// @(#)root/gui:$Id: TRecorder.h 29094 2009-06-19 10:02:24Z bellenot $ // Author: Katerina Opocenska 11/09/2008 /************************************************************************* * Copyright (C) 1995-2008, 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_TRecorder #define ROOT_TRecorder ////////////////////////////////////////////////////////////////////////// // // // ROOT EVENT RECORDING SYSTEM // // ================================================================== // // // // TRecorder class provides interface for recording and replaying // // events in ROOT. // // Recorded events are: // // - Commands typed by user in commandline ('new TCanvas') // // - GUI events (mouse movement, button clicks, ...) // // // // All the recorded events from one session are stored in one TFile // // and can be replayed again anytime. // // // // Recording // // ================================================================== // // // // 1] To start recording // // // // TRecorder r(const char *filename, "NEW") // // TRecorder r(const char *filename, "RECREATE") // // // // or: // // // // TRecorder *recorder = new TRecorder; // // recorder->Start(const char *filename, ...) // // // // -filename Name of ROOT file in which to save // // recorded events. // // // // 2] To stop recording // // // // recorder->Stop() // // // // // // IMPORTANT: // // State capturing is part of recording. It means that if you want to // // record events for some object (window), creation of this object // // must be also recorded. // // // // Example: // // -------- // // t = new TRecorder(); // Create a new recorder // // t->Start("logfile.root"); // ! Start recording first // // // // c = new TCanvas(); // ! Then, create an object // // c->Dump(); // Work with that object // // // // t->Stop(); // Stop recording // // // // It is strongly recommended to start recording with empty ROOT // // environment, at least with no previously created ROOT GUI. // // This ensures that only events for well known windows are stored. // // Events for windows, which were not created during recording, // // cannot be replayed. // // // // Replaying // // =================================================================== // // // // 1] To start replaying // // // // TRecorder r(const char *filename) // // TRecorder r(const char *filename, "READ") // // // // or: // // // // TRecorder *recorder = new TRecorder; // // recorder->Replay(const char *filename, // // Bool_t showMouseCursor = kTRUE); // // // // -filename A name of file with recorded events // // previously created with TRecorder::Start // // // // -showMouseCursor If kTRUE, mouse cursor is replayed as well. // // In that case it is not recommended to use mouse // // during replaying. // // // // In general, it is not recommended to use mouse to change positions // // and states of ROOT windows during replaying. // // // // IMPORTANT: // // The state of ROOT environment before replaying of some events // // must be exactly the same as before recording them. // // Therefore it is strongly recommended to start both recording // // and replaying with empty ROOT environment. // // // // 2] To pause replaying // // // // recorder->Pause() // // // // Replaying is stopped until recorder->Resume() is called. // // // // // // 3] To resume paused replaying // // // // recorder->Resume() // // // // Resumes previously stopped replaying. // // // // // // 4] To stop replaying before its end // // // // recorder->Stop() // // // ////////////////////////////////////////////////////////////////////////// #ifndef ROOT_Riostream #include "Riostream.h" #endif #ifndef ROOT_TApplication #include "TApplication.h" #endif #ifndef ROOT_TError #include "TError.h" #endif #ifndef ROOT_TTimer #include "TTimer.h" #endif #ifndef ROOT_TGClient #include "TGClient.h" #endif #ifndef ROOT_TGFrame #include "TGFrame.h" #endif #ifndef ROOT_TCanvas #include "TCanvas.h" #endif #ifndef ROOT_THashList #include "THashList.h" #endif #include <time.h> class TMutex; class TTree; class TFile; class TGPictureButton; class TGCheckButton; class TGLabel; class TRecorderState; ////////////////////////////////////////////////////////////////////////// // // // TRecEvent // // // // Abstract class that defines interface for a class storing // // information