table.update(object | function) → object selection.update(object | function) → object singleSelection.update(object | function) → object
Update JSON documents in a table. Accepts a JSON document, a ReQL expression, or a combination of the two.
You can pass the following options using optArg:
durability: possible values are hard and soft. This option will override the table or query’s durability setting (set in run). In soft durability mode RethinkDB will acknowledge the write immediately after receiving it, but before the write has been committed to disk.return_changes: true: return a changes array consisting of old_val/new_val objects describing the changes made, only including the documents actually updated.false: do not return a changes array (the default)."always": behave as true, but include all documents the command tried to update whether or not the update was successful. (This was the behavior of true pre-2.0.)non_atomic: if set to true, executes the update and distributes the result to replicas in a non-atomic fashion. This flag is required to perform non-deterministic updates, such as those that require reading data from another table.Update returns an object that contains the following attributes:
replaced: the number of documents that were updated.unchanged: the number of documents that would have been modified except the new value was the same as the old value.skipped: the number of documents that were skipped because the document didn’t exist.errors: the number of errors encountered while performing the update.first_error: If errors were encountered, contains the text of the first error.deleted and inserted: 0 for an update operation.changes: if return_changes is set to true, this will be an array of objects, one for each objected affected by the update operation. Each object will have two keys: {new_val:<newvalue>,old_val:<oldvalue>}.RethinkDB write operations will only throw exceptions if errors occur before any writes. Other errors will be listed in
first_error, anderrorswill be set to a non-zero count. To properly handle errors with this term, code must both handle exceptions and check theerrorsreturn value!
Example: Update the status of the post with id of 1 to published.
r.table("posts").get(1).update(r.hashMap("status", "published")).run(conn);
Example: Update the status of all posts to published.
r.table("posts").update(r.hashMap("status", "published")).run(conn);
Example: Update the status of all the posts written by William.
r.table("posts").filter(
r.hashMap("author", "William")).update(r.hashMap("status", "published")
).run(conn);
Note that
filter,getAlland similar operations do not execute in an atomic fashion withupdate. Read Consistency guarantees for more details. Also, see the example for conditional updates below for a solution usingbranchin anupdateclause.
Example: Increment the field view of the post with id of 1. This query will throw an error if the field views doesn’t exist.
r.table("posts").get(1).update(
post -> r.hashMap("views", post.g("views").add(1))
).run(conn);
Example: Increment the field view of the post with id of 1. If the field views does not exist, it will be set to 0.
r.table("posts").get(1).update(
post -> r.hashMap("views", post.g("views").add(1).default_(0))
).run(conn);
Example: Perform a conditional update.
If the post has more than 100 views, set the type of a post to hot, else set it to normal.
r.table("posts").get(1).update(
post -> r.branch(post.g("views").gt(100),
r.hashMap("type", "hot"),
r.hashMap("type", "normal")
)
).run(conn);
Example: Update the field numComments with the result of a sub-query. Because this update is not atomic, you must pass the non_atomic flag.
r.table("posts").get(1).update(
r.hashMap("numComments", r.table("comments")
.filter(r.hashMap("id_post", 1)).count())
).optArg("non_atomic", true).run(conn);
If you forget to specify the non_atomic flag, you will get a ReqlRuntimeError:
ReqlRuntimeError: Could not prove function deterministic. Maybe you want to use the non_atomic flag?
Example: Update the field numComments with a random value between 0 and 100. This update cannot be proven deterministic because of r.js (and in fact is not), so you must pass the nonAtomic flag.
r.table("posts").get(1).update(
r.hashMap("numComments", r.js("Math.floor(Math.random()*100)"))
).optArg("non_atomic", true).run(conn);
Example: Update the status of the post with id of 1 using soft durability.
r.table("posts").get(1).update(
r.hashMap(status, "published")
).optArg("durability", "soft").run(conn);
Example: Increment the field views and return the values of the document before and after the update operation.
r.table("posts").get(1).update(
post -> r.hashMap("views", post.g("views").add(1))
).optArg("return_changes", true).run(conn);
The result will now include a changes field:
{
"deleted": 1,
"errors": 0,
"inserted": 0,
"changes": [
{
"new_val": {
"id": 1,
"author": "Julius_Caesar",
"title": "Commentarii de Bello Gallico",
"content": "Aleas jacta est",
"views": 207
},
"old_val": {
"id": 1,
"author": "Julius_Caesar",
"title": "Commentarii de Bello Gallico",
"content": "Aleas jacta est",
"views": 206
}
}
],
"replaced": 0,
"skipped": 0,
"unchanged": 0
}
The update command supports RethinkDB’s nested field syntax to update subdocuments. Consider a user table with contact information in this format:
{
"id": 10001,
"name": "Bob Smith",
"contact": {
"phone": {
"work": "408-555-1212",
"home": "408-555-1213",
"cell": "408-555-1214"
},
"email": {
"work": "[email protected]",
"home": "[email protected]",
"other": "[email protected]"
},
"im": {
"skype": "Bob Smith",
"aim": "bobmoose",
"icq": "nobodyremembersicqnumbers"
}
},
"notes": [
{
"date": r.time(2014,1,1,'Z'),
"from": "John Doe",
"subject": "My name is even more boring than Bob's"
},
{
"date": r.time(2014,2,2,'Z'),
"from": "Bob Smith Sr",
"subject": "Happy Second of February"
}
]
}
Example: Update Bob Smith’s cell phone number.
r.table("users").get(10001).update(
r.hashMap("contact",
r.hashMap("phone",
r.hashMap("cell", "408-555-4242")))
).run(conn);
Example: Add another note to Bob Smith’s record.
import com.rethinkdb.model.MapObject;
MapObject newNote = r.hashMap("date", r.now())
.with("from", "Admin")
.with("subject", "You killed my father");
r.table("users").get(10001).update(
row -> r.hashMap("notes", row.g("notes").append(newNote))
).run(conn);
This will fail if the notes field does not exist in the document. To perform this as an “upsert” (update or insert), use the default_ command to ensure the field is initialized as an empty list.
r.table("users").get(10001).update(
row -> r.hashMap(notes, row.g("notes").default_(r.array()).append(newNote))
).run(conn);
Example: Send a note to every user with an ICQ number.
import com.rethinkdb.model.MapObject;
MapObject icqNote = r.hashMap("date", r.now())
.with("from", "Admin")
.with("subject", "Welcome to the future");
r.table("users").filter(
row -> row.hasFields(r.hashMap("contact", r.hashMap("im", "icq")))
).update(r.hashMap("notes", row.g("notes").append(icqNote))).run(conn);
Example: Replace all of Bob’s IM records. Normally, update will merge nested documents together; to replace the entire "im" document, use the literal command.
r.table("users").get(10001).update(
r.hashMap("contact",
r.hashMap("im",
r.literal(r.hashMap("aim", "themoosemeister"))))
).run(conn);
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https://rethinkdb.com/api/java/update/