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rosettacode>Gerard Schildberger

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Line 1: This is the unabridged version of the REXX program to solve the Rosetta Code task of   ''Temperature conversion''. ~~=={{header\|REXX}}==~~ Note that conversion from/to the   '''Dalton'''   temperature scale requires natural logarithms   ('''ln'''),   and the   '''pow'''   function. ~~<lang rexx>♀/REXX program converts temperatures for a large number of temperature scales. /~~ No commenting/explaining was affixed to the higher math functions because it would detract from the logic of the main program. <span style='font-family: "Linux Libertine",Georgia,Times,serif;font-size:150%;'>[[REXX]]</span><hr> <lang rexx>/REXX program converts temperatures for fifty─eight different temperature scales. / /* ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ tt tt tt tt tttttt tttttt tttttt eeee mmm mm ppppp eeee rr rr aaaa tttttt uu uu rr rr eee tt eeeeee mmmmmmmm pppppp eeeeee rrrrrr aaaaa tt uu uu rrrrrr eeeeee tt ee ee mm mm mm pp pp ee ee rrr rr aa tt uu uu rrr rr ee ee tt eeeeee mm mm mm pp pp eeeeee rr aaaaaa tt uu uu rr eeeeee tt eeeeee mm mm mm pppppp eeeeee rr aaaaaaa tt uu uu rr eeeeee tt tt ee mm mm mm ppppp ee rr aa aa tt tt uu uu rr ee ttttt eeeee mm mm mm pp eeeee rr aaaaaaa ttttt uuuuuu rr eeeee ttt eee mm mm mm pp eee rr aaaaaaa ttt uuu uu rr eee pp pp ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡ / call e /let's see the precision we can use. / numeric digits length(e) - 1 /big digits for Planck & ~~Daltons~~Dalton scale./ /subtract one for the decimal point./ parse arg tList /get the specified temperature lists. / tList= space(tList) /elide any and all superfluous blanks./ do until tList='' /process the list of temperatures. / parse var tList x ',' tList /temperatures are separated by commas./ x= translate(x, '(((', "[{«") /support other grouping symbols. / x= space(x) /elide any and all superfluous blanks./ parse ~~var~~ x z ~~'('~~ var x z '(' /handle any comments (if there're any)/ parse upper var z z ' TO ' ! . /separate the TO option from number./ parse upper var z z 'NOT' not . , noS noE /separate NOT option from number. / /for the NOT keyword, see (below)./ / xxx ◄───don't show scales that end in xxx / /* xxx* ◄─── " " " " begin with xxx / if not\=='' then do if left(not, 1) == '' then noE= substr(not, 2) if right(not, 1) == '' then noS= left(not, length(not) - 1) noL= length(noE \|\| noS) if noL==0 then call serr ~~"illegal NOT keyword~~, ~~no leading or trailing specified."~~ "illegal NOT keyword, no leading or trailing * specified." end if !=='' then !=' "ALL'" /nothing specific, so choose "ALL". / all= (!=='ALL') /allows specification of the "TO" opt./ if z=='' then call serr 'no arguments were specified.' _= verify(z, '+-.0123456789') /a list of valid ~~number~~decimal digs & thingys. / n= z /obtain a "backup" copy of Z (number)./ ~~n=z~~ if _\==0 then do if _==1 then call serr 'illegal temperature:' z n= left(z, _-1) /~~pick off~~obtain the number (hopefully). / u= strip( substr(z, _) ) /~~pick off~~obtain the temperature unit. / end else u= 'k' /assume kelvin as per task requirement/ /* ────── / if \datatype(n, 'N') then call serr '"illegal number:'" n if \all then do /there is a TO ααα temp. scale. / call scaleName ! /process the TO temp. abbreviation./ !=sn sn /assign the full temperature name to !