Begin a new Kumite
Kumite (ko͞omiˌtā) is the practice of taking techniques learned from Kata and applying them through the act of freestyle sparring.
You can create a new kumite by providing some initial code and optionally some test cases. From there other warriors can spar with you, by enhancing, refactoring and translating your code. There is no limit to how many warriors you can spar with.
A great use for kumite is to begin an idea for a kata as one. You can collaborate with other code warriors until you have it right, then you can convert it to a kata.
Numbers
Integers
Algorithms
#include <math.h> #include <stdint.h> uint8_t number_of_digits(uint64_t n) { return log10(n) + 1; }1 − #include <stdlib.h>
1 + #include <math.h>
2 2 #include <stdint.h>
3 3 4 − uint_fast8_t number_of_digits(uint64_t n)
4 + uint8_t number_of_digits(uint64_t n)
5 5 {6 − size_t x;
7 − printf("%lu%n", n, &x);8 − return x;
6 + return log10(n) + 1;
9 9 }
const code = String.raw` Y = \ f . ( \ x . f (x x) ) ( \ x . f (x x) ) True = \ t f . t False = \ t f . f Succ = \ n s z . s (n s z) Pred = \ n s z . n ( \ f g . g (f s) ) (\_.z) \x.x Minus = \ m n . n Pred m Times = \ m n s . m (n s) isZero = \ n . n (\_.False) True isNotZero = \ n . n (\_.True) False And = \ x y . x y x Or = \ x . x x GT = \ x y . isNotZero (Minus x y) Mod = \ n m . ( \ r . isZero (Minus m r) 0 r ) (( \ n m . ( \ d . isZero d n (Mod d m) ) (Minus n m) ) n m) # function isPrime(n) { # const trial = function trial(i) { # return i * i > n || n % i != 0 && trial(i+1) ; # } ; # return n > 1 && trial(2) ; # } isPrime = \ n . ( \ trial . And (GT n 1) (trial 2) ) ( Y \ trial i . Or (GT (Times i i) n) (And (isNotZero (Mod n i)) (trial (Succ i))) ) `1 1 const code = String.raw`
2 − succ = \ n f x . f (n f x)
3 − pair = \a.\b.\c.c a b
4 − fst = \pair.pair (\a.\_.a)
5 − snd = \pair.pair (\_.\b.b)
6 − plus = \pair.\f.\x.(fst pair) f ((snd pair) f x)
7 − next = \prev.pair (snd prev) (plus prev)
8 − fibonacci = \n. fst (n next (pair (\_.\b.b) (succ (\_.\b.b))))
9 − `
2 + Y = \ f . ( \ x . f (x x) ) ( \ x . f (x x) )
3 + True = \ t f . t
4 + False = \ t f . f
5 + Succ = \ n s z . s (n s z)
6 + Pred = \ n s z . n ( \ f g . g (f s) ) (\_.z) \x.x
7 + Minus = \ m n . n Pred m
8 + Times = \ m n s . m (n s)
9 + isZero = \ n . n (\_.False) True
10 + isNotZero = \ n . n (\_.True) False
11 + And = \ x y . x y x
12 + Or = \ x . x x
13 + GT = \ x y . isNotZero (Minus x y)
14 + Mod = \ n m . ( \ r . isZero (Minus m r) 0 r ) (( \ n m . ( \ d . isZero d n (Mod d m) ) (Minus n m) ) n m)
10 10 11 − // Stress testing -- "LetRec", "BinaryScott"
12 − // Testing implementation of a "String" - ie. Arrays and related functions
13 − const stress = String.raw`
14 − # bools
15 − id = \ x . x
16 − true = \ a b . a
17 − false = \ a b . b
18 − not = \ b . b false true
19 − and = \ a b . a b false
20 − or = \ a b . a true b
21 − xor = \ a b . a (b false true) b
16 + # function isPrime(n) {17 + # const trial = function trial(i) {18 + # return i * i > n || n % i != 0 && trial(i+1) ;
19 + # } ;
20 + # return n > 1 && trial(2) ;
21 + # }
22 22 23 − # ints -- z = endbit, f = offbit, t = onbit
24 − zero = \ z _ _ . z
25 − succ = \ n _ f t . n (t zero) t (\ m . f (succ m))
26 − bool = \ n . n false (\ _ . true) (\ _ . true)
27 − pred = \ n z f t . n z (\ m . t (pred m)) (\ m . bool m (f m) z)
