This page contains a list of commands available in Siril 1.1.0. The reference for version 1.0.0 is available here.
Commands are often added or modified, this means that the version of Siril you are using may not be the same as the version documented here.
Introduction
Siril has a command line in its graphical user interface and an ability to run scripts that are a list of commands, either from the graphical user interface or from the command line interface. Some commands have an effect on the loaded image or sequence and allow them to be processed in some way without user intervention. With 0.9.9, we introduced commands that helped automating the processing of a sequence, like register and stack. They work on sequences that are not loaded.
The <SPACE> character is the delimiter between arguments. If you need to have spaces inside the arguments, you can use the quote or double quote, just like in a shell.
Commands can be typed in the command line at the bottom of Siril's main window. Another way is to put commands in a file and execute it as a script. To execute the file, use the @ token of the command line like so:
@file_name
Command stream (pipe)
Starting with 0.9.10, a new mode has been introduced in which commands can be sent through a named pipe and logs and status can be obtained through another. The mode is activated using the -p
command line argument.
The protocol is quite simple: Siril receives commands and outputs some updates. Only commands that are marked as scriptable can be used with this system. Whenever the command inputs pipe is closed or the cancel
command is given, the running command is stopped as if the stop button was clicked on in the GUI. The pipes are named siril_command.in
and siril_command.out
and are available in /tmp on Unix-based systems.
Outputs of siril on the pipe is a stream of one line text and formatted as follows:
log:
followed by a log messagestatus: verb [subject]
, where verb can be either ofstarting
,success
,error
orexit
(exit message is not yet implemented). The subject is the current command name, except for exit that indicates that siril suffered a fatal error and has to exit.progress: value%
is the equivalent of the progress bar, it sends percents periodically, and sometimes 0% at the end of a processing as an idle information.
Commands history
These lists help you see what has changed in the last version, whether new or modified commands.
- 1.1.0: update of stack (changing weights options, adding rgb equalization, adding possibility to disable rejection, adding the fastnorm option to provide a faster alternative to normalization computation), seqstat (adding full option), register (adding maxstars and interp options), reviewing doc and arguments of commands satu, rmgreen, asinh, boxselect, psf, seqpsf subsky, seqsubsky, help.
New commands preprocess_single, autostretch, seqtilt, dumpheader, setphot, start_ls, livestack, stop_ls, rgbcomp, seqapplyreg, seqclean, pcc, pm - 1.0.0: update of rl, stack, stackall (adding -output_norm and rejection algorithms), preprocess (removing -stretch and -flip and adding -fix_xtrans) and convertraw (adding -start=index, -out=directory and -fitseq -ser). Also, a -prefix= option has been added to the sequence commands that build a new sequence.
New commands subsky, seqsubsky, neg, mtf, seqmtf, linear_match, extract_Ha, extract_HaOIII, seqextract_Ha, set16bits, set32bits, setcompress, seqextract_HaOIII, link, convert, reloadscripts, fix_xtrans, requires, merge, seqstat, setref, seqextract_Green, extract_Green, tilt, boxselect - 0.9.12: split_cfa, seqsplit_cfa
- 0.9.11: stack, stackall, setmem
- 0.9.10: setfindstar, grey_flat, asinh, rgradient
- 0.9.9: convertraw, preprocess, register, stack, close, clear, setext, @
- 0.9.8: savepng, stackall
Siril command line functions reference
This is the list of commands available in the development version of Siril. Check the list above, some may not be available in your version.
addmax
addmax filename
addmax compute a new image IMG with IMG_1 and IMG_2. The pixel of IMG_1 is replaced by the pixel at the same coordinates of IMG_2 if the intensity of 2 is greater than 1. Do not forget to save the result.
asinh
asinh [-human] stretch [offset]
Stretches the image to show faint objects using an hyperbolic arcsin transformation.
The mandatory argument stretch, typically between 1 and 1000, will give the strength of the stretch. The black point can be offset by providing an optional offset argument in the normalized pixel value of [0, 1]. Finally the option -human uses human eye luminous efficiency weights to compute the luminance used to compute the stretch value for each pixel, instead of the simple mean of the channels pixel values.
autostretch
autostretch [-linked] [shadowsclip [targetbg]]
Auto-stretches the currently loaded image, with different parameters for each channel (unlinked) unless -linked is passed. Arguments are optional, shadowclip is the shadows clipping point, measured in sigma units from the main histogram peak (default is -2.8), targetbg is the target background value, giving a final brightness to the image, range [0, 1], default is 0.25. The default values are those used in the Auto-stretch rendering from the GUI.
Do not use the unlinked version after color calibration. Linked preserves the white balance.
bg
bg
Returns the background level of the image loaded in memory.
bgnoise
bgnoise
Returns the background noise level.
boxselect
boxselect [-clear] [x y width height]
Make a selection area in the currently loaded image with the arguments x, y, width and height, with x and y being the coordinates of the top left corner starting at (0, 0), and width and height the size of the selection.
