module Minjs module Exp # # Primary Expressions # 11.1 # def primary_exp(lex, context, options) STDERR.puts "*** primary_exp" if @debug lex.debug_lit if @debug #STDERR.puts caller if @debug #this if lex.match_lit(ECMA262::ID_THIS) STDERR.puts "*** primary_exp => this" if @debug return ECMA262::ID_THIS end # (exp) if lex.match_lit(ECMA262::PUNC_LPARENTHESIS) if a=exp(lex, context, options) and lex.match_lit(ECMA262::PUNC_RPARENTHESIS) STDERR.puts "*** primary_exp => ()" if @debug return ECMA262::ExpParen.new(a) else raise 'error' end end # identifier || literal || array_literal || object_literal t = lex.eval_lit { identifier(lex, context) } || lex.eval_lit { literal(lex, context) } || lex.eval_lit { array_literal(lex, context, options) } || lex.eval_lit { object_literal(lex, context, options) } STDERR.puts "*** primary_exp => #{t}" if @debug t end # # 11.1.2 # def identifier(lex, context) lex.eval_lit { if (a = lex.fwd_lit).kind_of? ECMA262::IdentifierName and !a.reserved? a.context = context a else nil end } end # # 11.1.4 # def array_literal(lex, context, options) return nil unless lex.match_lit(ECMA262::PUNC_LSQBRAC) t = [] lex.eval_lit { while true if lex.match_lit(ECMA262::PUNC_COMMA) t.push(nil) elsif lex.match_lit(ECMA262::PUNC_RSQBRAC) break elsif a = assignment_exp(lex, context, {}) t.push(a) lex.match_lit(ECMA262::PUNC_COMMA) else raise ParseError.new("no `]' end of array", lex) end end ECMA262::ECMA262Array.new(t) } end # # 11.1.5 # def object_literal(lex, context, options) return nil unless lex.match_lit(ECMA262::PUNC_LCURLYBRAC) lex.eval_lit { if lex.match_lit(ECMA262::PUNC_RCURLYBRAC) next ECMA262::ECMA262Object.new([]) end if h=property_name_and_value_list(lex, context, options) ECMA262::ECMA262Object.new(h) else raise ParseError.new("no `}' end of object", lex) end } end # # name: exp # get name(){funcbody} # set name(args){funcbody} # def property_name_and_value_list(lex, context, options) lex.eval_lit{ h = [] while !lex.eof? if lex.match_lit(ECMA262::PUNC_RCURLYBRAC) break end lex.eval_lit{ a=property_name(lex, context) and lex.match_lit(ECMA262::PUNC_COLON) and b=assignment_exp(lex, context, options) h.push([a, b]) } # or lex.eval_lit{ # if lex.match_lit(ECMA262::ID_GET) and a=property_name(lex, context) and lex.match_lit(ECMA262::PUNC_LPARENTHESIS) and lex.match_lit(ECMA262::PUNC_RPARENTHESIS) and lex.match_lit(ECMA262::PUNC_LCURLYBRAC) and func_body(lex, context) and lex.match_lit(ECMA262::PUNC_RCURLYBRAC) # h[a] = "getter" #TODO # elsif lex.match_lit(ECMA262::ID_SET) and a=property_name(lex, context) and lex.match_lit(ECMA262::PUNC_LPARENTHESIS) and property_set_parameter_list(lex, context) and lex.match_lit(ECMA262::PUNC_RPARENTHESIS) and lex.match_lit(ECMA262::PUNC_LCURLYBRAC) and func_body(lex, context) and lex.match_lit(ECMA262::PUNC_RCURLYBRAC) # h[a] = "setter" #TODO # else # return nil # end # } if lex.match_lit(ECMA262::PUNC_COMMA) break if lex.match_lit(ECMA262::PUNC_RCURLYBRAC) elsif lex.match_lit(ECMA262::PUNC_RCURLYBRAC) break else raise ParseError.new("no `}' end of object", lex) end end h } end def property_name(lex, context) lex.eval_lit { a = lex.fwd_lit if a.kind_of?(ECMA262::ECMA262String) a elsif a.kind_of?(ECMA262::IdentifierName) ECMA262::ECMA262String.new(a.to_js) elsif a.kind_of?(ECMA262::ECMA262Numeric) a else raise ParseError.new("The Property name must be kind_of ItentiferName or String", lex) end } end def property_set_parameter_list(lex, context) lex.eval_lit { a = lex.fwd_lit if a.kind_of?