 1;
errLabel:
return rc;
}
cw::rc_t cw::flow::var_register( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned vid, unsigned chIdx, const object_t* value_cfg, variable_t*& varRef )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
varRef = nullptr;
// TODO: check for duplicate 'vid'-'chIdx' pairs on this proc
// The concatenation of 'vid' and 'chIdx' should be unique
// if an exact match to label/chIdx was found
if((var = _var_find_on_label_and_ch(proc,var_label,sfx_id,chIdx)) != nullptr )
{
// if a value was given - then update the value
if( value_cfg != nullptr )
if((rc = var_set_from_cfg( var, value_cfg )) != kOkRC )
goto errLabel;
}
else // an exact match was not found - channelize the variable
{
// if the kAnyChIdx has not been created for this variable ...
if((var = _var_find_on_label_and_ch(proc,var_label,sfx_id,kAnyChIdx)) == nullptr )
{
variable_t* dum = nullptr;
// ... then create it here
if((rc = var_create( proc, var_label, sfx_id, kInvalidId, kAnyChIdx, nullptr, kInvalidTFl, dum )) != kOkRC )
{
rc = cwLogError(rc,"An attempt to create the 'any-channel' for '%s:%i' failed.",cwStringNullGuard(var_label),sfx_id);
goto errLabel;
}
// if the var being registered is on channel kAnyChIdx
if( chIdx == kAnyChIdx )
var = dum;
}
// don't channelize kAnyChIdx because it must already exist
if( chIdx != kAnyChIdx )
if((rc = var_channelize(proc,var_label,sfx_id,chIdx,value_cfg,vid,var)) != kOkRC )
goto errLabel;
}
assert( var != nullptr );
var->vid = vid;
varRef = var;
// The kAnyChIdx shares the 'vid' with channelized variables - this is by design (vids are unique across variables, but shared across channels)
if((var = _var_find_on_label_and_ch(proc,var_label,sfx_id,kAnyChIdx)) == nullptr )
rc = cwLogError(kInvalidStateRC,"The variable '%s:%i' proc '%s:%i' has no base channel.", var_label, sfx_id, proc->label, proc->label_sfx_id, chIdx);
else
{
var->vid = vid; // ... this guarantee's that the kAnyChIdx variable has a valid vid
}
errLabel:
if( rc != kOkRC )
rc = cwLogError(rc,"Registration failed on variable '%s:%i' proc '%s:%i' ch: %i.", var_label, sfx_id, proc->label, proc->label_sfx_id, chIdx);
return rc;
}
2024-05-10 19:52:37 +00:00
bool cw::flow::is_connected_to_source( const variable_t* var )
{
// if this var does not have a 'src_ptr' then it can't be connected to an external proc
if( var->src_var == nullptr || var->value == nullptr )
return false;
// if this var is using a local value then it can't be connected to an external proc
for(unsigned i=0; i<kLocalValueN; ++i)
if( var->value == var->local_value + i )
return false;
return true;
}
bool cw::flow::is_a_source_var( const variable_t* var )
{ return var->dst_head != nullptr; }
void cw::flow::var_connect( variable_t* src_var, variable_t* in_var )
{
assert( in_var->dst_link == nullptr );
// connect in_var into src_var's outgoing var chain
if( src_var->dst_head == nullptr )
src_var->dst_head = in_var;
else
src_var->dst_tail->dst_link = in_var;
src_var->dst_tail = in_var;
in_var->value = src_var->value;
2024-05-10 19:52:37 +00:00
in_var->src_var = src_var;
}
2024-05-10 19:52:37 +00:00
void cw::flow::var_disconnect( variable_t* in_var )
{
if( in_var->src_var != nullptr )
{
