https://github.com/JuliaLang/julia
Tip revision: 8768d7eac9013ca213c8dbdad35fa42366dd0c5a authored by Kristoffer on 04 April 2024, 19:40:24 UTC
tweak how filtering is done for what packages should be precompiled
tweak how filtering is done for what packages should be precompiled
Tip revision: 8768d7e
deprecated.jl
# This file is a part of Julia. License is MIT: https://julialang.org/license
# Deprecated functions and objects
#
# Please add new deprecations at the bottom of the file.
# A function deprecated in a release will be removed in the next one.
# Please also add a reference to the pull request which introduced the
# deprecation. For simple cases where a direct replacement is available,
# use @deprecate. @deprecate takes care of calling the replacement
# and of exporting the function.
#
# For more complex cases, move the body of the deprecated method in this file,
# and call depwarn() directly from inside it. The symbol depwarn() expects is
# the name of the function, which is used to ensure that the deprecation warning
# is only printed the first time for each call place.
"""
@deprecate old new [export_old=true]
Deprecate method `old` and specify the replacement call `new`, defining a new method `old`
with the specified signature in the process.
To prevent `old` from being exported, set `export_old` to `false`.
!!! compat "Julia 1.5"
As of Julia 1.5, functions defined by `@deprecate` do not print warning when `julia`
is run without the `--depwarn=yes` flag set, as the default value of `--depwarn` option
is `no`. The warnings are printed from tests run by `Pkg.test()`.
# Examples
```jldoctest
julia> @deprecate old_export(x) new(x)
old_export (generic function with 1 method)
julia> @deprecate old_public(x) new(x) false
old_public (generic function with 1 method)
```
Calls to `@deprecate` without explicit type-annotations will define
deprecated methods accepting any number of positional and keyword
arguments of type `Any`.
!!! compat "Julia 1.9"
Keyword arguments are forwarded when there is no explicit type
annotation as of Julia 1.9. For older versions, you can manually
forward positional and keyword arguments by doing `@deprecate
old(args...; kwargs...) new(args...; kwargs...)`.
To restrict deprecation to a specific signature, annotate the
arguments of `old`. For example,
```jldoctest; filter = r"@ .*"a
julia> new(x::Int) = x;
julia> new(x::Float64) = 2x;
julia> @deprecate old(x::Int) new(x);
julia> methods(old)
# 1 method for generic function "old" from Main:
[1] old(x::Int64)
@ deprecated.jl:94
```
will define and deprecate a method `old(x::Int)` that mirrors `new(x::Int)` but will not
define nor deprecate the method `old(x::Float64)`.
"""
macro deprecate(old, new, export_old=true)
function cannot_export_nonsymbol()
error(
"if the third `export_old` argument is not specified or `true`, the first",
" argument must be of form",
" (1) `f(...)` where `f` is a symbol,",
" (2) `T{...}(...)` where `T` is a symbol, or",
" (3) a symbol.",
)
end
meta = Expr(:meta, :noinline)
if isa(old, Expr) && (old.head === :call || old.head === :where)
remove_linenums!(new)
oldcall = sprint(show_unquoted, old)
newcall = sprint(show_unquoted, new)
# if old.head is a :where, step down one level to the :call to avoid code duplication below
callexpr = old.head === :call ? old : old.args[1]
if callexpr.head === :call
fnexpr = callexpr.args[1]
if fnexpr isa Expr && fnexpr.head === :curly
fnexpr = fnexpr.args[1]
end
if export_old
if fnexpr isa Symbol
maybe_export = Expr(:export, esc(fnexpr))
else
cannot_export_nonsymbol()
end
else
maybe_export = nothing
end
else
error("invalid usage of @deprecate")
end
Expr(:toplevel,
maybe_export,
:($(esc(old)) = begin
$meta
depwarn($"`$oldcall` is deprecated, use `$newcall` instead.", Core.Typeof($(esc(fnexpr))).name.mt.name)
$(esc(new))
end))
else
if export_old && !(old isa Symbol)
cannot_export_nonsymbol()
end
Expr(:toplevel,
export_old ? Expr(:export, esc(old)) : nothing,
:(function $(esc(old))(args...; kwargs...)
$meta
depwarn($"`$old` is deprecated, use `$new` instead.", Core.Typeof($(esc(old))).name.mt.name)
$(esc(new))(args...; kwargs...)
end))
end
end
@nospecializeinfer function depwarn(msg, funcsym; force::Bool=false)
@nospecialize
# N.B. With this use of `@invokelatest`, we're preventing the addition of backedges from
# callees, such as `convert`, to this user-facing method. This approach is designed to
# enhance the resilience of packages that utilize `depwarn` against invalidation.
return @invokelatest _depwarn(msg, funcsym, force)
end
@nospecializeinfer function _depwarn(msg, funcsym, force::Bool)
@nospecialize
opts = JLOptions()
if opts.depwarn == 2
throw(ErrorException(msg))
end
deplevel = force || opts.depwarn == 1 ? CoreLogging.Warn : CoreLogging.BelowMinLevel
@logmsg(
deplevel,
msg,
_module=begin
bt = backtrace()
frame, caller = firstcaller(bt, funcsym)
linfo = caller.linfo
if linfo isa Core.MethodInstance
def = linfo.def
def isa Module ? def : def.module
else
Core # TODO: Is it reasonable to attribute callers without linfo to Core?
