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INNER {returnImm {Unknow state transition: LINE -> END} {}} CALL {my render_wikit {Stratographic Years Slot Calculator Example, Age of Earth} {*** Stratographic Years Slot Calculator Example, Age of Earth***
----   
This page is under development. Comments are
welcome, but please load any comments
in the comments section 
at the middle of the page. Thanks, [gold]
----
[gold] Here is an eTCL  script on 
Stratographic Years. 
I have modified a slot calculator in eTCL
to handle  calculations for stratographic years.
There are a number
of issues that have risen with the accuracy of
the age of the earth.  
--- 
In planning any software, it is advisable to
gather a number of testcases to check
the results of the program. For the stratography,
these cases represent a diverse lot spanning
the globe and several million years of history.
----
    pseudocode:  enter period,speed,width 
    pseudocode:  (width in cm  +-2mm)* 50000 years per cm
 
    pseudocode: answer is years, used xxx  years per cm , +- error
  
    Permian              254 to 235 myrs     
    n.a. maximum deposit  274320 cm
    (254-235)myrs/274320 cm = 6.926E-5 myrs/cm
    10 cm * 6.926E-5 myrs/cm= 69.26E-5 myrs 
    or 69.26E-5 myrs *E+6 = 692.6 years
    world maximum deposit  548640 cm
    (254-235)myrs/ 548640   cm = 3.4631E-5 myrs/cm
    10 cm  * 3.4631E-5 myrs/cm=  34.631E-5 myrs or
    34.631E-5 myrs * E+6 = 346.3 years 
    figuring error of +-0.03 cm 
    10.03 cm  * 3.4631E-5 myrs/cm *E+6  = 347.348
    9.97 cm  * 3.4631E-5 myrs/cm *E+6  =  345.28
    (1.-347.348/345.28) *100 =  0.6 per cent  error
       
----
'''Comments Section'''

Please place any comments here, Thanks.
    
----
***References:***

----
***Screenshots Section***

[http://img855.imageshack.us/img855/7702/strattclwiki.gif]
---- 
****Appendix Code****
****appendix TCL programs and scripts ****
---- 
   





*********************


****FIRST VERSION   *** 

======
     #stratographic years slot calculator example
     # written on Windowws XP on eTCL 
     # working under TCL version 8.5.6 and eTCL 1.0.1 
     # gold on TCL WIKI , 8aug2010
      frame .frame -relief flat -bg aquamarine4
      pack .frame -side top -fill y -anchor center

  set names {{} {width cm:} {period:} {locale(1,2):} {myr/cm:} {year/cm:} {percent error:} {answer years:}}
   foreach i {1 2 3 4 5 6 7} {
    label .frame.label$i -text [lindex $names $i] -anchor e
    entry .frame.entry$i -width 35 -textvariable side$i
    grid .frame.label$i .frame.entry$i -sticky ew -pady 2 -padx 1
     }
  proc about {} {
    set msg "Calculator for stratographic years.
          from TCL WIKI,
          written on eTCL "
    
    tk_messageBox -title "About" -message $msg
        }
     proc pi {} {expr acos(-1)}
   
   proc interlinear { xx1 yy1 xx3 yy3 xx2   } {
     return [expr {  ((($xx2-$xx1)*($yy3-$yy1))/($xx3-$xx1))+ $yy1 } ] ;}

    proc pol { xx1 yy1 xx3 yy3 xx2   } {
     return [expr {  ((($xx2-$xx1)*($yy3-$yy1))/($xx3-$xx1))+ $yy1 } ] ;}
     proc periodic {lister} {
       global side1 side2 side3
       global side4 side5 side6 side7
     set const .5
     set item $side2
    set    cambrian   [expr { 600-400 } ]  
    set    ordovician [expr { 412-372 } ]  
    set    silurian   [expr { 372-338 } ] 
    set    devonian   [expr { 338-300 } ] 
    set    carbon     [expr { 300-254 } ]
    set    permian    [expr { 254-235 } ]
    set    triassic   [expr { 235-205 } ]
    set    jurassic   [expr { 205-161 } ]
    set    cretaceous   [expr { 161-110 } ]
    set    paleoscene   [expr { 110-98 } ]
    set    eocene   [expr { 98-68 } ]
    set    oligocene   [expr { 68-42 } ]
    set    miocene   [expr { 42-21 } ]
    set    pliocene   [expr { 21-6 } ]
    set    pleistocene   [expr { 6-.00001 } ]
    set    modern   [expr { 6-.00001 } ]
    set    one   [expr { 200-150 } ]
    set    two   [expr { 300-250 } ]
    set const [expr { ($carbon/23800.)*(1./30.48) } ]  
    if { $item == "cambrian" } { set const [expr { ($cambrian/33700.)*(1./30.48) } ] }
    if { $item == "ordovician" } { set const [expr { ($ordovician/23100.)*(1./30.48) } ]  }
    if { $item == "silurian" } {set const [expr { ($silurian/6400.)*(1./30.48) } ]   }
    if { $item == "devonian" } { set const [expr { ($devonian/12700.)*(1./30.48) } ]  }
    if { $item == "carboniferous" } { set const [expr { ($carbon/23800.)*(1./30.48) } ]   }
    if { $item == "mississippian" } { set const [expr { ($carbon/23800.)*(1./30.48) } ]   }
    if { $item == "permian" } { set const [expr { ($permian/9000.)*(1./30.48) } ]  }
    if { $item == "triassic" } { set const [expr { ($triassic/15000.)*(1./30.48) } ]   }
    if { $item == "jurassic" } { set const [expr { ($jurassic/22200.)*(1./30.48) } ]  }
    if { $item == "cretaceous" } { set const [expr { ($cretaceous/23800.)*(1./30.48) } ]   }
    if { $item == "paleoscene" } { set const [expr { ($paleocene/9000.)*(1./30.48) } ]  }
    if { $item == "eocene" } { set const [expr { ($eocene/15000.)*(1./30.48) } ]   }
    if { $item == "oligocene" } { set const [expr { ($oligocene/22200.)*(1./30.48) } ]  }
    if { $item == "miocene" } { set const [expr { ($miocene/9000.)*(1./30.48) } ]  }
    if { $item == "pliocene" } { set const [expr { ($pliocene/15000.)*(1./30.48) } ]   }
    if { $item == "modern" } { set const [expr { ($modern/22200.)*(1./30.48) } ]  }
    if { $item == "1" } { set const [expr { ($modern/25000)*(1./30.48) } ]  }
    if { $item == "2" } { set const [expr { ($modern/25000)*(1./30.48) } ]  }
    if { $side3 >= "2" } { 

