Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

How can I access the abstract syntax tree for a generic function in Julia?

share|improve this question

3 Answers 3

up vote 4 down vote accepted

To recap: It looks like Simon was looking for the AST for a specific method associated with a generic function. We can get a LambdaStaticData object, which contains the AST, for a specific method as follows:

julia> f(x,y)=x+y

julia> f0 = methods(f, (Any, Any))[1]
((Any,Any),(),AST(:($(expr(:lambda, {x, y}, {{}, {{x, Any, 0}, {y, Any, 0}}, {}}, quote  # none, line 1:
        return +(x,y)

julia> f0[3]
AST(:($(expr(:lambda, {x, y}, {{}, {{x, Any, 0}, {y, Any, 0}}, {}}, quote  # none, line 1:
        return +(x,y)

julia> typeof(ans)

Apparently this AST can either be an Expr object or a compressed AST object, represented as a sequence of bytes:

julia> typeof(f0[3].ast)

The show() method for LambdaStaticData from base/show.jl illustrates how to decompress this, when encountered:

julia> ccall(:jl_uncompress_ast, Any, (Any, Any), f0[3], f0[3].ast)
:($(expr(:lambda, {x, y}, {{}, {{x, Any, 0}, {y, Any, 0}}, {}}, quote  # none, line 1:
        return +(x,y)

julia> typeof(ans)
share|improve this answer
Fantastic, thanks. –  Simon Byrne Feb 15 '13 at 17:12

I'm not sure that there is an AST associated with a generic function because of multiple dispatch. If you're writing a function definition fbody, you should be able to get the AST by doing dump(quote(fbody)).

share|improve this answer
I've since figured out that you can find the specific method via methods(f,signature). However the AST in that is a Uint8 Array, rather than an Expr object. Any ideas on how I can convert it? –  Simon Byrne Jan 3 '13 at 9:48
dump(quote f end) –  Diego Javier Zea Jan 4 '13 at 1:19
@DiegoJavierZea do you know how to get the result from dump(quote f end) ? It returns Nothing but prints the AST I'm interested in. –  S4M Nov 24 '13 at 13:46
quote f end is the AST already. dump just pretty-prints it. –  John Myles White Nov 24 '13 at 16:57

Julia has four functions and four macros analog to those functions, used to inspect generic function's methods:

julia> f(x, y) = x + y                                                                                                    
f (generic function with 1 method)

julia> methods(f)                                                                                                         
# 1 method for generic function "f":                                                                                      
f(x,y) at none:1 

Lowered code:

julia> code_lowered(f, (Int, Int))                                                                                        
1-element Array{Any,1}:
 :($(Expr(:lambda, {:x,:y}, {{},{{:x,:Any,0},{:y,:Any,0}},{}}, :(begin  # none, line 1:
        return x + y

julia> @code_lowered f(1, 1)    # Both `Int`s 
...same output.

Typed code:

julia> code_typed(f, (Int, Int))                                                                                          
1-element Array{Any,1}:
 :($(Expr(:lambda, {:x,:y}, {{},{{:x,Int64,0},{:y,Int64,0}},{}}, :(begin  # none, line 1:                                 
        return (top(box))(Int64,(top(add_int))(x::Int64,y::Int64))::Int64                                                 

julia> @code_lowered f(1, 1)    # Both `Int`s  
...same output.

LLVM code:

julia> code_llvm(f, (Int, Int))                                                                                           

define i64 @julia_f_24771(i64, i64) {                                                                                     
  %2 = add i64 %1, %0, !dbg !1014                                                                                         
  ret i64 %2, !dbg !1014                                                                                                  

julia> @code_llvm f(1, 1)    # Both `Int`s   
...same output.

Native code:

julia> code_native(f, (Int, Int))                                                                                         
Filename: none                                                                                                            
Source line: 1                                                                                                            
        push    RBP                                                                                                       
        mov     RBP, RSP                                                                                                  
Source line: 1                                                                                                            
        add     RDI, RSI                                                                                                  
        mov     RAX, RDI                                                                                                  
        pop     RBP                                                                                                       

julia> @code_llvm f(1, 1)    # Both `Int`s
...same output.
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.