The -clear argument deletes any selection area. If no argument is passed, the current selection is printed.
cd
cd directory
Set the new current working directory. directory can contain the ~ token, expanded as the home directory, directories with spaces in the name can be protected using single or double quotes. Examples:
- cd ~/M42
- cd '../OIII 2x2/'
cdg
cdg
Return the coordinates of the center of gravity of the image. Only pixels with values above 15.7% of max ADU and having four neighbors filling the same condition are used to compute it, and it is computed only if there are at least 50 of them.
clahe
clahe cliplimit tileSize
Equalizes the histogram of an image using Contrast Limited Adaptive Histogram Equalization
clear
clear
Clears the graphical output logs
clearstar
clearstar
Clear all the stars saved in memory and displayed on the screen.
close
close
Properly closes the opened image and the opened sequence, if any.
convert
convert basename [-debayer] [-start=index] [-out=directory] [-fitseq] [-ser]
Convert all images of the current working directory that are in a supported format into Siril's sequence of FITS images (several files) or a FITS sequence (single file) if -fitseq is provided or a SER sequence (single file) if -ser is provided. The argument basename is the base name of the new sequence, numbers and the extension will be put behind it.
For FITS images, Siril will try to make a symbolic link; if not possible, files will be copied. The option -debayer demosaics the input CFA images, in this case new RGB files are created.
-start=index sets the starting index parameter for the converted images (not used with -fitseq or -ser) useful to continue an existing sequence (make sure you remove the target .seq if it exists in that case, or that you check force .seq recomputation when searching sequences.
The -out= option changes the output directory to the provided argument.
convertraw
convertraw basename [-debayer] [-start=index] [-out=directory] [-fitseq]
Convert DSLR RAW files into Siril's FITS images or a FITS sequence (single file / FITS cube) if -fitseq is provided or a SER sequence (single file) if -ser is provided. The basename argument is the base name of the new sequence. The debayer option applies demosaicing to images, -start=index sets the starting index parameter and -out=directory provides a directory for output files inseead of the CWD. For more information on arguments see convert.
cosme
cosme filename
Apply the local mean to a set of pixels on the in-memory image (cosmetic correction). The coordinate of this pixels are in an ASCII file (provided in the filename argument) in lines whose format is indicated below. COSME is adapted to correct residual hot and cold pixels after preprocessing.
Lines P x y type will fix the pixel at coordinates (x, y) type is an optional character (C or H) specifying to Siril if the current pixel is cold or hot. This line is created by the command FIND_HOT but you also can add some lines manually:
Lines C x 0 type will fix the bad column at coordinates x.
Lines L y 0 type will fix the bad line at coordinates y.
cosme_cfa
cosme_cfa filename
Same function as COSME but applying to RAW CFA images.
crop
crop [x, y, width, height]
It can be used with the GUI: if a selection has been made with the mouse, calling the crop command without arguments crops it on this selection. Otherwise, or in scripts, arguments have to be given, with x and y being the coordinates of the top left corner, and width and height the size of the selection.
ddp
ddp level coef sigma
Performs a DDP (digital development processing) as described first by Kunihiko Okano. This implementation is the one described in IRIS. It combines a linear distribution on low levels (below level) and a non-linear on high levels. It uses a Gaussian filter of sigma sigma multiplies the resulting image by coef. The typical values for sigma are included between 0.7 and 2
dumpheader
dumpheader
Prints the FITS header of the currently loaded image, if any.
entropy
entropy
Computes the entropy of the opened image on the displayed layer, only in the selected area if one has been selected or in the whole image else. The entropy is one way of measuring the noise or the details in an image.
exit
exit
Quits the application.
extract
extract NbPlane
Extracts NbPlane planes of Wavelet domain. For color extraction, see split.
extract_Green
extract_Green
Extracts green signal from the currently loaded CFA image. It reads the Bayer matrix information from the image or the preferences and exports only the averaged green filter data as a new half-sized FITS file. The output file name starts with the prefix "Green_".
See SEQEXTRACT_GREEN for the same operation for sequences.
extract_Ha
extract_Ha
Extracts H-alpha signal from the currently loaded CFA image. It reads the Bayer matrix information from the image or the preferences and exports only the red filter data as a new half-sized FITS file. The output file name starts with the prefix "Ha_".
See SEQEXTRACT_HA for the same operation for sequences.
extract_HaOIII
extract_HaOIII
Extracts H-alpha and O-III signals from the currently loaded CFA image. It reads the Bayer matrix information from the image or the preferences and exports only the red filter data for H-alpha and an average of the three others as a new half-sized FITS files. The output file name start with the prefixes "Ha_" and "OIII_".
See SEQEXTRACT_HAOII for the same operation for sequences.
fdiv
fdiv filename scalar
Divides the image in memory by the image given in argument. The resulting image is multiplied by the value of the scalar argument. Please check that the image is in the working directory.
See also idiv.
fftd
fftd modulus phase
Applies a Fast Fourier Transform to the image loaded in memory. Modulus and phase given in argument are saved in FITS files.
ffti
ffti modulus phase
This function is used to retrieve corrected image applying an inverse transformation. The modulus and phase used are the files given in argument.
fill
fill value x y width height
Fills the whole current image (or selection) with pixels having the value intensity.
fill2
fill2 value x y width height
Same command as FILL but this is a symmetric fill of a region defined by the mouse. Used to process an image in the Fourier (FFT) domain.
find_cosme
find_cosme cold_sigma hot_sigma
This command applies an automatic detection of cold and hot pixels following the threshold written in arguments.
find_cosme_cfa
find_cosme_cfa cold_sigma hot_sigma
Same command as FIND_COSME but for monochromatic CFA images.
find_hot
find_hot filename cold_sigma hot_sigma
The command provides a list file filename (format text) in the working directory which contains the coordinates of the pixels which have an intensity hot_sigma times higher and cold_sigma lower than standard deviation, identified in the currently loaded image. We generally use this command on a master-dark file. The COSME command can apply this list of bad pixels to a loaded image, see also SEQCOSME to apply it to a sequence.
findstar
findstar
Detects stars having a level greater than a threshold computed by Siril. The algorithm is based on the publication of Mighell, K. J. 1999, in ASP Conf. Ser., Vol. 172, Astronomical Data Analysis Software and Systems VIII, eds. D. M. Mehringer, R. L. Plante, & D. A. Roberts (San Francisco: ASP), 317.