(ECMA262::IdentifierName) and !a.reserved? a else nil end } end # # 11.2 # def left_hand_side_exp(lex, context, options) STDERR.puts "*** left_hand_side_exp" if @debug lex.debug_lit if @debug t = lex.eval_lit{ call_exp(lex, context, options) } || lex.eval_lit{ new_exp(lex, context, options) } STDERR.puts "*** left_hand_side_exp => #{t}" if @debug t end def new_exp(lex, context, options) lex.eval_lit{ if lex.match_lit(ECMA262::ID_NEW) and a=new_exp(lex, context, options) ECMA262::ExpNew.new(a, nil) else nil end } or lex.eval_lit{ member_exp(lex, context, options) } end # # call # # member_exp arguments # # call_exp arguments # call_exp [exp] # call_exp . identifier_name # # def call_exp(lex, context, options) a = lex.eval_lit{ if f = member_exp(lex, context, options) if b = arguments(lex, context, options) ECMA262::ExpCall.new(f, b) else f end else nil end } return nil if a.nil? t = a lex.eval_lit{ while true if b=arguments(lex, context, options) t = ECMA262::ExpCall.new(t, b) elsif lex.match_lit(ECMA262::PUNC_LSQBRAC) and b=exp(lex, context, options) and lex.match_lit(ECMA262::PUNC_RSQBRAC) t = ECMA262::ExpPropBrac.new(t, b) elsif lex.match_lit(ECMA262::PUNC_PERIOD) and (b=lex.fwd_lit()).kind_of?(ECMA262::IdentifierName) t = ECMA262::ExpProp.new(t, b) else break end end t } or a end # # member_exp # primary_exp # function_exp # new member_exp arguments # # member_exp[exp] # member_exp.identifier_name #prop(a,b) # def member_exp(lex, context, options) a = lex.eval_lit { primary_exp(lex, context, options) } || lex.eval_lit { func_exp(lex, context) } || lex.eval_lit { if lex.match_lit(ECMA262::ID_NEW) and a=member_exp(lex, context, options) and b=arguments(lex, context, options) ECMA262::ExpNew.new(a, b) else nil end } return nil if a.nil? t = a lex.eval_lit { while true if lex.match_lit(ECMA262::PUNC_LSQBRAC) and b=exp(lex, context, options) and lex.match_lit(ECMA262::PUNC_RSQBRAC) t = ECMA262::ExpPropBrac.new(t, b) elsif lex.match_lit(ECMA262::PUNC_PERIOD) and (b=lex.fwd_lit()).kind_of?(ECMA262::IdentifierName) t = ECMA262::ExpProp.new(t, b) else break end end t } or a end def arguments(lex, context, options) lex.eval_lit{ return nil if lex.match_lit(ECMA262::PUNC_LPARENTHESIS).nil? next [] if lex.match_lit(ECMA262::PUNC_RPARENTHESIS) args = [] while true if t = assignment_exp(lex, context, options) args.push(t) else return end if lex.match_lit(ECMA262::PUNC_COMMA) ; elsif lex.match_lit(ECMA262::PUNC_RPARENTHESIS) break else return end end args } end # # 11.3 # def postfix_exp(lex, context, options) STDERR.puts "*** postfix_exp" if @debug lex.debug_lit if @debug next_exp = :left_hand_side_exp t = lex.eval_lit{ a = __send__(next_exp, lex, context, options) return nil if a.nil? if punc = (lex.match_lit(ECMA262::PUNC_INC) || lex.match_lit(ECMA262::PUNC_DEC)) if punc == ECMA262::PUNC_INC ECMA262::ExpPostInc.new(a) else ECMA262::ExpPostDec.new(a) end else a end } STDERR.puts "*** postfix_exp => #{t}" if @debug t end # # 11.4 # def unary_exp(lex, context, options) next_exp = :postfix_exp lex.eval_lit{ if punc = (lex.match_lit(ECMA262::ID_DELETE) || lex.match_lit(ECMA262::ID_VOID) || lex.match_lit(ECMA262::ID_TYPEOF) || lex.match_lit(ECMA262::PUNC_INC) || lex.match_lit(ECMA262::PUNC_DEC) || lex.match_lit(ECMA262::PUNC_ADD) || lex.match_lit(ECMA262::PUNC_SUB) || lex.match_lit(ECMA262::PUNC_NOT) || lex.match_lit(ECMA262::PUNC_LNOT)) and a = unary_exp(lex, context, options) if punc.val == :delete ECMA262::ExpDelete.new(a) elsif punc.val == :void ECMA262::ExpVoid.new(a) elsif punc.val == :typeof ECMA262::ExpTypeof.new(a) elsif punc == ECMA262::PUNC_INC ECMA262::ExpPreInc.new(a) elsif punc == ECMA262::PUNC_DEC ECMA262::ExpPreDec.new(a) elsif punc == ECMA262::PUNC_ADD