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loading.jl
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loading.jl
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# This file is a part of Julia. License is MIT: https://julialang.org/license
# Base.require is the implementation for the `import` statement
# Cross-platform case-sensitive path canonicalization
if Sys.isunix() && !Sys.isapple()
# assume case-sensitive filesystems, don't have to do anything
isfile_casesensitive(path) = isfile(path)
elseif Sys.iswindows()
# GetLongPathName Win32 function returns the case-preserved filename on NTFS.
function isfile_casesensitive(path)
isfile(path) || return false # Fail fast
basename(Filesystem.longpath(path)) == basename(path)
end
elseif Sys.isapple()
# HFS+ filesystem is case-preserving. The getattrlist API returns
# a case-preserved filename. In the rare event that HFS+ is operating
# in case-sensitive mode, this will still work but will be redundant.
# Constants from <sys/attr.h>
const ATRATTR_BIT_MAP_COUNT = 5
const ATTR_CMN_NAME = 1
const BITMAPCOUNT = 1
const COMMONATTR = 5
const FSOPT_NOFOLLOW = 1 # Don't follow symbolic links
const attr_list = zeros(UInt8, 24)
attr_list[BITMAPCOUNT] = ATRATTR_BIT_MAP_COUNT
attr_list[COMMONATTR] = ATTR_CMN_NAME
# This essentially corresponds to the following C code:
# attrlist attr_list;
# memset(&attr_list, 0, sizeof(attr_list));
# attr_list.bitmapcount = ATTR_BIT_MAP_COUNT;
# attr_list.commonattr = ATTR_CMN_NAME;
# struct Buffer {
# u_int32_t total_length;
# u_int32_t filename_offset;
# u_int32_t filename_length;
# char filename[max_filename_length];
# };
# Buffer buf;
# getattrpath(path, &attr_list, &buf, sizeof(buf), FSOPT_NOFOLLOW);
function isfile_casesensitive(path)
isfile(path) || return false
path_basename = String(basename(path))
local casepreserved_basename
header_size = 12
buf = Vector{UInt8}(undef, length(path_basename) + header_size + 1)
while true
ret = ccall(:getattrlist, Cint,
(Cstring, Ptr{Cvoid}, Ptr{Cvoid}, Csize_t, Culong),
path, attr_list, buf, sizeof(buf), FSOPT_NOFOLLOW)
systemerror(:getattrlist, ret ≠ 0)
filename_length = GC.@preserve buf unsafe_load(
convert(Ptr{UInt32}, pointer(buf) + 8))
if (filename_length + header_size) > length(buf)
resize!(buf, filename_length + header_size)
continue
end
casepreserved_basename =
view(buf, (header_size+1):(header_size+filename_length-1))