    if { $item == "cambrian" } { set const [expr { ($cambrian/40000.)*(1./30.48) } ] }
    if { $item == "ordovician" } { set const [expr { ($ordovician/40000.)*(1./30.48) } ]  }
    if { $item == "silurian" } {set const [expr { ($silurian/20000.)*(1./30.48) } ]   }
    if { $item == "devonian" } { set const [expr { ($devonian/37000.)*(1./30.48) } ]  }
    if { $item == "carboniferous" } { set const [expr { ($carbon/40000.)*(1./30.48) } ]   }
    if { $item == "mississippian" } { set const [expr { ($carbon/40000.)*(1./30.48) } ]   }
    if { $item == "permian" } { set const [expr { ($permian/18000.)*(1./30.48) } ]  }
    if { $item == "triassic" } { set const [expr { ($triassic/25000.)*(1./30.48) } ]   }
    if { $item == "jurassic" } { set const [expr { ($jurassic/22000.)*(1./30.48) } ]  }
    if { $item == "cretaceous" } { set const [expr { ($cretacious/64000.)*(1./30.48) } ]   }
    if { $item == "paleoscene" } { set const [expr { ($paleocene/9000.)*(1./30.48) } ]  }
    if { $item == "eocene" } { set const [expr { ($eocene/23000.)*(1./30.48) } ]   }
    if { $item == "oligocene" } { set const [expr { ($oligocene/15000.)*(1./30.48) } ]  }
    if { $item == "miocene" } { set const [expr { ($miocene/21000.)*(1./30.48) } ]  }
    if { $item == "pliocene" } { set const [expr { ($pliocene/18000.)*(1./30.48) } ]   }
    if { $item == "pleistocene" } { set const [expr { ($jurassic/4000.)*(1./30.48) } ]  }
    if { $item == "modern" } { set const [expr { ($jurassic/4000.)*(1./30.48) } ]  }
    if { $item == "1" } { set const [expr { (10000./25000)*(1./30.48) } ]  }
    if { $item == "2" } { set const [expr { (10000./25000)*(1./30.48) } ]  }
     }
    return $const}

      proc errorx  {aa bb} {expr { $aa > $bb ?   (($aa*1.)/$bb -1.)*100. : (($bb*1.)/$aa -1.)*100.}}
   
        proc strat5 { xx1   } {
       global side1 side2 side3
       global side4 side5 side6
        set ss side1
        set tt [ periodic {$side2} ]
  
        set side4  [ expr { $tt*1.} ]
        set side5  [ expr { $tt*1.*1000000.} ]
        set side6  [ expr { $side1*$tt*1.*1000000.} ]
        set side7  [ expr { $side1*$tt*1.*1000000.} ]
        set lower [ expr { ($side1-.02*$side1)*$tt*1.*1000000.} ]
        set upper [ expr { ($side1+.02*$side1)*$tt*1.*1000000.} ]
        set side6 [ errorx $lower $upper ]
     }

    proc calculate {     } {
    global answer2   
    global side1 side2 side3 side4 side5 side6 side7
    set answer2  [ strat5  $side1     ] 
   
   set side6 $answer2  

   
  


      }
      proc fillup {aa bb cc dd ee ff gg} {
    
    .frame.entry1 insert 0 "$aa"
    .frame.entry2 insert 0 "$bb"
    .frame.entry3 insert 0 "$cc"
    .frame.entry4 insert 0 "$dd"
    .frame.entry5 insert 0 "$ee"
    .frame.entry6 insert 0 "$ff "
    .frame.entry7 insert 0 "$gg "
   
