libAfterImage/transform.h
NAME
transformSYNOPSIS
Defines transformations that could be performed on ASImage.
DESCRIPTION
Transformations can be performed with different degree of quality. Internal engine uses 24.8 bits per channel per pixel. As the result there are no precision loss, while performing complex calculations. Error diffusion algorithms could be used to transform it back into 8 bit without quality loss. Any Transformation could be performed with the result written directly into XImage, so that it could be displayed faster. Complex interpolation algorithms are used to perform scaling operations, thus yielding very good quality. All the transformations are performed in integer math, with the result of greater speeds. Optional MMX inline assembly has been incorporated into some procedures, and allows one to achieve considerably better performance on compatible CPUs.
SEE ALSO
Transformations : scale_asimage(), tile_asimage(), merge_layers(), make_gradient(), flip_asimage(), mirror_asimage(), pad_asimage(), blur_asimage_gauss(), fill_asimage(), adjust_asimage_hsv() 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>
libAfterImage/transform/scale_asimage()
NAME
scale_asimage()- scales source ASImage into new image of requested dimensions.
SYNOPSIS
ASImage *scale_asimage( struct ASVisual *asv, ASImage *src, unsigned int to_width, unsigned int to_height, ASAltImFormats out_format, unsigned int compression_out, int quality );
INPUTS
RETURN VALUE
returns newly created and encoded ASImage on success, NULL of failure.
DESCRIPTION
If size has to be reduced - then several neighboring pixels will be averaged into single pixel. If size has to be increased then new pixels will be interpolated based on values of four neighboring pixels.
EXAMPLE
ASScale
libAfterImage/transform/tile_asimage()
NAME
tile_asimage()- tiles/crops ASImage to desired size, while optionaly tinting it at the same time.
SYNOPSIS
ASImage *tile_asimage ( struct ASVisual *asv, ASImage *src, int offset_x, int offset_y, unsigned int to_width, unsigned int to_height, ARGB32 tint, ASAltImFormats out_format, unsigned int compression_out, int quality );
INPUTS
RETURN VALUE
returns newly created and encoded ASImage on success, NULL of failure.
DESCRIPTION
Offset_x and offset_y define origin on source image from which tiling will start. If offset_x or offset_y is outside of the image boundaries, then it will be reduced by whole number of image sizes to fit inside the image. At the time of tiling image will be tinted unless tint == 0.
EXAMPLE
ASTile
libAfterImage/transform/merge_layers()
NAME
merge_layers()SYNOPSIS
ASImage *merge_layers ( struct ASVisual *asv, ASImageLayer *layers, int count, unsigned int dst_width, unsigned int dst_height, ASAltImFormats out_format, unsigned int compression_out, int quality);
INPUTS
RETURN VALUE
returns newly created and encoded ASImage on success, NULL of failure.
DESCRIPTION
merge_layers() will create new ASImage of requested size. It will then go through all the layers, and fill image with composition. Bottommost layer will be used unchanged and above layers will be superimposed on it, using algorithm specified in ASImageLayer structure of the overlaying layer. Layers may have smaller size then destination image, and maybe placed in arbitrary locations. Each layer will be padded to fit width of the destination image with all 0 effectively making it transparent.
libAfterImage/transform/make_gradient()
NAME
make_gradient()SYNOPSIS
ASImage *make_gradient ( struct ASVisual *asv, struct ASGradient *grad, unsigned int width, unsigned int height, ASFlagType filter, ASAltImFormats out_format, unsigned int compression_out, int quality);
INPUTS
RETURN VALUE
returns newly created and encoded ASImage on success, NULL of failure.
DESCRIPTION
make_gradient() will create new image of requested size and it will fill it with gradient, described in structure pointed to by grad. Different dithering techniques will be applied to produce nicer looking gradients.
libAfterImage/transform/flip_asimage()
NAME
flip_asimage()- rotates ASImage in 90 degree increments
SYNOPSIS
ASImage *flip_asimage ( struct ASVisual *asv, ASImage *src, int offset_x, int offset_y, unsigned int to_width, unsigned int to_height, int flip, ASAltImFormats out_format, unsigned int compression_out, int quality );
INPUTS
RETURN VALUE
returns newly created and encoded ASImage on success, NULL of failure.
DESCRIPTION
flip_asimage() will create new image of requested size, it will then tile source image based on offset_x, offset_y, and destination size, and it will rotate it then based on flip value. Three rotation angles supported 90, 180 and 270 degrees.
libAfterImage/transform/mirror_asimage()
NAME
mirror_asimage()SYNOPSIS
ASImage *mirror_asimage ( struct ASVisual *asv, ASImage *src, int offset_x, int offset_y, unsigned int to_width, unsigned int to_height, Bool vertical, ASAltImFormats out_format, unsigned int compression_out, int quality );
INPUTS
RETURN VALUE
returns newly created and encoded ASImage on success, NULL of failure.
