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  1. 'use strict';

  2. 

  3. function round(number,precision=3) {

  4.   return Math.round(number*Math.pow(10,precision)) / Math.pow(10,precision);

  5. }

  6. 

  7. function number(value, type="full", precision=3) {

  8.   var val = parseFloat(value);

  9.   switch(type) {

  10.     case "full": return val.toString();

  11.     case "scientific": return val.toExponential(precision).toString();

  12.     case "words": return number_words_repeated(val);

  13.     case "prefix": return number_prefix(val);

  14.   }

  15. }

  16. 

  17. function number_words(value) {

  18.   var scale = Math.floor(Math.log(value) / Math.log(1000));

  19.   if (scale < 0) {

  20.     return value.toString();

  21.   }

  22.   switch(scale) {

  23.     case 0: return value.toString();

  24.     case 1: return Math.round(value / 1e3).toString() + " thousand";

  25.     case 2: return Math.round(value / 1e6).toString() + " million";

  26.     case 3: return Math.round(value / 1e9).toString() + " billion";

  27.     case 4: return Math.round(value / 1e12).toString() + " trillion";

  28.     case 5: return Math.round(value / 1e15).toString() + " quadrillion";

  29.     case 6: return Math.round(value / 1e18).toString() + " quintillion";

  30.     case 7: return Math.round(value / 1e21).toString() + " sextillion";

  31.     case 8: return Math.round(value / 1e24).toString() + " septillion";

  32.     case 9: return Math.round(value / 1e27).toString() + " octillion";

  33.     case 10: return Math.round(value / 1e30).toString() + " nonillion";

  34.     case 11: return Math.round(value / 1e33).toString() + " decillion";

  35.     case 12: return Math.round(value / 1e36).toString() + " undecillion";

  36.     case 13: return Math.round(value / 1e39).toString() + " duodecillion";

  37.     case 14: return Math.round(value / 1e42).toString() + " tredecillion";

  38.     case 15: return Math.round(value / 1e45).toString() + " quattuordecillion";

  39.     case 16: return Math.round(value / 1e48).toString() + " quindecillion";

  40.     case 17: return Math.round(value / 1e51).toString() + " sexdecillion";

  41.     case 18: return Math.round(value / 1e54).toString() + " septendecillion";

  42.     case 19: return Math.round(value / 1e57).toString() + " octodecillion";

  43.     case 20: return Math.round(value / 1e60).toString() + " novemdecillion";

  44.     default: return Math.round(value / 1e63).toString() + " vigintillion";

  45.   }

  46. }

  47. 

  48. function number_words_repeated(value) {

  49.   if (value == Infinity)

  50.     return "a lot of";

  51.   var scale = Math.floor(Math.log(value) / Math.log(1000));

  52.   if (scale < 0)

  53.     return value.toString();

  54.   switch(scale) {

  55.     case 0: return value.toString();

  56.     case 1: return Math.round(value / 1e3).toString() + " thousand";

  57.     case 2: return Math.round(value / 1e6).toString() + " million";

  58.     case 3: return Math.round(value / 1e9).toString() + " billion";

  59.     case 4: return Math.round(value / 1e12).toString() + " trillion";

  60.     case 5: return Math.round(value / 1e15).toString() + " quadrillion";

  61.     case 6: return Math.round(value / 1e18).toString() + " quintillion";

  62.     default: return number_words_repeated(value / 1e18) + " quintillion";

  63.   }

  64. }

  65. 

  66. function number_prefix(value) {

  67.   var scale = Math.floor(Math.log(value) / Math.log(1000));

  68.   if (scale < 0)

  69.     return value.toString();

  70.   switch(scale) {

  71.     case 0: return value.toString();

  72.     case 1: return Math.round(value / 1e3).toString() + "K";

  73.     case 2: return Math.round(value / 1e6).toString() + "M";

  74.     case 3: return Math.round(value / 1e9).toString() + "G";

  75.     case 4: return Math.round(value / 1e12).toString() + "T";

  76.     case 5: return Math.round(value / 1e15).toString() + "P";

  77.     case 6: return Math.round(value / 1e18).toString() + "E";

  78.     case 7: return Math.round(value / 1e21).toString() + "Z";

  79.     default: return Math.round(value / 1e24).toString() + "Y";

  80.   }

  81. }

  82. 

  83. function mass(kg, type="metric", singular=false) {

  84.   switch(type) {

  85.     case "metric": return metricMass(kg, singular);

  86.     case "customary": return customaryMass(kg, singular);

  87.     case "approx": return approxMass(kg, singular);

  88.   }

  89. }

  90. 