     }

 

      proc clearx {} {
    foreach i {1 2 3 4 5 6 7} {
        .frame.entry$i delete 0 end
    }
    }

   proc reportx {} { 
   console show;
   puts "
   The interpolation function takes 
   two know points on a line and
   solves for an intermediate point.
   The points are xx1,yy1   xx2,yy2 and xx3,?yy3?
   The input order of the five items
   is xx1 yy1 xx2 yy2 xx3 
   and solving for ?yy3?.
   The interpolation function loaded as
   proc pol. User should be able to write
   pol 50. 1000. 200. 1200.  150.
   and save answer (1133.3)  on console."
   }


  frame .buttons -bg aquamarine4

    
    ::ttk::button .calculator -text "Solve" -command { calculate   }

    ::ttk::button .test2 -text "Testcase1" -command {clearx;fillup 10. "permian" 1. 7.E-5  69.2 4. 692.2}
    ::ttk::button .test3 -text "Testcase2" -command {clearx;fillup 100. "permian" 1. 7.E-5 69.2 4. 6922.}
    ::ttk::button .test4 -text "Testcase3" -command {clearx;fillup 1000. "permian" 2. 3.4E-5 34. 6. 34631.}
    ::ttk::button .clearallx -text clear -command {clearx  }
    ::ttk::button .about -text about -command about
    ::ttk::button .cons -text report -command { reportx }
    ::ttk::button .exit -text exit -command {exit}
    pack .calculator  -in .buttons -side top -padx 10 -pady 5
     
    pack  .clearallx .cons .about .exit .test4 .test3  .test2   -side bottom -in .buttons
    grid .frame .buttons -sticky ns -pady {0 10} 
     . configure -background aquamarine4 -highlightcolor brown -relief raised -border 30
    bind . <Motion> {wm title . "Stratographic Years Calculator"}
=====









****SECOND VERSION WITH ADDED HACKS *** 

======   
       #!/usr/bin/env wish
 
        # search
        # code from TCL WIKI  Slot_Calculator_Demo
        # 8Aug2010,  gold 
     # written on Windowws XP on eTCL 
     # working under TCL version 8.5.6 and eTCL 1.0.1 
     # gold on TCL WIKI , 8aug2010
     frame .frame -relief flat -bg aquamarine4
     pack .frame -side top -fill y -anchor center

    set names {{} {width cm:} period: {locale:} {speed:} {year rate /cm:} {answer years:} possible:}
   foreach i {1 2 3 4 5 6 } {
    label .frame.label$i -text [lindex $names $i] -anchor e
    entry .frame.entry$i -width 35 -textvariable side$i
    grid .frame.label$i .frame.entry$i -sticky ew -pady 2 -padx 1
     }
  proc about {} {
    set msg "Calculator for stratographic years.
          from TCL WIKI,
          written on eTCL "
    
    tk_messageBox -title "About" -message $msg
        }
     proc pi {} {expr acos(-1)}
   
   proc interlinear { xx1 yy1 xx3 yy3 xx2   } {
     return [expr {  ((($xx2-$xx1)*($yy3-$yy1))/($xx3-$xx1))+ $yy1 } ] ;}

    proc pol { xx1 yy1 xx3 yy3 xx2   } {
     return [expr {  ((($xx2-$xx1)*($yy3-$yy1))/($xx3-$xx1))+ $yy1 } ] ;}
     proc periodic {lister} {
       global side1 side2 side3
       global side4 side5 side6
     set const .5
     set item $side2
    set    cambrian   [expr { 600-400 } ]  
    set    ordovician [expr { 412-372 } ]  
    set    silurian   [expr { 372-338 } ] 
    set    devonian   [expr { 338-300 } ] 
    set    carbon     [expr { 300-254 } ]
    set    permian    [expr { 254-235 } ]
    set    triassic   [expr { 235-205 } ]
    set    jurassic   [expr { 205-161 } ]
    set    cretaceous   [expr { 161-110 } ]
    set    paleoscene   [expr { 110-98 } ]
    set    eocene   [expr { 98-68 } ]
    set    oligocene   [expr { 68-42 } ]
    set    miocene   [expr { 42-21 } ]
    set    pliocene   [expr { 21-6 } ]
    set    pleistocene   [expr { 6-.00001 } ]
    set    modern   [expr { 6-.00001 } ]
    set    one   [expr { 200-150 } ]
    set    two   [expr { 300-250 } ]
    if { $item == "cambrian" } { set const [expr { ($cambrian/33700.)*(1./30.48) } ] }
    if { $item == "ordovician" } { set const [expr { ($ordovician/23100.)*(1./30.48) } ]  }
    if { $item == "silurian" } {set const [expr { ($silurian/6400.)*(1./30.48) } ]   }
    if { $item == "devonian" } { set const [expr { ($devonian/12700.)*(1./30.48) } ]  }
    if { $item == "carboniferous" } { set const [expr { ($carbon/23800.)*(1./30.48) } ]   }
    if { $item == "permian" } { set const [expr { ($permian/9000.)*(1./30.48) } ]  }
    if { $item == "triassic" } { set const [expr { ($triassic/15000.)*(1./30.48) } ]   }
    if { $item == "jurassic" } { set const [expr { ($jurassic/22200.)*(1./30.48) } ]  }
    if { $item == "cretaceous" } { set const [expr { ($cretaceous/23800.)*(1./30.48) } ]   }
    if { $item == "paleoscene" } { set const [expr { ($paleocene/9000.)*(1./30.48) } ]  }
    if { $item == "eocene" } { set const [expr { ($eocene/15000.)*(1./30.48) } ]   }
    if { $item == "oligocene" } { set const [expr { ($oligocene/22200.)*(1./30.48) } ]  }
    if { $item == "miocene" } { set const [expr { ($miocene/9000.)*(1./30.48) } ]  }
    if { $item == "pliocene" } { set const [expr { ($pliocene/15000.)*(1./30.48) } ]   }
    if { $item == "modern" } { set const [expr { ($modern/22200.)*(1./30.48) } ]  }
    if { $item == "1" } { set const [expr { ($modern/25000)*(1./30.48) } ]  }
    if { $item == "2" } { set const [expr { ($modern/25000)*(1./30.48) } ]  }
    if { $side3 >= "2" } { 

