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blender(1)	   libAfterImage image manipulation library	    blender(1)

NAME
       blender -  functionality	 for  blending	of image data using diofferent
       algorithms libAfterImage/blender.h

NAMEblender
DESCRIPTION
       Defines implemented methods for ASScanline combining, that could
       be passed to merge_layers() via ASImageLayer structure.
       Also includes functions for colorspace conversion RGB<->HSV and
       RGB<->HLS.

SEE ALSO
       Functions :
	  Colorspace conversion :
		rgb2value(), rgb2saturation(), rgb2hue(), rgb2luminance(),
		rgb2hsv(), rgb2hls(), hsv2rgb(), hls2rgb().

	  merge_scanline methods :
		alphablend_scanlines(), allanon_scanlines(),
		tint_scanlines(), add_scanlines(), sub_scanlines(),
		diff_scanlines(), darken_scanlines(), lighten_scanlines(),
		screen_scanlines(), overlay_scanlines(), hue_scanlines(),
		saturate_scanlines(), value_scanlines(),
		colorize_scanlines(), dissipate_scanlines().

	  usefull merging function name to function translator :
		blend_scanlines_name2func()

       Other libAfterImage modules :
		ascmap.h asfont.h asimage.h asvisual.h blender.h export.h
		import.h transform.h ximage.h

AUTHOR
       Sasha Vasko <sasha at aftercode dot net>

NAMEcolorspace
DESCRIPTION
       RGB colorspace: each color is represented as a combination of
       red, green and blue values. Each value can be in 2 formats :
       8 bit and 24.8 bit. 24.8 bit makes for 32bit value with lower 8 bits
       used as a fraction for better calculation precision.

       HSV colorspace: each color is represented as a combination of
       hue, saturation and value. Hue is generally colorizing component where
       value represents brightness.

       HLS colorspace: each color is represented as a combination of
       hue, luminance and saturation. It is analogous to HSV with value
       substituted by luminance, except that luminance could be both
       negative and positive.

       alpha channel could be added to any of the above colorspaces. alpha
       channel is generally used to define transparentness of the color.
       libAfterImage is using ARGB colorspace as a base colorspace, and
       represents most colors as ARGB32 values or ASScanline scanlines of
       pixels.

NAMErgb2value()
       rgb2saturation()

       rgb2hue()

       rgb2luminance()

SYNOPSIS
       CARD32 rgb2value( CARD32 red, CARD32 green, CARD32 blue );
       CARD32 rgb2saturation( CARD32 red, CARD32 green, CARD32 blue );
       CARD32 rgb2hue( CARD32 red, CARD32 green, CARD32 blue );
       CARD32 rgb2luminance (CARD32 red, CARD32 green, CARD32 blue );

INPUTS
       red    - 32 bit value, 16 lower bits of which represent red channel

       green  - 32 bit value, 16 lower bits of which represent green channel

       blue   - 32 bit value, 16 lower bits of which represent blue channel

RETURN VALUE
       32 bit value, 16 lower bits of which represent value, saturation, hue,
       or luminance respectively.

DESCRIPTION
       This functions translate RGB color into respective coordinates of
       HSV and HLS colorspaces.
       Returned hue values are in 16bit format. To translate it to and from
       conventional 0-360 degree range, please use :
       degrees2hue16() - converts conventional hue in 0-360 range into hue16
       hue162degree()  - converts 16bit hue value into conventional degrees.

NAMErgb2hsv()
       rgb2hls()

SYNOPSIS
       CARD32 rgb2hsv( CARD32 red, CARD32 green, CARD32 blue,
		       CARD32 *saturation, CARD32 *value );
       CARD32 rgb2hls( CARD32 red, CARD32 green, CARD32 blue,
		       CARD32 *luminance, CARD32 *saturation );

INPUTS
       red    - 32 bit value, 16 lower bits of which represent red channel

       green  - 32 bit value, 16 lower bits of which represent green channel

       blue   - 32 bit value, 16 lower bits of which represent blue channel

RETURN VALUE
       32 bit value, 16 lower bits of which represent hue.
       32bit value pointed to by luminance, value and saturation will be set
       respectively to color luminance, value and saturation.

DESCRIPTION
       This functions translate RGB color into full set of HSV and HLS
       coordinates at once. These functions work faster then separate
       translation into each channel.

NAMEhsv2rgb()
       hls2rgb()

SYNOPSIS
       void hsv2rgb( CARD32 hue, CARD32 saturation, CARD32 value,
		     CARD32 *red, CARD32 *green, CARD32 *blue);
       void hls2rgb( CARD32 hue, CARD32 luminance, CARD32 saturation,
		     CARD32 *red, CARD32 *green, CARD32 *blue);

INPUTS
       hue    - 32 bit value, 16 lower bits of which represent hue.

       saturation
	      - 32 bit value, 16 lower bits of which represent saturation.

       value  - 32 bit value, 16 lower bits of which represent value.

       luminance
	      - 32 bit value, 16 lower bits of which represent luminance.