break
end
# Hack to compensate for inability to create a string from a subarray with no allocations.
codeunits(path_basename) == casepreserved_basename && return true
# If there is no match, it's possible that the file does exist but HFS+
# performed unicode normalization. See https://developer.apple.com/library/mac/qa/qa1235/_index.html.
isascii(path_basename) && return false
codeunits(Unicode.normalize(path_basename, :NFD)) == casepreserved_basename
end
else
# Generic fallback that performs a slow directory listing.
function isfile_casesensitive(path)
isfile(path) || return false
dir, filename = splitdir(path)
any(readdir(dir) .== filename)
end
end
## SHA1 ##
struct SHA1
bytes::NTuple{20, UInt8}
end
function SHA1(bytes::Vector{UInt8})
length(bytes) == 20 ||
throw(ArgumentError("wrong number of bytes for SHA1 hash: $(length(bytes))"))
return SHA1(ntuple(i->bytes[i], Val(20)))
end
SHA1(s::AbstractString) = SHA1(hex2bytes(s))
parse(::Type{SHA1}, s::AbstractString) = SHA1(s)
function tryparse(::Type{SHA1}, s::AbstractString)
try
return parse(SHA1, s)
catch e
if isa(e, ArgumentError)
return nothing
end
rethrow(e)
end
end
string(hash::SHA1) = bytes2hex(hash.bytes)
print(io::IO, hash::SHA1) = bytes2hex(io, hash.bytes)
show(io::IO, hash::SHA1) = print(io, "SHA1(\"", hash, "\")")
isless(a::SHA1, b::SHA1) = isless(a.bytes, b.bytes)
hash(a::SHA1, h::UInt) = hash((SHA1, a.bytes), h)
==(a::SHA1, b::SHA1) = a.bytes == b.bytes
# fake uuid5 function (for self-assigned UUIDs)
# TODO: delete and use real uuid5 once it's in stdlib
function uuid5(namespace::UUID, key::String)
u::UInt128 = 0
h = hash(namespace)
for _ = 1:sizeof(u)÷sizeof(h)
u <<= sizeof(h) << 3
u |= (h = hash(key, h))
end
u &= 0xffffffffffff0fff3fffffffffffffff
u |= 0x00000000000050008000000000000000
return UUID(u)
end
const ns_dummy_uuid = UUID("fe0723d6-3a44-4c41-8065-ee0f42c8ceab")
function dummy_uuid(project_file::String)
cache = LOADING_CACHE[]
if cache !== nothing
uuid = get(cache.dummy_uuid, project_file, nothing)
uuid === nothing || return uuid
end
project_path = try
realpath(project_file)
catch
project_file
end
uuid = uuid5(ns_dummy_uuid, project_path)
if cache !== nothing
cache.dummy_uuid[project_file] = uuid
end
return uuid
end
## package path slugs: turning UUID + SHA1 into a pair of 4-byte "slugs" ##
const slug_chars = String(['A':'Z'; 'a':'z'; '0':'9'])
function slug(x::UInt32, p::Int)
y::UInt32 = x
sprint(sizehint=p) do io
n = length(slug_chars)
for i = 1:p
y, d = divrem(y, n)
write(io, slug_chars[1+d])
end
end
end
function package_slug(uuid::UUID, p::Int=5)
crc = _crc32c(uuid)
return slug(crc, p)
end
function version_slug(uuid::UUID, sha1::SHA1, p::Int=5)
crc = _crc32c(uuid)
crc = _crc32c(sha1.bytes, crc)
return slug(crc, p)
end
mutable struct CachedTOMLDict
path::String
inode::UInt64
mtime::Float64
size::Int64
hash::UInt32
d::Dict{String, Any}
end
function CachedTOMLDict(p::TOML.Parser, path::String)
s = stat(path)
content = read(path)
crc32 = _crc32c(content)
TOML.reinit!(p, String(content); filepath=path)
d = TOML.parse(p)
return CachedTOMLDict(
path,
s.inode,
s.mtime,
s.size,
crc32,
d,
)
end
function get_updated_dict(p::TOML.Parser, f::CachedTOMLDict)
s = stat(f.path)
time_since_cached = time() - f.mtime
rough_mtime_granularity = 0.1 # seconds
# In case the file is being updated faster than the mtime granularity,
# and have the same size after the update we might miss that it changed. Therefore
# always check the hash in case we recently created the cache.
if time_since_cached < rough_mtime_granularity || s.inode != f.inode || s.mtime != f.mtime || f.size != s.size
content = read(f.path)
new_hash = _crc32c(content)
if new_hash != f.hash
f.inode = s.inode
f.mtime = s.mtime
f.size = s.size
f.hash = new_hash
TOML.reinit!(p, String(content); filepath=f.path)
return f.d = TOML.parse(p)
end
end
return f.d
end
struct LoadingCache
load_path::Vector{String}
dummy_uuid::Dict{String, UUID}
env_project_file::Dict{String, Union{Bool, String}}
project_file_manifest_path::Dict{String, Union{Nothing, String}}
require_parsed::Set{String}
end
const LOADING_CACHE = Ref{Union{LoadingCache, Nothing}}(nothing)
LoadingCache() = LoadingCache(load_path(), Dict(), Dict(), Dict(), Set())
struct TOMLCache
p::TOML.Parser
d::Dict{String, CachedTOMLDict}
end
const TOML_CACHE = TOMLCache(TOML.Parser(), Dict{String, Dict{String, Any}}())
