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---
id: 5eb3e4b20aa93c437f9e9717
title: Set of real numbers
challengeType: 5
forumTopicId: 385322
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dashedName: set-of-real-numbers
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---
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# --description--
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All real numbers form the uncountable set ℝ *a* and *b* where *a* ≤ *b* . There are actually four cases for the meaning of "between", depending on open or closed boundary:
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< ul >
< li > [< i > a< / i > , < i > b< / i > ]: {< i > x< / i > | < i > a< / i > ≤ < i > x< / i > and < i > x< / i > ≤ < i > b< / i > }< / li >
< li > (< i > a< / i > , < i > b< / i > ): {< i > x< / i > | < i > a< / i > < < i > x< / i > and < i > x< / i > < < i > b< / i > }< / li >
< li > [< i > a< / i > , < i > b< / i > ): {< i > x< / i > | < i > a< / i > ≤ < i > x< / i > and < i > x< / i > < < i > b< / i > }< / li >
< li > (< i > a< / i > , < i > b< / i > ]: {< i > x< / i > | < i > a< / i > < < i > x< / i > and < i > x< / i > ≤ < i > b< / i > }< / li >
< / ul >
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Note that if *a* = *b* , of the four only \[*a*, *a* ] would be non-empty.
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**Task**
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< ul >
< li > Devise a way to represent any set of real numbers, for the definition of "any" in the implementation notes below.< / li >
< li > Provide methods for these common set operations (< i > x< / i > is a real number; < i > A< / i > and < i > B< / i > are sets):< / li >
< ul >
< li >
< i > x< / i > ∈ < i > A< / i > : determine if < i > x< / i > is an element of < i > A< / i > < br >
example: 1 is in [1, 2), while 2, 3, ... are not.
< / li >
< li >
< i > A< / i > ∪ < i > B< / i > : union of < i > A< / i > and < i > B< / i > , i.e. {< i > x< / i > | < i > x< / i > ∈ < i > A< / i > or < i > x< / i > ∈ < i > B< / i > }< br >
example: [0, 2) ∪ ∪ ∪
< / li >
< li >
< i > A< / i > ∩ < i > B< / i > : intersection of < i > A< / i > and < i > B< / i > , i.e. {< i > x< / i > | < i > x< / i > ∈ < i > A< / i > and < i > x< / i > ∈ < i > B< / i > }< br >
example: [0, 2) ∩ (1, 3) = (1, 2); [0, 1) ∩ (2, 3] = empty set
< / li >
< li >
< i > A</ i > - < i > B</ i > : difference between < i > A</ i > and < i > B</ i > , also written as < i > A</ i > \ < i > B</ i > , i.e. {< i > x</ i > | < i > x</ i > ∈ < i > A</ i > and < i > x</ i > ∉ < i > B</ i > }< br >
example: [0, 2) −
< / li >
< / ul >
< / ul >
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# --instructions--
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Write a function that takes 2 objects, a string and an array as parameters. The objects represents the set and have attributes: `low` , `high` and `rangeType` .
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The `rangeType` can have values 0, 1, 2 and 3 for `CLOSED` , `BOTH_OPEN` , `LEFT_OPEN` and `RIGHT_OPEN` , respectively. The function should implement a set using this information.
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The string represents the operation to be performed on the sets. It can be: `"union"` , `"intersect"` and `"subtract"` (difference).
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After performing the operation, the function should check if the values in the array are present in the resultant set and store a corresponding boolean value to an array. The function should return this array.
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# --hints--
`realSet` should be a function.
```js
assert(typeof realSet == 'function');
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```
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`realSet({"low":0, "high":1, "rangeType":2}, {"low":0, "high":2, "rangeType":3}, "union", [1, 2, 3])` should return a array.
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```js
assert(
Array.isArray(
realSet(
{ low: 0, high: 1, rangeType: 2 },
{ low: 0, high: 2, rangeType: 3 },
'union',
[1, 2, 3]
)
)
);
```
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`realSet({"low":0, "high":1, "rangeType":2}, {"low":0, "high":2, "rangeType":3}, "union", [1, 2, 3])` should return `[true, false, false]` .