end
end,
_file=String(caller.file),
_line=caller.line,
_id=(frame,funcsym),
_group=:depwarn,
caller=caller,
maxlog=funcsym === nothing ? nothing : 1
)
nothing
end
firstcaller(bt::Vector, ::Nothing) = Ptr{Cvoid}(0), StackTraces.UNKNOWN
firstcaller(bt::Vector, funcsym::Symbol) = firstcaller(bt, (funcsym,))
function firstcaller(bt::Vector, funcsyms)
# Identify the calling line
found = false
for ip in bt
lkups = StackTraces.lookup(ip)
for lkup in lkups
if lkup == StackTraces.UNKNOWN || lkup.from_c
continue
end
if found
return ip, lkup
end
found = lkup.func in funcsyms
# look for constructor type name
if !found
li = lkup.linfo
if li isa Core.MethodInstance
def = li.def
found = def isa Method && def.name in funcsyms
end
end
end
end
return C_NULL, StackTraces.UNKNOWN
end
deprecate(m::Module, s::Symbol, flag=1) = ccall(:jl_deprecate_binding, Cvoid, (Any, Any, Cint), m, s, flag)
macro deprecate_binding(old, new, export_old=true, dep_message=:nothing, constant=true)
dep_message === :nothing && (dep_message = ", use $new instead.")
return Expr(:toplevel,
export_old ? Expr(:export, esc(old)) : nothing,
Expr(:const, Expr(:(=), esc(Symbol(string("_dep_message_",old))), esc(dep_message))),
constant ? Expr(:const, Expr(:(=), esc(old), esc(new))) : Expr(:(=), esc(old), esc(new)),
Expr(:call, :deprecate, __module__, Expr(:quote, old)))
end
macro deprecate_stdlib(old, mod, export_old=true, newname=old)
rename = old === newname ? "" : " as `$newname`"
dep_message = """: it has been moved to the standard library package `$mod`$rename.
Add `using $mod` to your imports."""
new = GlobalRef(Base.root_module(Base, mod), newname)
return Expr(:toplevel,
export_old ? Expr(:export, esc(old)) : nothing,
Expr(:const, Expr(:(=), esc(Symbol(string("_dep_message_",old))), esc(dep_message))),
Expr(:const, Expr(:(=), esc(old), esc(new))),
Expr(:call, :deprecate, __module__, Expr(:quote, old)))
end
macro deprecate_moved(old, new, export_old=true)
eold = esc(old)
emsg = string(old, " has been moved to the package ", new, ".jl.\n",
"Run `Pkg.add(\"", new, "\")` to install it, restart Julia,\n",
"and then run `using ", new, "` to load it.")
return Expr(:toplevel,
:($eold(args...; kwargs...) = error($emsg)),
export_old ? Expr(:export, eold) : nothing,
Expr(:call, :deprecate, __module__, Expr(:quote, old), 2))
end
# BEGIN 1.0 deprecations
@deprecate one(i::CartesianIndex) oneunit(i)
@deprecate one(I::Type{CartesianIndex{N}}) where {N} oneunit(I)
@deprecate BigFloat(x, prec::Int) BigFloat(x; precision=prec)
@deprecate BigFloat(x, prec::Int, rounding::RoundingMode) BigFloat(x, rounding; precision=prec)
@deprecate BigFloat(x::Real, prec::Int) BigFloat(x; precision=prec)
@deprecate BigFloat(x::Real, prec::Int, rounding::RoundingMode) BigFloat(x, rounding; precision=prec)
# END 1.0 deprecations
# BEGIN 1.5 deprecations
"""
isimmutable(v) -> Bool
!!! warning
Consider using `!ismutable(v)` instead, as `isimmutable(v)` will be replaced by `!ismutable(v)` in a future release. (Since Julia 1.5)
Return `true` iff value `v` is immutable. See [Mutable Composite Types](@ref)
for a discussion of immutability. Note that this function works on values, so if you give it
a type, it will tell you that a value of `DataType` is mutable.
