texture_lawstexture_lawsTextureLawsTextureLaws (Operator)

Name

texture_lawstexture_lawsTextureLawsTextureLaws — Filter an image using a Laws texture filter.

Signature

texture_laws(Image : ImageTexture : FilterTypes, Shift, FilterSize : )

texture_lawstexture_lawsTextureLawsTextureLawsTextureLaws applies a texture transformation (according to Laws) to an image. This is done by convolving the input image with a special filter mask. The filters are:

9 different 3×3 matrices obtainable from the following three vectors:

    l      =       [  1     2       1  ],
    e      =       [ -1     0       1  ],
    s      =       [ -1     2      -1  ]

25 different 5×5 matrices obtainable from the following five vectors:

    l      =       [  1     4       6       4       1 ],
    e      =       [ -1    -2       0       2       1 ],
    s      =       [ -1     0       2       0      -1 ],
    w      =       [ -1     2       0      -2       1 ]
    r      =       [  1    -4       6      -4       1 ],

49 different 7×7 matrices obtainable from the following seven vectors:

    l      =       [  1     6      15      20      15      6      1  ],
    e      =       [ -1    -4      -5       0       5      4      1  ],
    s      =       [ -1    -2       1       4       1     -2     -1  ],
    w      =       [ -1     0       3       0      -3      0      1  ],
    r      =       [  1    -2      -1       4      -1     -2      1  ],
    u      =       [  1    -4       5       0      -5      4     -1  ]
    o      =       [ -1     6     -15      20     -15      6     -1  ]

The names of the filters are mnemonics for “level,” “edge,” “spot,” “wave,” “ripple,” “undulation,” and “oscillation.”

For most of the filters the resulting gray values must be modified by a ShiftShiftShiftShiftshift. This makes the different textures in the output image more comparable to each other, provided suitable filters are used.

The name of the filter is composed of the letters of the two vectors used, where the first letter denotes convolution in the column direction while the second letter denotes convolution in the row direction.

Attention

texture_lawstexture_lawsTextureLawsTextureLawsTextureLaws can be executed on OpenCL devices.

Note that filter operators may return unexpected results if an image with a reduced domain is used as input. Please refer to the chapter Filters.

Execution Information

Supports OpenCL compute devices.
Multithreading type: reentrant (runs in parallel with non-exclusive operators).
Multithreading scope: global (may be called from any thread).
Automatically parallelized on tuple level.
Automatically parallelized on channel level.
Automatically parallelized on domain level.

Parameters

ImageImageImageImageimage (input_object) (multichannel-)image(-array) → object (byte* / int2* / uint2*) *allowed for compute devices

Images to which the texture transformation is to be applied.

ImageTextureImageTextureImageTextureImageTextureimageTexture (output_object) (multichannel-)image(-array) → object (byte / int2 / uint2)

Texture images.

FilterTypesFilterTypesFilterTypesFilterTypesfilterTypes (input_control) string → (string)

Desired filter.

Default value: 'el' "el" "el" "el" "el"

Suggested values: 'll'"ll""ll""ll""ll", 'le'"le""le""le""le", 'ls'"ls""ls""ls""ls", 'lw'"lw""lw""lw""lw", 'lr'"lr""lr""lr""lr", 'lu'"lu""lu""lu""lu", 'lo'"lo""lo""lo""lo", 'el'"el""el""el""el", 'ee'"ee""ee""ee""ee", 'es'"es""es""es""es", 'ew'"ew""ew""ew""ew", 'er'"er""er""er""er", 'eu'"eu""eu""eu""eu", 'eo'"eo""eo""eo""eo", 'sl'"sl""sl""sl""sl", 'se'"se""se""se""se", 'ss'"ss""ss""ss""ss", 'sw'"sw""sw""sw""sw", 'sr'"sr""sr""sr""sr", 'su'"su""su""su""su", 'so'"so""so""so""so", 'wl'"wl""wl""wl""wl", 'we'"we""we""we""we", 'ws'"ws""ws""ws""ws", 'ww'"ww""ww""ww""ww", 'wr'"wr""wr""wr""wr", 'wu'"wu""wu""wu""wu", 'wo'"wo""wo""wo""wo", 'rl'"rl""rl""rl""rl", 're'"re""re""re""re", 'rs'"rs""rs""rs""rs", 'rw'"rw""rw""rw""rw", 'rr'"rr""rr""rr""rr", 'ru'"ru""ru""ru""ru", 'ro'"ro""ro""ro""ro", 'ul'"ul""ul""ul""ul", 'ue'"ue""ue""ue""ue", 'us'"us""us""us""us", 'uw'"uw""uw""uw""uw", 'ur'"ur""ur""ur""ur", 'uu'"uu""uu""uu""uu", 'uo'"uo""uo""uo""uo", 'ol'"ol""ol""ol""ol", 'oe'"oe""oe""oe""oe", 'os'"os""os""os""os", 'ow'"ow""ow""ow""ow", 'or'"or""or""or""or", 'ou'"ou""ou""ou""ou", 'oo'"oo""oo""oo""oo"

ShiftShiftShiftShiftshift (input_control) integer → (integer)

Shift to reduce the gray value dynamics.

Default value: 2

Suggested values: 0, 1, 2, 3, 4, 5, 6, 7, 8, 9

FilterSizeFilterSizeFilterSizeFilterSizefilterSize (input_control) integer → (integer)

Size of the filter kernel.

Default value: 5

List of values: 3, 5, 7

Example (HDevelop)

* Simple two-dimensional pixel classification
dev_get_window (WindowHandle)
read_image(Image,'combine')
texture_laws(Image,Texture1,'es',3,7)
texture_laws(Image,Texture2,'le',7,7)
MaskSize := 51
mean_image(Texture1,H1,MaskSize,MaskSize)
mean_image(Texture2,H2,MaskSize,MaskSize)
dev_clear_window ()
dev_display (Image)
dev_set_color ('green')
write_string (WindowHandle, 'Mark region within one texture area')
draw_region(Region,WindowHandle)
reduce_domain(H1,Region,Foreground1)
reduce_domain(H2,Region,Foreground2)
histo_2dim(Region,Foreground1,Foreground2,Histo)
get_image_size (Image, Width, Height)
threshold(Histo,Characteristic_area,1,Width*Height)
ShowIntermediateResult := 0
if (ShowIntermediateResult)
  histo_2dim(H1,H1,H2,HistoFull)
  dev_clear_window ()
  dev_set_lut ('sqrt')
  dev_display (HistoFull)
  dev_set_draw ('margin')
  dev_display (Characteristic_area)
  stop ()
  dev_set_lut ('default')
  dev_set_draw ('fill')
endif
class_2dim_sup(H1,H2,Characteristic_area,Seg)
dev_display (Image)
dev_set_color ('red')
dev_display (Seg)