atMostOneBitIsSet(i) provides an extremely fast way to determine whether an integral type is either zero or consists of a single set bit.
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atMostOneBitIsSet(i) provides an extremely fast way to determine whether an integral type is either zero or consists of a single set bit.
This question arises when using bits to represent set membership where one may wish to verify that an integer represents a single element rather than a set of elements.
- See Also
- exactlyOneBitIsSet()
bool SimTK::atMostOneBitIsSet |
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unsigned char |
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bool SimTK::atMostOneBitIsSet |
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unsigned short |
v | ) |
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inline |
bool SimTK::atMostOneBitIsSet |
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unsigned int |
v | ) |
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inline |
bool SimTK::atMostOneBitIsSet |
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unsigned long |
v | ) |
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inline |
bool SimTK::atMostOneBitIsSet |
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unsigned long long |
v | ) |
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inline |
bool SimTK::atMostOneBitIsSet |
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signed char |
v | ) |
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inline |
bool SimTK::atMostOneBitIsSet |
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char |
v | ) |
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inline |
bool SimTK::atMostOneBitIsSet |
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short |
v | ) |
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inline |
bool SimTK::atMostOneBitIsSet |
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int |
v | ) |
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inline |
bool SimTK::atMostOneBitIsSet |
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long |
v | ) |
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inline |
bool SimTK::atMostOneBitIsSet |
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long long |
v | ) |
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inline |