After that, a PSF is applied and Siril rejects all detected structures that don't fulfill a set of prescribed detection criteria. Finaly, a circle is drawn around detected stars. See also the command CLEARSTAR.
fix_xtrans
fix_xtrans
Fixes the Fujifilm X-Trans Auto Focus pixels. Indeed, because of the phase detection auto focus system, the photosites used for auto focus get a little less light than the surrounding photosites. The camera compensates for this and increases the values from these specific photosites giving a visible square in the middle of the dark/bias frames.
fixbanding
fixbanding amount sigma
Try to remove the canon banding. Argument amount define the amouont of correction. Sigma defines a protection level of the algorithm, higher sigma gives higher protection.
fmedian
fmedian ksize modulation
Performs a median filter of size ksize [math]\displaystyle{ \times }[/math]ksize (ksize MUST be odd) to the original image with a modulation parameter modulation. The output pixel is computed as : out [math]\displaystyle{ = }[/math]mod [math]\displaystyle{ \times\ m + (1- }[/math]mod[math]\displaystyle{ ) \times }[/math]in, where m is the median-filtered pixel value. A modulation's value of 1 will apply no modulation.
fmul
fmul scalar
Multiplies the loaded image by the scalar given in argument.
gauss
gauss sigma
Applies to the working image a Gaussian blur with parameter sigma.
See also UNSHARP, the same with a blending parameter.
grey_flat
grey_flat
The function equalizes the mean intensity of RGB layers in a CFA images. This is the same process used on flats during preprocessing when the option equalize CFA is used.
help
help [command]
Lists the available commands or help for one command.
histo
histo layer
Calculates the histogram of the image layer in memory and produces file histo_[layer name].dat in the working directory.
layer = 0, 1 or 2 with 0=red, 1=green and 2=blue.
iadd
iadd filename
Adds the image in memory to the image designed in argument. Please check that the image is in the working directory.
idiv
idiv filename
Divides the image in memory by the image given in argument. Please check that the image is in the working directory. See also fdiv.
imul
imul filename
Multiplies the image in memory by the image given in argument. Please check that the image is in the working directory.
isub
isub filename
Substracts the image in memory by the image given in argument. Please check that the image is in the working directory.
linear_match
linear_match reference low high
Computes a linear function between a reference image and a target image already loaded in memory. The function is then applied to the target image to match it to the reference one. The algorithm will ignore all reference pixels whose values are outside of the [low, high] range. The target image is not saved after the call, see the save command.
link
link basename [-start=index] [-out=directory]
Create a new sequence from all FITS images found in the current working directory by linking them to a new name starting with the basename given in argument. If no symbolic link could be created, files are copied. The -out= option changes the output directory to the provided argument.
livestack
livestack filename
Process the provided image for live stacking. Only possible after START_LS. The process involves calibrating the incoming file if configured in START_LS, demosaicing if it's an OSC image, registering and stacking. The temporary result will be in the file live_stack_00001.fit until a new option to change it is added.
Note that the live stacking commands put Siril in a state in which it's not able to process other commands. After START_LS, only LIVESTACK, STOP_LS and EXIT can be called until STOP_LS is called to return Siril in its normal, non-live-stacking, state.
load
load filename load filename.ext
Loads the image filename; it first attempts to load filename, then filename.fit and finally filename.fits and after, all supported format, aborting if none of these are found. These scheme is applicable to every Siril command implying reading files. Fits headers MIPS-HI and MIPS-LO are read and their values given to the current viewing levels. Writing a known extension at the end of filename will load the image filename.ext: this is used when numerous files have the same name but not the same extension.
Extensions supported are :
- *.fit, *.fits, *.fts
- *.bmp / *.jpg, *.jpeg / *.png / *.tif, *.tiff
- *.ppm, *.pgm
- *.pic (IRIS file)
log
log
Computes and applies a logarithmic scale to the current image, using the following formula: log(1 - (value - min) / (max - min)), with min and max being the minimum and maximum pixel value for the channel.
ls
ls
Lists files and directories in the working directory.
merge
merge seq1 seq2 [... seqn] newseq
Merges several sequences of the same type (FITS images, FITS sequence or SER) and same image properties into a new sequence with base name newseq created in the current working directory, with the same type. The input sequences can be in different directories, can specified either in absolute or relative path, with the exact .seq name or with only the base name with or without the trailing '_'.
mirrorx
mirrorx
Rotates the image around a vertical axis.
mirrory
mirrory
Rotates the image around an horizontal axis.
mtf
mtf low midtone high
Applies midtone transfer function to the current loaded image. Three parameters are needed, low, midtones and high where midtones balance parameter defines a nonlinear histogram stretch in the [0,1] range
neg
neg
Shows the negative view of the current image.
new
new width height nb_layers
Creates a new image filled with zeros with a size of width x height. The image is in 16-bit format, and it contains nb_layers layers, nb_layers being 1 or 3. It is not saved, but displayed and can be saved afterwards.
nozero
nozero level
Replaces null values by level values. Useful before an idiv or fdiv operation.
offset
offset value
Adds the constant value to the current image. This constant can take a negative value. As Siril uses unsigned fit files, if the intensity of the pixel become negative its value is replaced by 0 and by 65535 (for a 16-bit file) if the pixel intensity overflows. To check the minimum and maximum intensities values, click on the Auto level button and note the low and high threshold.
pcc
pcc [image_center_coords] [-noflip] [-platesolve] [-focal=] [-pixelsize=]
Run the Photometric Color Correction on the loaded image.
