#pragma once #ifndef REAL_BUILD # include "externals.hh" #endif // 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( __rd__ std::string const& identifier , __rd__ const float min , __rd__ 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; }; /*============================================================================*/ // Segment of an input's curve struct T_SyncSegment { enum E_SegmentType { LINEAR , RAMP , SMOOTH , //HERMITE }; uint32_t nPoints; E_SegmentType type; std::vector< float > values; // nPoints items std::vector< uint32_t > durations; // nPoints - 1 items }; // An input curve struct T_SyncCurve { std::string name; std::vector< T_SyncSegment > segments; }; // Pre-computed data for a curve struct T_SyncCurveCache { using T_SegRef = std::pair< uint32_t , uint32_t >; T_SyncCurve const* variable; std::vector< T_SegRef > segRefs; std::vector< float > segStarts; uint32_t curPos; T_SyncCurveCache( __rd__ T_SyncCurve const* const variable , __rd__ const uint32_t duration , __rd__ const uint32_t position ) noexcept; float valueAt( __rd__ const float position , __rd__ const float units ) const noexcept; }; using P_SyncCurveCache = std::unique_ptr< T_SyncCurveCache >; /*============================================================================*/ 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( __rw__ T_SyncUISections& sections , __rd__ const bool topLevel = false ); void displayOvControls( __rw__ T_SyncUIOverrides& overrides ); }; /*============================================================================*/ using T_SyncVariable = std::vector< T_SyncSegment >; struct T_SyncData { T_SyncData( ); T_SyncData( __rd__ const uint32_t duration , __rd__ const float units ) noexcept; float duration( ) const noexcept { return duration_ * units_; } void setSyncVariable( __rd__ std::string const& name , __rw__ T_SyncVariable&& variable ) noexcept; T_SyncVariable const& variable( __rd__ std::string const& name ) const noexcept; uint32_t offsetOf( __rd__ std::string const& name ) const noexcept; float valueOf( __rd__ std::string const& variable , __rd__ const float time ) const noexcept; void computeValues( __rd__ const float time , __wr__ std::vector< float >& values ) const noexcept; private: static const T_SyncVariable MissingVariable_; // Caching structure used to access segments using T_SegRef_ = std::pair< uint32_t , uint32_t >; struct T_VarHelper_ { T_SyncVariable variable; std::vector< T_SegRef_ > segRefs; std::vector< float > segStarts; uint32_t position; T_VarHelper_( __rw__ T_SyncVariable&& variable , __rd__ const uint32_t duration , __rd__ const uint32_t position ) noexcept; float valueAt( __rd__ const float position , __rd__ const float units ) const noexcept; }; uint32_t duration_; float units_; std::unordered_map< std::string , T_VarHelper_ > variables_; };