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expr.jl
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expr.jl
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# This file is a part of Julia. License is MIT: https://julialang.org/license
## symbols ##
gensym() = ccall(:jl_gensym, Ref{Symbol}, ())
gensym(s::String) = gensym(s.data)
gensym(a::Array{UInt8,1}) =
ccall(:jl_tagged_gensym, Ref{Symbol}, (Ptr{UInt8}, Int32), a, length(a))
gensym(ss::String...) = map(gensym, ss)
gensym(s::Symbol) =
ccall(:jl_tagged_gensym, Ref{Symbol}, (Ptr{UInt8}, Int32), s, ccall(:strlen, Csize_t, (Ptr{UInt8},), s))
macro gensym(names...)
blk = Expr(:block)
for name in names
push!(blk.args, :($(esc(name)) = gensym($(string(name)))))
end
push!(blk.args, :nothing)
return blk
end
## expressions ##
copy(e::Expr) = (n = Expr(e.head);
n.args = copy_exprargs(e.args);
n.typ = e.typ;
n)
# copy parts of an AST that the compiler mutates
copy_exprs(x::Expr) = copy(x)
copy_exprs(x::ANY) = x
copy_exprargs(x::Array{Any,1}) = Any[copy_exprs(a) for a in x]
==(x::Expr, y::Expr) = x.head === y.head && isequal(x.args, y.args)
==(x::QuoteNode, y::QuoteNode) = isequal(x.value, y.value)
expand(x::ANY) = ccall(:jl_expand, Any, (Any,), x)
macroexpand(x::ANY) = ccall(:jl_macroexpand, Any, (Any,), x)
## misc syntax ##
macro eval(x)
:($(esc(:eval))($(Expr(:quote,x))))
end
macro inline(ex)
esc(isa(ex, Expr) ? pushmeta!(ex, :inline) : ex)
end
macro noinline(ex)
esc(isa(ex, Expr) ? pushmeta!(ex, :noinline) : ex)
end
macro pure(ex)
esc(isa(ex, Expr) ? pushmeta!(ex, :pure) : ex)
end
"""
@propagate_inbounds(ex)
Tells the compiler to inline a function while retaining the caller's inbounds context.
"""
macro propagate_inbounds(ex)
if isa(ex, Expr)
pushmeta!(ex, :inline)
pushmeta!(ex, :propagate_inbounds)
esc(ex)
else
esc(ex)
end
end
"""
Tells the compiler to apply the polyhedral optimizer Polly to a function.
"""
macro polly(ex)
esc(isa(ex, Expr) ? pushmeta!(ex, :polly) : ex)
end
## some macro utilities ##
find_vars(e) = find_vars(e, [])
function find_vars(e, lst)
if isa(e,Symbol)
if current_module()===Main && isdefined(e)
# Main runs on process 1, so send globals from there, excluding
# things defined in Base.
if !isdefined(Base,e) || eval(Base,e)!==eval(current_module(),e)
push!(lst, e)
end
end
elseif isa(e,Expr) && e.head !== :quote && e.head !== :top && e.head !== :core
for x in e.args
find_vars(x,lst)
end
end
lst
end
# wrap an expression in "let a=a,b=b,..." for each var it references
localize_vars(expr) = localize_vars(expr, true)
function localize_vars(expr, esca)
v = find_vars(expr)
# requires a special feature of the front end that knows how to insert
# the correct variables. the list of free variables cannot be computed
# from a macro.
if esca
v = map(esc,v)
end
Expr(:localize, expr, v...)
end
function pushmeta!(ex::Expr, sym::Symbol, args::Any...)
if isempty(args)
tag = sym
else
tag = Expr(sym, args...)
end
inner = ex
while inner.head == :macrocall
inner = inner.args[end]::Expr
end
idx, exargs = findmeta(inner)
if idx != 0
push!(exargs[idx].args, tag)
else
body::Expr = inner.args[2]
unshift!(body.args, Expr(:meta, tag))
end
ex
end
function popmeta!(body::Expr, sym::Symbol)
body.head == :block || return false, []
popmeta!(body.args, sym)
end
popmeta!(arg, sym) = (false, [])
function popmeta!(body::Array{Any,1}, sym::Symbol)
idx, blockargs = findmeta_block(body, args -> findmetaarg(args,sym)!=0)
if idx == 0
return false, []
end
metaargs = blockargs[idx].args
i = findmetaarg(blockargs[idx].args, sym)
if i == 0
return false, []
end
ret = isa(metaargs[i], Expr) ? (metaargs[i]::Expr).args : []
deleteat!(metaargs, i)
isempty(metaargs) && deleteat!(blockargs, idx)
true, ret
end
# Find index of `sym` in a meta expression argument list, or 0.
function findmetaarg(metaargs, sym)
for i = 1:length(metaargs)
arg = metaargs[i]
if (isa(arg, Symbol) && (arg::Symbol) == sym) ||
(isa(arg, Expr) && (arg::Expr).head == sym)
return i
end
end
return 0
end
function findmeta(ex::Expr)
if ex.head == :function || (ex.head == :(=) && typeof(ex.args[1]) == Expr && ex.args[1].head == :call)
body::Expr = ex.args[2]
body.head == :block || error(body, " is not a block expression")
return findmeta_block(ex.args)
end
error(ex, " is not a function expression")
end
findmeta(ex::Array{Any,1}) = findmeta_block(ex)
function findmeta_block(exargs, argsmatch=args->true)
for i = 1:length(exargs)
a = exargs[i]
if isa(a, Expr)
if (a::Expr).head == :meta && argsmatch((a::Expr).args)
return i, exargs
elseif (a::Expr).head == :block
idx, exa = findmeta_block(a.args, argsmatch)
if idx != 0
return idx, exa
end
end
end
end
return 0, []
end
remove_linenums!(ex) = ex
function remove_linenums!(ex::Expr)
filter!(x->!((isa(x,Expr) && is(x.head,:line)) || isa(x,LineNumberNode)), ex.args)
for subex in ex.args
remove_linenums!(subex)
end
ex
end