If the image has already been plate solved, the PCC can reuse the solution. If you're not confident with the WCS information of the image being accurate, you can force the plate solving to be remade using the -platesolve flag.
If not in the image's header or not reliable, the approximate image center coordinates can be provided in decimal degrees or degree/hour minute second values (J2000 with colon separators), with right ascension and declination values separated by a comma or a space.
Unless -noflip is specified, the image will be flipped during the plate solving operation, if run, if it is detected as being upside-down. If image has no reliable metadata, focal length and pixel size can be passed as arguments for plate solving, which would override all other sources (image and settings).
pm
pm "expression"
This command evaluates the expression given in argument as in PixelMath tool. The full expression must be between double quotes and variables (that are image names located in the working directory in that case) must be surrounded by the token $, e.g. "$image1$ * 0.5 + $image2$ * 0.5". A maximum of 10 images can be used in the expression.
preprocess
preprocess sequencename [-bias=filename|value] [-dark=filename] [-flat=filename] [-cfa] [-debayer] [-fix_xtrans] [-equalize_cfa] [-opt] [-prefix=] [-fitseq]
Preprocesses (calibrates) the sequence sequencename using any of bias, dark and flat masters given in argument.
The bias master file can be replaced by an integer value or an expression that uses the OFFSET entry from the FITS header, in the form =2048 or =64*$OFFSET. See the tutorial on synthetic bias for more information.
If dark is provided, cosmetic correction is enabled too, but only for hot pixels.
Three options apply to color images (in CFA format): -cfa for cosmetic correction purposes, -debayer to demosaic them before saving and -equalize_cfa to equalize the mean intensity of the three R, G and B layers of the CFA flat master to avoid giving a tint to the calibrated image.
The -fix_xtrans option is dedicated to X-Trans files by applying a correction on dark and bias images to remove an ugly square pattern caused by autofocus.
It is also possible to optimize (adjust its level to match the offset of the image) the dark subtraction with -opt, possible only if both bias and dark masters are provided.
The output sequence name starts with the prefix "pp_" unless otherwise specified with option -prefix=. If -fitseq is provided, the output sequence will be a FITS sequence (single file).
preprocess_single
preprocess_single filename [-bias=filename|value] [-dark=filename] [-flat=filename] [-cfa] [-debayer] [-fix_xtrans] [-equalize_cfa] [-opt] [-prefix=]
Calibrates a single FITS image, using any of bias, dark and flat masters given in argument. Arguments are the same as for PREPROCESS, except -fitseq that applies only to a sequence.
psf
psf [channel]
Performs a PSF (Point Spread Function) on the selected star and displays the results. If provided, the channel argument selects the image channel on which the star will be analyzed. It can be omitted for monochrome images or when run from the GUI with one of the channels active in the view.
The command will output:
- The centroid coordinates (x0 and y0) in pixel units, which is the position of the center of symmetry of the fitted PSF.
- The FWHM on the X and Y axis.
- The rotation angle of the X axis with respect to the centroid coordinates.
- The average local background.
- The maximal intensity of the star: this is the peak value of the fitted function, located at the centroid coordinates x0 and y0.
- The relative magnitude of the star.
- The RMSE. This is an estimate of fitting quality. The smaller the RMSE is, the better the function is fitted.
To be relevant, the selection MUST be done on a non-saturated star.
register
register sequence [-noout] [-drizzle] [-layer=] [-prefix=] [-minpairs=] [-maxstars=] [-transf=] [-interp=]
Performs geometric transforms on images of the sequence given in argument so that they may be superimposed on the reference image. Using stars for registration, this algorithm only works with deepsky images. The registration is done on the green layer for RGB images, unless specified by the -layer option with an argument ranging from 0 to 2 for red to blue.
The output sequence name starts with the prefix r_ unless otherwise specified with -prefix= option. The option -drizzle activates the sub-pixel stacking, either by up-scaling by 2 the images created in the rotated sequence or by setting a flag that will proceed to the up-scaling during stacking if -noout is passed. The option -transf= specifies the use of either shift, affine or homography transformations respectively, homography being the default unless -noout is passed, which uses shift as default.
The option -minpairs= will specify the minimum number of star pairs a frame must have with the reference frame, otherwise the frame will be dropped. The option -maxstars= will specify the maximum number of stars to find within each frame (must be between 100 and 2000). A larger value will enable to find more stars and perform a more accurate registration but will take more time to run.
