my array:
tempListArray = "[{"id":"12","value":false},{"id":"10","value":false},{"id":"9","value":false},{"id":"8","value":false}]";
To check if an element exists I would do this:
for (var i in tempListArray) {
//check flag
if (tempListArray[i].id == Id) {
flagExistsLoop = 1;
break;
}
}
Is there anyway, I can check if an Id exists without looping through the whole array. Basically I am worried about performance if say I have a 100 elements.
Thanks
No, without using custom dictionary objects (which you seriously don't want to for this) there's no faster way than doing a 'full scan' of all contained objects.
As a general rule of thumb, don't worry about performance in any language or any situation until the total number of iterations hits 5 digits, most often 6 or 7. Scanning a table of 100 elements should be a few milliseconds at worst. Worrying about performance impact before you have noticed performance impact is one of the worst kinds of premature optimization.
No, you can't know that without iterating the array.
However, note for...in loops are a bad way of iterating arrays:
There is no warranty that it will iterate the array with order
It will also iterate (enumerable) non-numeric own properties
It will also iterate (enumerable) properties that come from the prototype, i.e., defined in Array.prototype and Object.protoype.
I would use one of these:
for loop with a numeric index:
for (var i=0; i<tempListArray.length; ++i) {
if (tempListArray[i].id == Id) {
flagExistsLoop = 1;
break;
}
}
Array.prototype.some (EcmaScript 5):
var flagExistsLoop = tempListArray.some(function(item) {
return item.id == Id;
});
Note it may be slower than the other ones because it calls a function at each step.
for...of loop (EcmaScript 6):
for (var item of tempListArray) {
if (item.id == Id) {
flagExistsLoop = 1;
break;
}
}
Depending on your scenario, you may be able to use Array.indexOf() which will return -1 if the item is not present.
Granted it is probably iterating behind the scenes, but the code is much cleaner. Also note how object comparisons are done in javascript, where two objects are not equal even though their values may be equal. See below:
var tempListArray = [{"id":"12","value":false},{"id":"10","value":false},{"id":"9","value":false},{"id":"8","value":false}];
var check1 = tempListArray[2];
var check2 = {"id":"9","value":false};
doCheck(tempListArray, check1);
doCheck(tempListArray, check2);
function doCheck(array, item) {
var index = array.indexOf(item);
if (index === -1)
document.write("not in array<br/>");
else
document.write("exists at index " + index + "<br/>");
}
try to use php.js it may help while you can use same php function names and it has some useful functionalities
There is no way without iterating through the elements (that would be magic).
But, you could consider using an object instead of an array. The object would use the (presumably unique) id value as the key, and the value could have the same structure you have now (or without the redundant id property). This way, you can efficiently determine if the id already exists.
There is a possible cheat for limited cases :) and it is magic...cough cough (math)
imagine you have 3 elements:
1
2
3
and you want to know if one of these is in an array without iterating it...
we could make a number that contains a numerical flavor of the array. we do this by assigning prime numbers to the elements:
1 - 2
2 - 3
3 - 5
the array so when we add item 2 we check that the array doesn't already contain the prime associated to that item by checking (if Flavor!=0 && (Flavor%3)!=0) then adding the prime Flavor*=3;
now we can tell that the second element is in the array by looking at the number.
if Flavor!=0 && (Flavor%3)==0 // its There!
Of course this is limited to the numerical representation that can be handled by the computer. and for small array sizes (1-3 elements) it might still be faster to scan. but it's just one idea.
but the basis is pretty sound. However, this method becomes unusable if you cannot correlate elements one to one with a set of primes. You'll want to have the primes calculated in advance. and verify that the product of those is less numerical max numerical representation. (also be careful with floating-point. because they might not be able to represent the number at the higher values due to the gaps between representable values.) You probably have the best luck with an unsigned integer type.
This method will probably be too limiting. And there is something else you can do to possibly speed up your system if you don't want to iterate the entire array.
Use different structures:
dictionaries/maps/trees etc.
if your attached to the array another method can be a bloom filter. This will let you know if an element is not in your set, which can be just as useful.
Related
I am learning Javascript and I come from a Python background.
So, it's fairly intuitive to me to try and index an array from the end i.e using negative indices.
From what I have read so far, Javascript doesn't support them.
However, I found something which seems interesting but I am unable to understand the reason behind this.
todos = ['item1', 'item2', 'item3']
function updateTodos(index, new_value) {
todos[index] = new_value
console.log(todos)
}
function deleteTodos(index) {
todos.splice(index)
console.log(todos)
}
deleteTodos(-1)
updateTodos(-1, 'new_item')
deleteTodos(-1)
Output
["item1", "item2"]
["item1", "item2", -1: "new_item"]
["item1", -1: "new_item"]
Q: Why is deleteTodos able to delete the correct by index while updateTodos isn't?
