javafx.print.JobSettings Maven / Gradle / Ivy
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/*
* Copyright (c) 2013, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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package javafx.print;
import java.util.Set;
import javafx.beans.property.BooleanProperty;
import javafx.beans.property.BooleanPropertyBase;
import javafx.beans.property.IntegerProperty;
import javafx.beans.property.ObjectProperty;
import javafx.beans.property.Property;
import javafx.beans.property.SimpleIntegerProperty;
import javafx.beans.property.SimpleObjectProperty;
import javafx.beans.property.SimpleStringProperty;
import javafx.beans.property.StringProperty;
import javafx.beans.value.ObservableValue;
/**
* The JobSettings class encapsulates most of the configuration of a
* print job. Applications do not - and cannot - directly create or
* set a JobSettings instance. One is already installed on the print job
* when it is created.
*
* As documented on PrinterJob, the JobSettings installed on that job will
* initially reflect the current default settings for the initially
* associated printer for that job.
*
* The JobSettings delegate then remains the same for the life of the job,
* and will have it's member properties updated to be compatible with
* a change in Printer on the job. For example as a
* result of a user interaction via a platform's dialog.
* An incompatible setting will usually cause the setting to revert to
* the default for the new printer.
*
* Any implicit or explicit updates to settings resulting from
* the user interaction with dialog will be propagated and visible to
* the application once the user approves the settings by
* dismissing the dialog using its "accept" option.
*
* For most printing applications it is likely sufficient to let the user
* set the desired options and have these propagated to the job.
* For applications which need them,
* there are setter and getter methods for the individual options,
* which are also available as properties, and change in values of
* settings may be monitored and updated via these properties.
*
* Not all values of settings are available on all printers. For example
* a printer may not support two-sided printing.
* See the {@link javafx.print.Printer Printer} class for how to
* to determine supported settings.
*
* @since JavaFX 8.0
*
*
*/
public final class JobSettings {
private PrinterJob job;
private Printer printer;
private PrinterAttributes printerCaps;
/*
* There's no need for client code to create a JobSettings
* as there is already one set on a PrinterJob and it must
* be updated, not replaced. So we do not expose the constructor.
*
*/
JobSettings(Printer printer) {
this.printer = printer;
printerCaps = printer.getPrinterAttributes();
}
void setPrinterJob(PrinterJob job) {
this.job = job;
}
private boolean isJobNew() {
// If we haven't yet set the job its equivalent to a new job.
return job == null || job.isJobNew();
}
/*
* We need to be able to distinguish settings which are
* the printer defaults, versus explicitly set ones. so
* the settings object remembers for each setting if it
* was an explicit setting or a default.
* Settings such as JobName which are supportable across printers
* don't need this treatment.
*/
private boolean defaultCopies = true;
private boolean hasOldCopies = false;
private int oldCopies;
private boolean defaultSides = true;
private boolean hasOldSides = false;
private PrintSides oldSides;
private boolean defaultCollation = true;
private boolean hasOldCollation = false;
private Collation oldCollation;
private boolean defaultPrintColor = true;
private boolean hasOldPrintColor = false;
private PrintColor oldPrintColor;
private boolean defaultPrintQuality = true;
private boolean hasOldPrintQuality = false;
private PrintQuality oldPrintQuality;
private boolean defaultPrintResolution = true;
private boolean hasOldPrintResolution = false;
private PrintResolution oldPrintResolution;
private boolean defaultPaperSource = true;
private boolean hasOldPaperSource = false;
private PaperSource oldPaperSource;
private boolean defaultPageLayout = true;
private boolean hasOldPageLayout = false;
private PageLayout oldPageLayout;
/**
* If any settings are incompatible with the specified printer,
* they are updated to be compatible.
* This method could be useful as a public one.
*/
void updateForPrinter(Printer printer) {
this.printer = printer;
this.printerCaps = printer.getPrinterAttributes();
////////////////////////////////////////////////
/*
* The algorithm for how we update is tricky in order to get
* the desired behaviour, which needs to be explained first.
