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ruby/lib/prism/debug.rb
Aaron Patterson 881c5a1846 [ruby/prism] Add a "repeated flag" to parameter nodes 
It's possible to repeat parameters in method definitions like so:

```ruby
def foo(_a, _a)
end
```

The compiler needs to know to adjust the local table size to account for
these duplicate names.  We'll use the repeated parameter flag to account
for the extra stack space required

b443cb1f60

Co-Authored-By: Kevin Newton <kddnewton@gmail.com>
Co-Authored-By: Jemma Issroff <jemmaissroff@gmail.com>
2024-01-10 15:24:26 +00:00

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# frozen_string_literal: true
module Prism
# This module is used for testing and debugging and is not meant to be used by
# consumers of this library.
module Debug
# A wrapper around a RubyVM::InstructionSequence that provides a more
# convenient interface for accessing parts of the iseq.
class ISeq # :nodoc:
attr_reader :parts
def initialize(parts)
@parts = parts
end
def type
parts[0]
end
def local_table
parts[10]
end
def instructions
parts[13]
end
def each_child
instructions.each do |instruction|
# Only look at arrays. Other instructions are line numbers or
# tracepoint events.
next unless instruction.is_a?(Array)
instruction.each do |opnd|
# Only look at arrays. Other operands are literals.
next unless opnd.is_a?(Array)
# Only look at instruction sequences. Other operands are literals.
next unless opnd[0] == "YARVInstructionSequence/SimpleDataFormat"
yield ISeq.new(opnd)
end
end
end
end
private_constant :ISeq
# :call-seq:
# Debug::cruby_locals(source) -> Array
#
# For the given source, compiles with CRuby and returns a list of all of the
# sets of local variables that were encountered.
def self.cruby_locals(source)
verbose, $VERBOSE = $VERBOSE, nil
begin
locals = []
stack = [ISeq.new(RubyVM::InstructionSequence.compile(source).to_a)]
while (iseq = stack.pop)
names = [*iseq.local_table]
names.map!.with_index do |name, index|
# When an anonymous local variable is present in the iseq's local
# table, it is represented as the stack offset from the top.
# However, when these are dumped to binary and read back in, they
# are replaced with the symbol :#arg_rest. To consistently handle
# this, we replace them here with their index.
if name == :"#arg_rest"
names.length - index + 1
else
name
end
end
locals << names
iseq.each_child { |child| stack << child }
end
locals
ensure
$VERBOSE = verbose
end
end
# Used to hold the place of a local that will be in the local table but
# cannot be accessed directly from the source code. For example, the
# iteration variable in a for loop or the positional parameter on a method
# definition that is destructured.
AnonymousLocal = Object.new
private_constant :AnonymousLocal
# :call-seq:
# Debug::prism_locals(source) -> Array
#
# For the given source, parses with prism and returns a list of all of the
# sets of local variables that were encountered.
def self.prism_locals(source)
locals = []
stack = [Prism.parse(source).value]
while (node = stack.pop)
case node
when BlockNode, DefNode, LambdaNode
names = node.locals
params =
if node.is_a?(DefNode)
node.parameters
elsif node.parameters.is_a?(NumberedParametersNode)
nil
else
node.parameters&.parameters
end
# prism places parameters in the same order that they appear in the
# source. CRuby places them in the order that they need to appear
# according to their own internal calling convention. We mimic that
# order here so that we can compare properly.
if params
sorted = [
*params.requireds.map do |required|
if required.is_a?(RequiredParameterNode)
required.name
else
AnonymousLocal
end
end,
*params.optionals.map(&:name),
*((params.rest.name || :*) if params.rest && !params.rest.is_a?(ImplicitRestNode)),
*params.posts.map do |post|
if post.is_a?(RequiredParameterNode)
post.name
else
AnonymousLocal
end
end,
*params.keywords.grep(RequiredKeywordParameterNode).map(&:name),
*params.keywords.grep(OptionalKeywordParameterNode).map(&:name),
]
sorted << AnonymousLocal if params.keywords.any?
if params.keyword_rest.is_a?(ForwardingParameterNode)
sorted.push(:*, :&, :"...")
elsif params.keyword_rest.is_a?(KeywordRestParameterNode)
sorted << params.keyword_rest.name if params.keyword_rest.name
end
# Recurse down the parameter tree to find any destructured
# parameters and add them after the other parameters.
param_stack = params.requireds.concat(params.posts).grep(MultiTargetNode).reverse
while (param = param_stack.pop)
case param
when MultiTargetNode
param_stack.concat(param.rights.reverse)
param_stack << param.rest if param.rest&.expression && !sorted.include?(param.rest.expression.name)
param_stack.concat(param.lefts.reverse)
when RequiredParameterNode
sorted << param.name
when SplatNode
sorted << param.expression.name
end
end
sorted << params.block.name if params.block&.name
names = sorted.concat(names - sorted)
end
names.map!.with_index do |name, index|
if name == AnonymousLocal
names.length - index + 1
else
name
end
end
locals << names
when ClassNode, ModuleNode, ProgramNode, SingletonClassNode
locals << node.locals
when ForNode
locals << [2]
when PostExecutionNode
locals.push([], [])
when InterpolatedRegularExpressionNode
locals << [] if node.once?
end
stack.concat(node.compact_child_nodes)
end
locals
end
# :call-seq:
# Debug::newlines(source) -> Array
#
# For the given source string, return the byte offsets of every newline in
# the source.
def self.newlines(source)
Prism.parse(source).source.offsets
end
end
end
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