Here's my query as it stands:
"query":{
"fuzzy":{
"author":{
"value":query,
"fuzziness":2
},
"career_title":{
"value":query,
"fuzziness":2
}
}
}
This is part of a callback in Node.js. Query (which is being plugged in as a value to compare against) is set earlier in the function.
What I need it to be able to do is to check both the author and the career_title of a document, fuzzily, and return any documents that match in either field. The above statement never returns anything, and whenever I try to access the object it should create, it says it's undefined. I understand that I could write two queries, one to check each field, then sort the results by score, but I feel like searching every object for one field twice will be slower than searching every object for two fields once.
https://www.elastic.co/guide/en/elasticsearch/guide/current/fuzzy-match-query.html
If you see here, in a multi match query you can specify the fuzziness...
{
"query": {
"multi_match": {
"fields": [ "text", "title" ],
"query": "SURPRIZE ME!",
"fuzziness": "AUTO"
}
}
}
Somewhat like this.. Hope this helps.
Related
I am trying to update a value in the nested array but can't get it to work.
My object is like this
{
"_id": {
"$oid": "1"
},
"array1": [
{
"_id": "12",
"array2": [
{
"_id": "123",
"answeredBy": [], // need to push "success"
},
{
"_id": "124",
"answeredBy": [],
}
],
}
]
}
I need to push a value to "answeredBy" array.
In the below example, I tried pushing "success" string to the "answeredBy" array of the "123 _id" object but it does not work.
callback = function(err,value){
if(err){
res.send(err);
}else{
res.send(value);
}
};
conditions = {
"_id": 1,
"array1._id": 12,
"array2._id": 123
};
updates = {
$push: {
"array2.$.answeredBy": "success"
}
};
options = {
upsert: true
};
Model.update(conditions, updates, options, callback);
I found this link, but its answer only says I should use object like structure instead of array's. This cannot be applied in my situation. I really need my object to be nested in arrays
It would be great if you can help me out here. I've been spending hours to figure this out.
Thank you in advance!
General Scope and Explanation
There are a few things wrong with what you are doing here. Firstly your query conditions. You are referring to several _id values where you should not need to, and at least one of which is not on the top level.
In order to get into a "nested" value and also presuming that _id value is unique and would not appear in any other document, you query form should be like this:
Model.update(
{ "array1.array2._id": "123" },
{ "$push": { "array1.0.array2.$.answeredBy": "success" } },
function(err,numAffected) {
// something with the result in here
}
);
Now that would actually work, but really it is only a fluke that it does as there are very good reasons why it should not work for you.
The important reading is in the official documentation for the positional $ operator under the subject of "Nested Arrays". What this says is:
The positional $ operator cannot be used for queries which traverse more than one array, such as queries that traverse arrays nested within other arrays, because the replacement for the $ placeholder is a single value
Specifically what that means is the element that will be matched and returned in the positional placeholder is the value of the index from the first matching array. This means in your case the matching index on the "top" level array.
So if you look at the query notation as shown, we have "hardcoded" the first ( or 0 index ) position in the top level array, and it just so happens that the matching element within "array2" is also the zero index entry.
To demonstrate this you can change the matching _id value to "124" and the result will $push an new entry onto the element with _id "123" as they are both in the zero index entry of "array1" and that is the value returned to the placeholder.
So that is the general problem with nesting arrays. You could remove one of the levels and you would still be able to $push to the correct element in your "top" array, but there would still be multiple levels.
Try to avoid nesting arrays as you will run into update problems as is shown.