* - If neither user nor code ever set a value for a property,
* we always update to the default for the new printer.
* - If user or code has ever explicitly set a value for a
* property then when we navigate to a different printer we
* remember that last set value.
* - If the new printer can support that value, it is used
* - If it can't, then we use the default value for that printer,
* or in a few cases some 'close' value. Such as substituting
* LANDSCAPE for REVERSE_LANDSCAPE.
* - We still remember the value and if we move to another printer
* that supports it, it gets resurrected.
*/
//////////// COPIES ////////////
if (defaultCopies) {
if (getCopies() != printerCaps.getDefaultCopies()) {
setCopies(printerCaps.getDefaultCopies());
defaultCopies = true; // restore that this is default.
}
} else {
int copies = getCopies();
if (hasOldCopies && oldCopies > copies) {
copies = oldCopies;
}
int maxCopies = printerCaps.getMaxCopies();
if (!hasOldCopies && getCopies() > maxCopies) {
hasOldCopies = true;
oldCopies = getCopies();
}
if (copies > maxCopies) copies = maxCopies;
setCopies(copies);
}
////////////////////////////////////////////////
PrintSides currSides = getPrintSides();
PrintSides defSides = printerCaps.getDefaultPrintSides();
Set suppSides = printerCaps.getSupportedPrintSides();
if (defaultSides) {
if (currSides != defSides) {
setPrintSides(defSides);
defaultSides = true; // restore that this is default.
}
} else {
// The "current" sides may not be the one we really wanted,
// but one that was forced by virtue of the current printer not
// supporting the one specified for a previous printer.
// Check to see if the old supported value can now
// be restored on this new printer.
if (hasOldSides) {
if (suppSides.contains(oldSides)) {
setPrintSides(oldSides);
hasOldSides = false; // is current again.
} else {
setPrintSides(defSides);
}
} else if (!suppSides.contains(currSides)) {
hasOldSides = true;
oldSides = currSides;
setPrintSides(defSides);
}
}
////////////////////////////////////////////////
Collation currColl = getCollation();
Collation defColl = printerCaps.getDefaultCollation();
Set suppColl = printerCaps.getSupportedCollations();
if (defaultCollation) {
if (currColl != defColl) {
setCollation(defColl);
defaultCollation = true; // restore that this is default.
}
} else {
if (hasOldCollation) {
if (suppColl.contains(oldCollation)) {
setCollation(oldCollation);
hasOldCollation = false; // is current again.
} else {
setCollation(defColl);
}
} else if (!suppColl.contains(currColl)) {
hasOldCollation = true;
oldCollation = currColl;
setCollation(defColl);
}
}
////////////////////////////////////////////////
PrintColor currColor = getPrintColor();
PrintColor defColor = printerCaps.getDefaultPrintColor();
Set suppColors = printerCaps.getSupportedPrintColors();
if (defaultPrintColor) {
if (currColor != defColor) {
setPrintColor(defColor);
defaultPrintColor = true; // restore that this is default.
}
} else {
if (hasOldPrintColor) {
if (suppColors.contains(oldPrintColor)) {
setPrintColor(oldPrintColor);
hasOldPrintColor = false; // is current again.
} else {
setPrintColor(defColor);
}
} else if (!suppColors.contains(currColor)) {
hasOldPrintColor = true;
oldPrintColor = currColor;
setPrintColor(defColor);
}
}
////////////////////////////////////////////////
PrintQuality currQuality = getPrintQuality();
PrintQuality defQuality = printerCaps.getDefaultPrintQuality();
Set suppQuality = printerCaps.getSupportedPrintQuality();
if (defaultPrintQuality) {
if (currQuality != defQuality) {
setPrintQuality(defQuality);
defaultPrintQuality = true; // restore that this is default.
