public class ImageReadParam extends IIOParam
ImageReader
.
An image encoded as part of a file or stream may be thought of
extending out in multiple dimensions: the spatial dimensions of
width and height, a number of bands, and a number of progressive
decoding passes. This class allows a contiguous (hyper)rectangular
subarea of the image in all of these dimensions to be selected for
decoding. Additionally, the spatial dimensions may be subsampled
discontinuously. Finally, color and format conversions may be
specified by controlling the ColorModel
and
SampleModel
of the destination image, either by
providing a BufferedImage
or by using an
ImageTypeSpecifier
.
An ImageReadParam
object is used to specify how an
image, or a set of images, will be converted on input from
a stream in the context of the Java Image I/O framework. A plug-in for a
specific image format will return instances of
ImageReadParam
from the
getDefaultReadParam
method of its
ImageReader
implementation.
The state maintained by an instance of
ImageReadParam
is independent of any particular image
being decoded. When actual decoding takes place, the values set in
the read param are combined with the actual properties of the image
being decoded from the stream and the destination
BufferedImage
that will receive the decoded pixel
data. For example, the source region set using
setSourceRegion
will first be intersected with the
actual valid source area. The result will be translated by the
value returned by getDestinationOffset
, and the
resulting rectangle intersected with the actual valid destination
area to yield the destination area that will be written.
The parameters specified by an ImageReadParam
are
applied to an image as follows. First, if a rendering size has
been set by setSourceRenderSize
, the entire decoded
image is rendered at the size given by
getSourceRenderSize
. Otherwise, the image has its
natural size given by ImageReader.getWidth
and
ImageReader.getHeight
.
Next, the image is clipped against the source region
specified by getSourceXOffset
, getSourceYOffset
,
getSourceWidth
, and getSourceHeight
.
The resulting region is then subsampled according to the
factors given in IIOParam.setSourceSubsampling
. The first pixel,
the number of pixels per row, and the number of rows all depend
on the subsampling settings.
Call the minimum X and Y coordinates of the resulting rectangle
(minX
, minY
), its width w
and its height h
.
This rectangle is offset by
(getDestinationOffset().x
,
getDestinationOffset().y
) and clipped against the
destination bounds. If no destination image has been set, the
destination is defined to have a width of
getDestinationOffset().x
+ w
, and a
height of getDestinationOffset().y
+ h
so
that all pixels of the source region may be written to the
destination.
Pixels that land, after subsampling, within the destination
image, and that are written in one of the progressive passes
specified by getSourceMinProgressivePass
and
getSourceNumProgressivePasses
are passed along to the
next step.
Finally, the source samples of each pixel are mapped into
destination bands according to the algorithm described in the
comment for setDestinationBands
.
Plug-in writers may extend the functionality of
ImageReadParam
by providing a subclass that implements
additional, plug-in specific interfaces. It is up to the plug-in
to document what interfaces are available and how they are to be
used. Readers will silently ignore any extended features of an
ImageReadParam
subclass of which they are not aware.
Also, they may ignore any optional features that they normally
disable when creating their own ImageReadParam
instances via getDefaultReadParam
.
Note that unless a query method exists for a capability, it must
be supported by all ImageReader
implementations
(e.g. source render size is optional, but subsampling must be
supported).
ImageReader
,
ImageWriter
,
ImageWriteParam
Modifier and Type | Field and Description |
---|---|
protected boolean |
canSetSourceRenderSize
true if this ImageReadParam allows
the source rendering dimensions to be set. |
protected BufferedImage |
destination
The current destination
BufferedImage , or
null if none has been set. |
protected int[] |
destinationBands
The set of destination bands to be used, as an array of
int s. |
protected int |
minProgressivePass
The minimum index of a progressive pass to read from the
source.
|
protected int |
numProgressivePasses
The maximum number of progressive passes to read from the
source.
|
protected Dimension |
sourceRenderSize
The desired rendering width and height of the source, if
canSetSourceRenderSize is true , or
null . |
controller, defaultController, destinationOffset, destinationType, sourceBands, sourceRegion, sourceXSubsampling, sourceYSubsampling, subsamplingXOffset, subsamplingYOffset
Constructor and Description |
---|
ImageReadParam()
Constructs an
ImageReadParam . |
Modifier and Type | Method and Description |
---|---|
boolean |
canSetSourceRenderSize()
Returns
true if this reader allows the source
image to be rendered at an arbitrary size as part of the
decoding process, by means of the
setSourceRenderSize method. |
BufferedImage |
getDestination()
Returns the
BufferedImage currently set by the
setDestination method, or null
if none is set. |
int[] |
getDestinationBands()
Returns the set of band indices where data will be placed.
