Sumerian Base 60 conversion and eTCL demo example calculator, numerical analysis edit
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gold Here is some eTCL starter code for Sumerian Base 60 conversion. Loaded RS routines from Based numbers into a slot calculator shell.The textbook convention for 12**5 or decimal 248832 is 01 09 07 12 , as base 60 in two digit bins. The eTCL calculator gives 19712 for the first logic switch. If one switches 3 for the fixed digits and the fixed digits to 00 01 02 03 04 05 06 07 08 09 , the calculator gives 01090712 for a 2 character bin. Other conventions separate the two digit bins with periods or semicolons. Probably, TCL could invoke cuneiform characters as numbers, if those characters were loaded as fixed digits.Loaded proc sreverse from FW, Additional string functions. Procedure number_prep should add expected periods in 2-character bins, modified from RS.
Testcases Section
In planning any software, it is advisable to gather a number of testcases to check the results of the program. The math for the testcases can be checked by pasting statements in the TCL console. Aside from the TCL calculator display, when one presses the report button on the calculator, one will have console show access to the capacity functions (subroutines).
# pretty print from autoindent and ased editor
# Base 60 Conversion
# written on Windows XP on eTCL
# working under TCL version 8.5.6 and eTCL 1.0.1
# gold on TCL WIKI, 15jan2017
package require Tk
package require math::numtheory
namespace path {::tcl::mathop ::tcl::mathfunc math::numtheory }
set tcl_precision 17
frame .frame -relief flat -bg aquamarine4
pack .frame -side top -fill y -anchor center
set names {{} {number $n :} }
lappend names {optional base 60?:}
lappend names {optional logic switch (1,2,3?): }
lappend names {answers : mantissa: }
lappend names {read left to right:}
lappend names {read left to right: }
lappend names {to base, read r/l : }
lappend names {from base, read r/l :}
foreach i {1 2 3 4 5 6 7 8} {
label .frame.label$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 Base 60 Conversion
from TCL WIKI,
written on eTCL "
tk_messageBox -title "About" -message $msg }
proc sreverse str {
set res ""
for {set i [string length $str]} {$i > 0} {} {
append res [string index $str [incr i -1]]
}
set res
}
proc number_prep {n} {
set res {}
foreach { a b } [split $n {} ] {lappend res "$a$b." }
set res [ join $res ]
set res [string map {" " ""} $res]
return $res
}
proc list_base_numbers { aa bb} { for {set i 0} {$i<=$bb} {incr i} {lappend list_n [ int $i] };return $list_n}
proc base {base number} {
global side1 side2 side3 side4 side5
global side6 side7 side8 digits5
set negative [regexp ^-(.+) $number -> number] ;# (1)
set digits $digits5
set res {}
while {$number} {
set digit [expr {$number % $base}]
set res [lindex $digits $digit]$res
set number [expr {$number / $base}]
}
if $negative {set res -$res}
set res
}
proc frombase {base number} {
global side1 side2 side3 side4 side5
global side6 side7 side8 digits5
set digits $digits5
set negative [regexp ^-(.+) $number -> number]
set res 0
foreach digit [split $number ""] {
set decimalvalue [lsearch $digits $digit]
set res [expr {$res*$base + $decimalvalue}]
}
if $negative {set res -$res}
set res
}
proc calculate { } {
global answer2
global side1 side2 side3 side4 side5
global side6 side7 side8
global testcase_number
global digits5 base60notation notation_60bins
global base60_mantissa
incr testcase_number
set side1 [* $side1 1. ]
set side2 [* $side2 1. ]
set side3 [* $side3 1. ]
set side4 [* $side4 1. ]
set side5 [* $side5 1. ]
set side6 [* $side6 1. ]
set side7 [* $side7 1. ]
set side8 [* $side8 1. ]
#set digits { [ list_numbers 0 $base ] }
set digits_fixed_symbols {00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60}
set digits_alfa_numbers {0 1 2 3 4 5 6 7 8 9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z a b c d e f g h i j k l m n o p q r s t u v w x y z}
set base60_mantissa [- $side1 [int $side1 ] ]
set base [int $side2 ]
set digits5 [ list_base_numbers 0 $base ]
if {$side3 > 1. } { set digits5 $digits_alfa_numbers }
if {$side3 > 2. } { set digits5 $digits_fixed_symbols }
set base60notation [number_prep [abs [ frombase $base [ int $side1 ] ] ] ]
set notation_60bins [number_prep [ base $base [int $side1 ] ] ]
set side4 $base60_mantissa
set side5 [sreverse [ base $base [int $side1 ] ]]
set side6 [sreverse [abs [ frombase $base [ int $side1 ] ] ]]
set side7 [ base $base [int $side1 ] ]
set side8 [abs [ frombase $base [ int $side1 ] ] ]
}
proc fillup {aa bb cc dd ee ff gg hh} {
.frame.entry1 insert 0 "$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"
.frame.entry8 insert 0 "$hh"
}
proc clearx {} {
foreach i {1 2 3 4 5 6 7 8 } {
.frame.entry$i delete 0 end } }
proc reportx {} {
global side1 side2 side3 side4 side5
global side6 side7 side8
global testcase_number digits5
global digits5 base60notation notation_60bins
global base60_mantissa
console show;
puts "%|table $testcase_number|printed in| tcl wiki format|% "
puts "&| quantity| value| comment, if any|& "
puts "&| $testcase_number:|testcase_number | |&"
puts "&| $side1 :|number n| |&"
puts "&| $side2 :|optional base 60? | |& "
puts "&| $side3 :|optional logic switch (1,2,3?) | |& "
puts "&| $base60_mantissa :|base60_mantissa | |&"
puts "&| $side5 :|read left to right | |&"
puts "&| $side6 :|read left to right | |&"
puts "&| $notation_60bins :|number_prep notation_bins | |&"
puts "&| $base60notation :|number_prep base60notation| |&"
puts "&| $side7 :|base 60 | |&"
puts "&| $side8 :|base 60 | |&"
puts "&| $digits5 :|list other base symbols | |&"
}
frame .buttons -bg aquamarine4
::ttk::button .calculator -text "Solve" -command { calculate }
::ttk::button .test2 -text "Testcase1" -command {clearx;fillup 101.0 60. 1.0 1.0 1.0 1. 141. 3601.}
::ttk::button .test3 -text "Testcase2" -command {clearx;fillup 30.0 60.0 1.0 1.0 1.0 1. 30. 180. }
::ttk::button .test4 -text "Testcase3" -command {clearx;fillup 248832.111110 60. 3.0 1.0 1.0 1. 130. 540. }
::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 . "Base 60 Conversion Calculator"
Pushbutton Operation
For the push buttons, the recommended procedure is push testcase and fill frame, change first three entries etc, push solve, and then push report. Report allows copy and paste from console.For testcases in a computer session, the eTCL calculator increments a new testcase number internally, eg. TC(1), TC(2) , TC(3) , TC(N). The testcase number is internal to the calculator and will not be printed until the report button is pushed for the current result numbers. The current result numbers will be cleared on the next solve button. The command { calculate; reportx } or { calculate ; reportx; clearx } can be added or changed to report automatically. Another wrinkle would be to print out the current text, delimiters, and numbers in a TCL wiki style table as
puts " %| testcase $testcase_number | value| units |comment |%"
puts " &| volume| $volume| cubic meters |based on length $side1 and width $side2 |&"
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