idea ?

currently the post processor generates me this program N10 / NOM DU PROGRAMME - T N12 / DATE: 30-07-14 HEURE:11:39 N14 / OUTIL:01 DIAMETRE:20.0000 CONTOURNAGE.... ) N16 /---------------------------------------------------- N18 /---------------------------------------------------- N20 G99 N22 G40 T1 M6 N24 G4 S1200 M3 N26 G0 X20. Y-90. N28 Z50. N30 Z10. N32 G1 Z-20. F300. N34 G41 G-1 Y-70. N36 G3 X0. Y-50. R20. N38 G1 X-50. N40 Y50. N42 X50. N44 Y-50. N46 X0. N48 G3 X-20. Y-70. R20. N50 G40 G1 Y-90. N52 Z-10. N54 G0 Z50. N56 G40 T0 N58 /ARRET ARROSAGE N60 M9 N62 /ARRET BROCHE N64 M5 N66 /FIN DE PROGRAMME N68 M2 I want====> N100 /NOM DU PROGRAMME - T N102 /DATE: 30-07-14 HEURE:11:39 N104 /OUTIL:01 DIAMETRE:20.0000 CONTOURNAGE.... ) N106 /---------------------------------------------------- N108 /---------------------------------------------------- N110 G99 N112 G40 T1 M6 N114 G4 S1200 M3 N116 G0 X20. Y-90. N118 Z50. N120 Z10. N122 G1 Z-20. F300. N124 G41 N126 G-1 Y-70. N128 G3 X0. Y-50. R20. N130 G1 X-50. N132 Y50. N134 X50. N136 Y-50. N138 X0. N140 G3 X-20. Y-70. R20. N142 G40 G1 Y-90. N144 Z-10. N146 G0 Z50. N148 G40 T0 N150 /ARRET ARROSAGE N152 M9 N154 /ARRET BROCHE N156 M5 N158 /FIN DE PROGRAMME N160 M2 I just need that after G41 or G42 there is a "G-1" with the axis movements. Otherwise for linear and circular movements I need a G1 / G2/G3.

the post processor or mastercam V9 does not recognize the symbol "$"

Post-Processeur combiné de Fraisage et de Tournage Version 9.10 © Copyright 1992-2003 CNC Software, Inc. Traitement du fichier par MPTIGER4 TEST... Caractère incorrect$

# Post Name : MPTIGER4 # Product : MILL # Machine Name : SHARNOA TIGER 4 # Control Name : TIGER 4 # Description : SHARNOA TIGER 4 MILL POST # 4-axis/Axis subs. : NO # 5-axis : NO # Subprograms : NO # Executable : MP v9.10 # # WARNING: THIS POST IS GENERIC AND IS INTENDED FOR MODIFICATION TO # THE MACHINE TOOL REQUIREMENTS AND PERSONAL PREFERENCE. # # --------------- #| REVISION LOG: | # ------------------------------------------------------------------------ # Programmers Note: # CNC 01/12/01 - Updated for Mill Version 8.1 # CNC 01/09/02 - Initial post update for V9.0 # CNC 02/04/03 - Initial post update for V9.1 # # --------------- #| FEATURES: | # ------------------------------------------------------------------------ # Users Note: # # Following Misc_Reals & Misc_Integers are used: # # mi1 - Work coordinate system # 0 = Reference return is generated and G92 with the # X, Y and Z home positions at file head. # 1 thru 3 = Reference return is generated and G92 with the # X, Y and Z home positions at each tool. # 4 thru 9 = The WCS of G54 thru G59 respectively at each tool. # # #Canned text: # Entering cantext on a contour point from within Mastercam allows the # following functions to enable/disable. # Cantext value: # 1 = Stop = output the "M00" stop code # 2 = Ostop = output the "M01" optional stop code # # # Options / Usage: # It is recommended to start and end cutter compensation on a linear move. # Rotary axis assumes a "Z" plunge at feed into part, position of the # substituted axis at absolute zero position and the retraction from path # by the post call to the G28 machine Z home position. # # END_HEADER$ # # -------------------------------------------------------------------------- # DEBUG/PROGRAM SWITCHES, debugging and program switches # -------------------------------------------------------------------------- fastmode : yes # Optimize processing time (set to no for debugging) bug1 : 1 # 0=No display, 1=Generic list box, 2=Editor bug2 : 0 # Append postline labels, non-zero is column position? bug3 : 0 # Append whatline no. to each NC line? bug4 : 0 # Append NCI line no. to each NC line? whatno : yes # Do not perform whatline branches? (leave as yes) skp_lead_flgs : 1# Do NOT use v9 style contour flags get_1004 : 1 # Find gcode 1004 with getnextop? rpd_typ_v7 : 1 # Use Version 7 style contour flags? strtool_v7 : 2 # Use Version 7 toolname? stagetool : 0 # 0 = Do not pre-stage tools, 1 = Stage tools use_gear : no # Set to yes to output gear range codes # -------------------------------------------------------------------------- # FORMAT STATEMENTS - n=nonmodal, l=leading, t=trailing, i=inc, d=delta # -------------------------------------------------------------------------- fs 1 0.4 #Decimal, absolute, 4 place fs 2 0.4d #Decimal, delta fs 3 1 0 #Integer, not leading fs 4 2 0l #Integer, two leading fs 5 3 0l #Integer, three leading fs 6 4 0l #Integer, four leading fs 7 0.1 #Decimal, absolute, 1 place fs 8 0.2 #Decimal, absolute, 2 place fs 9 0.3 #Decimal, absolute, 3 place fs 10 0 4t #No decimal, absolute, four trailing fs 11 0.4t #Decimal, absolute, four trailing # -------------------------------------------------------------------------- # FORMAT ASSIGNMENTS # -------------------------------------------------------------------------- # Axis output formats - Linear # -------------------------------------------------------------------------- fmt X 1 x # X axis position fmt Y 1 y # Y axis position fmt Z 1 z # Z axis position fmt X 1 xr # X rapid position from tool change fmt Y 1 yr # Y rapid position from tool change fmt Z 1 zr # Z rapid position from tool change fmt X 1 xh # X home position fmt Y 1 yh # Y home position fmt Z 1 zh # Z home position # -------------------------------------------------------------------------- # Axis output formats - Circular # -------------------------------------------------------------------------- fmt I 2 i # Arc center description in X fmt J 2 j # Arc center description in Y fmt K 2 k # Arc center description in Z fmt R 1 arcrad # Arc Radius fmt R- 1 arcradm # Arc Radius over 180 degree sweep # -------------------------------------------------------------------------- # Axis output formats - Rotary substitution # -------------------------------------------------------------------------- fmt A 9 xangle # Linear to rotary calculation of X fmt B 9 yangle # Linear to rotary calculation of Y # -------------------------------------------------------------------------- # Program & Sequence number format # -------------------------------------------------------------------------- fmt O 6 progno # Program number fmt N 3 n # Sequence nos. # -------------------------------------------------------------------------- # Tool format # -------------------------------------------------------------------------- fmt T 3 t # Tool No fmt T 3 first_tool# First Tool Used (bldnxtool: yes) fmt T 3 next_tool # Next Tool Used (bldnxtool: yes) fmt D 3 tloffno # Diameter Offset No fmt H 3 tlngno # Length Offset No fmt "OUTIL:" 4 tnote # Note format fmt "" 4 toffnote # Note format fmt "" 4 tlngnote # Note format fmt "DIAMETRE:" 11 tldia # Note format # -------------------------------------------------------------------------- # Spindle Speeds & Feedrate output formats # -------------------------------------------------------------------------- fmt S 6 speed # Spindle Speed fmt F 8 fr # Feedrate fmt F 7 frdeg # Feedrate for rotary fmt M 3 gear # Gear range # -------------------------------------------------------------------------- # Drill variable formats # -------------------------------------------------------------------------- fmt G 3 drillref # Initial / Reference Toggle (G98/G99) fmt P 10 dwell # Dwell fmt Z 1 initht # Initial Height fmt P 1 refht # Reference Height fmt Q 1 depth # Depth fmt E 1 peck1 # First peck increment (positive) #JQ was Q 10 fmt 1 peck2 # Second or last peck (positive) fmt 1 peckclr # Safety distance fmt 1 retr # Retract height fmt F 8 frplunge # Plunge feedrate in drill cycles # -------------------------------------------------------------------------- # Miscellaneous output formats # -------------------------------------------------------------------------- fmt M 5 ssrange # Spindle Speed Range fmt C 4 coolant # Coolant fmt M 4 cantext #canned text # -------------------------------------------------------------------------- # INITIALIZE - initialize system variables and define user variables # -------------------------------------------------------------------------- arcoutput : 1 # 0 = IJK, 1 = R no sign, 2 = R signed neg. over 180 breakarcs : 0 #Break arcs, 0 = no, 1 = quadrants, 2 = 180deg. max arcs arctype : 2 # Arc center 1=abs, 2=St-Ctr, 3=Ctr-St, 4=unsigned inc. do_full_arc : 0 # Allow full circle output? 