--- a/inc/alf/alfvisualtemplate.h Mon Jun 21 16:15:51 2010 +0300
+++ /dev/null Thu Jan 01 00:00:00 1970 +0000
@@ -1,651 +0,0 @@
-/*
-* Copyright (c) 2007 Nokia Corporation and/or its subsidiary(-ies).
-* All rights reserved.
-* This component and the accompanying materials are made available
-* under the terms of "Eclipse Public License v1.0"
-* which accompanies this distribution, and is available
-* at the URL "http://www.eclipse.org/legal/epl-v10.html".
-*
-* Initial Contributors:
-* Nokia Corporation - initial contribution.
-*
-* Contributors:
-*
-* Description: Visual template class for alfred widget model.
-* This class creates and updates visual tree.
-*
-*/
-
-
-#ifndef ALF_VISUALTEMPLATE_H
-#define ALF_VISUALTEMPLATE_H
-
-#include <osn/osndefines.h>
-#include <alf/alflayout.h>
-#include "alf/ialfvisualtemplate.h"
-#include <osn/ustring.h>
-#include <osn/alfptrvector.h>
-#include <alf/ialfinterfacebase.h>
-#include <vector>
-
-class CAlfControl;
-class CAlfBrush;
-class CAlfVisual;
-
-using namespace osncore;
-
-namespace Alf
- {
-// FORWARD DECLARATIONS
-class IAlfMap;
-class IAlfAttributeSetter;
-class AlfAttributeContainer;
-
-/**
- * @class AlfVisualTemplate alfvisualtemplate.h "alf/alfvisualtemplate.h"
- * A generic visual template for creating or updating a visual tree.
- * The visual templates may form a tree structure that matches
- * the visual tree to be created or updated. Each template is
- * responsible for creating and initializing a single visual.
- * Visual templates contain a number of attribute setters
- * to initialize or update the visuals. Attribute setters use values
- * from the corresponding attribute containers.
- *
- * @lib alfwidgetmodel.lib
- * @since S60 ?S60_version
- * @status Draft
- * @interfaces IAlfVisualTemplate
- */
-class AlfVisualTemplate : public IAlfVisualTemplate
- {
-public:
-
- /**
- * Constructor for a template for creating a visual.
- * @exception std::bad_alloc
- *
- * @since S60 ?S60_version
- *
- * @param aType The type of the visual to create.
- */
- OSN_IMPORT static AlfVisualTemplate* create(TAlfVisualType aType);
-
- /**
- * Constructor for a template for creating a layout.
- * @exception std::bad_alloc
- *
- * @since S60 ?S60_version
- *
- * @param aType The type of the layout to create.
- */
- OSN_IMPORT static AlfVisualTemplate* create(TAlfLayoutType aType);
-
- /**
- * Constructor for an empty template.
- * @exception std::bad_alloc
- *
- * @since S60 ?S60_version
- *
- */
- OSN_IMPORT static AlfVisualTemplate* create();
-
- // Destructor.
- OSN_IMPORT virtual ~AlfVisualTemplate();
-
- //From IAlfVisualTemplate
-
- /**
- * Sets the owner element. User should not call this method directly. It will
- * be called implicitly by Alf::IAlfElement::setVisualTemplate() method.
- * Call to this method cannot throw an exception.
- *
- * @see Alf::IAlfElement::setVisualTemplate()
- *
- * @since S60 ?S60_version
- *
- * @param aOwner Element that owns this root visual template.
- */
- OSN_IMPORT void setOwner(IAlfElement* aElement) throw();
-
- /**
- * Returns the owner element. Call to this method cannot
- * throw an exception.
- *
- * @see Alf::IAlfElement::setVisualTemplate()
- *
- * @since S60 ?S60_version
- *
- * @return The owner element of a visual template, if this visual template is owned
- * by an element. NULL if visual template is not owned by an element.
- */
- OSN_IMPORT IAlfElement* owner() const throw();
-
- /**
- * Set name of the visual. This name is used when creating
- * concrete visual trees. Name is assigned to each of the produced concrete
- * visuals as a tag. Note thus that all concrete visual
- * trees produced from this visual template share the same tag.
- *
- * @see name()
- *
- * @exception std::bad_alloc thrown if heap memory allocation fails.
- *
- * @since S60 ?S60_version
- *
- * @param aName The name of the visual.
