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Apache FOP (Formatting Objects Processor) is the world's first print formatter driven by XSL formatting objects (XSL-FO) and the world's first output independent formatter. It is a Java application that reads a formatting object (FO) tree and renders the resulting pages to a specified output. Output formats currently supported include PDF, PCL, PS, AFP, TIFF, PNG, SVG, XML (area tree representation), Print, AWT and TXT. The primary output target is PDF.
/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/* $Id: LayoutManager.java 1562429 2014-01-29 12:52:26Z vhennebert $ */
package org.apache.fop.layoutmgr;
import java.util.List;
import java.util.Stack;
import org.apache.fop.area.Area;
import org.apache.fop.datatypes.PercentBaseContext;
import org.apache.fop.fo.FObj;
/**
* The interface for all LayoutManagers.
*/
public interface LayoutManager extends PercentBaseContext {
/**
* Set the parent layout manager.
* The parent layout manager is required for adding areas.
*
* @param lm the parent layout manager
*/
void setParent(LayoutManager lm);
/**
* Get the parent layout manager.
* @return the parent layout manager.
*/
LayoutManager getParent();
/**
* initialize the layout manager. Allows each layout manager
* to calculate often used values.
*/
void initialize();
/**
* Get the active PageSequenceLayoutManager instance for this
* layout process.
* @return the PageSequenceLayoutManager
*/
PageSequenceLayoutManager getPSLM();
/**
* Return a value indicating whether this LayoutManager has laid out
* all its content (or generated BreakPossibilities for all content.)
*
* @return true if this layout manager is finished
*/
boolean isFinished();
/**
* Set a flag indicating whether the LayoutManager has laid out all
* its content. This is generally called by the LM itself, but can
* be called by a parentLM when backtracking.
*
* @param isFinished the value to set the finished flag to
*/
void setFinished(boolean isFinished);
/**
* Get the parent area for an area.
* This should get the parent depending on the class of the
* area passed in.
*
* @param childArea the child area to get the parent for
* @return the parent Area
*/
Area getParentArea(Area childArea);
/**
* Add the area as a child of the current area.
* This is called by child layout managers to add their
* areas as children of the current area.
*
* @param childArea the child area to add
*/
void addChildArea(Area childArea);
/**
* Tell the layout manager to add all the child areas implied
* by Position objects which will be returned by the
* Iterator.
*
* @param posIter the position iterator
* @param context the context
*/
void addAreas(PositionIterator posIter, LayoutContext context);
/**
* Create more child LMs of the parent, up to child LM index pos
* @param pos index up to which child LMs are requested
* @return true if requested index does exist
*/
boolean createNextChildLMs(int pos);
/**
* @return the list of child LMs
*/
List getChildLMs();
/**
* Add the LM in the argument to the list of child LMs;
* set this LM as the parent;
* initialize the LM.
* @param lm the LM to be added
*/
void addChildLM(LayoutManager lm);
/**
* Add the LMs in the argument to the list of child LMs;
* @param newLMs the list of LMs to be added
*/
void addChildLMs(List newLMs);
/**
* Get a sequence of KnuthElements representing the content
* of the node assigned to the LM.
*
* @param context the LayoutContext used to store layout information
* @param alignment the desired text alignment
* @return the list of KnuthElements
*/
List getNextKnuthElements(LayoutContext context, int alignment);
/**
* Get a sequence of KnuthElements representing the content
* of the node assigned to the LM, after changes have been applied
*
* In the context of line breaking, this method is called after hyphenation has
* been performed, in order to receive the sequence of elements representing the
* text together with all possible hyphenation points.
* For example, if the text "representation" originates a single box element
* when getNextKnuthElements() is called, it will be now split in syllables
* (rep-re-sen-ta-tion) each one originating a box and divided by additional
* elements allowing a line break.
*
* In the context of page breaking, this method is called only if the pages need
* to be "vertically justified" modifying (also) the quantity of lines created by
* the paragraphs, and after a first page breaking has been performed.
* According to the result of the first page breaking, each paragraph now knows
* how many lines it must create (among the existing layout possibilities) and
* has to create a sequence of elements representing this layout; in particular,
* each box, representing a line, will contain a LineBreakPositions that will be
* used in the addAreas() phase.
*
* LMs having children look at the old list of elements in order to know which
* ones they must get the new elements from, as break conditions of preserved
* linefeeds can divide children into smaller groups (page sequences or
* paragraphs).
* LMs having no children can simply return the old elements if they have nothing
* to change.
*
* Inline LMs need to know the text alignment because it affects the elements
* representing feasible breaks between syllables.
*
* @param oldList the elements to replace
* @param alignment the desired text alignment
* @return the updated list of KnuthElements
*/
List getChangedKnuthElements(List oldList, int alignment);
/**
* Whether the FO handled by this layout manager has a descendant (including itself)
* that will generate a line-area.
*
* @return {@code true} if a descendant line-area will be generated, {@code false} otherwise
*/
boolean hasLineAreaDescendant();
/**
* Returns the position of the dominant-baseline of this FO's first descendant
* line-area. The behavior of this method is undefined if this FO has no descendant
* line-area, and an exception may be thrown. See {@link #hasLineAreaDescendant()}
*
* @return this FO's space-before plus the distance from the before-edge of its
* allocation-rectangle to the dominant-baseline of the first line-area descendant
* @see #hasLineAreaDescendant()
*/
int getBaselineOffset();
/**
* Returns the IPD of the content area
* @return the IPD of the content area
*/
int getContentAreaIPD();
/**
* Returns the BPD of the content area
* @return the BPD of the content area
*/
int getContentAreaBPD();
/**
* Returns an indication if the layout manager generates a reference area.
* @return True if the layout manager generates a reference area
*/
boolean getGeneratesReferenceArea();
/**
* Returns an indication if the layout manager generates a block area.
* @return True if the layout manager generates a block area
*/
boolean getGeneratesBlockArea();
/**
* Returns an indication if the layout manager generates a line area.
* @return True if the layout manager generates a line area
*/
boolean getGeneratesLineArea();
/**
* Returns the fo this layout manager is associated with.
* @return The fo for this layout manager or null.
*/
FObj getFObj();
/**
* Adds a Position to the Position participating in the first|last determination by assigning
* it a unique position index.
* @param pos the Position
* @return the same Position but with a position index
*/
Position notifyPos(Position pos);
/**
* Re-initializes this layout manager in order to re-generate its Knuth
* elements according to a new IPD value.
*/
void reset();
/**
* Returns {@code true} if this layout manager is able to re-generate its
* Knuth elements after an IPD change.
*
* @return {@code true} if this layout manager can be restarted after an IPD
* change
*/
boolean isRestartable();
/**
* Returns an updated list of Knuth elements corresponding to this layout
* manager, after a change of IPD has been detected.
*
* @param context the layout context
* @param alignment the alignment
* @param lmStack the stack of LMs that are active at the IPD change
* @param positionAtIPDChange the position corresponding to the element
* finishing the page before the IPD change
* @param restartAtLM if not null, the layout manager from which to restart.
* That is, the IPD change occurs between two block elements and not inside
* a paragraph
* @return an updated list of elements, taking the new IPD into account
*/
List getNextKnuthElements(LayoutContext context, int alignment, Stack lmStack,
Position positionAtIPDChange, LayoutManager restartAtLM);
}