    if { $item == "cambrian" } { set const [expr { ($cambrian/40000.)*(1./30.48) } ] }
    if { $item == "ordovician" } { set const [expr { ($ordovician/40000.)*(1./30.48) } ]  }
    if { $item == "silurian" } {set const [expr { ($silurian/20000.)*(1./30.48) } ]   }
    if { $item == "devonian" } { set const [expr { ($devonian/37000.)*(1./30.48) } ]  }
    if { $item == "carboniferous" } { set const [expr { ($carbon/40000.)*(1./30.48) } ]   }
    if { $item == "permian" } { set const [expr { ($permian/18000.)*(1./30.48) } ]  }
    if { $item == "triassic" } { set const [expr { ($triassic/25000.)*(1./30.48) } ]   }
    if { $item == "jurassic" } { set const [expr { ($jurassic/22000.)*(1./30.48) } ]  }
    if { $item == "cretaceous" } { set const [expr { ($cretacious/64000.)*(1./30.48) } ]   }
    if { $item == "paleoscene" } { set const [expr { ($paleocene/9000.)*(1./30.48) } ]  }
    if { $item == "eocene" } { set const [expr { ($eocene/23000.)*(1./30.48) } ]   }
    if { $item == "oligocene" } { set const [expr { ($oligocene/15000.)*(1./30.48) } ]  }
    if { $item == "miocene" } { set const [expr { ($miocene/21000.)*(1./30.48) } ]  }
    if { $item == "pliocene" } { set const [expr { ($pliocene/18000.)*(1./30.48) } ]   }
    if { $item == "pleistocene" } { set const [expr { ($jurassic/4000.)*(1./30.48) } ]  }
    if { $item == "modern" } { set const [expr { ($jurassic/4000.)*(1./30.48) } ]  }
    if { $item == "1" } { set const [expr { (10000./25000)*(1./30.48) } ]  }
    if { $item == "2" } { set const [expr { (10000./25000)*(1./30.48) } ]  }
     }
    return $const}
        proc strat5 { xx1   } {
       global side1 side2 side3
       global side4 side5 side6
        set ss side1
        set tt [ periodic {$side2} ]
  
        set side5  [ expr { $side1*$tt*1.} ]
        set side4  [ expr { $side1*$tt*1.} ]
        set side6  [ expr { $side1*$tt*1.} ]
         

     }

    proc calculate {     } {
    global colorwarning
    global colorback
    global answer2   answer3
    global side1 side2 side3 side4 side5 side6 
       set answer2 5
   
     
   set answer2  [ strat5  $side1     ] 
   
   set side6 $answer2  

   
  


 }
      proc fillup {aa bb cc dd ee ff } {
    
    .frame.entry1 insert 0 "$aa"
    .frame.entry2 insert 0 "$bb"
    .frame.entry3 insert 0 "$cc"
    .frame.entry4 insert 0 "$dd"
    .frame.entry5 insert 0 "$ee"
    .frame.entry6 insert 0 "$ff "
   
}

 

      proc clearx {} {
    foreach i {1 2 3 4 5 6 } {
        .frame.entry$i delete 0 end
    }
    }

   proc reportx {} { 
   console show;
   puts "
   The interpolation function takes 
   two know points on a line and
   solves for an intermediate point.
   The points are xx1,yy1   xx2,yy2 and xx3,?yy3?
   The input order of the five items
   is xx1 yy1 xx2 yy2 xx3 
   and solving for ?yy3?.
   The interpolation function loaded as
   proc pol. User should be able to write
   pol 50. 1000. 200. 1200.  150.
   and save answer (1133.3)  on console."
   }


  frame .buttons -bg aquamarine4

    
    ::ttk::button .calculator -text "Solve" -command { calculate   }

    ::ttk::button .test2 -text "Testcase1" -command { clearx;fillup 2. 1. 1. 12.  50. 116 }
    ::ttk::button .test3 -text "Testcase2" -command { clearx;fillup  10. "jurassic" 1. 12.  15. 1133 }
    ::ttk::button .test4 -text "Testcase3" -command { clearx;fillup 5. "permian" 2. 15.  25. 1250}
    ::ttk::button .clearallx -text clear -command {clearx  }
    ::ttk::button .about -text about -command about
    ::ttk::button .cons -text report -command { reportx }
    ::ttk::button .exit -text exit -command {exit}
    pack .calculator  -in .buttons -side top -padx 10 -pady 5
     
    pack  .clearallx .cons .about .exit .test4 .test3  .test2   -side bottom -in .buttons
    grid .frame .buttons -sticky ns -pady {0 10} 
     . configure -background aquamarine4 -highlightcolor brown -relief raised -border 30
    wm title . "Stratographic Years Calculator"
======
 


  

