A method call is often with `argc = 1` and `argv = &v` where v is a
VALUE, and some functions shift the arguments by `argc-1` and `argv+1`
(for example, rb_sym_proc_call). I'm unsure whether it is safe or not
to pass a pointer `argv+1` to memcpy with zero length, but Coverity Scan
complains it. So this attempts to suppress the warning by explicit
check of the length.
The parser needs to determine whether a local varaiable is defined or
not in outer scope. For the sake, "base_block" field has kept the outer
block.
However, the whole block was actually unneeded; the parser used only
base_block->iseq.
So, this change lets parser_params have the iseq directly, instead of
the whole block.
If the keyword flag is set, there should be at least one argument,
if there isn't, that is a sign the keyword flag was passed when it
should not have been.
This adds rb_funcall_passing_block_kw, rb_funcallv_public_kw,
and rb_yield_splat_kw. This functions are necessary to easily
handle cases where rb_funcall_passing_block, rb_funcallv_public,
and rb_yield_splat are currently used and a keyword argument
separation warning is raised.
In general RB_PASS_CALLED_KEYWORDS should only be set if we are
sure the arguments passed come directly from Ruby. For direct calls
to these C functions, we should not assume that keywords are passed.
Add static *_internal versions of these functions that
Kernel#instance_{eval,exec} and Module#{class,module}_{eval,exec}
call that set RB_PASS_CALLED_KEYWORDS.
Also, change struct.c back to calling rb_mod_module_eval, now that
the call is safe.
This fixes instance_exec and similar methods. It also fixes
Enumerator::Yielder#yield, rb_yield_block, and a couple of cases
with Proc#{<<,>>}.
This support requires the addition of rb_yield_values_kw, similar to
rb_yield_values2, for passing the keyword flag.
Unlike earlier attempts at this, this does not modify the rb_block_call_func
type or add a separate function type. The functions of type
rb_block_call_func are called by Ruby with a separate VM frame, and we can
get the keyword flag information from the VM frame flags, so it doesn't need
to be passed as a function argument.
These changes require the following VM functions accept a keyword flag:
* vm_yield_with_cref
* vm_yield
* vm_yield_with_block
rb_vm_call_kw handles the tmp buffer for you.
Also, change method_missing so it also calls rb_vm_call_kw to
handle the kw_splat flag, instead of requiring callers to handle
kw_splat flag before calling method_missing. This may fix other
cases where method_missing is currently called without the kw_splat
being handled.
When Object#to_enum is passed a block, the block is called to get
a size with the arguments given to to_enum. This calls the block
with the same keyword flag as to_enum is called with.
This requires adding rb_check_funcall_kw and
rb_check_funcall_default_kw to handle keyword flags.
If defined in Ruby, dig would be defined as def dig(arg, *rest) end,
it would not use keywords. If the last dig argument was an empty
hash, it could be treated as keyword arguments by the next dig
method. Allow dig to pass along the empty keyword flag if called
with an empty keyword, to suppress the previous behavior and force
treating the hash as a positional argument and not keywords.
Also handle the case where dig calls method_missing, passing the
empty keyword flag to that as well.
This requires adding rb_check_funcall_with_hook_kw functions, so
that dig can specify how arguments are treated. It also adds
kw_splat arguments to a couple static functions.
rb_vm_call0 allocates its own struct call_info etc. But they are
already there in case of rb_funcallv_with_cc. Let's just pass the
existing ones, instead of re-creation.
Make sure that vm_yield_with_cfunc can correctly set the empty keyword
flag by passing 2 as the kw_splat value when calling it in
vm_invoke_ifunc_block. Make sure calling.kw_splat is set to 1 and not
128 in vm_sendish, so we can safely check for different kw_splat values.
vm_args.c needs to call add_empty_keyword, and to make JIT happy, the
function needs to be exported. Rename the function to
rb_adjust_argv_kw_splat to more accurately reflect what it does, and
mark it as MJIT exported.
This makes method_missing take a flag for whether keyword arguments
were passed.
Adds tests both for rb_call_super_kw usage as well as general usage
of super calling method_missing in Ruby methods.
This should only happen if the API is misused. It's much better
to warn here and fix the problem, versus to try to debug TypeErrors
or segfaults later.
nagachika pointed out that ALLOC_N is actually just malloc, so
this memory wasn't being freed. This shouldn't be a performance
sensitive code path, and will be going away after 2.7, so just
allocate a temp buffer that will be freed later by Ruby GC.
It is not safe to set this in C functions that can be called from
other C functions, as in the non argument-delegation case, you
can end up calling a Ruby method with a flag indicating keywords
are set without passing keywords.
Introduce some new *_kw functions that take a kw_splat flag and
use these functions to set RB_PASS_CALLED_KEYWORDS in places where
we know we are delegating methods (e.g. Class#new, Method#call)
Remove rb_add_empty_keyword, and instead of calling that every
place you need to add empty keyword hashes, run that code in
a single static function in vm_eval.c.
Add 4 defines to include/ruby/ruby.h, these are to be used as
int kw_splat values when calling the various rb_*_kw functions:
RB_NO_KEYWORDS :: Do not pass keywords
RB_PASS_KEYWORDS :: Pass final argument (which should be hash) as keywords
RB_PASS_EMPTY_KEYWORDS :: Add an empty hash to arguments and pass as keywords
RB_PASS_CALLED_KEYWORDS :: Passes same keyword type as current method was
called with (for method delegation)
rb_empty_keyword_given_p needs to stay. It is required if argument
delegation is done but delayed to a later point, which Enumerator
does.
