Newer
Older
#
# Return an initialized FXVec2d instance.
#
def initialize(xx=0.0, yy=0.0); end
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
#
# Returns the element at _index_, where _index_ is 0 or 1.
# Raises IndexError if _index_ is out of range.
#
def [](index); end
#
# Set the element at _index_ to _value_ and return _value_.
# Raises IndexError if _index_ is out of range.
#
def []=(index, value); end
# Returns a new FXVec2d instance which is the negation of this one.
def @-(); end
#
# Returns a new FXVec2d instance obtained by memberwise
# addition of the _other_ FXVec2d instance with this
# one.
#
def +(other); end
#
# Returns a new FXVec2d instance obtained by memberwise
# subtraction of the _other_ FXVec2d instance from this
# one.
#
def -(other); end
#
# Returns a new FXVec2d instance obtained by memberwise
# multiplication of this vector's elements by the scalar
# _n_.
#
def *(n); end
#
# Returns a new FXVec2d instance obtained by memberwise
# division of this vector's elements by the scalar
# _n_.
# Raises ZeroDivisionError if _n_ is identically zero.
#
def /(n); end
#
# Returns the dot (scalar) product of this vector and _other_.
#
def dot(other); end
# Return +true+ if this vector is equal to _other_.
def ==(other); end
#
# Return the square of the length of this vector.
#
def length2; end
#
# Return the length (magnitude) of this vector.
#
def length; end
# Clamp the values of this vector between limits _lo_ and _hi_.
def clamp(lo, hi); end
#
# Return a new FXVec2d instance which is a normalized version
# of this one.
#
def normalize; end
#
# Return a new FXVec2d instance which is the lesser of this
# vector and _other_.
#
def lo(other); end
#
# Return a new FXVec2d instance which is the greater of this
# vector and _other_.
#
def hi(other); end
end
end