зеркало из https://github.com/github/ruby.git
410 строки
8.0 KiB
Ruby
410 строки
8.0 KiB
Ruby
class Numeric
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# call-seq:
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# dup -> self
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#
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# Returns +self+.
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#
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# Related: Numeric#clone.
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#
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def dup
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self
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end
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# call-seq:
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# real? -> true or false
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#
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# Returns +true+ if +self+ is a real number (i.e. not Complex).
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#
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def real?
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true
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end
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# call-seq:
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# real -> self
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#
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# Returns +self+.
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#
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def real
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self
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end
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# call-seq:
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# integer? -> true or false
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#
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# Returns +true+ if +self+ is an Integer.
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#
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# 1.0.integer? # => false
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# 1.integer? # => true
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#
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def integer?
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false
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end
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# call-seq:
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# finite? -> true or false
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#
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# Returns +true+ if +self+ is a finite number, +false+ otherwise.
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#
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def finite?
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true
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end
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# call-seq:
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# infinite? -> -1, 1, or nil
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#
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# Returns +nil+, -1, or 1 depending on whether +self+ is
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# finite, <tt>-Infinity</tt>, or <tt>+Infinity</tt>.
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#
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def infinite?
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nil
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end
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# call-seq:
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# imag -> 0
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#
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# Returns zero.
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#
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def imaginary
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0
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end
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alias imag imaginary
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# call-seq:
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# conj -> self
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#
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# Returns +self+.
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#
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def conjugate
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self
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end
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alias conj conjugate
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# call-seq:
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# +self -> self
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#
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# Returns +self+.
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#
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def +@
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self
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end
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end
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class Integer
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# call-seq:
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# -int -> integer
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#
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# Returns +self+, negated.
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def -@
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Primitive.attr! :leaf
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Primitive.cexpr! 'rb_int_uminus(self)'
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end
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# call-seq:
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# ~int -> integer
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#
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# One's complement:
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# returns the value of +self+ with each bit inverted.
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#
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# Because an integer value is conceptually of infinite length,
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# the result acts as if it had an infinite number of
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# one bits to the left.
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# In hex representations, this is displayed
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# as two periods to the left of the digits:
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#
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# sprintf("%X", ~0x1122334455) # => "..FEEDDCCBBAA"
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#
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def ~
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Primitive.attr! :leaf
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Primitive.cexpr! 'rb_int_comp(self)'
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end
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# call-seq:
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# abs -> integer
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#
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# Returns the absolute value of +self+.
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#
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# (-12345).abs # => 12345
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# -12345.abs # => 12345
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# 12345.abs # => 12345
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#
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def abs
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Primitive.attr! :leaf
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Primitive.cexpr! 'rb_int_abs(self)'
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end
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# call-seq:
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# bit_length -> integer
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#
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# Returns the number of bits of the value of +self+,
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# which is the bit position of the highest-order bit
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# that is different from the sign bit
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# (where the least significant bit has bit position 1).
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# If there is no such bit (zero or minus one), returns zero.
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#
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# This method returns <tt>ceil(log2(self < 0 ? -self : self + 1))</tt>>.
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#
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# (-2**1000-1).bit_length # => 1001
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# (-2**1000).bit_length # => 1000
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# (-2**1000+1).bit_length # => 1000
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# (-2**12-1).bit_length # => 13
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# (-2**12).bit_length # => 12
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# (-2**12+1).bit_length # => 12
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# -0x101.bit_length # => 9
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# -0x100.bit_length # => 8
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# -0xff.bit_length # => 8
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# -2.bit_length # => 1
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# -1.bit_length # => 0
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# 0.bit_length # => 0
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# 1.bit_length # => 1
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# 0xff.bit_length # => 8
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# 0x100.bit_length # => 9
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# (2**12-1).bit_length # => 12
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# (2**12).bit_length # => 13
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# (2**12+1).bit_length # => 13
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# (2**1000-1).bit_length # => 1000
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# (2**1000).bit_length # => 1001
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# (2**1000+1).bit_length # => 1001
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#
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# For \Integer _n_,
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# this method can be used to detect overflow in Array#pack:
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#
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# if n.bit_length < 32
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# [n].pack('l') # No overflow.
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# else
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# raise 'Overflow'
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# end
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#
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def bit_length
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Primitive.attr! :leaf
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Primitive.cexpr! 'rb_int_bit_length(self)'
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end
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# call-seq:
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# even? -> true or false
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#
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# Returns +true+ if +self+ is an even number, +false+ otherwise.
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def even?
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Primitive.attr! :leaf
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Primitive.cexpr! 'rb_int_even_p(self)'
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end
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# call-seq:
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# integer? -> true
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#
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# Since +self+ is already an \Integer, always returns +true+.
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def integer?