Use RB_PASS_CALLED_KEYWORDS in rb_call_super to correctly
delegate keyword arguments to super method.
This sets the correct VM frame flags when using Method#call to
call funcs, and handles empty keyword hashes for cfuncs,
attr_reader, and attr_writer. It also fixes calls to send through
Method#call. It adds tests for all of those, as well as tests for
using Method#call to call define_method, lambda, and sym_procs
(which didn't require code changes).
This makes objects created via #to_enum and related methods pass
keyword arguments as keywords.
To implement this, add a kw_splat member of struct enumerator and
struct iter_method_arg, and add rb_block_call_kw, which is the
same as rb_block_call_kw with a flag for whether the last argument
is keyword options.
Also add keyword argument separation warnings for Class#new and Method#call.
To allow for keyword argument to required positional hash converstion in
cfuncs, add a vm frame flag indicating the cfunc was called with an empty
keyword hash (which was removed before calling the cfunc). The cfunc can
check this frame flag and add back an empty hash if it is passing its
arguments to another Ruby method. Add rb_empty_keyword_given_p function
for checking if called with an empty keyword hash, and
rb_add_empty_keyword for adding back an empty hash to argv.
All of this empty keyword argument support is only for 2.7. It will be
removed in 3.0 as Ruby 3 will not convert empty keyword arguments to
required positional hash arguments. Comment all of the relevent code
to make it obvious this is expected to be removed.
Add rb_funcallv_kw as an public C-API function, just like rb_funcallv
but with a keyword flag. This is used by rb_obj_call_init (internals
of Class#new). This also required expected call_type enum with
CALL_FCALL_KW, similar to the recent addition of CALL_PUBLIC_KW.
Add rb_vm_call_kw as a internal function, used by call_method_data
(internals of Method#call and UnboundMethod#bind_call). Add tests
for UnboundMethod#bind_call keyword handling.
This is needed for C functions to call methods with keyword arguments.
This is a copy of rb_funcall_with_block with an extra argument for
the keyword flag.
There isn't a clean way to implement this that doesn't involve
changing a lot of function signatures, because rb_call doesn't
support a way to mark that the call has keyword arguments. So hack
this in using a CALL_PUBLIC_KW call_type, which we switch for
CALL_PUBLIC later in the call stack.
We do need to modify rm_vm_call0 to take an argument for whether
keyword arguments are used, since the call_type is no longer
available at that point. Use the passed in value to set the
appropriate keyword flag in both calling and ci_entry.
The kw_splat flag is whether the original call passes keyword or not.
Some types of methods (e.g., bmethod and sym_proc) drops the
information. This change tries to propagate the flag to the final
callee, as far as I can.
Ko1 plans to implement Guild. That can interface the caching
mechanism introduced here. To prevent future breakage we would
better avoid rolling our own code here. Instead use the existing
vm_search_method() which would be modified by him.
This commit deletes some asserions, but they are in fact checked
inside of vm_search_method().
Why not cache the method entry at each caller site. The void**
is in fact a method entry, but this struct is hidden from ruby.h
so intentionally left opaque.
We can check the function pointer passed to rb_define_global_function
like we do so in rb_define_method. It turns out that almost anybody
is misunderstanding the API.
After 5e86b005c0, I now think ANYARGS is
dangerous and should be extinct. This commit deletes ANYARGS from
rb_catch, and fixes some bugs revealed by that.
After 5e86b005c0, I now think ANYARGS is
dangerous and should be extinct. This commit deletes ANYARGS from
rb_rescue / rb_rescue2, which revealed many arity / type mismatches.
Improvements are:
* Use `symbol` instead of `methId`, described in doc
* Add `*args` following method signature
* Rescue error in `roman_to_int` and calls `super`, recommended in doc
* Call invalid `foo` method to Roman object to raise NoMethodError
* parse.y (yycompile): make sure in advance that the `__FILE__`
object shares a fstring, to get rid of dangling path name.
Fixed up 53e9908d8a. [Bug #16041]
* vm_eval.c (eval_make_iseq): ditto.
* internal.h (UNALIGNED_MEMBER_ACCESS, UNALIGNED_MEMBER_PTR):
moved from eval_intern.h.
* compile.c iseq.c, vm.c: use UNALIGNED_MEMBER_PTR for `entries`
in `struct iseq_catch_table`.
* vm_eval.c, vm_insnhelper.c: use UNALIGNED_MEMBER_PTR for `body`
in `rb_method_definition_t`.
At least since 2004, glibc's <string.h> annotates memcpy as
__attribute__((__nonnull__)). On the other hand the argv here,
which is passed from rb_funcallv, may be NULL. Practically this
should never be a serious problem but for maximum safety, let's
avoid passing NULL here.
For some reason symbols (or classes) are being overridden in trunk
git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@67598 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
This commit adds the new method `GC.compact` and compacting GC support.
Please see this issue for caveats:
https://bugs.ruby-lang.org/issues/15626
[Feature #15626]
git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@67576 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
Because hard to specify commits related to r67479 only.
So please commit again.
git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@67499 b2dd03c8-39d4-4d8f-98ff-823fe69b080e