demotool/c-sync.cc

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#include "externals.hh"
#include "common.hh"
#include "c-sync.hh"
#include "c-syncedit.hh"
#include "c-undo.hh"
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#include <ebcl/Files.hh>
#include <ebcl/SRDText.hh>
#include <ebcl/SRDParser.hh>
using ebcl::T_SRDParserConfig;
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/*= SRD parser for the curves ================================================*/
namespace {
using T_ParserOutput_ = T_SyncCurvesIO::T_Data;
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using namespace ebcl;
bool CPEnterCurve_( T_SRDParserData const& data )
{
*( data.targetData ) = T_SyncCurve{ (*data.input)[ 0 ].stringValue( ) };
return true;
}
bool CPExitCurve_( T_SRDParserData const& data )
{
auto& curve( data.currentData->value< T_SyncCurve >( ) );
auto& po( *( data.targetData->value< T_SharedPtr< T_ParserOutput_ > >( ) ) );
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if ( curve.segments.empty( ) ) {
T_StringBuilder sb;
sb << "curve '" << curve.name << "' is empty";
data.errors.add( std::move( sb ) , (*data.input)[ 0 ] );
}
if ( po.curves.curves.contains( curve.name ) ) {
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T_StringBuilder sb;
sb << "duplicate curve '" << curve.name << "'";
data.errors.add( std::move( sb ) , (*data.input)[ 0 ] );
} else {
po.curves.setCurve( std::move( curve ) );
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}
return true;
}
void CPHandleSegment_(
const T_SyncSegment::E_SegmentType type ,
T_SRDList const& lValues ,
T_SRDList const& lDurations ,
T_SRDErrors& errors ,
T_SyncCurve& curve )
{
bool failed = false;
if ( lDurations.size( ) != lValues.size( ) - 1 ) {
errors.add( "values / durations count mismatch" , lValues[ 0 ] );
failed = true;
}
// Check durations
const auto nd( lDurations.size( ) );
for ( auto i = 1u ; i < nd ; i ++ ) {
auto const& tok( lDurations[ i ] );
const uint64_t v( tok.longValue( ) );
if ( v < 1 || v > UINT32_MAX ) {
errors.add( "invalid duration" , tok );
failed = true;
}
}
if ( !failed ) {
T_SyncSegment& segment( curve.segments.addNew( ) );
segment.type = type;
segment.durations.ensureCapacity( nd - 1 );
for ( auto i = 1u ; i < nd ; i ++ ) {
auto const& tok( lDurations[ i ] );
segment.durations.add( uint32_t( tok.longValue( ) ) );
}
segment.values.ensureCapacity( nd );
for ( auto i = 1u ; i <= nd ; i ++ ) {
auto const& tok( lValues[ i ] );
segment.values.add( tok.floatValue( ) );
}
}
}
bool CPSegmentVD_( T_SRDParserData const& data )
{
auto const& input( *data.input );
const auto ev( data.config.enumValue( "segment-type" , input[ 1 ].stringValue( ) ) );
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assert( ev );
CPHandleSegment_( (T_SyncSegment::E_SegmentType) *ev ,
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input[ 2 ].list( ) , input[ 3 ].list( ) ,
data.errors , data.targetData->value< T_SyncCurve >( ) );
return true;
}
bool CPSegmentDV_( T_SRDParserData const& data )
{
auto const& input( *data.input );
const auto ev( data.config.enumValue( "segment-type" , input[ 1 ].stringValue( ) ) );
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assert( ev );
CPHandleSegment_( (T_SyncSegment::E_SegmentType) *ev ,
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input[ 3 ].list( ) , input[ 2 ].list( ) ,
data.errors , data.targetData->value< T_SyncCurve >( ) );
return true;
}
bool CPSetDuration_( T_SRDParserData const& data )
{
auto const& input( *data.input );
auto& po( *( data.currentData->value< T_SharedPtr< T_ParserOutput_ > >( ) ) );
if ( po.time ) {
T_StringBuilder eb;
eb << "duplicate duration specification; previous: "
<< po.tLocation;
data.errors.add( std::move( eb ) , input[ 0 ].location( ) );
} else {
po.time = T_SyncTime( );
po.time->uDuration = std::min( 2. , std::max( 1. / 60. , input[ 1 ].floatValue( ) ) );
po.time->iDuration = std::max( 1l , input[ 2 ].longValue( ) );
