NAME

Prima::ImageViewer - standard image, icon, and bitmap viewer class.

DESCRIPTION

The module contains Prima::ImageViewer class, which provides image displaying functionality, including different zoom levels.

Prima::ImageViewer is a descendant of Prima::ScrollWidget and inherits its document scrolling behavior and programming interface. See Prima::ScrollWidget for details.

API

Properties

alignment INTEGER

One of the following ta::XXX constants:

ta::Left
ta::Center 
ta::Right

Selects the horizontal image alignment.

Default value: ta::Left

image OBJECT

Selects the image object to be displayed. OBJECT can be an instance of Prima::Image, Prima::Icon, or Prima::DeviceBitmap class.

imageFile FILE

Set the image FILE to be loaded and displayed. Is rarely used since does not return a loading success flag.

quality BOOLEAN

A boolean flag, selecting if the palette of image is to be copied into the widget palette, providing higher visual quality on paletted displays. See also "palette" in Prima::Widget.

Default value: 1

valignment INTEGER

One of the following ta::XXX constants:

ta::Top
ta::Middle or ta::Center
ta::Bottom

Selects the vertical image alignment.

NB: ta::Middle value is not equal to ta::Center's, however the both constants produce equal effect here.

Default value: ta::Bottom

zoom FLOAT

Selects zoom level for image display. The acceptable value range is between 0.01 and 100. The zoom value is rounded to the closest value divisible by 1/zoomPrecision. For example, is zoomPrecision is 100, the zoom values will be rounded to the precision of hundredth - to fiftieth and twentieth fractional values - .02, .04, .05, .06, .08, and 0.1 . When zoomPrecision is 1000, the precision is one thousandth, and so on.

Default value: 1

zoomPrecision INTEGER

Zoom precision of zoom property. Minimal acceptable value is 10, where zoom will be rounded to 0.2, 0.4, 0.5, 0.6, 0.8 and 1.0 .

The reason behind this arithmetics is that when image of arbitrary zoom factor is requested to be displayed, the image sometimes must begin to be drawn from partial pixel - for example, 10x zoomed image shifted 3 pixels left, must be displayed so the first image pixel from the left occupies 3 screen pixels, and the next ones - 10 screen pixels. That means, that the correct image display routine must ask the system to draw the image ot offset -7 screen pixels. In case of a large image, such negative offsets become large, and the system will behave ineffectively trying to access all image pixels in system memory, slowing the drawing significantly, or in the worst case, failing the request. A workaround is to pre-calculate the zoom factor so that whatever image offset is requested, the negative screen offset will be fixed, and will impose fixed penalty on the system image scaling routine. For example, the default zoomPrecision value 100 means that for any given image offset, the screen offset will not exceed 100 pixels, and thus whatever the zoom factor is, the system will internally scale max. screen size / zoom factor + 100 pixels.

These considerations make sense for zoom factors greater than one only, but are applied also to those less than one for the consistency sake.

Default value: 100

Methods

screen2point X, Y, [ X, Y, ... ]

Performs translation of integer pairs integers as (X,Y)-points from widget coordinates to pixel offset in image coordinates. Takes in account zoom level, image alignments, and offsets. Returns array of same length as the input.

Useful for determining correspondence, for example, of a mouse event to a image point.

The reverse function is point2screen.

point2screen X, Y, [ X, Y, ... ]

Performs translation of integer pairs as (X,Y)-points from image pixel offset to widget image coordinates. Takes in account zoom level, image alignments, and offsets. Returns array of same length as the input.

Useful for determining a screen location of an image point.

The reverse function is screen2point.

watch_load_progress IMAGE

When called, image viewer watches as the IMAGE is loaded ( see "load" in Prima::Image ) and displays the progress. As soon IMAGE begins to load, it replaces the existing image property. Example:

$i = Prima::Image-> new;
$viewer-> watch_load_progress( $i);
$i-> load('huge.jpg');
$viewer-> unwatch_load_progress( $i);

Similar functionality is present in Prima::ImageDialog.

unwatch_load_progress CLEAR_IMAGE=1

Stops monitoring of image loading progress. If CLEAR_IMAGE is 0, the leftovers of the incremental loading stay intact in image propery. Otherwise, image is set to undef.

zoom_round ZOOM

Rounds the zoom factor to zoomPrecision precision, returns the rounded zoom value. The algorithm is the same as used internally in zoom property.

AUTHOR

Dmitry Karasik, <dmitry@karasik.eu.org>.

SEE ALSO

Prima, Prima::Image, Prima::ScrollWidget, Prima::ImageDialog, examples/iv.pl.