// remote the in_var from the src var's output list
variable_t* v0 = nullptr;
variable_t* v = in_var->src_var->dst_head;
for(; v!=nullptr; v=v->dst_link)
{
if( v == in_var )
{
if( v0 == nullptr )
in_var->src_var->dst_head = v->dst_link;
else
v0->dst_link = v->dst_link;
break;
}
2024-05-10 19:52:37 +00:00
v0 = v;
}
// the in_var is always in the src-var's output list
assert(v == in_var );
2024-05-10 19:52:37 +00:00
in_var->src_var = nullptr;
}
}
unsigned cw::flow::var_mult_count( proc_t* proc, const char* var_label )
{
unsigned n = 0;
for(variable_t* var=proc->varL; var!=nullptr; var=var->var_link)
if( textIsEqual(var->label,var_label) )
++n;
return n;
}
cw::rc_t cw::flow::var_mult_sfx_id_array( proc_t* proc, const char* var_label, unsigned* idA, unsigned idAllocN, unsigned& idN_ref )
{
rc_t rc = kOkRC;
idN_ref = 0;
// for each variable whose 'label' is 'var_label'
for(variable_t* var=proc->varL; var!=nullptr; var=var->var_link)
if( textIsEqual(var->label,var_label) )
{
// scan idA[] for a matching sfx_id
unsigned i=0;
for(; i<idN_ref; ++i)
if( idA[i] == var->label_sfx_id )
break;
// if the sfx_id of this var has not yet been included in idA[]
if( i == idN_ref )
{
// ... and we still have space left in the output arrau
if( idN_ref >= idAllocN )
{
rc = cwLogError(kBufTooSmallRC,"The mult-sfx-id result array is too small for the var:'%s'.",cwStringNullGuard(var_label));
goto errLabel;
}
// store this sfx_id in idA[]
idA[idN_ref++] = var->label_sfx_id;
}
}
errLabel:
if( rc != kOkRC )
idN_ref = 0;
return rc;
}
cw::rc_t cw::flow::var_send_to_ui( variable_t* var )
{
// var->ui_var_link is set to null when the var is removed from the list
// 1. Atomically set _head to the new node and return 'old-head'
variable_t* prev = var->proc->ctx->ui_var_head.exchange(var,std::memory_order_acq_rel);
// Note that at this point only the new node may have the 'old-head' as it's predecssor.
// Other threads may therefore safely interrupt at this point.
// 2. Set the old-head next pointer to the new node (thereby adding the new node to the list)
prev->ui_var_link.store(var,std::memory_order_release); // RELEASE 'next' to consumer
return kOkRC;
}
cw::rc_t cw::flow::var_send_to_ui( proc_t* proc, unsigned vid, unsigned chIdx )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = var_find(proc, vid, chIdx, var )) == kOkRC )
rc = var_send_to_ui(var);
return rc;
}
cw::rc_t cw::flow::var_register_and_set( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned vid, unsigned chIdx, variable_t*& varRef )
{
return var_register( proc, var_label, sfx_id, vid, chIdx, nullptr, varRef );
}
cw::rc_t cw::flow::var_register_and_set( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned vid, unsigned chIdx, srate_t srate, unsigned chN, unsigned frameN )
{
rc_t rc = kOkRC;
abuf_t* abuf;
if((abuf = abuf_create( srate, chN, frameN )) == nullptr )
return cwLogError(kOpFailRC,"abuf create failed on proc:'%s:%i' variable:'%s:%i'.", proc->label, proc->label_sfx_id, var_label,sfx_id);
if((rc = _var_register_and_set( proc, var_label, sfx_id, vid, chIdx, abuf )) != kOkRC )
abuf_destroy(abuf);
return rc;
}