const TOML_LOCK = ReentrantLock()
parsed_toml(project_file::AbstractString) = parsed_toml(project_file, TOML_CACHE, TOML_LOCK)
function parsed_toml(project_file::AbstractString, toml_cache::TOMLCache, toml_lock::ReentrantLock)
lock(toml_lock) do
cache = LOADING_CACHE[]
dd = if !haskey(toml_cache.d, project_file)
d = CachedTOMLDict(toml_cache.p, project_file)
toml_cache.d[project_file] = d
d.d
else
d = toml_cache.d[project_file]
# We are in a require call and have already parsed this TOML file
# assume that it is unchanged to avoid hitting disk
if cache !== nothing && project_file in cache.require_parsed
d.d
else
get_updated_dict(toml_cache.p, d)
end
end
if cache !== nothing
push!(cache.require_parsed, project_file)
end
return dd
end
end
## package identification: determine unique identity of package to be loaded ##
# Used by Pkg but not used in loading itself
function find_package(arg)
pkg = identify_package(arg)
pkg === nothing && return nothing
return locate_package(pkg)
end
## package identity: given a package name and a context, try to return its identity ##
identify_package(where::Module, name::String) = identify_package(PkgId(where), name)
# identify_package computes the PkgId for `name` from the context of `where`
# or return `nothing` if no mapping exists for it
function identify_package(where::PkgId, name::String)::Union{Nothing,PkgId}
where.name === name && return where
where.uuid === nothing && return identify_package(name) # ignore `where`
for env in load_path()
uuid = manifest_deps_get(env, where, name)
uuid === nothing && continue # not found--keep looking
uuid.uuid === nothing || return uuid # found in explicit environment--use it
return nothing # found in implicit environment--return "not found"
end
return nothing
end
# identify_package computes the PkgId for `name` from toplevel context
# by looking through the Project.toml files and directories
function identify_package(name::String)::Union{Nothing,PkgId}
for env in load_path()
uuid = project_deps_get(env, name)
uuid === nothing || return uuid # found--return it
end
return nothing
end
## package location: given a package identity, find file to load ##
function locate_package(pkg::PkgId)::Union{Nothing,String}
if pkg.uuid === nothing
for env in load_path()
# look for the toplevel pkg `pkg.name` in this entry
found = project_deps_get(env, pkg.name)
found === nothing && continue
if pkg == found
# pkg.name is present in this directory or project file,
# return the path the entry point for the code, if it could be found
# otherwise, signal failure
return implicit_manifest_uuid_path(env, pkg)
end
@assert found.uuid !== nothing
return locate_package(found) # restart search now that we know the uuid for pkg
end
else
for env in load_path()
path = manifest_uuid_path(env, pkg)
path === nothing || return entry_path(path, pkg.name)
end
# Allow loading of stdlibs if the name/uuid are given
# e.g. if they have been explicitly added to the project/manifest
path = manifest_uuid_path(Sys.STDLIB::String, pkg)
path === nothing || return entry_path(path, pkg.name)
end
return nothing
end
"""
pathof(m::Module)
Return the path of the `m.jl` file that was used to `import` module `m`,
or `nothing` if `m` was not imported from a package.
Use [`dirname`](@ref) to get the directory part and [`basename`](@ref)
to get the file name part of the path.
"""
function pathof(m::Module)
pkgid = get(Base.module_keys, m, nothing)
pkgid === nothing && return nothing
origin = get(Base.pkgorigins, pkgid, nothing)
origin === nothing && return nothing
path = origin.path
path === nothing && return nothing
return fixup_stdlib_path(path)
end
"""
pkgdir(m::Module[, paths::String...])
Return the root directory of the package that imported module `m`,
or `nothing` if `m` was not imported from a package. Optionally further
path component strings can be provided to construct a path within the
package root.
```julia
julia> pkgdir(Foo)
"/path/to/Foo.jl"
julia> pkgdir(Foo, "src", "file.jl")
"/path/to/Foo.jl/src/file.jl"
```
!!! compat "Julia 1.7"
The optional argument `paths` requires at least Julia 1.7.
"""
function pkgdir(m::Module, paths::String...)
rootmodule = Base.moduleroot(m)
path = pathof(rootmodule)
path === nothing && return nothing
return joinpath(dirname(dirname(path)), paths...)