- */
- OSN_IMPORT void setName(const char* aName);
-
- /**
- * Returns the name of the visual. Call to this method
- * cannot throw an exception.
- *
- * @see setName()
- *
- * @since S60 ?S60_version
- *
- * @return aName The name of the visual.
- */
- OSN_IMPORT const char* name() const throw();
-
- /**
- * Get the number of child visual templates.
- * This returns the number of child visual templates directly
- * under this visual template in the visual template
- * hierarchy. Call to this method cannot throw an exception.
- *
- * @since S60 ?S60_version
- *
- * @return The number of direct child visual templates
- * under this visual template in the visual template hierarchy.
- */
- OSN_IMPORT int numChildTemplates() const throw();
-
- /**
- * Returns a child visual template at a given index.
- *
- * @exception osncore::AlfException thrown with error code osncore::EInvalidArrayIndex if
- * the index is out of bounds.
- *
- * @since S60 ?S60_version
- *
- * @param aIndex The index of the child visual template.
- *
- * @return Reference to the child visual template object.
- */
- OSN_IMPORT IAlfVisualTemplate& childTemplate(int aIndex) const;
-
- /**
- * Add a child visual template. The visual templates may form
- * a tree structure to create and update a visual tree. The visuals
- * created by children are added to the layout created by this
- * visual template. This visual template acquires the ownership for the
- * child visual template passed as an argument.
- *
- * If a visual template added as a child to this visual template is owned
- * by an Alf::IAlfElement the connection between the child visual template
- * and its owner element is implicitly removed in this call when a
- * parent-child connection is created. Effectively having a parent visual
- * template or being owned by an element are mutually exclusive properties
- * for a visual template. Elements can own only root visual templates and
- * if an owned root visual template becomes a child of another visual
- * template the visual template will be removed from the associated owner
- * element.
- *
- * @see insertChildTemplate()
- *
- * @exception std::bad_alloc Thrown if memory allocation fails in appending the child
- * visual template to child array of this visual template.
- * @exception osncore::AlfException thrown with error code osncore::EInvalidHierarchy if
- * the call to this method would result in an invalid visual template hierarchy.
- * This can occur if a child is added to a non-layout visual template or if a
- * call would result in a parent becoming a descendant of it's child (a recursive
- * tree).
- *
- * @since S60 ?S60_version
- *
- * @param aChild Child visual template to be appended to the children of this visual template.
- */
- OSN_IMPORT void addChildTemplate(IAlfVisualTemplate& aChild);
-
- /**
- * Inserts a child visual template at given index. The visual templates may form
- * a tree structure to create and update a concrete visual tree. The concrete visuals
- * created by children are added to the layout created by this
- * visual template. This visual template acquires the ownership of the inserted
- * child visual template.
- *
- * @see addChildTemplate()
- *
- * @exception std::bad_alloc thrown if memory allocation fails in inserting the child visual
- * template to the child list of this visual template.
- * @exception osncore::AlfException thrown with error code osncore::EInvalidArrayIndex when
- * index supplied is out of range for array of visual templates.
- * @exception osncore::AlfException thrown with error code osncore::EInvalidHierarchy if
- * the call to this method would result in an invalid visual template hierarchy.
- * This can occur if a child is added to a non-layout visual template or if a
- * call would result in a parent becoming a descendant of it's child (a recursive
- * tree) or if the same child visual template is added to the hierarchy twice.
- *
- * @since S60 ?S60_version
- *
- * @param aChild The child visual template.
- * @param aIndex Position at which child template is to be added.
- */
- OSN_IMPORT void insertChildTemplate(IAlfVisualTemplate& aChild, int aIndex);
-
- /**
- * Removes and destroyes a child visual template from an index in the child list
- * of this visual template. This will recursively also destroy all child visual templates
- * in the hierarchy below the destroyed child visual template. This call is silently
- * ignored if the index is out of bounds. Call to this method cannot throw an
- * exception.
- *
- * @since S60 ?S60_version
- *
- * @param aIndex Position from which child visual template is to be removed.
- */
- OSN_IMPORT void destroyChildTemplate(int aIndex) throw();
-
- /**
- * Destroyes a child visual template with the given name and removes it from the children
- * of this visual template. This will recursively also destroy all child visual templates
- * in the hierarchy below the destroyed child visual template. This call is silently
- * ignored if a child visual template with the given name is not found. Call
- * to this method cannot throw an exception.
