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SDS2 Parametric API
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Data and other attributes defined here: | |
| BEAM = Rebar.RebarUsageType.BEAM | |
| COLUMN = Rebar.RebarUsageType.COLUMN | |
| FOOTING = Rebar.RebarUsageType.FOOTING | |
| NONE = Rebar.RebarUsageType.NONE | |
| SLAB = Rebar.RebarUsageType.SLAB | |
| WALL = Rebar.RebarUsageType.WALL | |
| dictionary | names = {'BEAM': Rebar.RebarUsageType.BEAM, 'COLUMN': Rebar.RebarUsageType.COLUMN, 'FOOTING': Rebar.RebarUsageType.FOOTING, 'NONE': Rebar.RebarUsageType.NONE, 'SLAB': Rebar.RebarUsageType.SLAB, 'WALL': Rebar.RebarUsageType.WALL} |
| dictionary | values = {0: Rebar.RebarUsageType.NONE, 1: Rebar.RebarUsageType.SLAB, 2: Rebar.RebarUsageType.FOOTING, 3: Rebar.RebarUsageType.WALL, 4: Rebar.RebarUsageType.BEAM, 5: Rebar.RebarUsageType.COLUMN} |
Methods inherited from Boost.Python.enum: | |
| def | __repr__ |
| Equivalent to repr(x) | |
| def | __str__ |
| Equivalent to str(x) | |
Data descriptors inherited from Boost.Python.enum: | |
| def | name |
Methods inherited from __builtin__.int: | |
| def | __abs__ |
| Equivalent to abs(x) | |
| def | __add__ |
| Equivalent to x+y. | |
| def | __and__ |
| Equivalent to x&y. | |
| def | __cmp__ |
| Equivalent to cmp(x,y) | |
| def | __coerce__ |
| Equivalent to coerce(x, y) | |
| def | __div__ |
| Equivalent to x/y. | |
| def | __divmod__ |
| Equivalent to divmod(x, y) | |
| def | __float__ |
| Equivalent to float(x) | |
| def | __floordiv__ |
| Equivalent to x//y. | |
| def | __format__ |
| def | __getattribute__ |
| Equivalent to x.name. | |
| def | __getnewargs__ |
| def | __hash__ |
| Equivalent to hash(x) | |
| def | __hex__ |
| Equivalent to hex(x) | |
| def | __index__ |
| Equivalent to x[y.__index__():z.__index__()]. | |
| def | __int__ |
| Equivalent to int(x) | |
| def | __invert__ |
| Equivalent to ~x. | |
| def | __long__ |
| Equivalent to long(x) | |
| def | __lshift__ |
| Equivalent to x<<y. | |
| def | __mod__ |
| Equivalent to xy. | |
| def | __mul__ |
| Equivalent to x*y. | |
| def | __neg__ |
| Equivalent to -x. | |
| def | __nonzero__ |
| Equivalent to x != 0. | |
| def | __oct__ |
| Equivalent to oct(x) | |
| def | __or__ |
| Equivalent to x|y. | |
| def | __pos__ |
| Equivalent to +x. | |
| def | __pow__ |
| Equivalent to pow(x, y[, z]) | |
| def | __radd__ |
| Equivalent to y+x. | |
| def | __rand__ |
| Equivalent to y&x. | |
| def | __rdiv__ |
| Equivalent to y/x. | |
| def | __rdivmod__ |
| Equivalent to divmod(y, x) | |
| def | __rfloordiv__ |
| Equivalent to y//x. | |
| def | __rlshift__ |
| Equivalent to y<<x. | |
| def | __rmod__ |
| Equivalent to yx. | |
| def | __rmul__ |
| Equivalent to y*x. | |
| def | __ror__ |
| Equivalent to y|x. | |
| def | __rpow__ |
| Equivalent to pow(x, y[, z]) | |
| def | __rrshift__ |
| Equivalent to y>>x. | |
| def | __rshift__ |
| Equivalent to x>>y. | |
| def | __rsub__ |
| Equivalent to y-x. | |
| def | __rtruediv__ |
| Equivalent to y/x. | |
| def | __rxor__ |
| Equivalent to y^x. | |
| def | __sub__ |
| Equivalent to x-y. | |
| def | __truediv__ |
| Equivalent to x/y. | |
| def | __trunc__ |
| def | __xor__ |
| Equivalent to x^y. | |
| def | bit_length |
| def | conjugate |
Data descriptors inherited from __builtin__.int: | |
| def | denominator |
| the denominator of a rational number in lowest terms | |
| def | imag |
| the imaginary part of a complex number | |
| def | numerator |
| the numerator of a rational number in lowest terms | |
| def | real |
| the real part of a complex number | |
Data and other attributes inherited from __builtin__.int: | |
| def | __new__ |
No documentation available.