0=no, 1=yes helix_arc : 0 # Support helix arc output, 0=no, 1=all planes, 2=XY plane only arccheck : 1 # Check for small arcs, convert to linear ltol : .002 # Length tolerance for arccheck bldnxtool : yes # Build next tool table omitseq : no # Omit sequence numbers? progname : 1 # Use uppercase for program name (sprogname) scalex : 1.0 # Scaling of .NCI at input - x,y,z,i,j,k scaley : 1.0 # Scaling of .NCI at input - x,y,z,i,j,k scalez : 1.0 # Scaling of .NCI at input - x,y,z,i,j,k seqmax : 9999 # Max. sequence number skipmotest: no # Skip motion test in linear spaces : 1 # No. of spaces to add between fields tooltable : 1 # Read for tool table and pwrtt absswp : 0 # Absolute sweep maxfrdeg : 999 # Limit for feed in deg/min absinc : 0 # Absolute/Incremental toggle for modality tcnt : 0 # Count the number of tool changes adelta : 0 # Calculation for deg/min ldelta : 0 # Calculation for deg/min zdelta : 0 # Calculation for deg/min alzdelta : 0 # Calculation for deg/min frdelta : 0 # Calculation for deg/min frdegcalc : 0 # Calculation for deg/min circum : 0 # Calculation for deg/min rotstrt : 1 # Flag for first rotary position #Cantext string definitions (spaces must be padded here) sm00 "M00" sm01 "M01" strm "M" strtextno strcantext sblank # -------------------------------------------------------------------------- # FORMULAS - global formulas # -------------------------------------------------------------------------- ssrange = mi3 # Gear Range Select speed = abs ( ss ) # Absolute spindle speed arcradm = arcrad # Negative arcrad spdlsel = fsg3(ss) # Spindle on selector based on pos. or neg. ss # -------------------------------------------------------------------------- # CANNED CYCLES - select long or short code # -------------------------------------------------------------------------- usecandrill : yes # Use canned cycle for drill usecanpeck : yes # Use canned cycle for Peck usecanchip : yes # Use canned cycle for Chip Break usecantap : yes # Use canned cycle for Tap usecanbore1 : yes # Use canned cycle for Bore1 usecanbore2 : yes # Use canned cycle for Bore2 usecanmisc1 : yes # Use canned cycle for Misc1 usecanmisc2 : yes # Use canned cycle for Misc2 # -------------------------------------------------------------------------- # Lookup table definitions - for math functions FLOOK and FRANGE # -------------------------------------------------------------------------- flktbl 1 3 # Lookup table definitions - table no. - no. entries 40 1000 # Low gear range 41 2500 # Med gear range 42 5000 # Hi gear range # -------------------------------------------------------------------------- # Strings - String labels must start with 's' - they are not pre-assigned # -------------------------------------------------------------------------- #Select operation note sop00 NULL........... # String definition sop01 CONTOURNAGE.... # " " sop02 CONTOURNAGE.... # " " sop03 FORET PERCAGE.. # " " sop04 POCHE.......... # " " sop05 RULED.......... # " " sop06 2D-SWEPT....... # " " sop07 3D-SWEPT....... # " " sop08 REVOLVED....... # " " sop09 LOFT........... # " " sop10 COONS.......... # " " sop11 FILLET......... # " " sop12 FLOWLINE....... # " " sop13 M.FINISH....... # " " sop14 M.ROUGH........ # " " sop15 POINT.......... # " " sop16 DRILL5AX....... # " " sop17 CURVE5AX....... # " " sop18 OP18........... # " " sop19 OP19........... # " " sop20 OP20........... # " " sopnote # Target string fstrsel sop00 opcode sopnote # -------------------------------------------------------------------------- # Select motion G code sg00 G0 # Linear movement at rapid feedrate sg01 G1 # Linear movement at feedrate sg02 G2 # Circular interpolation CW sg03 G3 # Circular interpolation CCW sgcode # Target string fstrsel sg00 gcode sgcode # -------------------------------------------------------------------------- # Select incremental or absolute G code sg90 G90 # Absolute G code sg91 G91 # Incremental G code sgabsinc # Target string fstrsel sg90 absinc sgabsinc # -------------------------------------------------------------------------- # Select spindle start sm04 M4 # Spindle reverse sm05 M5 # Spindle off sm03 M3 # Spindle forward spdlon # Target string fstrsel sm04 spdlsel spdlon # -------------------------------------------------------------------------- # Cutter compensation code scc0 "" # Cutter compensation state not changed sg40 G40 # Cancel cutter compensation sg41 "G41" # Cutter compensation left ################### sg42 "G42" # Cutter compensation right ################## sg140 G40 # Last linear move cancel cutter comp (see note) # Note: to cancel comp after last move, remove G40 string # with sg140 and remove "#" at the postline call "pcancelcc" sccomp # Target string fstrsel scc0 ccomp sccomp # -------------------------------------------------------------------------- # Select work plane G code sg17 G17 # XY plane code sg19 G19 # XZ plane code sg18 G18 # YZ plane code sgplane # Target string fstrsel sg17 plane sgplane # -------------------------------------------------------------------------- # Work coordinate system sg50 G92 # Work coordinate system G code sg51 G92 # " " " " " sg52 G92 # " " " " " sg53 G92 # " " " " " sg54 G54 # " " " " " sg55 G55 # " " " " " sg56 G56 # " " " " " sg57 G57 # " " " " " sg58 G58 # " " " " " sg59 G59 # " " " " " sgwcs # Target string fstrsel sg50 mi1 sgwcs # -------------------------------------------------------------------------- # Canned drill cycle string select sg81 G81 # drill - sans temporisation sg81d G82 # drill - avec temporisation sg83 G81 # peck drill - sans temporisation #JQ made G81 - was G83 sg83d G83 # peck drill - avec temporisation sg73 G73 # chip break - sans temporisation sg73d G73 # chip break - avec temporisation sg84 G84 # tap - sans temporisation sg84d G74 # tap - avec temporisation (selects left hand) sg85 G85 # bore #1 - sans temporisation sg85d G89 # bore #1 - avec temporisation sg86 G86 # bore #2 - sans temporisation sg86d G86 # bore #2 - avec temporisation sgm1 G81 # misc #1 - sans temporisation sgm1d G82 # misc #1 - avec temporisation sgm2 G81 # misc #2 - sans temporisation sgm2d G82 # misc #2 - avec temporisation sgdrill # Target string drlgsel = drillcyc * 2 + fsg2 ( dwell ) # 16 possible combinations: # drillcyc = 0..7 # dwell = 0 or non-zero (2 states) fstrsel sg81 drlgsel sgdrill # -------------------------------------------------------------------------- # Generate 'sgear' string sgear0 M** # auto gear range sgear1 M41 # Low gear range sgear2 M42 # Med gear range sgear3 M43 # High gear range - selected in parameters by mi3 sgear fstrsel sgear0 gear sgear # -------------------------------------------------------------------------- # POSTLINES, USER-DEFINED - Postline labels start with 'p'. # End a line with ',' to continue on the next line. # End a line with ', e' to generate carriage return and linefeed. # -------------------------------------------------------------------------- # Program general output control, user defined # -------------------------------------------------------------------------- pinit # Initialize Vars prv_fr = 999.999 prv_frdeg = 999.999 prv_frplunge = 999.999 linarc = 0 rotstrt = 1 pcomment # Manual Entry - COMMENTS (on a block by itself) 1005,1006 "/", scomm pabs # Absolute G code output absinc = 0 sgabsinc pinc # Incremental G code output absinc = 1 sgabsinc pcooloff # Coolant off "M" code output if prv_coolant > 0, "M9" if prv_coolant > 0, prv_coolant = 0 pcoolon # Coolant off "M" code output if coolant = 1, "M7" # Flood if coolant = 2, "M7" # Mist if coolant = 3, "M7" # Tool if prv_coolant > 0, !coolant pcoolnl # Coolant off "M" code output if coolant = 0, "M9" # Off if coolant = 1, "M7" # Flood if coolant = 2, "M7" # Mist if coolant = 3, "M7" # Tool if prv_coolant > 0, !coolant pfr # Feedrate W/O Negative Feedrates if fr > 0, fr # -------------------------------------------------------------------------- # Canned Text # -------------------------------------------------------------------------- pcan #Canned text - before output call strcantext = sblank if cant_no > 0, [ if cant_pos1 = 0, pcant_1 if cant_pos2 = 0, pcant_2 if cant_pos3 = 0, pcant_3 if cant_pos4 = 0, pcant_4 if cant_pos5 = 0, pcant_5 if cant_pos6 = 0, pcant_6 if cant_pos7 = 0, pcant_7 if cant_pos8 = 0, pcant_8 if cant_pos9 = 0, pcant_9 if cant_pos10 = 0, pcant_10 n, strcantext, e strcantext = sblank ] pcan1 #Canned text - with move strcantext = sblank if cant_no > 0, [ if cant_pos1 = 1, pcant_1 if cant_pos2 = 1, pcant_2 if cant_pos3 = 1, pcant_3 if cant_pos4 = 1, pcant_4 if cant_pos5 = 1, pcant_5 if cant_pos6 = 1, pcant_6 if cant_pos7 = 1, pcant_7 if cant_pos8 = 1, pcant_8 if cant_pos9 = 1, pcant_9 if cant_pos10 = 1, pcant_10 ] if cstop, strcantext = strcantext + sm00 if cgstop, strcantext = strcantext + sm01 #Output of strcantext occurs at the end of the output line pcan2 #Canned text - after output call strcantext = sblank if cant_no > 0, [ if cant_pos1 = 2, pcant_1 if cant_pos2 = 2, pcant_2 if cant_pos3 = 2, pcant_3 if cant_pos4 = 2, pcant_4 if cant_pos5 = 2, pcant_5 if cant_pos6 = 2, pcant_6 if cant_pos7 = 2, pcant_7 if cant_pos8 = 2, pcant_8 if cant_pos9 = 2, pcant_9 if