/ end /! now contains temp scale full name./ call scaleName u u /allow alternate temp. scale spellings/ call convert2Fahrenheit /convert a temperature ──► Fahrenheit./ say right(' ' x, 79, "─") /show original value & scale (for sep)/ call convert2specific /convert Fahrenheit ──► specific temp,/ end /until tlist/ /this is a biggish DO loop. / exit /stick a fork in it, we're all done. / /──────────────────────────────────────────────────────────────────────────────────────/ $: procedure; showDig= 8 /only show 8 significant decimal digs./ _= commas( format( arg(1), , showDig ) / 1 ) /format# 8 digits past . and add comma/ p= pos(., _) /find position of the decimal point. / / [↓] align integers with FP numbers./ if p==0 then _= _ \|\| left('', 5 + showDig + 1) /no decimal point./ else _= _ \|\| left('', 5 + showDig - length(_) + p) /has " " / return right(_, max(60, length(_) ) ) /return the re─formatted argument (#)./ /────────────────────────────────────────────────────────────────────────────────────────────────────────────────/ convert2Fahrenheit: /convert N ──► ºF temperatures. / /~~convert~~ [↓] Nfifty-eight temperature ~~──► °F temperatures~~scales. / select when sn=='ABSOLUTE' then F= n 9/5 - 459.67 when sn=='AMONTON' then F= n * 8.37209 - 399.163 when sn=='BARNSDORF' then F= n * 6.85714 + 6.85714 when sn=='BEAUMUIR' then F= n * 2.22951 + 32 when sn=='BENART' then F= n * 1.43391 + 31.2831 when sn=='BERGEN' then F=(n + 23.8667) * 15/14 when sn=='BRISSEN' then F= n * 32/15 + 32 when sn=='CELSIUS' then F= n * 9/5 + 32 /a single C is taken as Celsius./ Line 60 ⟶ 119: when sn=='CRUQUIUS' then F= n * 0.409266 - 405.992 when sn=='DALENCE' then F= n * 2.7 + 59 when sn=='DALTON' then F= 273.15 * pow(273.15 / 273.15, n / 100) * 1.8 - 459.67 when sn=='DANIELL' then F= n * 7.27194 + 55.9994 when sn=='DE LA HIRE' then F=(n - 3) / 0.549057 when sn=='DE LA VILLE' then F=(n + 6.48011) / 0.985568 when sn=='DELISLE' then F=212 - n * 6/5 when sn=='DELISLE OLD' then F=212 - n * 1.58590197 when sn=='DE LUC' then F=(n + 14) * 16/7 when sn=='DE LYON' then F=(n + 17.5) * 64/35 when sn=='DE REVILLAS' then F=212 - n * 97/80 when sn=='DERHAM' then F= n / 0.38444386 - 188.578 when sn=='DERHAM OLD' then F= n * 3 + 4.5 when sn=='DE SUEDE' then F=(n + 17.6666) * 150/83 when sn=='DE VILLENEUVE' then F=(n + 23.7037) / 0.740741 when sn=='DU CREST' then F=(n + 37.9202) / 0.650656 when sn=='EDINBURGH' then F= n * 4.6546 - 6.40048 when sn=='ELECTRON VOLTS' then F= n * 20888.1 - 459.67 when sn=='FAHRENHEIT' then F= n when sn=='FAHRENHEIT OLD' then F= n * 20/11 - 89.2727 when sn=='FLORENTINE LARGE' then F=(n + 7.42857) / 0.857143 when sn=='FLORENTINE MAGNUM' then F=(n + 73.9736 ) / 1.50659 when sn=='FLORENTINE SMALL' then F=(n - 1.38571) / 0.378571 when sn=='FOWLER' then F= n * 0.640321 + 53.7709 when sn=='FRICK' then F= n * 200/251 + 58.5339 Line 93 ⟶ 152: when sn=='NEWTON' then F= n * 60/11 + 32 when sn=='OERTEL' then F= n + n - 32 when sn=='PLANCK' then F= n * 1.416833e32 * 9/5 - 459.67 when sn=='RANKINE' then F= n - 459.67 /a single R is taken as Rankine./ when sn=='REAUMUR' then F= n * 9/4 + 32 Line 100 ⟶ 159: when sn=='ROMER' then F=(n - 7.5) * 27/4 + 32 when sn=='ROSENTHAL' then F= n * 45/86 - 453.581 when sn=='ROYAL SOCIETY' then F=(n -122.82) * -50/69 when sn=='SAGREDO' then F= n * 0.3798 - 5.98 when sn=='SAINT-PATRICE' then F= n * 2.62123 + 115.879 Line 110 ⟶ 169: end /select/ return ~~K = (F + 459.67) * 5/9 /compute temperature to kelvin scale. /~~ ~~a =(1e \|\| (-digits()%2)-digits()%20) /minimum number for Dalton temperature/~~ ~~eV=(F + 459.67) / 20888.1 /compute the number of electron volts./~~ ~~say right(' ' x, 79, "─") /show original value and scale, sep. /~~ ~~if ?('AMONTON') then say $( ( F + 399.163 ) / 8.37209 ) 'Amonton'~~ ~~if ?