|
int |
getSourceMaxProgressivePass()
If
getSourceNumProgressivePasses is equal to
Integer.MAX_VALUE , returns
Integer.MAX_VALUE . |
int |
getSourceMinProgressivePass()
Returns the index of the first progressive pass that will be
decoded.
|
int |
getSourceNumProgressivePasses()
Returns the number of the progressive passes that will be
decoded.
|
Dimension |
getSourceRenderSize()
Returns the width and height of the source image as it
will be rendered during decoding, if they have been set via the
setSourceRenderSize method. |
void |
setDestination(BufferedImage destination)
Supplies a
BufferedImage to be used as the
destination for decoded pixel data. |
void |
setDestinationBands(int[] destinationBands)
Sets the indices of the destination bands where data
will be placed.
|
void |
setDestinationType(ImageTypeSpecifier destinationType)
Sets the desired image type for the destination image, using an
ImageTypeSpecifier . |
void |
setSourceProgressivePasses(int minPass,
int numPasses)
Sets the range of progressive passes that will be decoded.
|
void |
setSourceRenderSize(Dimension size)
If the image is able to be rendered at an arbitrary size, sets
the source width and height to the supplied values.
|
activateController, getController, getDefaultController, getDestinationOffset, getDestinationType, getSourceBands, getSourceRegion, getSourceXSubsampling, getSourceYSubsampling, getSubsamplingXOffset, getSubsamplingYOffset, hasController, setController, setDestinationOffset, setSourceBands, setSourceRegion, setSourceSubsampling
protected boolean canSetSourceRenderSize
true
if this ImageReadParam
allows
the source rendering dimensions to be set. By default, the
value is false
. Subclasses must set this value
manually.
ImageReader
s that do not support setting of
the source render size should set this value to
false
.
protected Dimension sourceRenderSize
canSetSourceRenderSize
is true
, or
null
.
ImageReader
s that do not support setting of
the source render size may ignore this value.
protected BufferedImage destination
BufferedImage
, or
null
if none has been set. By default, the value
is null
.protected int[] destinationBands
int
s. By default, the value is null
,
indicating all destination bands should be written in order.protected int minProgressivePass
Subclasses should ensure that this value is non-negative.
protected int numProgressivePasses
Integer.MAX_VALUE
, which indicates that passes up
to and including the last available pass should be decoded.
Subclasses should ensure that this value is positive.
Additionally, if the value is not
Integer.MAX_VALUE
, then minProgressivePass +
numProgressivePasses - 1
should not exceed
Integer.MAX_VALUE
.
public void setDestinationType(ImageTypeSpecifier destinationType)
IIOParam
ImageTypeSpecifier
.
When reading, if the layout of the destination has been set
using this method, each call to an ImageReader
read
method will return a new
BufferedImage
using the format specified by the
supplied type specifier. As a side effect, any destination
BufferedImage
set by
ImageReadParam.setDestination(BufferedImage)
will
no longer be set as the destination. In other words, this
method may be thought of as calling
setDestination((BufferedImage)null)
.
When writing, the destination type maybe used to determine
the color type of the image. The SampleModel
information will be ignored, and may be null
. For
example, a 4-banded image could represent either CMYK or RGBA
data. If a destination type is set, its
ColorModel
will override any
ColorModel
on the image itself. This is crucial
when setSourceBands
is used since the image's
ColorModel
will refer to the entire image rather
than to the subset of bands being written.
setDestinationType
in class IIOParam
destinationType
- the ImageTypeSpecifier
to
be used to determine the destination layout and color type.IIOParam.getDestinationType()
public void setDestination(BufferedImage destination)
BufferedImage
to be used as the
destination for decoded pixel data. The currently set image
will be written to by the read
,
readAll
, and readRaster
methods, and
a reference to it will be returned by those methods.
Pixel data from the aforementioned methods will be written
starting at the offset specified by
getDestinationOffset
.
If destination
is null
, a
newly-created BufferedImage
will be returned by
those methods.
At the time of reading, the image is checked to verify that
its ColorModel
and SampleModel
correspond to one of the ImageTypeSpecifier
s
returned from the ImageReader
's
getImageTypes
method. If it does not, the reader
will throw an IIOException
.
destination
- the BufferedImage to be written to, or
null
.getDestination()
public BufferedImage getDestination()
BufferedImage
currently set by the
setDestination
method, or null
if none is set.setDestination(java.awt.image.BufferedImage)
public void setDestinationBands(int[] destinationBands)
A null
value indicates that all destination
bands will be used.
