(require-library srfi-1 irregex data-structures files posix extras ploticus cis) (import (only srfi-1 filter) (only files make-pathname) (only posix glob) (only data-structures ->string alist-ref compose) (only extras fprintf) (only mathh cosh tanh log10) (prefix ploticus plot:) ) (define comment-pat (string->irregex "^#.*")) (define (activity-plot nest-file neuron-file) ; stim-file (let* ( #;(stim-data (fold (lambda (data-file data) (append (map (lambda (line) (let ((strs (filter (lambda (x) (not (string-null? x))) (string-split line " ")))) (map string->number strs))) (filter (lambda (line) (not (irregex-match comment-pat line))) (read-lines data-file))) data)) '() (list stim-file))) (nest-data (fold (lambda (data-file data) (append (map (lambda (line) (let ((strs (filter (lambda (x) (not (string-null? x))) (string-split line "\t")))) (map string->number strs))) (filter (lambda (line) (not (irregex-match comment-pat line))) (read-lines data-file))) data)) '() (list nest-file))) (neuron-data (fold (lambda (data-file data) (append (map (lambda (line) (map string->number (string-split line " "))) (filter (lambda (line) (not (irregex-match comment-pat line))) (read-lines data-file))) data)) '() (list neuron-file))) #;(stim-data1 (filter-map (lambda (lst) (and (pair? lst) (list (list-ref lst 0) (list-ref lst 1)))) stim-data)) (nest-data1 (map (lambda (lst) (list (list-ref lst 1) (list-ref lst 2))) nest-data)) (neuron-data1 (map (lambda (lst) (list (list-ref lst 0) (list-ref lst 1))) neuron-data)) ) (let-values ( ((fd1 temp-path1) (file-mkstemp "/tmp/activity-plot.nest.XXXXXX")) ((fd2 temp-path2) (file-mkstemp "/tmp/activity-plot.neuron.XXXXXX")) ; ((fd3 temp-path3) (file-mkstemp "/tmp/activity-plot.stim.XXXXXX")) ) (file-close fd1) (file-close fd2) ; (file-close fd3) (let ((dataport (open-output-file temp-path1))) (for-each (lambda (x) (fprintf dataport "~A,~A~%" (car x) (cadr x))) nest-data1) (close-output-port dataport)) (let ((dataport (open-output-file temp-path2))) (for-each (lambda (x) (fprintf dataport "~A,~A~%" (car x) (cadr x))) neuron-data1) (close-output-port dataport)) #;(let ((dataport (open-output-file temp-path3))) (for-each (lambda (x) (fprintf dataport "~A,~A~%" (car x) (cadr x))) stim-data1) (close-output-port dataport)) (plot:init 'eps (make-pathname "." "nest_neuron_run.eps")) (plot:arg "-pagesize" "20,30") (plot:arg "-textsize" "14") (plot:arg "-maxrows" "300000") (plot:arg "-maxfields" "900000") (plot:arg "-maxvector" "900000") (plot:proc "getdata" `( ; ("showdata" . "yes") ("delim" . "comma") ("fieldnames" . "t1 v1") ("pathname" . ,temp-path1) )) (plot:proc "areadef" `(("title" . "Granule Diwakar 2009 voltage trace (NEST simulation, soma)") ("titledetails" . "adjust=0,0.2") ("rectangle" . "1 10 9 14") ("areacolor" . "white") ("xrange" . "0 3000") ("yrange" . "-80 60") ;("xaxis.label" . "t [ms]") ("xaxis.axisline" . "yes") ("xaxis.stubs" . "inc") ("yaxis.label" . "V [mV]") ("yaxis.labeldistance" . "0.6") ("yaxis.stubs" . "inc") )) (plot:proc "lineplot" `(("xfield" . "t1") ("yfield" . "v1") ("linedetails" . "color=red width=0.5") )) (plot:proc "getdata" `( ; ("showdata" . "yes") ("delim" . "comma") ("fieldnames" . "t2 v2") ("pathname" . ,temp-path2) )) (plot:proc "areadef" `(("title" . "Granule Diwakar 2009 voltage trace (NEURON simulation, soma)") ("titledetails" . "adjust=0,0.2") ("rectangle" . "1 5 9 9") ("areacolor" . "white") ("xrange" . "0 3000") ("yrange" . "-80 60") ("xaxis.label" . "t [ms]") ("xaxis.labeldistance" . "0.6") ("xaxis.axisline" . "yes") ("xaxis.stubs" . "inc") ("yaxis.label" . "V [mV]") ("yaxis.labeldistance" . "0.6") ("yaxis.stubs" . "inc") )) (plot:proc "lineplot" `(("xfield" . "t2") ("yfield" . "v2") ("linedetails" . "color=blue width=0.5") )) #; (plot:proc "getdata" `( ; ("showdata" . "yes") ("delim" . "comma") ("fieldnames" . "t i") ("pathname" . ,temp-path3) )) #; (plot:proc "areadef" `(("title" . "Stimulus current") ("titledetails" . "adjust=0,0.2") ("rectangle" . "1 3 8 4") ("areacolor" . "white") ("xrange" . "0 3000") ("yrange" . "0 5") ("xaxis.label" . "t [ms]") ("xaxis.axisline" . "yes") ("xaxis.stubs" . "inc") ("yaxis.label" . "I [nA]") ("yaxis.stubs" . "inc") )) #; (plot:proc "lineplot" `(("xfield" . "t") ("yfield" . "i") ("stairstep" . "yes") ("linedetails" . "color=green width=1") )) (plot:end) )) ) (apply activity-plot (command-line-arguments))