Mask Editor is intended for interactive selection of good and bad regions on 2D image and preparation of output files with direct and inversed masks. It works as a basic graphical editor with specific input of the image and output for masks.
User interface of the Mask Editor works in a single window containing three panels; graphical window, left-hand, and bottom control bars. Content and functionality of these panels is described below. Most of control buttons have tool tip hints; when cursor stops on control button, a pop-up window with explanation of functionality of this button appears for a few seconds .
Graphical window contains image and spectrum. When cursor moves on image or spectrum, its coordinates are displayed near cursor. Cursor pattern is changed from "cross" to "pointing-finger" when it is located on active form boarder.
Left control bar consists of stack of buttons, which are functionally split for four groups; Forms, Modes, I/O, and Status, which content and functionality is explained in this section.
Forms are represented by the geometry objects Rectangle, Circle, Polygon, Wedge, and Line, which can be used to compose the mask positive and negative regions. All forms, except Polygon, are presented by two 2D points each in image coordinate system. Polygon is presented by the N 2D points, where N is a number of vertexes. All forms behave about the same way depending on Mode, as explained below.
Panel of modes contain Zoom, Add, Move, Select, and Remove buttons with functionality literally explained by their names.
I/O panel contains a stack of buttons for input/output files and other global procedures as listed below.
Status panel is a single button-like panel, displaying short status messages. Click on any button potentially may change the status panel info. Messages are enforced by colors; green/yellow/red, corresponding to normal/attention/warning status. For "Wait ..." messages, it would be wise not clicking on buttons until the procedure is completed.
Mask evaluation for Polygon and Wedge forms may take up to 5-10s/form. Just wait calm! |
Bottom control bar contains "Help", "Reset", "Save", "ELog", "Close" buttons, "N bins" editable field, "Grid", and "Log" check boxes.
Mask Editor is developed as a part of the integrated data processing environment for XCS time correlation experiments. In this project the Mask Editor is integrated as one of the system GUIs. Also it can be executed as a stand-alone application named med
. Stand-alone version of the Mask Editor can launched on any of psana
or psexport
node using command-line interface, for example, for all default parameters:
sit_setup med |
> med -h Usage: med [options] Optional input parameters. Options: -h, --help show this help message and exit -i IFNAME, --ifname=IFNAME input image file name, default = ./roi-img -m MFNAME, --mfname=MFNAME common path to I/O files with mask, default = ./roi- mask -o OFNAME, --ofname=OFNAME output png file name for current canvas, default = ./fig.png -t TITLE, --title=TITLE initial title of the garphical window, default = Mask editor -x XC, --xc=XC x coordinate of the center for Wedges, default = None -y YC, --yc=YC y coordinate of the center for Wedges, default = None -p PICKER, --picker=PICKER distance in pix, where object responce on mouse, default = 8 -w LW, --lw=LW object line width, default = 1 -c COL, --color=COL color of the form lines "b"-blue, "k"-black, etc., default = b -v, --verbose allows print on console, default = True -q, --quiet supress print on console, default = False -f, --fexmod file exchange mode on/off (True/False), default = False |
Forms can be saved in file, loaded from file and displayed on image, printed on console monitor, and cleared/removed from image. This can be done using simple data representation for each form, which is quite self-explained in case of print or text-file format:
Form parameters for composition of the mask Rectangle 48.00 50.00 262.00 380.00 1 b False False Rectangle 987.00 853.00 255.00 380.00 1 w True False Wedge 716.76 674.72 541.18 197.61 -171.39 174.59 1 b False False Wedge 674.48 667.64 585.84 386.69 174.75 186.99 1 b False False Circle 712.00 674.00 262.00 1 b False False Circle 1068.00 180.00 112.00 1 b False False Circle 191.00 898.00 117.00 1 b False False Circle 752.00 1098.00 53.00 1 w True False Line 689.79 1252.80 624.50 223.22 1 w True False Line 829.99 1252.80 244.47 388.46 1 b False False Line 836.67 1303.98 268.07 541.89 1 w True False Line 692.02 1315.11 669.35 827.50 1 b False False Polygon 1 w True False 10 400 373 620 ... Polygon 1 b False False 6 329 674 683 ... |
2014-06-12, CorAna V00-00-19, in release ana-0.11.6
In order to interactively communicate between Mask Editor and other application(s) Marcin Sikorski requested to introduce the file exchange mechanism for image and mask. It is assumed that external event processing application periodically supplies averaged image, Mask Editor can load it and use for interactive ROI mask correction, and submit in response the mask, which will be used by the external application. This asynchronous data exchange mechanism was implemented in CorAna.ArrFileExchange class. This algorithm uses numpy arrays with np.save(fname,arr)
and arr=np.load(fname)
methods. In order to get rid of collisions between reader and writer the "ring-buffer" (a.k.a. "round-robin") exchange mechanism is implemented. Data producer writes files with names enumerated in the ring buffer. During writing data is saved in the file with temporary name. When the file is written, it is renamed to indexed name. This eliminates probability of the read/write collision. Data consumer checks availability of the new data and loads numpy array from the latest file if necessary.
Interface for class CorAna.ArrFileExchange
#----------------------- # code in array producer #----------------------- afe = ArrFileExchange(prefix='./my-numpy-arr') # one call per object arr = ... # supply array here afe.save_arr(arr) # as many times as you need #----------------------- # code in array consumer #----------------------- afe = ArrFileExchange(prefix='./my-numpy-arr') # one call per object arr = afe.get_arr_latest() # as many times as you need # optional method: status = afe.is_new_arr_available() # returns True/False if the new array IS/IS NOT available # since last call to arr = afe.get_arr_latest() |
Two ArrFileExchange objects for image reader and mask writer are incorporated in the Mask Editor. File exchange mode in the med application can be launched by the command:
med -f -i work/my-roi-img -m work/my-roi-mask
assuming that path to the file directory work/
already exists. Options in this example provide functionality as follows;
-f
turns on the file exchange mode,External application may communicate with launched med through the code pattern shown below
from CorAna.ArrFileExchange import * ... # create reader/writer objects with file name prefixes # exactly like in the med command line for opposite party: afe_rd = ArrFileExchange(prefix='work/my-roi-mask') afe_wr = ArrFileExchange(prefix='work/my-roi-img') ... # image writer image = np.array(...) # supply numpy array for image afe_wr.save_arr(image) # image writer ... # mask reader if afe_rd.is_new_arr_available() : # check that the new data is available mask = afe_rd.get_arr_latest() # mask reader |
Mask Editor can be tested with toy image producer application, for example, launch two applications from different xterm windows:
test_img_gen -n 50 -o work/roi-img;
med -f -i work/my-roi-img -m work/my-roi-mask;
then, click on buttons "Load Image", "Save Mask", or "Save Inv-M" in the MaskEditor GUI.
The CorAna.ArrFileExchange
s file exchange algorithm is used in psana module imgalgos.image_save_in_file to generate image files within ring buffer.
In addition to med, there is a file/image browsing application plims, which options can be seen by the command
plims -h
[pyimgalgos.image_save_in_file] source = DetInfo(MecTargetChamber.0:Cspad2x2.3) key_in = cspad2x2_image ofname = ./roi-img mode = 3 delay_sec = 1 print_bits = 255 |
Plots for
plims -h
- Image browsing application