Revision b9beba72c3bb808c7905a64174ec1e8e3c16f810 authored by Lilith Orion Hafner on 23 July 2024, 15:52:24 UTC, committed by Lilith Orion Hafner on 23 July 2024, 15:52:38 UTC
1 parent fe207c5
channels.jl
# This file is a part of Julia. License is MIT: https://julialang.org/license
"""
AbstractChannel{T}
Representation of a channel passing objects of type `T`.
"""
abstract type AbstractChannel{T} end
push!(c::AbstractChannel, v) = (put!(c, v); c)
popfirst!(c::AbstractChannel) = take!(c)
"""
Channel{T=Any}(size::Int=0)
Constructs a `Channel` with an internal buffer that can hold a maximum of `size` objects
of type `T`.
[`put!`](@ref) calls on a full channel block until an object is removed with [`take!`](@ref).
`Channel(0)` constructs an unbuffered channel. `put!` blocks until a matching `take!` is called.
And vice-versa.
Other constructors:
* `Channel()`: default constructor, equivalent to `Channel{Any}(0)`
* `Channel(Inf)`: equivalent to `Channel{Any}(typemax(Int))`
* `Channel(sz)`: equivalent to `Channel{Any}(sz)`
!!! compat "Julia 1.3"
The default constructor `Channel()` and default `size=0` were added in Julia 1.3.
"""
mutable struct Channel{T} <: AbstractChannel{T}
cond_take::Threads.Condition # waiting for data to become available
cond_wait::Threads.Condition # waiting for data to become maybe available
cond_put::Threads.Condition # waiting for a writeable slot
@atomic state::Symbol
excp::Union{Exception, Nothing} # exception to be thrown when state !== :open
data::Vector{T}
@atomic n_avail_items::Int # Available items for taking, can be read without lock
sz_max::Int # maximum size of channel
function Channel{T}(sz::Integer = 0) where T
if sz < 0
throw(ArgumentError("Channel size must be either 0, a positive integer or Inf"))
end
lock = ReentrantLock()
cond_put, cond_take = Threads.Condition(lock), Threads.Condition(lock)
cond_wait = (sz == 0 ? Threads.Condition(lock) : cond_take) # wait is distinct from take iff unbuffered
return new(cond_take, cond_wait, cond_put, :open, nothing, Vector{T}(), 0, sz)
end
end
function Channel{T}(sz::Float64) where T
sz = (sz == Inf ? typemax(Int) : convert(Int, sz))
return Channel{T}(sz)
end
Channel(sz=0) = Channel{Any}(sz)
# special constructors
"""
Channel{T=Any}(func::Function, size=0; taskref=nothing, spawn=false, threadpool=nothing)
Create a new task from `func`, bind it to a new channel of type
`T` and size `size`, and schedule the task, all in a single call.
The channel is automatically closed when the task terminates.
`func` must accept the bound channel as its only argument.
If you need a reference to the created task, pass a `Ref{Task}` object via
the keyword argument `taskref`.
If `spawn=true`, the `Task` created for `func` may be scheduled on another thread
in parallel, equivalent to creating a task via [`Threads.@spawn`](@ref).
If `spawn=true` and the `threadpool` argument is not set, it defaults to `:default`.
If the `threadpool` argument is set (to `:default` or `:interactive`), this implies
that `spawn=true` and the new Task is spawned to the specified threadpool.
Return a `Channel`.
# Examples
```jldoctest
julia> chnl = Channel() do ch
foreach(i -> put!(ch, i), 1:4)
end;
julia> typeof(chnl)
Channel{Any}
julia> for i in chnl
@show i
end;
i = 1
i = 2
i = 3
i = 4
```
Referencing the created task:
```jldoctest
julia> taskref = Ref{Task}();
julia> chnl = Channel(taskref=taskref) do ch
println(take!(ch))
end;
julia> istaskdone(taskref[])
false
julia> put!(chnl, "Hello");
Hello
julia> istaskdone(taskref[])
true
```
!!! compat "Julia 1.3"
The `spawn=` parameter was added in Julia 1.3. This constructor was added in Julia 1.3.
In earlier versions of Julia, Channel used keyword arguments to set `size` and `T`, but
those constructors are deprecated.
!!! compat "Julia 1.9"
The `threadpool=` argument was added in Julia 1.9.