}
return true;
}
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T_SRDParserConfig MakeCurvesParser_( )
{
using namespace ebcl::SRD;
T_SRDParserDefs defs( "default" );
defs << OnStart( []( T_SRDParserData const& data ) -> bool {
*( data.currentData ) = NewShared< T_ParserOutput_ >( );
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return true;
} );
defs.enumeration( "segment-type" )
<< "linear" << "ramp" << "smooth";
defs.context( "default" )
<< ( Rule( ) << Text( ) << EnterContext( "segments" )
<< OnEnter( CPEnterCurve_ ) << OnExit( CPExitCurve_ ) )
<< ( Rule( ) << "duration" << Float( ) << Int32( )
<< CPSetDuration_ );
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defs.context( "segments" )
<< ( Rule( ) << "segment" << Enum( "segment-type" )
<< ( List( ) << "values" << ( AtLeast( 2 ) << Numeric( ) ) )
<< ( List( ) << "durations" << ( AtLeast( 1 ) << Integer( ) ) )
<< CPSegmentVD_ )
<< ( Rule( ) << "segment" << Enum( "segment-type" )
<< ( List( ) << "durations" << ( AtLeast( 1 ) << Integer( ) ) )
<< ( List( ) << "values" << ( AtLeast( 2 ) << Numeric( ) ) )
<< CPSegmentDV_ );
return defs;
}
}
/*= T_SyncTime ===============================================================*/
void T_SyncTime::setDuration(
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const float uDuration ,
const uint32_t iDuration )
{
this->uDuration = std::max( 1e-3f , uDuration );
this->iDuration = std::max( 1u , iDuration );
time = std::min( time , duration( ) );
}
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/*= T_SyncSegment ============================================================*/
uint32_t T_SyncSegment::findTimeOfPoint(
const uint32_t index ) const noexcept
{
assert( index <= durations.size( ) );
uint32_t t{ 0 };
for ( auto i = 0u ; i < index ; i ++ ) {
t += durations[ i ];
}
return t;
}
float T_SyncSegment::computeValue(
const float relTimeUnits ) const noexcept
{
uint32_t part{ 0 } , begin{ 0 } , end{ durations[ 0 ] };
while ( end < relTimeUnits ) {
part ++;
begin = end;
end += durations[ part ];
}
const float v0{ ( relTimeUnits - begin ) / ( end - begin ) };
float v = v0;
if ( type != T_SyncSegment::LINEAR ) {
v *= v0;
if ( type == T_SyncSegment::SMOOTH ) {
v *= 3 - 2 * v0;
}
}
const float sv{ values[ part ] };
return v * ( values[ part + 1 ] - sv ) + sv;
}
T_Optional< float > T_SyncSegment::isConstant( ) const noexcept
{
const float f{ values[ 0 ] };
for ( auto v : values ) {
if ( f != v ) {
return {};
}
}
return f;
}
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M_LSHIFT_OP( T_StringBuilder , T_SyncSegment::E_SegmentType )
{
switch ( value ) {
case T_SyncSegment::LINEAR:
obj << "linear";
break;
case T_SyncSegment::RAMP:
obj << "ramp";
break;
case T_SyncSegment::SMOOTH:
obj << "smooth";
break;
}
return obj;
}
/*= T_SyncCurve ==============================================================*/
float T_SyncCurve::computeValue(
const float timeUnits ) const noexcept
{
assert( timeUnits >= 0 );
uint32_t segStart{ 0 } , prevSegStart{ 0 };
auto it{ segments.begin( ) };
while ( segStart < timeUnits && it != segments.end( ) ) {
prevSegStart = segStart;
for ( auto d : it->durations ) {
segStart += d;
}
++ it;
}
-- it;
if ( segStart < timeUnits ) {
return it->values.last( );
}
return it->computeValue( timeUnits - prevSegStart );
}
E_SyncCurveMatch T_SyncCurve::matches(
T_SyncCurve const& other ) const noexcept
{
const auto tSegs{ this->segments.size( ) };
const auto oSegs{ other.segments.size( ) };
const auto nSegs{ std::min( tSegs , oSegs ) };
for ( auto i = 0u ; i < nSegs ; i ++ ) {
auto const& tDur{ this->segments[ i ].durations };
auto const& oDur{ other.segments[ i ].durations };
const bool lastSeg{ i == nSegs - 1 };
if ( !lastSeg && tDur.size( ) != oDur.size( ) ) {
return E_SyncCurveMatch::MISMATCH;
}
const auto nd{ std::min( tDur.size( ) , oDur.size( ) ) };
for ( auto j = 0u ; j < nd ; j ++ ) {
if ( tDur[ j ] != oDur[ j ] ) {