end
## generic project & manifest API ##
const project_names = ("JuliaProject.toml", "Project.toml")
const manifest_names = ("JuliaManifest.toml", "Manifest.toml")
const preferences_names = ("JuliaLocalPreferences.toml", "LocalPreferences.toml")
# classify the LOAD_PATH entry to be one of:
# - `false`: nonexistant / nothing to see here
# - `true`: `env` is an implicit environment
# - `path`: the path of an explicit project file
function env_project_file(env::String)::Union{Bool,String}
cache = LOADING_CACHE[]
if cache !== nothing
project_file = get(cache.env_project_file, env, nothing)
project_file === nothing || return project_file
end
if isdir(env)
for proj in project_names
maybe_project_file = joinpath(env, proj)
if isfile_casesensitive(maybe_project_file)
project_file = maybe_project_file
break
end
end
project_file =true
elseif basename(env) in project_names && isfile_casesensitive(env)
project_file = env
else
project_file = false
end
if cache !== nothing
cache.env_project_file[env] = project_file
end
return project_file
end
function project_deps_get(env::String, name::String)::Union{Nothing,PkgId}
project_file = env_project_file(env)
if project_file isa String
pkg_uuid = explicit_project_deps_get(project_file, name)
pkg_uuid === nothing || return PkgId(pkg_uuid, name)
elseif project_file
return implicit_project_deps_get(env, name)
end
return nothing
end
function manifest_deps_get(env::String, where::PkgId, name::String)::Union{Nothing,PkgId}
uuid = where.uuid
@assert uuid !== nothing
project_file = env_project_file(env)
if project_file isa String
# first check if `where` names the Project itself
proj = project_file_name_uuid(project_file, where.name)
if proj == where
# if `where` matches the project, use [deps] section as manifest, and stop searching
pkg_uuid = explicit_project_deps_get(project_file, name)
return PkgId(pkg_uuid, name)
end
# look for manifest file and `where` stanza
return explicit_manifest_deps_get(project_file, uuid, name)
elseif project_file
# if env names a directory, search it
return implicit_manifest_deps_get(env, where, name)
end
return nothing
end
function manifest_uuid_path(env::String, pkg::PkgId)::Union{Nothing,String}
project_file = env_project_file(env)
if project_file isa String
proj = project_file_name_uuid(project_file, pkg.name)
if proj == pkg
# if `pkg` matches the project, return the project itself
return project_file_path(project_file, pkg.name)
end
# look for manifest file and `where` stanza
return explicit_manifest_uuid_path(project_file, pkg)
elseif project_file
# if env names a directory, search it
return implicit_manifest_uuid_path(env, pkg)
end
return nothing
end
# find project file's top-level UUID entry (or nothing)
function project_file_name_uuid(project_file::String, name::String)::PkgId
d = parsed_toml(project_file)
uuid′ = get(d, "uuid", nothing)::Union{String, Nothing}
uuid = uuid′ === nothing ? dummy_uuid(project_file) : UUID(uuid′)
name = get(d, "name", name)::String
return PkgId(uuid, name)
end
function project_file_path(project_file::String, name::String)
d = parsed_toml(project_file)
joinpath(dirname(project_file), get(d, "path", "")::String)
end
# find project file's corresponding manifest file
function project_file_manifest_path(project_file::String)::Union{Nothing,String}
cache = LOADING_CACHE[]
if cache !== nothing
manifest_path = get(cache.project_file_manifest_path, project_file, missing)
manifest_path === missing || return manifest_path
end
dir = abspath(dirname(project_file))
d = parsed_toml(project_file)
explicit_manifest = get(d, "manifest", nothing)::Union{String, Nothing}
manifest_path = nothing
if explicit_manifest !== nothing
manifest_file = normpath(joinpath(dir, explicit_manifest))
if isfile_casesensitive(manifest_file)
manifest_path = manifest_file
end
end
if manifest_path === nothing
for mfst in manifest_names
manifest_file = joinpath(dir, mfst)
if isfile_casesensitive(manifest_file)
manifest_path = manifest_file
break
end
end
end
if cache !== nothing
cache.project_file_manifest_path[project_file] = manifest_path
end
return manifest_path
end
# given a directory (implicit env from LOAD_PATH) and a name,
# check if it is an implicit package
function entry_point_and_project_file_inside(dir::String, name::String)::Union{Tuple{Nothing,Nothing},Tuple{String,Nothing},Tuple{String,String}}
path = normpath(joinpath(dir, "src", "$name.jl"))
isfile_casesensitive(path) || return nothing, nothing
for proj in project_names
project_file = normpath(joinpath(dir, proj))
