modal.Queue

class Queue(modal.object.Object)

Distributed, FIFO queue for data flow in Modal apps.

The queue can contain any object serializable by cloudpickle, including Modal objects.

By default, the Queue object acts as a single FIFO queue which supports puts and gets (blocking and non-blocking).

Usage

from modal import Queue

# Create an ephemeral queue which is anonymous and garbage collected
with Queue.ephemeral() as my_queue:
    # Putting values
    my_queue.put("some value")
    my_queue.put(123)

    # Getting values
    assert my_queue.get() == "some value"
    assert my_queue.get() == 123

    # Using partitions
    my_queue.put(0)
    my_queue.put(1, partition="foo")
    my_queue.put(2, partition="bar")

    # Default and "foo" partition are ignored by the get operation.
    assert my_queue.get(partition="bar") == 2

    # Set custom 10s expiration time on "foo" partition.
    my_queue.put(3, partition="foo", partition_ttl=10)

    # (beta feature) Iterate through items in place (read immutably)
    my_queue.put(1)
    assert [v for v in my_queue.iterate()] == [0, 1]

# You can also create persistent queues that can be used across apps
queue = Queue.from_name("my-persisted-queue", create_if_missing=True)
queue.put(42)
assert queue.get() == 42

For more examples, see the guide.

Queue partitions (beta)

Specifying partition keys gives access to other independent FIFO partitions within the same Queue object. Across any two partitions, puts and gets are completely independent. For example, a put in one partition does not affect a get in any other partition.

When no partition key is specified (by default), puts and gets will operate on a default partition. This default partition is also isolated from all other partitions. Please see the Usage section below for an example using partitions.

Lifetime of a queue and its partitions

By default, each partition is cleared 24 hours after the last put operation. A lower TTL can be specified by the partition_ttl argument in the put or put_many methods. Each partition’s expiry is handled independently.

As such, Queues are best used for communication between active functions and not relied on for persistent storage.

On app completion or after stopping an app any associated Queue objects are cleaned up. All its partitions will be cleared.

Limits

A single Queue can contain up to 100,000 partitions, each with up to 5,000 items. Each item can be up to 1 MiB.

Partition keys must be non-empty and must not exceed 64 bytes.

hydrate 

def hydrate(self, client: Optional[_Client] = None) -> Self:

Synchronize the local object with its identity on the Modal server.

It is rarely necessary to call this method explicitly, as most operations will lazily hydrate when needed. The main use case is when you need to access object metadata, such as its ID.

Added in v0.72.39: This method replaces the deprecated .resolve() method.

objects 

class objects(object)

Namespace with methods for managing named Queue objects.

create 

@staticmethod
def create(
    name: str,  # Name to use for the new Queue
    *,
    allow_existing: bool = False,  # If True, no-op when the Queue already exists
    environment_name: Optional[str] = None,  # Uses active environment if not specified
    client: Optional[_Client] = None,  # Optional client with Modal credentials
) -> None:

Create a new Queue object.

Examples:

modal.Queue.objects.create("my-queue")

Queues will be created in the active environment, or another one can be specified:

modal.Queue.objects.create("my-queue", environment_name="dev")

By default, an error will be raised if the Queue already exists, but passing allow_existing=True will make the creation attempt a no-op in this case.

modal.Queue.objects.create("my-queue", allow_existing=True)

Note that this method does not return a local instance of the Queue. You can use modal.Queue.from_name to perform a lookup after creation.

Added in v1.1.2.

list 

@staticmethod
def list(
    *,
    max_objects: Optional[int] = None,  # Limit results to this size
    created_before: Optional[Union[datetime, str]] = None,  # Limit based on creation date
    environment_name: str = "",  # Uses active environment if not specified
    client: Optional[_Client] = None,  # Optional client with Modal credentials
) -> list["_Queue"]:

Return a list of hydrated Queue objects.

Examples:

queues = modal.Queue.objects.list()
print([q.name for q in queues])

Queues will be retreived from the active environment, or another one can be specified:

dev_queues = modal.Queue.objects.list(environment_name="dev")

By default, all named Queues are returned, newest to oldest. It’s also possible to limit the number of results and to filter by creation date:

queues = modal.Queue.objects.list(max_objects=10, created_before="2025-01-01")

Added in v1.1.2.

delete 

@staticmethod
def delete(
    name: str,  # Name of the Queue to delete
    *,
    allow_missing: bool = False,  # If True, don't raise an error if the Queue doesn't exist
    environment_name: Optional[str] = None,  # Uses active environment if not specified
    client: Optional[_Client] = None,  # Optional client with Modal credentials
):

Delete a named Queue.