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```js
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assert.deepEqual(
realSet(
{ low: 0, high: 1, rangeType: 2 },
{ low: 0, high: 2, rangeType: 3 },
'union',
[1, 2, 3]
),
[true, false, false]
);
```
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`realSet({"low":0, "high":2, "rangeType":3}, {"low":1, "high":2, "rangeType":2}, "intersect", [0, 1, 2])` should return `[false, false, false]` .
```js
assert.deepEqual(
realSet(
{ low: 0, high: 2, rangeType: 3 },
{ low: 1, high: 2, rangeType: 2 },
'intersect',
[0, 1, 2]
),
[false, false, false]
);
```
`realSet({"low":0, "high":3, "rangeType":3}, {"low":0, "high":1, "rangeType":1}, "subtract", [0, 1, 2])` should return `[true, true, true]` .
```js
assert.deepEqual(
realSet(
{ low: 0, high: 3, rangeType: 3 },
{ low: 0, high: 1, rangeType: 1 },
'subtract',
[0, 1, 2]
),
[true, true, true]
);
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```
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`realSet({"low":0, "high":3, "rangeType":3}, {"low":0, "high":1, "rangeType":0}, "subtract", [0, 1, 2])` should return `[false, false, true]` .
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```js
assert.deepEqual(
realSet(
{ low: 0, high: 3, rangeType: 3 },
{ low: 0, high: 1, rangeType: 0 },
'subtract',
[0, 1, 2]
),
[false, false, true]
);
```
`realSet({"low":0, "high":33, "rangeType":1}, {"low":30, "high":31, "rangeType":0}, "intersect", [30, 31, 32])` should return `[true, true, false]` .
```js
assert.deepEqual(
realSet(
{ low: 0, high: 33, rangeType: 1 },
{ low: 30, high: 31, rangeType: 0 },
'intersect',
[30, 31, 32]
),
[true, true, false]
);
```
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# --seed--
## --seed-contents--
```js
function realSet(set1, set2, operation, values) {
}
```
# --solutions--
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```js
function realSet(set1, set2, operation, values) {
const RangeType = {
CLOSED: 0,
BOTH_OPEN: 1,
LEFT_OPEN: 2,
RIGHT_OPEN: 3
};
function Predicate(test) {
this.test = test;
this.or = function(other) {
return new Predicate(t => this.test(t) || other.test(t));
};
this.and = function(other) {
return new Predicate(t => this.test(t) & & other.test(t));
};
this.negate = function() {
return new Predicate(t => !this.test(t));
};
}
function RealSet(start, end, rangeType, predF) {
this.low = start;
this.high = end;
if (predF) {
this.predicate = new Predicate(predF);
} else {
this.predicate = new Predicate(d => {
switch (rangeType) {
case RangeType.CLOSED:
return start < = d & & d < = end;
case RangeType.BOTH_OPEN:
return start < d & & d < end ;
case RangeType.LEFT_OPEN:
return start < d & & d < = end ;
case RangeType.RIGHT_OPEN:
return start < = d & & d < end ;
}
});
}
this.contains = function(d) {
return this.predicate.test(d);
};
this.union = function(other) {
var low2 = Math.min(this.low, other.low);
var high2 = Math.max(this.high, other.high);
return new RealSet(low2, high2, null, d =>
this.predicate.or(other.predicate).test(d)
);
};
this.intersect = function(other) {
var low2 = Math.min(this.low, other.low);
var high2 = Math.max(this.high, other.high);
return new RealSet(low2, high2, null, d =>
this.predicate.and(other.predicate).test(d)
);
};
this.subtract = function(other) {
return new RealSet(this.low, this.high, null, d =>
this.predicate.and(other.predicate.negate()).test(d)
);
};
}
set1 = new RealSet(set1.low, set1.high, set1.rangeType);
set2 = new RealSet(set2.low, set2.high, set2.rangeType);
var result = [];
values.forEach(function(value) {
result.push(set1[operation](set2).contains(value));
});
return result;
}
```
