/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef _VCLLAYOUT_HXX #define _VCLLAYOUT_HXX #include #include #include #include #include #include #include #include #include class VCL_DLLPUBLIC VclContainer : public Window { public: VclContainer(Window *pParent, WinBits nStyle = WB_HIDE | WB_CLIPCHILDREN); //These take into account the external margins of the rWindow widget //while GetOptimalSize/get_preferred_size and SetPosSizePixel are //oblivious to them static Size getLayoutRequisition(const Window &rWindow); static void setLayoutPosSize(Window &rWindow, const Point &rPos, const Size &rSize); //applies the allocation pos and size onto rWindow via setLayoutPosSize taking into account //the rWindows alignment desires within that allocation static void setLayoutAllocation(Window &rWindow, const Point &rPos, const Size &rSize); void markLayoutDirty() { m_bLayoutDirty = true; } virtual void queue_resize(); protected: //these are the two that need to be implemented by //containers, figure out how much space you want... virtual Size calculateRequisition() const = 0; //..and decide what to do when set to this size virtual void setAllocation(const Size &rAllocation) = 0; virtual sal_uInt16 getDefaultAccessibleRole() const; public: //you don't want to override these virtual Size GetOptimalSize() const; virtual void SetPosSizePixel(const Point& rNewPos, const Size& rNewSize); virtual void SetPosPixel(const Point& rAllocPos); virtual void SetSizePixel(const Size& rAllocation); private: bool m_bLayoutDirty; }; class VCL_DLLPUBLIC VclBox : public VclContainer { protected: bool m_bHomogeneous; bool m_bVerticalContainer; int m_nSpacing; public: VclBox(Window *pParent, bool bHomogeneous, int nSpacing) : VclContainer(pParent) , m_bHomogeneous(bHomogeneous) , m_nSpacing(nSpacing) { } void set_spacing(int nSpacing) { m_nSpacing = nSpacing; } int get_spacing() const { return m_nSpacing; } void set_homogeneous(bool bHomogeneous) { m_bHomogeneous = bHomogeneous; } bool get_homogeneous() const { return m_bHomogeneous; } virtual bool set_property(const OString &rKey, const OString &rValue); protected: virtual sal_uInt16 getDefaultAccessibleRole() const; void accumulateMaxes(const Size &rChildSize, Size &rSize) const; Size finalizeMaxes(const Size &rSize, sal_uInt16 nVisibleChildren) const; virtual Size calculateRequisition() const; virtual void setAllocation(const Size &rAllocation); virtual long getPrimaryDimension(const Size &rSize) const = 0; virtual void setPrimaryDimension(Size &rSize, long) const = 0; virtual long getPrimaryCoordinate(const Point &rPos) const = 0; virtual void setPrimaryCoordinate(Point &rPos, long) const = 0; virtual long getSecondaryDimension(const Size &rSize) const = 0; virtual void setSecondaryDimension(Size &rSize, long) const = 0; virtual long getSecondaryCoordinate(const Point &rPos) const = 0; virtual void setSecondaryCoordinate(Point &rPos, long) const = 0; virtual bool getPrimaryDimensionChildExpand(const Window &rWindow) const = 0; }; class VCL_DLLPUBLIC VclVBox : public VclBox { public: VclVBox(Window *pParent, bool bHomogeneous = false, int nSpacing = 0) : VclBox(pParent, bHomogeneous, nSpacing) { m_bVerticalContainer = true; } protected: virtual long getPrimaryDimension(const Size &rSize) const { return rSize.getHeight(); } virtual void setPrimaryDimension(Size &rSize, long nHeight) const { rSize.setHeight(nHeight); } virtual long getPrimaryCoordinate(const Point &rPos) const { return rPos.getY(); } virtual void setPrimaryCoordinate(Point &rPos, long nPos) const { rPos.setY(nPos); } virtual long getSecondaryDimension(const Size &rSize) const { return rSize.getWidth(); } virtual void setSecondaryDimension(Size &rSize, long nWidth) const { rSize.setWidth(nWidth); } virtual long getSecondaryCoordinate(const Point &rPos) const { return rPos.getX(); } virtual void setSecondaryCoordinate(Point &rPos, long nPos) const { rPos.setX(nPos); } virtual