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module RubyVM::RJIT # Represent the type of a value (local/stack/self) in RJIT Type = Data.define(:type) do # Check if the type is an immediate def imm? case self in Type::UnknownImm then true in Type::Nil then true in Type::True then true in Type::False then true in Type::Fixnum then true in Type::Flonum then true in Type::ImmSymbol then true else false end end # Returns true when the type is not specific. def unknown? case self in Type::Unknown | Type::UnknownImm | Type::UnknownHeap then true else false end end # Returns true when we know the VALUE is a specific handle type, # such as a static symbol ([Type::ImmSymbol], i.e. true from RB_STATIC_SYM_P()). # Opposite of [Self::is_unknown]. def specific? !self.unknown? end # Check if the type is a heap object def heap? case self in Type::UnknownHeap then true in Type::TArray then true in Type::Hash then true in Type::HeapSymbol then true in Type::TString then true in Type::CString then true in Type::BlockParamProxy then true else false end end # Check if it's a T_ARRAY object def array? case self in Type::TArray then true else false end end # Check if it's a T_STRING object (both TString and CString are T_STRING) def string? case self in Type::TString then true in Type::CString then true else false end end # Returns the class if it is known, otherwise nil def known_class case self in Type::Nil then C.rb_cNilClass in Type::True then C.rb_cTrueClass in Type::False then C.rb_cFalseClass in Type::Fixnum then C.rb_cInteger in Type::Flonum then C.rb_cFloat in Type::ImmSymbol | Type::HeapSymbol then C.rb_cSymbol in Type::CString then C.rb_cString else nil end end # Returns a boolean representing whether the value is truthy if known, otherwise nil def known_truthy case self in Type::Nil then false in Type::False then false in Type::UnknownHeap then false in Type::Unknown | Type::UnknownImm then nil else true end end # Returns a boolean representing whether the value is equal to nil if known, otherwise nil def known_nil case [self, self.known_truthy] in Type::Nil, _ then true in Type::False, _ then false # Qfalse is not nil in _, true then false # if truthy, can't be nil in _, _ then nil # otherwise unknown end end def diff(dst) # Perfect match, difference is zero if self == dst return TypeDiff::Compatible[0] end # Any type can flow into an unknown type if dst == Type::Unknown return TypeDiff::Compatible[1] end # A CString is also a TString. if self == Type::CString && dst == Type::TString return TypeDiff::Compatible[1] end # Specific heap type into unknown heap type is imperfect but valid if self.heap? && dst == Type::UnknownHeap return TypeDiff::Compatible[1] end # Specific immediate type into unknown immediate type is imperfect but valid if self.imm? && dst == Type::UnknownImm return TypeDiff::Compatible[1] end # Incompatible types return TypeDiff::Incompatible end def upgrade(new_type) assert(new_type.diff(self) != TypeDiff::Incompatible) new_type end private def assert(cond) unless cond raise "'#{cond.inspect}' was not true" end end end # This returns an appropriate Type based on a known value class << Type def from(val) if C::SPECIAL_CONST_P(val) if fixnum?(val) Type::Fixnum elsif val.nil? Type::Nil elsif val == true Type::True elsif val == false Type::False elsif static_symbol?(val) Type::ImmSymbol elsif flonum?(val) Type::Flonum else raise "Illegal value: #{val.inspect}" end else val_class = C.to_value(C.rb_class_of(val)) if val_class == C.rb_cString && C.rb_obj_frozen_p(val) return Type::CString end if C.to_value(val) == C.rb_block_param_proxy return Type::BlockParamProxy end case C::BUILTIN_TYPE(val) in C::RUBY_T_ARRAY Type::TArray in C::RUBY_T_HASH Type::Hash in C::RUBY_T_STRING Type::TString else Type::UnknownHeap end end end private def fixnum?(obj) (C.to_value(obj) & C::RUBY_FIXNUM_FLAG) == C::RUBY_FIXNUM_FLAG end def flonum?(obj) (C.to_value(obj) & C::RUBY_FLONUM_MASK) == C::RUBY_FLONUM_FLAG end def static_symbol?(obj) (C.to_value(obj) & 0xff) == C::RUBY_SYMBOL_FLAG end end # List of types Type::Unknown = Type[:Unknown] Type::UnknownImm = Type[:UnknownImm] Type::UnknownHeap = Type[:UnknownHeap] Type::Nil = Type[:Nil] Type::True = Type[:True] Type::False = Type[:False] Type::Fixnum = Type[:Fixnum] Type::Flonum = Type[:Flonum] Type::Hash = Type[:Hash] Type::ImmSymbol = Type[:ImmSymbol] Type::HeapSymbol = Type[:HeapSymbol] Type::TString = Type[:TString] # An object with the T_STRING flag set, possibly an rb_cString Type::CString = Type[:CString] # An un-subclassed string of type rb_cString (can have instance vars in some cases) Type::TArray = Type[:TArray] # An object with the T_ARRAY flag set, possibly an rb_cArray Type::BlockParamProxy = Type[:BlockParamProxy] # A special sentinel value indicating the block parameter should be read from module TypeDiff Compatible = Data.define(:diversion) # The smaller, the more compatible. Incompatible = :Incompatible end end