28 − odd = \ n . n false false true
29 − even = \ n . not (odd n)
30 − mul2 = \ n _ f _ . f n
31 − addSlow = \ a b . bool b (addSlow (succ a) (pred b)) a
32 − subSlow = \ a b . bool a (bool b (subSlow (pred a) (pred b)) a) (zero)
33 − 34 − # arrays as foldr (strings)
23 + isPrime = \ n . ( \ trial . And (GT n 1) (trial 2) )
24 + ( Y \ trial i . Or (GT (Times i i) n) (And (isNotZero (Mod n i)) (trial (Succ i))) )
35 35 `
const chai = require("chai"); const assert = chai.assert; chai.config.truncateThreshold = 0; // const LC = require("LC"); const LC = { compile: () => compile(code), config } // Temporary. Would normally import, see line above. LC.config.purity = "LetRec"; LC.config.numEncoding = "Church"; const solution = LC.compile(); const {isPrime} = solution; describe("Sample Tests", function() { it("Basics", function() { assert.equal(isPrime(0) (true)(false), false); assert.equal(isPrime(1) (true)(false), false); assert.equal(isPrime(2) (true)(false), true); assert.equal(isPrime(3) (true)(false), true); assert.equal(isPrime(4) (true)(false), false); assert.equal(isPrime(5) (true)(false), true); assert.equal(isPrime(6) (true)(false), false); assert.equal(isPrime(7) (true)(false), true); assert.equal(isPrime(8) (true)(false), false); assert.equal(isPrime(9) (true)(false), false); assert.equal(isPrime(10) (true)(false), false); assert.equal(isPrime(11) (true)(false), true); assert.equal(isPrime(12) (true)(false), false); assert.equal(isPrime(13) (true)(false), true); assert.equal(isPrime(14) (true)(false), false); assert.equal(isPrime(15) (true)(false), false); assert.equal(isPrime(16) (true)(false), false); assert.equal(isPrime(17) (true)(false), true); assert.equal(isPrime(18) (true)(false), false); assert.equal(isPrime(19) (true)(false), true); }); });1 1 const chai = require("chai");2 2 const assert = chai.assert;
3 3 chai.config.truncateThreshold = 0;
4 4 5 5 // const LC = require("LC");6 − const LC = { compile: () => compile(code), config: options } // Temporary. Would normally import, see line above.6 + const LC = { compile: () => compile(code), config } // Temporary. Would normally import, see line above.7 7 LC.config.purity = "LetRec";
8 8 LC.config.numEncoding = "Church";
9 9 10 10 const solution = LC.compile();
11 − const fibonacci = solution.fibonacci;
12 − // const subSlow = solution.subSlow; // Uses BinaryScott
11 + const {isPrime} = solution;13 13 14 14 describe("Sample Tests", function() {15 15 it("Basics", function() {16 − assert.equal(fibonacci(0), 0);
17 − assert.equal(fibonacci(1), 1);
18 − assert.equal(fibonacci(2), 1);
19 − assert.equal(fibonacci(3), 2);
20 − assert.equal(fibonacci(4), 3);
21 − assert.equal(fibonacci(5), 5);
22 − assert.equal(fibonacci(6), 8);
23 − assert.equal(fibonacci(7), 13);
24 − assert.equal(fibonacci(20), 6765);
25 − // assert.equal(fibonacci(20), 6764);
26 − 27 − // assert.equal(subSlow(355)(56), 299)
15 + assert.equal(isPrime(0) (true)(false), false);
16 + assert.equal(isPrime(1) (true)(false), false);
17 + assert.equal(isPrime(2) (true)(false), true);
18 + assert.equal(isPrime(3) (true)(false), true);
19 + assert.equal(isPrime(4) (true)(false), false);
20 + assert.equal(isPrime(5) (true)(false), true);
21 + assert.equal(isPrime(6) (true)(false), false);
22 + assert.equal(isPrime(7) (true)(false), true);
23 + assert.equal(isPrime(8) (true)(false), false);