  91. function length(m, type="metric", singular=false) {

  92.   switch(type) {

  93.     case "metric": return metricLength(m, singular);

  94.     case "customary": return customaryLength(m, singular);

  95.     case "approx": return approxLength(m, singular);

  96.   }

  97. }

  98. 

  99. function volume(m3, type="metric", singular=false) {

  100.   switch(type) {

  101.     case "metric": return metricVolume(m3, singular);

  102.     case "customary": return customaryVolume(m3, singular);

  103.     case "approx": return approxVolume(m3, singular);

  104.   }

  105. }

  106. 

  107. function metricMass(kg, singular=false) {

  108.   if (kg < 1/1000) {

  109.     let mass = round(kg * 1e6,0);

  110.     return mass + (singular || mass == 1 ? " milligram" : " milligrams");

  111.   } else if (kg < 1) {

  112.     let mass = round(kg * 1000,0);

  113.     return mass + (singular || mass == 1 ? " gram" : " grams");

  114.   } else if (kg < 5000) {

  115.     let mass = round(kg,0);

  116.     return mass + (singular || mass == 1 ? " kilogram" : " kilograms");

  117.   } else if (kg < 5000000) {

  118.     let mass = round(kg / 1000,1);

  119.     return mass + (singular || mass == 1 ? " metric ton" : " metric tons");

  120.   } else if (kg < 5000000000) {

  121.     let mass = round(kg / 1000000,1);

  122.     return mass + (singular || mass == 1 ? " kiloton" : " kilotons");

  123.   } else if (kg < 5000000000000) {

  124.     let mass = round(kg / 1000000000,1);

  125.     return mass + (singular || mass == 1 ? " megaton" : " megatons");

  126.   } else {

  127.     let mass = round(kg / 1000000000000,1);

  128.     return mass + (singular || mass == 1 ? " gigaton" : " gigatons");

  129.   }

  130. }

  131. 

  132. function customaryMass(kg, singular=false) {

  133.   let lbs = kg * 2.2;

  134. 

  135.   if (lbs < 1) {

  136.     let mass = round(lbs * 16,0);

  137.     return mass + (singular || mass == 1 ? " ounce" : " ounces");

  138.   } else if (lbs < 2000) {

  139.     let mass = round(lbs,0);

  140.     return mass + (singular || mass == 1 ? " pound" : " pounds");

  141.   } else {

  142.     let mass = round(lbs / 2000,1);

  143.     return mass + (singular || mass == 1 ? "ton" : " tons");

  144.   }

  145. }

  146. 

  147. function approxMass(kg, singular=false) {

  148.   if (kg < 10000) {

  149.     let mass = round(kg/1000,2);

  150.     return (singular || mass == 1 ? "a car" : mass + " cars");

  151.   } else if (kg < 100000) {

  152.     let mass = round(kg/6000,2);

  153.     return (singular || mass == 1 ? "an elephant" : mass + " elephants");

  154.   } else if (kg < 1000000000) {

  155.     let mass = round(kg/54431.1,2);

  156.     return (singular || mass == 1 ? "a tank" : mass + " tanks");

  157.   } else if (kg < 1e21) {

  158.     let mass = round(kg/1.01605e8,2);

  159.     return (singular || mass == 1 ? "an aircraft carrier" : mass + " aircraft carriers");

  160.   } else {

  161.     let mass = round(kg/5.972e24,4);

  162.     return (singular || mass == 1 ? "the Earth" : mass + " Earths");

  163.   }

  164. }

  165. 

  166. function metricLength(m, singular=false) {

  167.   if (m < 1/100) {

  168.     let length = round(m * 1000,2);

  169.     return length + (singular || length == 1 ? " millimeter" : " millimeters");

  170.   } else if (m < 1) {

  171.     let length = round(m * 100,0);

  172.     return length + (singular || length == 1 ? " centimeter" : " centimeters");

  173.   } else if (m < 500) {

  174.     let length = round(m,2);

  175.     return length + (singular || length == 1 ? " meter" : " meters");

  176.   } else {

  177.     let length = round(m / 1000,1);

  178.     return length + (singular || length == 1 ? " kilometer" : " kilometers");

  179.   }

  180. }

  181. 

  182. function customaryLength(m, singular=false) {

  183.   let ft = m * 3.28084;

  184. 

  185.   if (ft < 1) {

  186.     let length = round(ft * 12,0);

  187.     return length + (singular || length == 1 ? " inch" : " inches");

  188.   } else if (ft < 5280) {

  189.     let end = customaryLength((ft - Math.floor(ft))/3.28084, singular);

  190.     let length = Math.floor(ft);

  191.     return length + (singular || length == 1 ? " foot" : " feet") + " " + end;

  192.   } else {

  193.     let length = round(ft/5280,1);

  194.     return length + (singular || length == 1 ? " mile" : " miles");

  195.   }

  196. }

  197. 