cant_pos10 = 2, pcant_10 n, strcantext, e strcantext = sblank ] pcant_1 #Canned text - output call cantext = cant_val1 pcant_out pcant_2 #Canned text - output call cantext = cant_val2 pcant_out pcant_3 #Canned text - output call cantext = cant_val3 pcant_out pcant_4 #Canned text - output call cantext = cant_val4 pcant_out pcant_5 #Canned text - output call cantext = cant_val5 pcant_out pcant_6 #Canned text - output call cantext = cant_val6 pcant_out pcant_7 #Canned text - output call cantext = cant_val7 pcant_out pcant_8 #Canned text - output call cantext = cant_val8 pcant_out pcant_9 #Canned text - output call cantext = cant_val9 pcant_out pcant_10 #Canned text - output call cantext = cant_val10 pcant_out pcant_out #Canned text - build the string for output #Build the cantext string if cantext = 1, strcantext = strcantext + sm00 if cantext = 2, strcantext = strcantext + sm01 if cantext > 2, [ strtextno = no2str(cantext) strcantext = strcantext + strm + strtextno ] # -------------------------------------------------------------------------- # Work coordinate output, user defined # -------------------------------------------------------------------------- pg92_sof # G92 coordinate setting at start "/", n, pinc, "G28", "Z0.", e "/", n, "G28", "X0.", "Y0.", e "/", n, *sgwcs, *xh, *yh, *zh, e pg92_out # G92 coordinate setting at tool change "/", n, "G28", "X0.", "Y0.", e if gcode <> 1003, "/", n, *sgwcs, *xh, *yh, *zh, e pg92_tst # G92 coordinate test for output if mi1 > 0, pg92_out pwcs # G54+ coordinate setting if mi1 >= 4, *sgwcs # -------------------------------------------------------------------------- # Gear selection control, user defined # -------------------------------------------------------------------------- pgear # Find spindle range gear = frange ( 1, speed ) *gear prange # Find spindle range if use_gear = 1, pgear # -------------------------------------------------------------------------- # Cutter comp. output control, user defined # -------------------------------------------------------------------------- pccdia2 # Cutter Compensation2 if ccomp <> 4, tloffno pccdia # Cutter Compensation if ccomp <> 0, pccdia2 # -------------------------------------------------------------------------- # Axis substitution motion, user defined # -------------------------------------------------------------------------- pdrlxyrot # Substitute Axis X/Y with Rotary axis w/ drilling xangle = xs yangle = ys if rotaxis = 0, x, y if rotaxis = 1, y, xangle if rotaxis = 2, x, yangle pfrd # Feedrate W/O Negative Feedrates (deg/min) if frdeg > maxfrdeg, frdeg = maxfrdeg if frdelta > .5, *frdeg #Value to exceed to output frdeg protaxis1a # Substitute Axis X/Y with Rotary axis if rotstrt = 0, pcan1, n, sgcode, y, z, *xangle, pfrd, strcantext, e if rotstrt = 1, n, xangle, e if rotstrt = 1, pcan1, n, sgcode, y, z, pfrd, strcantext, e protaxis1 # Substitute Axis X/Y with Rotary axis pcan if gcode = 0, pcan1, n, sgcode, y, z, *xangle, strcantext, e if gcode = 1, protaxis1a pcan2 protaxis2a # Substitute Axis X/Y with Rotary axis if rotstrt = 0, pcan1, n, sgcode, x, z, *yangle, pfrd, strcantext, e if rotstrt = 1, n, yangle, e if rotstrt = 1, pcan1, n, sgcode, x, z, pfrd, strcantext, e protaxis2 # Substitute Axis X/Y with Rotary axis pcan if gcode = 0, pcan1, n, sgcode, x, z, *yangle, strcantext, e if gcode = 1, protaxis2a pcan2 protaxis # Substitute Axis X/Y with Rotary axis xangle = xs yangle = ys if rotstrt = 1, !fr if fr < 0, fr = prv_fr !fr if rotaxis = 1, ldelta = abs ( y - prv_y ) if rotaxis = 2, ldelta = abs ( x - prv_x ) zdelta = abs ( z - prv_z ) if rotaxis = 1, adelta = ( ( abs ( xangle - prv_xangle ) ) / 360 ) * circum if rotaxis = 2, adelta = ( ( abs ( yangle - prv_yangle ) ) / 360 ) * circum alzdelta = sqrt ( adelta^2 + ldelta ^2 + zdelta^2 ) frdegcalc = fr * ( 360 / circum ) if alzdelta <> 0, frdeg = ( adelta / alzdelta ) * frdegcalc if adelta = 0, frdeg = fr frdelta = abs ( frdeg - prv_frdeg ) if rotaxis = 1, protaxis1 if rotaxis = 2, protaxis2 if gcode = 1, rotstrt = 0 !x, !y, !z protary # Rotary Move if rotaxis = 1, xr = 0 #Force X to zero if rotaxis = 2, yr = 0 #Force Y to zero if rotaxis > 0, linarc = 1 circum = rotdia * pi # -------------------------------------------------------------------------- # Axis linear/circular motion, user defined # -------------------------------------------------------------------------- parctyp2 # Arc output for R w/ sign over 180 degree sweep absswp = abs ( sweep ) @absswp if absswp <= 180, *arcrad if absswp > 180, *arcradm parctyp1 # Arc output for R w/ no sign *arcrad parctyp0 # Arc output for IJK if plane = 0, *i, *j, k if plane = 1, i, *j, *k if plane = 2, *i, j, *k parctyp # Select the arc output if arcoutput = 0 | full_arc_flg | arc_pitch, parctyp0 else, [ if arcoutput = 1, parctyp1 if arcoutput = 2, parctyp2 ] prapidm # Linear line movement - at rapid feedrate pcan pcan1, n, sgplane, sccomp, sgcode, x, y, z, strcantext, e pcan2 plinm # Linear line movement - at feedrate pcan pcan1, n, sccomp, sgcode, pApproach, x, y, z, pfr, strcantext, e pcan2 pcirm # Circular interpolation pcan pcan1, n, sgplane, sccomp, sgcode, pApproach, x, y, z, parctyp, pfr, strcantext, e pcan2 #plinm # Linear line movement - at feedrate # pcan # pcan1,n, sccomp, sgcode, x, y, z, pfr, strcantext, e # pcan2 #pcirm # Circular interpolation # pcan # pcan1, n, sgplane, sccomp, sgcode, x, y, z, parctyp , pfr, strcantext, e # pcan2 # -------------------------------------------------------------------------- # Drilling, user defined # -------------------------------------------------------------------------- pdrillref # Determine G98 or G99 if initht <> refht, drillref = 98 if initht = refht, drillref = 99 pdwell # Determine whether to output dwell if dwell <> 0, *dwell ptlchg0dr3 # Null tool change for drilling gcode = 0 if zr < prv_zr, n, sgcode, *xr, *yr, e n, sgcode, *zr, e ptlchg0dr2 # Null tool change for drilling if zr <> prv_zr, ptlchg0dr3 ptlchg0drl # Null tool change for drilling if prv_opcode = 3, ptlchg0dr2 # -------------------------------------------------------------------------- # POSTLINES, PRE-DEFINED - Postline names are pre-assigned. # Lines do not need to end with ', e' for carriage return and linefeed. # -------------------------------------------------------------------------- pheader # File header " ", e n, "/ NOM DU PROGRAMME -", sprogname n, "/ DATE: ", date, " HEURE:", time psof0 # Start of file for tool zero psof psof # Start of file for non-zero tool number pinit !opcode, !coolant if tcnt = 1, stagetool = 1 ##################### ##*progno ################################### comment if mi1 <= 3, #pg92_sof ######################### n, "G99" ################################# n, "/----------------------------------------------------" n, "/----------------------------------------------------" n, "G99"######################################## if stagetool = 0, n, "G40", *t, "M6" if stagetool = 1, n, "G40", *next_tool, "M6" protary n, "G4", *speed, *spdlon pcan pcan1, n, "G0", pabs, *xr, *yr, strcantext, e n, *zr, pcoolon pcan2 ptlchg0 # Null tool change if opcode = 3, ptlchg0drl if prv_speed <> speed, n, speed if coolant <> prv_coolant, n, pcoolnl !opcode, !coolant pcan ptlchg # Tool change pinit !opcode #n, "/POSITION CHANGEMENT OUTIL" #n, "G0", *xh, *yh, *zh n, "G40 T0" #JQ n, "/ARRET ARROSAGE" n, "M9" n, "/ARRET BROCHE" n, "M5" n, "/ARRET MACHINE n, "M00" n, "/----------------------------------------------------" n, "/----------------------------------------------------" n, "/" if mi1 <= 3, pg92_tst if stagetool = 0, n, "G40", *t, "M6" if stagetool = 1, n, "G40", *next_tool, "M6" n, "G4", *speed, *spdlon comment protary pcan pcan1, n, "G0", pabs, *xr, *yr, strcantext, e pcan2 n, *zr, pcoolon !coolant peof0 # End of file for tool zero peof peof # End of file for non-zero tool #n, "/POSITION CHANGEMENT OUTIL" #n, "G0", *xh, *yh, *zh n, "G40 T0" n, "/ARRET ARROSAGE" n, "M9" n, "/ARRET BROCHE" n, "M5" n, "/FIN DE PROGRAMME" n, "M2" # -------------------------------------------------------------------------- # Axis motion # -------------------------------------------------------------------------- prot0 # Toolplane postline - Custom post required prot # Toolplane postline - Custom post required prapid # Linear line movement - at rapid feedrate if rotaxis <> 0, protaxis if rotaxis = 0, prapidm pzrapid # Linear movement in Z axis only - at rapid feedrate n, sgcode, z plin # Linear line movement - at feedrate if rotaxis <> 0, protaxis if rotaxis = 0, plinm pz # Linear movement in Z axis only - at feedrate n, sgcode, z, pfr pcir # Circular interpolation if rotaxis <> 0, protaxis if rotaxis = 0, pcirm # -------------------------------------------------------------------------- # Drilling # -------------------------------------------------------------------------- pdrill # Canned Drill Cycle pdrillref n, *sgdrill, pdrlxyrot, *refht, *depth, *initht, pdwell, *frplunge ppeck # Canned Peck Drill Cycle pdrillref n, *sgdrill, pdrlxyrot, *refht, *depth, *peck1, *frplunge pchpbrk # Canned Chip Break Cycle pdrillref n, *drillref, *sgdrill, pdrlxyrot, *depth, *refht, *peck1, *frplunge ptap # Canned Tap Cycle pdrillref n, *sgdrill, pdrlxyrot, *refht, *depth, *initht, *frplunge pbore1 # Canned Bore #1 Cycle pdrillref n, *drillref, *sgdrill, pdrlxyrot, *depth, *refht, pdwell, *frplunge pbore2 # Canned Bore #2 Cycle pdrillref n, *drillref, *sgdrill, pdrlxyrot, *depth, *refht, *frplunge pmisc1 # Canned Misc #1 Cycle (User Option) pdrill pmisc2 # Canned Misc #2 Cycle (User Option) pdrill pdrill_2 # Canned Drill Cycle n, pdrlxyrot, refht, depth, *peck1 ppeck_2 # Canned Peck Drill Cycle pdrill_2 pchpbrk_2 # Canned Chip Break Cycle pdrill_2 ptap_2 # Canned Tap Cycle pdrill_2 pbore1_2 # Canned Bore #1 Cycle pdrill_2 pbore2_2 # Canned Bore #2 Cycle pdrill_2 pmisc1_2 # Canned Misc #1 Cycle pdrill_2 pmisc2_2 # Canned Misc #2 Cycle pdrill_2 pcanceldc # Cancel canned drill cycle !gcode n, "G0", *zr #JQ G0 was G80 prv_z = initht pcancelcc # Cancel cutter comp. #n, "G40" pwrtt # Write tool table, scans entire file, null tools are negative tnote = t toffnote = tloffno tlngnote = tlngno if t >= 0, n, "/", *tnote, " ", *tldia, " ", *sopnote, ")" if t >= 0, tcnt = tcnt + 1 # -------------------------------------------------------------------------- # Numbered questions for Mastercam Mill # -------------------------------------------------------------------------- 38. Rapid feedrate? 300.0 1538. Rapid feedrate (metric)? 10000.0 80. Communications port number for receive and transmit (1 or 2) ? 2 81. Data rate (110,150,300,600,1200,2400,4800,9600,14400,19200,38400)? 300 82. Parity (E/O/N)? E 83. Data bits (7 or 8)? 7 84. Stop bits (1 or 2)? 2 85. Strip line feeds? N 86. Delay after end of line (seconds)? 0 87. Ascii, Eia, or Binary (A/E/B)? A 88. Echo keyboard to screen in terminal emulation? n 89. Strip carriage returns? N 90. Drive and subdirectory for NC files? 91. Name of executable post processor? MP 92. Name of reverse post processor? RP 93. Reverse post PST file name? 100. Number of places BEFORE the decimal point for sequence numbers? 3 101. Number of places AFTER the decimal point for sequence numbers? 0 103. Maximum spindle speed? 5000 107. Average time for tool change (seconds)? 2.0 159. Show first and last position as fully compensated in simulation? n 161. Enable Home Position button? y 162. Enable Reference Point button? n 163. Enable Misc. Values button? y 164. Enable Rotary Axis button? n 165. Enable Tool Plane button? n 166. Enable Construction Plane button? n 167. Enable Tool Display button? y 168. Check tplane during automatic work origin creation? n # -------------------------------------------------------------------------- # Default Miscellaneous Real Values # -------------------------------------------------------------------------- 201. Default miscellaneous real variable 1 (mr1)? 0.0 202. Default miscellaneous real variable 2 (mr2)? 0.0 203. Default miscellaneous real variable 3 (mr3)? 0.0 204. Default miscellaneous real variable 4 (mr4)? 0.0 205. Default miscellaneous real variable 5 (mr5)? 0.0 206. Default miscellaneous real variable 6 (mr6)? 0.0 207. Default miscellaneous real variable 7 (mr7)? 0.0 208. Default miscellaneous real variable 8 (mr8)? 0.0 209. Default miscellaneous real variable 9 (mr9)? 0.0 210. Default miscellaneous real variable 10 (mr10)? 0.0 # -------------------------------------------------------------------------- # Default Miscellaneous Real Values (METRIC) # -------------------------------------------------------------------------- 1601. Default miscellaneous real variable 1 (mr1) (metric)? 0.0 1602. Default miscellaneous real variable 2 (mr2) (metric)? 0.0 1603. Default miscellaneous real variable 3 (mr3) (metric)? 0.0 1604. Default miscellaneous real variable 4 (mr4) (metric)? 0.0 1605. Default miscellaneous real variable 5 (mr5) (metric)? 0.0 1606. Default miscellaneous real variable 6 (mr6) (metric)? 0.0 1607. Default miscellaneous real variable 7 (mr7) (metric)? 0.0 1608. Default miscellaneous real variable 8 (mr8) (metric)? 0.0 1609. Default miscellaneous real variable 9 (mr9) (metric)? 