Warning: This deletes an entire Queue, not just a specific entry or partition. Deletion is irreversible and will affect any Apps currently using the Queue.

Examples:

await modal.Queue.objects.delete("my-queue")

Queues will be deleted from the active environment, or another one can be specified:

await modal.Queue.objects.delete("my-queue", environment_name="dev")

Added in v1.1.2.

name 

@property
def name(self) -> Optional[str]:

validate_partition_key 

@staticmethod
def validate_partition_key(partition: Optional[str]) -> bytes:

ephemeral 

@classmethod
@contextmanager
def ephemeral(
    cls: type["_Queue"],
    client: Optional[_Client] = None,
    environment_name: Optional[str] = None,
) -> Iterator["_Queue"]:

Creates a new ephemeral queue within a context manager:

Usage:

from modal import Queue

with Queue.ephemeral() as q:
    q.put(123)

async with Queue.ephemeral() as q:
    await q.put.aio(123)

from_name 

@staticmethod
def from_name(
    name: str,
    *,
    environment_name: Optional[str] = None,
    create_if_missing: bool = False,
) -> "_Queue":

Reference a named Queue, creating if necessary.

This is a lazy method the defers hydrating the local object with metadata from Modal servers until the first time it is actually used.

q = modal.Queue.from_name("my-queue", create_if_missing=True)
q.put(123)

info 

@live_method
def info(self) -> QueueInfo:

Return information about the Queue object.

clear 

@live_method
def clear(self, *, partition: Optional[str] = None, all: bool = False) -> None:

Clear the contents of a single partition or all partitions.

get 

@live_method
def get(
    self, block: bool = True, timeout: Optional[float] = None, *, partition: Optional[str] = None
) -> Optional[Any]:

Remove and return the next object in the queue.

If block is True (the default) and the queue is empty, get will wait indefinitely for an object, or until timeout if specified. Raises a native queue.Empty exception if the timeout is reached.

If block is False, get returns None immediately if the queue is empty. The timeout is ignored in this case.

get_many 

@live_method
def get_many(
    self, n_values: int, block: bool = True, timeout: Optional[float] = None, *, partition: Optional[str] = None
) -> list[Any]:

Remove and return up to n_values objects from the queue.

If there are fewer than n_values items in the queue, return all of them.

If block is True (the default) and the queue is empty, get will wait indefinitely for at least 1 object to be present, or until timeout if specified. Raises the stdlib’s queue.Empty exception if the timeout is reached.

If block is False, get returns None immediately if the queue is empty. The timeout is ignored in this case.

put 

@live_method
def put(
    self,
    v: Any,
    block: bool = True,
    timeout: Optional[float] = None,
    *,
    partition: Optional[str] = None,
    partition_ttl: int = 24 * 3600,  # After 24 hours of no activity, this partition will be deletd.
) -> None:

Add an object to the end of the queue.

If block is True and the queue is full, this method will retry indefinitely or until timeout if specified. Raises the stdlib’s queue.Full exception if the timeout is reached. If blocking it is not recommended to omit the timeout, as the operation could wait indefinitely.

If block is False, this method raises queue.Full immediately if the queue is full. The timeout is ignored in this case.

put_many 

@live_method
def put_many(
    self,
    vs: list[Any],
    block: bool = True,
    timeout: Optional[float] = None,
    *,
    partition: Optional[str] = None,
    partition_ttl: int = 24 * 3600,  # After 24 hours of no activity, this partition will be deletd.
) -> None:

Add several objects to the end of the queue.

If block is True and the queue is full, this method will retry indefinitely or until timeout if specified. Raises the stdlib’s queue.Full exception if the timeout is reached. If blocking it is not recommended to omit the timeout, as the operation could wait indefinitely.

If block is False, this method raises queue.Full immediately if the queue is full. The timeout is ignored in this case.

len 

@live_method
def len(self, *, partition: Optional[str] = None, total: bool = False) -> int:

Return the number of objects in the queue partition.

iterate 

@warn_if_generator_is_not_consumed()
@live_method_gen
def iterate(
    self, *, partition: Optional[str] = None, item_poll_timeout: float = 0.0
) -> AsyncGenerator[Any, None]:

(Beta feature) Iterate through items in the queue without mutation.

Specify item_poll_timeout to control how long the iterator should wait for the next time before giving up.