isfile_casesensitive(project_file) || continue
return path, project_file
end
return path, nothing
end
# given a project directory (implicit env from LOAD_PATH) and a name,
# find an entry point for `name`, and see if it has an associated project file
function entry_point_and_project_file(dir::String, name::String)::Union{Tuple{Nothing,Nothing},Tuple{String,Nothing},Tuple{String,String}}
path = normpath(joinpath(dir, "$name.jl"))
isfile_casesensitive(path) && return path, nothing
dir = joinpath(dir, name)
path, project_file = entry_point_and_project_file_inside(dir, name)
path === nothing || return path, project_file
dir = dir * ".jl"
path, project_file = entry_point_and_project_file_inside(dir, name)
path === nothing || return path, project_file
return nothing, nothing
end
# given a path and a name, return the entry point
function entry_path(path::String, name::String)::Union{Nothing,String}
isfile_casesensitive(path) && return normpath(path)
path = normpath(joinpath(path, "src", "$name.jl"))
isfile_casesensitive(path) && return path
return nothing # source not found
end
## explicit project & manifest API ##
# find project file root or deps `name => uuid` mapping
# return `nothing` if `name` is not found
function explicit_project_deps_get(project_file::String, name::String)::Union{Nothing,UUID}
d = parsed_toml(project_file)
root_uuid = dummy_uuid(project_file)
if get(d, "name", nothing)::Union{String, Nothing} === name
uuid = get(d, "uuid", nothing)::Union{String, Nothing}
return uuid === nothing ? root_uuid : UUID(uuid)
end
deps = get(d, "deps", nothing)::Union{Dict{String, Any}, Nothing}
if deps !== nothing
uuid = get(deps, name, nothing)::Union{String, Nothing}
uuid === nothing || return UUID(uuid)
end
return nothing
end
function is_v1_format_manifest(raw_manifest::Dict)
if haskey(raw_manifest, "manifest_format")
if raw_manifest["manifest_format"] isa Dict && haskey(raw_manifest["manifest_format"], "uuid")
# the off-chance where an old format manifest has a dep called "manifest_format"
return true
end
return false
else
return true
end
end
# returns a deps list for both old and new manifest formats
function get_deps(raw_manifest::Dict)
if is_v1_format_manifest(raw_manifest)
return raw_manifest
else
# if the manifest has no deps, there won't be a `deps` field
return get(Dict{String, Any}, raw_manifest, "deps")
end
end
# find `where` stanza and return the PkgId for `name`
# return `nothing` if it did not find `where` (indicating caller should continue searching)
function explicit_manifest_deps_get(project_file::String, where::UUID, name::String)::Union{Nothing,PkgId}
manifest_file = project_file_manifest_path(project_file)
manifest_file === nothing && return nothing # manifest not found--keep searching LOAD_PATH
d = get_deps(parsed_toml(manifest_file))
found_where = false
found_name = false
for (dep_name, entries) in d
entries::Vector{Any}
for entry in entries
entry = entry::Dict{String, Any}
uuid = get(entry, "uuid", nothing)::Union{String, Nothing}
uuid === nothing && continue
if UUID(uuid) === where
found_where = true
# deps is either a list of names (deps = ["DepA", "DepB"]) or
# a table of entries (deps = {"DepA" = "6ea...", "DepB" = "55d..."}
deps = get(entry, "deps", nothing)::Union{Vector{String}, Dict{String, Any}, Nothing}
deps === nothing && continue
if deps isa Vector{String}
found_name = name in deps
break
else
deps = deps::Dict{String, Any}
for (dep, uuid) in deps
uuid::String
if dep === name
return PkgId(UUID(uuid), name)
end
end
end
end
end
end
found_where || return nothing
found_name || return PkgId(name)
# Only reach here if deps was not a dict which mean we have a unique name for the dep
name_deps = get(d, name, nothing)::Union{Nothing, Vector{Any}}
if name_deps === nothing || length(name_deps) != 1
error("expected a single entry for $(repr(name)) in $(repr(project_file))")
end
entry = first(name_deps::Vector{Any})::Dict{String, Any}
uuid = get(entry, "uuid", nothing)::Union{String, Nothing}
uuid === nothing && return nothing
return PkgId(UUID(uuid), name)
end
# find `uuid` stanza, return the corresponding path
function explicit_manifest_uuid_path(project_file::String, pkg::PkgId)::Union{Nothing,String}
manifest_file = project_file_manifest_path(project_file)
manifest_file === nothing && return nothing # no manifest, skip env
d = get_deps(parsed_toml(manifest_file))
entries = get(d, pkg.name, nothing)::Union{Nothing, Vector{Any}}
entries === nothing && return nothing # TODO: allow name to mismatch?