  
<<categories>> Numerical Analysis | Toys | Calculator | Example | Mathematics} regexp2} CALL {my render {Stratographic Years Slot Calculator Example, Age of Earth} {*** Stratographic Years Slot Calculator Example, Age of Earth***
----   
This page is under development. Comments are
welcome, but please load any comments
in the comments section 
at the middle of the page. Thanks, [gold]
----
[gold] Here is an eTCL  script on 
Stratographic Years. 
I have modified a slot calculator in eTCL
to handle  calculations for stratographic years.
There are a number
of issues that have risen with the accuracy of
the age of the earth.  
--- 
In planning any software, it is advisable to
gather a number of testcases to check
the results of the program. For the stratography,
these cases represent a diverse lot spanning
the globe and several million years of history.
----
    pseudocode:  enter period,speed,width 
    pseudocode:  (width in cm  +-2mm)* 50000 years per cm
 
    pseudocode: answer is years, used xxx  years per cm , +- error
  
    Permian              254 to 235 myrs     
    n.a. maximum deposit  274320 cm
    (254-235)myrs/274320 cm = 6.926E-5 myrs/cm
    10 cm * 6.926E-5 myrs/cm= 69.26E-5 myrs 
    or 69.26E-5 myrs *E+6 = 692.6 years
    world maximum deposit  548640 cm
    (254-235)myrs/ 548640   cm = 3.4631E-5 myrs/cm
    10 cm  * 3.4631E-5 myrs/cm=  34.631E-5 myrs or
    34.631E-5 myrs * E+6 = 346.3 years 
    figuring error of +-0.03 cm 
    10.03 cm  * 3.4631E-5 myrs/cm *E+6  = 347.348
    9.97 cm  * 3.4631E-5 myrs/cm *E+6  =  345.28
    (1.-347.348/345.28) *100 =  0.6 per cent  error
       
----
'''Comments Section'''

Please place any comments here, Thanks.
    
----
***References:***

----
***Screenshots Section***

[http://img855.imageshack.us/img855/7702/strattclwiki.gif]
---- 
****Appendix Code****
****appendix TCL programs and scripts ****
---- 
   





*********************


****FIRST VERSION   *** 

======
     #stratographic years slot calculator example
     # written on Windowws XP on eTCL 
     # working under TCL version 8.5.6 and eTCL 1.0.1 
     # gold on TCL WIKI , 8aug2010
      frame .frame -relief flat -bg aquamarine4
      pack .frame -side top -fill y -anchor center

  set names {{} {width cm:} {period:} {locale(1,2):} {myr/cm:} {year/cm:} {percent error:} {answer years:}}
   foreach i {1 2 3 4 5 6 7} {
    label .frame.label$i -text [lindex $names $i] -anchor e
    entry .frame.entry$i -width 35 -textvariable side$i
    grid .frame.label$i .frame.entry$i -sticky ew -pady 2 -padx 1
     }
  proc about {} {
    set msg "Calculator for stratographic years.
          from TCL WIKI,
          written on eTCL "
    
    tk_messageBox -title "About" -message $msg
        }
     proc pi {} {expr acos(-1)}
   
   proc interlinear { xx1 yy1 xx3 yy3 xx2   } {
     return [expr {  ((($xx2-$xx1)*($yy3-$yy1))/($xx3-$xx1))+ $yy1 } ] ;}

    proc pol { xx1 yy1 xx3 yy3 xx2   } {
     return [expr {  ((($xx2-$xx1)*($yy3-$yy1))/($xx3-$xx1))+ $yy1 } ] ;}
     proc periodic {lister} {
       global side1 side2 side3
       global side4 side5 side6 side7
     set const .5
     set item $side2
    set    cambrian   [expr { 600-400 } ]  
    set    ordovician [expr { 412-372 } ]  
    set    silurian   [expr { 372-338 } ] 
    set    devonian   [expr { 338-300 } ] 
    set    carbon     [expr { 300-254 } ]
    set    permian    [expr { 254-235 } ]
    set    triassic   [expr { 235-205 } ]
    set    jurassic   [expr { 205-161 } ]
    set    cretaceous   [expr { 161-110 } ]
    set    paleoscene   [expr { 110-98 } ]
    set    eocene   [expr { 98-68 } ]
    set    oligocene   [expr { 68-42 } ]
    set    miocene   [expr { 42-21 } ]
    set    pliocene   [expr { 21-6 } ]
    set    pleistocene   [expr { 6-.00001 } ]
    set    modern   [expr { 6-.00001 } ]
    set    one   [expr { 200-150 } ]
    set    two   [expr { 300-250 } ]
    set const [expr { ($carbon/23800.)*(1./30.48) } ]  
    if { $item == "cambrian" } { set const [expr { ($cambrian/33700.)*(1./30.48) } ] }
    if { $item == "ordovician" } { set const [expr { ($ordovician/23100.)*(1./30.48) } ]  }
    if { $item == "silurian" } {set const [expr { ($silurian/6400.)*(1./30.48) } ]   }
    if { $item == "devonian" } { set const [expr { ($devonian/12700.)*(1./30.48) } ]  }
    if { $item == "carboniferous" } { set const [expr { ($carbon/23800.)*(1./30.48) } ]   }
    if { $item == "mississippian" } { set const [expr { ($carbon/23800.)*(1./30.48) } ]   }
    if { $item == "permian" } { set const [expr { ($permian/9000.)*(1./30.48) } ]  }
    if { $item == "triassic" } { set const [expr { ($triassic/15000.)*(1./30.48) } ]   }
    if { $item == "jurassic" } { set const [expr { ($jurassic/22200.)*(1./30.48) } ]  }
    if { $item == "cretaceous" } { set const [expr { ($cretaceous/23800.)*(1./30.48) } ]   }
    if { $item == "paleoscene" } { set const [expr { ($paleocene/9000.)*(1./30.48) } ]  }
    if { $item == "eocene" } { set const [expr { ($eocene/15000.)*(1./30.48) } ]   }
    if { $item == "oligocene" } { set const [expr { ($oligocene/22200.)*(1./30.48) } ]  }
    if { $item == "miocene" } { set const [expr { ($miocene/9000.)*(1./30.48) } ]  }
    if { $item == "pliocene" } { set const [expr { ($pliocene/15000.)*(1./30.48) } ]   }
    if { $item == "modern" } { set const [expr { ($modern/22200.)*(1./30.48) } ]  }
    if { $item == "1" } { set const [expr { ($modern/25000)*(1./30.48) } ]  }
    if { $item == "2" } { set const [expr { ($modern/25000)*(1./30.48) } ]  }
    if { $side3 >= "2" } { 