0.0 1610. Default miscellaneous real variable 10 (mr10) (metric)? 0.0 # -------------------------------------------------------------------------- # Enable/Disable Miscellaneous Real Variable switches # -------------------------------------------------------------------------- 1611. Enable miscellaneous real variable 1? y 1612. Enable miscellaneous real variable 2? y 1613. Enable miscellaneous real variable 3? y 1614. Enable miscellaneous real variable 4? y 1615. Enable miscellaneous real variable 5? y 1616. Enable miscellaneous real variable 6? y 1617. Enable miscellaneous real variable 7? y 1618. Enable miscellaneous real variable 8? y 1619. Enable miscellaneous real variable 9? y 1620. Enable miscellaneous real variable 10? y # -------------------------------------------------------------------------- # Default Miscellaneous Integer Values # -------------------------------------------------------------------------- 301. Default Work Coordinate System (0 thru 3=G92, 4 thru 9=G54-G59)? 4 302. Miscellaneous integer variable 2 (mi4)? 0 303. Miscellaneous integer variable 3 (mi4)? 0 304. Miscellaneous integer variable 4 (mi4)? 0 305. Miscellaneous integer variable 5 (mi5)? 0 306. Miscellaneous integer variable 6 (mi6)? 0 307. Miscellaneous integer variable 7 (mi7)? 0 308. Miscellaneous integer variable 8 (mi8)? 0 309. Miscellaneous integer variable 9 (mi9)? 0 310. Miscellaneous integer variable 10 (mi10)? 0 # -------------------------------------------------------------------------- # Enable/Disable Miscellaneous Integer Variable switches # -------------------------------------------------------------------------- 1621. Enable miscellaneous integer variable 1? y 1622. Enable miscellaneous integer variable 2? y 1623. Enable miscellaneous integer variable 3? y 1624. Enable miscellaneous integer variable 4? y 1625. Enable miscellaneous integer variable 5? y 1626. Enable miscellaneous integer variable 6? y 1627. Enable miscellaneous integer variable 7? y 1628. Enable miscellaneous integer variable 8? y 1629. Enable miscellaneous integer variable 9? y 1630. Enable miscellaneous integer variable 10? y # -------------------------------------------------------------------------- # Configuration File association parameters (default is "y") # -------------------------------------------------------------------------- #400. Name of associated cfg file? 401. Read SYSTEM COLORS section? y 402. Read ALLOCATIONS section? y 403. Read TOLERANCES section? y 404. Read DATA PATHS section? y 405. Read COMMUNICATIONS section? y 406. Read DRAFT SETTINGS section? y 407. Read MISCELLANEOUS section? y 408. Read NC SETTINGS section? y 409. Read DIALOG SCRIPTS section? y 410. Read DESIGN SETTINGS section? y 411. Read PLOTTER SETTINGS section? y 412. Read ALT-KEY ASSIGNMENTS section? y 413. Read CAD section? y 414. Read START/EXIT section? y 415. Read SCREEN section? y 416. Read FILE NAMES section? y 1500. Chook to execute from 'Misc. values' button? 1501. Insert parameter information in the ascii NCI? n 1502. Write operation information to binary file (.ops)? n 1503. Write transform operations (0=transform ops, 1=source ops, 2=both)? 1 1520. Display a warning when cutter compensation in control simulation finds an error? n 1521. Number of controller look-ahead blocks for CDC in control? 2 1530. Ignore work offset numbers when processing subprograms? y 1531. Ignore contour flags when processing subprograms? y # Do NOT manually change the answer for Q.1999 ! 1999. Product major version number that post supports? 9 3001. Machine acceleration? 2 3002. timing size? .1 pApproach # Sharnoa non-tangent approach if cc_poss$ > 0 & cstart$ = 2, "G-1"

the problem is that there are "$" symbol in what you have given me and this generates an error.

I put the file (post processor) in my first message.

idea ?

pApproach # Sharnoa non-tangent approach if cc_pos$ > 0 & cstart$ = 2, "G-1"

error Post-Processeur combiné de Fraisage et de Tournage Version 9.10 © Copyright 1992-2003 CNC Software, Inc. Traitement du fichier par MPTIGER4... Caractère incorrect$ Numéro de ligne de post-processeur 1029 Exécution interrompue à cause d'erreur(s) dans le .pst

error==>invalid variable

I get an error the program will not be written

is there someone who has an idea. ?

yes it is """" G-1 X-8 """, I was wrong. sorry

yes it is and it must be added "G-1" with the move (X / Y)