Q: How can I accommodate for this behavior of negative indexing in updateTodos and any function dealing with the array data structure in general?
As far as I can make out, the indexing in updateTodos looks for the index variable and update the value at that index, if it exists, else, it creates a key-value pair. The splice method supports negative indexing, doesn't it?
I would appreciate if you can clarify my reasoning and/or help me with useful resources to understand this concept better.
According to MDN, splice does support negative indexing.
https://developer.mozilla.org/en/docs/Web/JavaScript/Reference/Global_Objects/Array/splice
Index at which to start changing the array (with origin 0). If greater
than the length of the array, actual starting index will be set to the
length of the array. If negative, will begin that many elements from
the end of the array (with origin 1).
So, that's why deleting works.
To enable negative indexing in update, you could check if the supplied argument is negative. If it is, it is a simple manner of using array.length + index to have the python-like indexing.
2 things to add to the accepted answer:
1) Remember that when using splice that if you don't specify an amount of items to delete (second argument) then everything from the index you specify to the end of the array will be deleted. From your question I doubt this is what you want.
2) Splice can also be used to add elements to an array (third argument, fourth argument etc.) so would work fine for your update function.
A complete example to fix both issues would be like this:
function updateTodos(index, new_value) {
todos.splice(index, 1, new_value);
}
function deleteTodos(index) {
todos.splice(index, 1);
}
You could get even fancier and combine them both into one function where if you specify a value then that gets updated else it gets deleted, but it's probably unnecessary.
I have an array that is initialized like such var generationObject = [{string:"", score: 0}];
which I then fill dynamically:
for(var i = 0; i < amount_offspring; i++)
{
// "load" text into array and send the string to see if it evolves
generationObject[i].string = evolve(start_text, characters, mutation_rate);
// then score the string
generationObject[i].score = score(target_text, generationObject.string);
}
I then want to sort this array by score. I don't know what's best, to sort it in the for loop or sort the entire array afterwards.
I will then take the string of the highest scoring object and pass it through the function again, recursively.
So what would be a good way to go about this sort function? I've seen some here use this
generationObject.sort(function(a, b) {
return (a.score) - (b.score);
});
But I'm not sure if .sort is still supported? This didnt seem to work for me though.
generationObject is an array, not an object, so score(target_text, generationObject.string); could be the problem, as .string will be undefined. (Did you mean generationObject[i].string?)
Try building your array like this:
var generationObject = []
for(var i = 0; i < amount_offspring; i++)
{
evolved_string = evolve(start_text, characters, mutation_rate)
generationObject.push({
string: evolved_string,
score: score(target_text, evolved_string)
})
}
And then Array.prototype.sort should do the trick.
You should write your sorting logic outside the for loop, since if you put it inside, the object array will be sorted N times, where N being the iterations of your loop. The following are two ways to do it-
By using sort() function- To clarify your question, sort() is still supported across almost all the browsers. If you are still concerned about the browser compatibility, you can check the MDN documentation to see the list of supported browsers.
generationObject = generationObject.sort(function(a, b) {
return parseInt(a.score) - parseInt(b.score);
});
By using underscorejs-
In underscore, you can take advantage of the sortBy() function.
Returns a (stably) sorted copy of list, ranked in ascending order by the results of running each value through iteratee. iteratee may also be the string name of the property to sort by (eg. length).
You can simply do this in underscorejs-
generationObject = _.sortBy(generationObj, 'score');
What is the performance difference between retrieving the value by key in a JavaScript object vs iterating over an array of individual JavaScript objects?
In my case, I have a JavaScript object containing user information where the keys are the user's IDs and the values are each user's information.
The reason I ask this is because I would like to use the angular-ui-select module to select users, but I can't use that module with a Javascript object - it requires an array.
How much, if anything, am I sacrificing by switching from a lookup by key, to a lookup by iteration?
By key:
var user = users[id];
By iteration
var user;
for (var i = 0; i < users.length; i ++) {
if (users[i].id == id) {
user = users[i]; break;
}
}
The answer to this is browser dependent, however, there are a few performance tests on jsperf.com on this matter. It also comes down to the size of your data. Generally it is faster to use object key value pairs when you have large amounts of data. For small datasets, arrays can be faster.
Array search will have different performance dependent on where in the array your target item exist. Object search will have a more consistent search performance as keys doesn't have a specific order.
Also looping through arrays are faster than looping through keys, so if you plan on doing operations on all items, it can be wise to put them in an array. In some of my project I do both, since I need to do bulk operations and fast lookup from identifiers.