cw::rc_t cw::flow::var_register_and_set( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned vid, unsigned chIdx, srate_t srate, unsigned chN, const unsigned* maxBinN_V, const unsigned* binN_V, const unsigned* hopSmpN_V, const fd_sample_t** magV, const fd_sample_t** phsV, const fd_sample_t** hzV )
{
rc_t rc = kOkRC;
fbuf_t* fbuf;
if((fbuf = fbuf_create( srate, chN, maxBinN_V, binN_V, hopSmpN_V, magV, phsV, hzV )) == nullptr )
return cwLogError(kOpFailRC,"fbuf create failed on proc:'%s:%i' variable:'%s:%i'.", proc->label, proc->label_sfx_id, var_label,sfx_id);
if((rc = _var_register_and_set( proc, var_label, sfx_id, vid, chIdx, fbuf )) != kOkRC )
fbuf_destroy(fbuf);
return rc;
}
cw::rc_t cw::flow::var_register_and_set( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned vid, unsigned chIdx, midi::ch_msg_t* msgA, unsigned msgN )
{
rc_t rc = kOkRC;
mbuf_t* mbuf;
if((mbuf = mbuf_create(msgA,msgN)) == nullptr )
return cwLogError(kOpFailRC,"mbuf create failed on proc:'%s:%i' variable:'%s:%i'.", proc->label, proc->label_sfx_id, var_label, sfx_id);
if((rc = _var_register_and_set( proc, var_label, sfx_id, vid, chIdx, mbuf )) != kOkRC )
mbuf_destroy(mbuf);
return rc;
}
cw::rc_t cw::flow::var_register_and_set( proc_t* proc, const char* var_label, unsigned sfx_id, unsigned vid, unsigned chIdx, srate_t srate, unsigned chN, unsigned maxBinN, unsigned binN, unsigned hopSmpN, const fd_sample_t** magV, const fd_sample_t** phsV, const fd_sample_t** hzV )
{
unsigned maxBinN_V[ chN ];
unsigned binN_V[ chN ];
unsigned hopSmpN_V[ chN ];
vop::fill(maxBinN_V,chN,maxBinN);
vop::fill(binN_V,chN,binN);
vop::fill(hopSmpN_V,chN, hopSmpN );
return var_register_and_set(proc,var_label,sfx_id,vid,chIdx,srate, chN, maxBinN_V, binN_V, hopSmpN_V, magV, phsV, hzV);
}
cw::rc_t cw::flow::var_get( const variable_t* var, bool& valRef )
{ return _val_get_driver(var,valRef); }
cw::rc_t cw::flow::var_get( const variable_t* var, uint_t& valRef )
{ return _val_get_driver(var,valRef); }
cw::rc_t cw::flow::var_get( const variable_t* var, int_t& valRef )
{ return _val_get_driver(var,valRef); }
cw::rc_t cw::flow::var_get( const variable_t* var, float& valRef )
{ return _val_get_driver(var,valRef); }
cw::rc_t cw::flow::var_get( const variable_t* var, double& valRef )
{ return _val_get_driver(var,valRef); }
cw::rc_t cw::flow::var_get( const variable_t* var, const char*& valRef )
{ return _val_get_driver(var,valRef); }
cw::rc_t cw::flow::var_get( const variable_t* var, const abuf_t*& valRef )
{ return _val_get_driver(var,valRef); }
cw::rc_t cw::flow::var_get( variable_t* var, abuf_t*& valRef )
{ return _val_get_driver(var,valRef); }
cw::rc_t cw::flow::var_get( const variable_t* var, const fbuf_t*& valRef )
{ return _val_get_driver(var,valRef); }
cw::rc_t cw::flow::var_get( variable_t* var, fbuf_t*& valRef )
{ return _val_get_driver(var,valRef); }
cw::rc_t cw::flow::var_get( const variable_t* var, const mbuf_t*& valRef )
{ return _val_get_driver(var,valRef); }
cw::rc_t cw::flow::var_get( variable_t* var, mbuf_t*& valRef )
{ return _val_get_driver(var,valRef); }
cw::rc_t cw::flow::var_get( const variable_t* var, const object_t*& valRef )
{ return _val_get_driver(var,valRef); }
cw::rc_t cw::flow::cfg_to_value( const object_t* cfg, value_t& value_ref )
{
rc_t rc = kOkRC;
