module Prism::Debug
This module is used for testing and debugging and is not meant to be used by consumers of this library.
Constants
- AnonymousLocal
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.
Public Class Methods
Debug::cruby_locals(source) → Array
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For the given source, compiles with CRuby and returns a list of all of the sets of local variables that were encountered.
# File prism/debug.rb, line 54 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
Debug::newlines(source) → Array
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For the given source string, return the byte offsets of every newline in the source.
# File prism/debug.rb, line 196 def self.newlines(source) Prism.parse(source).source.offsets end
Debug::prism_locals(source) → Array
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For the given source, parses with prism and returns a list of all of the sets of local variables that were encountered.
# File prism/debug.rb, line 98 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), ] if params.keyword_rest.is_a?(ForwardingParameterNode) sorted.push(:*, :&, :"...") end sorted << AnonymousLocal if params.keywords.any? # 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 param_stack.concat(param.lefts.reverse) when RequiredParameterNode sorted << param.name when SplatNode sorted << param.expression.name if param.expression end end 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