24 + assert.equal(isPrime(9) (true)(false), false);
25 + assert.equal(isPrime(10) (true)(false), false);
26 + assert.equal(isPrime(11) (true)(false), true);
27 + assert.equal(isPrime(12) (true)(false), false);
28 + assert.equal(isPrime(13) (true)(false), true);
29 + assert.equal(isPrime(14) (true)(false), false);
30 + assert.equal(isPrime(15) (true)(false), false);
31 + assert.equal(isPrime(16) (true)(false), false);
32 + assert.equal(isPrime(17) (true)(false), true);
33 + assert.equal(isPrime(18) (true)(false), false);
34 + assert.equal(isPrime(19) (true)(false), true);
28 28 });
29 29 });
Recent Moves:
Using the string encoding described below, define a term hello which is equivalent to "Hello, world!"
Encodings
- purity -> Let
-
true,false-> Church encoding -
Number-> Church encoding (only used aschars) -
char-> a number corresponding to ascii code -
nil-> an empty string:\ _ -> false -
cons-> add acharto astring:\ char string b1 . b1 true (\ b2 . b2 char string)
Fixed for existing bugs. Now with number literals.
const code = String.raw` # Preloaded true = \ a b . a false = \ a b . b pair = \ a b c . c a b nil = \ _ . false cons = \ c s . pair true (pair c s) # Code hello = cons 72 ( cons 101 ( cons 108 ( cons 108 ( cons 111 ( cons 44 ( cons 32 ( cons 119 ( cons 111 ( cons 114 ( cons 108 ( cons 100 ( cons 33 nil )))))))))))) `1 1 const code = String.raw`
2 − # bools
2 + # Preloaded
3 + 3 3 true = \ a b . a
4 4 false = \ a b . b
5 5 6 − # numbers
7 − zero = false
8 − succ = \ n f x . f (n f x)
9 − add = \ a b f x . a f (b f x)
10 − mul = \ a b f . a (b f)
11 − 12 − three = \ f x . f ( f ( f x ))
13 − ten = succ (mul three three)
14 − thirtytwo = succ (succ (mul ten three))
15 − thirtythree = succ thirtytwo
16 − fortyfour = succ (add ten thirtythree)
17 − seventytwo = mul (succ ( succ (add three three))) (mul three three)
18 − hundred = mul ten ten
19 − hundredone = succ hundred
20 − hundredeight = succ (add three (add three hundredone))
21 − hundredeleven = add three hundredeight
22 − hundredforteen = add three hundredeleven
23 − hundrednineteen = succ (succ (add three hundredforteen))
24 − 25 − # data
26 26 pair = \ a b c . c a b
27 27 nil = \ _ . false
28 28 cons = \ c s . pair true (pair c s)
29 29 30 − # [72, 101, 108, 108, 111, 44, 32, 119, 111, 114, 108, 100, 33]
31 − hello = cons seventytwo
… Expand 32 − (cons hundredone
33 − (cons hundredeight
34 − (cons hundredeight
35 − (cons hundredeleven
36 − (cons fortyfour
37 − (cons thirtytwo
38 − (cons hundrednineteen
39 − (cons hundredeleven
40 − (cons hundredforteen
41 − (cons hundredeight
42 − (cons hundred
43 − (cons thirtythree
44 − nil ))))))))))))
11 + # Code
12 + hello = cons 72
13 + ( cons 101
14 + ( cons 108
15 + ( cons 108
16 + ( cons 111
17 + ( cons 44
18 + ( cons 32
19 + ( cons 119
20 + ( cons 111
21 + ( cons 114
22 + ( cons 108
23 + ( cons 100
24 + ( cons 33
25 + nil
26 + ))))))))))))
45 45 `
const chai = require("chai"); const assert = chai.assert; chai.config.truncateThreshold = 0; // const LC = require("LC"); const LC = { compile: () => compile(code), config: options } // Temporary. Would normally import, see line above. LC.config.purity = "Let"; LC.config.numEncoding = "Church"; const solution = LC.compile().hello; const T = new L('a', new L('b', new V('a'))); const F = new L('a', new L('b', new V('b'))); function _toString(term, res="") { if (term(T)(true)(false)) { const n = toInt(term(F)(T)); return _toString(term(F)(F), res+String.fromCharCode(n)); } else return res; } describe("Full tests", function() { it("Does it work?", function() { assert.equal(_toString(solution), "Hello, world!") }); });1 1 const chai = require("chai");2 2 const assert = chai.assert;