```jldoctest
julia> chnl = Channel{Char}(1, spawn=true) do ch
for c in "hello world"
put!(ch, c)
end
end
Channel{Char}(1) (2 items available)
julia> String(collect(chnl))
"hello world"
```
"""
function Channel{T}(func::Function, size=0; taskref=nothing, spawn=false, threadpool=nothing) where T
chnl = Channel{T}(size)
task = Task(() -> func(chnl))
if threadpool === nothing
threadpool = :default
else
spawn = true
end
task.sticky = !spawn
bind(chnl, task)
if spawn
Threads._spawn_set_thrpool(task, threadpool)
schedule(task) # start it on (potentially) another thread
else
yield(task) # immediately start it, yielding the current thread
end
isa(taskref, Ref{Task}) && (taskref[] = task)
return chnl
end
Channel(func::Function, args...; kwargs...) = Channel{Any}(func, args...; kwargs...)
# This constructor is deprecated as of Julia v1.3, and should not be used.
# (Note that this constructor also matches `Channel(::Function)` w/out any kwargs, which is
# of course not deprecated.)
# We use `nothing` default values to check which arguments were set in order to throw the
# deprecation warning if users try to use `spawn=` with `ctype=` or `csize=`.
function Channel(func::Function; ctype=nothing, csize=nothing, taskref=nothing, spawn=nothing, threadpool=nothing)
# The spawn= keyword argument was added in Julia v1.3, and cannot be used with the
# deprecated keyword arguments `ctype=` or `csize=`.
if (ctype !== nothing || csize !== nothing) && (spawn !== nothing || threadpool !== nothing)
throw(ArgumentError("Cannot set `spawn=` or `threadpool=` in the deprecated constructor `Channel(f; ctype=Any, csize=0)`. Please use `Channel{T=Any}(f, size=0; taskref=nothing, spawn=false, threadpool=nothing)` instead!"))
end
# Set the actual default values for the arguments.
ctype === nothing && (ctype = Any)
csize === nothing && (csize = 0)
spawn === nothing && (spawn = false)
return Channel{ctype}(func, csize; taskref=taskref, spawn=spawn, threadpool=threadpool)
end
closed_exception() = InvalidStateException("Channel is closed.", :closed)
isbuffered(c::Channel) = c.sz_max==0 ? false : true
function check_channel_state(c::Channel)
if !isopen(c)
# if the monotonic load succeed, now do an acquire fence
(@atomic :acquire c.state) === :open && concurrency_violation()
excp = c.excp
excp !== nothing && throw(excp)
throw(closed_exception())
end
end
"""
close(c::Channel[, excp::Exception])
Close a channel. An exception (optionally given by `excp`), is thrown by:
* [`put!`](@ref) on a closed channel.
* [`take!`](@ref) and [`fetch`](@ref) on an empty, closed channel.
"""
close(c::Channel) = close(c, closed_exception()) # nospecialize on default arg seems to confuse makedocs
function close(c::Channel, @nospecialize(excp::Exception))
lock(c)
try
c.excp = excp
@atomic :release c.state = :closed
notify_error(c.cond_take, excp)
notify_error(c.cond_wait, excp)
notify_error(c.cond_put, excp)
finally
unlock(c)
end
nothing
end
# Use acquire here to pair with release store in `close`, so that subsequent `isready` calls
# are forced to see `isready == true` if they see `isopen == false`. This means users must
# call `isopen` before `isready` if you are using the race-y APIs (or call `iterate`, which
# does this right for you).
isopen(c::Channel) = ((@atomic :acquire c.state) === :open)
"""
empty!(c::Channel)
Empty a Channel `c` by calling `empty!` on the internal buffer.
Return the empty channel.
"""
function Base.empty!(c::Channel)
@lock c begin
ndrop = length(c.data)
empty!(c.data)
_increment_n_avail(c, -ndrop)
notify(c.cond_put)
end
return c
end
"""
bind(chnl::Channel, task::Task)
Associate the lifetime of `chnl` with a task.
`Channel` `chnl` is automatically closed when the task terminates.
Any uncaught exception in the task is propagated to all waiters on `chnl`.
The `chnl` object can be explicitly closed independent of task termination.
Terminating tasks have no effect on already closed `Channel` objects.
When a channel is bound to multiple tasks, the first task to terminate will
close the channel. When multiple channels are bound to the same task,
termination of the task will close all of the bound channels.
# Examples
```jldoctest
julia> c = Channel(0);
julia> task = @async foreach(i->put!(c, i), 1:4);
julia> bind(c,task);
julia> for i in c
@show i
end;
i = 1
i = 2
i = 3
i = 4
julia> isopen(c)
false
```
```jldoctest
julia> c = Channel(0);
julia> task = @async (put!(c, 1); error("foo"));
julia> bind(c, task);
julia> take!(c)
1
julia> put!(c, 1);
ERROR: TaskFailedException
Stacktrace:
[...]
nested task error: foo
[...]