about 1 ROOT event. // // Time of event is stored and this event can be replayed. // // Classes TRecCmdEvent and TRecGuiEvent implements this interface // // for command line and GUI events respectively. // // // ////////////////////////////////////////////////////////////////////////// class TRecEvent : public TObject { private: TTime fEventTime; // Time of original event execution public: //---- Types of events recorded in ROOT. enum ERecEventType { kCmdEvent, // Commandline event kGuiEvent, // GUI event kExtraEvent }; // Replays (executes) the stored event again virtual void ReplayEvent(Bool_t showMouseCursor = kTRUE) = 0; // Returns what kind of event it stores virtual ERecEventType GetType() const = 0; virtual TTime GetTime() const { // Returns time of original execution of stored event return fEventTime; } virtual void SetTime(TTime t) { // Sets time of event execution fEventTime = t; } ClassDef(TRecEvent,1) // Abstract class. Defines basic interface for storing information about ROOT events }; ////////////////////////////////////////////////////////////////////////// // // // TRecCmdEvent // // // // Class used for storing information about 1 commandline event. // // It means 1 command typed in by user in the commandline, // // e.g 'new TCanvas'. // // // ////////////////////////////////////////////////////////////////////////// class TRecCmdEvent : public TRecEvent { private: TString fText; // Text of stored command public: TRecCmdEvent() { // Creates new empty TRecCmdEvent } void SetText(const char *text) { // Saves text of a command fText = text; } const char *GetText() const { // Returns stored text of the command return fText.Data(); } virtual ERecEventType GetType() const { // Returns what kind of event it stores (commandline event) return TRecEvent::kCmdEvent; } virtual void ReplayEvent(Bool_t) { // Stored command is executed again cout << GetText() << endl; gApplication->ProcessLine(GetText()); } ClassDef(TRecCmdEvent,1) // Class stores information about 1 commandline event (= 1 command typed by user in commandline) }; ////////////////////////////////////////////////////////////////////////// // // // TRecExtraEvent // // // // Class used for storing information about 1 extra event. // // It means 1 TPaveLabel or 1 TLatex event produced in the Canvas // // // ////////////////////////////////////////////////////////////////////////// class TRecExtraEvent : public TRecEvent { private: TString fText; // Text of stored command public: TRecExtraEvent() { // Creates new empty TRecExtraEvent } void SetText(TString text) { // Saves text of a command (PaveLabel or Text) fText = text; } TString GetText() const { // Returns stored text of the command return fText; } virtual ERecEventType GetType() const { // Returns what kind of event it stores (Especial event) return TRecEvent::kExtraEvent; } virtual void ReplayEvent(Bool_t) { // Stored event is executed again gApplication->ProcessLine(GetText()); } ClassDef(TRecExtraEvent,1) // Class stores information about extra events }; ////////////////////////////////////////////////////////////////////////// // // // TRecGuiEvent // // // // Class used for storing information about 1 GUI event in ROOT. // // For list of possible GUI events see EGEventType. // // // ////////////////////////////////////////////////////////////////////////// class TRecGuiEvent : public TRecEvent { protected: friend class TRecorderInactive; friend class TRecorderPaused; friend class TRecorderRecording; friend class TRecorderReplaying; EGEventType fType; // Type of event (see EGEventType) Window_t fWindow; // Window ID which reported event is relative to Time_t fTime; // Time event occured in ms Int_t fX; // Pointer x coordinate in event window Int_t fY; // Pointer y coordinate in event window Int_t fXRoot; // x coordinate relative to root Int_t fYRoot; // y coordinate relative to root UInt_t fCode; // Key or button code UInt_t fState; // Key or button mask UInt_t fWidth; // Width of exposed area UInt_t fHeight; // Height of exposed area Int_t fCount; // If non-zero, at least this many more exposes Bool_t fSendEvent; // True if event came from SendEvent Handle_t fHandle; // General resource handle (used for atoms or windows) Int_t fFormat; // Next fields only used by kClientMessageEvent Long_t fUser[5]; // 