  198. function approxLength(m, singular=false) {

  199.   if (m < 1000) {

  200.     let length = round(m/49,1);

  201.     return length + (singular || length == 1 ? " football field" : " football fields");

  202.   } else if (m < 5000000) {

  203.     let length = round(m/449,1);

  204.     return length + (singular || length == 1 ? " Empire State Building" : " Empire State Buildings");

  205.   } else if (m < 3474574*2) {

  206.     let length = round(m/3474574,1);

  207.     return length + (singular || length == 1 ? " moon" : " moons");

  208.   } else if (m < 12.742e6*100) {

  209.     let length = round(m/12.742e6,1);

  210.     return length + (singular || length == 1 ? " earth" : " earths");

  211.   } else if (m < 149.6e12) {

  212.     let length = round(m/149.6e9,1);

  213.     return length + (singular || length == 1 ? " AU" : " AUs");

  214.   } else {

  215.     let length = round(m/9.4607e15,4);

  216.     return length + (singular || length == 1 ? " light year" : " light years");

  217.   }

  218. }

  219. 

  220. function metricVolume(m3, singular=false) {

  221.   if (m3 < 1/1000) {

  222.     let volume = round(m3*1e6, 0);

  223.     return volume + (singular || volume == 1 ? " milliliter" : " milliliters");

  224.   } else if (m3 < 1) {

  225.     let volume = round(m3*1000, 1);

  226.     return volume + (singular || volume == 1 ? " liter" : " liters");

  227.   } else if (m3 < 1000000) {

  228.     let volume = round(m3, 0);

  229.     return volume + (singular || volume == 1 ? " cubic meter" : " cubic meters");

  230.   } else if (m3 < 1e12){

  231.     let volume = round(m3/1e9, 6);

  232.     return volume + (singular || volume == 1 ? " cubic kilometer" : " cubic kilometers");

  233.   } else {

  234.     let volume = round(m3/1e9, 0);

  235.     return volume + (singular || volume == 1 ? " cubic kilometer" : " cubic kilometers");

  236.   }

  237. }

  238. 

  239. function customaryVolume(m3, singular=false) {

  240.   let gallons = m3 * 264.172;

  241.   if (gallons < 1/16) {

  242.     let volume = round(gallons*128,0);

  243.     return volume + (singular || volume == 1 ? " fluid ounce" : " fluid ounces");

  244.   } else if (gallons < 1/4) {

  245.     let volume = round(gallons*16,1);

  246.     return volume + (singular || volume == 1 ? " cup" : " cups");

  247.   } else if (gallons < 1/2) {

  248.     let volume = round(gallons*8,1);

  249.     return volume + (singular || volume == 1 ? " pint" : " pints");

  250.   } else if (gallons < 1) {

  251.     let volume = round(gallons*4,1);

  252.     return volume + (singular || volume == 1 ? " quart" : " quarts");

  253.   } else if (gallons < 100) {

  254.     let volume = round(gallons,1);

  255.     return volume + (singular || volume == 1 ? " gallon" : " gallons");

  256.   } else {

  257.     let volume = round(gallons,0);

  258.     return volume + (singular || volume == 1 ? " gallon" : " gallons");

  259.   }

  260. }

  261. 

  262. function approxVolume(m3, singular=false) {

  263.   if (m3 < 1/10000) {

  264.     let volume = round(m3*1e6,0);

  265.     return (singular || volume == 1 ? "a shot" : volume + " shots");

  266.   } else if (m3 < 1) {

  267.     let volume = round(m3*2000,0);

  268.     return (singular || volume == 1 ? "a glass" : volume + " glasses");

  269.   } else if (m3 < 10) {

  270.     let volume = round(m3*2.64,1);

  271.     return(singular || volume == 1 ? "a bathtub" : volume + " bathtubs");

  272.   } else if (m3 < 1e9) {

  273.     let volume = round(m3/1000,2);

  274.     return (singular || volume == 1 ? "an Olympic swimming pool" : volume + " Olympic swimming pools");

  275.   } else if (m3 < 1e15) {

  276.     let volume = round(m3/1.8919e10,3);

  277.     return (singular || volume == 1 ? "a Great Salt Lake" : volume + " Great Salt Lakes");

  278.   } else {

  279.     let volume = round(m3/3.547e17, 3);

  280.     return (singular || volume == 1 ? "an ocean" : volume + " oceans");

  281.   }

  282. }