return E_SyncCurveMatch::MISMATCH;
}
}
if ( tDur.size( ) != oDur.size( ) ) {
return tDur.size( ) < oDur.size( )
? E_SyncCurveMatch::LASTSEG_SHORT
: E_SyncCurveMatch::LASTSEG_LONG;
}
}
if ( tSegs == oSegs ) {
return E_SyncCurveMatch::IDENTICAL;
}
return tSegs < oSegs
? E_SyncCurveMatch::MATCHING_SHORT
: E_SyncCurveMatch::MATCHING_LONG;
}
uint32_t T_SyncCurve::points( ) const noexcept
{
uint32_t np{ 1 };
for ( auto const& s : segments ) {
np += s.durations.size( );
}
return np;
}
T_Optional< float > T_SyncCurve::isConstant( ) const noexcept
{
T_Optional< float > v;
for ( auto const& s : segments ) {
v = s.isConstant( );
if ( !v ) {
break;
}
}
return v;
}
/*= T_SyncCurves =============================================================*/
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int32_t T_SyncCurves::indexOf(
T_String const& name ) noexcept
{
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const auto idx( curves.indexOf( name ) );
return idx == ebcl::T_HashIndex::INVALID_INDEX ? -1 : int32_t( idx );
}
/*= T_SyncCurvesIO ===========================================================*/
namespace {
struct T_SCIOImpl_
{
T_SCIOImpl_( ) noexcept;
T_SyncCurvesIO::T_Data load( T_String const& path ) const;
T_SRDParserConfig pConfig;
};
/*----------------------------------------------------------------------------*/
inline T_SCIOImpl_::T_SCIOImpl_( ) noexcept
: pConfig{ MakeCurvesParser_( ) }
{ }
inline T_SyncCurvesIO::T_Data T_SCIOImpl_::load(
T_String const& path ) const
{
T_File file( path , E_FileMode::READ_ONLY );
file.open( );
T_FileInputStream fis( file );
T_SRDParser parser( pConfig );
T_SRDTextReader reader( parser );
reader.read( path , fis );
return std::move( *parser.getData< T_SharedPtr< T_ParserOutput_ > >( ) );
}
/*----------------------------------------------------------------------------*/
} // namespace <anon>
T_SyncCurvesIO::T_SyncCurvesIO( ) noexcept
: A_PrivateImplementation( new T_SCIOImpl_( ) )
{ }
T_SyncCurvesIO::T_Data T_SyncCurvesIO::load(
T_String const& path ) const
{
return p< T_SCIOImpl_ >( ).load( path );
}
void T_SyncCurvesIO::save( T_String const& path ,
T_SyncCurves const& curves ,
T_SyncTime const& time ) const
{
T_StringBuilder sb;
sb << "(duration " << time.uDuration << ' ' << time.iDuration
<< ")\n";
for ( auto const& curve : curves.curves.values( ) ) {
sb << "\n(" << curve.name << '\n';
for ( auto const& s : curve.segments ) {
sb << "\t(segment " << s.type << "\n\t\t(values";
for ( auto v : s.values ) {
sb << ' ' << v;
}
sb << ")\n\t\t(durations";
for ( auto d : s.durations ) {
sb << ' ' << d;
}
sb << ")\n\t)\n";
}
sb << ")\n";
}
T_File{ path , E_FileMode::OVERWRITE }.write( sb.data( ) , sb.size( ) );
}
/*= T_SyncCurveCache =========================================================*/
T_SyncCurveCache::T_SyncCurveCache(
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T_SyncTime const& time ,
T_SyncCurves const& curves ,
const uint32_t curve ) noexcept
: curve( curve ) , curPos( 0 )
{
auto const& c( curves.curves[ curve ] );
const auto ns( c.segments.size( ) );
assert( ns > 0 );
uint32_t s = 0;
for ( auto i = 0u ; i < ns ; i ++ ) {
auto const& v( c.segments[ i ] );
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assert( v.durations.size( ) == v.values.size( ) - 1 );
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const auto nd( v.durations.size( ) );
for ( auto j = 0u ; j < nd ; j ++ ) {
const auto sStart( s * time.uDuration );
if ( time.time >= sStart ) {
curPos = segStarts.size( );
}
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segStarts.add( sStart );
segRefs.add( std::make_pair( i , j ) );
s += v.durations[ j ];
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segEnds.add( std::min( s , time.iDuration ) * time.uDuration );
if ( s > time.iDuration ) {
return;
}
}
}
}
/*----------------------------------------------------------------------------*/
uint32_t T_SyncCurveCache::findSegment(