5 longs can be used by client message events // NOTE: only [0], [1] and [2] may be used. // [1] and [2] may contain > 32 bit quantities // (i.e. pointers on 64 bit machines) Window_t fMasked; // If non-zero, event recorded in HandleMaskEvent() public: //---- Types of kConfigureNotify GUI event enum EConfigureNotifyType { kCNMove = 0, // Movement of a window (Linux) kCNResize = 1, // Resize of a window (Linux) kCNMoveResize = 2, // Movement, resize or both (Windows) kCNFilter = 3 // Not replaybale (filtered event). }; virtual ERecEventType GetType() const { // Returns what kind of event it stores (GUI event) return TRecEvent::kGuiEvent; } virtual void ReplayEvent(Bool_t showMouseCursor = kTRUE); static Event_t *CreateEvent(TRecGuiEvent *ge); ClassDef(TRecGuiEvent,1) // Class stores information about 1 GUI event in ROOT }; ////////////////////////////////////////////////////////////////////////// // // // TRecWinPair // // // // Class used for storing of window IDs mapping. // // Remapping of window IDs is needed for replaying events. // // - ID of original window is stored in fKey. // // - ID of a new window is stored in fValue. // // // // Whenever an event is replayed, its referenced window ID is changed // // from original to a new one according to the appropriate mapping. // // // ////////////////////////////////////////////////////////////////////////// class TRecWinPair : public TObject { protected: friend class TRecorderReplaying; Window_t fKey; // ID of original window (for which an event was originally recorded) Window_t fValue; // ID of a new window (for which an event is being replayed) public: // Creates a new key-value mapping of window IDs TRecWinPair(Window_t key, Window_t value): fKey(key), fValue(value) {} ClassDef(TRecWinPair,1) // Class used for storing of window IDs mapping. Needed for replaying events. }; ////////////////////////////////////////////////////////////////////////// // // // TRecorder // // // // Class provides direct recorder/replayer interface for a user. // // See 'ROOT EVENT RECORDING SYSTEM' for more information abou usage. // // // // Implementation uses C++ design pattern State. Funcionality of // // recorder is divided into 4 classes according to the current // // state of recorder. // // // // Internally, there is a pointer to TRecorderState object. // // This object changes whenever state of recorder is changed. // // States of recorder are the following: // // // // - INACTIVE Implemented in TRecorderInactive class. // // Default state after TRecorder object is created. // // // // - RECORDING Implemented in TRecorderRecording class. // // // // - REPLAYING Implemented in TRecorderReplaying class. // // // // - PAUSED Implemented in TRecorderPause class. // // Pause of replaying. // // // // Every command for TRecorder is just passed // // to TRecordeState object. // // Depending on the current state of recorder, this command is passed // // to some of the above mentioned classes and if valid, handled there. // // // // [TRecorder.JPG] // // // // Switching between states is not possible from outside. States are // // switched directly by state objects via: // // // // ChangeState(TRecorderState* newstate, Bool_t deletePreviousState); // // // // When recorder is switched to a new state, the old state object is // // typically deleted. The only exception is switching from REPLAYING // // state to PAUSED state. The previous state (REPLAYING) is not // // deleted in order to be used again after TRecorder::Resume call. // // // // STATE TRANSITIONS: // // ------------------ // // // // INACTIVE -> RECORDING via TRecorder::Start (Starts recording) // // RECORDING -> INACTIVE via TRecorder::Stop (Stops recording) // // // // INACTIVE -> REPLAYING via TRecorder::Replay (Starts replaying) // // REPLAYING -> INACTIVE via TRecorder::ReplayStop (Stops replaying) // // // // REPLAYING -> PAUSED via TRecorder::Pause (Pause replaying) // // PAUSED -> REPLAYING via TRecorder::Resume (Resumes replaying) // // // // PAUSED -> INACTIVE via TRecorder::ReplayStop (Stops paused // // replaying) // // // // [TRecorderStates.JPG] // // // ////////////////////////////////////////////////////////////////////////// class TRecorder : public TObject { private: TRecorderState *fRecorderState; //! Current state of