Struct BasicSnowflakeGenerator

pub struct BasicSnowflakeGenerator<ID, T>
where
    ID: SnowflakeId,
    T: TimeSource<ID::Ty>,
{ /* private fields */ }

A non-concurrent Snowflake ID generator suitable for single-threaded environments.

This generator is lightweight and fast, but not thread-safe.

Features

• ❌ Not thread-safe
• ✅ Safely implement any SnowflakeId layout

Recommended When

• You’re in a single-threaded environment (no shared access)
• You want the fastest generator

See Also

• LockSnowflakeGenerator
• AtomicSnowflakeGenerator

Implementations

impl<ID, T> BasicSnowflakeGenerator<ID, T>

where ID: SnowflakeId, T: TimeSource<ID::Ty>,

pub fn new(machine_id: ID::Ty, clock: T) -> Self

Creates a new BasicSnowflakeGenerator initialized with the current time and a given machine ID.

This constructor sets the initial timestamp and sequence to zero, and uses the provided clock to fetch the current time during ID generation. It is the recommended way to create a new atomic generator for typical use cases.

Parameters

• machine_id: A unique identifier for the node or instance generating IDs. This value will be encoded into every generated ID.
• clock: A TimeSource implementation (e.g., MonotonicClock) that determines how timestamps are generated.

Returns

A new BasicSnowflakeGenerator ready to produce unique, time-ordered IDs.

Example

#[cfg(all(feature = "std", feature = "alloc", feature = "snowflake"))]
{
    use ferroid::{BasicSnowflakeGenerator, IdGenStatus, SnowflakeTwitterId, TWITTER_EPOCH, MonotonicClock};
     
    let generator = BasicSnowflakeGenerator::new(0, MonotonicClock::with_epoch(TWITTER_EPOCH));

    let id: SnowflakeTwitterId = loop {
        match generator.next_id() {
            IdGenStatus::Ready { id } => break id,
            IdGenStatus::Pending { .. } => core::hint::spin_loop(),
        }
    };
}

pub fn from_components( timestamp: ID::Ty, machine_id: ID::Ty, sequence: ID::Ty, clock: T, ) -> Self

Creates a new ID generator from explicit component values.

This constructor is primarily useful for advanced use cases such as restoring state from persistent storage or controlling the starting point of the generator manually.

Parameters

• timestamp: The initial timestamp component (usually in milliseconds)
• machine_id: The machine or worker identifier
• sequence: The initial sequence number
• clock: A TimeSource implementation used to fetch the current time

Returns

A new generator instance preloaded with the given state.

⚠️ Note

In typical use cases, you should prefer Self::new to let the generator initialize itself from the current time.

pub fn next_id(&self) -> IdGenStatus<ID>

Attempts to generate the next available ID.

Returns a new, time-ordered, unique ID if generation succeeds. If the generator is temporarily exhausted (e.g., the sequence is full and the clock has not advanced), it returns IdGenStatus::Pending.

Panics

This method currently has no fallible code paths, but may panic if an internal error occurs in future implementations. For explicitly fallible behavior, use Self::try_next_id instead.

Example

#[cfg(all(feature = "std", feature = "alloc", feature = "snowflake"))]
{
    use ferroid::{BasicSnowflakeGenerator, IdGenStatus, SnowflakeTwitterId, TWITTER_EPOCH, MonotonicClock};
     
    let generator = BasicSnowflakeGenerator::new(0, MonotonicClock::with_epoch(TWITTER_EPOCH));

    let id: SnowflakeTwitterId = loop {
        match generator.next_id() {
            IdGenStatus::Ready { id } => break id,
            IdGenStatus::Pending { .. } => std::thread::yield_now(),
        }
    };
}

pub fn try_next_id(&self) -> Result<IdGenStatus<ID>>

A fallible version of Self::next_id that returns a Result.

This method attempts to generate the next ID based on the current time and internal state. If successful, it returns IdGenStatus::Ready with a newly generated ID. If the generator is temporarily exhausted, it returns IdGenStatus::Pending. If an internal failure occurs (e.g., a time source or lock error), it returns an error.

Returns

• Ok(IdGenStatus::Ready { id }): A new ID is available
• Ok(IdGenStatus::Pending { yield_for }): The time to wait (in milliseconds) before trying again
• Err(_): infallible for this generator

Errors

• This method currently does not return any errors and always returns Ok. It is marked as fallible to allow for future extensibility

Example

#[cfg(all(feature = "std", feature = "alloc", feature = "snowflake"))]
{
    use ferroid::{BasicSnowflakeGenerator, ToU64, IdGenStatus, SnowflakeTwitterId, TWITTER_EPOCH, MonotonicClock};
     
    let generator = BasicSnowflakeGenerator::new(0, MonotonicClock::with_epoch(TWITTER_EPOCH));

    // Attempt to generate a new ID
    let id: SnowflakeTwitterId = loop {
        match generator.try_next_id() {
            Ok(IdGenStatus::Ready { id }) => break id,
            Ok(IdGenStatus::Pending { yield_for }) => {
                std::thread::sleep(core::time::Duration::from_millis(yield_for.to_u64()));
            }
            Err(_) => unreachable!(),
        }
    };
}

Trait Implementations

impl<ID, T> SnowflakeGenerator<ID, T> for BasicSnowflakeGenerator<ID, T>

where ID: SnowflakeId, T: TimeSource<ID::Ty>,

type Err = Infallible

fn new(machine_id: ID::Ty, clock: T) -> Self

fn next_id(&self) -> IdGenStatus<ID>

Returns the next available ID

fn try_next_id(&self) -> Result<IdGenStatus<ID>, Self::Err>

A fallible version of Self::next_id that returns a Result.