ProgramFlow

Dump-object-functions
Display-temp-object-functions
DB-functions
Conversion-functions
Transformations
Standards-Tolerences-Modelsize
Errorhandling-Tests
Startup
Workflow
Events
EDitor
CAD
Interaction
NC
NC-Wcut
IGES
DXF
VRML
Tesselate
cursorPosition
ViewPlane
ConstructionPlane
DL-OpenGL
DLLs
Plotten
Naming-conventions


Dump-object-functions

UT3D_stru_dump      dump struct -> debug-window
DBO_dump__          dump DB-object -> debug-window
UTO_dump__          dump ObjGX + Inhalt
UTO_dump_s_         dump ObjGX - structured display
tess_dump_f_        dump tesselated (sizeRec, Typ_GL_Sur-Recs ..)
UI_dump_obj         dump DB-object  into file & display with browser
UTO_dump_obj        dump struct -> UT3D_stru_dump
AP_obj_analyze      replace by UT3D_stru_dump (see IE_analyz__)
UME_dump            disp. fre space of Memspc
GR_Disp_pTab        disp. temp. obj

UTF_dump__          disp. memory (sourcetext Alt shift s)
DB_dump_stat        disp DB-statistics (Alt shift o)
APT_dump_itab       dump EditorLine->DL-Hilfsliste

DB_dump_ModBas      dump Basemodels (Alt shift m)
DB_dump_ModRef      dump Submodels (Alt shift r)
DB_dump__           dump DB
DL_DumpObjTab       Dump DL (Alt D (shift d!))
GA_dump__           Dump permanentAttributeList (Alt shift g)
WC_actPos_dump      dump NC-Records (Alt shift n)

UTX_dump_cnl        disp. textStrings (UTX_dump_c__ UTX_dump__)

Display-temp-object-functions

GR_Disp_pt,vc,vc2,ln,ac,bsp,pln
UI_disp_vec1 UI_disp_vec2
UI_disp_tra

DB-functions

ut_DB.c                                            (DB_)
ut_dbo.c   handle database-objects (typ, DB-index) (DBO_)
DB_get_PT,LN,VC,CI
DB_GetCurv,Sur,Sol
DB_GetObjGX         returns a ObjGX of a object stored in DB
UTO_obj_getp        returns data-struct from ObjGX

DB_GetObjGX
DB_GetPoint
DB_StorePoint
DB_QueryNxtInd
DB_GetDynInd

Conversion-functions

NC_apt.c     CommandInterpreter - decode-functions          (APT_decode_)
ut_obj.c     object-manipulationes (transform, convert ..)  (UTO_)
xa_obj_txt.c convert object-struct -> source-text           (AP_obj_)
xa_src.c     check, modify, convert source-objects (text)   (SRC_)
AP_typ_typChar      make typ from typChar  ("P" -> Typ_PT)
AP_typChar_typ      make typChar from typ  (Typ_PT -> 'P')
AP_name_typInd      make name from typ and DB-Index
AP_cre_defHdr       create new (unused) objHeader
APT_decode_obj      give typ, index from text "P12"
DB_Typ_Char         give typ(int) from text "PT" --> Typ_PT;
DB_Char_Typ         make text from (int)typ; Typ_PT --> "PT" ..

AP_typ_2_bastyp     Typ_CVBSP -> Typ_CV   oder Typ_SURRU -> Typ_SUR
AP_cmp_typ          check for identical types
UTO_ck_oTyp         check object-typ (struct or object)
UTO_ck_typTyp       check if typ=curve (Typ_lFig) or surface (Typ_SUR)
UTO_ck_curvTyp      check if CurveLimits are Points or parameters
UTO_ck_curvForm     check if objTyp is ObjGX or other typ
AP_ck_ftyp          returns ftyp as int; 0=native, 1-9=Import, 10-19=Mockup..
AP_i2ftyp           returns ftyp as text

  atomicObjTable (ausTyp/ausTab):
APT_decode__        sourceObj -> atomicObj (ausTyp/ausTab-array)

  binObj (struct):
APT_decode_objTx    Create struct from ModelCode (text).
AP_vec_txt          give vector-struc from vector-text (only defvecs)
APT_decode_pt APT_decode_ln APT_decode_ci      atomicObj -> struct 
APT_decode_ang APT_decode_goAxis APT_decode_goRadius (../ci/NC_apt.c)
OGX_SET_INDEX       DB-Obj -> complexObj   (also UTO_obj_load)
OGX_SET_OBJ         binObj -> complexObj
UTO_obj_getp        cplxObj -> binObj (pointer)
UTO_obj_get         cplxObj -> binObj (copy)
UTO_copy_stru       copy struct (no resolve - not recursive)
UTO_copy_tab        copy complexObj-Table, recursive
UTO_obj_save        copy complexObj -> Memspc
UTO_obj_2_mem       copy complexObj -> memory
AP_txt_vec          check if Vector is a Defaultvector (DX or DIX or ...)
UTO_ck_surfTyp      returns surfSubTyp (see also SUR_ck_typ)

  sourceObj:
AP_obj_2_txt        change obj to text and save it with UTF_add1_line
AP_stru_2_txt       change object into text (definition-line)
AP_src_selObj       create sourceObj (text) for selected obj
SRC_dbo             create sourceObj from Database-object
 SRC_fmt             write sourceCode formatted for dynamic obj; eg "D(P1 P2)"
 SRC_fmt_sub        format sourceObj (text) for compound-DB-obj
  AP_src_sel_fmt    format sourceObj (text) for selected compound-obj
 SRC_isol_dbo       convert DB-obj (typ/DB-index) into isolated sourceObj (text)
AP_src_selObj       create sourceObj (text) for selected DB-obj (old)
AP_obj_add_obj      add objname to string
AP_obj_add_pt       add Point* as "P(xyz)"
AP_obj_add_vc       add struct Vector* to string  " D(x y z)"
AP_obj_add_val      add double > text  ( xa_obj_txt.c ) 
//AP_pt_segpar        give Text for Point on geometr. Obj near Cursor

IE_decode_Ln IE_txt2par1
APED_decAdd         decode textLine, add all objs to group (oTab)
 APED_dec_txt       decode textLine, add all objs to group (oTab)

Obj-types:
  sourceObj     text;                     eg "P12" "DZ" "L(P10 D(0 0 1))" ..
  atomicObj     ausTyp/ausTab-array;      (*int, *double)
  binObj        Typ-of_struct, struct;    eg (Typ_PT, Point*)
  complexObj    struct ObjGX              (ObjGX*)
  DB-Obj        type, DB-index            (int, long)

 

Transformations

see also ut_transform.c (UTRA_)
UTRA_m3_inirot     transformation from rotationaxis and angle 
UTRA_def__         define transformation
UTRA_app_pt        apply all defined Transformations to a point
UTRA_app_vc        apply all defined Transformations to a Vector
UTRA_app__ UTRA_app_oTab UTRA_app_obj

UTO_obj_apptra      apply Tra; creat new struct. in:Struct; preload trMat.
UTO_obj_tra         ruft UTO_stru_tra; in: oGX u Mat_4x3
UTO_stru_tra        apply Tra; generiert neue oGX; in: oGX u Mat_4x3
UTO_pt_tratra
UTO_pt_trarot

UT2D_pt_traptm2
UT2D_vc_travcm2
UT3D_pt_traptm3
UT3D_pt_rotptm3
UT3D_pt_traptm4
UT3D_vc_travcm3
UT3D_vc_travcm4

Standards-Tolerences-Modelsize

WC_Init_Tol       alle UT_TOL_ ex APT_ModSiz setzen
 WC_ask_ModSiz
 WC_Init_Modsiz
 UI_WinToler
  WC_Init_Tol
  GL_InitModelSize

ViewPlane

see also cursorPosition
GL_GetViewPos            compute cursorPosition in userCoords on GL_view_pln

// Viewplane (active displayplane with the GL-RotationCenterpoint GL_cen)
//   Always parall. to X-Y-Plane.
static Plane  GL_view_pln;

ConstructionPlane

Plane     WC_sur_act;    the ConstructionPlane; in xa.c
double    WC_sur_Z;      the active Z-Offset to the ConstructionPlane
char WC_ConstPl_Z[16];   displayed name_of_Constr.Plane; is "DZ" or "R20"

UI_sur_act_CB1      interactive setting of ConstructionPlane
 GL_SetConstrPln    GL_constr_pln=(WC_sur_act+WC_sur_Z); write Label Z-Offset
 UI_Set_ConstPl_Z   write Label name_of_Constr.Plane
AP_Set_ConstPl_Z    write Label name_of_Constr.Plane
UI_suract_keyIn     mode=2: set & display WC_sur_Z
AP_Get_ConstPl_Z    gives ConstPLn as text or Z-vec
AP_Get_ConstPl_vz   give Z-vec of ConstructionPlane


Mat_4x3   WC_sur_mat;            // TrMat of ActiveConstrPlane
Mat_4x3   WC_sur_imat;           // inverse TrMat of ActiveConstrPlane

RefSys:
APT_do_auxCmd       perProgramm: set refsys aktivieren.
 NC_setRefsys       activate Refsys per prog.

Errorhandling-Tests

TX_Error            display message and raise error    ../xa/ut_ui_TX.c
TX_Print            display message
AP_errStat_set      raise / reset error

AP_debug__          Alt shift x
AP_test__           Ctl shift T
                    exit durch Ctl shift X

Startup

main           xa_main.c             nur via ":/main (" 
AP_work__                     work Startparameters
UI_win_main                   das MainWindow aufbauen
  UI_GR_WinInit               das OpenGL-Window aufbauen
 AP_defaults_write            nur beim ersten Start
 AP_Init0                     nur einmal - ganz am Beginn
 UI_menCB "new"
  AP_Init1
   DL_Init
   WC_Init_all
 ED_work_END
  ED_work_CurSet             ruecksetzen od. bis new ln abarbeiten ..
   ED_Run

Workflow

NC_Main.c   CommandInterpreter - main
UI_AP                         UserInterface; 
UI_menCB                      Callback f File/new ...
UI_butCB                      Callback fuer Menufuncs, Buttons, ...
  ED_work_END
   ED_work_CurSet
    ED_Run
     ED_Read_Line
     WC_Work1                 ========= HauptEntry in NC_Main.c ==========
      APT_work_def            DefinitionLine abarbeiten (decode, draw)
        APT_decode_obj        Typ und Index der Zielvariable bestimmen
        APT_decode_ausdr      Eingabezeile zerteilen (1. Decodierstufe)
          APT_decode_func     decode SIN() X() D() ANG() P() L() ..
            APT_decode_inp    2.Decodierstufe
        APT_store_obj         decode APT-object, store object.
          APT_decode_var
          APT_decode_pt 
          APT_decode_ln 
          APT_decode_ci       APT_DrawCirc
          APT_decode_ell
          APT_decode_pol
          APT_decode_bsp
          APT_decode_ccv
            AP_cont_nxt       Kontursucher ..
          APT_decode_pln1     Plane/Refsys
          APT_decode_pln2     Plane   R = PERP ..
          APT_decode_sur
            APT_decode_srv
            APT_decode_s_sph
            APT_decode_s_cyl
            APT_decode_s_con
          APT_decode_sol
            APT_decode_bsph   Sphere
            APT_decode_bcon   CONUS
            APT_decode_btor   TORUS
            APT_decode_btor   PRISM
          APT_trim_obj       CUT
          DB_StoreCurv
        APT_Draw__
         DB_GetCurv
         APT_DrawCurv          APT_DrawCirc
          GL_DrawPoly2D         GR_DrawCirc
          GL_DrawPoly
         APT_DrawPln
         APT_DrawSur
          GR_DrawSur
           TSU_DrawSurT_
            TSU_DrawSurTRU     Ruled Surface
            TSU_DrawSurTRV     Revolved Surface
            TSU_DrawSurTS      ungetrimmte/ungelochte Planare Flaeche
            TSU_DrawSurTC      getrimmte/gelochte Complex-Flaeche (Typ_SURTPS)
            TSU_DrawSurTP      getrimmte/gelochte Planare Flaechen
             GL_DrawSur
              GL_Surf_Ini
              GL_Disp_sur
         APT_DrawSol
          GR_CreSol__
           GL_disp_prism
      APT_work_PrgCmd         Programming-Function (goto, call, WORK, if ...)
      APT_work_NCCmd          FROM TL ..
      APT_do_auxCmd           T1;G20;R0 ..
      APT_wcut_line           nur if (APT_workmode == Typ_nc_cut) ?
      APT_drill_line          nur if (APT_workmode == Typ_nc_cut) ?


UI_CB_hide                    Hide - Funktion
  DL_disp_set
UI_CB_view                    View - Funktion
  GA_hide__                   hidden-Elements-Tabelle bearbeiten

Events

UI_butSM                      S/M/DEL ein/aus
UI_EdButtonPress              Mousebuttons im EdWin.
UI_GR_ButtonPress             Mousebuttons im GrafWin (selection, indicate)
  UI_GR_Select1
    GL_Select
    UI_GR_Select2             callback von GUI_Popup (Liste der sel.Obj)
     UI_GR_Select_work1       work GR_Sel_Filter 3-7
      UI_GR_Select_work2      work  hide,view,SM or call
       IE_cad_sel1            CAD-report sel.
       ED_add_Text            MAN
  UI_GR_view_set_Z
  UI_GR_Indicate
UI_GR_ButtonRelease
UI_EdKeyPress                 Keyboard - Press
UI_EdKeyRelease               Keyboard - Release
UI_GR_MotionNotify            mouse-movement
UI_GR_GLInit                  gtk-"realize"
UI_GR_Draw                    gtk-"expose_event"
UI_GR_Redraw                  gtk-"draw"-Event
UI_GR_Reshape
UI_GR_Destroy
UI_CursorWait UI_ChangeCursor UI_ResetCursor

EDitor

xa_ed.c      Neutral EditorFunctions (not Gtk-specific)         (ED_)
ut_gtk2ed.c  Gtk-EditorFunctions                                (GUI_Ed_)
xa_ed_mem.c  ApplicSpecficFunctions APT-Textfunctions im Memory (APED_)
xa_cad_ed.c  CAD-GroupEditor                                    (IE_ed1_)
ED_work_END                   Button END = alles abarbeiten

TX_Print                      ut_ui_TX.c
  TX_Write
    GUI_Tx_wri                ../gtk/ut_gtk2tx.c
      GUI_Tx_add

CAD

UI_cad                        Hauptmenue aufbauen
IE_cad_p_CB                   PointMenueEintrag selected ..
IE_activate                   nach Select obj: entspr. menu aktivieren.
 IE_decode_Ln                 Inputtzeile in (Typen, Worte) zerlegen
 IE_txt2par1                  decode textline -> subgroup (nach SM)
 IE_cad_sel1                  Selektion wird gemeldet, decodiert, eingearbeitet.
  IE_cad_test1                test ob alle Eingaben vorh;
                                ja:decode Felder, exec txt, activate OK.
 IE_cad_OK                    OK-Butt.pressed: clear Inputboxen,Zeile->Datei

Interaction

APT_decode_Activ
DB_StoreActiv
UI_menCB "Iact"    ckb_Iact
UI_GR_ButtonPress
 UI_GR_Select1
  DL_IactSelect
   DB_QueryActiv

ACT_ck_act

NC

APT_work_PrgCmd
 APT_wcut_ln1                 CUT P
 NC_up_Work_                  CUT S
 NC_up_Pock_                  POCK
 Pock_CUT_CIRC                CUT_CIR
 Pock_POCK_CIRC               POCK_CIR

NC-Wcut

UI_wcg__                      gesamtes Panel generieren
UI_wcg_init_                  erster Start
UI_wcg_CBcont                 Auswahl einer Kontur
 UI_wcg_InitBuf               Text -> aus_typ,aus_tab;
  wcg_decode__                abarbeiten
   AP_cont_nxt                Kontur -> oxInpU (memspc)
   wcg_decode_APT             Konikinfos -> deTab
   wcg_CreCutAll              Ausgabeelemente -> oxOutU/O[oxOutNr]
    wcg_CreCutCyl
    wcg_CreCutCon
    wcg_CreCutCpx
     wcg_cpx_break
      wcg_cpx_teilen
  wcg_OutDrawAll              Ausgabeobjekte anzeigen.
   GR_DrawSur                 dzt werden Typ_SURRU einzeln ausgegeben
UI_wcg_InitProc               Konikinfos anzeigen
UI_wcg_UpdateProc             Konikinfos aus menue uebernehmen (OK-Butt.)
UI_wcg_askExit                beenden
 UI_wcg_CB_ExitDia            beenden
  UI_wcg_SaveOK               Progr -> Editwin
   wcg_encode__               das aktuelle APT-prog -> memspc54



........ NC-Tech ........
APT_wcut_line                 eine NC-Bearbeitungszeile decodieren
UI_wcTec__                    Window aufbauen
UI_wcTec_Init1                erster Start
 UI_wcTec_find_tec
NC_up_Work_                   WORK CUT ..
NC_up_Pock_

IGES

UI_menCB "open"
UI_open__
AP_Import__ ("xa_ige_r", "IGE_r__", cbuf);
AP_Mod_load
AP_ImportIges
 IGE_r__                      Mainentry in ../exp/ige_r.c
  IGE_r_D__
  IGE_r_P__
   IGE_r_work__               abarbeiten
  IGE_r_work_1                subfigs, dann main abarbeiten
   IGE_r_work_2               ein Obj ausgeben
    IGE_r_128
  AP_obj_2_txt
  UTF_add2_line

UI_expIgeCB
 AP_ExportIges__
  AP_ExportIges_Model
   IGE_w_rec
     IGE_w_mat
       IGE_w_P_ELL

DXF

UI_menCB "impDxf/expDxf"
AP_ImportDxf
  dxfr_rec__
  AP_obj_2_txt
  UTF_add1_line
AP_ExportDxf
  dxfw_rec

VRML

wrl_readTess__                wrl_ut.c          Import

TSU_exp__                     ../gr/tess_ut.c   Export
 TSU_exp_sur

Tesselate

APT_DrawSur
 GR_DrawSur
  TSU_DrawSurT_
   TSU_DrawSurTC              getrimmte/gelochte Flaeche
    TSU_tr_init_
    TSU_DrawSurTBox
     GLT_comm_work
     GLT_diff_work

cursorPosition

GL_set_viewPlnPos       GL_actUsrPos, on  viewPlane    (GL_GetViewPos)
GR_set_constPlnPos      GR_CurUk, on constructionPlane (GL_GetConstrPos)

UI_GR_get_actPos_       return the active cursorPosition as string "<x> <y> <z>"

GL_GetActSelPos         Coords of last selectionPoint on viewPlane
UI_GR_get_actPosA       get current curPos in userCoords on constructionPlane

GL_Get_View             get viewport (Eyevector ..)
GL_Get_Cen              screencenter in userCoords
GL_get_Scale
GL_GetEyeLn             Sichtstrahl (Point & Vector) retournieren
GL_GetEyeX

UI_GR_SelVert           get vertext nearest to cursor

DL-OpenGL

DL_ReScale__                  Rescale rescale ScalAll
DL_InitAttTab                 Def.Attributtabelle laden
DL_ReScale
DL_DumpObjTab                 dump DispList

GL_DrawLine                   ../gr/ut_GL.c
GL_DrawTxtG                   ../gr/ut_GL.c
GL_Redraw                     redraw DL

DLLs

see also xa_dll.c (DLL_)
                              xa_dll.c
UI_DllLst_read                fill list of userprograms (DLL's)
UI_DllLst_CB                  DLL by user selected ..
AP_exec_dll                   start plugin

Plotten

 UI_WinPrint1
  AP_print__                  ../exp/prt_w.c
   AP_print_work2

Naming-conventions

                     gCAD3D naming conventions

---------------------------------------------------------------------------
FunktionsNamesgebung:
 Offen:  Polygon und Polynom unterscheiden !? (see pta, plm, plmc3 polCoeff ?)

 Zuordnung der Funktion entspricht dem Outputtyp, nicht den Inputs !
 <FNC-Group>_<output>_<Functyp>_<input>_<ZusatzInfos>

FNC-Groups: UT2D UT3D UTI UTP UME UTX MEM ..
output:     pt ln ...
            entfaellt bei Testfunktionen - sofort Functyp ck od comp
Functyp     int proj ..
input       pt 2pt  ..



<output> / <input> ------------------------------------
  Elementtypen:
 str   (string, terminiert mit \0)
 strLF (string, terminiert mit LF !)
 ind   index (int, long)
 db    = doublezahl            ndb     = table of doubles
 i     int4;                   ni      = table of int4
 m2    3x2-Matrix;  m3 4x3-Matrix;  m4 4x4-Matrix;
 side     side (before behind above below)
 sidPerp  side  before or behind perpendic. Line/Plane
 par    uPar od vPar
 parvc  parameter of point on vector
 parln  parameter of point on line
 parci  parameter of point on circ
 parbsp (parameter of point on B-SplineCurve)
 parsbsp (parameter of point on B-SplineSurface)
 len   (length)       slen (signed length)
 sr    (sense of rotation) ar (Area)
 angr  (AngleRadians) angd (AngleDegree)
 adeg  Winkel in Degree
 arad  Winkel in Radianten
 rd    (Radius)
 bp    (BackPlane; XY, XZ, ZY)
 hbp   Hoehenwert einer BackPlane
 gcp   gravity-center-point (Schwerpunkt)

 pt    Point, Typ_PT
 npt   table of points = PointArray = Polygon; was pta
 inpt  indexed polygon (index table to table of points)
 vc    Vector, Typ_VC
 vc1   Vector with length=1 (normalized)
 ln    Line, Typ_LN
 plg   CurvPoly, Typ_CVPOL, Polygon mit Laengenparametertabelle)
 polc  (closed Polygon)
 cv    Curve; for polygon use npt;
 ncv   Array of curves;  was cva
 ci    Circ; Typ_AC, ac,  trimmed-circle
 ell   CurvElli, Typ_CVELL, Ellipse
 pl    Plane, Typ_PLN; Ebene.
 sph   Sphere, Typ_SPH, Kugel.
 bez   CurvBez, Typ_CVBEZ, Bezier-curve.
 clot  CurvClot, Typ_CVCLOT, clothoid-curve.
 cbsp  CurvBSpl, Typ_CVBSP, B-Spline-Curve; was bspl
 ccon  Conic-Curve; hyperbola|parabola.
 pspl  Typ_CVPSP3, Polynom.Spline.
 sur   Surface
 sru   RuledSurface, Typ_SURRU.
 srv   RevolvedSurface, Typ_SURRV.
 sbsp  SurBSpl, Typ_SURBSP, B-SplineSurface.
 spu   Surf-planar-unperforated;  spp Surf-planar-perforated.
 sus   SurStd, StandardSurface.
 Tes   tesselated surface (openGlSurface)
 box   Box Tri (box besser -> bbox (boundingBox))
 tria  Triangle
 rbox  rectangleBox; Viereck)
 edg   Edge (Kante)
 fac   Fac3, Typ_Fac3: Face; 3 int's (pointIndices)
 -"-   FacNf  Face with its NeigbourFaces
 msh   Typ_SURMSH, Mesh

 obj  any obj                        from ObjGX
 ccv  Concatenated-CurVe (ObjGX)
 crv  linear object; LN,CI,EL,CV ..  from typ+struct
 sur  planimetric obj; plane, surf   from typ+struct
 ost  object-structure; any object   from typ+struct
 dbo  DB-object; any obj             from typ+dbInd
 src  Source-object (text)


Line = linesegment (2 points, both sides limited (lnLL)
Ray  = 1 point and 1 vector; limited on one side (lnLU).
       both sides unlimited  (lnUU) ?


<Functyp> ------------------------------------
  get    set
  add
  sub (subtract)
  mult
  ev    evaluate (parameter)
  perp  perpendicular = senkrecht/lotrecht/normal   nor
  int   intersect
  ipl   interpolate
  lim   limits (endpoints)
  dec   decode
  find  find
  prj     = Projektion proj
  inv     = invertieren (umdrehen)
  mir     = mirror gespiegelt
  rot     = drehen, verdreht
  tr tra  = Translation
  trk     = Translation kartesisch (x, y);
  trv     = Translation Vektoriell (Vektor, Laenge);
  trp     = Translation polar (Winkel, Laenge);
  tri     = Triangle, Dreiecksberechnung
  tang    = Tangente, tangential tng

  in near mid cnvt (convert)


  Funktionen:
        Keine Funktionsangabe bei Umwandlungen
        get, set, init ..
        ins, del       (insert)
  swap
        ck      = allg. Testfunktionen
        fix     = allgem. Korrekturen
        len     = Laengenberechnung,   lenq = SquareLen (len*len)
                  slen=signed len, nlen =lenght of a normal ..
        perp    = Orthogonal (Normal)
        par     = parallel
        on      = auf
        in      = zwischen between
        equ     = identisch
        norm    = normieren
        div     = teilen (divide)
        orient    ausrichten



  Testfunktionen:
    XXX_test_xxx
    werden ex Src ausgeblendet mit
    #ifdef globTag
       int XXX_test_xxx ()  {}
    #endif


---------------------------------------------------------------------------
Returncodes:
 0 (meistens !) OK
>0 OK mit Zusatzinfo
<0 Error mit Zusatzinfo




---------------------------------------------------------------------------
VariablenNamesgebung:
1.char: typ i=int d=double t=text
            p=PT v=VC c=CI l=LN s=Curv o=ObjGX m=Memspc 
2.char: Datentypinfo; kann beim DefaultTyp fehlen.
        DefaultTyp fuer int=i4, double=d8, char=t1
        p=pointer d=data <ziffer>=size f=function
3.-  Beschreibung; der erste Character ist Uppercase !
Beispiel:
 int    i1, *ip1,  iNr;   short  i2Typ (Int-2Byte)
 double d1, *dp1,  dSum;
 char   t1, *tp1,  tdBuf1[256]



---------------------------------------------------------------------------

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