3 3 chai.config.truncateThreshold = 0;
4 4 5 5 // const LC = require("LC");6 6 const LC = { compile: () => compile(code), config: options } // Temporary. Would normally import, see line above.7 − LC.config.purity = "LetRec";
7 + LC.config.purity = "Let";
8 8 LC.config.numEncoding = "Church";
9 9 10 10 const solution = LC.compile().hello;
11 11 12 12 const T = new L('a', new L('b', new V('a')));… Expand 13 13 const F = new L('a', new L('b', new V('b')));14 14 15 15 function _toString(term, res="") {16 16 if (term(T)(true)(false)) {17 17 const n = toInt(term(F)(T));
18 18 return _toString(term(F)(F), res+String.fromCharCode(n));
19 19 } else return res;
20 20 }
21 21 describe("Full tests", function() {22 22 it("Does it work?", function() {23 23 assert.equal(_toString(solution), "Hello, world!")
24 24 });
25 25 });
Task
Using the string encoding described below, define a term hello which is equivalent to "Hello, world!"
Encodings
- purity -> LetRec
-
true,false-> Church encoding -
Number-> Church encoding (only used aschars) -
char-> a number corrosponding to ascii code -
nil-> an emptystring:\ _ -> false -
cons-> add acharto astring:\ char string b1 . b1 true (\ b2 . b2 char string)
const code = String.raw` # bools true = \ a b . a false = \ a b . b # numbers zero = false succ = \ n f x . f (n f x) add = \ a b f x . a f (b f x) mul = \ a b f . a (b f) three = \ f x . f ( f ( f x )) ten = succ (mul three three) thirtytwo = succ (succ (mul ten three)) thirtythree = succ thirtytwo fortyfour = succ (add ten thirtythree) seventytwo = mul (succ ( succ (add three three))) (mul three three) hundred = mul ten ten hundredone = succ hundred hundredeight = succ (add three (add three hundredone)) hundredeleven = add three hundredeight hundredforteen = add three hundredeleven hundrednineteen = succ (succ (add three hundredforteen)) # data pair = \ a b c . c a b nil = \ _ . false cons = \ c s . pair true (pair c s) # [72, 101, 108, 108, 111, 44, 32, 119, 111, 114, 108, 100, 33] hello = cons seventytwo (cons hundredone (cons hundredeight (cons hundredeight (cons hundredeleven (cons fortyfour (cons thirtytwo (cons hundrednineteen (cons hundredeleven (cons hundredforteen (cons hundredeight (cons hundred (cons thirtythree nil )))))))))))) `1 1 const code = String.raw`
2 − succ = \ n f x . f (n f x)
3 − pair = \a.\b.\c.c a b
4 − fst = \pair.pair (\a.\_.a)
5 − snd = \pair.pair (\_.\b.b)
6 − plus = \pair.\f.\x.(fst pair) f ((snd pair) f x)
7 − next = \prev.pair (snd prev) (plus prev)
8 − fibonacci = \n. fst (n next (pair (\_.\b.b) (succ (\_.\b.b))))
9 − `
10 − 11 − // Stress testing -- "LetRec", "BinaryScott"
12 − // Testing implementation of a "String" - ie. Arrays and related functions
13 − const stress = String.raw`
14 14 # bools
15 − id = \ x . x
16 16 true = \ a b . a
17 17 false = \ a b . b
18 − not = \ b . b false true
19 − and = \ a b . a b false
20 − or = \ a b . a true b
21 − xor = \ a b . a (b false true) b
22 22 23 − # ints -- z = endbit, f = offbit, t = onbit
24 − zero = \ z _ _ . z
