Files
dxfmakros/Lisp/tests.lsp
T

205 lines
6.9 KiB
Common Lisp

;; ============================================================
;; tests.lsp - Test- und Hilfsfunktionen
;; ============================================================
(defun c:CALLPYTHON ( / log-pfad py-skript return-datei cmd fh zeile)
(setq log-pfad (getenv "DXFM_LOG"))
(setq py-skript (strcat (getenv "DXFM_LIB") "\\testpycall.py"))
(setq return-datei (strcat log-pfad "\\testpycall_return.txt"))
(if (findfile py-skript)
(progn
(setq cmd (strcat "python \"" py-skript "\" \"" log-pfad "\""))
(command "_.SHELL" cmd)
(if (findfile return-datei)
(progn
(setq fh (open return-datei "r"))
(setq zeile (read-line fh))
(close fh)
(princ (strcat "\n[SSG_LIB] Python Rueckgabe: " zeile))
)
(princ "\n[SSG_LIB] WARNUNG: Keine Rueckgabe von Python erhalten.")
)
)
(princ (strcat "\n[SSG_LIB] FEHLER: " py-skript " nicht gefunden!"))
)
(princ)
)
;; ============================================================
;; EXPORT - Relevante INSERT-Entities sammeln und als JSON exportieren
;; Anschliessend Python-Skript aufrufen fuer CSV-Erzeugung
;; ============================================================
;; --- String fuer JSON escapen (Anfuehrungszeichen/Backslash) ---
;; Nutzt vl-string-subst fuer die haeufigsten Faelle statt
;; zeichenweiser Verkettung (deutlich schneller bei langen Strings).
(defun csv:json-escape (s)
(setq s (vl-string-subst "\\\\" "\\" s))
(vl-string-subst "\\\"" "\"" s)
)
;; --- Attribute eines INSERT-Blocks als JSON-Objekt lesen ---
;; ename = Entity-Name des INSERT
;; Rueckgabe: String wie {"TAG1":"Wert1","TAG2":"Wert2"}
(defun csv:read-attribs (ename / obj ed typ tag wert parts)
(setq obj (entnext ename))
(setq parts nil)
(while obj
(setq ed (entget obj))
(setq typ (cdr (assoc 0 ed)))
(if (equal typ "SEQEND") (setq obj nil)
(progn
(if (equal typ "ATTRIB")
(setq parts (cons (strcat "\"" (csv:json-escape (cdr (assoc 2 ed)))
"\":\"" (csv:json-escape (cdr (assoc 1 ed))) "\"")
parts))
)
(setq obj (entnext obj))
)
)
)
(if parts
(progn
(setq parts (reverse parts))
(strcat "{" (car parts)
(apply 'strcat (mapcar '(lambda (p) (strcat "," p)) (cdr parts)))
"}")
)
"{}"
)
)
;; --- Einen INSERT-Block als JSON-Objekt schreiben ---
(defun csv:block-to-json (ename / ed blk-name layer pt rotation handle attribs)
(setq ed (entget ename))
(setq blk-name (cdr (assoc 2 ed)))
(setq layer (cdr (assoc 8 ed)))
(setq pt (cdr (assoc 10 ed)))
(setq rotation (cdr (assoc 50 ed)))
(setq handle (cdr (assoc 5 ed)))
(if (null rotation) (setq rotation 0.0))
(if (cdr (assoc 66 ed))
(setq attribs (csv:read-attribs ename))
(setq attribs "{}")
)
(strcat
" {\"block_name\":\"" (csv:json-escape blk-name) "\""
",\"layer\":\"" (csv:json-escape layer) "\""
",\"handle\":\"" (csv:json-escape handle) "\""
",\"x\":" (rtos (car pt) 2 4)
",\"y\":" (rtos (cadr pt) 2 4)
",\"z\":" (rtos (if (caddr pt) (caddr pt) 0.0) 2 4)
",\"rotation\":" (rtos (* (/ rotation pi) 180.0) 2 4)
",\"attribs\":" attribs
"}"
)
)
;; --- Relevante Bloecke sammeln ---
;; Filtert INSERT-Entities auf exportierbare Bloecke:
;; KR_* = Kreisel Compound-Bloecke
;; AP110* = Omniflo Geraden
;; Omniflo Boegen/Weichen = rein numerische Blocknamen (SivasNr)
;; Vario* = VarioFoerderer-Bloecke
;; Gibt Auswahlsatz zurueck oder nil.