recorder protected: friend class TRecorderState; friend class TRecorderInactive; friend class TRecorderPaused; friend class TRecorderRecording; friend class TRecorderReplaying; TString fFilename; // Events file name // Changes state to the new one. // See class documentation for information about state changing. void ChangeState(TRecorderState* newstate, Bool_t deletePreviousState = kTRUE); public: //---- Modes of replaying. Only kRealtime implemented so far enum EReplayModes { kRealtime }; //---- States of recorder. In every moment, recorder is in right // one of these states. enum ERecorderState { kInactive, kRecording, kPaused, kReplaying }; // Creates recorder and sets its state as INACTIVE TRecorder(); TRecorder(const char *filename, Option_t *option = "READ"); // Deletes recorder together with its current state virtual ~TRecorder(); void Browse(TBrowser *); // Starts recording of events to the given file void Start(const char *filename, Option_t *option = "RECREATE", Window_t *w = 0, Int_t winCount = 0); // Stops recording of events void Stop(Bool_t guiCommand = kFALSE); // Replays recorded events from given file Bool_t Replay(const char *filename, Bool_t showMouseCursor = kTRUE, TRecorder::EReplayModes mode = kRealtime); // Replays recorded events from current file void Replay() { Replay(fFilename); } // *MENU* // Pauses replaying void Pause(); // Resumes paused replaying void Resume(); // Stops (cancels) replaying void ReplayStop(); // Prints out the list of recorded commandline events void ListCmd(const char *filename); // Prints out the list of recorded GUI events void ListGui(const char *filename); // Gets current state of recorder virtual TRecorder::ERecorderState GetState() const; // Saves all the canvases previous to the TRecorder void PrevCanvases(const char *filename, Option_t *option); ClassDef(TRecorder,2) // Class provides direct recorder/replayer interface for a user. }; ////////////////////////////////////////////////////////////////////////// // // // TRecorderState // // // // Abstract class that defines interface for a state of recorder. // // Inherited classes are: // // - TRecorderInactive // // - TRecorderRecording // // - TRecorderReplaying // // - TRecorderPaused // // // // See TRecorder for more information about creating, using, // // changing and deleting states. // // // ////////////////////////////////////////////////////////////////////////// class TRecorderState { protected: friend class TRecorder; void ChangeState(TRecorder *r, TRecorderState *s, Bool_t deletePreviousState) { r->ChangeState(s, deletePreviousState); } public: virtual ~TRecorderState() {} virtual void Start(TRecorder *, const char *, Option_t *, Window_t *, Int_t) {} virtual void Stop(TRecorder *, Bool_t ) {} virtual Bool_t Replay(TRecorder *, const char *, Bool_t, TRecorder::EReplayModes) { return false; } virtual void Pause(TRecorder *) {} virtual void Resume(TRecorder *) {} virtual void ReplayStop(TRecorder *) {} virtual void ListCmd(const char *) {} virtual void ListGui(const char *) {} virtual void PrevCanvases(const char *, Option_t *) {} virtual TRecorder::ERecorderState GetState() const = 0; ClassDef(TRecorderState, 0) // Abstract class that defines interface for a state of recorder }; ////////////////////////////////////////////////////////////////////////// // // // TRecorderReplaying // // // // Represents state of TRecorder when replaying previously recorded // // events. // // // // Not intended to be used by a user directly. // // [Replaying.JPG] // // // ////////////////////////////////////////////////////////////////////////// class TRecorderReplaying : public TRecorderState { private: virtual ~TRecorderReplaying(); Bool_t PrepareNextEvent(); Bool_t RemapWindowReferences(); Bool_t CanOverlap(); Bool_t FilterEvent(TRecGuiEvent *e); TRecorder *fRecorder; // Reference to recorder (owner of this state) is kept in order to switch // recorder to INACTIVE state after replaying is finished TFile *fFile; // ROOT file which the recorded events are being read from TCanvas *fCanv; // Used to record the previous canvases TTimer *fTimer; // Timer used for replaying TTree *fWinTree; // TTree with recorded windows (=registered during recording) TTree *fGuiTree; // TTree with recorded GUI events TTree *fCmdTree; // TTree with