The interpolation method can be specified with the -interp= keyword followed by one of the methods in the list { no[ne] | ne[arest] | cu[bic] | la[nczos4] | li[near] | ar[ea] }. If none is passed, the transformation is forced to shift and a pixel-wise shift is applied to each image without any interpolation.
reloadscripts
reloadscripts
Rescans the scripts folders and updates scripts menu.
requires
requires x.y.z
This function returns an error if the version of Siril is older than the one passed in argument.
resample
resample factor
Resamples image with a factor factor. This is generally used to resize images, a factor of 0.5 divides size by 2.
In the graphical user interface, we can see that several interpolation algorithms are proposed. Here, Pixel Area Relation is used and cannot be changed.
rgbcomp
rgbcomp red green blue [-out=result_filename] rgbcomp -lum=image { rgb_image | red green blue } [-out=result_filename]
Create an RGB composition using three independent images, or an LRGB composition using the optional luminance image and three monochrome images or a color image. Result image is called composed_rgb.fit or composed_lrgb.fit unless another name is provided in the optional argument.
rgradient
rgradient xc yc dR dalpha
Creates two images, with a radial shift (dR in pixels) and a rotational shift (dalpha in degrees) with respect to the point (xc, yc). Between these two images, the shifts have the same amplitude, but an opposite sign. The two images are then added to create the final image. This process is also called Larson Sekanina filter.
rl
rl threshold sigma corner_radius_boost iterations
Restores an image using the Richardson-Lucy method. Threshold generates an internal mask based on microcontrast in the image which then is used to blend the deconvoluted with the convoluted image. Sigma is the size of the kernel to be applied, while corner_radius_boost is a value which is added to Gaussian sigma for the tiles in the corners of an image. Iterations is the number of iterations to be performed.
Valid values are 0.4 to 2.0 for sigma and -0.5 to 0.5 for corner_radius_boost.
rmgreen
rmgreen [type]
rmgreen is a chromatic noise reduction filter. It removes green tint in the current image. This filter is based on PixInsight's SCNR Average Neutral algorithm and it is the same filter used by HLVG plugin in Photoshop.
With the command, lightness is always preserved. For image processing without L* preservation, use the graphical tool and uncheck the corresponding box.
type can take values 0 for Average Neutral Protection or 1 for Maximum Neutral Protection.
rotate
rotate degree
Rotates the image of an angle of degree value.
rotatepi
rotatepi
Rotates the image of an angle of 180° around its center. This is equivalent to the command rotate 180 or rotate -180.
satu
satu amount [background_factor [hue_range_index]]
Enhances the color saturation of the loaded image. Try iteratively to obtain best results.
- amount can be a positive number to increase color saturation, negative to decrease it, 0 would do nothing, 1 would increase it by 100%
- background_factor is a factor to (median + sigma) used to set a threshold for which only pixels above it would be modified. This allows background noise to not be color saturated, if chosen carefully. Defaults to 1. Setting 0 disables the threshold.
- hue_range_index can be [0, 6], meaning: 0 for pink to orange, 1 for orange to yellow, 2 for yellow to cyan, 3 for cyan, 4 for cyan to magenta, 5 for magenta to pink, 6 for all (default).
save
save filename
Saves current image to filename.fit. Fits headers MIPS-HI and MIPS-LO are added with values corresponding to the current viewing levels.
savebmp
savebmp filename
Saves current image under the form of a bitmap file with 8bits per channel: filename.bmp (BMP 24 bits).
savejpg
savejpg filename [quality]
Saves current image into a JPG file. You have the possibility to adjust the quality of the compression. A value 100 for quality parameter offers best fidelity while a low value increases the compression ratio. If no value is specified, it holds a value of 100. This command is very usefull to share an image in the jpeg format on the forums for example.
savepng
savepng filename
Saves current image as a PNG file, with 16 bits per channel if the loaded image is 16 or 32 bits, and 8 bits per channel if the loaded image is 8 bits.
savepnm
savepnm filename
Saves current image under the form of a Netpbm file format with 16bits per channel. The extension of the output will be filename.ppm for RGB image and filename.pgm for gray-level image. More details about the Netpbm format at : http://en.wikipedia.org/wiki/Netpbm_format.
savetif
savetif filename
Saves current image under the form of a uncompressed TIFF file with 16bits per channel.
savetif8
savetif8 filename
Same command as SAVE_TIF but the output file is saved in 32bits per channel.
savetif8
savetif8 filename
Same command as SAVE_TIF but the output file is saved in 8bits per channel.
select
select from to
This command allows easy mass selection of images in the loaded sequence (from - to, to included). Examples:
select 0 0
selects the first.
select 1000 1200
selects 201 images starting from number 1000
The second number can be greater than the number of images to just go up to the end.
See UNSELECT.
seqapplyreg
seqapplyreg sequencename [-drizzle] [-interp=] [-selected] [-layer=]
Applies geometric transforms on images of the sequence given in argument so that they may be superimposed on the reference image, using registration data previously computed.
The output sequence name starts with the prefix r_ unless otherwise specified with -prefix= option.
The option -drizzle activates up-scaling by 2 the images created in the transformed sequence.
The interpolation method can be specified with the -interp= keyword followed by one of the methods in the list { no[ne] | ne[arest] | cu[bic] | la[nczos4] | li[near] | ar[ea] }. If none is passed, the transformation is forced to shift and a pixel-wise shift is applied to each image without any interpolation.
The registration is done on the first layer for which data exists for RGB images unless specified by -layer= option (0, 1 or 2 for R, G and B respectively).
seqclean
seqclean sequencename [-reg] [-stat]
This command clears registration and/or statistics data stored in sequencename.