ECMA262::ExpPositive.new(a) elsif punc == ECMA262::PUNC_SUB ECMA262::ExpNegative.new(a) elsif punc == ECMA262::PUNC_NOT ECMA262::ExpBitwiseNot.new(a) elsif punc == ECMA262::PUNC_LNOT ECMA262::ExpLogicalNot.new(a) end end } || lex.eval_lit{ __send__(next_exp, lex, context, options) } end # # 11.5 # def multiplicative_exp(lex, context, options) next_exp = :unary_exp lex.eval_lit { a = __send__(next_exp, lex, context, options) next nil if !a t = a while punc = lex.match_lit(ECMA262::PUNC_MUL) || lex.match_lit(ECMA262::PUNC_DIV, :hint => :div) || lex.match_lit(ECMA262::PUNC_MOD) if b = __send__(next_exp, lex, context, options) if punc == ECMA262::PUNC_MUL t = ECMA262::ExpMul.new(t, b) elsif punc == ECMA262::PUNC_DIV t = ECMA262::ExpDiv.new(t, b) else t = ECMA262::ExpMod.new(t, b) end else break end end t } end # # 11.6 # def additive_exp(lex, context, options) next_exp = :multiplicative_exp lex.eval_lit { a = __send__(next_exp, lex, context, options) next nil if !a t = a while punc = lex.match_lit(ECMA262::PUNC_ADD) || lex.match_lit(ECMA262::PUNC_SUB) if b = __send__(next_exp, lex, context, options) if punc == ECMA262::PUNC_ADD t = ECMA262::ExpAdd.new(t, b) else t = ECMA262::ExpSub.new(t, b) end else break end end t } end # # 11.7 def shift_exp(lex, context, options) next_exp = :additive_exp lex.eval_lit { a = __send__(next_exp, lex, context, options) next nil if !a t = a while punc = lex.match_lit(ECMA262::PUNC_LSHIFT) || lex.match_lit(ECMA262::PUNC_RSHIFT) || lex.match_lit(ECMA262::PUNC_URSHIFT) if b = __send__(next_exp, lex, context, options) if punc == ECMA262::PUNC_LSHIFT t = ECMA262::ExpLShift.new(t, b) elsif punc == ECMA262::PUNC_RSHIFT t = ECMA262::ExpRShift.new(t, b) elsif punc == ECMA262::PUNC_URSHIFT t = ECMA262::ExpURShift.new(t, b) end else break end end t } end # # # 11.8 # def relational_exp(lex, context, options) next_exp = :shift_exp lex.eval_lit { a = __send__(next_exp, lex, context, options) next nil if !a t = a while (punc = lex.match_lit(ECMA262::PUNC_LT) || lex.match_lit(ECMA262::PUNC_GT) || lex.match_lit(ECMA262::PUNC_LTEQ) || lex.match_lit(ECMA262::PUNC_GTEQ) || lex.match_lit(ECMA262::ID_INSTANCEOF) || lex.match_lit(ECMA262::ID_IN)) if b = __send__(next_exp, lex, context, options) if punc == ECMA262::PUNC_LT t = ECMA262::ExpLt.new(t, b) elsif punc == ECMA262::PUNC_GT t = ECMA262::ExpGt.new(t, b) elsif punc == ECMA262::PUNC_LTEQ t = ECMA262::ExpLtEq.new(t, b) elsif punc == ECMA262::PUNC_GTEQ t = ECMA262::ExpGtEq.new(t, b) elsif punc.val == :instanceof t = ECMA262::ExpInstanceOf.new(t, b) elsif !options[:no_in] and punc.val == :in t = ECMA262::ExpIn.new(t, b) else end else break end end t } end # # # 11.9 # a == b # a != b # a === b # a !== b # def equality_exp(lex, context, options) next_exp = :relational_exp lex.eval_lit { a = __send__(next_exp, lex, context, options) next nil if !a t = a while punc = lex.match_lit(ECMA262::PUNC_EQ) || lex.match_lit(ECMA262::PUNC_NEQ) || lex.match_lit(ECMA262::PUNC_SEQ) || lex.match_lit(ECMA262::PUNC_SNEQ) if b = __send__(next_exp, lex, context, options) if punc == ECMA262::PUNC_EQ t = ECMA262::ExpEq.new(t, b) elsif punc == ECMA262::PUNC_NEQ t = ECMA262::ExpNotEq.new(t, b) elsif punc == ECMA262::PUNC_SEQ t = ECMA262::ExpStrictEq.new(t, b) elsif punc == ECMA262::PUNC_SNEQ t = ECMA262::ExpStrictNotEq.new(t, b) end else break end end t } end # # 11.10 # a & b # def bitwise_and_exp(lex, context, options) next_exp = :equality_exp lex.eval_lit { a = __send__(next_exp, lex, context, options) next nil if !a t = a while punc = lex.match_lit(ECMA262::PUNC_AND) if b = __send__(next_exp, lex, context, options) t = ECMA262::ExpAnd.new(t, b) else break end end t } end # # a ^ b # def bitwise_xor_exp(lex, context, options) next_exp = :bitwise_and_exp lex.eval_lit { a = __send__(next_exp, lex, context, options) next nil if !a t = a while punc = lex.match_lit(ECMA262::PUNC_XOR) if b = __send__(next_exp, lex, context, options) t = ECMA262::ExpXor.new(t, b) else break end end t } end # # a | b # def bitwise_or_exp(lex, context, options) next_exp = :bitwise_xor_exp lex.eval_lit { a = __send__(next_exp, lex, context, options) next nil if !a t = a while punc = lex.match_lit(ECMA262::PUNC_OR) if b = __send__(next_exp, lex, context, options) t = ECMA262::ExpOr.new(t, b) else break end end t } end # # 11.11 # a && b # def logical_and_exp(lex, context, options) next_exp = :bitwise_or_exp lex.eval_lit { a = __send__(next_exp, lex, context, options) next nil if !a t = a while punc = lex.match_lit(ECMA262::PUNC_LAND) if b = __send__(next_exp, lex, context, options) t = ECMA262::ExpLogicalAnd.new(t, b) else break end end t } end def logical_or_exp(lex, context, options) next_exp = :logical_and_exp lex.eval_lit { a = __send__(next_exp, lex, context, options) next nil if !a t = a while punc = lex.match_lit(ECMA262::PUNC_LOR) if b = __send__(next_exp, lex, context, options) t = ECMA262::ExpLogicalOr.new(t, b) else break end end t } end # # 11.12 # a ? b : c # def cond_exp(lex, context, options) t = lex.eval_lit { a = logical_or_exp(lex, context, options) next nil if !a if lex.match_lit(ECMA262::PUNC_CONDIF) and b=assignment_exp(lex, context, options) and lex.match_lit(ECMA262::PUNC_CONDELSE) and c=assignment_exp(lex, context, options) ECMA262::ExpCond.new(a, b, c) else a end } t end # #11.13 # def assignment_exp(lex, context, options) STDERR.puts "*** assignment_exp" if @debug lex.debug_lit if @debug left_hand = nil t = cond_exp(lex, context, options) return nil if t.nil? lex.eval_lit { left_hand = t punc = lex.next_lit if punc == ECMA262::PUNC_LET || punc == ECMA262::PUNC_DIVLET || punc == ECMA262::PUNC_MULLET || punc == ECMA262::PUNC_MODLET || punc == ECMA262::PUNC_ADDLET || punc == ECMA262::PUNC_SUBLET || punc == ECMA262::PUNC_LSHIFTLET || punc == ECMA262::PUNC_RSHIFTLET || punc == ECMA262::PUNC_URSHIFTLET || punc == ECMA262::PUNC_ANDLET || punc == ECMA262::PUNC_ORLET || punc == ECMA262::PUNC_XORLET lex.fwd_lit if b = assignment_exp(lex, context, options) case punc when ECMA262::PUNC_LET ECMA262::ExpAssign.new(left_hand, b) when ECMA262::PUNC_DIVLET ECMA262::ExpDivAssign.new(left_hand, b) when ECMA262::PUNC_MULLET ECMA262::ExpMulAssign.new(left_hand, b) when ECMA262::PUNC_MODLET ECMA262::ExpModAssign.new(left_hand, b) when ECMA262::PUNC_ADDLET ECMA262::ExpAddAssign.new(left_hand, b) when ECMA262::PUNC_SUBLET ECMA262::ExpSubAssign.new(left_hand, b) when ECMA262::PUNC_LSHIFTLET ECMA262::ExpLShiftAssign.new(left_hand, b) when ECMA262::PUNC_RSHIFTLET ECMA262::ExpRShiftAssign.new(left_hand, b) when ECMA262::PUNC_URSHIFTLET ECMA262::ExpURShiftAssign.new(left_hand, b) when ECMA262::PUNC_ANDLET ECMA262::ExpAndAssign.new(left_hand, b) when ECMA262::PUNC_ORLET ECMA262::ExpOrAssign.new(left_hand, b) when ECMA262::PUNC_XORLET ECMA262::ExpXorAssign.new(left_hand, b) else raise "not implement" end else # some assignment operator presents but no assignment_expression => fail return nil end else t end } end # # 11.14 # def exp(lex, context, options) lex.eval_lit{ t = assignment_exp(lex, context, {:hint => :regexp}.merge(options)) while punc = lex.match_lit(ECMA262::PUNC_COMMA) if b = assignment_exp(lex,context, {:hint => :regexp}.merge(options)) t = ECMA262::ExpComma.new(t, b) else break end end t } end end end