for entry in entries
entry = entry::Dict{String, Any}
uuid = get(entry, "uuid", nothing)::Union{Nothing, String}
uuid === nothing && continue
if UUID(uuid) === pkg.uuid
return explicit_manifest_entry_path(manifest_file, pkg, entry)
end
end
return nothing
end
function explicit_manifest_entry_path(manifest_file::String, pkg::PkgId, entry::Dict{String,Any})
path = get(entry, "path", nothing)::Union{Nothing, String}
if path !== nothing
path = normpath(abspath(dirname(manifest_file), path))
return path
end
hash = get(entry, "git-tree-sha1", nothing)::Union{Nothing, String}
hash === nothing && return nothing
hash = SHA1(hash)
# Keep the 4 since it used to be the default
uuid = pkg.uuid::UUID # checked within `explicit_manifest_uuid_path`
for slug in (version_slug(uuid, hash), version_slug(uuid, hash, 4))
for depot in DEPOT_PATH
path = joinpath(depot, "packages", pkg.name, slug)
ispath(path) && return abspath(path)
end
end
return nothing
end
## implicit project & manifest API ##
# look for an entry point for `name` from a top-level package (no environment)
# otherwise return `nothing` to indicate the caller should keep searching
function implicit_project_deps_get(dir::String, name::String)::Union{Nothing,PkgId}
path, project_file = entry_point_and_project_file(dir, name)
if project_file === nothing
path === nothing && return nothing
return PkgId(name)
end
proj = project_file_name_uuid(project_file, name)
proj.name == name || return nothing
return proj
end
# look for an entry-point for `name`, check that UUID matches
# if there's a project file, look up `name` in its deps and return that
# otherwise return `nothing` to indicate the caller should keep searching
function implicit_manifest_deps_get(dir::String, where::PkgId, name::String)::Union{Nothing,PkgId}
@assert where.uuid !== nothing
project_file = entry_point_and_project_file(dir, where.name)[2]
project_file === nothing && return nothing # a project file is mandatory for a package with a uuid
proj = project_file_name_uuid(project_file, where.name, )
proj == where || return nothing # verify that this is the correct project file
# this is the correct project, so stop searching here
pkg_uuid = explicit_project_deps_get(project_file, name)
return PkgId(pkg_uuid, name)
end
# look for an entry-point for `pkg` and return its path if UUID matches
function implicit_manifest_uuid_path(dir::String, pkg::PkgId)::Union{Nothing,String}
path, project_file = entry_point_and_project_file(dir, pkg.name)
if project_file === nothing
pkg.uuid === nothing || return nothing
return path
end
proj = project_file_name_uuid(project_file, pkg.name)
proj == pkg || return nothing
return path
end
## other code loading functionality ##
function find_source_file(path::AbstractString)
(isabspath(path) || isfile(path)) && return path
base_path = joinpath(Sys.BINDIR::String, DATAROOTDIR, "julia", "base", path)
return isfile(base_path) ? normpath(base_path) : nothing
end
cache_file_entry(pkg::PkgId) = joinpath(
"compiled",
"v$(VERSION.major).$(VERSION.minor)",
pkg.uuid === nothing ? "" : pkg.name),
pkg.uuid === nothing ? pkg.name : package_slug(pkg.uuid)
function find_all_in_cache_path(pkg::PkgId)
paths = String[]
entrypath, entryfile = cache_file_entry(pkg)
for path in joinpath.(DEPOT_PATH, entrypath)
isdir(path) || continue
for file in readdir(path, sort = false) # no sort given we sort later
if !((pkg.uuid === nothing && file == entryfile * ".ji") ||
(pkg.uuid !== nothing && startswith(file, entryfile * "_")))
continue
end
filepath = joinpath(path, file)
isfile_casesensitive(filepath) && push!(paths, filepath)
end
end
if length(paths) > 1