('BARNSDORF') then say $( ( F - 6.85715) / 6.85715 ) 'Barnsdorf'~~ ~~if ?('BEAUMUIR') then say $( ( F - 32 ) / 2.22951 ) 'Beaumuir'~~ ~~if ?('BENART') then say $( ( F - 31.2831 ) / 1.43391 ) 'Benart'~~ ~~if ?('BERGEN') then say $( ( F * 14/15 ) - 23.8667 ) 'Bergen'~~ ~~if ?('BRISSON') then say $( ( F - 32 ) * 15/32 ) 'Brisson'~~ ~~if ?('CELSIUS') then say $( ( F - 32 ) * 5/9 ) 'Celsius'~~ ~~if ?('CIMENTO') then say $( ( F + 4.54135) / 2.70677 ) 'Cimento'~~ ~~if ?('CRUQUIUS') then say $( ( F + 405.992 ) / 0.409266 ) 'Cruquius'~~ ~~if ?('DALENCE') then say $( ( F - 59 ) / 2.7 ) 'Dalence'~~ ~~if ?('DALTON') then if k>a then say $(100ln(k/273.15)/ln(373.15/273.15)) 'Dalton'~~ ~~else say right('-infinity ', 60 ) 'Dalton'~~ ~~if ?('DANIELL') then say $( ( F - 55.9994 ) / 7.27194 ) 'Daniell'~~ ~~if ?('DE LA HIRE') then say $( F 0.549057 + 3 ) 'De la Hire'~~ ~~if ?('DE LA VILLE') then say $( F * 0.985568 - 6.48011 ) 'De la Ville'~~ ~~if ?('DELISLE') then say $( ( 212 - F ) * 5/6 ) 'Delisle'~~ ~~if ?('DELISLE OLD') then say $( ( 212 - F ) / 1.58590197 ) 'Delisle OLD'~~ ~~if ?('DE LUC') then say $( F * 7/16 - 14 ) 'De Luc'~~ ~~if ?('DE LYON') then say $( F * 35/64 - 17.5 ) 'De Lyon'~~ ~~if ?('DE REVILLAS') then say $( ( 212 - F ) * 80/97 ) 'De Revillas'~~ ~~if ?('DERHAM') then say $( F * 0.38444386 + 72.4978 ) 'Derham'~~ ~~if ?('DERHAM OLD') then say $( ( F - 4.5 ) / 3 ) 'Derham OLD'~~ ~~if ?('DE VILLENEUVE') then say $( F * 0.740741 - 23.7037 ) 'De Villeneuve'~~ ~~if ?('DE SUEDE') then say $( F * 83/150 - 17.6666 ) 'De Suede'~~ ~~if ?('DU CREST') then say $( F * 0.650656 - 37.9202 ) 'Du Crest'~~ ~~if ?('EDINBURGH') then say $( ( F + 6.40048) / 4.6546 ) 'Edinburgh'~~ ~~if ?('ELECTRON VOLTS') then say $( eV ) 'electron volt's(eV)~~ ~~if ?('FAHRENHEIT') then say $( F ) 'Fahrenheit'~~ ~~if ?('FAHRENHEIT OLD') then say $( F * 20/11 - 89.2727 ) 'Fahrenheit OLD'~~ ~~if ?('FLORENTINE LARGE') then say $( F * 0.857143 - 7.42857 ) 'Florentine large'~~ ~~if ?('FLORENTINE MAGNUM') then say $( F * 1.50659 - 73.9736 ) 'Florentine Magnum'~~ ~~if ?('FLORENTINE SMALL') then say $( F * 0.378571 + 1.38571 ) 'Florentine small'~~ ~~if ?('FOWLER') then say $( ( F - 53.7709 ) / 0.640321 ) 'Fowler'~~ ~~if ?('FRICK') then say $( ( F - 58.5338 ) * 251/200 ) 'Frick'~~ ~~if ?('GAS MARK') then say $( ( F - 250 ) * 0.04 ) 'gas mark'~~ ~~if ?('GOUBERT') then say $( ( F + 32 ) * 0.5 ) 'Goubert'~~ ~~if ?('HALES') then say $( ( F - 32 ) / 1.2 ) 'Hales'~~ ~~if ?('HANOW') then say $( ( F + 10.6672 ) / 1.06668 ) 'Hanow'~~ ~~if ?('HAUKSBEE') then say $( ( F - 88.16 ) * 25/18 ) 'Hauksbee'~~ ~~if ?('JACOBS-HOLBORN') then say $( ( F + 53.4366 ) * 71/18 ) 'Jacobs-Holborn'~~ ~~if ?('KELVIN') then say $( k ) 'kelvin's(k)~~ ~~if ?('LEIDEN') then say $( F / 1.8 + 235.222 ) 'Leiden'~~ ~~if ?('NEWTON') then say $( ( F - 32 ) * 11/60 ) 'Newton'~~ ~~if ?('OERTEL') then say $( ( F + 32 ) * 0.5 ) 'Oertel'~~ ~~if ?('PLANCK') then say $( ( F + 459.67 ) * 5/9 / 1.416833e32 ) 'Planck'~~ ~~if ?('RANKINE') then say $( F + 459.67 ) 'Rankine'~~ ~~if ?('REAUMUR') then say $( ( F - 32 ) * 4/9 ) 'Reaumur'~~ ~~if ?('RICHTER') then say $( ( F + 7.45205) * 73/160 ) 'Richter'~~ ~~if ?('RINALDINI') then say $( ( F - 32 ) / 15 ) 'Rinaldini'~~ ~~if ?('ROMER') then say $( ( F - 32 ) * 7/24 + 7.5 ) 'Romer'~~ ~~if ?('ROSENTHAL') then say $( ( F + 453.581 ) * 86/45 ) 'Rosenthal'~~ ~~if ?('ROYAL SOCIETY') then say $( F * -69/50 + 122.82 ) 'Royal Society of London'~~ ~~if ?('SAGREDO') then say $( ( F + 5.98 ) / 0.3798 ) 'Segredo'~~ ~~if ?('SAINT-PATRICE') then say $( ( F - 115.879 ) / 2.62123 ) 'Saint-Patrice'~~ ~~if ?('STUFE') then say $( ( F - 257 ) / 45 ) 'Stufe'~~ ~~if ?