bool getPrimaryDimensionChildExpand(const Window &rWindow) const { return rWindow.get_expand() || rWindow.get_vexpand(); } }; class VCL_DLLPUBLIC VclHBox : public VclBox { public: VclHBox(Window *pParent, bool bHomogeneous = false, int nSpacing = 0) : VclBox(pParent, bHomogeneous, nSpacing) { m_bVerticalContainer = false; } protected: virtual long getPrimaryDimension(const Size &rSize) const { return rSize.getWidth(); } virtual void setPrimaryDimension(Size &rSize, long nWidth) const { rSize.setWidth(nWidth); } virtual long getPrimaryCoordinate(const Point &rPos) const { return rPos.getX(); } virtual void setPrimaryCoordinate(Point &rPos, long nPos) const { rPos.setX(nPos); } virtual long getSecondaryDimension(const Size &rSize) const { return rSize.getHeight(); } virtual void setSecondaryDimension(Size &rSize, long nHeight) const { rSize.setHeight(nHeight); } virtual long getSecondaryCoordinate(const Point &rPos) const { return rPos.getY(); } virtual void setSecondaryCoordinate(Point &rPos, long nPos) const { rPos.setY(nPos); } virtual bool getPrimaryDimensionChildExpand(const Window &rWindow) const { return rWindow.get_expand() || rWindow.get_hexpand(); } }; enum VclButtonBoxStyle { VCL_BUTTONBOX_DEFAULT_STYLE, VCL_BUTTONBOX_SPREAD, VCL_BUTTONBOX_EDGE, VCL_BUTTONBOX_START, VCL_BUTTONBOX_END, VCL_BUTTONBOX_CENTER }; class VCL_DLLPUBLIC VclButtonBox : public VclBox { public: VclButtonBox(Window *pParent, int nSpacing) : VclBox(pParent, false, nSpacing) , m_eLayoutStyle(VCL_BUTTONBOX_DEFAULT_STYLE) { } void set_layout(VclButtonBoxStyle eStyle) { m_eLayoutStyle = eStyle; } VclButtonBoxStyle get_layout() const { return m_eLayoutStyle; } virtual bool set_property(const OString &rKey, const OString &rValue); void sort_native_button_order(); protected: virtual Size calculateRequisition() const; virtual void setAllocation(const Size &rAllocation); Size addSpacing(const Size &rSize, sal_uInt16 nVisibleChildren) const; private: VclButtonBoxStyle m_eLayoutStyle; struct Requisition { std::vector m_aMainGroupDimensions; std::vector m_aSubGroupDimensions; Size m_aMainGroupSize; Size m_aSubGroupSize; }; Requisition calculatePrimarySecondaryRequisitions() const; Size addReqGroups(const VclButtonBox::Requisition &rReq) const; }; class VCL_DLLPUBLIC VclVButtonBox : public VclButtonBox { public: VclVButtonBox(Window *pParent, int nSpacing = 0) : VclButtonBox(pParent, nSpacing) { m_bVerticalContainer = true; } protected: virtual long getPrimaryDimension(const Size &rSize) const { return rSize.getHeight(); } virtual void setPrimaryDimension(Size &rSize, long nHeight) const { rSize.setHeight(nHeight); } virtual long getPrimaryCoordinate(const Point &rPos) const { return rPos.getY(); } virtual void setPrimaryCoordinate(Point &rPos, long nPos) const { rPos.setY(nPos); } virtual long getSecondaryDimension(const Size &rSize) const { return rSize.getWidth(); } virtual void setSecondaryDimension(Size &rSize, long nWidth) const { rSize.setWidth(nWidth); } virtual long getSecondaryCoordinate(const Point &rPos) const { return rPos.getX(); } virtual void setSecondaryCoordinate(Point &rPos, long nPos) const { rPos.setX(nPos); } virtual bool getPrimaryDimensionChildExpand(const Window &rWindow) const { return rWindow.get_expand() || rWindow.get_vexpand(); } }; class VCL_DLLPUBLIC VclHButtonBox : public VclButtonBox { public: VclHButtonBox(Window *pParent, int nSpacing = 0) : VclButtonBox(pParent, nSpacing) { m_bVerticalContainer = false; } protected: virtual long getPrimaryDimension(const Size &rSize) const { return rSize.getWidth(); } virtual void setPrimaryDimension(Size &rSize, long nWidth) const { rSize.setWidth(nWidth); } virtual long getPrimaryCoordinate(const Point &rPos) const { return rPos.getX(); } virtual void setPrimaryCoordinate(Point &rPos, long nPos) const { rPos.setX(nPos); } virtual long getSecondaryDimension(const Size &rSize) const { return