The general case is to "flatten" the things you "think" are "levels" and actually make theses "attributes" on the final detail items. For example, the "flattened" form of the structure in the question should be something like:
{
"answers": [
{ "by": "success", "type2": "123", "type1": "12" }
]
}
Or even when accepting the inner array is $push only, and never updated:
{
"array": [
{ "type1": "12", "type2": "123", "answeredBy": ["success"] },
{ "type1": "12", "type2": "124", "answeredBy": [] }
]
}
Which both lend themselves to atomic updates within the scope of the positional $ operator
MongoDB 3.6 and Above
From MongoDB 3.6 there are new features available to work with nested arrays. This uses the positional filtered $[<identifier>] syntax in order to match the specific elements and apply different conditions through arrayFilters in the update statement:
Model.update(
{
"_id": 1,
"array1": {
"$elemMatch": {
"_id": "12","array2._id": "123"
}
}
},
{
"$push": { "array1.$[outer].array2.$[inner].answeredBy": "success" }
},
{
"arrayFilters": [{ "outer._id": "12" },{ "inner._id": "123" }]
}
)
The "arrayFilters" as passed to the options for .update() or even
.updateOne(), .updateMany(), .findOneAndUpdate() or .bulkWrite() method specifies the conditions to match on the identifier given in the update statement. Any elements that match the condition given will be updated.
Because the structure is "nested", we actually use "multiple filters" as is specified with an "array" of filter definitions as shown. The marked "identifier" is used in matching against the positional filtered $[<identifier>] syntax actually used in the update block of the statement. In this case inner and outer are the identifiers used for each condition as specified with the nested chain.
This new expansion makes the update of nested array content possible, but it does not really help with the practicality of "querying" such data, so the same caveats apply as explained earlier.
You typically really "mean" to express as "attributes", even if your brain initially thinks "nesting", it's just usually a reaction to how you believe the "previous relational parts" come together. In reality you really need more denormalization.
Also see How to Update Multiple Array Elements in mongodb, since these new update operators actually match and update "multiple array elements" rather than just the first, which has been the previous action of positional updates.
NOTE Somewhat ironically, since this is specified in the "options" argument for .update() and like methods, the syntax is generally compatible with all recent release driver versions.
However this is not true of the mongo shell, since the way the method is implemented there ( "ironically for backward compatibility" ) the arrayFilters argument is not recognized and removed by an internal method that parses the options in order to deliver "backward compatibility" with prior MongoDB server versions and a "legacy" .update() API call syntax.
So if you want to use the command in the mongo shell or other "shell based" products ( notably Robo 3T ) you need a latest version from either the development branch or production release as of 3.6 or greater.
See also positional all $[] which also updates "multiple array elements" but without applying to specified conditions and applies to all elements in the array where that is the desired action.
I know this is a very old question, but I just struggled with this problem myself, and found, what I believe to be, a better answer.
A way to solve this problem is to use Sub-Documents. This is done by nesting schemas within your schemas
MainSchema = new mongoose.Schema({
array1: [Array1Schema]
})
Array1Schema = new mongoose.Schema({
array2: [Array2Schema]
})
Array2Schema = new mongoose.Schema({
answeredBy": [...]
})
This way the object will look like the one you show, but now each array are filled with sub-documents. This makes it possible to dot your way into the sub-document you want. Instead of using a .update you then use a .find or .findOne to get the document you want to update.
Main.findOne((
{
_id: 1
}
)
.exec(
function(err, result){
result.array1.id(12).array2.id(123).answeredBy.push('success')
result.save(function(err){
console.log(result)
});
}
)
Haven't used the .push() function this way myself, so the syntax might not be right, but I have used both .set() and .remove(), and both works perfectly fine.
Currently I am working on a mobile app. Basically people can post their photos and the followers can like the photos like Instagram. I use mongodb as the database. Like instagram, there might be a lot of likes for a single photos. So using a document for a single "like" with index seems not reasonable because it will waste a lot of memory. However, I'd like a user add a like quickly. So my question is how to model the "like"? Basically the data model is much similar to instagram but using Mongodb.
