Feature #12093
closedEval InstructionSequence with binding
Description
Implementing this feature can boost template engine performance
Currently Kernel#eval can accept binding argument, so code running with eval will have access to local variables and current instance. This feature used by template languages
ERB: https://github.com/ruby/ruby/blob/trunk/lib/erb.rb#L887
Erubis: Can't find code on github, but it uses instance_eval or Kernel#eval
Haml: https://github.com/haml/haml/blob/master/lib/haml/engine.rb#L115
My proposal is to make RubyVM::InstructionSequence#eval to recieve binding argument. So it can be used for caching templates. As I see from ERB and Haml, cached template is stored as ruby code string, every time when we render template that string (ruby code) is evaluated, internally ruby will parse it into RubyVM::InstructionSequence and then evaluate.
Before I try to implement it myself in ruby, but could not. Lack of experience with C https://github.com/Paxa/ruby/commit/f5b602b6d9eada9675a4c002c9a5a79129df73a6 (not working)
Files
Updated by nobu (Nobuyoshi Nakada) almost 9 years ago
- Project changed from 14 to Ruby master
Updated by nobu (Nobuyoshi Nakada) over 8 years ago
Depending on the context, an identifier may be a local variable or a method call.
I think that RubyVM::InstructionSequence#compile
would need the binding, instead of #eval
.
Updated by shyouhei (Shyouhei Urabe) over 8 years ago
"ISeq#compile's need of binding" means a template engine cannot cache compiled ISeqs for later invocation, right? I doubt the benfit of compile's taking bindings.
Updated by nobu (Nobuyoshi Nakada) over 8 years ago
Do you mean same template with different contexts, a name is a variable one time, but a method call next time?
I doubt that it is a common use case.
Updated by nobu (Nobuyoshi Nakada) about 8 years ago
I discovered an old patch for this issue.
This enables the following code, but doesn't seem useful to me.
obj = Struct.new(:a, :b).new(1, 2)
bind = obj.instance_eval {binding}
RubyVM::InstructionSequence.compile("a + b").eval_with(bind) #=> 3
Updated by dalehamel (Dale Hamel) over 5 years ago
Howdy,
Sorry to ping a 3 year old issue, i Just wanted to add my 2 cents here.
I came across this issue when googling for a way to evaluate an instruction sequence with a particular binding. I'm working on an experimental gem that would inject "breakpoints" in arbitrary lines in ruby methods, with the idea that eBPF / bpftrace can be used to read values from these overridden methods.
Right now i'm using a block to 'handle' the original source code in its original binding, but i have to use ruby's 'eval' method to do this.
I'd ideally like to precompile the original source code sequence, and evaluate this with the original binding.
Updated by dalehamel (Dale Hamel) over 5 years ago
- File 0002-Update-iseq.eval-to-accept-optional-binding-FIXES-Bu.patch 0002-Update-iseq.eval-to-accept-optional-binding-FIXES-Bu.patch added
- File 0001-RubyVM-InstructionSequence-eval_with.patch 0001-RubyVM-InstructionSequence-eval_with.patch added
Here's the current draft of the patch set, which I intend to submit a github pull request for as well.
I've retained Nobu's patch, and built on it.
Updated by shevegen (Robert A. Heiler) over 5 years ago
Nobu recently added it for the next developer meeting (in August; see
https://bugs.ruby-lang.org/issues/15996) so stay tuned. :)
Updated by dalehamel (Dale Hamel) over 5 years ago
Awesome I just saw that - thanks for the update!
The latest patch is now at https://github.com/ruby/ruby/pull/2298 and so that's where the review should go.
I'll stay-tuned and watch for updates from that meeting, thanks Robert!
Updated by ko1 (Koichi Sasada) over 5 years ago
What the last line should output?
def a; :m_a end
def b; :m_b end
def bind
a = :l_a
b = :l_b
binding
end
eval('p [a, b]', bind())
#=> [:l_a, :l_b]
RubyVM::InstructionSequence.compile("p [a, b]").eval
#=> [:m_a, :m_b]
RubyVM::InstructionSequence.compile("p [a, b]").eval(bind())
#=> ???
I believe we shouldn't introduce binding
option to ISeq#eval
.
Updated by dalehamel (Dale Hamel) over 5 years ago
Yes when I test out Koichi's sample, the iseq look like:
disasm: #<ISeq:<compiled>@<compiled>:1 (1,0)-(1,6)> (catch: FALSE)
0000 putself ( 1)[Li]
0001 opt_send_without_block <callinfo!mid:a, argc:0, FCALL|VCALL|ARGS_SIMPLE>, <callcache>
0004 putself
0005 opt_send_without_block <callinfo!mid:b, argc:0, FCALL|VCALL|ARGS_SIMPLE>, <callcache>
0008 newarray 2
0010 leave
So there is no way for the local variables from the binding to be evaluated, as the original instruction sequence expects a method call. I hadn't realized that when compiling the iseq string, methods calls are found in this way.
This indicates that yeah, Nobu's comment above appears correct, you must have the binding available when the iseq is compiled. It appears to do so implicitly based on the current binding.
It looks works with the struct example because the values for a
and b
have method calls that can receive and respond instead of these local variables, avoiding the problem. This seems inconsistent with Kernel#eval
and binding#eval
, which is counterproductive.
Updated by ko1 (Koichi Sasada) over 5 years ago
- Status changed from Open to Rejected
Ok. I reject this ticket, and pls remake your proposal if you find a good way.
Updated by dalehamel (Dale Hamel) over 5 years ago
Understood, I’ve closed the pull request.
Updated by nobu (Nobuyoshi Nakada) over 5 years ago
Indeed eval
with an arbitrary Binding
doesn't make a sense.
How about eval
on a given object?
Currently, iseqs eval always on the top-level object without any argument, and I've needed code like:
RubyVM::InstructionSequence.compile("proc {...}").eval.call(obj).call(*args)
I think it should be simpler.
RubyVM::InstructionSequence.compile("proc {...}").bind(obj).call(*args)
# or
RubyVM::InstructionSequence.compile("proc {...}", receiver: obj).call(*args)
@dalehamel (Dale Hamel), does this suffice your use case?
Updated by dalehamel (Dale Hamel) about 5 years ago
does this suffice your use case?
Interesting, I'll need to investigate this - it certainly has potential.
My use case is for experimental tracing work, and I basically want to be
able to pre-compile original source with added instructions, and execute them
within the context they were originally intended to be executed within.
This is why I had a use for being able to execute within arbitrary bindings, but
if I can target right receiver / bind to the right object, this could work.
I will try a prototype be seeing which receiving I am presently binding to, and
look into modifying the patch to support the prototype you suggest to see if
it can fit my use case by passing this receiver rather than the binding.
Thank you for response and feedback Nobu.