Aggregation Framework Examples¶
This document provides a number of practical examples that display the capabilities of the aggregation framework.
The Aggregations using the Zip Codes Data Set examples uses a publicly available data set of all zipcodes and populations in the United States. These data are available at: zips.json.
Requirements¶
MongoDB, version 2.2.0 or later. MongoDB C driver, version 0.96.0 or later.
Let's check if everything is installed.
Use the following command to load zips.json data set into mongod instance:
$ mongoimport --drop -d test -c zipcodes zips.json
Let's use the MongoDB shell to verify that everything was imported successfully.
$ mongo testMongoDB shell version: 2.6.1
connecting to: test> db.zipcodes.count()29467> db.zipcodes.findOne(){
"_id" : "35004",
"city" : "ACMAR",
"loc" : [
-86.51557,
33.584132
],
"pop" : 6055,
"state" : "AL"
}
Aggregations using the Zip Codes Data Set¶
Each document in this collection has the following form:
{
"_id" : "35004",
"city" : "Acmar",
"state" : "AL",
"pop" : 6055,
"loc" : [-86.51557, 33.584132]
}
In these documents:
- The
_id
field holds the zipcode as a string. - The
city
field holds the city name. - The
state
field holds the two letter state abbreviation. - The
pop
field holds the population. - The
loc
field holds the location as a[latitude, longitude]
array.
States with Populations Over 10 Million¶
To get all states with a population greater than 10 million, use the following aggregation pipeline:
#include <mongoc.h>
#include <stdio.h>
static void
print_pipeline (mongoc_collection_t *collection)
{
mongoc_cursor_t *cursor;
bson_error_t error;
const bson_t *doc;
bson_t *pipeline;
char *str;
pipeline = BCON_NEW ("pipeline",
"[",
"{",
"$group",
"{",
"_id",
"$state",
"total_pop",
"{",
"$sum",
"$pop",
"}",
"}",
"}",
"{",
"$match",
"{",
"total_pop",
"{",
"$gte",
BCON_INT32 (10000000),
"}",
"}",
"}",
"]");
cursor = mongoc_collection_aggregate (
collection, MONGOC_QUERY_NONE, pipeline, NULL, NULL);
while (mongoc_cursor_next (cursor, &doc)) {
str = bson_as_json (doc, NULL);
printf ("%s\n", str);
bson_free (str);
}
if (mongoc_cursor_error (cursor, &error)) {
fprintf (stderr, "Cursor Failure: %s\n", error.message);
}
mongoc_cursor_destroy (cursor);
bson_destroy (pipeline);
}
int
main (int argc, char *argv[])
{
mongoc_client_t *client;
mongoc_collection_t *collection;
mongoc_init ();
client = mongoc_client_new (
"mongodb://localhost:27017?appname=aggregation-example");
mongoc_client_set_error_api (client, 2);
collection = mongoc_client_get_collection (client, "test", "zipcodes");
print_pipeline (collection);
mongoc_collection_destroy (collection);
mongoc_client_destroy (client);
mongoc_cleanup ();
return 0;
}
You should see a result like the following:
{ "_id" : "PA", "total_pop" : 11881643 }
{ "_id" : "OH", "total_pop" : 10847115 }
{ "_id" : "NY", "total_pop" : 17990455 }
{ "_id" : "FL", "total_pop" : 12937284 }
{ "_id" : "TX", "total_pop" : 16986510 }
{ "_id" : "IL", "total_pop" : 11430472 }
{ "_id" : "CA", "total_pop" : 29760021 }
The above aggregation pipeline is build from two pipeline operators: $group
and $match
.
The $group
pipeline operator requires _id field where we specify grouping; remaining fields specify how to generate composite value and must use one of the group aggregation functions: $addToSet
, $first
, $last
, $max
, $min
, $avg
, $push
, $sum
. The $match
pipeline operator syntax is the same as the read operation query syntax.
The $group
process reads all documents and for each state it creates a separate document, for example:
{ "_id" : "WA", "total_pop" : 4866692 }
The total_pop
field uses the $sum aggregation function to sum the values of all pop fields in the source documents.
Documents created by $group
are piped to the $match
pipeline operator. It returns the documents with the value of total_pop
field greater than or equal to 10 million.
Average City Population by State¶
To get the first three states with the greatest average population per city, use the following aggregation:
pipeline = BCON_NEW ("pipeline", "[",
"{", "$group", "{", "_id", "{", "state", "$state", "city", "$city", "}", "pop", "{", "$sum", "$pop", "}", "}", "}",
"{", "$group", "{", "_id", "$_id.state", "avg_city_pop", "{", "$avg", "$pop", "}", "}", "}",
"{", "$sort", "{", "avg_city_pop", BCON_INT32 (-1), "}", "}",
"{", "$limit", BCON_INT32 (3) "}",
"]");
This aggregate pipeline produces:
{ "_id" : "DC", "avg_city_pop" : 303450.0 }
{ "_id" : "FL", "avg_city_pop" : 27942.29805615551 }
{ "_id" : "CA", "avg_city_pop" : 27735.341099720412 }
The above aggregation pipeline is build from three pipeline operators: $group
, $sort
and $limit
.
The first $group
operator creates the following documents:
{ "_id" : { "state" : "WY", "city" : "Smoot" }, "pop" : 414 }
Note, that the $group
operator can't use nested documents except the _id
field.
The second $group
uses these documents to create the following documents:
{ "_id" : "FL", "avg_city_pop" : 27942.29805615551 }
These documents are sorted by the avg_city_pop
field in descending order. Finally, the $limit
pipeline operator returns the first 3 documents from the sorted set.