- *
- * @since S60 ?S60_version
- *
- * @param aName Name of child visual template to be destroyed.
- */
- OSN_IMPORT void destroyChildTemplate(const char* aName) throw();
-
- /**
- * Add a new attribute setter and associated attribute container to set visual attributes
- * of the concrete visual hierarchies created or updated with this visual template hierarchy.
- * This visual template object acquires ownership of both the passed attribute setter as well
- * as the attribute container. Attribute containers in a visual template are iterated through
- * whenever concrete visual trees are created or updated. Concrete visual tree attributes
- * are set from the data passed in through the createVisualTree() and updateVisualTree() methods
- * using the attribute setters and containers added into the visual template using this method.
- *
- * @see createVisualTree()
- * @see updateVisualTree()
- *
- * @exception std::bad_alloc thrown if heap memory allocation fails.
- *
- * @since S60 ?S60_version
- *
- * @param aSetter Attribute setter that will be used to set the attributes in the passed in
- * container to concrete visuals.
- * @param aContainer Container holding the attribute value used by the attribute setter.
- */
- OSN_IMPORT void addAttributeSetter(IAlfAttributeSetter* aSetter,
- AlfAttributeContainer* aContainer);
-
- /**
- * Get the number of the attribute setters and the corresponding attribute containers.
- * Call to this method cannot throw an exception.
- *
- * @since S60 ?S60_version
- *
- * @return The number of the attribute setters and containers.
- */
- OSN_IMPORT int numAttributeSetters() const throw();
-
- /**
- * Returns an attribute setter maintained in this visual template from the given index.
- *
- * @exception osncore::AlfException thrown with error code osncore::EInvalidArrayIndex if
- * the given index is out of bounds.
- *
- * @since S60 ?S60_version
- *
- * @param aIndex The index of the visual attribute setter.
- * @return Reference to the attribute setter object.
- */
- OSN_IMPORT IAlfAttributeSetter& attributeSetter( int aIndex ) const;
-
- /**
- * Returns an attribute container maintained in this visual template from the given index.
- *
- * @exception osncore::AlfException thrown with error code osncore::EInvalidArrayIndex if
- * the given index is out of bounds.
- *
- * @since S60 ?S60_version
- *
- * @param aIndex The index of the visual attribute container.
- * @return Reference to the attribute container object.
- */
- OSN_IMPORT AlfAttributeContainer& attributeContainer( int aIndex ) const;
-
- /**
- * Update an existing concrete visual tree with new values. The existing visual tree
- * should be produced from this visual template hierarchy using the createVisualTree() -
- * method.
- *
- * @see createVisualTree()
- * @see setSelectChildMode()
- * @see addAttributeSetter()
- *
- * @since S60 ?S60_version
- *
- * @param aData A map containing new data for the visuals.
- * @param aOldData Old data, that will be replaced. This is used to for instance tear down
- * the old selected child branch before creating a new branch in the selected
- * child mode.
- * @param aVisual The root of the concrete visual tree that will be updated. This root visual
- * needs to match this visual template and should have been created using this
- * visual template.
- * @return Root visual of the updated concrete visual tree.
- */
- OSN_IMPORT CAlfVisual* updateVisualTree(IAlfMap* aData,
- IAlfMap* aOldData, CAlfVisual& aVisual);
-
- /**
- * Creates a new concrete visual tree from this visual template hierarchy and initializes the visuals.
- * Created visual tree matches the visual template hierarchy under this visual template.
- *
- * @see updateVisualTree()
- * @see setSelectChildMode()
- * @see addAttributeSetter()
- *
- * @since S60 ?S60_version
- *
- * @param aControl The owner control of the new concrete visual hierarchy.
- * @param aData A map containing data for the visuals. This is used to set the attributes of the
- * produced concrete visuals using the attribute containers and attribute setters
- * added through the addAttributeSetter() - method.
- * @param aParentLayout Concrete layout visual to insert the created concrete visual tree into.
- * Parent layout for a created visual.
- * @param aLayoutIndex Ordinal index, into where the created visual should be placed in the parent layout.
- *
- * @return Pointer to the root visual object of the concrete visual hierarchy that was constructed.
