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pocomath/test/tuple/_native.mjs
Glen Whitney 845a2354c9 feat: Template types (#45) 
Includes a full implementation of a type-homogeneous Tuple type, using the template types
  feature, as a demonstration/check of its operation.

Co-authored-by: Glen Whitney <glen@studioinfinity.org>
Reviewed-on: #45
2022-08-05 12:48:57 +00:00

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import assert from 'assert'
import math from '../../src/pocomath.mjs'
describe('tuple', () => {
it('can be created and provide its length', () => {
assert.strictEqual(math.length(math.tuple(3, 5.2, 2)), 3)
})
it('does not allow unification by converting consecutive arguments', () => {
assert.throws(() => math.tuple(3, 5.2, 2n), /TypeError.*unif/)
// Hence, the order matters in a slightly unfortunate way,
// but I think being a little ragged in these edge cases is OK:
assert.throws(
() => math.tuple(3, 2n, math.complex(5.2)),
/TypeError.*unif/)
assert.deepStrictEqual(
math.tuple(3, math.complex(2n), 5.2),
{elts: [math.complex(3), math.complex(2n), math.complex(5.2)]})
})
it('can be tested for zero and equality', () => {
assert.strictEqual(math.isZero(math.tuple(0,1)), false)
assert.strictEqual(math.isZero(math.tuple(0n,0n,0n,0n)), true)
assert.strictEqual(math.isZero(math.tuple(0,0.001,0)), false)
assert.deepStrictEqual(math.complex(0,0), {re: 0, im:0})
assert.strictEqual(math.isZero(math.tuple(0,math.complex(0,0))), true)
assert.strictEqual(
math.equal(
math.tuple(0,math.complex(0,0.1)),
math.complex(math.tuple(0,0), math.tuple(0,0.1))),
true)
assert.strictEqual(
math.equal(math.tuple(3n,2n), math.tuple(3,2)),
false)
})
it('supports addition', () => {
assert.deepStrictEqual(
math.add(math.tuple(3,4,5), math.tuple(2,1,0)),
math.tuple(5,5,5))
assert.deepStrictEqual(
math.add(math.tuple(3.25,4.5,5), math.tuple(3,3)),
math.tuple(6.25,7.5,5))
assert.deepStrictEqual(
math.add(math.tuple(math.complex(2,3), 7), math.tuple(4, 5, 6)),
math.tuple(math.complex(6,3), math.complex(12), math.complex(6)))
assert.deepStrictEqual(
math.add(math.tuple(5,6), 7),
math.tuple(12,6))
assert.deepStrictEqual(
math.add(math.tuple(math.complex(5,4),6), 7),
math.tuple(math.complex(12,4),math.complex(6)))
})
it('supports subtraction', () => {
assert.deepStrictEqual(
math.subtract(math.tuple(3n,4n,5n), math.tuple(2n,1n,0n)),
math.tuple(1n,3n,5n))
assert.throws(
() => math.subtract(math.tuple(5,6), math.tuple(7)),
/RangeError/)
})
it('makes a tuple of complex and conjugates it', () => {
const complexTuple = math.tuple(
math.complex(3,1), math.complex(4,2.2), math.complex(5,3))
assert.deepStrictEqual(
math.complex(math.tuple(3,4,5), math.tuple(1,2.2,3)),
complexTuple)
assert.deepStrictEqual(
math.conjugate(complexTuple),
math.tuple(math.complex(3,-1), math.complex(4,-2.2), math.complex(5,-3)))
})
it('supports division', () => {
assert.deepStrictEqual(
math.divide(math.tuple(3,4,5),math.tuple(1,2,2)),
math.tuple(3,2,2.5))
})
it('supports multiplication', () => {
assert.deepStrictEqual(
math.multiply(math.tuple(3,4,5), math.tuple(1,2,2)),
math.tuple(3,8,10))
})
it('supports one and zero', () => {
assert.deepStrictEqual(
math.one(math.tuple(2n,3n,0n)),
math.tuple(1n,1n,1n))
assert.deepStrictEqual(
math.zero(math.tuple(math.complex(5,2), 3.4)),
math.tuple(math.complex(0), math.complex(0)))
})
it('supports quotient and roundquotient', () => {
const bigTuple = math.tuple(1n,2n,3n,4n,5n)
const bigOnes = math.one(bigTuple)
const threes = math.add(bigOnes, bigOnes, bigOnes)
assert.deepStrictEqual(
math.quotient(bigTuple, threes),
math.tuple(0n, 0n, 1n, 1n, 1n))
assert.deepStrictEqual(
math.roundquotient(bigTuple, threes),
math.tuple(0n, 1n, 1n, 1n, 2n))
})
it('supports sqrt', () => {
assert.deepStrictEqual(
math.sqrt(math.tuple(4,-4,2.25)),
math.tuple(2, math.complex(0,2), 1.5))
})
})
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