    if { $item == "cambrian" } { set const [expr { ($cambrian/40000.)*(1./30.48) } ] }
    if { $item == "ordovician" } { set const [expr { ($ordovician/40000.)*(1./30.48) } ]  }
    if { $item == "silurian" } {set const [expr { ($silurian/20000.)*(1./30.48) } ]   }
    if { $item == "devonian" } { set const [expr { ($devonian/37000.)*(1./30.48) } ]  }
    if { $item == "carboniferous" } { set const [expr { ($carbon/40000.)*(1./30.48) } ]   }
    if { $item == "mississippian" } { set const [expr { ($carbon/40000.)*(1./30.48) } ]   }
    if { $item == "permian" } { set const [expr { ($permian/18000.)*(1./30.48) } ]  }
    if { $item == "triassic" } { set const [expr { ($triassic/25000.)*(1./30.48) } ]   }
    if { $item == "jurassic" } { set const [expr { ($jurassic/22000.)*(1./30.48) } ]  }
    if { $item == "cretaceous" } { set const [expr { ($cretacious/64000.)*(1./30.48) } ]   }
    if { $item == "paleoscene" } { set const [expr { ($paleocene/9000.)*(1./30.48) } ]  }
    if { $item == "eocene" } { set const [expr { ($eocene/23000.)*(1./30.48) } ]   }
    if { $item == "oligocene" } { set const [expr { ($oligocene/15000.)*(1./30.48) } ]  }
    if { $item == "miocene" } { set const [expr { ($miocene/21000.)*(1./30.48) } ]  }
    if { $item == "pliocene" } { set const [expr { ($pliocene/18000.)*(1./30.48) } ]   }
    if { $item == "pleistocene" } { set const [expr { ($jurassic/4000.)*(1./30.48) } ]  }
    if { $item == "modern" } { set const [expr { ($jurassic/4000.)*(1./30.48) } ]  }
    if { $item == "1" } { set const [expr { (10000./25000)*(1./30.48) } ]  }
    if { $item == "2" } { set const [expr { (10000./25000)*(1./30.48) } ]  }
     }
    return $const}

      proc errorx  {aa bb} {expr { $aa > $bb ?   (($aa*1.)/$bb -1.)*100. : (($bb*1.)/$aa -1.)*100.}}
   
        proc strat5 { xx1   } {
       global side1 side2 side3
       global side4 side5 side6
        set ss side1
        set tt [ periodic {$side2} ]
  
        set side4  [ expr { $tt*1.} ]
        set side5  [ expr { $tt*1.*1000000.} ]
        set side6  [ expr { $side1*$tt*1.*1000000.} ]
        set side7  [ expr { $side1*$tt*1.*1000000.} ]
        set lower [ expr { ($side1-.02*$side1)*$tt*1.*1000000.} ]
        set upper [ expr { ($side1+.02*$side1)*$tt*1.*1000000.} ]
        set side6 [ errorx $lower $upper ]
     }

    proc calculate {     } {
    global answer2   
    global side1 side2 side3 side4 side5 side6 side7
    set answer2  [ strat5  $side1     ] 
   
   set side6 $answer2  

   
  


      }
      proc fillup {aa bb cc dd ee ff gg} {
    
    .frame.entry1 insert 0 "$aa"
    .frame.entry2 insert 0 "$bb"
    .frame.entry3 insert 0 "$cc"
    .frame.entry4 insert 0 "$dd"
    .frame.entry5 insert 0 "$ee"
    .frame.entry6 insert 0 "$ff "
    .frame.entry7 insert 0 "$gg "
   
     }

 

      proc clearx {} {
    foreach i {1 2 3 4 5 6 7} {
        .frame.entry$i delete 0 end
    }
    }

   proc reportx {} { 
   console show;
   puts "
   The interpolation function takes 
   two know points on a line and
   solves for an intermediate point.
   The points are xx1,yy1   xx2,yy2 and xx3,?yy3?
   The input order of the five items
   is xx1 yy1 xx2 yy2 xx3 
   and solving for ?yy3?.
   The interpolation function loaded as
   proc pol. User should be able to write
   pol 50. 1000. 200. 1200.  150.
   and save answer (1133.3)  on console."
   }


  frame .buttons -bg aquamarine4

    
    ::ttk::button .calculator -text "Solve" -command { calculate   }

    ::ttk::button .test2 -text "Testcase1" -command {clearx;fillup 10. "permian" 1. 7.E-5  69.2 4. 692.2}
    ::ttk::button .test3 -text "Testcase2" -command {clearx;fillup 100. "permian" 1. 7.E-5 69.2 4. 6922.}
    ::ttk::button .test4 -text "Testcase3" -command {clearx;fillup 1000. "permian" 2. 3.4E-5 34. 6. 34631.}
    ::ttk::button .clearallx -text clear -command {clearx  }
    ::ttk::button .about -text about -command about
    ::ttk::button .cons -text report -command { reportx }
    ::ttk::button .exit -text exit -command {exit}
    pack .calculator  -in .buttons -side top -padx 10 -pady 5
     
    pack  .clearallx .cons .about .exit .test4 .test3  .test2   -side bottom -in .buttons
    grid .frame .buttons -sticky ns -pady {0 10} 
     . configure -background aquamarine4 -highlightcolor brown -relief raised -border 30
    bind . <Motion> {wm title . "Stratographic Years Calculator"}
=====