}
} else {
if (hasOldPrintQuality) {
if (suppQuality.contains(oldPrintQuality)) {
setPrintQuality(oldPrintQuality);
hasOldPrintQuality = false; // is current again.
} else {
setPrintQuality(defQuality);
}
} else if (!suppQuality.contains(currQuality)) {
hasOldPrintQuality = true;
oldPrintQuality = currQuality;
setPrintQuality(defQuality);
}
}
////////////////////////////////////////////////
PrintResolution currRes = getPrintResolution();
PrintResolution defResolution = printerCaps.getDefaultPrintResolution();
Set suppRes =
printerCaps.getSupportedPrintResolutions();
if (defaultPrintResolution) {
if (currRes != defResolution) {
setPrintResolution(defResolution);
defaultPrintResolution = true; // restore that this is default.
}
} else {
if (hasOldPrintResolution) {
if (suppRes.contains(oldPrintResolution)) {
setPrintResolution(oldPrintResolution);
hasOldPrintResolution = false; // is current again.
} else {
setPrintResolution(defResolution);
}
} else if (!suppRes.contains(currRes)) {
hasOldPrintResolution = true;
oldPrintResolution = currRes;
setPrintResolution(defResolution);
}
}
////////////////////////////////////////////////
PaperSource currSource = getPaperSource();
PaperSource defSource = printerCaps.getDefaultPaperSource();
Set suppSources = printerCaps.getSupportedPaperSources();
if (defaultPaperSource) {
if (currSource != defSource) {
setPaperSource(defSource);
defaultPaperSource = true; // restore that this is default.
}
} else {
if (hasOldPaperSource) {
if (suppSources.contains(oldPaperSource)) {
setPaperSource(oldPaperSource);
hasOldPaperSource = false; // is current again.
} else {
setPaperSource(defSource);
}
} else if (!suppSources.contains(currSource)) {
hasOldPaperSource = true;
oldPaperSource = currSource;
setPaperSource(defSource);
}
}
///////////////////////////////////////////////////
// Paper size is an important component of PageLayout
// and the selected paper input tray may affect the paper sizes
// that are supported. For example non-standard sizes may
// require a manual or secondary input tray to be used.
// The implementation below is not accounting for that and
// it likely should, which means that when updating to a new
// printer we need to consider tray and layout together, not
// consecutively.
PageLayout currPageLayout = getPageLayout();
PageLayout defPageLayout = printer.getDefaultPageLayout();
if (defaultPageLayout) {
// It might appear cleaner to always set the default page layout
// instance for this printer, but it if they are equal, then
// either set(..) will skip it anyway, or it won't and a
// listener will see a somewhat spurious change in the property.
if (!currPageLayout.equals(defPageLayout)) {
setPageLayout(defPageLayout);
defaultPageLayout = true; // restore that this is default.
}
} else {
if (hasOldPageLayout) {
PageLayout valPageLayout =
job.validatePageLayout(oldPageLayout);
if (valPageLayout.equals(oldPageLayout)) {
setPageLayout(oldPageLayout);
hasOldPageLayout = false; // is current again.
} else {
setPageLayout(defPageLayout);
}
} else {
PageLayout valPageLayout =
job.validatePageLayout(currPageLayout);
if (!valPageLayout.equals(currPageLayout)) {
hasOldPageLayout = true;
oldPageLayout = currPageLayout;
// Should I use the validated layout instead ?
setPageLayout(defPageLayout);
}
}
}
}
/////////////////////// START JOBNAME /////////////////////
private static final String DEFAULT_JOBNAME = "JavaFX Print Job";
private SimpleStringProperty jobName;
/**
* StringProperty representing the name of a job.