# Examples
```jldoctest
julia> isimmutable(1)
true
julia> isimmutable([1,2])
false
```
"""
isimmutable(@nospecialize(x)) = !ismutable(x)
export isimmutable
# Note isimmutable is not @deprecated out of performance concerns
macro get!(h, key0, default)
f, l = __source__.file, __source__.line
@warn "`@get!(dict, key, default)` at $f:$l is deprecated, use `get!(()->default, dict, key)` instead."
return quote
get!(()->$(esc(default)), $(esc(h)), $(esc(key0)))
end
end
pointer(V::SubArray{<:Any,<:Any,<:Array,<:Tuple{Vararg{RangeIndex}}}, is::Tuple) = pointer(V, CartesianIndex(is))
# END 1.5 deprecations
# BEGIN 1.6 deprecations
# These changed from SimpleVector to `MethodMatch`. These definitions emulate
# being a SimpleVector to ease transition for packages that make explicit
# use of (internal) APIs that return raw method matches.
iterate(match::Core.MethodMatch, field::Int=1) =
field > nfields(match) ? nothing : (getfield(match, field), field+1)
getindex(match::Core.MethodMatch, field::Int) =
getfield(match, field)
# these were internal functions, but some packages seem to be relying on them
tuple_type_head(T::Type) = fieldtype(T, 1)
tuple_type_cons(::Type, ::Type{Union{}}) = Union{}
@assume_effects :foldable tuple_type_cons(::Type{S}, ::Type{T}) where T<:Tuple where S =
Tuple{S, T.parameters...}
@assume_effects :foldable parameter_upper_bound(t::UnionAll, idx) =
rewrap_unionall((unwrap_unionall(t)::DataType).parameters[idx], t)
# these were internal functions, but some packages seem to be relying on them
@deprecate cat_shape(dims, shape::Tuple{}, shapes::Tuple...) cat_shape(dims, shapes) false
cat_shape(dims, shape::Tuple{}) = () # make sure `cat_shape(dims, ())` do not recursively calls itself
@deprecate unsafe_indices(A) axes(A) false
@deprecate unsafe_length(r) length(r) false
# these were internal type aliases, but some packages seem to be relying on them
const Any16{N} = Tuple{Any,Any,Any,Any,Any,Any,Any,Any,
Any,Any,Any,Any,Any,Any,Any,Any,Vararg{Any,N}}
const All16{T,N} = Tuple{T,T,T,T,T,T,T,T,
T,T,T,T,T,T,T,T,Vararg{T,N}}
# END 1.6 deprecations
# BEGIN 1.7 deprecations
# the plan is to eventually overload getproperty to access entries of the dict
@noinline function getproperty(x::Pairs, s::Symbol)
depwarn("use values(kwargs) and keys(kwargs) instead of kwargs.data and kwargs.itr", :getproperty, force=true)
return getfield(x, s)
end
# This function was marked as experimental and not exported.
@deprecate catch_stack(task=current_task(); include_bt=true) current_exceptions(task; backtrace=include_bt) false
# END 1.7 deprecations
# BEGIN 1.8 deprecations
const var"@_inline_meta" = var"@inline"
const var"@_noinline_meta" = var"@noinline"
@deprecate getindex(t::Tuple, i::Real) t[convert(Int, i)]
# END 1.8 deprecations
# BEGIN 1.9 deprecations
# We'd generally like to avoid direct external access to internal fields
# Core.Compiler.is_inlineable and Core.Compiler.set_inlineable! move towards this direction,
# but we need to keep these around for compat
function getproperty(ci::CodeInfo, s::Symbol)
s === :inlineable && return Core.Compiler.is_inlineable(ci)
return getfield(ci, s)
end
function setproperty!(ci::CodeInfo, s::Symbol, v)
s === :inlineable && return Core.Compiler.set_inlineable!(ci, v)
return setfield!(ci, s, convert(fieldtype(CodeInfo, s), v))
end
@eval Threads nthreads() = threadpoolsize()
@eval Threads begin
"""
resize_nthreads!(A, copyvalue=A[1])
Resize the array `A` to length [`nthreads()`](@ref). Any new
elements that are allocated are initialized to `deepcopy(copyvalue)`,
where `copyvalue` defaults to `A[1]`.
This is typically used to allocate per-thread variables, and
should be called in `__init__` if `A` is a global constant.
!!! warning
This function is deprecated, since as of Julia v1.9 the number of
threads can change at run time. Instead, per-thread state should be
created as needed based on the thread id of the caller.
"""
function resize_nthreads!(A::AbstractVector, copyvalue=A[1])
nthr = nthreads()
nold = length(A)
resize!(A, nthr)
for i = nold+1:nthr
A[i] = deepcopy(copyvalue)
end
return A
end
end
# END 1.9 deprecations
# BEGIN 1.10 deprecations
"""
@pure ex
`@pure` gives the compiler a hint for the definition of a pure function,
helping for type inference.
!!! warning
This macro is intended for internal compiler use and may be subject to changes.
!!! warning
In Julia 1.8 and higher, it is favorable to use [`@assume_effects`](@ref) instead of `@pure`.
This is because `@assume_effects` allows a finer grained control over Julia's purity
modeling and the effect system enables a wider range of optimizations.
"""
macro pure(ex)
return esc(:(Base.@assume_effects :foldable $ex))
end
# END 1.10 deprecations
# BEGIN 1.11 deprecations
# these were never a part of the public API and so they can be removed without deprecation
# in a minor release but we're being nice and trying to avoid transient breakage.
@deprecate permute!!(a, p::AbstractVector{<:Integer}) permute!(a, p) false
@deprecate invpermute!!(a, p::AbstractVector{<:Integer}) invpermute!(a, p) false
# END 1.11 deprecations
