// @(#)root/eve:$Id$ // Authors: Matevz Tadel & Alja Mrak-Tadel: 2006, 2007 /************************************************************************* * Copyright (C) 1995-2007, Rene Brun and Fons Rademakers. * * All rights reserved. * * * * For the licensing terms see $ROOTSYS/LICENSE. * * For the list of contributors see $ROOTSYS/README/CREDITS. * *************************************************************************/ #ifndef ROOT_TEveUtil #define ROOT_TEveUtil #include "TObject.h" #include "TString.h" #include "TError.h" #include "GuiTypes.h" #include #include #include class TVirtualPad; class TGeoManager; class TEveElement; /******************************************************************************/ // TEveUtil /******************************************************************************/ class TEveUtil { private: static TObjArray* fgDefaultColors; public: virtual ~TEveUtil() {} // Environment, Macro functions static void SetupEnvironment(); static void SetupGUI(); static Bool_t CheckMacro(const char* mac); static void AssertMacro(const char* mac); static void Macro(const char* mac); static void LoadMacro(const char* mac); // Color management static void ColorFromIdx(Color_t ci, UChar_t col[4], Bool_t alpha=kTRUE); static void ColorFromIdx(Color_t ci, UChar_t col[4], Char_t transparency); static void ColorFromIdx(Float_t f1, Color_t c1, Float_t f2, Color_t c2, UChar_t col[4], Bool_t alpha=kTRUE); static Color_t* FindColorVar(TObject* obj, const char* varname); static void SetColorBrightness(Float_t value, Bool_t full_redraw=kFALSE); // Math utilities static Bool_t IsU1IntervalContainedByMinMax (Float_t minM, Float_t maxM, Float_t minQ, Float_t maxQ); static Bool_t IsU1IntervalOverlappingByMinMax(Float_t minM, Float_t maxM, Float_t minQ, Float_t maxQ); static Bool_t IsU1IntervalContainedByMeanDelta (Float_t meanM, Float_t deltaM, Float_t meanQ, Float_t deltaQ); static Bool_t IsU1IntervalOverlappingByMeanDelta(Float_t meanM, Float_t deltaM, Float_t meanQ, Float_t deltaQ); static Float_t GetFraction(Float_t minM, Float_t maxM, Float_t minQ, Float_t maxQ); ClassDef(TEveUtil, 0); // Standard utility functions for Reve. }; inline Bool_t TEveUtil::IsU1IntervalContainedByMeanDelta(Float_t meanM, Float_t deltaM, Float_t meanQ, Float_t deltaQ) { return IsU1IntervalContainedByMinMax(meanM - deltaM, meanM + deltaM, meanQ - deltaQ, meanQ + deltaQ); } inline Bool_t TEveUtil::IsU1IntervalOverlappingByMeanDelta(Float_t meanM, Float_t deltaM, Float_t meanQ, Float_t deltaQ) { return IsU1IntervalContainedByMinMax(meanM - deltaM, meanM + deltaM, meanQ - deltaQ, meanQ + deltaQ); } /******************************************************************************/ // Exceptions, string functions /******************************************************************************/ bool operator==(const TString& t, const std::string& s); bool operator==(const std::string& s, const TString& t); class TEveException : public std::exception, public TString { public: TEveException() {} TEveException(const TString& s) : TString(s) {} TEveException(const char* s) : TString(s) {} TEveException(const std::string& s); virtual ~TEveException() noexcept {} virtual const char* what() const noexcept { return Data(); } ClassDef(TEveException, 1); // Exception-type thrown by Eve classes. }; TEveException operator+(const TEveException &s1, const std::string &s2); TEveException operator+(const TEveException &s1, const TString &s2); TEveException operator+(const TEveException &s1, const char *s2); /******************************************************************************/ // Exception-safe global variable holders /******************************************************************************/ class TEvePadHolder { private: TVirtualPad *fOldPad; Bool_t fModifyUpdateP; TEvePadHolder(const TEvePadHolder&); // Not implemented TEvePadHolder& operator=(const TEvePadHolder&); // Not implemented public: TEvePadHolder(Bool_t modify_update_p, TVirtualPad* new_pad=0, Int_t subpad=0); virtual ~TEvePadHolder(); ClassDef(TEvePadHolder, 0); // Exception-safe wrapper for temporary setting of gPad variable. }; class TEveGeoManagerHolder { private: TGeoManager *fManager; Int_t fNSegments; TEveGeoManagerHolder(const TEveGeoManagerHolder&); // Not implemented TEveGeoManagerHolder& operator=(const TEveGeoManagerHolder&); // Not implemented public: TEveGeoManagerHolder(TGeoManager* new_gmgr=0, Int_t n_seg=0); virtual ~TEveGeoManagerHolder(); ClassDef(TEveGeoManagerHolder, 0); // Exception-safe wrapper for temporary setting of gGeoManager variable. }; /******************************************************************************/ // TEveRefCnt base-class (interface) /******************************************************************************/ class TEveRefCnt { protected: Int_t fRefCount; public: TEveRefCnt() : fRefCount(0) {} virtual ~TEveRefCnt() {} TEveRefCnt(const TEveRefCnt&) : fRefCount(0) {} TEveRefCnt& operator=(const TEveRefCnt&) { return *this; } void IncRefCount() { ++fRefCount; } void DecRefCount() { if(--fRefCount <= 0) OnZeroRefCount(); } virtual void OnZeroRefCount() { delete this; } ClassDef(TEveRefCnt, 0); // Base-class for reference-counted objects. }; /******************************************************************************/ // TEveRefBackPtr reference-count with back pointers /******************************************************************************/ class TEveRefBackPtr : public TEveRefCnt { protected: typedef std::map RefMap_t; typedef RefMap_t::iterator RefMap_i; RefMap_t fBackRefs; public: TEveRefBackPtr(); virtual ~TEveRefBackPtr(); TEveRefBackPtr(const TEveRefBackPtr&); TEveRefBackPtr& operator=(const TEveRefBackPtr&); using TEveRefCnt::IncRefCount; using TEveRefCnt::DecRefCount; virtual void IncRefCount(TEveElement* re); virtual void DecRefCount(TEveElement* re); virtual void StampBackPtrElements(UChar_t stamps); ClassDef(TEveRefBackPtr, 0); // Base-class for reference-counted objects with reverse references to TEveElement objects. }; #endif