rSize.getHeight(); } virtual void setSecondaryDimension(Size &rSize, long nHeight) const { rSize.setHeight(nHeight); } virtual long getSecondaryCoordinate(const Point &rPos) const { return rPos.getY(); } virtual void setSecondaryCoordinate(Point &rPos, long nPos) const { rPos.setY(nPos); } virtual bool getPrimaryDimensionChildExpand(const Window &rWindow) const { return rWindow.get_expand() || rWindow.get_hexpand(); } }; class VCL_DLLPUBLIC VclGrid : public VclContainer { private: bool m_bRowHomogeneous; bool m_bColumnHomogeneous; int m_nRowSpacing; int m_nColumnSpacing; struct GridEntry { Window *pChild; sal_Int32 nSpanWidth; sal_Int32 nSpanHeight; GridEntry() : pChild(0) , nSpanWidth(0) , nSpanHeight(0) { } }; typedef boost::multi_array array_type; struct ExtendedGridEntry : GridEntry { int x; int y; ExtendedGridEntry() : x(-1) , y(-1) { } }; typedef boost::multi_array ext_array_type; array_type assembleGrid() const; bool isNullGrid(const array_type& A) const; public: struct Value { long m_nValue; bool m_bExpand; Value() : m_nValue(0), m_bExpand(false) {} }; private: void calcMaxs(const array_type &A, std::vector &rWidths, std::vector &rHeights) const; Size calculateRequisitionForSpacings(sal_Int32 nRowSpacing, sal_Int32 nColSpacing) const; virtual Size calculateRequisition() const; virtual void setAllocation(const Size &rAllocation); public: VclGrid(Window *pParent) : VclContainer(pParent) , m_bRowHomogeneous(false), m_bColumnHomogeneous(false) , m_nRowSpacing(0), m_nColumnSpacing(0) { } void set_row_homogeneous(bool bHomogeneous) { m_bRowHomogeneous = bHomogeneous; } void set_column_homogeneous(bool bHomogeneous) { m_bColumnHomogeneous = bHomogeneous; } bool get_row_homogeneous() const { return m_bRowHomogeneous; } bool get_column_homogeneous() const { return m_bColumnHomogeneous; } void set_row_spacing(int nSpacing) { m_nRowSpacing = nSpacing; } void set_column_spacing(int nSpacing) { m_nColumnSpacing = nSpacing; } int get_row_spacing() const { return m_nRowSpacing; } int get_column_spacing() const { return m_nColumnSpacing; } virtual bool set_property(const OString &rKey, const OString &rValue); }; VCL_DLLPUBLIC void setGridAttach(Window &rWidget, sal_Int32 nLeft, sal_Int32 nTop, sal_Int32 nWidth = 1, sal_Int32 nHeight = 1); class VCL_DLLPUBLIC VclBin : public VclContainer { public: VclBin(Window *pParent, WinBits nStyle = WB_HIDE | WB_CLIPCHILDREN) : VclContainer(pParent, nStyle) { } virtual Window *get_child(); virtual const Window *get_child() const; virtual Size calculateRequisition() const; virtual void setAllocation(const Size &rAllocation); }; class VCL_DLLPUBLIC VclFrame : public VclBin { private: Window *m_pLabel; private: friend class VclBuilder; void designate_label(Window *pWindow); public: VclFrame(Window *pParent) : VclBin(pParent) , m_pLabel(NULL) { } void set_label(const OUString &rLabel); OUString get_label() const; virtual Window *get_child(); virtual const Window *get_child() const; Window *get_label_widget(); const Window *get_label_widget() const; protected: virtual Size calculateRequisition() const; virtual void setAllocation(const Size &rAllocation); virtual OUString getDefaultAccessibleName() const; }; class VCL_DLLPUBLIC VclAlignment : public VclBin { public: VclAlignment(Window *pParent) : VclBin(pParent) , m_nBottomPadding(0) , m_nLeftPadding(0) , m_nRightPadding(0) , m_nTopPadding(0) , m_fXAlign(0.0) , m_fXScale(1.0) , m_fYAlign(0.0) , m_fYScale(1.0) { } virtual bool set_property(const OString &rKey, const OString &rValue); protected: virtual Size calculateRequisition() const; virtual void setAllocation(const Size &rAllocation); private: sal_Int32 m_nBottomPadding; sal_Int32 m_nLeftPadding; sal_Int32 m_nRightPadding; sal_Int32 m_nTopPadding; float m_fXAlign; float m_fXScale; float m_fYAlign; float m_fYScale; }; class VCL_DLLPUBLIC VclExpander : public VclBin { public: VclExpander(Window *pParent) : VclBin(pParent) , m_bResizeTopLevel(true) , m_aDisclosureButton(this) { m_aDisclosureButton.SetToggleHdl(LINK(this, VclExpander, ClickHdl)); m_aDisclosureButton.Show(); } virtual Window *get_child(); virtual const Window *get_child() const; virtual bool set_property(const OString &rKey, const OString &rValue); bool get_expanded() const { return m_aDisclosureButton.IsChecked(); } void set_expanded(bool bExpanded) { m_aDisclosureButton.Check(bExpanded); } void set_label(const OUString& rLabel) { m_aDisclosureButton.SetText(rLabel); } OUString get_label() const { return m_aDisclosureButton.GetText(); } virtual void StateChanged(StateChangedType nType); void SetExpandedHdl( const Link& rLink ) { maExpandedHdl = rLink; } const Link& GetExpandedHdl() const { return maExpandedHdl; } protected: virtual Size calculateRequisition() const; virtual void setAllocation(const Size &rAllocation); private: bool m_bResizeTopLevel; DisclosureButton m_aDisclosureButton; Link maExpandedHdl; DECL_DLLPRIVATE_LINK(ClickHdl, DisclosureButton* pBtn); }; class VCL_DLLPUBLIC VclScrolledWindow : public VclBin { public: VclScrolledWindow(Window *pParent, WinBits nStyle = WB_HIDE | WB_CLIPCHILDREN | WB_AUTOHSCROLL | WB_AUTOVSCROLL); virtual Window *get_child(); virtual const Window *get_child() const; virtual bool set_property(const OString &rKey, const OString &rValue); ScrollBar& getVertScrollBar() { return m_aVScroll; } ScrollBar& getHorzScrollBar() { return m_aHScroll; } Size getVisibleChildSize() const; //set to true to disable the built-in scrolling callbacks to allow the user //to override it void setUserManagedScrolling(bool bUserManagedScrolling) { m_bUserManagedScrolling = bUserManagedScrolling;} protected: virtual Size calculateRequisition() const; virtual void setAllocation(const Size &rAllocation); DECL_LINK(ScrollBarHdl, void *); void InitScrollBars(const Size &rRequest); virtual long Notify(NotifyEvent& rNEvt); private: bool m_bUserManagedScrolling; ScrollBar m_aVScroll; ScrollBar m_aHScroll; ScrollBarBox m_aScrollBarBox; }; //Enforces that its children are always the same size as itself. //Intercepts any Commands intended for its children. // //by default the Commands are discarded, inherit from this //and implement "Command" to get them class VCL_DLLPUBLIC VclEventBox : public VclBin { private: //Any Commands an EventBoxHelper receives are forwarded to its parent //The VclEventBox ensures that m_aEventBoxHelper is the //first child and is transparent, but covers the rest of the children class EventBoxHelper : public Window { public: EventBoxHelper(Window* pParent) : Window(pParent, 0) { SetSizePixel(pParent->GetSizePixel()); EnableChildTransparentMode(); SetPaintTransparent(true); SetBackground(); } virtual void Command(const CommandEvent& rCEvt) { GetParent()->Command(rCEvt); } }; EventBoxHelper m_aEventBoxHelper; public: VclEventBox(Window* pParent) : VclBin(pParent) , m_aEventBoxHelper(this) { m_aEventBoxHelper.Show(); } virtual Window *get_child(); virtual const Window *get_child() const; virtual Size calculateRequisition() const; virtual void setAllocation(const Size &rAllocation); virtual void Command(const CommandEvent& rCEvt); }; enum VclSizeGroupMode { VCL_SIZE_GROUP_NONE, VCL_SIZE_GROUP_HORIZONTAL, VCL_SIZE_GROUP_VERTICAL, VCL_SIZE_GROUP_BOTH }; class VCL_DLLPUBLIC VclSizeGroup { private: std::set m_aWindows; bool m_bIgnoreHidden; VclSizeGroupMode m_eMode; void trigger_queue_resize(); public: VclSizeGroup() : m_bIgnoreHidden(false) , m_eMode(VCL_SIZE_GROUP_HORIZONTAL) { } void insert(Window *pWindow) { m_aWindows.insert(pWindow); } void erase(Window *pWindow) { m_aWindows.erase(pWindow); } const std::set& get_widgets() const { return m_aWindows; } std::set& get_widgets() { return m_aWindows; } void set_ignore_hidden(bool bIgnoreHidden); bool get_ignore_hidden() const { return m_bIgnoreHidden; } void set_mode(VclSizeGroupMode eMode); VclSizeGroupMode get_mode() const { return