recorded commandline events TTree *fExtraTree; // TTree with recorded extra events (PaveLabels and Texts) ULong64_t fWin; // Window ID being currenty mapped TRecGuiEvent *fGuiEvent; // GUI event being currently replayed TRecCmdEvent *fCmdEvent; // Commandline event being currently replayed TRecExtraEvent *fExtraEvent; // Extra event being currently replayed Int_t fRegWinCounter; // Counter of registered windows when replaying Int_t fGuiTreeCounter; // Counter of GUI events that have been replayed Int_t fCmdTreeCounter; // Counter of commandline events that have been replayed Int_t fExtraTreeCounter; // Counter of extra events that have been replayed Int_t fWinTreeEntries; // Number of registered windows during _recording_ TMutex *fMutex; TList *fWindowList; // List of TRecWinPair objects. Mapping of window IDs is stored here. TRecEvent *fNextEvent; // The next event that is going to be replayed (GUI event or commandline) TTime fPreviousEventTime; // Execution time of the previously replayed event. // It is used for computing time difference between two events. Bool_t fWaitingForWindow; // Signalizes that we wait for a window to be registered in order // to replay the next event fNextEvent. // Registraion of windows can last different time when recording and replaying. // If there is an event ready to be replayed but the corresponding windows has not been yet // registered, we wait (postopone fNextEvent) until it is registered. Bool_t fEventReplayed; // Signalizes that the last event sent to the replaying has been already replayed. // Sometimes an execution of an event can take more time than during recording. // This ensures that the next event is sent to replaying AFTER // the replaying of the previous one finishes and not earlier. // Exceptions: ButtonPress and ButtonRelease events (See TRecorderReplaying::CanBeOverlapped) Bool_t fShowMouseCursor; // Specifies if mouse cursor should be also replayed Bool_t fFilterStatusBar; // Special flag to filter status bar element protected: friend class TRecorderInactive; friend class TRecorderPaused; TRecorderReplaying(const char *filename); Bool_t Initialize(TRecorder *r, Bool_t showMouseCursor, TRecorder::EReplayModes mode); public: virtual TRecorder::ERecorderState GetState() const { return TRecorder::kReplaying; } virtual void Pause(TRecorder *r); virtual void Continue(); virtual void ReplayStop(TRecorder *r); void RegisterWindow(Window_t w); //SLOT void ReplayRealtime(); //SLOT ClassDef(TRecorderReplaying, 0) // Represents state of TRecorder when replaying }; ////////////////////////////////////////////////////////////////////////// // // // TRecorderRecording // // // // Represents state of TRecorder when recording events. // // // // Not intended to be used by a user directly. // // // ////////////////////////////////////////////////////////////////////////// class TRecorderRecording: public TRecorderState { private: virtual ~TRecorderRecording(); Bool_t IsFiltered(Window_t id); void SetTypeOfConfigureNotify(Event_t *e); void CopyEvent(Event_t *e, Window_t wid); TRecorder *fRecorder; // Reference to recorder (owner of this state) is kept in order to switch // recorder back to INACTIVE state after recording is finished TFile *fFile; // ROOT file to store recorded events in TTimer *fTimer; // Timer used for recording ULong_t fBeginPave; // TLatex/TPaveLabel edition starting time TTree *fWinTree; // TTree with registered windows TTree *fGuiTree; // TTree with recorded GUI events TTree *fCmdTree; // TTree with recorded commandline events TTree *fExtraTree; // TTree with recorded extra events (PaveLabels and Texts) ULong64_t fWin; // The newest registered window to be stored in TTree TRecGuiEvent *fGuiEvent; // The newest GUI event to be stored in TTree TRecCmdEvent *fCmdEvent; // The newest commandline event to be stored in TTree TRecExtraEvent *fExtraEvent; // The newest extra event to be stored in TTree Bool_t fCmdEventPending; // Indication if there is a still pending commandline event that should be stored. // Commandline events are stored with 1 event delay to ensure skipping // the last event 'TRecorder::Stop' that is not supposed to be recorded Int_t fRegWinCounter; // Counter of registered ROOT windows. // It is increased every time when a new window is registered Int_t