No matter how you structure your overall document there are basically two things you need. That is basically a property for a "count" and a "list" of those who have already posted their "like" in order to ensure there are no duplicates submitted. Here's a basic structure:
{
"_id": ObjectId("54bb201aa3a0f26f885be2a3")
"photo": "imagename.png",
"likeCount": 0
"likes": []
}
Whatever the case, there is a unique "_id" for your "photo post" and whatever information you want, but then the other fields as mentioned. The "likes" property here is an array, and that is going to hold the unique "_id" values from the "user" objects in your system. So every "user" has their own unique identifier somewhere, either in local storage or OpenId or something, but a unique identifier. I'll stick with ObjectId for the example.
When someone submits a "like" to a post, you want to issue the following update statement:
db.photos.update(
{
"_id": ObjectId("54bb201aa3a0f26f885be2a3"),
"likes": { "$ne": ObjectId("54bb2244a3a0f26f885be2a4") }
},
{
"$inc": { "likeCount": 1 },
"$push": { "likes": ObjectId("54bb2244a3a0f26f885be2a4") }
}
)
Now the $inc operation there will increase the value of "likeCount" by the number specified, so increase by 1. The $push operation adds the unique identifier for the user to the array in the document for future reference.
The main important thing here is to keep a record of those users who voted and what is happening in the "query" part of the statement. Apart from selecting the document to update by it's own unique "_id", the other important thing is to check that "likes" array to make sure the current voting user is not in there already.
The same is true for the reverse case or "removing" the "like":
db.photos.update(
{
"_id": ObjectId("54bb201aa3a0f26f885be2a3"),
"likes": ObjectId("54bb2244a3a0f26f885be2a4")
},
{
"$inc": { "likeCount": -1 },
"$pull": { "likes": ObjectId("54bb2244a3a0f26f885be2a4") }
}
)
The main important thing here is the query conditions being used to make sure that no document is touched if all conditions are not met. So the count does not increase if the user had already voted or decrease if their vote was not actually present anymore at the time of the update.
Of course it is not practical to read an array with a couple of hundred entries in a document back in any other part of your application. But MongoDB has a very standard way to handle that as well:
db.photos.find(
{
"_id": ObjectId("54bb201aa3a0f26f885be2a3"),
},
{
"photo": 1
"likeCount": 1,
"likes": {
"$elemMatch": { "$eq": ObjectId("54bb2244a3a0f26f885be2a4") }
}
}
)
This usage of $elemMatch in projection will only return the current user if they are present or just a blank array where they are not. This allows the rest of your application logic to be aware if the current user has already placed a vote or not.
That is the basic technique and may work for you as is, but you should be aware that embedded arrays should not be infinitely extended, and there is also a hard 16MB limit on BSON documents. So the concept is sound, but just cannot be used on it's own if you are expecting 1000's of "like votes" on your content. There is a concept known as "bucketing" which is discussed in some detail in this example for Hybrid Schema design that allows one solution to storing a high volume of "likes". You can look at that to use along with the basic concepts here as a way to do this at volume.
This is the case: A webshop in which I want to configure which items should be listed in the sjop based on a set of parameters.
I want this to be configurable, because that allows me to experiment with different parameters also change their values easily.
I have a Product collection that I want to query based on multiple parameters.
A couple of these are found here:
within product:
"delivery" : {
"maximum_delivery_days" : 30,
"average_delivery_days" : 10,
"source" : 1,
"filling_rate" : 85,
"stock" : 0
}
but also other parameters exist.
An example of such query to decide whether or not to include a product could be:
"$or" : [
{
"delivery.stock" : 1
},
{
"$or" : [
{
"$and" : [
{
"delivery.maximum_delivery_days" : {
"$lt" : 60
}
},
{
"delivery.filling_rate" : {
"$gt" : 90
}
}
]
},
{
"$and" : [
{
"delivery.maximum_delivery_days" : {
"$lt" : 40
}
},
{
"delivery.filling_rate" : {
"$gt" : 80
}
}
]
},
{
"$and" : [
{
"delivery.delivery_days" : {
"$lt" : 25
}
},
{
"delivery.filling_rate" : {
"$gt" : 70
}
}
]
}
]
}
]
Now to make this configurable, I need to be able to handle boolean logic, parameters and values.