switch( cfg->type->id )
{
case kCharTId:
case kUInt8TId:
case kUInt16TId:
case kUInt32TId:
value_ref.tflag = kUIntTFl;
if((rc = cfg->value(value_ref.u.u)) != kOkRC )
rc = cwLogError(rc,"Conversion to uint failed.");
break;
case kInt8TId:
case kInt16TId:
case kInt32TId:
value_ref.tflag = kIntTFl;
if((rc = cfg->value(value_ref.u.i)) != kOkRC )
rc = cwLogError(rc,"Conversion to int failed.");
break;
case kInt64TId:
case kUInt64TId:
rc = cwLogError(kInvalidArgRC,"The flow system does not currently implement 64bit integers.");
goto errLabel;
break;
case kFloatTId:
value_ref.tflag = kFloatTFl;
if((rc = cfg->value(value_ref.u.f)) != kOkRC )
rc = cwLogError(rc,"Conversion to float failed.");
break;
case kDoubleTId:
value_ref.tflag = kDoubleTFl;
if((rc = cfg->value(value_ref.u.d)) != kOkRC )
rc = cwLogError(rc,"Conversion to double failed.");
break;
case kBoolTId:
value_ref.tflag = kBoolTFl;
if((rc = cfg->value(value_ref.u.b)) != kOkRC )
rc = cwLogError(rc,"Conversion to bool failed.");
break;
case kStringTId:
case kCStringTId:
value_ref.tflag = kStringTFl;
if((rc = cfg->value(value_ref.u.s)) != kOkRC )
rc = cwLogError(rc,"Conversion to string failed.");
break;
default:
value_ref.tflag = kCfgTFl;
value_ref.u.cfg = cfg;
}
errLabel:
return rc;
}
cw::rc_t cw::flow::var_set_from_cfg( variable_t* var, const object_t* cfg_value )
{
rc_t rc = kOkRC;
value_t v;
if((rc = cfg_to_value(cfg_value, v)) != kOkRC )
goto errLabel;
if((rc = var_set(var,&v)) != kOkRC )
goto errLabel;
errLabel:
if( rc != kOkRC )
rc = cwLogError(kSyntaxErrorRC,"The %s:%i.%s:%i could not extract a type:%s from a configuration value.",var->proc->label,var->proc->label_sfx_id,var->label,var->label_sfx_id,_typeFlagToLabel(var->varDesc->type & kTypeMask));
return rc;
}
cw::rc_t cw::flow::var_set( variable_t* var, const value_t* val )
{
rc_t rc = kOkRC;
switch( val->tflag )
{
case kBoolTFl: rc = _var_set_driver(var,val->tflag,val->u.b); break;
case kUIntTFl: rc = _var_set_driver(var,val->tflag,val->u.u); break;
case kIntTFl: rc = _var_set_driver(var,val->tflag,val->u.i); break;
case kFloatTFl: rc = _var_set_driver(var,val->tflag,val->u.f); break;
case kDoubleTFl: rc = _var_set_driver(var,val->tflag,val->u.d); break;
case kStringTFl: rc = _var_set_driver(var,val->tflag,val->u.s); break;
case kCfgTFl: rc = _var_set_driver(var,val->tflag,val->u.cfg); break;
case kABufTFl: rc = _var_set_driver(var,val->tflag,val->u.abuf); break;
case kFBufTFl: rc = _var_set_driver(var,val->tflag,val->u.fbuf); break;
case kMBufTFl: rc = _var_set_driver(var,val->tflag,val->u.mbuf); break;
default:
rc = cwLogError(kNotImplementedRC,"The var_set() from value_t has not been implemented for the type 0x%x.",val->tflag);
}
return rc;
}
cw::rc_t cw::flow::var_set( variable_t* var, bool val ) { return _var_set_driver(var,kBoolTFl,val); }
cw::rc_t cw::flow::var_set( variable_t* var, uint_t val ) { return _var_set_driver(var,kUIntTFl,val); }
cw::rc_t cw::flow::var_set( variable_t* var, int_t val ) { return _var_set_driver(var,kIntTFl,val); }
cw::rc_t cw::flow::var_set( variable_t* var, float val ) { return _var_set_driver(var,kFloatTFl,val); }
cw::rc_t cw::flow::var_set( variable_t* var, double val ) { return _var_set_driver(var,kDoubleTFl,val); }
