namarara/lib/mm2ep_depend/parser.rb
2017-09-14 12:08:33 +02:00

217 lines
4.1 KiB
Ruby
Executable file

module Mm2ep
module Depend
class TreeExpr
def compute
raise NotImplementedError
end
end
class TreeValue
def value
raise "No value for #{@name}" if @value.nil?
@value
end
def to_s
raise NotImplementedError
end
end
class VarValue < TreeValue
def initialize(str, value)
@name = str
@value = case value
when /true/i then true
when /false/i then false
else value
end
end
def compute
@value
end
def to_s
"var:#{@name}<-(#{@value})"
end
end
class NumberValue < TreeValue
def initialize(str)
@value = str
end
def compute
@value
end
def to_s
"number:#{@value}"
end
end
class StringValue < TreeValue
def initialize(str)
@value = str
end
def compute
@value
end
def to_s
"string:\"#{@value}\""
end
end
class BoolValue < TreeValue
def initialize(str)
@value = case str
when /true/i then true
when /false/i then false
end
end
def compute
@value
end
def to_s
"bool:#{@value}"
end
end
class AndOp < TreeExpr
def initialize(expr1, expr2)
@expr1 = expr1
@expr2 = expr2
end
def compute
@expr1.compute && @expr2.compute
end
def to_s
"( #{@expr1} ) AND ( #{@expr2} )"
end
end
class OrOp
def initialize(expr1, expr2)
@expr1 = expr1
@expr2 = expr2
end
def compute
@expr1.compute || @expr2.compute
end
def to_s
"( #{@expr1} ) OR ( #{@expr2} )"
end
end
class NotOp
def initialize(expr)
@expr = expr
end
def compute
!@expr.compute
end
def to_s
"NOT ( #{@expr} )"
end
end
class EqOp
def initialize(lval, rval)
@lval = lval
@rval = rval
end
def compute
@lval.value == @rval.value
end
def to_s
"#{@lval} = #{@rval}"
end
end
class Parser < Rly::Yacc
attr_writer :names
# def names(tab)
# @names = tab
# end
precedence :left, :OR_OP
precedence :left, :AND_OP
precedence :left, :EQ_OP
precedence :right, :L_PAR, :R_PAR
precedence :right, :UMINUS
rule 'statement : expr' do |st, e|
st.value = e.value
end
rule 'expr : VAR' do |ex, l|
ex.value = EqOp.new(
VarValue.new(l.value, @names[l.value]),
BoolValue.new('true')
)
end
rule 'bool_expr : F_BOOL' do |ex, l|
ex.value = l.value
end
rule 'bool_expr : T_BOOL' do |ex, l|
ex.value = l.value
end
rule 'expr : bool_expr' do |ex, l|
ex.value = BoolValue.new(l.value.to_s)
end
rule 'expr : expr OR_OP expr' do |ex, l, _e, r|
ex.value = OrOp.new(l.value, r.value)
end
rule 'expr : expr AND_OP expr' do |ex, l, _e, r|
ex.value = AndOp.new(l.value, r.value)
end
rule 'expr : L_PAR expr R_PAR' do |ex, _l, e, _r|
ex.value = e.value
end
rule 'expr : NOT_OP expr %prec UMINUS' do |ex, _l, e|
ex.value = NotOp.new(e.value)
end
rule 'expr : VAR EQ_OP bool_expr' do |ex, v, _eq, n|
# binding.pry
ex.value = EqOp.new(
VarValue.new(v.value.to_s, @names[v.value]),
BoolValue.new(n.value)
)
end
rule 'expr : VAR EQ_OP STRING' do |ex, v, _eq, n|
ex.value = EqOp.new(
VarValue.new(v.value.to_s, @names[v.value]),
StringValue.new(n.value)
)
end
rule 'expr : VAR EQ_OP NUMBER' do |ex, v, _eq, n|
ex.value = EqOp.new(
VarValue.new(v.value.to_s, @names[v.value]),
NumberValue.new(n.value)
)
end
end # class
end # module
end # module