So, I got the idea, since such query itself is JSON, to store it in Mongo and have my Java app retrieve it.
Next thing is using it in the filter (e.g. find, or whatever) and work on the corresponding selection of products.
The advantage of this approach is that I can actually analyse the data and the effectiveness of the query outside of my program.
I would store it by name in the database. E.g.
{
"name": "query1",
"query": { the thing printed above starting with "$or"... }
}
using:
db.queries.insert({
"name" : "query1",
"query": { the thing printed above starting with "$or"... }
})
Which results in:
2016-03-27T14:43:37.265+0200 E QUERY Error: field names cannot start with $ [$or]
at Error (<anonymous>)
at DBCollection._validateForStorage (src/mongo/shell/collection.js:161:19)
at DBCollection._validateForStorage (src/mongo/shell/collection.js:165:18)
at insert (src/mongo/shell/bulk_api.js:646:20)
at DBCollection.insert (src/mongo/shell/collection.js:243:18)
at (shell):1:12 at src/mongo/shell/collection.js:161
But I CAN STORE it using Robomongo, but not always. Obviously I am doing something wrong. But I have NO IDEA what it is.
If it fails, and I create a brand new collection and try again, it succeeds. Weird stuff that goes beyond what I can comprehend.
But when I try updating values in the "query", changes are not going through. Never. Not even sometimes.
I can however create a new object and discard the previous one. So, the workaround is there.
db.queries.update(
{"name": "query1"},
{"$set": {
... update goes here ...
}
}
)
doing this results in:
WriteResult({
"nMatched" : 0,
"nUpserted" : 0,
"nModified" : 0,
"writeError" : {
"code" : 52,
"errmsg" : "The dollar ($) prefixed field '$or' in 'action.$or' is not valid for storage."
}
})
seems pretty close to the other message above.
Needles to say, I am pretty clueless about what is going on here, so I hope some of the wizzards here are able to shed some light on the matter
I think the error message contains the important info you need to consider:
QUERY Error: field names cannot start with $
Since you are trying to store a query (or part of one) in a document, you'll end up with attribute names that contain mongo operator keywords (such as $or, $ne, $gt). The mongo documentation actually references this exact scenario - emphasis added
Field names cannot contain dots (i.e. .) or null characters, and they must not start with a dollar sign (i.e. $)...
I wouldn't trust 3rd party applications such as Robomongo in these instances. I suggest debugging/testing this issue directly in the mongo shell.
My suggestion would be to store an escaped version of the query in your document as to not interfere with reserved operator keywords. You can use the available JSON.stringify(my_obj); to encode your partial query into a string and then parse/decode it when you choose to retrieve it later on: JSON.parse(escaped_query_string_from_db)
Your approach of storing the query as a JSON object in MongoDB is not viable.
You could potentially store your query logic and fields in MongoDB, but you have to have an external app build the query with the proper MongoDB syntax.
MongoDB queries contain operators, and some of those have special characters in them.
There are rules for mongoDB filed names. These rules do not allow for special characters.
Look here: https://docs.mongodb.org/manual/reference/limits/#Restrictions-on-Field-Names
The probable reason you can sometimes successfully create the doc using Robomongo is because Robomongo is transforming your query into a string and properly escaping the special characters as it sends it to MongoDB.
This also explains why your attempt to update them never works. You tried to create a document, but instead created something that is a string object, so your update conditions are probably not retrieving any docs.
I see two problems with your approach.
In following query
db.queries.insert({
"name" : "query1",
"query": { the thing printed above starting with "$or"... }
})
a valid JSON expects key, value pair. here in "query" you are storing an object without a key. You have two options. either store query as text or create another key inside curly braces.
Second problem is, you are storing query values without wrapping in quotes. All string values must be wrapped in quotes.
so your final document should appear as
db.queries.insert({
"name" : "query1",
"query": 'the thing printed above starting with "$or"... '
})
Now try, it should work.