You can specify to clear only registration or statistics with -reg and -stat options respectively. Both are cleared if no option is passed.
seqcosme
seqcosme seqname [filename].lst [-prefix=]
Same command as COSME but for the the sequence sequencename.
The output sequence name starts with the prefix "cosme_" unless otherwise specified with option -prefix=. Only selected images in the sequence are processed.
seqcosme_cfa
seqcosme_cfa seqname [filename].lst [-prefix=]
Same command as COSME_CFA but for the the sequence sequencename.
The output sequence name starts with the prefix "cosme_" unless otherwise specified with option -prefix=. Only selected images in the sequence are processed.
seqcrop
seqcrop seqname x y width height [-prefix=]
Crops the sequence given in the seqname argument. The output sequence name starts with the prefix "cropped_" unless otherwise specified with -prefix= option. Only selected images in the sequence are processed.
seqextract_Green
seqextract_Green seqname [-prefix=]
Same command as EXTRACT_GREEN but for the sequence seqname. The output sequence name starts with the prefix "Green_" unless otherwise specified with option -prefix=. Only selected images in the sequence are processed.
seqextract_Ha
seqextract_Ha seqname [-prefix=]
Same command as EXTRACT_HA but for the sequence seqname. The output sequence name starts with the prefix "Ha_" unless otherwise specified with option -prefix=. Only selected images in the sequence are processed.
seqextract_HaOIII
seqextract_HaOIII seqname
Same command as EXTRACT_HAOIII but for the sequence seqname. The output sequences names start with the prefixes "Ha_" and "OIII_". Only selected images in the sequence are processed.
seqfind_cosme
seqfind_cosme cold_sigma hot_sigma [-prefix=]
Same command as FIND_COSME but for the loaded sequence. The output sequence name starts with the prefix "cc_" unless otherwise specified with -prefix= option. Only selected images in the sequence are processed.
seqfind_cosme_cfa
seqfind_cosme_cfa cold_sigma hot_sigma [-prefix=]
Same command as FIND_COSME_CFA but for the loaded sequence. The output sequence name starts with the prefix "cc_" unless otherwise specified with -prefix= option. Only selected images in the sequence are processed.
seqmtf
seqmtf seqname low midtone high [-prefix=]
Same command as MTF but for the sequence seqname. The output sequence name starts with the prefix "mtf_" unless otherwise specified with -prefix= option. Only selected images in the sequence are processed.
seqpsf
seqpsf [sequencename channel [-at=x,y]]
Same command as PSF but works for sequences. This is similar to the one-star registration, except results can be used for photometry analysis rather than aligning images.
This command is what is called internally by the menu that appears on right click in the image, with the PSF for the sequence entry. By default, it will run with parallelisation activated; if registration data already exists for the sequence, they will be used to shift the search window in each image. If there is no registration data and if there is significant shift between images in the sequence, the default settings will fail to find stars in the initial position of the search area.
The follow star option can then be activated by going in the registration tab, selecting the one-star registration and checking the follow star movement box (default in headless if no registration data is available).
Results will be displayed in the Plot tab, from which they can also be exported to a comma-separated values (CSV) file for external analysis.
When creating a light curve, the first star for which seqpsf has been run, marked 'V' in the display, will be considered as the variable star. All others are averaged to create a reference light curve subtracted to the light curve of the variable star.
Currently, in headless operation, the command prints some analysed data in the console, soon another command will allow the photometry datasets to be managed. Arguments are mandatory in headless, with -at= allowing coordinates in pixels to be provided for the target star.
seqsplit_cfa
seqsplit_cfa seqname [-prefix=]
Same command as SPLIT_CFA but for the sequence seqname. The output sequence name starts with the prefix "CFA_" and a number unless otherwise specified with -prefix= option. Only selected images in the sequence are processed.
Limitation: the sequence always outputs a sequence of FITS files, no matter the type of input sequence.
seqstat
seqstat seqname output [option]
Same command as STAT bit for sequence sequencename. Only selected images in the sequence are processed. The output is saved in a csv file given in second argument, the meaning of each value is explained in the statistics documentation page. The optional parameter can be basic, main or full. basic includes mean, median, sigma, bgnoise, min and max. main includes basic with the addition of avgDev, MAD and the square root of BWMV, full includes main with the addition of location and scale.
seqsubsky
seqsubsky seqname { -rbf | degree } [-samples=20] [-tolerance=1.0] [-smooth=0.5] [-prefix=]
Same command as SUBSKY but for the sequence sequencename. The output sequence name starts with the prefix "bkg_" unless otherwise specified with -prefix= option. Only selected images in the sequence are processed.
seqtilt
seqtilt [sequencename]
Same command as TILT but for the loaded sequence (from the GUI) or the sequence sequencename. It generally gives better result.
set16bits
set16bits
Forbid images to be saved with 32 bits per channel on processing, use 16 instead.
set32bits
set32bits
Allow images to be saved with 32 bits per channel on processing.
setcompress
setcompress 0/1 [-type=] [q] [hscale_factor]
Defines if images are compressed or not: 0 means no compression. If compression is enabled, the type must be explicitly written in the option -type= (rice, gzip1, gzip2 and hcompress). Associated to the compression, the quantization value must follow [0, 256] and in the case of hcompress, the hcompress scale factor [0, 256] as well. For example, setcompress 1 -type=rice 16 set the rice compression with a quantization of 16.
setcpu
setcpu number
Defines the number of processing threads used for calculation. Can be as high as the number of virtual threads existing on the system, which is the number of CPU cores or twice this number if hyper-threading (Intel HT) is available. The default value is the maximum number of threads available, so this should mostly be used to limit processing power. See also SETMEM.