*/
public final StringProperty jobNameProperty() {
if (jobName == null) {
jobName = new SimpleStringProperty(JobSettings.this, "jobName",
DEFAULT_JOBNAME) {
@Override
public void set(String value) {
if (!isJobNew()) {
return;
}
if (value == null) {
value = DEFAULT_JOBNAME;
}
super.set(value);
}
@Override
public void bind(ObservableValue
rawObservable) {
throw new
RuntimeException("Jobname property cannot be bound");
}
@Override
public void bindBidirectional(Property other) {
throw new
RuntimeException("Jobname property cannot be bound");
}
};
}
return jobName;
}
/**
* @return a string representing the name of a job.
*/
public String getJobName() {
return jobNameProperty().get();
}
/**
* @param name string representing the name of a job.
*/
public void setJobName(String name) {
jobNameProperty().set(name);
}
/////////////////////// END JOBNAME /////////////////////
//////////////////////// START COPIES ////////////////////////
private IntegerProperty copies;
/**
* IntegerProperty representing the number of
* copies of the job to print.
*/
public final IntegerProperty copiesProperty() {
if (copies == null) {
copies =
new SimpleIntegerProperty(JobSettings.this, "copies",
printerCaps.getDefaultCopies()) {
@Override
public void set(int value) {
if (!isJobNew()) {
return;
}
if (value <= 0) {
if (defaultCopies) {
return;
} else {
super.set(printerCaps.getDefaultCopies());
defaultCopies = true;
return;
}
}
super.set(value);
defaultCopies = false;
}
@Override
public void bind(ObservableValue
rawObservable) {
throw new
RuntimeException("Copies property cannot be bound");
}
@Override
public void bindBidirectional(Property other) {
throw new
RuntimeException("Copies property cannot be bound");
}
};
}
return copies;
}
/**
* @return number of copies to print.
*/
public int getCopies() {
return copiesProperty().get();
}
/**
* @param nCopies number of copies to print.
*/
public final void setCopies(int nCopies) {
copiesProperty().set(nCopies);
}
//////////////////////// END COPIES ////////////////////////
/////////////////////// START PAGE RANGES /////////////////////
private ObjectProperty pageRanges = null;
/**
* An ObjectProperty whose value represents the job pages
* to print as an array of PageRange.
* A null values mean print all pages.
* Otherwise it must be a non-overlapping array of PageRange
* instances ordered in increasing page number.
* Page numbers start from 1 (one).
* An empty array is considered equivalent to a null array.
*
* An illegal or unsupported (by the printer) set of page ranges
* will be ignored.
*
* Ranges which exceed beyond the number of pages imaged by the job
* during printing do not cause any error.
*/
public final ObjectProperty pageRangesProperty() {
if (pageRanges == null) {
pageRanges = new SimpleObjectProperty(JobSettings.this,
"pageRanges", null) {
@Override
public void set(Object o) {
try {
set((PageRange[])o);
} catch (ClassCastException e) {
return;
}
}
public void set(PageRange[] value) {
if (!isJobNew()) {
return;
}
if (value == null || value.length == 0 ||
value[0] == null) {
value = null;
} else { // validate
int len = value.length;
PageRange[] arr = new PageRange[len];
int curr = 0;
for (int i=0; i= r.getStartPage()) {
return; // bad range
}
curr = r.getEndPage();
arr[i] = r;
}
value = arr;
}
// passed validation so its either null,
// or an array of ranges in increasing order.
super.set(value);
}
@Override
public void bind(ObservableValue rawObservable) {
throw new RuntimeException
("PageRanges property cannot be bound");
}
@Override
public void bindBidirectional(Property other) {
throw new RuntimeException
("PageRanges property cannot be bound");
}
};
}
return pageRanges;
}
/**
* The range of pages to print. null always means all pages.
* See {@link pageRangesProperty} for more details.
* @return null or an array as specified above
*/
public PageRange[] getPageRanges() {
return (PageRange[])(pageRangesProperty().get());
}
/**
* The range of pages to print as an array of PageRange.
* The use of varargs means the common case of a single range
* can be auto-boxed.
* ((PageRange[])null) always means all pages however
* since this is the default it is less likely to be used.