Obviously my attempt to store a query in mongo the way I did was foolish as became clear from the answers from both #bigdatakid and #lix. So what I finally did was this: I altered the naming of the fields to comply to the mongo requirements.
E.g. instead of $or I used _$or etc. and instead of using a . inside the name I used a #. Both of which I am replacing in my Java code.
This way I can still easily try and test the queries outside of my program. In my Java program I just change the names and use the query. Using just 2 lines of code. It simply works now. Thanks guys for the suggestions you made.
String documentAsString = query.toJson().replaceAll("_\\$", "\\$").replaceAll("#", ".");
Object q = JSON.parse(documentAsString);
If I want to search an index I can use:
$curl -XGET 'X/index1/_search?q=title:ES'
If I want to search a document type I can use:
$curl -XGET 'X/index1/docType1/_search?q=title:ES'
But if I want to search a specific document, this doesn't work:
$curl -XGET 'X/index1/docType1/documentID/_search?q=title:ES'
Is there a simple work around for this so that I can search within a single document as opposed to an entire index or an entire document type? To explain why I need this, I have to do some resource intensive queries to find what I'm looking for. Once I find the documents I need, I don't actually need the whole document, just the highlighted portion that matches the query. But I don't want to store all the highlighted hits in memory because I might not need them for a few hours and at times they could take up a lot of space (I would also prefer not to write them to disk). I'd rather store a list of document ids so that when I need the highlighted portion of a document I can just run the highlighted query on a specific document and get back the highlighted portion. Thanks in advance for your help!
You can index the document's id as a field, then when you query, include the unique document id as a term to narrow the results just to that single document.
'$curl -XPOST 'X/index1/docType1/_search' -d '{
"query": {
"bool": {
"must":[
{"match":{"doc":"223"}},
{"match":{"title":"highlight me please"}}
]
}
}
}'
You can use the Ids Query in Elasticsearch to search on a single document. Elasticsearch by default, indexes a field called _uid which is the combination of type and id so that it can be used for queries, aggregations, scripts, and sorting.
So the query you need will be as follows
curl -XGET 'X/index1/_search' -d '{
"query": {
"bool": {
"must": [
{
"match": {
"title": "ES"
}
},
{
"ids": {
"type" : "docType1",
"values": [
"documentID"
]
}
}
]
}
}
}'
If you need to search on multiple documents, then specify doc_ids in the values array in ids query.
How do I get elastic search to work to solve a simple autocomplete use case that has multiple words?
Lets say I have a document with the following title - Elastic search is a great search tool built on top of lucene.
So if I use the prefix query and construct it with the form -
{
"prefix" : { "title" : "Elas" }
}
It will return that document in the result set.
However if I do a prefix search for
{
"prefix" : { "title" : "Elastic sea" }
}
I get no results.
What sort of query do I need to construct so as to present to the user that result for a simple autocomplete use case.
A prefix query made on Elastic sea would match a term like Elastic search in the index, but that doesn't appear in your index if you tokenize on whitespaces. What you have is elastic and search as two different tokens. Have a look at the analyze api to find out how you are actually indexing your text.
Using a boolean query like in your answer you wouldn't take into account the position of the terms. You would get as a result the following document for example:
Elastic model is a framework to store your Moose object and search
through them.
For auto-complete purposes you might want to make a phrase query and use the last term as a prefix. That's available out of the box using the match_phrase_prefix type in a match query, which was made available exactly for your usecase:
{
"match" : {
"message" : {
"query" : "elastic sea",
"type" : "phrase_prefix"
}
}
}
With this query your example document would match but mine wouldn't since elastic is not close to search there.
To achieve that result, you will need to use a Boolean query. The partial word needs to be a prefix query and the complete word or phrase needs to be in a match clause. There are other tweaks available to the query like must should etc.. that can be applied as needed.
{
"query": {
"bool": {
"must": [
{
"prefix": {
"name": "sea"
}
},
{
"match": {
"name": "elastic"
}
}
]
}
}
}