25 − succ = \ n _ f t . n (t zero) t (\ m . f (succ m))
26 − bool = \ n . n false (\ _ . true) (\ _ . true)
27 − pred = \ n z f t . n z (\ m . t (pred m)) (\ m . bool m (f m) z)
28 − odd = \ n . n false false true
29 − even = \ n . not (odd n)
30 − mul2 = \ n _ f _ . f n
31 − addSlow = \ a b . bool b (addSlow (succ a) (pred b)) a
32 − subSlow = \ a b . bool a (bool b (subSlow (pred a) (pred b)) a) (zero)
6 + # numbers
7 + zero = false
8 + succ = \ n f x . f (n f x)
9 + add = \ a b f x . a f (b f x)
10 + mul = \ a b f . a (b f)
11 + 12 + three = \ f x . f ( f ( f x ))
13 + ten = succ (mul three three)
14 + thirtytwo = succ (succ (mul ten three))
15 + thirtythree = succ thirtytwo
16 + fortyfour = succ (add ten thirtythree)
17 + seventytwo = mul (succ ( succ (add three three))) (mul three three)
18 + hundred = mul ten ten
19 + hundredone = succ hundred
20 + hundredeight = succ (add three (add three hundredone))
21 + hundredeleven = add three hundredeight
22 + hundredforteen = add three hundredeleven
23 + hundrednineteen = succ (succ (add three hundredforteen))
24 + 25 + # data
26 + pair = \ a b c . c a b
27 + nil = \ _ . false
28 + cons = \ c s . pair true (pair c s)
33 33 34 − # arrays as foldr (strings)
30 + # [72, 101, 108, 108, 111, 44, 32, 119, 111, 114, 108, 100, 33]
31 + hello = cons seventytwo
32 + (cons hundredone
33 + (cons hundredeight
34 + (cons hundredeight
35 + (cons hundredeleven
36 + (cons fortyfour
37 + (cons thirtytwo
38 + (cons hundrednineteen
39 + (cons hundredeleven
40 + (cons hundredforteen
41 + (cons hundredeight
42 + (cons hundred
43 + (cons thirtythree
44 + nil ))))))))))))
35 35 `
const chai = require("chai"); const assert = chai.assert; chai.config.truncateThreshold = 0; // const LC = require("LC"); const LC = { compile: () => compile(code), config: options } // Temporary. Would normally import, see line above. LC.config.purity = "LetRec"; LC.config.numEncoding = "Church"; const solution = LC.compile().hello; const T = new L('a', new L('b', new V('a'))); const F = new L('a', new L('b', new V('b'))); function _toString(term, res="") { if (term(T)(true)(false)) { const n = toInt(term(F)(T)); return _toString(term(F)(F), res+String.fromCharCode(n)); } else return res; } describe("Full tests", function() { it("Does it work?", function() { assert.equal(_toString(solution), "Hello, world!") }); });1 1 const chai = require("chai");2 2 const assert = chai.assert;
3 3 chai.config.truncateThreshold = 0;
4 4 5 5 // const LC = require("LC");6 6 const LC = { compile: () => compile(code), config: options } // Temporary. Would normally import, see line above.7 7 LC.config.purity = "LetRec";
8 8 LC.config.numEncoding = "Church";
9 9 10 − const solution = LC.compile();
11 − const fibonacci = solution.fibonacci;
12 − // const subSlow = solution.subSlow; // Uses BinaryScott
10 + const solution = LC.compile().hello;
13 13 14 − describe("Sample Tests", function() {15 − it("Basics", function() {16 − assert.equal(fibonacci(0), 0);
17 − assert.equal(fibonacci(1), 1);
18 − assert.equal(fibonacci(2), 1);
… Expand 19 − assert.equal(fibonacci(3), 2);
20 − assert.equal(fibonacci(4), 3);
21 − assert.equal(fibonacci(5), 5);
22 − assert.equal(fibonacci(6), 8);
23 − assert.equal(fibonacci(7), 13);
24 − assert.equal(fibonacci(20), 6765);
25 − // assert.equal(fibonacci(20), 6764);
26 − 27 − // assert.equal(subSlow(355)(56), 299)