* See {@link pageRangesProperty} for more details.
* @param pages null or a varargs array as specified above
*/
public void setPageRanges(PageRange... pages) {
pageRangesProperty().set((PageRange[])pages);
}
/////////////////////// END PAGE RANGES /////////////////////
/////////////////////// START SIDES /////////////////////
private ObjectProperty sides = null;
/**
* Property representing an instance of PrintSides.
*/
public final ObjectProperty printSidesProperty() {
if (sides == null) {
sides = new SimpleObjectProperty
(JobSettings.this, "printSides",
printerCaps.getDefaultPrintSides()) {
@Override
public void set(PrintSides value) {
if (!isJobNew()) {
return;
}
if (value == null) {
if (defaultSides) {
return;
} else {
super.set(printerCaps.getDefaultPrintSides());
defaultSides = true;
}
}
if (printerCaps.getSupportedPrintSides().contains(value)) {
super.set(value);
defaultSides = false;
}
}
@Override
public void bind(ObservableValue
rawObservable) {
throw new RuntimeException
("PrintSides property cannot be bound");
}
@Override
public void bindBidirectional(Property other) {
throw new RuntimeException
("PrintSides property cannot be bound");
}
};
}
return sides;
}
/**
* If a printer supports it, then a job may be printed on
* both sides of the media (paper), ie duplex printing.
* This method returns the selected setting.
* @return the duplex (side) setting.
*/
public PrintSides getPrintSides() {
return printSidesProperty().get();
}
/**
* Set the PrintSides property which controls
* duplex printing.
* A null value is ignored.
* @param sides new setting for number of sides.
*/
public void setPrintSides(PrintSides sides) {
if (sides == getPrintSides()) {
return;
}
printSidesProperty().set(sides);
}
/////////////////////// END SIDES /////////////////////
/////////////////////// START COLLATION /////////////////////
private ObjectProperty collation = null;
/**
* Property representing an instance of Collation.
*/
public final ObjectProperty collationProperty() {
if (collation == null) {
Collation coll = printerCaps.getDefaultCollation();
collation = new SimpleObjectProperty
(JobSettings.this, "collation", coll) {
@Override
public void set(Collation value) {
if (!isJobNew()) {
return;
}
if (value == null) {
if (defaultCollation) {
return;
} else {
super.set(printerCaps.getDefaultCollation());
defaultCollation = true;
return;
}
}
if (printerCaps.getSupportedCollations().contains(value)) {
super.set(value);
defaultCollation = false;
}
}
@Override
public void bind(ObservableValue
rawObservable) {
throw new RuntimeException
("Collation property cannot be bound");
}
@Override
public void bindBidirectional(Property other) {
throw new RuntimeException
("Collation property cannot be bound");
}
};
}
return collation;
}
/**
* Collation determines how sheets are sorted when
* multiple copies of a document are printed.
* As such it is only relevant if 2 or more copies of
* a document with 2 more sheets are printed.
* A sheet is the physical media, so documents with 2 pages
* that are printed N-up, or double-sided may still have only
* one sheet.
* A collated print job produces documents with sheets
* of a document sorted in sequence.
* An uncollated job collects together the multiple copies
* of the same sheet.
* Uncollated (false) is the typical default value.
*/
public Collation getCollation() {
return collationProperty().get();
}
/**
* Set the Collation property.
* A null value is ignored.
* @param collation new setting for collation
*/
public void setCollation(Collation collation) {
if (collation == getCollation()) {
return;
}
collationProperty().set(collation);
}
/////////////////////// END COLLATION /////////////////////
/////////////////////// START COLOUR /////////////////////
private ObjectProperty color = null;
/**
* Property representing an instance of PrintColor.