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const float time ) const noexcept
{
const auto ns( segStarts.size( ) );
for ( auto i = 0u ; i < ns ; i ++ ) {
if ( segStarts[ i ] <= time && segEnds[ i ] > time ) {
return i;
}
}
return ns;
}
/*----------------------------------------------------------------------------*/
float T_SyncCurveCache::valueAt(
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T_SyncTime const& time ,
T_SyncCurves const& curves ,
const float position ) const noexcept
{
return segmentValue( time.time , findSegment( position ) ,
curves.curves[ curve ].segments );
}
float T_SyncCurveCache::value(
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T_SyncTime const& time ,
T_SyncCurves const& curves ) noexcept
{
const auto t( time.time );
// Check / update curPos
const float ss0( curPos == segStarts.size( )
? time.duration( )
: segStarts[ curPos ] );
if ( ss0 > t ) {
curPos = findSegment( t );
} else {
while ( curPos < segStarts.size( ) && t >= segEnds[ curPos ] ) {
curPos ++;
}
}
// We got the actual index in curPos, now compute the value.
return segmentValue( t , curPos , curves.curves[ curve ].segments );
}
/*----------------------------------------------------------------------------*/
float T_SyncCurveCache::segmentValue(
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float time ,
uint32_t segIndex ,
T_Array< T_SyncSegment > const& segments ) const noexcept
{
const auto sss( segStarts.size( ) );
if ( segIndex >= sss ) {
assert( sss != 0 );
segIndex = sss - 1;
time = segEnds[ segIndex ];
}
auto const& idxp( segRefs[ segIndex ] );
auto const& seg( segments[ idxp.first ] );
// Interpolation factor
const float st( segStarts[ segIndex ] );
const float et( segEnds[ segIndex ] );
const float v0 = ( time - st ) / ( et - st );
float v = v0;
if ( seg.type != T_SyncSegment::LINEAR ) {
v *= v0;
if ( seg.type == T_SyncSegment::SMOOTH ) {
v *= 3 - 2 * v0;
}
}
const auto pid( idxp.second );
const float sv( seg.values[ pid ] );
const float ev( seg.values[ pid + 1 ] );
#if 0
printf( "[%.2f] gidx %d - seg %d idx %d - %f\n" , time , segIndex ,
idxp.first , idxp.second , v * ( ev - sv ) + sv );
#endif
return v * ( ev - sv ) + sv;
}
/*= T_SyncValues =============================================================*/
T_SyncValues::T_SyncValues( )
{
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values.add( 0 );
}
// ---------------------------------------------------------------------
void T_SyncValues::clear( )
{
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index.clear( );
identifiers.clear( );
values.clear( );
overriden.clear( );
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values.add( 0 );
}
bool T_SyncValues::addValue(
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T_String const& name ,
const float initial ) noexcept
{
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const uint32_t hash{ ComputeHash( name ) };
uint32_t existing{ index.first( hash ) };
while ( existing != T_HashIndex::INVALID_INDEX ) {
if ( name == identifiers[ existing ] ) {
return false;
}
existing = index.next( existing );
}
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const auto li( values.size( ) );
index.add( hash );
identifiers.add( name );
values.add( initial );
std::swap( values[ li ] , values[ li - 1 ] );
overriden.add( false );
return true;
}
uint32_t T_SyncValues::indexOf(
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T_String const& name ) const noexcept
{
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const uint32_t hash{ ComputeHash( name ) };
uint32_t existing{ index.first( hash ) };
while ( existing != T_HashIndex::INVALID_INDEX ) {
if ( name == identifiers[ existing ] ) {
return existing;
}
existing = index.next( existing );
}
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return values.size( ) - 1;
}
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/*= A_SyncOverride ===========================================================*/
A_SyncOverride::A_SyncOverride(
char const* const type ,
T_String const& title ) noexcept
: type_( T_String::Pooled( type ) ) , title_( title.size( ) + 1 )
{
char const* src( title.data( ) );
for ( auto i = 0u ; i < title_.size( ) - 1 ; i ++ ) {
title_[ i ] = src[ i ];
}
title_[ title_.size( ) - 1 ] = 0;
}
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A_SyncOverride::~A_SyncOverride( ) { }
void A_SyncOverride::setup( ) noexcept
{
const auto ni( inputs_.size( ) );
assert( ni != 0 );
assert( inputPos_.size( ) == 0 );
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T_StringBuilder sb;
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inputPos_.ensureCapacity( ni );
for ( auto i = 0u ; i < ni ; i ++ ) {
// FIXME: insufficient; the manager should be made aware of
// the presence of an override for that value (and it should
// fail for missing values).
inputPos_.add( Common::Sync( ).inputPos( inputs_[ i ] ) );
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if ( sb.size( ) ) {
sb << ';';
}
sb << inputs_[ i ];
}
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id_ = std::move( sb );
}
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/*= T_SyncOverrideSection ====================================================*/
T_SyncOverrideSection::T_SyncOverrideSection(
T_String title ) noexcept
: title( std::move( title ) ) ,
cTitle( this->title.toOSString( ) )
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{ }
void T_SyncOverrideSection::merge(
T_SyncOverrideSection& other ) noexcept
{
for ( auto& os : other.subsections ) {
section( os->title ).merge( *os );
}
for ( auto& ov : other.overrides ) {
overrides.add( ov->clone( ) );
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}
}
T_SyncOverrideSection& T_SyncOverrideSection::section(
T_String const& name ) noexcept
{
for ( auto& ov : subsections ) {
if ( ov->title == name ) {
return *ov;
}
}
return *subsections[ subsections.add(
NewOwned< T_SyncOverrideSection >( name ) ) ];
}
T_SyncOverrideSection const* T_SyncOverrideSection::section(
T_String const& name ) const noexcept
{
for ( auto& ov : subsections ) {
if ( ov->title == name ) {
return ov.get( );
}
}
return nullptr;
}
/*= T_SyncOverrideVisitor ====================================================*/
T_SyncOverrideVisitor::T_OpElement T_SyncOverrideVisitor::nodeBrowser(
const T_Element element ,
const uint32_t child )
{
if ( element.hasType< A_SyncOverride* >( ) ) {
return {};
}
auto& section( *element.value< T_SyncOverrideSection* >( ) );
const auto nss( section.subsections.size( ) );
if ( child < nss ) {
return T_OpElement{ section.subsections[ child ].get( ) };
}
if ( child - nss < section.overrides.size( ) ) {
return T_OpElement{ section.overrides[ child - nss ].get( ) };
}
return {};
}
/*= T_SyncManager ============================================================*/
T_SyncManager::T_SyncManager( ) noexcept
: io_{ } , watcher_{ Common::Watcher( ) , [this](){ curvesChanged_( ); } } ,
soRoot_( "*root*" )
{
auto& p{ Common::Project( ) };
p.addListener( this );
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curvesFile_ = p.strPathOf( "curves.srd" );
watcher_.watch( curvesFile_ );
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loadCurves( false );
}
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T_SyncManager::~T_SyncManager( )
{
Common::Project( ).removeListener( this );
}
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/*----------------------------------------------------------------------------*/
void T_SyncManager::setDuration(
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const float uDuration ,
const uint32_t iDuration )
{
time_.setDuration( uDuration , iDuration );
updateCurveCaches( );
}
void T_SyncManager::setTime(
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const float time )
{
time_.setTime( time );
updateValues( );