RETURN VALUE
       32bit value pointed to by red, green and blue will be set
       respectively to RGB color channels.

DESCRIPTION
       This functions performs reverse translation from HSV and HSL to
       RGB color

NAMEalphablend_scanlines()
       - combines top and bottom RGB components based on alpha channel	value:
       bottom  =  bottom*(255-top_alpha)+top*top_alpha;	 allanon_scanlines() -
       averages each pixel between two scanlines. This method has  been	 first
       implemented  by	Ethan  Fisher  aka allanon as mode 130: bottom = (bot‐
       tom+top)/2; tint_scanlines() - tints bottom scanline with top scanline(
       with saturation to prevent overflow) : bottom = (bottom*(top/2))/32768;
       add_scanlines() - adds top scanline to bottom scanline with  saturation
       to  prevent overflow: bottom = bottom+top; sub_scanlines() - substrates
       top scanline from bottom scanline with saturation to prevent  overflow:
       bottom = bottom-top; diff_scanlines() - for each pixel calculates abso‐
       lute difference between bottom and top color value  :  bottom  =	 (bot‐
       tom>top)?bottom-top:top-bottom;	darken_scanlines()  - substitutes each
       pixel with minimum color value of top  and  bottom  :  bottom  =	 (bot‐
       tom>top)?top:bottom;  lighten_scanlines() - substitutes each pixel with
       maximum color value of top and  bottom  :  bottom  =  (bottom>top)?bot‐
       tom:top;	 screen_scanlines()  - some wierd merging algorithm taken from
       GIMP; overlay_scanlines() - some wierd  merging	algorithm  taken  from
       GIMP;  hue_scanlines()  - substitute hue of bottom scanline with hue of
       top scanline; saturate_scanlines() - substitute	saturation  of	bottom
       scanline	 with the saturation of top scanline; value_scanlines() - sub‐
       stitute value of bottom scanline with the value of top  scanline;  col‐
       orize_scanlines()  -  combine luminance of bottom scanline with hue and
       saturation of top scanline; dissipate_scanlines()- randomly alpha-blend
       bottom  and  top	 scanlines,  using  alpha  value  of top scanline as a
       threshold for random values.

SYNOPSIS
       void alphablend_scanlines( ASScanline *bottom, ASScanline *top, int );
       void allanon_scanlines	( ASScanline *bottom, ASScanline *top, int );
       void tint_scanlines	( ASScanline *bottom, ASScanline *top, int );
       void add_scanlines	( ASScanline *bottom, ASScanline *top, int );
       void sub_scanlines	( ASScanline *bottom, ASScanline *top, int );
       void diff_scanlines	( ASScanline *bottom, ASScanline *top, int );
       void darken_scanlines	( ASScanline *bottom, ASScanline *top, int );
       void lighten_scanlines	( ASScanline *bottom, ASScanline *top, int );
       void screen_scanlines	( ASScanline *bottom, ASScanline *top, int );
       void overlay_scanlines	( ASScanline *bottom, ASScanline *top, int );
       void hue_scanlines	( ASScanline *bottom, ASScanline *top, int );
       void saturate_scanlines	( ASScanline *bottom, ASScanline *top, int );
       void value_scanlines	( ASScanline *bottom, ASScanline *top, int );
       void colorize_scanlines	( ASScanline *bottom, ASScanline *top, int );
       void dissipate_scanlines ( ASScanline *bottom, ASScanline *top, int );

INPUTS
       bottom - pointer to the ASScanline that will be overalayed

       top    - pointer to ASScanline that will overlay bottom.

DESCRIPTION
       This functions accept 2 scanlines as an arguments stored in
       ASScanline structures with data in 24.8 format. Merging operation is
       performed on these scanlines and result is stored in bottom
       ASScanline.
       The following are merging methods used in each function :

NAMEblend_scanlines_name2func()
       list_scanline_merging()

SYNOPSIS
       merge_scanlines_func blend_scanlines_name2func( const char *name );
       void list_scanline_merging(FILE* stream, const char *format);

INPUTS
       name   - string, identifying scanline merging function.

RETURN VALUE
       returns pointer to the scanline merging function on succes.
       NULL on failure.

DESCRIPTION
       blend_scanlines_name2func() will strip leading whitespaces off of
       the supplied name, and then will attempt to match it against the list
       of names of merging functions. It will then return pointer to the
       function with matching name.
       list_scanline_merging() simply prints out description of implemented
       blending/merging methods onto the supplied stream, in supplied format.
       Format must include 2 string specs, like so : "%s - %s" where first
       one will be substituted to short method name, and second - description

3rd Berkeley Distribution    libAfterImage v.1.18		    blender(1)
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