A test:
http://jsben.ch/#/Y9jDP
This problem touches all programming languages. It depends on many factors:
size of your collection -arrays will get slower when you are searching for the last key, and array is quite long
can elements repeat them selves-if yes, than you need a array. If no: you need either a dictionary (map) or you need to write a add method that for each add will iterate your array and find possible duplicates-that can be troublesome, when dealing with large lists
average key usage - you will lose performance, if the most requested userId is at the end of the list.
In your example map would be a better solution.
Secondly, you need to add a break to yor code:)
var user;
for (var i = 0; i < users.length; i ++) {
if (users[i].id == id) {
user = users[i]; break;
}
}
Or you will lose performance:)
associative arrays are much slower then arrays with numbered indexes, because associative arrays work by doing string comparisons, which are much, much slower then number comparisons!
Is it possible to turn a column of a multidimensional array to row using JavaScript (maybe Jquery)? (without looping through it)
so in the example below:
var data = new Array();
//data is a 2D array
data.push([name1,id1,major1]);
data.push([name2,id2,major2]);
data.push([name3,id3,major3]);
//etc..
Is possible to get a list of IDs from data without looping? thanks
No, it is not possible to construct an array of IDs without looping.
In case you were wondering, you'd do it like this:
var ids = [];
for(var i = 0; i < data.length; i++)
ids.push(data[i][1]);
For better structural integrity, I'd suggest using an array of objects, like so:
data.push({"name": name1, "id": id1, "major":major1});
data.push({"name": name2, "id": id2, "major":major2});
data.push({"name": name3, "id": id3, "major":major3});
Then iterate through it like so:
var ids = [];
for(var i = 0; i < data.length; i++)
ids.push(data[i].id);
JavaScript doesn't really have multidimensional arrays. What JavaScript allows you to have is an array of arrays, with which you can interact as if it was a multidimensional array.
As for your main question, no, you would have to loop through the array to get the list of IDs. It means that such an operation cannot be done faster than in linear time O(n), where n is the height of the "2D array".
Also keep in mind that arrays in JavaScript are not necessarily represented in memory as contiguous blocks. Therefore any fast operations that you might be familiar with in other low level languages will not apply. The JavaScript programmer should treat arrays as Hash Tables, where the elements are simply key/value pairs, and the keys are the indices (0, 1, 2...). You can still access/write elements in constant time O(1) (at least in modern JavaScript engines), but copying of elements will often be done in O(n).
You could use the Array map function which does the looping for you:
var ids = data.map(function(x) { return x[1] });
Unfortunately, like everything else on the web that would be really nice to use, INTERNET EXPLORER DOESN'T SUPPORT IT.
See this page for details on how the map function works:
https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Array/map
The good news it that the link above provides some nice code in the "Compatibility" section which will check for the existence of Array.prototype.map and define it if it's missing.
You don't need anything special- make a string by joining with newlines, and match the middle of each line.
var data1=[['Tom Swift','gf102387','Electronic Arts'],
['Bob White','ea3784567','Culinarey Arts'],
['Frank Open','bc87987','Janitorial Arts'],
['Sam Sneer','qw10214','Some Other Arts']];
data1.join('\n').match(/([^,]+)(?=,[^,]+\n)/g)
/* returned value: (Array)
gf102387,ea3784567,bc87987
*/
I am coding a lot of annual data in JavaScript, and I was considering adding it to arrays, using the year as the array index and putting the data into the array. However, Firebug seems to be indicating that JavaScript handles this by populating two thousand odd entries in the array with "undefined." With hundreds of such arrays kicking around in active memory, I'm worried the overhead of hundreds of thousands of useless array items could start to slow the program down. Will it?
When you set the value of a numeric index higher than the current length of your array, the length property is affected.
In brief, you should use an Object:
var data = {};
data[year] = "some data";
// or
var data = {
2009: "2009 data",
2010: "2010 data"
};
Now I answer the question title: "Does JavaScript populate empty array items?"
No, as I said before, only the length property is changed, (if necessary, only if the index added is larger than the current length), length is incremented to be one more than the numeric value of that index.
The Array.prototype methods work assuming that the array object will have its indexes starting from zero.
The previous indexes don't really exist in the Array object, you can test it:
var array = [];
array[10] = undefined;
array.hasOwnProperty(10); // true
array.hasOwnProperty(9); // false
In conclusion, arrays are meant to contain sequential indexes, starting from zero, if your properties don't meet those requirements, you should simply use an object.
Yes, most likely. You should consider using a JavaScript object instead:
var years = {2009: 'Good', 2010: 'Better'};
Well, if you iterate over many thousands of undefined, it will affect overall program speed, not sure if you'll notice it though.
On the other hand, sometimes a sparse array is simpler to use than a custom object,
and arrays have such handy methods available.
In a calendar application I begin with objects for each year in use, but each year consists of a twelve member (months array) and each 'month' is a sparse array of significant dates, whose lengths depend on the highest date of that month that has any data.