m_eMode; } bool set_property(const OString &rKey, const OString &rValue); }; enum VclButtonsType { VCL_BUTTONS_NONE, VCL_BUTTONS_OK, VCL_BUTTONS_CLOSE, VCL_BUTTONS_CANCEL, VCL_BUTTONS_YES_NO, VCL_BUTTONS_OK_CANCEL }; enum VclMessageType { VCL_MESSAGE_INFO, VCL_MESSAGE_WARNING, VCL_MESSAGE_QUESTION, VCL_MESSAGE_ERROR }; class VCL_DLLPUBLIC MessageDialog : public Dialog { private: VclButtonsType m_eButtonsType; VclMessageType m_eMessageType; VclGrid* m_pGrid; FixedImage* m_pImage; VclMultiLineEdit* m_pPrimaryMessage; VclMultiLineEdit* m_pSecondaryMessage; std::vector m_aOwnedButtons; std::map m_aResponses; OUString m_sPrimaryString; OUString m_sSecondaryString; DECL_DLLPRIVATE_LINK(ButtonHdl, Button *); void setButtonHandlers(VclButtonBox *pButtonBox); short get_response(const Window *pWindow) const; public: MessageDialog(Window* pParent, const OUString &rMessage, VclMessageType eMessageType = VCL_MESSAGE_ERROR, VclButtonsType eButtonsType = VCL_BUTTONS_OK, WinBits nStyle = WB_CLIPCHILDREN | WB_MOVEABLE | WB_3DLOOK | WB_CLOSEABLE); MessageDialog(Window* pParent, WinBits nStyle = WB_CLIPCHILDREN); MessageDialog(Window* pParent, const OString& rID, const OUString& rUIXMLDescription); virtual bool set_property(const OString &rKey, const OString &rValue); virtual short Execute(); OUString get_primary_text() const; OUString get_secondary_text() const; void set_primary_text(const OUString &rPrimaryString); void set_secondary_text(const OUString &rSecondaryString); ~MessageDialog(); static void SetMessagesWidths(Window *pParent, VclMultiLineEdit *pPrimaryMessage, VclMultiLineEdit *pSecondaryMessage); }; VCL_DLLPUBLIC Size bestmaxFrameSizeForScreenSize(const Size &rScreenSize); //Get first window of a pTopLevel window as //if any intermediate layout widgets didn't exist //i.e. acts like pChild = pChild->GetWindow(WINDOW_FIRSTCHILD); //in a flat hierarchy where dialogs only have one layer //of children VCL_DLLPUBLIC Window* firstLogicalChildOfParent(Window *pTopLevel); //Get next window after pChild of a pTopLevel window as //if any intermediate layout widgets didn't exist //i.e. acts like pChild = pChild->GetWindow(WINDOW_NEXT); //in a flat hierarchy where dialogs only have one layer //of children VCL_DLLPUBLIC Window* nextLogicalChildOfParent(Window *pTopLevel, Window *pChild); //Get previous window before pChild of a pTopLevel window as //if any intermediate layout widgets didn't exist //i.e. acts like pChild = pChild->GetWindow(WINDOW_PREV); //in a flat hierarchy where dialogs only have one layer //of children VCL_DLLPUBLIC Window* prevLogicalChildOfParent(Window *pTopLevel, Window *pChild); //Returns true is the Window has a single child which is a container VCL_DLLPUBLIC bool isLayoutEnabled(const Window *pWindow); VCL_DLLPUBLIC inline bool isContainerWindow(const Window &rWindow) { WindowType eType = rWindow.GetType(); return (eType == WINDOW_CONTAINER || eType == WINDOW_SCROLLWINDOW); } VCL_DLLPUBLIC inline bool isContainerWindow(const Window *pWindow) { return pWindow && isContainerWindow(*pWindow); } //Returns true if the containing dialog is doing its initial //layout and isn't visible yet VCL_DLLPUBLIC bool isInitialLayout(const Window *pWindow); // retro-fitting utilities // //Get a Size which is large enough to contain all children with //an equal amount of space at top left and bottom right Size getLegacyBestSizeForChildren(const Window &rWindow); //Get first parent which is not a layout widget VCL_DLLPUBLIC Window* getNonLayoutParent(Window *pParent); //Get first real parent which is not a layout widget Window* getNonLayoutRealParent(Window *pParent); //return true if this window and its stack of containers are all shown bool isVisibleInLayout(const Window *pWindow); //return true if this window and its stack of containers are all enabled bool isEnabledInLayout(const Window *pWindow); #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */