Generic NC V2.0 (c)1990-96 by Dan MICSA
=======================================
Technological data:
-------------------


  - CNCOut was enabled ;
  - DXFOut was disabled;
  - RepOut was enabled ;

  - File: dcdraw-01.CNC was processed;
  - File: dcdraw-01.DXF was not processed;


  - Local process report:-----------------------
    - Tool       : UnNamed;
    - Name       : ConvertFile:dcdraw.dxf [1];
    - ProcessBy  : Dan MICSA;
    - RegUser    : Dan MICSA;
    - RegCompany : ?=>! BillaSoft;
    - SerialNr   : ROTM0001;
    - ProcessDate: 30/10/96;
    - ProcessHour: 09:31:13;
    - Processor  : 2NC;
    - Cfg.Name20N: cnc1.20n;
    --------------------------------------------
    - Bounds.XMin:    -76.1;XMax:    -22.5 [mm];
    - Bounds.YMin:     98.2;YMax:    104.5 [mm];
    - Bounds.ZMin:      0.0;ZMax:      5.0 [mm];
    - SpeedLength:      233.516[ mm]; 35.511[%];
    - Work Length:      424.066[ mm]; 64.489[%];
    - TotalLength:      657.583[ mm];
    - SpeedTime  :   0[h] 0.234[min];  5.219[%];
    - Work Time  :   0[h] 4.241[min]; 94.781[%];
    - TotalTime  :   0[h] 4.474[min];
    - SpeedCost  :        0.019[  $];  2.680[%];
    - Work Cost  :        0.707[  $]; 97.320[%];
    - TotalCost  :        0.726[  $];
    - Nr.of Lines:    430
    - Nr.of Bytes: 101009
    - Optimizing :  -924[%];
    --------------------------------------------


--* OVERALL REPORT *------------------------
- Tool       : UnNamed;
- Name       : ConvertFile:dcdraw.dxf;
- ProcessBy  : Dan MICSA;
- RegUser    : Dan MICSA;
- RegCompany : ?=>! BillaSoft;
- SerialNr   : ROTM0001;
- ProcessDate: 30/10/96;
- ProcessHour: 09:31:13;
- Processor  : 2NC;
- Cfg.Name20N: cnc1.20n;
--------------------------------------------
- Bounds.XMin:    -76.1;XMax:    -22.5 [mm];
- Bounds.YMin:     98.2;YMax:    104.5 [mm];
- Bounds.ZMin:      0.0;ZMax:      5.0 [mm];
- SpeedLength:      233.516[ mm]; 35.511[%];
- Work Length:      424.066[ mm]; 64.489[%];
- TotalLength:      657.583[ mm];
- SpeedTime  :   0[h] 0.234[min];  5.219[%];
- Work Time  :   0[h] 4.241[min]; 94.781[%];
- TotalTime  :   0[h] 4.474[min];
- SpeedCost  :        0.019[  $];  2.680[%];
- Work Cost  :        0.707[  $]; 97.320[%];
- TotalCost  :        0.726[  $];
- Nr.of Lines:    430
- Nr.of Bytes: 101009
- Optimizing : -902[%];
--------------------------------------------

Technological data and CNC processing was generate from cnc1.20n contains:

[GenericNCPostProcessor V2.0 ACTIVE variables                                ]
[WARNING: IF YOU PERFORM MODIFICATIONS DO NOT KILL INDENTATION !             ]

[Variable   =  Current;T[Possible ]<Def.> Comment                            ]
[============================================================================]

[CNC.Process]
CNCOut      =    Y    ;C[Y_       ]<   Y> Process CNCFile else not
DXFOut      =    N    ;C[Y_       ]<   N> Process DXFFile else not
RepOut      =    Y    ;C[Y_       ]<   Y> Process ReportFile else not
NameDigitNr =    3    ;I[0..5     ]<   3> Nr. of digits in CNC Name
LongName    =    Y    ;C[Y_       ]<   Y> If N cut in name CNC type inf.
Extension   =CNC      ;S[Y_       ]< CNC> Name of extension of  CNCFile

[CNC.Constraints]
OptFilter   =    0.200;R[0.01..0.5]< 0.2> Value of optimizing filter
BreakKilo   =    Y    ;C[Y_       ]<   Y> Break CNCFile after MaxKilo or MaxLine
MaxKilo     =  320.000;R[1..1000  ]<  32> Number of Kilos in each CNC file
MaxLine     =  990    ;I[10..10000]< 990> Number of Lines in each CNC file
OutValue    =    2.000;R[0..1000  ]<   2> OutValue of z in case of break CNCFile
AutoBreak   =    2.000;R[0..10    ]<  10> Break value in CNC file < OutValue
CondensedOut=    N    ;C[Y_       ]<   Y> Y purge trivial data in CNC File
IndentedOut =    Y    ;C[Y_       ]<   N> Y indent for good visibility
Enable2Half =    Y    ;C[Y_       ]<   Y> Enable 2.5 axis generation
Frontal     =    Y    ;C[Y_       ]<   Y> Enable frontal milling
Relative    =    N    ;C[Y_       ]<   N> Enable relative coordinate
DecimalNr   =    2    ;I[0..4     ]<   2> Nr. of decimals in CNC File
G2G3        =    Y    ;C[Y_       ]<   Y> Enable arc interpolation
G2G3Radius  =    2.000;R[-1e3..1e3]<   2> If G2G3=N then value to discreet arc
G2G3FullOut =    Y    ;C[Y_       ]<   Y> Enable full output for G2&G3
G171819Info =    Y    ;C[Y_       ]<   Y> Enable output of plane for G2&G3

G0AutoPurge =    Y    ;C[Y_       ]<   Y> Smart purge G0 in CNC File !
G0AutoPut   =    Y    ;C[Y_       ]<   Y> Smart found optimal G0 Z high
G0ZCote     =    5.000;R[-1e9..1e9]< 300> if AutoPutG0<>Y then if G0 Z:=G0ZCote
G0Switch    =   10.000;R[-100..100]<  10> if DistCNC<G0Swich then G1 else G0

SHourCost   =    5.000;R[0.. 1e100]<   5> Cost of one hour of processing in speed
WHourCost   =   10.000;R[0.. 1e100]<  10> Cost of one hour of processing in work

MoneySign   =  $      ;S[ASCII    ]<   $> Sign for national money $,DM...

RepTechCfg  =    Y    ;C[Y_       ]<   Y> Copy cfg file in generated report
RepProtect  =    Y    ;C[Y_       ]<   Y> Lock and protect report file for modify

[CNC.F&SValue]
FAdress     =  100.000;R[1..10000 ]< 100> Normal advance [mm/min]
SAdress     =  100.000;R[1..10000 ]< 100> Rotation speed
FastAdvance = 1000.000;R[1..10000 ]<1000> Fast advance   [mm/min]

[CNC.Info]
Motor       =    Y    ;C[Y_       ]<   Y> Motor  On
Liquid      =    Y    ;C[Y_       ]<   Y> Liquid On
AbsRel      =    Y    ;C[Y_       ]<   Y> Write inf. about Absolute or Relative
LineComment =    Y    ;C[Y_       ]<   Y> Y enable line comment
TechComment =    Y    ;C[Y_       ]<   Y> Y enable technological comment

[CNC.Transform3D]
EnableTR3D  =    Y    ;C[Y_       ]<   Y> Enable 2D transformations
XID         =    0.000;R[-1e3..1e3]<   0> X,I,A,U Displacement in CNC File
YJD         =    0.000;R[-1e3..1e3]<   0> Y,J,B,V Displacement in CNC File
ZKD         =    0.000;R[-1e3..1e3]<   0> Z,K,C,W Displacement in CNC File
XIS         =    1.000;R[-1e3..1e3]<   1> X,I,A,U Scale in CNC File -1 for Mirror
YJS         =    1.000;R[-1e3..1e3]<   1> Y,J,B,V Scale in CNC File -1 for Mirror
ZKS         =    1.000;R[-1e3..1e3]<   1> Z,K,C,W Scale in CNC File -1 for Mirror

[CNC.PseudoAdapativeVariable]
Adaptive    =    N    ;C[Y_       ]<   N> Enable adaptive control
FrVSRad     =    1.000;R[0.1..1.0 ]<   1> Difficulty of milling frontal VS radial
ZWear       =    0.000;R[0.0..0.1 ]<   0> Auto increase Z cote      [mm/m]
FWear       =    1.000;R[0.9..1.0 ]<   1> Auto slow milling process [ %/m]

[CNC.AboutDXFFile]
TypeLine    =         ;S[ASCII    ]<    > Name of line type
Equip       =    Y    ;C[Y_       ]<   Y> Y then equip. color else ColorInit
Alternate   =    Y    ;C[Y_       ]<   Y> Y then equip. color alternate
ColorInit   =   15    ;I[0..255   ]<  15> If equip <> Y then G1=ColorInit

[CNC.Sintax]
NSeparator  =-        ;S[ASCII    ]<   -> Sign for separator in CNC & DXFName
StartLine   =    5    ;I[1..1000  ]<   5> Start line in CNC file
StepLine    =    1    ;I[1..1000  ]<   1> Increment of line in CNC file
StartPrg    =    1    ;I[1..1000  ]<   1> Nr of program (%StartPrg)
StepPrg     =    1    ;I[1..1000  ]<   1> If Break CNCFile %StartPrg+StepPrg)
StartFile   =    1    ;I[1..1000  ]<   1> Name of file to disk (+StartFile)
StepFile    =    1    ;I[1..1000  ]<   1> If Break CNCFile (StartFile+StepFile)
DecimalPoint=.        ;S[ASCII    ]<   .> Sign for decimal point
AtrSign     ==        ;S[ASCII    ]<   => Sign for attribution   (F=P0)
AssSign     =,        ;S[ASCII    ]<   ,> Sign for assignation  (P[0],2*P[1])
VariableName=P        ;S[ASCII    ]<   P> Letter for variable name
NDigit      =    4    ;I[2..5     ]<   4> Nr. of digits for N   in IndentedMode
VDigit      =    9    ;I[5..12    ]<   9> Nr. of digits for All in IndentedMode
NSign       =N        ;S[ASCII    ]<   N> Sign for nr of line
CountLine   =    Y    ;C[Y_       ]<   Y> enable, disable writing info about line

BracketsON  =         ;S[ASCII    ]<    > Sign for var. array start brackets P[_
BracketsOFF =         ;S[ASCII    ]<    > Sign for var. array end   brackets P_]
CommentON   =(        ;S[ASCII    ]<   (> Sign for Start comment
CommentOFF  =)        ;S[ASCII    ]<   )> Sign for End comment
MotorON     =M3       ;S[ASCII    ]<  M3> Sign for start motor
MotorOFF    =M4       ;S[ASCII    ]<  M4> Sign for stop  motor
LiquidON    =M8       ;S[ASCII    ]<  M8> Sign for start liquid
LiquidOFF   =M9       ;S[ASCII    ]<  M9> Sign for stop  liquid
MAbsolute   =G90      ;S[ASCII    ]< G90> Sign for absolute movement
MRelative   =G91      ;S[ASCII    ]< G91> Sign for relative movement
EndOfLine   =         ;S[ASCII    ]<    > Additional Sign for end of line
StartStr    =%\C\\    ;S[StartStr ]<%\C\\> Start file string in CNC File
EndStr      =%\P\\    ;S[End  Str ]<%\P\\> End  file string in CNC File
G0Sign      =G0       ;S[ASCII    ]<  G0> Sign for speed movement
G1Sign      =G1       ;S[ASCII    ]<  G1> Sign for work  movement
G2Sign      =G2       ;S[ASCII    ]<  G2> Sign for CW    movement
G3Sign      =G3       ;S[ASCII    ]<  G3> Sign for CCW   movement
G4Sign      =G4       ;S[ASCII    ]<  G4> Sign for delay movement
G17Sign     =G17      ;S[ASCII    ]< G17> Sign for Arc in XY plane
G18Sign     =G18      ;S[ASCII    ]< G18> Sign for Arc in YZ plane
G19Sign     =G19      ;S[ASCII    ]< G19> Sign for Arc in ZX plane

ASign       =A        ;S[ASCII    ]<   A> Sign for A
BSign       =B        ;S[ASCII    ]<   B> Sign for B
CSign       =C        ;S[ASCII    ]<   C> Sign for C
ISign       =I        ;S[ASCII    ]<   I> Sign for I
JSign       =J        ;S[ASCII    ]<   J> Sign for J
KSign       =K        ;S[ASCII    ]<   K> Sign for K
XSign       =X        ;S[ASCII    ]<   X> Sign for X
YSign       =Y        ;S[ASCII    ]<   Y> Sign for Y
ZSign       =Z        ;S[ASCII    ]<   Z> Sign for Z
USign       =U        ;S[ASCII    ]<   U> Sign for U
VSign       =V        ;S[ASCII    ]<   V> Sign for V
WSign       =W        ;S[ASCII    ]<   W> Sign for W
FSign       =F        ;S[ASCII    ]<   F> Sign for F
SSign       =S        ;S[ASCII    ]<   S> Sign for S

SLSign      =SL=      ;S[ASCII    ]< SL=> Sign for Speed Length
WLSign      =WL=      ;S[ASCII    ]< WL=> Sign for Work  Length
TLSign      =TL=      ;S[ASCII    ]< TL=> Sign for Total Length
STSign      =ST=      ;S[ASCII    ]< ST=> Sign for Speed Time
WTSign      =WT=      ;S[ASCII    ]< WT=> Sign for Work  Time
TTSign      =TT=      ;S[ASCII    ]< TT=> Sign for Total Time
SCSign      =SC=      ;S[ASCII    ]< SC=> Sign for Speed Cost
WCSign      =WC=      ;S[ASCII    ]< WC=> Sign for Work  Cost
TCSign      =TC=      ;S[ASCII    ]< TC=> Sign for Total Cost
DSLSign     =DSL=     ;S[ASCII    ]<DSL=> Sign for dif. Speed Length
DWLSign     =DWL=     ;S[ASCII    ]<DWL=> Sign for dif. Work  Length
DTLSign     =DTL=     ;S[ASCII    ]<DTL=> Sign for dif. Total Length
DSTSign     =DST=     ;S[ASCII    ]<DST=> Sign for dif. Speed Time
DWTSign     =DWT=     ;S[ASCII    ]<DWT=> Sign for dif. Work  Time
DTTSign     =DTT=     ;S[ASCII    ]<DTT=> Sign for dif. Total Time
DSCSign     =DSC=     ;S[ASCII    ]<DSC=> Sign for dif. Speed Cost
DWCSign     =DWC=     ;S[ASCII    ]<DWC=> Sign for dif. Work  Cost
DTCSign     =DTC=     ;S[ASCII    ]<DTC=> Sign for dif. Total Cost

[CNC.Enable & Disable axis, moves]
G0Enable    =    Y    ;C[Y_       ]<   Y> Enable for speed movement
G1Enable    =    Y    ;C[Y_       ]<   Y> Enable for work  movement
G2Enable    =    Y    ;C[Y_       ]<   Y> Enable for CW    movement
G3Enable    =    Y    ;C[Y_       ]<   Y> Enable for CCW   movement
G4Enable    =    Y    ;C[Y_       ]<   Y> Enable for delay movement
G171819Enabl=    Y    ;C[Y_       ]<   Y> Enable for Arc in XY plane
AEnable     =    N    ;C[Y_       ]<   N> Enable for A
BEnable     =    N    ;C[Y_       ]<   N> Enable for B
CEnable     =    N    ;C[Y_       ]<   N> Enable for C
IEnable     =    Y    ;C[Y_       ]<   Y> Enable for I
JEnable     =    Y    ;C[Y_       ]<   Y> Enable for J
KEnable     =    Y    ;C[Y_       ]<   Y> Enable for K
XEnable     =    Y    ;C[Y_       ]<   Y> Enable for X
YEnable     =    Y    ;C[Y_       ]<   Y> Enable for Y
ZEnable     =    Y    ;C[Y_       ]<   Y> Enable for Z
UEnable     =    N    ;C[Y_       ]<   N> Enable for U
VEnable     =    N    ;C[Y_       ]<   N> Enable for V
WEnable     =    N    ;C[Y_       ]<   N> Enable for W
FEnable     =    Y    ;C[Y_       ]<   Y> Enable for F
SEnable     =    Y    ;C[Y_       ]<   Y> Enable for S
SLEnable    =    Y    ;C[Y_       ]<   N> Enable for Speed Length
WLEnable    =    Y    ;C[Y_       ]<   N> Enable for Work  Length
TLEnable    =    Y    ;C[Y_       ]<   N> Enable for Total Length
STEnable    =    Y    ;C[Y_       ]<   N> Enable for Speed Time
WTEnable    =    Y    ;C[Y_       ]<   N> Enable for Work  Time
TTEnable    =    Y    ;C[Y_       ]<   N> Enable for Total Time
SCEnable    =    Y    ;C[Y_       ]<   N> Enable for Speed Cost
WCEnable    =    Y    ;C[Y_       ]<   N> Enable for Work  Cost
TCEnable    =    Y    ;C[Y_       ]<   N> Enable for Total Cost
DSLEnable   =    Y    ;C[Y_       ]<   N> Enable for dif. Speed Length
DWLEnable   =    Y    ;C[Y_       ]<   N> Enable for dif. Work  Length
DTLEnable   =    Y    ;C[Y_       ]<   N> Enable for dif. Total Length
DSTEnable   =    Y    ;C[Y_       ]<   N> Enable for dif. Speed Time
DWTEnable   =    Y    ;C[Y_       ]<   N> Enable for dif. Work  Time
DTTEnable   =    Y    ;C[Y_       ]<   N> Enable for dif. Total Time
DSCEnable   =    Y    ;C[Y_       ]<   N> Enable for dif. Speed Cost
DWCEnable   =    Y    ;C[Y_       ]<   N> Enable for dif. Work  Cost
DTCEnable   =    Y    ;C[Y_       ]<   N> Enable for dif. Total Cost

[CNC.Enable & Disable optimize axis, moves]
G0Optim     =    N    ;C[Y_       ]<   Y> Optimize for speed movement
G1Optim     =    N    ;C[Y_       ]<   Y> Optimize for work  movement
G2Optim     =    N    ;C[Y_       ]<   Y> Optimize for CW    movement
G3Optim     =    N    ;C[Y_       ]<   Y> Optimize for CCW   movement
G4Optim     =    N    ;C[Y_       ]<   N> Optimize for delay movement
G171819Optim=    N    ;C[Y_       ]<   Y> Optimize for Arc in XY plane
AOptim      =    N    ;C[Y_       ]<   Y> Optimize for A
BOptim      =    N    ;C[Y_       ]<   Y> Optimize for B
COptim      =    N    ;C[Y_       ]<   Y> Optimize for C
IOptim      =    N    ;C[Y_       ]<   N> Optimize for I
JOptim      =    N    ;C[Y_       ]<   N> Optimize for J
KOptim      =    N    ;C[Y_       ]<   N> Optimize for K
XOptim      =    N    ;C[Y_       ]<   Y> Optimize for X
YOptim      =    N    ;C[Y_       ]<   Y> Optimize for Y
ZOptim      =    N    ;C[Y_       ]<   Y> Optimize for Z
UOptim      =    N    ;C[Y_       ]<   Y> Optimize for U
VOptim      =    N    ;C[Y_       ]<   Y> Optimize for V
WOptim      =    N    ;C[Y_       ]<   Y> Optimize for W
FOptim      =    N    ;C[Y_       ]<   Y> Optimize for F
SOptim      =    N    ;C[Y_       ]<   Y> Optimize for S
SLOptim     =    N    ;C[Y_       ]<   N> Optimize for Speed Length
WLOptim     =    N    ;C[Y_       ]<   N> Optimize for Work  Length
TLOptim     =    N    ;C[Y_       ]<   N> Optimize for Total Length
STOptim     =    N    ;C[Y_       ]<   N> Optimize for Speed Time
WTOptim     =    N    ;C[Y_       ]<   N> Optimize for Work  Time
TTOptim     =    N    ;C[Y_       ]<   N> Optimize for Total Time
SCOptim     =    N    ;C[Y_       ]<   N> Optimize for Speed Cost
WCOptim     =    N    ;C[Y_       ]<   N> Optimize for Work  Cost
TCOptim     =    N    ;C[Y_       ]<   N> Optimize for Total Cost
DSLOptim    =    N    ;C[Y_       ]<   N> Optimize for dif. Speed Length
DWLOptim    =    N    ;C[Y_       ]<   N> Optimize for dif. Work  Length
DTLOptim    =    N    ;C[Y_       ]<   N> Optimize for dif. Total Length
DSTOptim    =    N    ;C[Y_       ]<   N> Optimize for dif. Speed Time
DWTOptim    =    N    ;C[Y_       ]<   N> Optimize for dif. Work  Time
DTTOptim    =    N    ;C[Y_       ]<   N> Optimize for dif. Total Time
DSCOptim    =    N    ;C[Y_       ]<   N> Optimize for dif. Speed Cost
DWCOptim    =    N    ;C[Y_       ]<   N> Optimize for dif. Work  Cost
DTCOptim    =    N    ;C[Y_       ]<   N> Optimize for dif. Total Cost

[CNC.OutputReportInfo]
RSeparator1 =    Y    ;C[Y_       ]<   Y> Output in report of Separator1
RProcessor  =    Y    ;C[Y_       ]<   Y> Output in report of ProcessorName
RTools      =    Y    ;C[Y_       ]<   Y> Output in report of Tools
RName       =    Y    ;C[Y_       ]<   Y> Output in report of Name
RProcessBy  =    Y    ;C[Y_       ]<   Y> Output in report of ProcessBy
RUserName   =    Y    ;C[Y_       ]<   Y> Output in report of User
RUserComp   =    Y    ;C[Y_       ]<   Y> Output in report of User Company
RSerialNr   =    Y    ;C[Y_       ]<   Y> Output in report of User Serial nr
RBounds     =    Y    ;C[Y_       ]<   Y> Output in report of Bounds
RProcessDate=    Y    ;C[Y_       ]<   Y> Output in report of ProcessDate
RProcessHour=    Y    ;C[Y_       ]<   Y> Output in report of ProcessHour
RAppName    =    Y    ;C[Y_       ]<   Y> Output in report of Name of App.
RCfgFile    =    Y    ;C[Y_       ]<   Y> Output in report of Name of cfg file
RSeparator2 =    Y    ;C[Y_       ]<   Y> Output in report of Separator2
RSpeedLength=    Y    ;C[Y_       ]<   Y> Output in report of SpeedLentgh
RWorkLength =    Y    ;C[Y_       ]<   Y> Output in report of Work Lentgh
RTotalLength=    Y    ;C[Y_       ]<   Y> Output in report of TotalLength
RSpeedTime  =    Y    ;C[Y_       ]<   Y> Output in report of SpeedTime
RWorkTime   =    Y    ;C[Y_       ]<   Y> Output in report of Work Time
RTotalTime  =    Y    ;C[Y_       ]<   Y> Output in report of TotalTime
RSpeedCost  =    Y    ;C[Y_       ]<   Y> Output in report of SpeedCost
RWorkCost   =    Y    ;C[Y_       ]<   Y> Output in report of Work Cost
RTotalCost  =    Y    ;C[Y_       ]<   Y> Output in report of TotalCost
RNrOfLines  =    Y    ;C[Y_       ]<   Y> Output in report of Nr.of Lines
RNrOfBytes  =    Y    ;C[Y_       ]<   Y> Output in report of Nr.of Bytes
ROptimizing =    Y    ;C[Y_       ]<   Y> Output in report of Optimizing
RSeparator3 =    Y    ;C[Y_       ]<   Y> Output in report of Separator3

[CNC.OutputOveralTechDataInfo]
OSeparator1 =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Separator1
OProcessor  =    Y    ;C[Y_       ]<   Y> Output in overall rep. of ProcessorName
OTools      =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Tools
OName       =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Name
OProcessBy  =    Y    ;C[Y_       ]<   Y> Output in overall rep. of ProcessBy
OUserName   =    Y    ;C[Y_       ]<   Y> Output in overall rep. of User
OUserComp   =    Y    ;C[Y_       ]<   Y> Output in overall rep. of User Company
OSerialNr   =    Y    ;C[Y_       ]<   Y> Output in overall rep. of User Serial nr
OBounds     =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Bounds
OProcessDate=    Y    ;C[Y_       ]<   Y> Output in overall rep. of ProcessDate
OProcessHour=    Y    ;C[Y_       ]<   Y> Output in overall rep. of ProcessHour
OAppName    =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Name of App.
OCfgFile    =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Name of cfg file
OSeparator2 =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Separator2
OSpeedLength=    Y    ;C[Y_       ]<   Y> Output in overall rep. of SpeedLentgh
OWorkLength =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Work Lentgh
OTotalLength=    Y    ;C[Y_       ]<   Y> Output in overall rep. of TotalLength
OSpeedTime  =    Y    ;C[Y_       ]<   Y> Output in overall rep. of SpeedTime
OWorkTime   =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Work Time
OTotalTime  =    Y    ;C[Y_       ]<   Y> Output in overall rep. of TotalTime
OSpeedCost  =    Y    ;C[Y_       ]<   Y> Output in overall rep. of SpeedCost
OWorkCost   =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Work Cost
OTotalCost  =    Y    ;C[Y_       ]<   Y> Output in overall rep. of TotalCost
ONrOfLines  =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Nr.of Lines
ONrOfBytes  =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Nr.of Bytes
OOptimizing =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Optimizing
OSeparator3 =    Y    ;C[Y_       ]<   Y> Output in overall rep. of Separator3

[CNC.OutputCNCInfo]
CSeparator1 =    Y    ;C[Y_       ]<   Y> Output in NC of Separator1
CProcessor  =    Y    ;C[Y_       ]<   Y> Output in NC of ProcessorName
CTools      =    Y    ;C[Y_       ]<   Y> Output in NC of Tools
CName       =    Y    ;C[Y_       ]<   Y> Output in NC of Name
CProcessBy  =    Y    ;C[Y_       ]<   Y> Output in NC of ProcessBy
CUserName   =    Y    ;C[Y_       ]<   Y> Output in NC of User
CUserComp   =    Y    ;C[Y_       ]<   Y> Output in NC of User Company
CSerialNr   =    Y    ;C[Y_       ]<   Y> Output in NC of User Serial nr
CBounds     =    Y    ;C[Y_       ]<   Y> Output in NC of Bounds
CProcessDate=    Y    ;C[Y_       ]<   Y> Output in NC of ProcessDate
CProcessHour=    Y    ;C[Y_       ]<   Y> Output in NC of ProcessHour
CAppName    =    Y    ;C[Y_       ]<   Y> Output in NC of Name of App.
CCfgFile    =    Y    ;C[Y_       ]<   Y> Output in NC of Name of cfg file
CSeparator2 =    Y    ;C[Y_       ]<   Y> Output in NC of Separator2
CSpeedLength=    Y    ;C[Y_       ]<   Y> Output in NC of SpeedLentgh
CWorkLength =    Y    ;C[Y_       ]<   Y> Output in NC of Work Lentgh
CTotalLength=    Y    ;C[Y_       ]<   Y> Output in NC of TotalLength
CSpeedTime  =    Y    ;C[Y_       ]<   Y> Output in NC of SpeedTime
CWorkTime   =    Y    ;C[Y_       ]<   Y> Output in NC of Work Time
CTotalTime  =    Y    ;C[Y_       ]<   Y> Output in NC of TotalTime
CSpeedCost  =    Y    ;C[Y_       ]<   Y> Output in NC of SpeedCost
CWorkCost   =    Y    ;C[Y_       ]<   Y> Output in NC of Work Cost
CTotalCost  =    Y    ;C[Y_       ]<   Y> Output in NC of TotalCost
CNrOfLines  =    Y    ;C[Y_       ]<   Y> Output in NC of Nr.of Lines
CNrOfBytes  =    Y    ;C[Y_       ]<   Y> Output in NC of Nr.of Bytes
COptimizing =    Y    ;C[Y_       ]<   Y> Output in NC of Optimizing
CSeparator3 =    Y    ;C[Y_       ]<   Y> Output in NC of Separator3



Technological data was processed:
---------------------------------
   AppName:2NC
   CfgFile:cnc1.20n
   Date   :30/10/96
   Time   :09:31:13
   By     :Dan MICSA


Security info: ;W