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numeric.rb
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numeric.rb
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class Numeric
#
# call-seq:
# num.real? -> true or false
#
# Returns +true+ if +num+ is a real number (i.e. not Complex).
#
def real?
return true
end
#
# call-seq:
# num.integer? -> true or false
#
# Returns +true+ if +num+ is an Integer.
#
# 1.0.integer? #=> false
# 1.integer? #=> true
#
def integer?
return false
end
#
# call-seq:
# num.finite? -> true or false
#
# Returns +true+ if +num+ is a finite number, otherwise returns +false+.
#
def finite?
return true
end
#
# call-seq:
# num.infinite? -> -1, 1, or nil
#
# Returns +nil+, -1, or 1 depending on whether the value is
# finite, <code>-Infinity</code>, or <code>+Infinity</code>.
#
def infinite?
return nil
end
end
class Integer
# call-seq:
# -int -> integer
#
# Returns +int+, negated.
def -@
Primitive.attr! 'inline'
Primitive.cexpr! 'rb_int_uminus(self)'
end
# call-seq:
# ~int -> integer
#
# One's complement: returns a number where each bit is flipped.
#
# Inverts the bits in an Integer. As integers are conceptually of
# infinite length, the result acts as if it had an infinite number of
# one bits to the left. In hex representations, this is displayed
# as two periods to the left of the digits.
#
# sprintf("%X", ~0x1122334455) #=> "..FEEDDCCBBAA"
def ~
Primitive.attr! 'inline'
Primitive.cexpr! 'rb_int_comp(self)'
end
# call-seq:
# int.abs -> integer
# int.magnitude -> integer
#
# Returns the absolute value of +int+.
#
# (-12345).abs #=> 12345
# -12345.abs #=> 12345
# 12345.abs #=> 12345
#
# Integer#magnitude is an alias for Integer#abs.
def abs
Primitive.attr! 'inline'
Primitive.cexpr! 'rb_int_abs(self)'
end
# call-seq:
# int.bit_length -> integer
#
# Returns the number of bits of the value of +int+.
#
# "Number of bits" means the bit position of the highest bit
# which is different from the sign bit
# (where the least significant bit has bit position 1).
# If there is no such bit (zero or minus one), zero is returned.
#
# I.e. this method returns <i>ceil(log2(int < 0 ? -int : int+1))</i>.
#
# (-2**1000-1).bit_length #=> 1001
# (-2**1000).bit_length #=> 1000
# (-2**1000+1).bit_length #=> 1000
# (-2**12-1).bit_length #=> 13
# (-2**12).bit_length #=> 12
# (-2**12+1).bit_length #=> 12
# -0x101.bit_length #=> 9
# -0x100.bit_length #=> 8
# -0xff.bit_length #=> 8
# -2.bit_length #=> 1
# -1.bit_length #=> 0
# 0.bit_length #=> 0
# 1.bit_length #=> 1
# 0xff.bit_length #=> 8
# 0x100.bit_length #=> 9
# (2**12-1).bit_length #=> 12
# (2**12).bit_length #=> 13
# (2**12+1).bit_length #=> 13
# (2**1000-1).bit_length #=> 1000
# (2**1000).bit_length #=> 1001
# (2**1000+1).bit_length #=> 1001
#
# This method can be used to detect overflow in Array#pack as follows:
#
# if n.bit_length < 32
# [n].pack("l") # no overflow
# else
# raise "overflow"
# end
def bit_length
Primitive.attr! 'inline'
Primitive.cexpr! 'rb_int_bit_length(self)'
end
# call-seq:
# int.even? -> true or false
#
# Returns +true+ if +int+ is an even number.
def even?
Primitive.attr! 'inline'
Primitive.cexpr! 'rb_int_even_p(self)'
end
# call-seq:
# int.integer? -> true
#
# Since +int+ is already an Integer, this always returns +true+.
def integer?
return true
end
alias magnitude abs
=begin
def magnitude
Primitive.attr! 'inline'
Primitive.cexpr! 'rb_int_abs(self)'
end
=end
# call-seq:
# int.odd? -> true or false
#
# Returns +true+ if +int+ is an odd number.
def odd?