*/
public final ObjectProperty printColorProperty() {
if (color == null) {
color = new SimpleObjectProperty
(JobSettings.this, "printColor",
printerCaps.getDefaultPrintColor()) {
@Override
public void set(PrintColor value) {
if (!isJobNew()) {
return;
}
if (value == null) {
if (defaultPrintColor) {
return;
} else {
super.set(printerCaps.getDefaultPrintColor());
defaultPrintColor = true;
}
}
if (printerCaps.
getSupportedPrintColors().contains(value)) {
super.set(value);
defaultPrintColor = false;
}
}
@Override
public void bind(ObservableValue
rawObservable) {
throw new RuntimeException
("PrintColor property cannot be bound");
}
@Override
public void bindBidirectional(Property other) {
throw new RuntimeException
("PrintColor property cannot be bound");
}
};
}
return color;
}
public PrintColor getPrintColor() {
return printColorProperty().get();
}
/**
* Set the PrintColor property.
* A null value is ignored.
*
* @param color new setting for print color.
*/
public void setPrintColor(PrintColor color) {
if (color == getPrintColor()) {
return;
}
printColorProperty().set(color);
}
/////////////////////// END COLOUR /////////////////////
/////////////////////// START QUALITY /////////////////////
private ObjectProperty quality = null;
/**
* Property representing an instance of PrintQuality.
*/
public final ObjectProperty printQualityProperty() {
if (quality == null) {
quality = new SimpleObjectProperty
(JobSettings.this, "printQuality",
printerCaps.getDefaultPrintQuality()) {
@Override
public void set(PrintQuality value) {
if (!isJobNew()) {
return;
}
if (value == null) {
if (defaultPrintQuality) {
return;
} else {
super.set(printerCaps.getDefaultPrintQuality());
defaultPrintQuality = true;
}
}
if (printerCaps.
getSupportedPrintQuality().contains(value)) {
super.set(value);
defaultPrintQuality = false;
}
}
@Override
public void bind(ObservableValue
rawObservable) {
throw new RuntimeException
("PrintQuality property cannot be bound");
}
@Override
public void bindBidirectional(Property other) {
throw new RuntimeException
("PrintQuality property cannot be bound");
}
};
}
return quality;
}
public PrintQuality getPrintQuality() {
return printQualityProperty().get();
}
/**
* Set the PrintQuality property.
* A null value is ignored.
*
* Note that quality and resolution overlapping concepts.
* Therefore a printer may support setting one, or the other but
* not both. Applications setting these programmatically should
* query both properties and select appropriately from the supported
* values. If a printer supports non-standard values, code likely
* cannot distinguish the printer's interpretation of these values
* and is safest to stick to selecting from the standard value that
* matches the requirement.
* @param quality new setting for print quality.
*/
public void setPrintQuality(PrintQuality quality) {
if (quality == getPrintQuality()) {
return;
}
printQualityProperty().set(quality);
}
/////////////////////// END QUALITY /////////////////////
/////////////////////// START RESOLUTION /////////////////////
private ObjectProperty resolution = null;
/**
* Property representing an instance of PrintResolution.
*/
public final ObjectProperty printResolutionProperty() {
if (resolution == null) {
resolution = new SimpleObjectProperty
(JobSettings.this, "printResolution",
printerCaps.getDefaultPrintResolution()) {
@Override
public void set(PrintResolution value) {
if (!isJobNew()) {
return;
}
if (value == null) {
if (defaultPrintResolution) {
return;
} else {
super.set(printerCaps.getDefaultPrintResolution());
defaultPrintResolution = true;
}
}
if (printerCaps.getSupportedPrintResolutions().
contains(value))
{
super.set(value);
defaultPrintResolution = false;
}
}
@Override
public void bind(ObservableValue
rawObservable) {
throw new RuntimeException
("PrintResolution property cannot be bound");
}
@Override
public void bindBidirectional(Property other)
{
throw new RuntimeException
("PrintResolution property cannot be bound");
}
};
}
return resolution;
}
/**
*
*/
public PrintResolution getPrintResolution() {
return printResolutionProperty().get();
}
/**
* Set the PrintResolution property.
