#pragma once #include "filewatcher.hh" #include "utilities.hh" // Duration and current playing time struct T_SyncTime { float uDuration = 1.f / 60.f; // Duration - unit size uint32_t iDuration = 3600; // Duration - total units float time = 0; void setDuration( const float uDuration , const uint32_t iDuration ); float duration( ) const noexcept { return uDuration * iDuration; } void setTime( const float t ) noexcept { time = std::max( 0.f , std::min( t , duration( ) ) ); } }; /*============================================================================*/ // Segment of an input's curve struct T_SyncSegment { enum E_SegmentType { LINEAR , RAMP , SMOOTH , //HERMITE }; uint32_t nPoints; E_SegmentType type; T_Array< float > values; // nPoints items T_Array< uint32_t > durations; // nPoints - 1 items }; // An input curve struct T_SyncCurve { T_String name; T_Array< T_SyncSegment > segments; T_SyncCurve( ) noexcept { } T_SyncCurve( T_String const& name ) noexcept : name( name ) { } T_SyncCurve( char const* name ) noexcept : name( T_String( name ).usePool( ) ) { } }; // All configured curves. Some may not actually correspond to an input and may // have been defined for inputs that have been removed temporarily (e.g. // because some include was commented out), in which case we don't want to // waste them. struct T_SyncCurves { T_ObjectTable< T_String , T_SyncCurve > curves; T_SyncCurves( ) : curves( []( T_SyncCurve const& c ) -> T_String { return c.name; } ) { } void clear( ); // Returns true on success, false on duplicate void setCurve( T_SyncCurve curve ); // Returns -1 on lookup failure int32_t indexOf( T_String const& name ) noexcept; int32_t indexOf( char const* name ) noexcept { return indexOf( T_String( name ) ); } }; /*----------------------------------------------------------------------------*/ // Pre-computed data for a curve struct T_SyncCurveCache { using T_SegRef = std::pair< uint32_t , uint32_t >; uint32_t curve; T_Array< T_SegRef > segRefs; T_Array< float > segStarts; T_Array< float > segEnds; uint32_t curPos; T_SyncCurveCache( T_SyncTime const& time , T_SyncCurves const& curves , const uint32_t curve ) noexcept; // Find the index of the segment for the specified time uint32_t findSegment( const float time ) const noexcept; // Compute the value of the curve at the specified location, ignoring // curPos. float valueAt( T_SyncTime const& time , T_SyncCurves const& curves , const float position ) const noexcept; // Compute the value of the curve at the current time, using and // updating curPos as necessary. float value( T_SyncTime const& time , T_SyncCurves const& curves ) noexcept; float segmentValue( float time , uint32_t segIndex , T_Array< T_SyncSegment > const& segments ) const noexcept; }; using P_SyncCurveCache = T_OwnPtr< T_SyncCurveCache >; /*============================================================================*/ // Synchronization values. The values vector always contains an extra entry // used for missing inputs. struct T_SyncValues { T_HashIndex index; T_Array< T_String > identifiers; T_Array< float > values; T_Array< bool > overriden; T_SyncValues( ); void clear( ); // Returns true on success, false on duplicate bool addValue( T_String const& name , const float initial = 0.f ) noexcept; bool addValue( char const* name , const float initial = 0.f ) noexcept { return addValue( T_String( name ) , initial ); } // If the name isn't found, the last entry of values[] is returned uint32_t indexOf( T_String const& name ) const noexcept; }; /*============================================================================*/ // Synchronisation manager; handles all the synchronization data and makes it // work together. struct T_SyncManager { // --------------------------------------------------------------------- // Duration & time controls void setDuration( const float uDuration , const uint32_t iDuration ); float duration( ) const noexcept { return time_.duration( ); } void setTime( const float time ); void timeDelta( const float delta ) { setTime( time_.time + delta ); } float time( ) const noexcept { return time_.time; } bool finished( ) const noexcept { return time_.time >= time_.duration( ); } // --------------------------------------------------------------------- // Value access void clearInputs( ) { values_.clear( ); } bool addInput( std::string const& name , const float initial = 0.f ) noexcept { return values_.addValue( name.c_str( ) , initial ); } uint32_t inputPos( T_String const& name ) const noexcept { return values_.indexOf( name ); } T_Array< float > const& inputs( ) const noexcept { return values_.values; } // --------------------------------------------------------------------- // Curves void checkCurveFile( ); void clearCurves( ); void setCurve( T_SyncCurve curve ); private: void curvesChanged_( ); bool loadCurves_( bool& missing ); bool loadCurvesData_( T_SyncCurves& curves , picojson::value const& root ); bool loadSegmentData_( T_SyncSegment& segment , std::string const& curve , T_JSONObject const& sd ); // --------------------------------------------------------------------- // Update public: void updateCurveCaches( ); void updateValues( ); private: P_WatchedFiles watcher_; T_SyncTime time_; T_SyncValues values_; T_SyncCurves curves_; T_Array< P_SyncCurveCache > curveCaches_; }; /*============================================================================*/ // DISREGARD EVERYTHING BELOW, IT SUCKS! /*============================================================================*/ #if 0 // Definition of a single input - id & range struct T_SyncInputDfn { std::string identifier; float min = -std::numeric_limits< float >::infinity( ), max = std::numeric_limits< float >::infinity( ); T_SyncInputDfn( std::string const& identifier , const float min , const float max ) noexcept : identifier( identifier ) , min( min ) , max( max ) { } }; using P_SyncInputDfn = std::unique_ptr< T_SyncInputDfn >; /*============================================================================*/ // Definition of UI overrides for inputs struct T_SyncUIOverride { enum E_Type { FLOAT , VEC2 , VEC3 , VEC4 , INT , COLOR , COLOR_GRADING , CAMERA }; std::string title; E_Type type; std::vector< std::string > inputs; bool enabled; }; using P_SyncUIOverride = std::unique_ptr< T_SyncUIOverride >; using T_SyncUIOverrides = std::vector< P_SyncUIOverride >; // UI override sections struct T_SyncUISection; using P_SyncUISection = std::unique_ptr< T_SyncUISection >; using T_SyncUISections = std::vector< P_SyncUISection >; struct T_SyncUISection { std::string title; T_SyncUISections subsections; T_SyncUIOverrides overrides; }; /*============================================================================*/ struct T_SyncManager { float uDuration; // Duration - unit size uint32_t iDuration; // Duration - total units float duration( ) const noexcept { return uDuration * iDuration; } // Sync manager data for an input may include a definition, a curve, // or both. The idea behind supporting "curve only" is that a curve may // have been defined for an input that has been removed temporarily // (e.g. because some include was commented out), in which case we don't // want to waste it. struct T_Data { P_SyncInputDfn definition; P_SyncCurveCache curve; bool overriden; }; // Data and ID<->index map std::vector< T_Data > data; std::map< std::string , uint32_t > posMap; // Current time & values float time; std::vector< float > values; // Root of the UI's tree T_SyncUISections uiRoot; void makeUI( ); bool wOverrides = false; bool wCurves = false; private: void displayOvSections( T_SyncUISections& sections , const bool topLevel = false ); void displayOvControls( T_SyncUIOverrides& overrides ); }; #endif