('SULZER') then say $( ( F - 33.2334 ) / 1.14595 ) 'Sulzer'~~ ~~if ?('THERMOSTAT') then say $( ( F - 32 ) / 54 ) 'Thermostat'~~ ~~if ?('WEDGWOOD') then say $( ( F - 516.2 ) / 44.7429295 ) 'Wedgwood'~~ ~~end /until tlist ···/~~ /─────────────────────────────────────────────────────────────────────────────────────────────────────────────/ ~~exit /stick a fork in it, we're all done. /~~ convert2specific: /convert ºF ──► xxx temperatures./ K = (F + 459.67) * 5/9 /compute temperature in kelvin scale. / a = (1e \|\| (-digits() % 2) - digits() % 20) /minimum number for Dalton temperature/ eV = (F + 459.67) / 20888.1 /compute the number of electron volts./ /──────────────────────────────────$ subroutine────────────────────────────────────────/ ~~$: procedure; showDig=8 /only show 8 significant decimal digs./~~ ~~_=commas(format(arg(1), , showDig)/1) /format# 8 digits past . and add comma/~~ ~~p=pos(.,_) /find position of the decimal point. /~~ ~~/* [↓] align integers with FP numbers./~~ ~~if p==0 then _=_ \|\| left('', 5+showDig+1) /no decimal point. /~~ ~~else _=_ \|\| left('', 5+showDig-length(_)+p) /has " " /~~ ~~return~~if ~~right~~?(~~_,60~~'ABSOLUTE') then say $( k ~~/return~~ ~~the~~ ~~re-formatted~~ ~~argument~~ (#)~~./~~ "Absolute" if ?('AMONTON') then say $( ( F + 399.163 ) / 8.37209 ) "Amonton" if ?('BARNSDORF') then say $( ( F - 6.85715) / 6.85715 ) "Barnsdorf" if ?('BEAUMUIR') then say $( ( F - 32 ) / 2.22951 ) "Beaumuir" if ?('BENART') then say $( ( F - 31.2831 ) / 1.43391 ) "Benart" if ?('BERGEN') then say $( ( F 14/15 ) - 23.8667 ) "Bergen" if ?('BRISSON') then say $( ( F - 32 ) * 15/32 ) "Brisson" if ?('CELSIUS') then say $( ( F - 32 ) * 5/9 ) "Celsius" if ?('CIMENTO') then say $( ( F + 4.54135) / 2.70677 ) "Cimento" if ?('CRUQUIUS') then say $( ( F + 405.992 ) / 0.409266 ) "Cruquius" if ?('DALENCE') then say $( ( F - 59 ) / 2.7 ) "Dalence" if ?('DALTON') then if K>a then say $(100ln(k/273.15)/ln(373.15/273.15) ) "Dalton" else say right("-infinity ", 60) "Dalton" if ?('DANIELL') then say $( ( F - 55.9994 ) / 7.27194 ) "Daniell" /──────────────────────────────────SCALENAME subroutine────────────────────────────────/ if ?('DE LA HIRE') then say $( F 0.549057 + 3 ) "De la Hire" if ?('DE LA VILLE') then say $( F * 0.985568 - 6.48011 ) "De la Ville" if ?('DELISLE') then say $( ( 212 - F ) * 5/6 ) "Delisle" if ?('DELISLE OLD') then say $( ( 212 - F ) / 1.58590197 ) "Delisle OLD" if ?('DE LUC') then say $( F * 7/16 - 14 ) "De Luc" if ?('DE LYON') then say $( F * 35/64 - 17.5 ) "De Lyon" if ?('DE REVILLAS') then say $( ( 212 - F ) * 80/97 ) "De Revillas" if ?('DERHAM') then say $( F * 0.38444386 + 72.4978 ) "Derham" if ?('DERHAM OLD') then say $( ( F - 4.5 ) / 3 ) "Derham OLD" if ?('DE VILLENEUVE') then say $( F * 0.740741 - 23.7037 ) "De Villeneuve" if ?('DE SUEDE') then say $( F * 83/150 - 17.6666 ) "De Suede" if ?('DU CREST') then say $( F * 0.650656 - 37.9202 ) "Du Crest" if ?('EDINBURGH') then say $( ( F + 6.40048) / 4.6546 ) "Edinburgh" if ?('ELECTRON VOLTS') then say $( eV ) "electron volt"s(eV) if ?('FAHRENHEIT') then say $( F ) "Fahrenheit" if ?('FAHRENHEIT OLD') then say $( F * 20/11 - 89.2727 ) "Fahrenheit OLD" if ?('FLORENTINE LARGE') then say $( F * 0.857143 - 7.42857 ) "Florentine large" if ?('FLORENTINE MAGNUM') then say $( F * 1.50659 - 73.9736 ) "Florentine Magnum" if ?('FLORENTINE SMALL') then say $( F * 0.378571 + 1.38571 ) "Florentine small" if ?('FOWLER') then say $( ( F - 53.7709 ) / 0.640321 ) "Fowler" if ?('FRICK') then say $( ( F - 58.5338 ) * 251/200 ) "Frick" if ?('GAS MARK') then say $( ( F - 250 ) * 0.04 ) "gas mark" if ?