cw::rc_t cw::flow::var_set( variable_t* var, const char* val ) { return _var_set_driver(var,kStringTFl,val); }
cw::rc_t cw::flow::var_set( variable_t* var, abuf_t* val ) { return _var_set_driver(var,kABufTFl,val); }
cw::rc_t cw::flow::var_set( variable_t* var, fbuf_t* val ) { return _var_set_driver(var,kFBufTFl,val); }
cw::rc_t cw::flow::var_set( variable_t* var, mbuf_t* val ) { return _var_set_driver(var,kMBufTFl,val); }
cw::rc_t cw::flow::var_set( variable_t* var, const object_t* val ) { return _var_set_driver(var,kCfgTFl,val); }
cw::rc_t cw::flow::var_set( proc_t* proc, unsigned vid, unsigned chIdx, const value_t* val )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = var_find(proc, vid, chIdx, var )) == kOkRC )
rc = var_set(var,val);
return rc;
}
cw::rc_t cw::flow::var_set( proc_t* proc, unsigned vid, unsigned chIdx, bool val )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = var_find(proc, vid, chIdx, var )) == kOkRC )
rc = _var_set_driver( var, kBoolTFl, val );
return rc;
}
cw::rc_t cw::flow::var_set( proc_t* proc, unsigned vid, unsigned chIdx, uint_t val )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = var_find(proc, vid, chIdx, var )) == kOkRC )
rc = _var_set_driver( var, kUIntTFl, val );
return rc;
}
cw::rc_t cw::flow::var_set( proc_t* proc, unsigned vid, unsigned chIdx, int_t val )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = var_find(proc, vid, chIdx, var )) == kOkRC )
rc = _var_set_driver( var, kIntTFl, val );
return rc;
}
cw::rc_t cw::flow::var_set( proc_t* proc, unsigned vid, unsigned chIdx, float val )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = var_find(proc, vid, chIdx, var )) == kOkRC )
rc = _var_set_driver( var, kFloatTFl, val );
return rc;
}
cw::rc_t cw::flow::var_set( proc_t* proc, unsigned vid, unsigned chIdx, double val )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = var_find(proc, vid, chIdx, var )) == kOkRC )
rc = _var_set_driver( var, kDoubleTFl, val );
return rc;
}
cw::rc_t cw::flow::var_set( proc_t* proc, unsigned vid, unsigned chIdx, const char* val )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = var_find(proc, vid, chIdx, var )) == kOkRC )
rc = _var_set_driver( var, kStringTFl, val );
return rc;
}
cw::rc_t cw::flow::var_set( proc_t* proc, unsigned vid, unsigned chIdx, abuf_t* val )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = var_find(proc, vid, chIdx, var )) == kOkRC )
rc = _var_set_driver(var,kABufTFl,val);
return rc;
}
cw::rc_t cw::flow::var_set( proc_t* proc, unsigned vid, unsigned chIdx, fbuf_t* val )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = var_find(proc, vid, chIdx, var )) == kOkRC )
rc = _var_set_driver(var,kFBufTFl,val);
return rc;
}
cw::rc_t cw::flow::var_set( proc_t* proc, unsigned vid, unsigned chIdx, mbuf_t* val )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = var_find(proc, vid, chIdx, var )) == kOkRC )
rc = _var_set_driver(var,kMBufTFl,val);
return rc;
}
cw::rc_t cw::flow::var_set( proc_t* proc, unsigned vid, unsigned chIdx, const object_t* val )
{
rc_t rc = kOkRC;
variable_t* var = nullptr;
if((rc = var_find(proc, vid, chIdx, var )) == kOkRC )
rc = _var_set_driver( var, kCfgTFl, val );
return rc;
}