/*
* @(#)MediaPrintableArea.java 1.13 05/11/17
*
* Copyright 2006 Sun Microsystems, Inc. All rights reserved.
* SUN PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.
*/
package javax.print.attribute.standard;
import javax.print.attribute.Attribute;
import javax.print.attribute.DocAttribute;
import javax.print.attribute.PrintJobAttribute;
import javax.print.attribute.PrintRequestAttribute;
/**
* Class MediaPrintableArea is a printing attribute used to distinguish
* the printable and non-printable areas of media.
* <p>
* The printable area is specified to be a rectangle, within the overall
* dimensions of a media.
* <p>
* Most printers cannot print on the entire surface of the media, due
* to printer hardware limitations. This class can be used to query
* the acceptable values for a supposed print job, and to request an area
* within the constraints of the printable area to be used in a print job.
* <p>
* To query for the printable area, a client must supply a suitable context.
* Without specifying at the very least the size of the media being used
* no meaningful value for printable area can be obtained.
* <p>
* The attribute is not described in terms of the distance from the edge
* of the paper, in part to emphasise that this attribute is not independent
* of a particular media, but must be described within the context of a
* choice of other attributes. Additionally it is usually more convenient
* for a client to use the printable area.
* <p>
* The hardware's minimum margins is not just a property of the printer,
* but may be a function of the media size, orientation, media type, and
* any specified finishings.
* <code>PrintService</code> provides the method to query the supported
* values of an attribute in a suitable context :
* See {@link javax.print.PrintService#getSupportedAttributeValues(Class,DocFlavor, AttributeSet) <code>PrintService.getSupportedAttributeValues()</code>}
* <p>
* The rectangular printable area is defined thus:
* The (x,y) origin is positioned at the top-left of the paper in portrait
* mode regardless of the orientation specified in the requesting context.
* For example a printable area for A4 paper in portrait or landscape
* orientation will have height > width.
* <p>
* A printable area attribute's values are stored
* internally as integers in units of micrometers (µm), where 1 micrometer
* = 10<SUP>-6</SUP> meter = 1/1000 millimeter = 1/25400 inch. This permits
* dimensions to be represented exactly to a precision of 1/1000 mm (= 1
* µm) or 1/100 inch (= 254 µm). If fractional inches are expressed in
* negative powers of two, this permits dimensions to be represented exactly to
* a precision of 1/8 inch (= 3175 µm) but not 1/16 inch (because 1/16 inch
* does not equal an integral number of µm).
* <p>
* <B>IPP Compatibility:</B> MediaPrintableArea is not an IPP attribute.
*/
public final class MediaPrintableArea implements DocAttribute, PrintRequestAttribute, PrintJobAttribute {
private int x, y, w, h;
private int units;
private static final long serialVersionUID = -1597171464050795793L;
/**
* Value to indicate units of inches (in). It is actually the conversion
* factor by which to multiply inches to yield µm (25400).
*/
public static final int INCH = 25400;
/**
* Value to indicate units of millimeters (mm). It is actually the
* conversion factor by which to multiply mm to yield µm (1000).
*/
public static final int MM = 1000;
/**
* Constructs a MediaPrintableArea object from floating point values.
* @param x printable x
* @param y printable y
* @param w printable width
* @param h printable height
* @param units in which the values are expressed.
*
* @exception IllegalArgumentException
* Thrown if <CODE>x</CODE> < 0 or <CODE>y</CODE> < 0
* or <CODE>w</CODE> <= 0 or <CODE>h</CODE> <= 0 or
* <CODE>units</CODE> < 1.
*/
public MediaPrintableArea(float x, float y, float w, float h, int units) {
if ((x < 0.0) || (y < 0.0) || (w <= 0.0) || (h <= 0.0) ||
(units < 1)) {
throw new IllegalArgumentException("0 or negative value argument");
}
this.x = (int) (x * units + 0.5f);
this.y = (int) (y * units + 0.5f);
this.w = (int) (w * units + 0.5f);
this.h = (int) (h * units + 0.5f);
}
/**
* Constructs a MediaPrintableArea object from integer values.
* @param x printable x
* @param y printable y
* @param w printable width
* @param h printable height
* @param units in which the values are expressed.
*
* @exception IllegalArgumentException
* Thrown if <CODE>x</CODE> < 0 or <CODE>y</CODE> < 0
* or <CODE>w</CODE> <= 0 or <CODE>h</CODE> <= 0 or
* <CODE>units</CODE> < 1.
*/
public MediaPrintableArea(int x, int y, int w, int h, int units) {
if ((x < 0) || (y < 0) || (w <= 0) || (h <= 0) ||
(units < 1)) {
throw new IllegalArgumentException("0 or negative value argument");
}
this.x = x * units;
this.y = y * units;
this.w = w * units;
this.h = h * units;
}
/**
* Get the printable area as an array of 4 values in the order
* x, y, w, h. The values returned are in the given units.
* @param units
* Unit conversion factor, e.g. {@link #INCH <CODE>INCH</CODE>} or
* {@link #MM <CODE>MM</CODE>}.