RebarUsageType
Boost.Python.enum
builtin.int
builtin.object
| def Rebar.RebarUsageType.__abs__ | ( | args | ) |
Equivalent to abs(x)
| def Rebar.RebarUsageType.__add__ | ( | y | ) |
Equivalent to x+y.
| def Rebar.RebarUsageType.__and__ | ( | y | ) |
Equivalent to x&y.
| def Rebar.RebarUsageType.__cmp__ | ( | y | ) |
Equivalent to cmp(x,y)
| def Rebar.RebarUsageType.__coerce__ | ( | y | ) |
Equivalent to coerce(x, y)
| def Rebar.RebarUsageType.__div__ | ( | y | ) |
Equivalent to x/y.
| def Rebar.RebarUsageType.__divmod__ | ( | y | ) |
Equivalent to divmod(x, y)
| def Rebar.RebarUsageType.__float__ | ( | args | ) |
Equivalent to float(x)
| def Rebar.RebarUsageType.__floordiv__ | ( | y | ) |
Equivalent to x//y.
| def Rebar.RebarUsageType.__format__ | ( | args | ) |
__format__(args)
| def Rebar.RebarUsageType.__getattribute__ | ( | name | ) |
Equivalent to x.name.
| def Rebar.RebarUsageType.__getnewargs__ | ( | args | ) |
__getnewargs__(args)
| def Rebar.RebarUsageType.__hash__ | ( | args | ) |
Equivalent to hash(x)
| def Rebar.RebarUsageType.__hex__ | ( | args | ) |
Equivalent to hex(x)
| def Rebar.RebarUsageType.__index__ | ( | args | ) |
Equivalent to x[y.__index__():z.__index__()].
| def Rebar.RebarUsageType.__int__ | ( | args | ) |
Equivalent to int(x)
| def Rebar.RebarUsageType.__invert__ | ( | args | ) |
Equivalent to ~x.
| def Rebar.RebarUsageType.__long__ | ( | args | ) |
Equivalent to long(x)
| def Rebar.RebarUsageType.__lshift__ | ( | y | ) |
Equivalent to x<<y.
| def Rebar.RebarUsageType.__mod__ | ( | y | ) |
Equivalent to xy.
| def Rebar.RebarUsageType.__mul__ | ( | y | ) |
Equivalent to x*y.
| def Rebar.RebarUsageType.__neg__ | ( | args | ) |
Equivalent to -x.
| def Rebar.RebarUsageType.__new__ | ( | args | ) |
T.__new__(S, ...) -> a new object with type S, a subtype of T
__new__ = <built-in method __new__ of type object>
| def Rebar.RebarUsageType.__nonzero__ | ( | args | ) |
Equivalent to x != 0.
| def Rebar.RebarUsageType.__oct__ | ( | args | ) |
Equivalent to oct(x)
| def Rebar.RebarUsageType.__or__ | ( | y | ) |
Equivalent to x|y.
| def Rebar.RebarUsageType.__pos__ | ( | args | ) |
Equivalent to +x.
| def Rebar.RebarUsageType.__pow__ | ( | y, | |
| z | |||
| ) |
Equivalent to pow(x, y[, z])
| def Rebar.RebarUsageType.__radd__ | ( | y | ) |
Equivalent to y+x.
| def Rebar.RebarUsageType.__rand__ | ( | y | ) |
Equivalent to y&x.
| def Rebar.RebarUsageType.__rdiv__ | ( | y | ) |
Equivalent to y/x.
| def Rebar.RebarUsageType.__rdivmod__ | ( | y | ) |
Equivalent to divmod(y, x)
| def Rebar.RebarUsageType.__repr__ | ( | args | ) |
Equivalent to repr(x)
| def Rebar.RebarUsageType.__rfloordiv__ | ( | y | ) |
Equivalent to y//x.
| def Rebar.RebarUsageType.__rlshift__ | ( | y | ) |
Equivalent to y<<x.
| def Rebar.RebarUsageType.__rmod__ | ( | y | ) |
Equivalent to yx.
| def Rebar.RebarUsageType.__rmul__ | ( | y | ) |
Equivalent to y*x.
| def Rebar.RebarUsageType.__ror__ | ( | y | ) |
Equivalent to y|x.
| def Rebar.RebarUsageType.__rpow__ | ( | x, | |
| z | |||
| ) |
Equivalent to pow(x, y[, z])
| def Rebar.RebarUsageType.__rrshift__ | ( | y | ) |
Equivalent to y>>x.
| def Rebar.RebarUsageType.__rshift__ | ( | y | ) |
Equivalent to x>>y.
| def Rebar.RebarUsageType.__rsub__ | ( | y | ) |
Equivalent to y-x.
| def Rebar.RebarUsageType.__rtruediv__ | ( | y | ) |
Equivalent to y/x.
| def Rebar.RebarUsageType.__rxor__ | ( | y | ) |
Equivalent to y^x.
| def Rebar.RebarUsageType.__str__ | ( | args | ) |
Equivalent to str(x)
| def Rebar.RebarUsageType.__sub__ | ( | y | ) |
Equivalent to x-y.
| def Rebar.RebarUsageType.__truediv__ | ( | y | ) |
Equivalent to x/y.
| def Rebar.RebarUsageType.__trunc__ | ( | args | ) |
Truncating an Integral returns itself.
| def Rebar.RebarUsageType.__xor__ | ( | y | ) |
Equivalent to x^y.
| def Rebar.RebarUsageType.bit_length | ( | args | ) |
Number of bits necessary to represent self in binary. >>> bin(37) '0b100101' >>> (37).bit_length() 6
| def Rebar.RebarUsageType.conjugate | ( | args | ) |
Returns self, the complex conjugate of any int.
| def Rebar.RebarUsageType.denominator | ( | args | ) |
the denominator of a rational number in lowest terms
| def Rebar.RebarUsageType.imag | ( | args | ) |
the imaginary part of a complex number
| def Rebar.RebarUsageType.name | ( | args | ) |
| def Rebar.RebarUsageType.numerator | ( | args | ) |
the numerator of a rational number in lowest terms
| def Rebar.RebarUsageType.real | ( | args | ) |
the real part of a complex number
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1.8.1.2