Primitive.attr! 'inline'
Primitive.cexpr! 'rb_int_odd_p(self)'
end
# call-seq:
# int.ord -> self
#
# Returns the +int+ itself.
#
# 97.ord #=> 97
#
# This method is intended for compatibility to character literals
# in Ruby 1.9.
#
# For example, <code>?a.ord</code> returns 97 both in 1.8 and 1.9.
def ord
return self
end
#
# Document-method: Integer#size
# call-seq:
# int.size -> int
#
# Returns the number of bytes in the machine representation of +int+
# (machine dependent).
#
# 1.size #=> 8
# -1.size #=> 8
# 2147483647.size #=> 8
# (256**10 - 1).size #=> 10
# (256**20 - 1).size #=> 20
# (256**40 - 1).size #=> 40
#
def size
Primitive.attr! 'inline'
Primitive.cexpr! 'rb_int_size(self)'
end
# call-seq:
# int.to_i -> integer
#
# Since +int+ is already an Integer, returns +self+.
#
# #to_int is an alias for #to_i.
def to_i
return self
end
# call-seq:
# int.to_int -> integer
#
# Since +int+ is already an Integer, returns +self+.
def to_int
return self
end
# call-seq:
# int.zero? -> true or false
#
# Returns +true+ if +int+ has a zero value.
def zero?
Primitive.attr! 'inline'
Primitive.cexpr! 'rb_int_zero_p(self)'
end
end
# call-seq:
# Integer.try_convert(object) -> object, integer, or nil
#
# If +object+ is an \Integer object, returns +object+.
# Integer.try_convert(1) # => 1
#
# Otherwise if +object+ responds to <tt>:to_int</tt>,
# calls <tt>object.to_int</tt> and returns the result.
# Integer.try_convert(1.25) # => 1
#
# Returns +nil+ if +object+ does not respond to <tt>:to_int</tt>
# Integer.try_convert([]) # => nil
#
# Raises an exception unless <tt>object.to_int</tt> returns an \Integer object.
#
def Integer.try_convert(num)
=begin
Primitive.attr! 'inline'
Primitive.cexpr! 'rb_check_integer_type(num)'
=end
end if false
class Float
#
# call-seq:
# float.to_f -> self
#
# Since +float+ is already a Float, returns +self+.
#
def to_f
return self
end
#
# call-seq:
# float.abs -> float
# float.magnitude -> float
#
# Returns the absolute value of +float+.
#
# (-34.56).abs #=> 34.56
# -34.56.abs #=> 34.56
# 34.56.abs #=> 34.56
#
# Float#magnitude is an alias for Float#abs.
#
def abs
Primitive.attr! 'inline'
Primitive.cexpr! 'rb_float_abs(self)'
end
def magnitude
Primitive.attr! 'inline'
Primitive.cexpr! 'rb_float_abs(self)'
end
#
# call-seq:
# -float -> float
#
# Returns +float+, negated.
#
def -@
Primitive.attr! 'inline'
Primitive.cexpr! 'rb_float_uminus(self)'
end
#
# call-seq:
# float.zero? -> true or false
#
# Returns +true+ if +float+ is 0.0.
#
def zero?
Primitive.attr! 'inline'
Primitive.cexpr! 'RBOOL(FLOAT_ZERO_P(self))'
end
#
# call-seq:
# float.positive? -> true or false
#
# Returns +true+ if +float+ is greater than 0.
#
def positive?
Primitive.attr! 'inline'
Primitive.cexpr! 'RBOOL(RFLOAT_VALUE(self) > 0.0)'
end
#
# call-seq:
# float.negative? -> true or false
#
# Returns +true+ if +float+ is less than 0.
#
def negative?
Primitive.attr! 'inline'
Primitive.cexpr! 'RBOOL(RFLOAT_VALUE(self) < 0.0)'
end
end