Choosing a destination band subset will not affect the
number of bands in the output image of a read if no destination
image is specified; the created destination image will still
have the same number of bands as if this method had never been
called. If a different number of bands in the destination
image is desired, an image must be supplied using the
ImageReadParam.setDestination
method.
At the time of reading or writing, an
IllegalArgumentException
will be thrown by the
reader or writer if a value larger than the largest destination
band index has been specified, or if the number of source bands
and destination bands to be used differ. The
ImageReader.checkReadParamBandSettings
method may
be used to automate this test.
destinationBands
- an array of integer band indices to be
used.IllegalArgumentException
- if destinationBands
contains a negative or duplicate value.getDestinationBands()
,
IIOParam.getSourceBands()
,
ImageReader.checkReadParamBandSettings(javax.imageio.ImageReadParam, int, int)
public int[] getDestinationBands()
null
is returned to
indicate that all destination bands will be used.null
.setDestinationBands(int[])
public boolean canSetSourceRenderSize()
true
if this reader allows the source
image to be rendered at an arbitrary size as part of the
decoding process, by means of the
setSourceRenderSize
method. If this method
returns false
, calls to
setSourceRenderSize
will throw an
UnsupportedOperationException
.true
if setting source rendering size is
supported.setSourceRenderSize(java.awt.Dimension)
public void setSourceRenderSize(Dimension size) throws UnsupportedOperationException
getWidth
and
getHeight
methods on ImageReader
are
not affected by this method; they will continue to return the
default size for the image. Similarly, if the image is also
tiled the tile width and height are given in terms of the default
size.
Typically, the width and height should be chosen such that
the ratio of width to height closely approximates the aspect
ratio of the image, as returned from
ImageReader.getAspectRatio
.
If this plug-in does not allow the rendering size to be
set, an UnsupportedOperationException
will be
thrown.
To remove the render size setting, pass in a value of
null
for size
.
size
- a Dimension
indicating the desired
width and height.IllegalArgumentException
- if either the width or the
height is negative or 0.UnsupportedOperationException
- if image resizing
is not supported by this plug-in.getSourceRenderSize()
,
ImageReader.getWidth(int)
,
ImageReader.getHeight(int)
,
ImageReader.getAspectRatio(int)
public Dimension getSourceRenderSize()
setSourceRenderSize
method. A
null
value indicates that no setting has been made.Dimension
.setSourceRenderSize(java.awt.Dimension)
public void setSourceProgressivePasses(int minPass, int numPasses)
A progressive pass is a re-encoding of the entire image, generally at progressively higher effective resolutions, but requiring greater transmission bandwidth. The most common use of progressive encoding is found in the JPEG format, where successive passes include more detailed representations of the high-frequency image content.
The actual number of passes to be decoded is determined
during decoding, based on the number of actual passes available
in the stream. Thus if minPass + numPasses - 1
is
larger than the index of the last available passes, decoding
will end with that pass.
A value of numPasses
of
Integer.MAX_VALUE
indicates that all passes from
minPass
forward should be read. Otherwise, the
index of the last pass (i.e., minPass + numPasses
- 1
) must not exceed Integer.MAX_VALUE
.
There is no unsetSourceProgressivePasses
method; the same effect may be obtained by calling
setSourceProgressivePasses(0, Integer.MAX_VALUE)
.
minPass
- the index of the first pass to be decoded.numPasses
- the maximum number of passes to be decoded.IllegalArgumentException
- if minPass
is
negative, numPasses
is negative or 0, or
numPasses
is smaller than
Integer.MAX_VALUE
but minPass +
numPasses - 1
is greater than
INTEGER.MAX_VALUE
.getSourceMinProgressivePass()
,
getSourceMaxProgressivePass()
public int getSourceMinProgressivePass()
setSourceProgressivePasses(int, int)
,
getSourceNumProgressivePasses()
public int getSourceMaxProgressivePass()
getSourceNumProgressivePasses
is equal to
Integer.MAX_VALUE
, returns
Integer.MAX_VALUE
. Otherwise, returns
getSourceMinProgressivePass() +
getSourceNumProgressivePasses() - 1
.Integer.MAX_VALUE
.public int getSourceNumProgressivePasses()
Integer.MAX_VALUE
will be returned (which is the
correct value).setSourceProgressivePasses(int, int)
,
getSourceMinProgressivePass()
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