('GOUBERT') then say $( ( F + 32 ) * 0.5 ) "Goubert" if ?('HALES') then say $( ( F - 32 ) / 1.2 ) "Hales" if ?('HANOW') then say $( ( F + 10.6672 ) / 1.06668 ) "Hanow" if ?('HAUKSBEE') then say $( ( F - 88.16 ) * 25/18 ) "Hauksbee" if ?('JACOBS-HOLBORN') then say $( ( F + 53.4366 ) * 71/18 ) "Jacobs-Holborn" if ?('KELVIN') then say $( k ) "kelvin"s(k) if ?('LEIDEN') then say $( F / 1.8 + 235.222 ) "Leiden" if ?('NEWTON') then say $( ( F - 32 ) * 11/60 ) "Newton" if ?('OERTEL') then say $( ( F + 32 ) * 0.5 ) "Oertel" if ?('PLANCK') then say $( ( F + 459.67 ) * 5/9 / 1.416833e32 ) "Planck" if ?('RANKINE') then say $( F + 459.67 ) "Rankine" if ?('REAUMUR') then say $( ( F - 32 ) * 4/9 ) "Reaumur" if ?('RICHTER') then say $( ( F + 7.45205) * 73/160 ) "Richter" if ?('RINALDINI') then say $( ( F - 32 ) / 15 ) "Rinaldini" if ?('ROMER') then say $( ( F - 32 ) * 4/27 + 7.5 ) "Romer" if ?('ROSENTHAL') then say $( ( F + 453.581 ) * 86/45 ) "Rosenthal" if ?('ROYAL SOCIETY') then say $( F * -69/50 + 122.82 ) "Royal Society of London" if ?('SAGREDO') then say $( ( F + 5.98 ) / 0.3798 ) "Segredo" if ?('SAINT-PATRICE') then say $( ( F - 115.879 ) / 2.62123 ) "Saint-Patrice" if ?('STUFE') then say $( ( F - 257 ) / 45 ) "Stufe" if ?('SULZER') then say $( ( F - 33.2334 ) / 1.14595 ) "Sulzer" if ?('THERMOSTAT') then say $( ( F - 32 ) / 54 ) "Thermostat" if ?('WEDGWOOD') then say $( ( F - 516.2 ) / 44.7429295 ) "Wedgwood" return /──────────────────────────────────────────────────────────────────────────────────────────────────/ scaleName: parse arg y /abbreviations ──► temp. short name./ yU= translate(y, '-eE', "_éÉ") /translate some accented characters. / upper yU /uppercase version of temperature unit/ if left(yU, 7)=='DEGREES' then yU=substr(yU, 8) /is this a redundant "degrees" ? / if left(yU, 6)=='DEGREE' then yU=substr(yU, 7) /* " " " " "degree" ? / yU= strip(yU) /elide all leading & trailing blanks. / _= length(yU) /obtain the length of the yU value. / if right(yU,1)=='S' & _>1 then yU=left(yU, _-1) /remove any trailing plural(s). / ~~yU=strip(yU) /elide all leading & trailing blanks. /~~ ~~_=length(yU) /obtain the length of the yU value. /~~ ~~if right(yU,1)=='S' & _>1 then yU=left(yU,_-1) /remove any trailing plural(s). /~~ select /change abbreviations ──► shortname. / when abbrev('~~AMONTON~~ABSOLUTE' , yU, yU1) then sn=~~'AMONTON'~~ "ABSOLUTE" when abbrev('AMONTON' , yU) then sn= "AMONTON" when abbrev('BARNDORF' , yU,2) \|, abbrev('BARNSDORF' , yU,2) then sn=' "BARNSDORF'" when abbrev('BEAUMIUR' , yU,3) \|, abbrev('BEAUMUIR' , yU,3) then sn=' "BEAUMUIR'" when abbrev('BENERT' , yU,3) \|, abbrev('BENART' , yU,3) then sn=' "BENART'" when abbrev('BRISSEN' , yU,3) \|, abbrev('BRISSON' , yU,3) then sn=' "BRISSEN'" when abbrev('BURGEN' , yU,3) \|, abbrev('BURGAN' , yU,3) \|, abbrev('BERGAN' , yU,3) \|, abbrev('BERGEN' , yU,3) then sn=' "BERGEN'" when abbrev('CENTIGRADE' , yU) \|, abbrev('CENTRIGRADE' , yU) \|, / 50% misspelled./ Line 229 ⟶ 287: abbrev('CELISU' , yU) \|, / 1% misspelled./ abbrev('CELSU' , yU) \|, / 1% misspelled./ abbrev('~~CELSIU~~HECTOGRADE' , yU) \|, ~~then sn='CELSIUS'~~ abbrev('CELSIU' , yU) then sn= "CELSIUS" when abbrev('CIMANTO' , yU,2) \|, abbrev('CIMENTO' , yU,2) then sn=' "CIMENTO'" when abbrev('CRUQUIOU' , yU,2) \|, abbrev('CRUQUIO' , yU,2) \|, abbrev('CRUQUIU' , yU,2) then sn=' "CRUQUIU'" when abbrev('DALANCE' , yU,4) \|, abbrev('DALENCE' , yU,4) then sn=' "DALENCE'" when abbrev('DANELLE' , yU,3) \|, abbrev('DANEAL' , yU,3) \|, Line 244 ⟶ 303: abbrev('DANYAL' , yU,3) \|, abbrev('DANYEL' , yU,3) \|, abbrev('DANIELL' , yU,3) then sn=' "DANIELL'" when abbrev('DALTON' , yU,3) then