*
* @return printable area as array of x, y, w, h in the specified units.
*
* @exception IllegalArgumentException
* (unchecked exception) Thrown if <CODE>units</CODE> < 1.
*/
public float[] getPrintableArea(int units) {
return new float[] { getX(units), getY(units),
getWidth(units), getHeight(units) };
}
/**
* Get the x location of the origin of the printable area in the
* specified units.
* @param units
* Unit conversion factor, e.g. {@link #INCH <CODE>INCH</CODE>} or
* {@link #MM <CODE>MM</CODE>}.
*
* @return x location of the origin of the printable area in the
* specified units.
*
* @exception IllegalArgumentException
* (unchecked exception) Thrown if <CODE>units</CODE> < 1.
*/
public float getX(int units) {
return convertFromMicrometers(x, units);
}
/**
* Get the y location of the origin of the printable area in the
* specified units.
* @param units
* Unit conversion factor, e.g. {@link #INCH <CODE>INCH</CODE>} or
* {@link #MM <CODE>MM</CODE>}.
*
* @return y location of the origin of the printable area in the
* specified units.
*
* @exception IllegalArgumentException
* (unchecked exception) Thrown if <CODE>units</CODE> < 1.
*/
public float getY(int units) {
return convertFromMicrometers(y, units);
}
/**
* Get the width of the printable area in the specified units.
* @param units
* Unit conversion factor, e.g. {@link #INCH <CODE>INCH</CODE>} or
* {@link #MM <CODE>MM</CODE>}.
*
* @return width of the printable area in the specified units.
*
* @exception IllegalArgumentException
* (unchecked exception) Thrown if <CODE>units</CODE> < 1.
*/
public float getWidth(int units) {
return convertFromMicrometers(w, units);
}
/**
* Get the height of the printable area in the specified units.
* @param units
* Unit conversion factor, e.g. {@link #INCH <CODE>INCH</CODE>} or
* {@link #MM <CODE>MM</CODE>}.
*
* @return height of the printable area in the specified units.
*
* @exception IllegalArgumentException
* (unchecked exception) Thrown if <CODE>units</CODE> < 1.
*/
public float getHeight(int units) {
return convertFromMicrometers(h, units);
}
/**
* Returns whether this media margins attribute is equivalent to the passed
* in object.
* To be equivalent, all of the following conditions must be true:
* <OL TYPE=1>
* <LI>
* <CODE>object</CODE> is not null.
* <LI>
* <CODE>object</CODE> is an instance of class MediaPrintableArea.
* <LI>
* The origin and dimensions are the same.
* </OL>
*
* @param object Object to compare to.
*
* @return True if <CODE>object</CODE> is equivalent to this media margins
* attribute, false otherwise.
*/
public boolean equals(Object object) {
boolean ret = false;
if (object instanceof MediaPrintableArea) {
MediaPrintableArea mm = (MediaPrintableArea)object;
if (x == mm.x && y == mm.y && w == mm.w && h == mm.h) {
ret = true;
}
}
return ret;
}
/**
* Get the printing attribute class which is to be used as the "category"
* for this printing attribute value.
* <P>
* For class MediaPrintableArea, the category is
* class MediaPrintableArea itself.
*
* @return Printing attribute class (category), an instance of class
* {@link java.lang.Class java.lang.Class}.
*/
public final Class<? extends Attribute> getCategory() {
return MediaPrintableArea.class;
}
/**
* Get the name of the category of which this attribute value is an
* instance.
* <P>
* For class MediaPrintableArea,
* the category name is <CODE>"media-printable-area"</CODE>.
* <p>This is not an IPP V1.1 attribute.
*
* @return Attribute category name.
*/
public final String getName() {
return "media-printable-area";
}
/**
* Returns a string version of this rectangular size attribute in the
* given units.
*
* @param units
* Unit conversion factor, e.g. {@link #INCH <CODE>INCH</CODE>} or
* {@link #MM <CODE>MM</CODE>}.
* @param unitsName
* Units name string, e.g. <CODE>"in"</CODE> or <CODE>"mm"</CODE>. If
* null, no units name is appended to the result.
*
* @return String version of this two-dimensional size attribute.
*
* @exception IllegalArgumentException
* (unchecked exception) Thrown if <CODE>units</CODE> < 1.
*/
public String toString(int units, String unitsName) {
if (unitsName == null) {
unitsName = "";
}
float []vals = getPrintableArea(units);
String str = "("+vals[0]+","+vals[1]+")->("+vals[2]+","+vals[3]+")";
return str + unitsName;
}
/**
* Returns a string version of this rectangular size attribute in mm.
*/
public String toString() {
return(toString(MM, "mm"));
}
/**
* Returns a hash code value for this attribute.
*/
public int hashCode() {
return x + 37*y + 43*w + 47*h;
}
private static float convertFromMicrometers(int x, int units) {
if (units < 1) {
throw new IllegalArgumentException("units is < 1");
}
return ((float)x) / ((float)units);
}
}