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coo_shearx applies a shear mapping on a matrix of (x; y) coordinates (or a list), parallel to the x-axis (i.e. x' = x + ky; y' = y + kx). coo_sheary does it parallel to the y-axis.
coo_shearx
coo_sheary
coo_shearx(coo, k)coo_sheary(coo, k)
coo_sheary(coo, k)
matrix of (x; y) coordinates or any Coo object.
matrix
(x; y)
numeric shear factor
numeric
a matrix of (x; y) coordinates.
Other transforming functions: coo_flipx
coo_flipx
Other coo_ utilities: coo_aligncalliper, coo_alignminradius, coo_alignxax, coo_align, coo_baseline, coo_bookstein, coo_boundingbox, coo_calliper, coo_centdist, coo_center, coo_centpos, coo_close, coo_down, coo_dxy, coo_extract, coo_flipx, coo_force2close, coo_interpolate, coo_is_closed, coo_jitter, coo_left, coo_likely_clockwise, coo_nb, coo_perim, coo_range, coo_rev, coo_right, coo_rotatecenter, coo_rotate, coo_sample_prop, coo_samplerr, coo_sample, coo_scale, coo_slice, coo_slidedirection, coo_slidegap, coo_slide, coo_smoothcurve, coo_smooth, coo_template, coo_trans, coo_trimbottom, coo_trimtop, coo_trim, coo_up, is_equallyspacedradii
coo_aligncalliper
coo_alignminradius
coo_alignxax
coo_align
coo_baseline
coo_bookstein
coo_boundingbox
coo_calliper
coo_centdist
coo_center
coo_centpos
coo_close
coo_down
coo_dxy
coo_extract
coo_force2close
coo_interpolate
coo_is_closed
coo_jitter
coo_left
coo_likely_clockwise
coo_nb
coo_perim
coo_range
coo_rev
coo_right
coo_rotatecenter
coo_rotate
coo_sample_prop
coo_samplerr
coo_sample
coo_scale
coo_slice
coo_slidedirection
coo_slidegap
coo_slide
coo_smoothcurve
coo_smooth
coo_template
coo_trans
coo_trimbottom
coo_trimtop
coo_trim
coo_up
is_equallyspacedradii
# NOT RUN { coo <- coo_template(shapes[11]) coo_plot(coo) coo_draw(coo_shearx(coo, 0.5), border="blue") coo_draw(coo_sheary(coo, 0.5), border="red") # }
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