Warning: this command does not persist over siril restarts, contrary to SETMEM which is saved in settings.
setext
setext extension
Sets the extension used and recognized by sequences. The argument extension can be fit, fts or fits.
setfindstar
setfindstar [-radius=] [-sigma=] [-roundness=] [-focal=] [-pixelsize=] [-auto=on|off]
Defines stars detection parameters for FINDSTAR and REGISTER commands.
The threshold for star detection is computed as the median of the image (which represents in general the background level) plus k times sigma, sigma being the standard deviation of the image (which is a good indication of the noise amplitude). If you have many stars in your images and a good signal/noise ratio, it may be a good idea to increase this value to speed-up the detection and false positives.
The roundness argument is the minimal ratio of the short axis on the long axis of the star Gaussian fit (see PSF). A value of 1 would keep only perfectly round stars, a value of 0.5, the default, means that stars detected twice as big on an axis as on the other will still be used for registration.
It is recommended to test the values used for a sequence with Siril's GUI, available in the dynamic PSF toolbox from the analysis menu. It may improve registration quality to increase the parameters, but it is also important to be able to detect several tens of stars in each image.
-radius= defines the radius of the initial search box and must be between 3 and 50.
-sigma= defines the threshold above noise and must be greater or equal to 0.05.
-roundness= defines minimum star roundness and must between 0 and 0.95
-auto= is used if set to on, in which case the radius option is corrected to account for the actual sampling defined by focal and pixelsize options (unless already defined in the image header). This option can be deactivated by setting -auto=off.
-focal= defines the focal length of the telescope.
-pixelsize= defines the pixel size of the sensor.
setmag
setmag magnitude
Calibrates the magnitude by selecting a star and giving the known apparent magnitude. All PSF computations will return the calibrated apparent magnitude afterwards, instead of an apparent magnitude relative to ADU values. To reset the magnitude constant see UNSETMAG.
setmagseq
setmagseq magnitude
This command is only valid after having run seqpsf or its graphical counterpart (select the area around a star and launch the psf analysis for the sequence, it will appear in the graphs). This command has the same goal as setmag but recomputes the reference magnitude for each image of the sequence where the reference star has been found. When running the command, the last star that has been analysed will be considered as the reference star. Displaying the magnitude plot before typing the command makes it easy to understand. To reset the reference star and magnitude offset, see unsetmagseq.
setmem
setmem ratio
Sets a new ratio of free memory on memory used for stacking. Value should be between 0 and 1, depending on other activities of the machine. A higher ratio should allow siril to stack faster. Introduced in 0.9.11. See also SETCPU.
setphot
setphot [-inner=20] [-outer=30] [-aperture=10] [-force_radius=no] [-gain=2.3] [-min_val=0] [-max_val=60000]
Gets or sets photometry settings, mostly used by seqpsf. If arguments are provided, they will update the settings. None are mandatory, any can be provided, default values are shown in the command's syntax. At the end of the command's execution, the active configuration will be printed. Aperture is dynamic unless forced, the aperture value from settings is not used if dynamic, FWHM is used instead. Gain is used only if not available from the FITS header. See the documentation on these parameters in the aperture photometry page.
setref
setref sequencename image
Sets the reference image of the sequence given in first argument.
split
split r g b
Splits the currently loaded color image into three distincts files (one for each color) and save them in r g and b FITS files.
split_cfa
split_cfa
Splits the currently loaded CFA image into four distinct images (one for each filter of the Bayer matrix) and save them in FITS files. See SEQSPLIT_CFA for the same operation on a sequence.
Not supported for XTRANS sensors.
stack
stack seqfilename stack seqfilename { sum | min | max } [filtering] [-output_norm] [-out=filename] stack seqfilename { med | median } [-nonorm, -norm=] [-filter-incl[uded]] [-fastnorm] [-out=filename] stack seqfilename { rej | mean } [rejection type] [sigma_low sigma_high] [-nonorm, -norm=] [filtering] [-fastnorm] [-weight_from_noise] [-weight_from_nbstack] [-rgb_equal] [-out=filename]
With filtering being some of these in no particular order or number:
[-filter-fwhm=value[%]] [-filter-wfwhm=value[%]] [-filter-round=value[%]] [-filter-quality=value[%]] [-filter-incl[uded]]
Stacks the seqfilename sequence, using options.
The allowed types are: sum, max, min, med or median. The rejection type is one of { n[one] | p[ercentile] | s[igma] | m[edian] | w[insorized] | l[inear] | g[eneralized] | [m]a[d] } for Percentile, Sigma, Median, Winsorized, Linear-Fit, Generalized Extreme Studentized Deviate Test or k-MAD clipping. If omitted, the default (Winsorized) is used. The sigma low and high parameters of rejection are mandatory if rejection is not none.
See the tooltips in the stacking tab for more information about the stacking methods and rejection types, or see the documentation.