```
"""
function bind(c::Channel, task::Task)
T = Task(() -> close_chnl_on_taskdone(task, c))
T.sticky = false
_wait2(task, T)
return c
end
"""
channeled_tasks(n::Int, funcs...; ctypes=fill(Any,n), csizes=fill(0,n))
A convenience method to create `n` channels and bind them to tasks started
from the provided functions in a single call. Each `func` must accept `n` arguments
which are the created channels. Channel types and sizes may be specified via
keyword arguments `ctypes` and `csizes` respectively. If unspecified, all channels are
of type `Channel{Any}(0)`.
Returns a tuple, `(Array{Channel}, Array{Task})`, of the created channels and tasks.
"""
function channeled_tasks(n::Int, funcs...; ctypes=fill(Any,n), csizes=fill(0,n))
@assert length(csizes) == n
@assert length(ctypes) == n
chnls = map(i -> Channel{ctypes[i]}(csizes[i]), 1:n)
tasks = Task[ Task(() -> f(chnls...)) for f in funcs ]
# bind all tasks to all channels and schedule them
foreach(t -> foreach(c -> bind(c, t), chnls), tasks)
foreach(schedule, tasks)
yield() # Allow scheduled tasks to run
return (chnls, tasks)
end
function close_chnl_on_taskdone(t::Task, c::Channel)
isopen(c) || return
lock(c)
try
isopen(c) || return
if istaskfailed(t)
close(c, TaskFailedException(t))
return
end
close(c)
finally
unlock(c)
end
nothing
end
struct InvalidStateException <: Exception
msg::String
state::Symbol
end
showerror(io::IO, ex::InvalidStateException) = print(io, "InvalidStateException: ", ex.msg)
"""
put!(c::Channel, v)
Append an item `v` to the channel `c`. Blocks if the channel is full.
For unbuffered channels, blocks until a [`take!`](@ref) is performed by a different
task.
!!! compat "Julia 1.1"
`v` now gets converted to the channel's type with [`convert`](@ref) as `put!` is called.
"""
function put!(c::Channel{T}, v) where T
check_channel_state(c)
v = convert(T, v)
return isbuffered(c) ? put_buffered(c, v) : put_unbuffered(c, v)
end
# Atomically update channel n_avail, *assuming* we hold the channel lock.
function _increment_n_avail(c, inc)
# We hold the channel lock so it's safe to non-atomically read and
# increment c.n_avail_items
newlen = c.n_avail_items + inc
# Atomically store c.n_avail_items to prevent data races with other threads
# reading this outside the lock.
@atomic :monotonic c.n_avail_items = newlen
end
function put_buffered(c::Channel, v)
lock(c)
did_buffer = false
try
# Increment channel n_avail eagerly (before push!) to count data in the
# buffer as well as offers from tasks which are blocked in wait().
_increment_n_avail(c, 1)
while length(c.data) == c.sz_max
check_channel_state(c)
wait(c.cond_put)
end
check_channel_state(c)
push!(c.data, v)
did_buffer = true
# notify all, since some of the waiters may be on a "fetch" call.
notify(c.cond_take, nothing, true, false)
finally
# Decrement the available items if this task had an exception before pushing the
# item to the buffer (e.g., during `wait(c.cond_put)`):
did_buffer || _increment_n_avail(c, -1)
unlock(c)
end
return v
end
function put_unbuffered(c::Channel, v)
lock(c)
taker = try
_increment_n_avail(c, 1)
while isempty(c.cond_take.waitq)
check_channel_state(c)
notify(c.cond_wait)
wait(c.cond_put)
end
check_channel_state(c)
# unfair scheduled version of: notify(c.cond_take, v, false, false); yield()
popfirst!(c.cond_take.waitq)
finally
_increment_n_avail(c, -1)
unlock(c)
end
schedule(taker, v)
yield() # immediately give taker a chance to run, but don't block the current task
return v
end
"""
fetch(c::Channel)
Waits for and returns (without removing) the first available item from the `Channel`.
Note: `fetch` is unsupported on an unbuffered (0-size) `Channel`.
# Examples
Buffered channel:
```jldoctest
julia> c = Channel(3) do ch
foreach(i -> put!(ch, i), 1:3)
end;
julia> fetch(c)
1
julia> collect(c) # item is not removed
3-element Vector{Any}:
1
2
3
```
"""
fetch(c::Channel) = isbuffered(c) ? fetch_buffered(c) : fetch_unbuffered(c)
function fetch_buffered(c::Channel)
lock(c)
try
while isempty(c.data)
check_channel_state(c)
wait(c.cond_take)
end
return c.data[1]
finally
unlock(c)
end
end
fetch_unbuffered(c::Channel) = throw(ErrorException("`fetch` is not supported on an unbuffered Channel."))