12 + const T = new L('a', new L('b', new V('a')));13 + const F = new L('a', new L('b', new V('b')));14 + 15 + function _toString(term, res="") {16 + if (term(T)(true)(false)) {17 + const n = toInt(term(F)(T));
18 + return _toString(term(F)(F), res+String.fromCharCode(n));
… Expand 19 + } else return res;
20 + }
21 + describe("Full tests", function() {22 + it("Does it work?", function() {23 + assert.equal(_toString(solution), "Hello, world!")
28 28 });
29 29 });
fixing bugs in the parser
- numbers were wrapped in a spurious
V -
()was not accepted
const code = String.raw` add = \ m n s z . m s (n s z) go = \ return a b . return b (add a b) K = \ x _ . x fibonacci = \ n . n go K 0 1 `1 1 const code = String.raw`
2 − succ = \ n f x . f (n f x)
3 − pair = \a.\b.\c.c a b
4 − fst = \pair.pair (\a.\_.a)
5 − snd = \pair.pair (\_.\b.b)
6 − plus = \pair.\f.\x.(fst pair) f ((snd pair) f x)
7 − next = \prev.pair (snd prev) (plus prev)
8 − fibonacci = \n. fst (n next (pair (\_.\b.b) (succ (\_.\b.b))))
9 − `
10 − 11 − // Stress testing -- "LetRec", "BinaryScott"
12 − // Testing implementation of a "String" - ie. Arrays and related functions
13 − const stress = String.raw`
14 − # bools
15 − id = \ x . x
16 − true = \ a b . a
17 − false = \ a b . b
18 − not = \ b . b false true
19 − and = \ a b . a b false
20 − or = \ a b . a true b
21 − xor = \ a b . a (b false true) b
22 − 23 − # ints -- z = endbit, f = offbit, t = onbit
24 − zero = \ z _ _ . z
25 − succ = \ n _ f t . n (t zero) t (\ m . f (succ m))
26 − bool = \ n . n false (\ _ . true) (\ _ . true)
27 − pred = \ n z f t . n z (\ m . t (pred m)) (\ m . bool m (f m) z)
28 − odd = \ n . n false false true
29 − even = \ n . not (odd n)
30 − mul2 = \ n _ f _ . f n
31 − addSlow = \ a b . bool b (addSlow (succ a) (pred b)) a
32 − subSlow = \ a b . bool a (bool b (subSlow (pred a) (pred b)) a) (zero)
33 − 34 − # arrays as foldr (strings)
2 + add = \ m n s z . m s (n s z)
3 + go = \ return a b . return b (add a b)
4 + K = \ x _ . x
5 + fibonacci = \ n . n go K 0 1
35 35 `
const chai = require("chai"); const assert = chai.assert; chai.config.truncateThreshold = 0; // const LC = require("LC"); const LC = { compile: () => compile(code), config: options } // Temporary. Would normally import, see line above. LC.config.purity = "Let"; LC.config.numEncoding = "Church"; const solution = LC.compile(); const {fibonacci} = solution; describe("Sample Tests", function() { it("Basics", function() { assert.equal(fibonacci(0), 0); assert.equal(fibonacci(1), 1); assert.equal(fibonacci(2), 1); assert.equal(fibonacci(3), 2); assert.equal(fibonacci(4), 3); assert.equal(fibonacci(5), 5); assert.equal(fibonacci(6), 8); assert.equal(fibonacci(7), 13); assert.equal(fibonacci(8), 21); assert.equal(fibonacci(9), 34); }) });1 1 const chai = require("chai");2 2 const assert = chai.assert;
3 3 chai.config.truncateThreshold = 0;
4 4 5 5 // const LC = require("LC");6 6 const LC = { compile: () => compile(code), config: options } // Temporary. Would normally import, see line above.7 − LC.config.purity = "LetRec";
7 + LC.config.purity = "Let";
8 8 LC.config.numEncoding = "Church";
9 9 10 10 const solution = LC.compile();
11 − const fibonacci = solution.fibonacci;
12 − // const subSlow = solution.subSlow; // Uses BinaryScott