****SECOND VERSION WITH ADDED HACKS *** 

======   
       #!/usr/bin/env wish
 
        # search
        # code from TCL WIKI  Slot_Calculator_Demo
        # 8Aug2010,  gold 
     # written on Windowws XP on eTCL 
     # working under TCL version 8.5.6 and eTCL 1.0.1 
     # gold on TCL WIKI , 8aug2010
     frame .frame -relief flat -bg aquamarine4
     pack .frame -side top -fill y -anchor center

    set names {{} {width cm:} period: {locale:} {speed:} {year rate /cm:} {answer years:} possible:}
   foreach i {1 2 3 4 5 6 } {
    label .frame.label$i -text [lindex $names $i] -anchor e
    entry .frame.entry$i -width 35 -textvariable side$i
    grid .frame.label$i .frame.entry$i -sticky ew -pady 2 -padx 1
     }
  proc about {} {
    set msg "Calculator for stratographic years.
          from TCL WIKI,
          written on eTCL "
    
    tk_messageBox -title "About" -message $msg
        }
     proc pi {} {expr acos(-1)}
   
   proc interlinear { xx1 yy1 xx3 yy3 xx2   } {
     return [expr {  ((($xx2-$xx1)*($yy3-$yy1))/($xx3-$xx1))+ $yy1 } ] ;}

    proc pol { xx1 yy1 xx3 yy3 xx2   } {
     return [expr {  ((($xx2-$xx1)*($yy3-$yy1))/($xx3-$xx1))+ $yy1 } ] ;}
     proc periodic {lister} {
       global side1 side2 side3
       global side4 side5 side6
     set const .5
     set item $side2
    set    cambrian   [expr { 600-400 } ]  
    set    ordovician [expr { 412-372 } ]  
    set    silurian   [expr { 372-338 } ] 
    set    devonian   [expr { 338-300 } ] 
    set    carbon     [expr { 300-254 } ]
    set    permian    [expr { 254-235 } ]
    set    triassic   [expr { 235-205 } ]
    set    jurassic   [expr { 205-161 } ]
    set    cretaceous   [expr { 161-110 } ]
    set    paleoscene   [expr { 110-98 } ]
    set    eocene   [expr { 98-68 } ]
    set    oligocene   [expr { 68-42 } ]
    set    miocene   [expr { 42-21 } ]
    set    pliocene   [expr { 21-6 } ]
    set    pleistocene   [expr { 6-.00001 } ]
    set    modern   [expr { 6-.00001 } ]
    set    one   [expr { 200-150 } ]
    set    two   [expr { 300-250 } ]
    if { $item == "cambrian" } { set const [expr { ($cambrian/33700.)*(1./30.48) } ] }
    if { $item == "ordovician" } { set const [expr { ($ordovician/23100.)*(1./30.48) } ]  }
    if { $item == "silurian" } {set const [expr { ($silurian/6400.)*(1./30.48) } ]   }
    if { $item == "devonian" } { set const [expr { ($devonian/12700.)*(1./30.48) } ]  }
    if { $item == "carboniferous" } { set const [expr { ($carbon/23800.)*(1./30.48) } ]   }
    if { $item == "permian" } { set const [expr { ($permian/9000.)*(1./30.48) } ]  }
    if { $item == "triassic" } { set const [expr { ($triassic/15000.)*(1./30.48) } ]   }
    if { $item == "jurassic" } { set const [expr { ($jurassic/22200.)*(1./30.48) } ]  }
    if { $item == "cretaceous" } { set const [expr { ($cretaceous/23800.)*(1./30.48) } ]   }
    if { $item == "paleoscene" } { set const [expr { ($paleocene/9000.)*(1./30.48) } ]  }
    if { $item == "eocene" } { set const [expr { ($eocene/15000.)*(1./30.48) } ]   }
    if { $item == "oligocene" } { set const [expr { ($oligocene/22200.)*(1./30.48) } ]  }
    if { $item == "miocene" } { set const [expr { ($miocene/9000.)*(1./30.48) } ]  }
    if { $item == "pliocene" } { set const [expr { ($pliocene/15000.)*(1./30.48) } ]   }
    if { $item == "modern" } { set const [expr { ($modern/22200.)*(1./30.48) } ]  }
    if { $item == "1" } { set const [expr { ($modern/25000)*(1./30.48) } ]  }
    if { $item == "2" } { set const [expr { ($modern/25000)*(1./30.48) } ]  }
    if { $side3 >= "2" } { 