- */
- OSN_IMPORT CAlfVisual* createVisualTree(CAlfControl& aControl,
- IAlfMap* aData, CAlfLayout* aParentLayout, int aLayoutIndex);
-
- /**
- * Set the visual type. Every visual template maps to
- * one concrete visual or layout type. Each visual template
- * node in the visual template hierarchy can produce
- * only visuals that match its type. Container nodes
- * in the visual template hierarchy map to layouts
- * and leaf visual template nodes map to visuals.
- *
- * Call to this method will make this visual template
- * a visual type. The type can thus change from layout
- * type to a visual type.
- *
- * @see setLayoutType()
- * @see visualType()
- * @see layoutType()
- *
- * @since S60 ?S60_version
- *
- * @param aType Type of visual
- */
- OSN_IMPORT void setVisualType(TAlfVisualType aType);
-
- /**
- * Get the visual type
- *
- * @since S60 ?S60_version
- *
- * @return aType Type of visual
- */
- OSN_IMPORT int visualType() const throw();
-
- /**
- * Set the layout type. Every visual template maps to
- * one concrete visual or layout type. Each visual template
- * node in the visual template hierarchy can produce
- * only visuals that match its type. Container nodes
- * in the visual template hierarchy map to layouts
- * and leaf visual template nodes map to visuals.
- *
- * Call to this method will make this visual template
- * a layout type. The type can thus change from visual
- * producer to a layout producer.
- *
- * @see setVisualType()
- * @see visualType()
- * @see layoutType()
- *
- * @since S60 ?S60_version
- *
- * @param aType Type of layout
- */
- OSN_IMPORT void setLayoutType(TAlfLayoutType aType);
-
- /**
- * Get the layout type or a negative integer
- * if this visual template is of visual type.
- * Call to this method cannot throw an exception.
- *
- * @since S60 ?S60_version
- *
- * @return Type of layout that this visual template produces
- * or a negative integer if this visual template
- * produces visuals.
- */
- OSN_IMPORT int layoutType() const throw();
-
- /**
- * Adds brush to the brush array.
- *
- * All brushes added to a visual template will be applied to
- * the produced concrete visual when one is produced. The same
- * brush array is shared across all concrete visual instancies
- * created from same visual template.
- *
- * @see brush()
- * @see numBrushes()
- *
- * @exception std::bad_alloc thrown if a heap memory allocation fails.
- *
- * @since S60 ?S60_version
- *
- * @param aBrush Brush to be added
- */
- OSN_IMPORT void addBrush(CAlfBrush& aBrush);
-
- /**
- * Get the munber of brushes
- *
- * @since S60 ?S60_version
- *
- * @return The number of brushes
- */
- OSN_IMPORT int numBrushes() const;
-
- /**
- * Returns a brush instance from the array of brushes.
- *
- * @see addBrush()
- * @see numBrushes()
- *
- * @exception osncore::AlfException thrown with error code osncore::EInvalidArrayIndex if
- * the given index is out of bounds.
- *
- * @since S60 ?S60_version
- *
- * @param aIndex The index into the array of brushes.
- *
- * @return Reference to the brush object instance at the given array index.
- */
- OSN_IMPORT CAlfBrush& brush(int aIndex) const;
-
- /**
- * Enables or disables selected child mode. By default
- * this is disabled and thus visual template creates or updates
- * all its children when createVisualTree() or updateVisualTree()
- * is called. If selected child mode is enabled the visual template
- * will create or update only the selected child. The child which
- * is affected in selected child mode is determined in the data passed
- * in the createVisualTree() or updateVisualTree() method. In the
- * passed data map a search is done to match the child index
- * field name with the keys in the map. If an entry is found its value
- * is used as an index to determine the child branch that is to be
- * created or updated.
- *
- * @see createVisualTree()
- * @see updateVisualTree()
- *
- * @since S60 ?S60_version
- *
- * @param aSelectChild Set to true to enable the child mode or false to disable the child mode.
- * @param aChildIndFieldName Key in data map, from which entry the index of
- * the selected child is fetched.
- */
- OSN_IMPORT void setSelectChildMode(bool aSelectChild,
- const UString& aChildIndFieldName );
-
- //From IAlfInterfaceBase
- /**
- * From IAlfInterfaceBase.
- * Getter for interfaces provided by the visual template.
- * Derived classes should always call the base class method
- * from the overridden makeInterface.