11 + const {fibonacci} = solution;13 13 14 14 describe("Sample Tests", function() {15 15 it("Basics", function() {16 16 assert.equal(fibonacci(0), 0);
17 17 assert.equal(fibonacci(1), 1);
18 18 assert.equal(fibonacci(2), 1);
19 19 assert.equal(fibonacci(3), 2);
20 20 assert.equal(fibonacci(4), 3);
21 21 assert.equal(fibonacci(5), 5);
22 22 assert.equal(fibonacci(6), 8);
23 23 assert.equal(fibonacci(7), 13);
24 − assert.equal(fibonacci(20), 6765);
25 − // assert.equal(fibonacci(20), 6764);
26 − 27 − // assert.equal(subSlow(355)(56), 299)
28 − });
23 + assert.equal(fibonacci(8), 21);
24 + assert.equal(fibonacci(9), 34);
25 + })
29 29 });
show decoded value in test failure message.
valueOf and decoded are defined on Function.prototype; things won't work ( for different reasons ) if not.
toInt has been removed from awaitArg; it didn't seem useful.
testing seems faster. (??) failing tests take relatively long though ( and longer than succeeding tests of the same size ). fortunately, a failing test stops the it group, so it doesn't seem a major problem.
I have tried to make awaitArg.term to print a nice lambda expression. couldn't do it.
a failed test now shows
expected { [Function: awaitArg]
term: { name: 'f', body: { name: 'x', body: [Object] } },
env: {},
decoded: 6765 } to equal 6764
const chai = require("chai"); const assert = chai.assert; chai.config.truncateThreshold = 0; // const LC = require("LC"); const LC = { compile: () => compile(code), config: options } // Temporary. Would normally import, see line above. LC.config.purity = "LetRec"; LC.config.numEncoding = "Church"; const solution = LC.compile(); const fibonacci = solution.fibonacci; // const subSlow = solution.subSlow; // Uses BinaryScott describe("Sample Tests", function() { it("Basics", function() { assert.equal(fibonacci(0), 0); assert.equal(fibonacci(1), 1); assert.equal(fibonacci(2), 1); assert.equal(fibonacci(3), 2); assert.equal(fibonacci(4), 3); assert.equal(fibonacci(5), 5); assert.equal(fibonacci(6), 8); assert.equal(fibonacci(7), 13); assert.equal(fibonacci(20), 6765); assert.equal(fibonacci(20), 6764); }); });… Expand 1 1 const chai = require("chai");2 2 const assert = chai.assert;
3 3 chai.config.truncateThreshold = 0;
4 4 5 5 // const LC = require("LC");6 6 const LC = { compile: () => compile(code), config: options } // Temporary. Would normally import, see line above.7 7 LC.config.purity = "LetRec";
8 8 LC.config.numEncoding = "Church";
9 9 10 10 const solution = LC.compile();
11 11 const fibonacci = solution.fibonacci;
12 12 // const subSlow = solution.subSlow; // Uses BinaryScott
13 13 14 14 describe("Sample Tests", function() {15 15 it("Basics", function() {16 16 assert.equal(fibonacci(0), 0);
17 17 assert.equal(fibonacci(1), 1);
18 18 assert.equal(fibonacci(2), 1);
19 19 assert.equal(fibonacci(3), 2);
20 20 assert.equal(fibonacci(4), 3);
21 21 assert.equal(fibonacci(5), 5);
22 22 assert.equal(fibonacci(6), 8);
23 23 assert.equal(fibonacci(7), 13);
24 24 assert.equal(fibonacci(20), 6765);
25 − // assert.equal(fibonacci(20), 6764);
26 − 27 − // assert.equal(subSlow(355)(56), 299)
25 + assert.equal(fibonacci(20), 6764);
28 28 });
29 29 });
Be careful! You were previously implicitly defining a global fact when you really should not have done that. A lot of these problems can be solved by including that "use strict"; at the start of a function, which is especially important when you're starting out.
