Bruno Postle >
Panotools-Script-0.27 >
Panotools::Script::Line::Image

Panotools::Script::Line::Image - Panotools input image

A single input image is described by an 'i' line

Basically the same format as an 'o' line.

w1000 h500 nona requires the width and height of input images wheras PTStitcher/mender don't f0 projection format, 0 - rectilinear (normal lenses) 1 - Panoramic (Scanning cameras like Noblex) 2 - Circular fisheye 3 - full-frame fisheye 4 - PSphere, equirectangular 7 - Mirror (a spherical mirror) 8 - Orthographic fisheye 10 - Stereographic fisheye 21 - Equisolid fisheye v82 horizontal field of view of image (required) y0 yaw angle (required) p43 pitch angle (required) r0 roll angle (required) a,b,c lens correction coefficients (optional) (see http://www.fh-furtwangen.de/~dersch/barrel/barrel.html) d,e initial lens offset in pixels(defaults d0 e0, optional). Used to correct for offset from center of image d - horizontal offset, e - vertical offset g,t initial lens shear. Use to remove slight misalignment of the line scanner relative to the film transport g - horizontal shear t - vertical shear j stack number Eev exposure of image in EV (exposure values) Er white balance factor for red channel Eb white balance factor for blue channel Ra EMoR response model from the Computer Vision Lab at Columbia University Rb This models the camera response curve Rc Rd Re TiX,TiY,TiZ Tilt on x axis, y axis, z axis TiS Scaling of field of view in the tilt transformation TrX,TrY,TrZ Translation on x axis, y axis, z axis Te0,Te1,Te2,Te3 Test parameters Vm vignetting correction mode (default 0): 0: no vignetting correction 1: radial vignetting correction (see j,k,l,o options) 2: flatfield vignetting correction (see p option) 4: proportional correction: i_new = i / corr. This mode is recommended for use with linear data. If the input data is gamma corrected, try adding g2.2 to the m line. default is additive correction: i_new = i + corr Both radial and flatfield correction can be combined with the proportional correction by adding 4. Examples: i1 - radial polynomial correction by addition. The coefficients j,k,l,o must be specified. i5 - radial polynomial correction by division. The coefficients j,k,l,o must be specified. i6 - flatfield correction by division. The flatfield image should be specified with the p option Va,Vb,Vc,Vd vignetting correction coefficients. (defaults: 0,0,0,0) ( 0, 2, 4, 6 order polynomial coefficients): corr = ( i + j*r^2 + k*r^4 + l*r^6), where r is the distance from the image center The corrected pixel value is calculated with: i_new = i_old + corr if additive correction is used (default) for proportional correction (h5): i_new = i_old / corr; Vx,Vy radial vignetting correction offset in pixels (defaults q0 w0, optional). Used to correct for offset from center of image Vx - horizontal offset Vy - vertical offset S100,600,100,800 Selection(l,r,t,b), Only pixels inside the rectangle will be used for conversion. Original image size is used for all image parameters (e.g. field-of-view) refer to the original image. Selection can be outside image dimension. The selection will be circular for circular fisheye images, and rectangular for all other projection formats nName file name of the input image. i f2 r0 p0 y0 v183 a0 b-0.1 c0 S100,600,100,800 n"photo1.jpg" i f2 r0 p0 y180 v183 a0 b-0.1 c0 S100,600,100,800 n"photo1.jpg"

Rotate transform the image, angles in degrees:

$i->Transform ($roll, $pitch, $yaw);

Each image attribute (v, a, b, c etc...) can be read like so:

$fov = $i->v;

Note that this will return either the value (56.7) or a reference to another image (=0). If you supply a Panotools::Script object as a parameter then the reference will be resolved and you will always get the value:

$fov = $i->v ($pto);

Get the absolute path to the image file

$i->Path ('/path/to/project.pto');

If a .pto project isn't specified then paths are assumed to be relatve to cwd

For any given coordinate in this image (top left is 0,0), calculate an x,y,z cartesian coordinate, accounting for lens distortion, projection and rotation.

$coor = $i->To_Cartesian ($pto, [23,45]); ($x, $y, $z) = @{$coor};

Query distance (radius) to photo in pixels:

$pix_radius = $i->Radius ($pto);

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