DESCRIPTION
mirror_asimage() will create new image of requested size, it will then tile source image based on offset_x, offset_y, and destination size, and it will mirror it in vertical or horizontal direction.
libAfterImage/transform/pad_asimage()
NAME
pad_asimage()enlarges ASImage, padding it with specified color on each side in accordance with requested geometry.
SYNOPSIS
ASImage *pad_asimage( ASVisual *asv, ASImage *src, int dst_x, int dst_y, unsigned int to_width, unsigned int to_height, ARGB32 color, ASAltImFormats out_format, unsigned int compression_out, int quality );
INPUTS
RETURN VALUE
returns newly created and encoded ASImage on success, NULL of failure.
libAfterImage/transform/blur_asimage_gauss()
NAME
blur_asimage_gauss()Performs Gaussian blurr of the image ( useful for drop shadows and the likes ).
SYNOPSIS
ASImage* blur_asimage_gauss( ASVisual* asv, ASImage* src, double horz, double vert, ASAltImFormats out_format, unsigned int compression_out, int quality );
INPUTS
RETURN VALUE
returns newly created and encoded ASImage on success, NULL of failure.
libAfterImage/transform/fill_asimage()
NAME
fill_asimage()- Fills rectangle within the existing ASImage with specified color.
SYNOPSIS
Bool fill_asimage( ASVisual *asv, ASImage *im, int x, int y, int width, int height, ARGB32 color );
INPUTS
RETURN VALUE
True on success, False on failure.
libAfterImage/transform/adjust_asimage_hsv()
NAME
adjust_asimage_hsv()- adjusts image color properties in HSV colorspace
SYNOPSIS
ASImage *adjust_asimage_hsv( ASVisual *asv, ASImage *src, int offset_x, int offset_y, unsigned int to_width, unsigned int to_height, unsigned int affected_hue, unsigned int affected_radius, int hue_offset, int saturation_offset, int value_offset, ASAltImFormats out_format, unsigned int compression_out, int quality);
INPUTS
RETURN VALUE
returns newly created and encoded ASImage on success, NULL of failure.
DESCRIPTION
This function will tile original image to specified size with offsets requested, and then it will go though it and adjust hue, saturation and value of those pixels that have specific hue, set by affected_hue/ affected_radius parameters. When affected_radius is greater then 180 entire image will be adjusted. Note that since grayscale colors have no hue - the will not get adjusted. Only saturation and value will be adjusted in gray pixels. Hue is measured as an angle on a 360 degree circle, The following is relationship of hue values to regular color names : red - 0 yellow - 60 green - 120 cyan - 180 blue - 240 magenta - 300 red - 360 All the hue values in parameters will be adjusted to fall withing 0-360 range.
libAfterImage/transform/colorize_asimage_vector()
NAME
colorize_asimage_vector()creates ASImage from double precision indexed image data - useful for scientific visualisation.
SYNOPSIS
Bool colorize_asimage_vector( ASVisual *asv, ASImage *im, ASVectorPalette *palette, ASAltImFormats out_format, int quality );
INPUTS
RETURN VALUE
True on success, False on failure.
DESCRIPTION
This function will try to convert double precision indexed image data into actuall color image using palette. Original data should be attached to ASImage using vector member. Operation is relatively fast and allows representation of scientific data as color image with dynamically changing palette.
libAfterImage/transform/create_asimage_from_vector()
NAME
create_asimage_from_vector()- convinience function allowing to create new ASImage, set its vector data and colorize it using palette - all in one step.
SYNOPSIS
ASImage *create_asimage_from_vector( ASVisual *asv, double *vector, unsigned int width, unsigned int height, ASVectorPalette *palette, ASAltImFormats out_format, unsigned int compression, int quality );
INPUTS
RETURN VALUE
New ASImage on success, NULL on failure.
SEE ALSO
colorize_asimage_vector(), create_asimage(), set_asimage_vector()
libAfterImage/transform/slice_asimage2()
NAME
slice_asimage2()- slice ASImage leaving its corners intact, and scaling the middle part.
SYNOPSIS
ASImage* slice_asimage2( ASVisual *asv, ASImage *src, int slice_x_start, int slice_x_end, int slice_y_start, int slice_y_end, int to_width, int to_height, Bool scaled, ASAltImFormats out_format, unsigned int compression_out, int quality );
INPUTS
RETURN VALUE
New ASImage on success, NULL on failure.
SEE ALSO
scale_asimage(), tile_asimage()
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AfterStep version 2.2.12