(defun csv:collect-export-blocks ( / ss-all ss-out i ename ed bname)
(setq ss-all (ssget "X" (list (cons 0 "INSERT"))))
(if (null ss-all) (setq ss-out nil)
(progn
(setq ss-out (ssadd))
(setq i 0)
(while (setq ename (ssname ss-all i))
(setq ed (entget ename))
(setq bname (cdr (assoc 2 ed)))
(if (or
(wcmatch bname "KR_*")
(wcmatch (strcase bname) "AP110*,AP_110*")
(wcmatch bname "Vario*,Staustrecke*,AUS_Element*,EIN_Element*")
;; Rein numerische Namen = Omniflo SivasNr (Boegen/Weichen)
(wcmatch bname "#*")
)
(ssadd ename ss-out)
)
(setq i (1+ i))
)
(if (= (sslength ss-out) 0) (setq ss-out nil))
)
)
ss-out
)
;; --- Gemeinsame Export-Funktion ---
;; Sammelt relevante Bloecke, schreibt JSON, ruft Python auf.
;; label = Anzeigename (z.B. "EXPORTCSV")
;; py-name = Python-Skript-Name (z.B. "export_csv.py")
;; csv-name = Ergebnis-CSV-Name (z.B. "export.csv")
(defun csv:run-export (label py-name csv-name / ss i ename fh out-pfad
py-skript ergebnis-pfad cmd first-block count)
(princ (strcat "\n[" label "] Sammle relevante Bloecke..."))
(setq ss (csv:collect-export-blocks))
(if (null ss)
(progn
(princ (strcat "\n[" label "] Keine relevanten Bloecke gefunden."))
(princ)
)
(progn
(setq count (sslength ss))
(princ (strcat "\n[" label "] " (itoa count) " Bloecke gefunden."))
;; JSON-Datei zusammenbauen
(setq out-pfad (strcat (getenv "DXFM_RESULTS") "/export_raw.json"))
(setq fh (open out-pfad "w"))
(if (null fh)
(progn
(princ (strcat "\n[" label "] FEHLER: Kann Datei nicht oeffnen: " out-pfad))
(princ)
)
(progn
(write-line "[" fh)
(setq i 0)
(setq first-block T)
(while (setq ename (ssname ss i))
(if (not first-block)
(write-line "," fh)
)
(write-line (csv:block-to-json ename) fh)
(setq first-block nil)
(setq i (1+ i))
)
(write-line "]" fh)
(close fh)
(princ (strcat "\n[" label "] JSON geschrieben: " out-pfad))
;; Python-Skript aufrufen
(setq py-skript (strcat (getenv "DXFM_LIB") "/" py-name))
(if (findfile py-skript)
(progn
(setq ergebnis-pfad (strcat (getenv "DXFM_RESULTS") "/" csv-name))
(setq cmd (strcat "python \"" py-skript "\""
" \"" out-pfad "\""
" \"" (getenv "DXFM_DATA") "\""
" \"" ergebnis-pfad "\""))
(princ (strcat "\n[" label "] Rufe Python auf..."))
(startapp "cmd" (strcat "/c " cmd))
(princ (strcat "\n[" label "] Export gestartet: " ergebnis-pfad))
)
(princ (strcat "\n[" label "] FEHLER: Python-Skript nicht gefunden: " py-skript))
)
)
)
)
)
(princ)
)
;; --- EXPORTSIVAS: Sivas-spezifischer CSV-Export mit Summierungszeilen ---
(defun c:EXPORTSIVAS ()
(csv:run-export "EXPORTSIVAS" "export_sivas.py" "export_sivas.csv")
)
;; --- EXPORTCSV: Einfache Item-Liste aller Bloecke (ohne Summierung) ---
(defun c:EXPORTCSV ()
(csv:run-export "EXPORTCSV" "export_csv.py" "export.csv")
)