* A null value is ignored.
*
* Note that quality and resolution overlapping concepts.
* Therefore a printer may support setting one, or the other but
* not both. Applications setting these programmatically should
* query both properties and select appropriately from the supported
* values. If a printer supports non-standard values, code likely
* cannot distinguish the printer's interpretation of these values
* and is safest to stick to selecting from the standard value that
* matches the requirement.
* @param resolution new setting for print resolution.
*/
public void setPrintResolution(PrintResolution resolution) {
if (resolution == null || resolution == getPrintResolution()) {
return;
}
printResolutionProperty().set(resolution);
}
/////////////////////// END RESOLUTION /////////////////////
//////////////// START PAPERSOURCE /////////////////
private ObjectProperty paperSource = null;
/**
* Property representing an instance of PaperSource.
*/
public final ObjectProperty paperSourceProperty() {
if (paperSource == null) {
paperSource = new SimpleObjectProperty
(JobSettings.this, "paperSource",
printerCaps.getDefaultPaperSource()) {
@Override
public void set(PaperSource value) {
if (!isJobNew()) {
return;
}
if (value == null) {
if (defaultPaperSource) {
return;
} else {
super.set(printerCaps.getDefaultPaperSource());
defaultPaperSource = true;
}
}
if (printerCaps.
getSupportedPaperSources().contains(value)) {
super.set(value);
defaultPaperSource = false;
}
}
@Override
public void bind(ObservableValue
rawObservable) {
throw new RuntimeException
("PaperSource property cannot be bound");
}
@Override
public void bindBidirectional(Property other) {
throw new RuntimeException
("PaperSource property cannot be bound");
}
};
}
return paperSource;
}
public PaperSource getPaperSource() {
return paperSourceProperty().get();
}
public void setPaperSource(PaperSource value) {
paperSourceProperty().set(value);
}
//////////////// END PAPERSOURCE /////////////////
//////////////// START PAGELAYOUT /////////////////
/*
* Default page needs to originate from the printer, be the
* default for the initial settings on the job.
* having "page" be a property might make sense and perhaps
* for the elts of a paper like orientation.
* But what is the point in listening in on the paper of a Page
* or orientation if a whole new Page is added instead ..
*/
private ObjectProperty layout = null;
/**
* Property representing an instance of PageLayout.
*/
public final ObjectProperty pageLayoutProperty() {
if (layout == null) {
layout = new SimpleObjectProperty
(JobSettings.this, "pageLayout",
printer.getDefaultPageLayout()) {
@Override
public void set(PageLayout value) {
if (!isJobNew()) {
return;
}
if (value == null) {
return;
}
defaultPageLayout = false;
super.set(value);
}
@Override
public void bind(ObservableValue
rawObservable) {
throw new RuntimeException
("PageLayout property cannot be bound");
}
@Override
public void bindBidirectional(Property other) {
throw new RuntimeException
("PageLayout property cannot be bound");
}
};
}
return layout;
}
/**
* Get the current page layout for this job.
* @return page layout to use for the job.
*/
public PageLayout getPageLayout() {
return pageLayoutProperty().get();
}
/**
* Set the PageLayout to use.
* @param pageLayout The page layout to use.
*/
public void setPageLayout(PageLayout pageLayout) {
pageLayoutProperty().set(pageLayout);
}
//////////////// END PAGELAYOUT /////////////////
public String toString() {
String nl = System.lineSeparator();
return
" Collation = " + getCollation() + nl +
" Copies = " + getCopies() + nl +
" Sides = " + getPrintSides() + nl +
" JobName = " + getJobName() + nl +
" Page ranges = " + getPageRanges() + nl +
" Print color = " + getPrintColor() + nl +
" Print quality = " + getPrintQuality() + nl +
" Print resolution = " + getPrintResolution() + nl +
" Paper source = " + getPaperSource() + nl +
" Page layout = " + getPageLayout();
}
}