playing_ = playing_ && !finished( );
}
/*----------------------------------------------------------------------------*/
void T_SyncManager::clearInputs( ) noexcept
{
clearOverrides( );
values_.clear( );
}
/*----------------------------------------------------------------------------*/
void T_SyncManager::clearCurves( )
{
curves_.clear( );
updateCurveCaches( );
modified_ = true;
}
void T_SyncManager::setCurve(
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T_SyncCurve curve )
{
curves_.setCurve( curve );
updateCurveCaches( );
modified_ = true;
}
void T_SyncManager::removeCurve(
T_String const& curve ) noexcept
{
if ( curves_.removeCurve( curve ) ) {
updateCurveCaches( );
modified_ = true;
}
}
T_SyncCurve const* T_SyncManager::getCurve(
T_String const& name ) const noexcept
{
return curves_.curves.get( name );
}
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void T_SyncManager::curvesChanged_( )
{
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if ( saving_ ) {
saving_ = false;
return;
}
if ( modified_ ) {
fileChanged_ = true;
} else {
loadCurves( );
}
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}
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bool T_SyncManager::loadCurves(
const bool undoable )
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{
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printf( "Loading curves data\n" );
T_ParserOutput_ p;
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try {
p = io_.load( curvesFile_ );
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} catch ( ebcl::X_StreamError const& e ) {
printf( "... ERR %s\n" , e.what( ) );
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return false;
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} catch ( ebcl::X_SRDErrors const& e ) {
T_StringBuilder sb;
auto const ne( e.errors.size( ) );
for ( auto i = 0u ; i < ne ; i ++ ) {
auto const& err( e.errors[ i ] );
sb << "... ERR " << err.location( ) << ": " << err.error( ) << '\n';
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}
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sb << '\0';
printf( "%s" , sb.data( ) );
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return false;
}
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printf( "... success\n" );
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if ( undoable ) {
addReloadUndoData_( p );
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}
curves_ = std::move( p.curves );
if ( p.time ) {
time_.iDuration = p.time->iDuration;
time_.uDuration = p.time->uDuration;
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} else {
time_.iDuration = 3600;
time_.uDuration = 1.f / 60.f;
}
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updateCurveCaches( );
modified_ = fileChanged_ = false;
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return true;
}
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bool T_SyncManager::saveCurves( )
{
saving_ = true;
printf( "Saving curves...\n" );
try {
io_.save( curvesFile_ , curves_ , time_ );
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} catch ( ebcl::X_StreamError const& e ) {
printf( "... ERR %s\n" , e.what( ) );
return false;
}
printf( "... OK\n" );
fileChanged_ = modified_ = false;
return true;
}
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void T_SyncManager::addReloadUndoData_(
T_SyncCurvesIO::T_Data const& data ) const noexcept
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{
auto& undo{ Common::Undo( ).add< T_UndoDurationChanges >(
data.time ? data.time->iDuration : 3600 ,
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time_.iDuration ,
data.time ? data.time->uDuration : ( 1.f / 60.f ) ,
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time_.uDuration ) };
auto& nCurves{ data.curves.curves };
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for ( auto const& curve : curves_.curves.values( ) ) {
auto const* const nc{ nCurves.get( curve.name ) };