Also, factorial of 0 is 1, and factorial of negatives is undefined. It's also nice to have proper indentation to make programs a little easier to read.
function factorial (n) { "use strict"; if (n < 0) { return NaN } let i, fact i = fact = 1 while (i <= n) { fact *= i i++ } return fact }1 1 function factorial (n) {2 − if (n <= 0) return 0
3 − 4 − let i = fact = 1
2 + "use strict";
3 + if (n < 0) {4 + return NaN
5 + }
6 + let i, fact
7 + i = fact = 1
5 5 while (i <= n) {6 − fact *= i
7 − i++
9 + fact *= i
10 + i++
8 8 }
9 9 return fact
10 − 11 11 }
const chai = require("chai"); const assert = chai.assert; describe("Solution", function() { it("should test for something", function() { assert(factorial(0), 1); assert(factorial(1), 1); assert(factorial(5), 120); assert(factorial(8),40320); assert(factorial(15),1307674368000); }); });1 1 const chai = require("chai");2 2 const assert = chai.assert;
3 3 4 4 describe("Solution", function() {5 5 it("should test for something", function() {6 + assert(factorial(0), 1);
7 + assert(factorial(1), 1);
6 6 assert(factorial(5), 120);
7 7 assert(factorial(8),40320);
8 8 assert(factorial(15),1307674368000);
9 9 });
10 10 });
Recent Moves:
The factorial of a number is the product of all the numbers from 1 to that number
Like factorial of 3 would be 1 x 2 x 3
function factorial (n) {
if (n <= 0) return 0
let i = fact = 1
while (i <= n) {
fact *= i
i++
}
return fact
}const chai = require("chai");
const assert = chai.assert;
describe("Solution", function() {
it("should test for something", function() {
assert(factorial(5), 120);
assert(factorial(8),40320);
assert(factorial(15),1307674368000);
});
});Recent Moves:
// See https://pub.dartlang.org/packages/test import "package:test/test.dart"; import "package:solution/solution.dart"; import "dart:math"; void main() { group("Tests", () { test('1+1=', ()=> expect(addition(1, 1), equals(2))); test('2+0=', ()=> expect(addition(2, 0), equals(2))); test('123+321=', ()=> expect(addition(123, 321), equals(444))); Random r = Random(); int a = r.nextInt(1000); int b = r.nextInt(1000); test('Random', ()=> expect(addition(a, b), equals(a+b))); }); }1 1 // See https://pub.dartlang.org/packages/test
2 2 import "package:test/test.dart";
3 3 import "package:solution/solution.dart";
4 + import "dart:math";
4 4 5 5 void main() {6 6 group("Tests", () {7 7 test('1+1=', ()=> expect(addition(1, 1), equals(2)));8 8 test('2+0=', ()=> expect(addition(2, 0), equals(2)));9 9 test('123+321=', ()=> expect(addition(123, 321), equals(444)));11 + Random r = Random();
12 + int a = r.nextInt(1000);
13 + int b = r.nextInt(1000);
14 + test('Random', ()=> expect(addition(a, b), equals(a+b)));10 10 });
11 11 }