// -*- c-basic-offset: 4 -*- /* Rosegarden A sequencer and musical notation editor. This program is Copyright 2000-2008 Guillaume Laurent , Chris Cannam , Richard Bown The moral right of the authors to claim authorship of this work has been asserted. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #ifndef _LAYOUT_ENGINE_H_ #define _LAYOUT_ENGINE_H_ #include "RulerScale.h" namespace Rosegarden { class Staff; class TimeSignature; /** * Base classes for tqlayout engines. The intention is that * different sorts of renderers (piano-roll, score etc) can be * implemented by simply plugging different implementations * of Staff and LayoutEngine into a single view class. */ class LayoutEngine { public: LayoutEngine(); virtual ~LayoutEngine(); /** * Resets internal data stores for all staffs */ virtual void reset() = 0; /** * Resets internal data stores for a specific staff. * * If startTime == endTime, act on the whole staff; otherwise only * the given section. */ virtual void resetStaff(Staff &staff, timeT startTime = 0, timeT endTime = 0) = 0; /** * Precomputes tqlayout data for a single staff, updating any * internal data stores associated with that staff and updating * any tqlayout-related properties in the events on the staff's * segment. * * If startTime == endTime, act on the whole staff; otherwise only * the given section. */ virtual void scanStaff(Staff &staff, timeT startTime = 0, timeT endTime = 0) = 0; /** * Computes any tqlayout data that may depend on the results of * scanning more than one staff. This may mean doing most of * the tqlayout (likely for horizontal tqlayout) or nothing at all * (likely for vertical tqlayout). * * If startTime == endTime, act on the whole staff; otherwise only * the given section. */ virtual void finishLayout(timeT startTime = 0, timeT endTime = 0) = 0; unsigned int gettqStatus() const { return m_status; } protected: unsigned int m_status; }; class HorizontalLayoutEngine : public LayoutEngine, public RulerScale { public: HorizontalLayoutEngine(Composition *c); virtual ~HorizontalLayoutEngine(); /** * Sets a page width for the tqlayout. * * A tqlayout implementation does not have to use this. Some might * use it (for example) to ensure that bar lines fall precisely at * the right-hand margin of each page. The computed x-coordinates * will still require to be wrapped into lines by the staff or * view implementation, however. * * A width of zero indicates no requirement for division into * pages. */ virtual void setPageWidth(double) { /* default: ignore it */ } /** * Returns the number of the first visible bar line on the given * staff */ virtual int getFirstVisibleBarOnStaff(Staff &) { return getFirstVisibleBar(); } /** * Returns the number of the last visible bar line on the given * staff */ virtual int getLastVisibleBarOnStaff(Staff &) { return getLastVisibleBar(); } /** * Returns true if the specified bar has the correct length */ virtual bool isBarCorrectOnStaff(Staff &, int/* barNo */) { return true; } /** * Returns true if there is a new time signature in the given bar, * setting timeSignature appropriately and setting timeSigX to its * x-coord */ virtual bool getTimeSignaturePosition (Staff &, int /* barNo */, TimeSignature &, double &/* timeSigX */) { return 0; } }; class VerticalLayoutEngine : public LayoutEngine { public: VerticalLayoutEngine(); virtual ~VerticalLayoutEngine(); // I don't think we need to add anything here for now }; } #endif