# allocating the sort vector is less expensive than using sort!(.. by=mtime), which would
# call the relatively slow mtime multiple times per path
p = sortperm(mtime.(paths), rev = true)
return paths[p]
else
return paths
end
end
# these return either the array of modules loaded from the path / content given
# or an Exception that describes why it couldn't be loaded
# and it reconnects the Base.Docs.META
function _include_from_serialized(path::String, depmods::Vector{Any})
sv = ccall(:jl_restore_incremental, Any, (Cstring, Any), path, depmods)
if isa(sv, Exception)
return sv
end
restored = sv[1]
if !isa(restored, Exception)
for M in restored::Vector{Any}
M = M::Module
if isdefined(M, Base.Docs.META)
push!(Base.Docs.modules, M)
end
if parentmodule(M) === M
register_root_module(M)
end
end
end
isassigned(sv, 2) && ccall(:jl_init_restored_modules, Cvoid, (Any,), sv[2])
return restored
end
function _tryrequire_from_serialized(modkey::PkgId, build_id::UInt64, modpath::Union{Nothing, String})
if root_module_exists(modkey)
M = root_module(modkey)
if PkgId(M) == modkey && module_build_id(M) === build_id
return M
end
else
if modpath === nothing
modpath = locate_package(modkey)
modpath === nothing && return nothing
end
mod = _require_search_from_serialized(modkey, String(modpath))
get!(PkgOrigin, pkgorigins, modkey).path = modpath
if !isa(mod, Bool)
for callback in package_callbacks
invokelatest(callback, modkey)
end
for M in mod::Vector{Any}
M = M::Module
if PkgId(M) == modkey && module_build_id(M) === build_id
return M
end
end
end
end
return nothing
end
function _require_from_serialized(path::String)
# loads a precompile cache file, ignoring stale_cachfile tests
# load all of the dependent modules first
local depmodnames
io = open(path, "r")
try
isvalid_cache_header(io) || return ArgumentError("Invalid header in cache file $path.")
depmodnames = parse_cache_header(io)[3]
isvalid_file_crc(io) || return ArgumentError("Invalid checksum in cache file $path.")
finally
close(io)
end
ndeps = length(depmodnames)
depmods = Vector{Any}(undef, ndeps)
for i in 1:ndeps
modkey, build_id = depmodnames[i]
dep = _tryrequire_from_serialized(modkey, build_id, nothing)
dep === nothing && return ErrorException("Required dependency $modkey failed to load from a cache file.")
depmods[i] = dep::Module
end
# then load the file
return _include_from_serialized(path, depmods)
end
# returns `true` if require found a precompile cache for this sourcepath, but couldn't load it
# returns `false` if the module isn't known to be precompilable
# returns the set of modules restored if the cache load succeeded
function _require_search_from_serialized(pkg::PkgId, sourcepath::String)
paths = find_all_in_cache_path(pkg)
for path_to_try in paths::Vector{String}
staledeps = stale_cachefile(sourcepath, path_to_try)
if staledeps === true
continue
end
try
touch(path_to_try) # update timestamp of precompilation file
catch # file might be read-only and then we fail to update timestamp, which is fine
end
# finish loading module graph into staledeps
for i in 1:length(staledeps)
dep = staledeps[i]
dep isa Module && continue
modpath, modkey, build_id = dep::Tuple{String, PkgId, UInt64}
dep = _tryrequire_from_serialized(modkey, build_id, modpath)
if dep === nothing
@debug "Required dependency $modkey failed to load from cache file for $modpath."
staledeps = true
break
end
staledeps[i] = dep::Module
end
if staledeps === true
continue
end
restored = _include_from_serialized(path_to_try, staledeps)
if isa(restored, Exception)
@debug "Deserialization checks failed while attempting to load cache from $path_to_try" exception=restored
else
return restored
end
end
return !isempty(paths)
end
# to synchronize multiple tasks trying to import/using something
const package_locks = Dict{PkgId,Condition}()