Best images from the sequence can be stacked by using the filtering arguments. The filtering uses registration data, either with a value for the last image to take depending on the type of data used (between 0 and 1 for roundness and quality) or a percentage of best images to keep if the number is followed by a % sign. It is also possible to use manually selected images, either previously from the GUI or with the select or unselect commands.
If several filters are added to the command, only images that pass all the filters will be stacked. There is consequently no order. If a filter is badly declared, because it has no registration data or a too low threshold, nothing will be stacked.
Normalization is automatically enabled for median and mean with rejection stacking methods. This can be overridden using the -nonorm flag or the -norm=normalization option. The allowed normalization are: add, addscale, mul or mulscale. For other methods, or with the use of the -nonorm flag, normalization is disabled. The additional flag -fastnorm will enable the use of faster estimators for location and scale than the default IKSS, which in a few cases may give less good results.
Weighting of the images is possible using either the noise level computed from each image (option -weight_from_noise) or using the number of images previously used to stack the input images, indicated by the STACKCNT or NCOMBINE FITS header keywords (option -weight_from_nbstack), this is used for live or iterative stacking. These options can only be enabled with mean or rejection stacking, when normalization has been enabled.
-output_norm applies a normalization at the end of the stacking to rescale result in the [0, 1] range,-rgb_equal equalizes the RGB channels of the stacked image (color-only).
Stacked image for the sequence is created with the name provided in the optional argument -out, or with the name of the sequence suffixed "_stacked" and the configured FITS file extension. If a file with this name already exists, it will be overwritten without warning.
Note that this command was added in the 0.9.9 release, the filtering and output naming options were added in the 0.9.11 release and the output_norm in the 1.0.0, weighting options, rgb equalization and disabling the rejection were added in 1.1.0.
stackall
stackall stackall { sum | min | max } [filtering] stackall { med | median } [-nonorm, norm=] [-filter-incl[uded]] stackall { rej | mean } [rejection type] [sigma_low sigma_high] [-nonorm, norm=] [filtering] [-weight_from_noise] [-weight_from_nbstack] [-rgb_equal] [-out=filename]
With filtering being some of these in no particular order or number:
[-filter-fwhm=value[%]] [-filter-wfwhm=value[%]] [-filter-round=value[%]] [-filter-quality=value[%]] [-filter-incl[uded]]
Opens all sequences in the current working directory (CWD) and stacks them with the optionally specified stacking method. See STACK command for options description.
Stacked images for each sequence are created with the suffix "_stacked" and the configured FITS file extension.
Note that most options for this command were introduced in the 0.9.8 release, the filtering options were introduced in the 0.9.11 release and the output_norm option in the 1.0.0 release.
start_ls
start_ls [-dark=filename] [-flat=filename]
Initialize a livestacking session, using the optional calibration files and wait for input files to be provided by the LIVESTACK command until STOP_LS is called.
Note that the live stacking commands put Siril in a state in which it's not able to process other commands. After START_LS, only LIVESTACK, STOP_LS and EXIT can be called until STOP_LS is called to return Siril in its normal, non-live-stacking, state.
stat
stat
Returns global statistics of the current image. The meaning of each value is explained on the statistics documentation page. If a selection is made, the command returns global statistics within the selection. To compute the statistics on a sequence, see SEQSTAT.
stop_ls
stop_ls
Stop the live stacking session. Only possible after START_LS.
Note that the live stacking commands put Siril in a state in which it's not able to process other commands. After START_LS, only LIVESTACK, STOP_LS and EXIT can be called until STOP_LS is called to return Siril in its normal, non-live-stacking, state.
subsky
subsky { -rbf | degree } [-samples=20] [-tolerance=1.0] [-smooth=0.5]
Computes a synthetic background gradient using either the polynomial function model of degree degrees or the RBF model (if -rbf is provided instead) and subtracts it from the image. The number of samples per horizontal line and the tolerance to exclude brighter areas can be adjusted with the optional arguments. Tolerance is in mad units: median + tolerance * mad. For RBF, the additional smoothing parameter is also available.
threshlo, threshhi, thresh
These are threshold functions:
- threshlo 40 replaces values below 40 with 40;
- threshhi 1000 replaces values above 1000 with 1000;
- thresh 40 1000 does both.
tilt
tilt
Computes the Sensor tilt as the fwhm difference between the best and worst corner truncated mean values. The clear option allows to clear the drawing.
unselect
unselect from to
Allows easy mass unselection of images in the loaded sequence (from - to). See SELECT.
unsetmag
unsetmag
Reset the magnitude calibration to 0. See SETMAG.
unsetmagseq
unsetmagseq
Resets the magnitude calibration and reference star for the sequence. See SETMAGSEQ.
unsharp
unsharp sigma amount
Applies to the working image an unsharp mask, actually a Gaussian filtered image with parameter sigma and a blend with the parameter amount used as such: out = in * (1 + amount) + filtered * (-amount).
See also GAUSS, the same without the blending.
visu
visu low high
Displays an image with low and high as the low and high threshold.
wavelet
wavelet plan_number type
Computes the wavelet transform on nbr_plan plans using linear (type=1) or bspline (type=2) version of the 'a trous' algorithm. The result is stored in a file as a structure containing the planes, ready for weighted reconstruction with WRECONS.
wrecons
wrecons c1 c2 ... cn
Reconstructs to current image from the planes previously computed with wavelets and weighted with coefficients c1, c2, ..., cn according to the number of planes used for wavelet transform.