fFilteredIdsCount; // Only when GUI for recorder is used: Count of windows in GUI recorder Window_t *fFilteredIds; // Only when GUI for recorer is used: IDs of windows that creates that GUI. // Events for GUI recorder are not recorded. Bool_t fFilterEventPave; // Special flag to filter events during the pave recording protected: friend class TRecorderInactive; TRecorderRecording(TRecorder *r, const char *filename, Option_t *option, Window_t *w, Int_t winCount); Bool_t StartRecording(); public: virtual TRecorder::ERecorderState GetState() const { return TRecorder::kRecording; } virtual void Stop(TRecorder *r, Bool_t guiCommand); void RegisterWindow(Window_t w); //SLOT void RecordCmdEvent(const char* line); //SLOT void RecordGuiEvent(Event_t* e, Window_t wid); //SLOT void RecordGuiCNEvent(Event_t* e); //SLOT void RecordPave(const TObject* obj); //SLOT void RecordText(const TObject* obj); //SLOT void FilterEventPave(); //SLOT void StartEditing(); //SLOT void RecordExtraEvent(TString line, ULong_t ExtTime); ClassDef(TRecorderRecording, 0) // Represents state of TRecorder when recording events }; ////////////////////////////////////////////////////////////////////////// // // // TRecorderInactive // // // // Represents state of TRecorder just after its creation. // // Nor recording neither replaying is being executed in this state. // // // // Not intended to be used by a user directly. // // // ////////////////////////////////////////////////////////////////////////// class TRecorderInactive : public TRecorderState { private: TSeqCollection *fCollect; public: virtual ~TRecorderInactive() {} TRecorderInactive(){} virtual void ListCmd(const char *filename); virtual void ListGui(const char *filename); virtual void Start(TRecorder *r, const char *filename, Option_t *option, Window_t *w = 0, Int_t winCount = 0); virtual Bool_t Replay(TRecorder *r, const char *filename, Bool_t showMouseCursor, TRecorder::EReplayModes mode); virtual TRecorder::ERecorderState GetState() const { return TRecorder::kInactive; } static void DumpRootEvent(TRecGuiEvent *e, Int_t n); static long DisplayValid(Long_t n) { return ( n < 0 ? -1 : n); } void PrevCanvases(const char *filename, Option_t *option); ClassDef(TRecorderInactive, 0) // Represents state of TRecorder after its creation }; ////////////////////////////////////////////////////////////////////////// // // // TRecorderPaused // // // // Represents state of TRecorder when replaying was paused // // by a user. // // The paused replaying is remembered and after Resume call can // // be continued again. // // // // Not intended to be used by a user directly. // // // ////////////////////////////////////////////////////////////////////////// class TRecorderPaused: public TRecorderState { private: virtual ~TRecorderPaused() {} TRecorderReplaying *fReplayingState; // Replaying that is paused protected: friend class TRecorderReplaying; TRecorderPaused(TRecorderReplaying *state); public: virtual TRecorder::ERecorderState GetState() const { return TRecorder::kPaused; } virtual void Resume(TRecorder *r); virtual void ReplayStop(TRecorder *r); ClassDef(TRecorderPaused, 0) // Represents state of TRecorder when paused }; ////////////////////////////////////////////////////////////////////////// // // // TGRecorder // // // // Provides GUI for TRecorder class. // // // ////////////////////////////////////////////////////////////////////////// class TGRecorder : public TGMainFrame { private: TRecorder *fRecorder; // Recorder TGPictureButton *fStartStop; // Button for start and stop of recording TGPictureButton *fReplay; // Button for start of replaying TGLabel *fStatus; // Label with actual status TGLabel *fTimeDisplay; // Label with time counter TGCheckButton *fCursorCheckBox; // Check box "Show mouse cursor" for replaying TTimer *fTimer; // Timer for handling GUI of recorder time_t fStart, fElapsed; // playing/recording time static const Int_t fgWidgetsCount = 12; // Number of windows in GUI recorder Window_t fFilteredIds[fgWidgetsCount]; // IDs of these windows in GUI recorder void SetDefault(); public: TGRecorder(const TGWindow *p = 0, UInt_t w = 230, UInt_t h = 150); virtual ~TGRecorder(); void StartStop(); void Update(); void Replay(); ClassDef(TGRecorder,0) // GUI class of the event recorder. }; #endif // ROOT_TRecorder