# to notify downstream consumers that a module was successfully loaded
# Callbacks take the form (mod::Base.PkgId) -> nothing.
# WARNING: This is an experimental feature and might change later, without deprecation.
const package_callbacks = Any[]
# to notify downstream consumers that a file has been included into a particular module
# Callbacks take the form (mod::Module, filename::String) -> nothing
# WARNING: This is an experimental feature and might change later, without deprecation.
const include_callbacks = Any[]
# used to optionally track dependencies when requiring a module:
const _concrete_dependencies = Pair{PkgId,UInt64}[] # these dependency versions are "set in stone", and the process should try to avoid invalidating them
const _require_dependencies = Any[] # a list of (mod, path, mtime) tuples that are the file dependencies of the module currently being precompiled
const _track_dependencies = Ref(false) # set this to true to track the list of file dependencies
function _include_dependency(mod::Module, _path::AbstractString)
prev = source_path(nothing)
if prev === nothing
path = abspath(_path)
else
path = normpath(joinpath(dirname(prev), _path))
end
if _track_dependencies[]
push!(_require_dependencies, (mod, path, mtime(path)))
end
return path, prev
end
"""
include_dependency(path::AbstractString)
In a module, declare that the file specified by `path` (relative or absolute) is a
dependency for precompilation; that is, the module will need to be recompiled if this file
changes.
This is only needed if your module depends on a file that is not used via [`include`](@ref). It has
no effect outside of compilation.
"""
function include_dependency(path::AbstractString)
_include_dependency(Main, path)
return nothing
end
# we throw PrecompilableError when a module doesn't want to be precompiled
struct PrecompilableError <: Exception end
function show(io::IO, ex::PrecompilableError)
print(io, "Declaring __precompile__(false) is not allowed in files that are being precompiled.")
end
precompilableerror(ex::PrecompilableError) = true
precompilableerror(ex::WrappedException) = precompilableerror(ex.error)
precompilableerror(@nospecialize ex) = false
# Call __precompile__(false) at the top of a tile prevent it from being precompiled (false)
"""
__precompile__(isprecompilable::Bool)
Specify whether the file calling this function is precompilable, defaulting to `true`.
If a module or file is *not* safely precompilable, it should call `__precompile__(false)` in
order to throw an error if Julia attempts to precompile it.
"""
@noinline function __precompile__(isprecompilable::Bool=true)
if !isprecompilable && ccall(:jl_generating_output, Cint, ()) != 0
throw(PrecompilableError())
end
nothing
end
# require always works in Main scope and loads files from node 1
const toplevel_load = Ref(true)
const full_warning_showed = Ref(false)
const modules_warned_for = Set{PkgId}()
"""
require(into::Module, module::Symbol)
This function is part of the implementation of [`using`](@ref) / [`import`](@ref), if a module is not
already defined in `Main`. It can also be called directly to force reloading a module,
regardless of whether it has been loaded before (for example, when interactively developing
libraries).
Loads a source file, in the context of the `Main` module, on every active node, searching
standard locations for files. `require` is considered a top-level operation, so it sets the
current `include` path but does not use it to search for files (see help for [`include`](@ref)).
This function is typically used to load library code, and is implicitly called by `using` to
load packages.
When searching for files, `require` first looks for package code in the global array
[`LOAD_PATH`](@ref). `require` is case-sensitive on all platforms, including those with
case-insensitive filesystems like macOS and Windows.
For more details regarding code loading, see the manual sections on [modules](@ref modules) and
[parallel computing](@ref code-availability).
"""
function require(into::Module, mod::Symbol)
LOADING_CACHE[] = LoadingCache()
try
uuidkey = identify_package(into, String(mod))
# Core.println("require($(PkgId(into)), $mod) -> $uuidkey")
if uuidkey === nothing
where = PkgId(into)
if where.uuid === nothing
throw(ArgumentError("""
Package $mod not found in current path:
- Run `import Pkg; Pkg.add($(repr(String(mod))))` to install the $mod package.
"""))
else
s = """
Package $(where.name) does not have $mod in its dependencies:
- If you have $(where.name) checked out for development and have
added $mod as a dependency but haven't updated your primary
environment's manifest file, try `Pkg.resolve()`.
- Otherwise you may need to report an issue with $(where.name)"""
uuidkey = identify_package(PkgId(string(into)), String(mod))
uuidkey === nothing && throw(ArgumentError(s))
# fall back to toplevel loading with a warning
if !(where in modules_warned_for)
@warn string(
full_warning_showed[] ? "" : s, "\n",
string("Loading $(mod) into $(where.name) from project dependency, ",
"future warnings for $(where.name) are suppressed.")
) _module = nothing _file = nothing _group = nothing
push!(modules_warned_for, where)
end
full_warning_showed[] = true
end
end
if _track_dependencies[]
push!(_require_dependencies, (into, binpack(uuidkey), 0.0))
end
return require(uuidkey)
finally
LOADING_CACHE[] = nothing
end