[ Table Of Contents ]

img(n) 2.0 Img 2.0 Reference Manual "Img"

Name

img - Introduction to Img

Table Of Contents

Synopsis

  • package require Img ?2.0?

Description

Img is a collection of format handlers for the Tk photo image type.

Sources and binaries of Img are available at SourceForge.

The individual formats are described in more detail on their own pages.

bmp

Windows bitmap format. See img-bmp.

dted*

Digital Terrain Elevation Data format. See img-dted.

flir*

FLIR FPF Public Image format. See img-flir.

gif*

Graphics Interchange Format. See img-gif.

ico

Windows icon format. See img-ico.

jpeg

Joint Picture Experts Group format. See img-jpeg.

pcx

Paintbrush format. See img-pcx.

pixmap

Pixmap image type. While the other formats are handlers for the Tk photo image type, this is a new image type for Tk. See img-pixmap.

png

Portable Network Graphics format. See img-png.

ppm

Portable pixmap format. See img-ppm.

ps*

Postscript and PDF format. Requires an external application, ghostview for its operation. See img-ps.

raw*

Raw data format. See img-raw.

sgi

Silicon Graphics format. See img-sgi.

sun

Sun raster format. See img-sun.

tga

Truevision Targa format. See img-tga.

tiff

Tagged Image File Format. See img-tiff.

window

Tk window as photo image. See img-window.

xbm

X Windows Bitmap format. See img-xbm.

xpm

X Windows Pixmap format. See img-xpm.

Notes

  1. Img version 2 only works with Tcl/Tk 8.6 or newer. If using an older Tcl/Tk version, use the lastest Img 1.4 version.

  2. Formats marked with * are not loaded when doing a package require Img, but must be loaded explicitly via package require img::FORMAT.

Multi-page Images

Some image formats support storage of multiple pages in a file.

Supported by formats img-gif, img-ico, img-ps, img-tiff.

A specific page can be extracted using the -index option. Index 0 specifies the first page.

There is currently no support for writing multi-page images.

The number of pages of an image file can either be retrieved using metadata key numpages (see chapter Image Metadata) or by checking different -index values.

For example, GIF images can have multiple pages in one file. The metadata dictionary key numpages is not supported for GIF images, as this property cannot be extracted fast.

If you need to know the number of pages, use code like in the following example:

 proc CheckIndex { fileName fmt ind } {
     set retVal [catch {image create photo -file $fileName -format "$fmt -index $ind"} phImg]
     if { $retVal == 0 } {
         image delete $phImg
         return true
     }
     return false
 }
 
 proc GetNumPages { fileName fmt } {
     if { [CheckIndex $fileName $fmt 1] } {
         set ind 5
         while { [CheckIndex $fileName $fmt $ind] } {
             incr ind 5
         }
         incr ind -1
         while { ! [CheckIndex $fileName $fmt $ind] } {
             incr ind -1
         }
         return [expr { $ind + 1 }]
     }
     return 1
 }
 
 # Determine the number of pages of an animated GIF.
 set numPages [GetNumPages $imgFile "gif"]

Image Metadata

Some image formats support an individual set of metadata dictionary keys. See the Tk photo image command for more information regarding image metadata.

This support is enabled, if Img is linked against Tk 8.7 or newer.

The following keys are supported:

DPI

Horizontal image resolution in dots per inch as double value.

Supported by formats img-bmp, img-jpeg, img-pcx, img-png, img-tiff.

aspect

Aspect ratio defined as horizontal size divided by vertical size as double value.

Supported by formats img-bmp, img-jpeg, img-pcx, img-png, img-tiff.

numpages

The number of pages in an image file.

Supported by formats img-ico, img-tiff.

All formats supporting image resolution (DPI and aspect) have the following format options for writing these values without explicitly setting the metadata dictionary:

-resolution -xresolution -yresolution.

  1. Option -resolution allows specifying both horizontal and vertical resolution values.

  2. If not using option -resolution, options -xresolution and -yresolution must both be specified. Otherwise no resolution information is written.

  3. Resolution values specified with any of the above options overwrite the corresponding metadata dictionary values.

  4. The resolution values can be specified as double values as documented with function Tk_GetPixels.

Example resolution specifications:

1.0: 1 inch
1i : 1 inch
1c : 1 centimeter
1m : 1 millimeter
1p : 1 point

Example writing PNG image with horizontal resolution of 300 inches and vertical resolution of 200 centimeters:

img write out.png -format {png -resolution 300i 200c}

Value Mapping

Some image formats support pixel values greater than storable in 8-bit integers.

To map these values to 8-bit integer values as needed for a Tk photo, two different algorithms are implemented in Img:

A simple MinMax algorithm and an advanced Automatic Gain Control (AGC) algorithm using histogram equalization.

The default for all supported formats is to use the MinMax algorithm, which determines the minimum and maximum values of the image automatically.

Matching Order

When reading images without specifying the format (using option -format), the match functions of the available formats are tried in reversed order as registered. So, the handlers of the Img package are called before the handlers of the Tk core. The Tk core registers the following handlers: GIF, PNG, PPM, SVG, DEFAULT.

In Tk 8.7 a new format handler structure (Tk_PhotoImageFormatVersion3) was introduced to handle the new metadata information. All old handlers (Tk_PhotoImageFormat) are called before calling the new Format3 handlers.

See manual page of function Tk_CreatePhotoImageFormat for a detailed description of the handler struture and matching functions.

The resulting matching order is best explained by an example:

package require Tk
package require Img
package require img::raw     (Format2 Img handler)

Note, that the package require Img command actually calls the following statements:

package require img::window  (Format2 Img handler)
package require img::tga     (Format2 Img handler)
package require img::ico     (Format3 Img handler)
package require img::pcx     (Format3 Img handler)
package require img::sgi     (Format2 Img handler)
package require img::sun     (Format2 Img handler)
package require img::xbm     (Format2 Img handler)
package require img::xpm     (Format2 Img handler)
package require img::jpeg    (Format3 Img handler)
package require img::png     (Format3 Img handler)
package require img::tiff    (Format3 Img handler)
package require img::bmp     (Format3 Img handler)
package require img::ppm     (Format2 Img handler)

The order of calling the match functions is therefore as follows:

Match format raw       (Format2 Img handler)
Match format ppm       (Format2 Img handler)
Match format xpm       (Format2 Img handler)
Match format xbm       (Format2 Img handler)
Match format sun       (Format2 Img handler)
Match format sgi       (Format2 Img handler)
Match format tga       (Format2 Img handler)
Match format window    (Format2 Img handler)
Match format svg       (Format2 Tk handler)
Match format ppm       (Format2 Tk handler)
Match format default   (Format2 Tk handler)
Match format bmp       (Format3 Img handler)
Match format tiff      (Format3 Img handler)
Match format png       (Format3 Img handler)
Match format jpeg      (Format3 Img handler)
Match format pcx       (Format3 Img handler)
Match format ico       (Format3 Img handler)
Match format png       (Format3 Tk handler)
Match format gif       (Format3 Tk handler)

See Also

img, img-bmp, img-dted, img-flir, img-gif, img-ico, img-jpeg, img-pcx, img-pixmap, img-png, img-ppm, img-ps, img-raw, img-sgi, img-sun, img-tga, img-tiff, img-window, img-xbm, img-xpm