"""
take!(c::Channel)
Removes and returns a value from a [`Channel`](@ref) in order. Blocks until data is available.
For unbuffered channels, blocks until a [`put!`](@ref) is performed by a different task.
# Examples
Buffered channel:
```jldoctest
julia> c = Channel(1);
julia> put!(c, 1);
julia> take!(c)
1
```
Unbuffered channel:
```jldoctest
julia> c = Channel(0);
julia> task = Task(() -> put!(c, 1));
julia> schedule(task);
julia> take!(c)
1
```
"""
take!(c::Channel) = isbuffered(c) ? take_buffered(c) : take_unbuffered(c)
function take_buffered(c::Channel)
lock(c)
try
while isempty(c.data)
check_channel_state(c)
wait(c.cond_take)
end
v = popfirst!(c.data)
_increment_n_avail(c, -1)
notify(c.cond_put, nothing, false, false) # notify only one, since only one slot has become available for a put!.
return v
finally
unlock(c)
end
end
# 0-size channel
function take_unbuffered(c::Channel{T}) where T
lock(c)
try
check_channel_state(c)
notify(c.cond_put, nothing, false, false)
return wait(c.cond_take)::T
finally
unlock(c)
end
end
"""
isready(c::Channel)
Determines whether a [`Channel`](@ref) has a value stored in it.
Returns immediately, does not block.
For unbuffered channels, return `true` if there are tasks waiting on a [`put!`](@ref).
# Examples
Buffered channel:
```jldoctest
julia> c = Channel(1);
julia> isready(c)
false
julia> put!(c, 1);
julia> isready(c)
true
```
Unbuffered channel:
```jldoctest
julia> c = Channel();
julia> isready(c) # no tasks waiting to put!
false
julia> task = Task(() -> put!(c, 1));
julia> schedule(task); # schedule a put! task
julia> isready(c)
true
```
"""
isready(c::Channel) = n_avail(c) > 0
isempty(c::Channel) = n_avail(c) == 0
function n_avail(c::Channel)
# Lock-free equivalent to `length(c.data) + length(c.cond_put.waitq)`
@atomic :monotonic c.n_avail_items
end
"""
isfull(c::Channel)
Determines if a [`Channel`](@ref) is full, in the sense
that calling `put!(c, some_value)` would have blocked.
Returns immediately, does not block.
Note that it may frequently be the case that `put!` will
not block after this returns `true`. Users must take
precautions not to accidentally create live-lock bugs
in their code by calling this method, as these are
generally harder to debug than deadlocks. It is also
possible that `put!` will block after this call
returns `false`, if there are multiple producer
tasks calling `put!` in parallel.
# Examples
Buffered channel:
```jldoctest
julia> c = Channel(1); # capacity = 1
julia> isfull(c)
false
julia> put!(c, 1);
julia> isfull(c)
true
```
Unbuffered channel:
```jldoctest
julia> c = Channel(); # capacity = 0
julia> isfull(c) # unbuffered channel is always full
true
```
"""
isfull(c::Channel) = n_avail(c) ≥ c.sz_max
lock(c::Channel) = lock(c.cond_take)
lock(f, c::Channel) = lock(f, c.cond_take)
unlock(c::Channel) = unlock(c.cond_take)
trylock(c::Channel) = trylock(c.cond_take)
"""
wait(c::Channel)
Blocks until the `Channel` [`isready`](@ref).
```jldoctest
julia> c = Channel(1);
julia> isready(c)
false
julia> task = Task(() -> wait(c));
julia> schedule(task);
julia> istaskdone(task) # task is blocked because channel is not ready
false
julia> put!(c, 1);
julia> istaskdone(task) # task is now unblocked
true
```
"""
function wait(c::Channel)
isready(c) && return
lock(c)
try
while !isready(c)
check_channel_state(c)
wait(c.cond_wait)
end
finally
unlock(c)
end
nothing
end
eltype(::Type{Channel{T}}) where {T} = T
show(io::IO, c::Channel) = print(io, typeof(c), "(", c.sz_max, ")")
function show(io::IO, ::MIME"text/plain", c::Channel)
show(io, c)
if !(get(io, :compact, false)::Bool)
if !isopen(c)
print(io, " (closed)")
else
n = n_avail(c)
if n == 0
print(io, " (empty)")
else
s = n == 1 ? "" : "s"
print(io, " (", n, " item$s available)")
end
end
end
end
function iterate(c::Channel, state=nothing)
if isopen(c) || isready(c)
try
return (take!(c), nothing)
catch e
if isa(e, InvalidStateException) && e.state === :closed
return nothing
else
rethrow()
end
end
else
return nothing
end
end
IteratorSize(::Type{<:Channel}) = SizeUnknown()
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