- *
- * @since S60 ?S60_version
- * @param aType A descriptor to identify the type of the queried interface.
- * @return The queried interface, or NULL if the interface is not
- * supported or available.
- */
- OSN_IMPORT virtual IAlfInterfaceBase* makeInterface( const IfId& aType );
-
- /**
- * Removes the given child visual template from this visual template.
- * Call to this method is silently ignored if the given visual template
- * is not found from children. The parent template of the removed child
- * is set to null. Ownership of the removed child visual template is
- * transferred to the caller of this method. Call to this method cannot
- * throw an exception.
- *
- * @see setParent()
- * @see parent()
- *
- * @param aChild Reference to the child visual template that is located
- * and removed from this visual template.
- */
- void removeChildTemplate(IAlfVisualTemplate& aChild) throw();
-
- /**
- * Retrieves pointer to the parent visual template.
- * Returns NULL if this is a root visual template of a visual template
- * hierarchy. Call to this method cannot throw an exception.
- *
- * @see addChildTemplate()
- * @see insertChildTemplate()
- * @see Alf::IAlfElement::setVisualTemplate()
- *
- * @return Pointer to a Alf::IAlfVisualTemplate object that this visual template
- * is a child of.
- */
- OSN_IMPORT IAlfVisualTemplate* parent() const throw();
-
- /**
- * Sets the parent visual template.
- *
- * User should not call this method directly. It will be called implicitly
- * by addChildTemplate() or insertChildTemplate() methods of
- * the parent visual template into which this visual template is
- * added to.
- *
- * Parent visual template and owner element are mutually exclusive.
- * If a visual template is added under another visual template
- * in a visual template hierarchy the connection to owner element
- * is implicitly removed. Alf::IAlfElement objects can thus own only
- * roots of visual template hierarchies.
- *
- * Call to this method cannot throw an exception.
- *
- * @see addChildTemplate()
- * @see insertChildTemplate()
- * @see parent()
- * @see Alf::IAlfElement::setVisualTemplate()
- *
- * @param aParent Pointer to a parent visual template under which this
- * visual template is located in in the visual template
- * hierarchy or null, if the visual template is removed from
- * a visual template hierarchy.
- */
- OSN_IMPORT void setParent(IAlfVisualTemplate* aParent) throw();
-
-protected:
- /**
- * c++-constructor for a template for creating a visual.
- *
- * @since S60 ?S60_version
- *
- * @param aType The type of the visual to create.
- */
- OSN_IMPORT AlfVisualTemplate(TAlfVisualType aType);
-
- /**
- * c++-constructor for a template for creating a layout.
- *
- * @since S60 ?S60_version
- *
- * @param aType The type of the layout to create.
- */
- OSN_IMPORT AlfVisualTemplate(TAlfLayoutType aType);
-
- /**
- * c++-constructor for an empty template.
- *
- * @since S60 ?S60_version
- */
- OSN_IMPORT AlfVisualTemplate();
-
-private:
- /**
- * returns the index to child, that should be created. The index is
- * fetched from the data.
- *
- * @since S60 ?S60_version
- *
- * @param aData data-map, where the index is fetched.
- * @return index to child, that should be created.
- */
- int selectedChildInd(IAlfMap* aData);
-
-private:
-
- // Type of the visual to create.
- // Negative values are layout types, positive values visual types.
- int mVisualType;
-
- // The array containing child visual templates. Owned.
- std::vector<IAlfVisualTemplate*> mChildren;
-
- // The tag of the visual to create.
- UString mVisualName;
-
- // The array containing visual attribute setters. Owned.
- AlfPtrVector<IAlfAttributeSetter> mAttributeArray;
-
- // The array containing attribute containers.
- AlfPtrVector<AlfAttributeContainer> mContainerArray;
-
- //The array containing brushes. Owned.
- AlfPtrVector<CAlfBrush> mBrushArray;
-
- //if true, creates only one child visual tree.
- bool mSelectOneChild;
-
- //field name in data where child index is read.
- //if iSelectOneChild is true, index points to child in childarray, to create.
- UString mChildIndFieldName;
-
- // Owner element of this visual template. Not owned.
- IAlfElement* mOwner;
-
- // Pointer to the parent visual template.
- IAlfVisualTemplate* mParent;
- };
-
- } // namespace Alf
-
-#endif //ALF_VISUALTEMPLATE_H