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true
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end
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alias magnitude abs
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# call-seq:
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# odd? -> true or false
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#
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# Returns +true+ if +self+ is an odd number, +false+ otherwise.
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def odd?
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Primitive.attr! :leaf
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Primitive.cexpr! 'rb_int_odd_p(self)'
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end
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# call-seq:
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# ord -> self
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#
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# Returns +self+;
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# intended for compatibility to character literals in Ruby 1.9.
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def ord
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self
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end
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# call-seq:
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# size -> integer
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#
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# Returns the number of bytes in the machine representation of +self+;
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# the value is system-dependent:
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#
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# 1.size # => 8
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# -1.size # => 8
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# 2147483647.size # => 8
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# (256**10 - 1).size # => 10
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# (256**20 - 1).size # => 20
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# (256**40 - 1).size # => 40
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#
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def size
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Primitive.attr! :leaf
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Primitive.cexpr! 'rb_int_size(self)'
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end
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# call-seq:
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# times {|i| ... } -> self
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# times -> enumerator
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#
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# Calls the given block +self+ times with each integer in <tt>(0..self-1)</tt>:
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#
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# a = []
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# 5.times {|i| a.push(i) } # => 5
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# a # => [0, 1, 2, 3, 4]
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#
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# With no block given, returns an Enumerator.
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def times
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Primitive.attr! :inline_block
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unless defined?(yield)
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return Primitive.cexpr! 'SIZED_ENUMERATOR(self, 0, 0, int_dotimes_size)'
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end
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i = 0
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while i < self
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yield i
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i = i.succ
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end
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self
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end
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# call-seq:
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# to_i -> self
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#
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# Returns +self+ (which is already an \Integer).
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def to_i
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self
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end
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# call-seq:
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# to_int -> self
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#
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# Returns +self+ (which is already an \Integer).
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def to_int
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self
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end
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# call-seq:
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# zero? -> true or false
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#
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# Returns +true+ if +self+ has a zero value, +false+ otherwise.
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def zero?
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Primitive.attr! :leaf
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Primitive.cexpr! 'rb_int_zero_p(self)'
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end
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# call-seq:
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# ceildiv(numeric) -> integer
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#
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# Returns the result of division +self+ by +numeric+.
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# rounded up to the nearest integer.
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#
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# 3.ceildiv(3) # => 1
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# 4.ceildiv(3) # => 2
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#
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# 4.ceildiv(-3) # => -1
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# -4.ceildiv(3) # => -1
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# -4.ceildiv(-3) # => 2
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#
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# 3.ceildiv(1.2) # => 3
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#
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def ceildiv(other)
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-div(0 - other)
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end
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#
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# call-seq:
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# numerator -> self
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#
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# Returns +self+.
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#
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def numerator
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self
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end
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# call-seq:
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# denominator -> 1
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#
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# Returns +1+.
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def denominator
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1
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end
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with_yjit do
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if Primitive.rb_builtin_basic_definition_p(:downto)
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undef :downto
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def downto(to) # :nodoc:
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Primitive.attr! :inline_block, :c_trace
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unless defined?(yield)
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return Primitive.cexpr! 'SIZED_ENUMERATOR(self, 1, &to, int_downto_size)'
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end
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from = self
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while from >= to
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yield from
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from = from.pred
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end
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end
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end
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end
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end
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class Float
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# call-seq:
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# to_f -> self
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#
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# Returns +self+ (which is already a \Float).
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def to_f
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self
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end
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# call-seq:
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# float.abs -> float
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#
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# Returns the absolute value of +self+:
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#
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# (-34.56).abs # => 34.56
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# -34.56.abs # => 34.56
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# 34.56.abs # => 34.56
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#
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def abs
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Primitive.attr! :leaf
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Primitive.cexpr! 'rb_float_abs(self)'
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end
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alias magnitude abs
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# call-seq:
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# -float -> float
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#
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# Returns +self+, negated.
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#
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def -@
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Primitive.attr! :leaf
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Primitive.cexpr! 'rb_float_uminus(self)'
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end
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# call-seq:
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# zero? -> true or false
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#
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# Returns +true+ if +self+ is 0.0, +false+ otherwise.
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def zero?
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Primitive.attr! :leaf
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Primitive.cexpr! 'RBOOL(FLOAT_ZERO_P(self))'
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end
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# call-seq:
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# positive? -> true or false
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#
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# Returns +true+ if +self+ is greater than 0, +false+ otherwise.
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def positive?
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Primitive.attr! :leaf
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Primitive.cexpr! 'RBOOL(RFLOAT_VALUE(self) > 0.0)'
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end
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# call-seq:
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# negative? -> true or false
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#
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# Returns +true+ if +self+ is less than 0, +false+ otherwise.
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def negative?
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Primitive.attr! :leaf
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Primitive.cexpr! 'RBOOL(RFLOAT_VALUE(self) < 0.0)'
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end
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end
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