What exactly is the difference between bytecode and a parse tree, specifically the one used by Perl? Do they actually refer to the same concept, or is there a distinction?

I'm familiar with the concept of bytecode from Python and Java, but when reading about Perl, I've learned that it supposedly executes a parse tree (instead of bytecode) in its interpreter.

If there actually is a distinction, what are the reasons for Perl not using bytecode (or Python not using parse trees)? Is it mainly historical, or are there differences between the languages that necessitate a different compilation/execution model? Could Perl (with reasonable effort and execution performance) be implemented by using a bytecode interpreter?


What Perl uses is not a parse tree, at least not how Wikipedia defines it. It's an opcode tree.

>perl -MO=Concise -E"for (1..10) { say $i }"
g  <@> leave[1 ref] vKP/REFC ->(end)
1     <0> enter ->2
2     <;> nextstate(main 49 -e:1) v:%,{,2048 ->3
f     <2> leaveloop vK/2 ->g
7        <{> enteriter(next->c last->f redo->8) lKS/8 ->d
-           <0> ex-pushmark s ->3
-           <1> ex-list lK ->6
3              <0> pushmark s ->4
4              <$> const[IV 1] s ->5
5              <$> const[IV 10] s ->6
6           <#> gv[*_] s ->7
-        <1> null vK/1 ->f
e           <|> and(other->8) vK/1 ->f
d              <0> iter s ->e
-              <@> lineseq vK ->-
8                 <;> nextstate(main 47 -e:1) v:%,2048 ->9
b                 <@> say vK ->c
9                    <0> pushmark s ->a
-                    <1> ex-rv2sv sK/1 ->b
a                       <#> gvsv[*i] s ->b
c                 <0> unstack v ->d
-e syntax OK

Except, despite being called a tree, it's not really a tree. Notice the arrows? It's because it's actually a list-like graph of opcodes (like any other executable).

>perl -MO=Concise,-exec -E"for (1..10) { say $i }"
1  <0> enter
2  <;> nextstate(main 49 -e:1) v:%,{,2048
3  <0> pushmark s
4  <$> const[IV 1] s
5  <$> const[IV 10] s
6  <#> gv[*_] s
7  <{> enteriter(next->c last->f redo->8) lKS/8
d  <0> iter s
e  <|> and(other->8) vK/1
8      <;> nextstate(main 47 -e:1) v:%,2048
9      <0> pushmark s
a      <#> gvsv[*i] s
b      <@> say vK
c      <0> unstack v
           goto d
f  <2> leaveloop vK/2
g  <@> leave[1 ref] vKP/REFC
-e syntax OK

The difference between Perl's opcodes and Java's bytecodes is that Java's bytecodes are designed to be serialisable (stored in a file).

  • (Notice how the second output looks a lot like "the bytecode in raw and symbolic form, compiled for a stack-oriented virtual machine" later given by jjrv? Added are nextstate (which keep track of line numbers for warnings) and pushmark (which are needed for n-ary sub calls).) – ikegami May 2 '12 at 15:39
  • 1
    If it's not a tree, then why do you start out saying it is? – Rob Kennedy May 2 '12 at 15:40
  • 3
    @Rob Kennedy, It's easier to start from common ground: The OP called it a tree; it's commonly called a tree; Starts out as a tree. The word "tree" is often misapplied to graphs that aren't trees to the point of being acceptable. So it's a tree, but it's not a tree. I didn't want to start with something that would be construed as "everyone else is wrong". Because they're not really; they are using accepted terminology even though it's technically wrong. I've updated my post to clarify. – ikegami May 2 '12 at 15:48
  • So the main difference is optimization for sequential instead of "random" access? – lxgr May 2 '12 at 15:55
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    @Rob Kennedy, Short answer: Because that's what people call it. – ikegami May 2 '12 at 16:08

Parse tree is the tokens of a program, stored in a structure that shows their nesting (which arguments belong to which function calls, what statements are inside which loops etc.) while bytecode is the program code converted into a binary notation for quicker execution in a virtual machine. For example if you had the following code in an imaginary language:

loop i from 1 to 10 {
    print i

The parse tree might look for example like:


Meanwhile the bytecode in raw and symbolic form, compiled for a stack-oriented virtual machine might look like:

0x01 0x01    PUSH 1
0x02         DUP
0x03         PRINT
0x05         INCREMENT
0x02         DUP
0x01 0x0a    PUSH 10
0x04         LESSTHAN
0x06 0xf9    JUMPCOND START

When compiling a program, you'd first need to parse the source code (usually producing a parse tree) and then transform it to bytecode. It can be easier to skip the second step and execute straight from the parse tree. Also, if the language syntax is very hairy (for example it allows modifying the code) then producing the bytecode gets more complicated. If there's an eval type function to execute any code, the whole compiler has to be distributed with the application to use the virtual machine for such code. Including only a parser is simpler.

In Perl 6, the next version of perl, the code is supposed to be compiled to bytecode and run on the Parrot virtual machine. It's expected to improve performance. Bytecode is fairly straightforward to compile further to the processor's native instructions (this is called a JIT compiler) to approach speed of compiled languages like C.

  • 2
    Perl 6 is a language standard (like C++) and does not define a particular implementation. Rakudo (Perl 6 on the Parrot VM) is just one possible implementation, and may or may not turn out to be the most popular one. This is a significant change from Perl 5 and earlier, for which there's no language standard separate from the standard implementation. – cjm May 2 '12 at 17:39

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