    if { $item == "cambrian" } { set const [expr { ($cambrian/40000.)*(1./30.48) } ] }
    if { $item == "ordovician" } { set const [expr { ($ordovician/40000.)*(1./30.48) } ]  }
    if { $item == "silurian" } {set const [expr { ($silurian/20000.)*(1./30.48) } ]   }
    if { $item == "devonian" } { set const [expr { ($devonian/37000.)*(1./30.48) } ]  }
    if { $item == "carboniferous" } { set const [expr { ($carbon/40000.)*(1./30.48) } ]   }
    if { $item == "permian" } { set const [expr { ($permian/18000.)*(1./30.48) } ]  }
    if { $item == "triassic" } { set const [expr { ($triassic/25000.)*(1./30.48) } ]   }
    if { $item == "jurassic" } { set const [expr { ($jurassic/22000.)*(1./30.48) } ]  }
    if { $item == "cretaceous" } { set const [expr { ($cretacious/64000.)*(1./30.48) } ]   }
    if { $item == "paleoscene" } { set const [expr { ($paleocene/9000.)*(1./30.48) } ]  }
    if { $item == "eocene" } { set const [expr { ($eocene/23000.)*(1./30.48) } ]   }
    if { $item == "oligocene" } { set const [expr { ($oligocene/15000.)*(1./30.48) } ]  }
    if { $item == "miocene" } { set const [expr { ($miocene/21000.)*(1./30.48) } ]  }
    if { $item == "pliocene" } { set const [expr { ($pliocene/18000.)*(1./30.48) } ]   }
    if { $item == "pleistocene" } { set const [expr { ($jurassic/4000.)*(1./30.48) } ]  }
    if { $item == "modern" } { set const [expr { ($jurassic/4000.)*(1./30.48) } ]  }
    if { $item == "1" } { set const [expr { (10000./25000)*(1./30.48) } ]  }
    if { $item == "2" } { set const [expr { (10000./25000)*(1./30.48) } ]  }
     }
    return $const}
        proc strat5 { xx1   } {
       global side1 side2 side3
       global side4 side5 side6
        set ss side1
        set tt [ periodic {$side2} ]
  
        set side5  [ expr { $side1*$tt*1.} ]
        set side4  [ expr { $side1*$tt*1.} ]
        set side6  [ expr { $side1*$tt*1.} ]
         

     }

    proc calculate {     } {
    global colorwarning
    global colorback
    global answer2   answer3
    global side1 side2 side3 side4 side5 side6 
       set answer2 5
   
     
   set answer2  [ strat5  $side1     ] 
   
   set side6 $answer2  

   
  


 }
      proc fillup {aa bb cc dd ee ff } {
    
    .frame.entry1 insert 0 "$aa"
    .frame.entry2 insert 0 "$bb"
    .frame.entry3 insert 0 "$cc"
    .frame.entry4 insert 0 "$dd"
    .frame.entry5 insert 0 "$ee"
    .frame.entry6 insert 0 "$ff "
   
}

 

      proc clearx {} {
    foreach i {1 2 3 4 5 6 } {
        .frame.entry$i delete 0 end
    }
    }

   proc reportx {} { 
   console show;
   puts "
   The interpolation function takes 
   two know points on a line and
   solves for an intermediate point.
   The points are xx1,yy1   xx2,yy2 and xx3,?yy3?
   The input order of the five items
   is xx1 yy1 xx2 yy2 xx3 
   and solving for ?yy3?.
   The interpolation function loaded as
   proc pol. User should be able to write
   pol 50. 1000. 200. 1200.  150.
   and save answer (1133.3)  on console."
   }


  frame .buttons -bg aquamarine4

    
    ::ttk::button .calculator -text "Solve" -command { calculate   }

    ::ttk::button .test2 -text "Testcase1" -command { clearx;fillup 2. 1. 1. 12.  50. 116 }
    ::ttk::button .test3 -text "Testcase2" -command { clearx;fillup  10. "jurassic" 1. 12.  15. 1133 }
    ::ttk::button .test4 -text "Testcase3" -command { clearx;fillup 5. "permian" 2. 15.  25. 1250}
    ::ttk::button .clearallx -text clear -command {clearx  }
    ::ttk::button .about -text about -command about
    ::ttk::button .cons -text report -command { reportx }
    ::ttk::button .exit -text exit -command {exit}
    pack .calculator  -in .buttons -side top -padx 10 -pady 5
     
    pack  .clearallx .cons .about .exit .test4 .test3  .test2   -side bottom -in .buttons
    grid .frame .buttons -sticky ns -pady {0 10} 
     . configure -background aquamarine4 -highlightcolor brown -relief raised -border 30
    wm title . "Stratographic Years Calculator"
======
 


  

  
<<categories>> Numerical Analysis | Toys | Calculator | Example | Mathematics}} CALL {my revision {Stratographic Years Slot Calculator Example, Age of Earth}} CALL {::oo::Obj1830610 process revision/Stratographic+Years+Slot+Calculator+Example%2C+Age+of+Earth} CALL {::oo::Obj1830608 process}


-errorcode


NONE


-errorinfo


Unknow state transition: LINE -> END
    while executing
"error $msg"
    (class "::Wiki" method "render_wikit" line 6)
    invoked from within
"my render_$default_markup $N $C $mkup_rendering_engine"
    (class "::Wiki" method "render" line 8)
    invoked from within
"my render $name $C"
    (class "::Wiki" method "revision" line 31)
    invoked from within
"my revision $page"
    (class "::Wiki" method "process" line 56)
    invoked from within
"$server process [string trim $uri /]"


-errorline


4