if ( nc ) {
undo.curveReplacement( curve , *nc );
} else {
undo.curveDeletion( curve );
}
}
for ( auto const& nc : nCurves.values( ) ) {
if ( !curves_.curves.contains( nc.name ) ) {
undo.curveCreation( nc );
}
}
}
/*----------------------------------------------------------------------------*/
void T_SyncManager::updateCurveCaches( )
{
curveCaches_.clear( );
const uint32_t nv( values_.identifiers.size( ) );
for ( auto i = 0u ; i < nv ; i ++ ) {
auto const& id( values_.identifiers[ i ] );
const auto cp( curves_.indexOf( id ) );
if ( cp < 0 ) {
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curveCaches_.addNew( );
} else {
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curveCaches_.add( NewOwned< T_SyncCurveCache >(
time_ , curves_ , cp
) );
}
}
updateValues( );
}
void T_SyncManager::updateValues( )
{
const auto nv( values_.identifiers.size( ) );
assert( nv == curveCaches_.size( ) );
for ( auto i = 0u ; i < nv ; i ++ ) {
auto const& cc( curveCaches_[ i ] );
if ( !cc || values_.overriden[ i ] ) {
continue;
}
values_.values[ i ] = cc->value( time_ , curves_ );
}
}
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/*----------------------------------------------------------------------------*/
void T_SyncManager::clearOverrides( ) noexcept
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{
soRoot_.subsections.clear( );
soRoot_.overrides.clear( );
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soTable_.clear( );
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}
void T_SyncManager::mergeOverrides(
T_SyncOverrideSection& overrides )
{
assert( overrides.overrides.empty( ) );
soRoot_.merge( overrides );
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T_StringBuilder sb;
T_AutoArray< uint32_t , 16 > sbParts;
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soVisitor_.visitor.visit( &soRoot_ ,
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[&]( T_SyncOverrideVisitor::T_Element node , bool exit ) -> bool {
if ( node.hasType< T_SyncOverrideSection* >( ) ) {
T_SyncOverrideSection const& sos{
*node.value< T_SyncOverrideSection* >( )
};
if ( sos.title == "*root*" ) {
return true;
}
if ( exit ) {
sb.truncate( sbParts.last( ) );
sbParts.removeLast( );
} else {
sbParts.add( sb.length( ) );
sb << sos.title << " \u00bb ";
}
return true;
}
if ( exit ) {
return true;
}
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auto& ovr( *node.value< A_SyncOverride* >( ) );
ovr.setup( );
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soTable_.add( ovr.id( ) , &ovr );
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const uint32_t sblen{ sb.length( ) };
sb << ovr.title( );
ovr.fullTitle( sb );
sb.truncate( sblen );
return false;
}
);
}
bool T_SyncManager::overrideExists(
T_String const& id ) const noexcept
{
return soTable_.contains( id );
}
A_SyncOverride* T_SyncManager::getOverride(
T_String const& id ) const noexcept
{
const auto rv{ soTable_.get( id ) };
return rv ? *rv : nullptr;
}
void T_SyncManager::setOverridesActive(
const bool active ,
const uint32_t n ,
uint32_t const* const pos )
{
for ( auto i = 0u ; i < n ; i ++ ) {
assert( values_.overriden[ pos[ i ] ] != active );
values_.overriden[ pos[ i ] ] = active;
}
if ( !active ) {
for ( auto i = 0u ; i < n ; i ++ ) {
const auto p{ pos[ i ] };
auto const& cc( curveCaches_[ p ] );
if ( cc ) {
values_.values[ p ] = cc->value( time_ , curves_ );
}
}
}
}
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void T_SyncManager::visitOverrides(
T_SyncOverrideVisitor::F_NodeAction visitor )
{
soVisitor_.visitor.visit( &soRoot_ , visitor );
}
/*----------------------------------------------------------------------------*/
void T_SyncManager::projectPathChanged( ) noexcept
{
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curvesFile_ = Common::Project( ).strPathOf( "curves.srd" );
watcher_.clear( );
watcher_.watch( curvesFile_ );
loadCurves( false );
}