sn=' "DALTON'" when abbrev('DELAHIRE' , yU,7) \|, abbrev('LAHIRE' , yU,4) \|, abbrev('HIRE' , yU,2) \|, abbrev('DE-LA-HIRE' , yU,7) then sn=' "DE LA HIRE'" when abbrev('DELAVILLE' , yU,7) \|, abbrev('LAVILLE' , yU,3) \|, abbrev('VILLE' , yU,1) \|, abbrev('VILLA' , yU,1) \|, abbrev('DE-LA-VILLE' , yU,7) then sn=' "DE LA VILLE'" when abbrev('DELISLE' , yU,3) then sn=' "DELISLE'" when abbrev('DELISLE-OLD' , yU,8) \|, abbrev('OLDDELISLE' , yU,6) \|, abbrev('DELISLEOLD' , yU,8) then sn=' "DELISLE OLD'" when abbrev('DELUC' , yU,4) \|, abbrev('LUC' , yU,2) \|, abbrev('DE-LUC' , yU,5) then sn=' "DE LUC'" when abbrev('DELYON' , yU,4) \|, abbrev('LYON' , yU,2) \|, abbrev('DE-LYON' , yU,5) then sn=' "DE LYON'" when abbrev('DEREVILLA' , yU,3) \|, abbrev('DEREVILA' , yU,3) \|, abbrev('REVILLA' , yU,3) \|, abbrev('DE-REVILLA' , yU,4) \|, abbrev('DE-REVILLA' , yU,5) then sn=' "DE REVILLAS'" when abbrev('DEVILLENEUVE' , yU,3) \|, abbrev('DE-VILLENEUVE' , yU,4) then sn=' "DE VILLENEUVE'" when abbrev('DURHAM' , yU,3) \|, abbrev('DERHAM' , yU,4) then sn=' "DERHAM'" when abbrev('OLDDURHAM' , yU,5) \|, abbrev('OLDDERHAM' , yU,6) \|, abbrev('DERHAM-OLD' , yU,4) \|, abbrev('DERHAMOLD' , yU,4) then sn=' "DERHAM OLD'" when abbrev('DE-SUEDE' , yU,4) \|, abbrev('DESUEDE' , yU,4) then sn=' "DE SUEDE'" when abbrev('DU-CREST' , yU,2) \|, abbrev('DUCREST' , yU,2) then sn=' "DU CREST'" when abbrev('EDENBURGH' , yU,2) \|, abbrev('EDINBURGH' , yU,2) then sn=' "EDINBURGH'" when abbrev('EVOLT' , yU,2) \|, abbrev('ELECTRONVOLT' , yU,2) then sn=' "ELECTRON VOLTS'" when abbrev('FARENHEIT' , yU) \|, / 39% misspelled./ abbrev('FARENHEIGHT' , yU) \|, / 15% misspelled./ Line 301 ⟶ 360: abbrev('FARINHEIT' , yU) \|, / 1% misspelled./ abbrev('FARANHITE' , yU) \|, / 1% misspelled./ abbrev('FAHRENHEIT' , yU) then sn=' "FAHRENHEIT'" when abbrev('OLDFAHRENHEIT' , yU,4) \|, abbrev('FAHRENHEIT-OLD' , yU,13) \|, abbrev('FAHRENHEITOLD' , yU,13) then sn=' "FARHENHEIT OLD'" when abbrev('FLORENTINE-LARGE' , yU,12) \|, abbrev('LARGE-FLORENTINE' , yU,7) \|, abbrev('LARGEFLORENTINE' , yU,6) \|, abbrev('FLORENTINELARGE' , yU,12) then sn=' "FLORENTINE LARGE'" when abbrev('FLORENTINE-MAGNUM' , yU,2) \|, abbrev('MAGNUM-FLORENTINE' , yU,3) \|, abbrev('MAGNUMFLORENTINE' , yU,3) \|, abbrev('FLORENTINEMAGNUM' , yU,2) then sn=' "FLORENTINE MAGNUM'" when abbrev('FLORENTINE-SMALL' , yU,13) \|, abbrev('SMALL-FLORENTINE' , yU,7) \|, abbrev('SMALLFLORENTINE' , yU,6) \|, abbrev('FLORENTINESMALL' , yU,13) then sn=' "FLORENTINE SMALL'" when abbrev('FOULER' , yU,2) \|, abbrev('FOWLOR' , yU,2) \|, abbrev('FOWLER' , yU,2) then sn=' "FOWLER'" when abbrev('FRICK' , yU,2) then sn=' "FRICK'" when abbrev('GAS-MARK' , yU,2) \|, abbrev('GASMARK' , yU,2) then sn=' "GAS MARK'" when abbrev('GOUBERT' , yU,2) then sn=' "GOUBERT'" when abbrev('HAIL' , yU,3) \|, abbrev('HALE' , yU,3) then sn=' "HALES'" when abbrev('HANOW' , yU,3) then sn=' "HANOW'" when abbrev('HUCKSBEE' , yU,3) \|, abbrev('HAWKSBEE' , yU,3) \|, abbrev('HAUKSBEE' , yU,3) then sn=' "HAUKSBEE'" when abbrev('JACOBSHOLBORN' , yU,2) \|, abbrev('JACOBS-HOLBORN' , yU,2) then sn=' "JACOBS-HOLBORN'" when abbrev('KALVIN' , yU) \|, / 27% misspelled./ abbrev('KERLIN' , yU) \|, / 18% misspelled./ abbrev('KEVEN' , yU) \|, / 9% misspelled./ abbrev('KELVIN' , yU) then sn=' "KELVIN'" when abbrev('LAYDEN' , yU) \|, abbrev('LEIDEN' , yU) then sn=' "LEIDEN'" when abbrev('NEUTON' , yU) \|, /100% misspelled./ abbrev('NEWTON' , yU) then sn=' "NEWTON'" when abbrev('ORTEL' , yU) \|, abbrev('OERTEL' , yU) then sn=' "OERTEL'" when abbrev('PLACK' , yU) \|, /100% misspelled./ abbrev('PLANC' , yU) \|, / misspelled./ abbrev('PLANK' , yU) \|, / misspelled./ abbrev('PLANCK' , yU) then sn=' "PLANCK'" when abbrev('RANKINE' , yU, 1) then sn=' "RANKINE'" when abbrev('REAUMUR' , yU, 2) then sn=' "REAUMUR'" when abbrev('RICKTER' , yU, 3) \|, abbrev('RICHTER' , yU, 3) then sn=' "RICHTER'" when abbrev('RINALDINI' , yU, 3) then sn=' "RINALDINI'" when abbrev('ROEMER' , yU, 3) \|, abbrev('ROMER' , yU, 3) then sn=' "ROMER'" when abbrev('ROSANTHAL' , yU, 3) \|, abbrev('ROSENTHAL' , yU, 3) then sn=' "ROSENTHAL'" when abbrev('RSOL' , yU, 2) \|, abbrev('RSL' , yU, 2) \|, abbrev('ROYALSOCIETYOFLONDON' , yU, 3) \|, abbrev('ROYAL-SOCIETY-OF-LONDON' , yU, 3) then sn=' "ROYAL SOCIETY'" when abbrev('SAGREDO' , yU, 3) then sn=' "SAGREDO'" when abbrev('ST.-PATRICE' , yU, 3) \|, abbrev('ST.PATRICE' , yU, 3) \|, abbrev('SAINTPATRICE' , yU, 3) \|, abbrev('SAINT-PATRICE' , yU, 3) then sn=' "SAINT-PATRICE'" when abbrev('STUFFE' , yU, 3) \|, abbrev('STUFE' , yU, 3) then sn=' "STUFE'" when abbrev('SULTZER' , yU, 2) \|, abbrev('SULZER' , yU, 2) then sn=' "SULZER'" when abbrev('WEDGEWOOD' , yU) \|, abbrev('WEDGWOOD' , yU) then sn=' "WEDGWOOD'" otherwise call serr 'illegal temperature scale:' y end /select/ return /──────────────────────────────────────────────────────────────────────────────────────/ /──────────────────────────────────one─liner subroutines───────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────/ ?: parse arg y 1 yu ~~?: parse arg y; if not\=='' then do; if noS\=='' then if left(y,noL)==noS then return 0; if noE\=='' then if right(y,noL)==noE then return 0; end; if all \| y==! then return 1; return 0~~ upper yu ~~commas:procedure; parse arg _; n=_'.9'; #=123456789; b=verify(n,#,"M"); e=verify(n,#'0',,verify(n,#"0.",'M'))-4; do j=e to b by -3; _=insert(',',_,j); end /j/; return _~~ if not\=='' then do ~~e: e = 2.718281828459045235360287471352662497757247093699959574966967627724076630353547594571382178525166427427466391932; return e~~ if noS\=="" then if left(yu, noL)==noS then return 0 ~~isInt: return datatype(arg(1), 'W') /is the argument a whole number (integer)?/~~ ~~exp:~~ ~~procedure;~~ ~~parse~~ ~~arg~~ x; ~~ix=x%1;~~ if ~~abs(x-ix)>.5~~ ~~then~~ ~~ix=ix+sign(x);~~ ~~x=x-ix;~~ ~~z=1;~~ ~~_=1;~~ ~~w=z;~~ do ~~j=1;~~ ~~_=_x/j;~~ ~~z=(z+_)/1;~~ if znoE\==w'' then ~~leave;w=z;end;~~if z\right(yu, noL)==0noE then ~~z=ze()ix;~~return ~~z/1~~0 end ~~ln: procedure; parse arg x; call e; ig=x>1.5; is=1-2(ig\==1); ii=0; xx=x; return ln..()~~ ln..: do while ig & xx>1.5 \| \ig & xx<.5;_=e;do k=-1;iz=xx_-is;if k>=0 & (ig & iz<1 \| \ig & iz>.5) then leave;_=__;izz=iz;end;xx=izz; ii=ii+is2k; end; x=xe*-ii-1; z=0;_=-1;p=z;do k=1; _=-_x; z=z+_/k; if z=p then leave;p=z; end; return z+ii if all \| y==! then return 1 ~~pow: procedure; parse arg x,y; if y=0 then return 1; if x=0 then return 0; if isInt(y) then return xy; if isInt(1/y) then return root(x,1/y,f); return pow.()~~ return 0 ~~pow.: if abs(y//1)=.5 then return sqrt(x)sign(y)x(y%1); return exp(yln(x))~~ ~~root: procedure; parse arg x,y; if x=0 \| y=1 then return x; if isInt(y) then return rooti(x,y); _=sqrt(x); if y<0 then _=1/_; return _~~ rooti: procedure; parse arg x,y; if x=0 \| y=1 then return x; n=y<0; y=abs(y); numeric digits digits()+2; z=abs(x); g=(z+1)/y; m=y-1; numeric fuzz 2; do forever; _=(mgy+z)/y/gm; if _=g then leave; g=_; end; _=gsign(x); if n then _=1/_; return _ /──────────────────────────────────────────────────────────────────────────────────────/ ~~s: if arg(1)==1 then return arg(3); return word(arg(2) 's',1) /pluralizer./~~ commas: procedure; parse arg _ /insert commas in a number. / ~~serr: say; say '*error!'; say; say arg(1); say; exit 13~~ n= _'.9' /added suffix for VERIFY BIF./ #= 123456789 /a nifty handy-dandy literal./ b= verify(n, #, "M") /find beginning of a number. / e= verify(n, #'0', , verify(n, #"0.", 'M') ) - 4 / " end " " " / do j=e to b by -3 /insert commas right─to─left./ _= insert(",", _, j) /insert a comma every period./ end /j/ return _ /──────────────────────────────────────────────────────────────────────────────────────/ sqrt: procedure; parse arg x /obtain the target of SQRT. / if x=0 then return 0 /Argument is zero? Return 0./ /This function work for zero./ d= digits() /get # of dec. digs, current./ m.= 9 /set " " " " at start./ h= d+6 /add 6 for rounding concerns./ numeric form /right form of exponentiation/ numeric digits /start with nine numeric digs/ /a way of getting the expon. / /No exponent? Then add one. / parse value format(x, 2, 1, , 0) 'E0' with g "E" _ . / [↓] halve the exponent. / g=g .5'e'_ % 2 /a first best guess for sqrt,/ /which is 1/2 of the exponent/ /* [↓] use min number of dec./ / digs for early SQRTs. / do j=0 while h>9 m.j= h /calculate # of digits to use/ h= h % 2 + 1 /halving the exponent means / end /j/ / that it'll be doubled as / / the M. array will be / / processed backwards. [↓] / do k=j+5 to 0 by -1 /calculate higher precision. / numeric digits m.k /bump the decimal digits. / g= (g + x / g) .5 /calculate SQRT approximation/ end /k/ return g / 1 /this normalizes the sqrt #. / /──────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────/ ~~sqrt: procedure; parse arg x; if x=0 then return 0; d=digits(); m.=9; numeric form; h=d+6;~~ ?: parse arg y; if not\=='' then do; if noS\=="" then if left(y, noL)==noS then return 0; if noE\=='' then if right(y, noL)==noE then return 0; end; if all \| y==! then return 1; return 0 ~~numeric digits; parse value format(x,2,1,,0) 'E0' with g 'E' _ .; g=g .5'e'_ % 2~~ e: e = 2.718281828459045235360287471352662497757247093699959574966967627724076630353547594571382178525166427427466391932; return e /112 useful decimal digits. / ~~do j=0 while h>9; m.j=h; h=h%2+1; end /j/~~ isInt: return datatype(arg(1), 'W') /is the argument a whole number (integer)? / ~~do k=j+5 to 0 by -1; numeric digits m.k; g=(g+x/g).5; end /k/~~ exp: procedure; parse arg x; ix=x%1; if abs(x-ix)>.5 then ix=ix+sign(x); x=x-ix; z=1; _=1; w=z; do j=1; _=_x/j; z=(z+_)/1; if z==w then leave; w=z; end; if z\==0 then z= z e()*ix; return z/1 ~~return g/1</lang>~~ ln: procedure; parse arg x; call e; ig=x>1.5; is=1-2(ig\==1); ii=0; xx=x; return ln..() ln..: do while ig & xx>1.5 \| \ig & xx<.5;_=e;do k=-1;iz=xx_-is;if k>=0 & (ig & iz<1 \| \ig & iz>.5) then leave;_=__;izz=iz;end;xx=izz; ii=ii+is2k; end; x=xe*-ii-1; z=0;_=-1;p=z;do k=1; _=-_x;z=z+_/k; if z=p then leave;p=z; end; return z+ii pow: procedure; parse arg x,y; if y=0 then return 1; if x=0 then return 0; if isInt(y) then return xy; if isInt(1/y) then return root(x,1/y,f); return pow.() pow.: if abs(y//1)=.5 then return sqrt(x)sign(y)x(y%1); return exp(yln(x)) root: procedure; parse arg x 1 ox,y 1 oy; if x=0 \| y=1 then return x; if isInt(y) then return rooti(x,y); _=sqrt(x); if y<0 then _=1/_; return _ rooti: x=abs(x); y=abs(y); a= digits() + 5; g=rootIg(); m= y-1; d=5; do until d==a; d=min(d+d, a); numeric digits d; o=0; do until o=g; o=g; g=format( (mgy+x) /y/gm, , d-2); end; end; _= g sign(ox); if oy<0 then _= 1/_; return _ rootIg: numeric form;parse value format(x,2,1,,0) 'E0' with ? 'E' _ .; return (? / y'E'_ % y) + (x>1) s: if arg(1)==1 then return arg(3); return word(arg(2) 's',1) /pluralizer./ serr: say; say '*error*'; say; say arg(1); say; exit 13 </lang>