# NumericOps

#### trait NumericOps[+This] extends AnyRef

In some sense, this is the real root of the linalg hierarchy. It provides methods for doing operations on a Tensor-like thing. All methods farm out to some implicit or another. We use this when we don't care about the index into the Tensor, or if we don't really have an index.

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### Concrete Value Members

1. #### final def !=(arg0: AnyRef): Boolean

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2. #### final def !=(arg0: Any): Boolean

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3. #### final def ##(): Int

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4. #### final def %[TT >: This, B, That](b: B)(implicit op: operators.OpMod.Impl2[TT, B, That]): That

Alias for :%(b) when b is a scalar.

5. #### final def %=[TT >: This, B](b: B)(implicit op: operators.OpMod.InPlaceImpl2[TT, B]): This

Alias for :%=(b) when b is a scalar.

6. #### final def &[TT >: This, B, That](b: B)(implicit op: operators.OpAnd.Impl2[TT, B, That]): That

Alias for :&&(b) for all b.

7. #### final def &=[TT >: This, B](b: B)(implicit op: operators.OpAnd.InPlaceImpl2[TT, B]): This

Mutates this by element-wise and of this and b.

8. #### final def *[TT >: This, B, That](b: B)(implicit op: operators.OpMulMatrix.Impl2[TT, B, That]): That

Matrix multiplication

9. #### final def *=[TT >: This, B](b: B)(implicit op: operators.OpMulScalar.InPlaceImpl2[TT, B]): This

Alias for :*=(b) when b is a scalar.

10. #### final def +[TT >: This, B, That](b: B)(implicit op: operators.OpAdd.Impl2[TT, B, That]): That

Alias for :+(b) for all b.

11. #### final def +=[TT >: This, B](b: B)(implicit op: operators.OpAdd.InPlaceImpl2[TT, B]): This

Alias for :+=(b) for all b.

12. #### final def -[TT >: This, B, That](b: B)(implicit op: operators.OpSub.Impl2[TT, B, That]): That

Alias for :-(b) for all b.

13. #### final def -=[TT >: This, B](b: B)(implicit op: operators.OpSub.InPlaceImpl2[TT, B]): This

Alias for :-=(b) for all b.

14. #### final def /[TT >: This, B, That](b: B)(implicit op: operators.OpDiv.Impl2[TT, B, That]): That

Alias for :/(b) when b is a scalar.

15. #### final def /=[TT >: This, B](b: B)(implicit op: operators.OpDiv.InPlaceImpl2[TT, B]): This

Alias for :/=(b) when b is a scalar.

16. #### final def :!=[TT >: This, B, That](b: B)(implicit op: operators.OpNe.Impl2[TT, B, That]): That

Element-wise inequality comparator of this and b.

17. #### final def :%[TT >: This, B, That](b: B)(implicit op: operators.OpMod.Impl2[TT, B, That]): That

Element-wise modulo of this and b.

18. #### final def :%=[TT >: This, B](b: B)(implicit op: operators.OpMod.InPlaceImpl2[TT, B]): This

Mutates this by element-wise modulo of b into this.

19. #### final def :&[TT >: This, B, That](b: B)(implicit op: operators.OpAnd.Impl2[TT, B, That]): That

Element-wise logical "and" operator -- returns true if corresponding elements are non-zero.

20. #### final def :&=[TT >: This, B](b: B)(implicit op: operators.OpAnd.InPlaceImpl2[TT, B]): This

Mutates this by element-wise and of this and b.

21. #### final def :*[TT >: This, B, That](b: B)(implicit op: operators.OpMulScalar.Impl2[TT, B, That]): That

Element-wise product of this and b.

22. #### final def :*=[TT >: This, B](b: B)(implicit op: operators.OpMulScalar.InPlaceImpl2[TT, B]): This

Mutates this by element-wise multiplication of b into this.

23. #### final def :+[TT >: This, B, That](b: B)(implicit op: operators.OpAdd.Impl2[TT, B, That]): That

Element-wise sum of this and b.

24. #### final def :+=[TT >: This, B](b: B)(implicit op: operators.OpAdd.InPlaceImpl2[TT, B]): This

Mutates this by element-wise addition of b into this.

25. #### final def :-[TT >: This, B, That](b: B)(implicit op: operators.OpSub.Impl2[TT, B, That]): That

Element-wise difference of this and b.

26. #### final def :-=[TT >: This, B](b: B)(implicit op: operators.OpSub.InPlaceImpl2[TT, B]): This

Mutates this by element-wise subtraction of b from this

27. #### final def :/[TT >: This, B, That](b: B)(implicit op: operators.OpDiv.Impl2[TT, B, That]): That

Element-wise quotient of this and b.

28. #### final def :/=[TT >: This, B](b: B)(implicit op: operators.OpDiv.InPlaceImpl2[TT, B]): This

Mutates this by element-wise division of b into this

29. #### final def :<[TT >: This, B, That](b: B)(implicit op: operators.OpLT.Impl2[TT, B, That]): That

Element-wise less=than comparator of this and b.

30. #### final def :<=[TT >: This, B, That](b: B)(implicit op: operators.OpLTE.Impl2[TT, B, That]): That

Element-wise less-than-or-equal-to comparator of this and b.

31. #### final def :=[TT >: This, B](b: B)(implicit op: operators.OpSet.InPlaceImpl2[TT, B]): This

Mutates this by element-wise assignment of b into this.

32. #### final def :==[TT >: This, B, That](b: B)(implicit op: operators.OpEq.Impl2[TT, B, That]): That

Element-wise equality comparator of this and b.

33. #### final def :>[TT >: This, B, That](b: B)(implicit op: operators.OpGT.Impl2[TT, B, That]): That

Element-wise greater-than comparator of this and b.

34. #### final def :>=[TT >: This, B, That](b: B)(implicit op: operators.OpGTE.Impl2[TT, B, That]): That

Element-wise greater-than-or-equal-to comparator of this and b.

35. #### final def :^[TT >: This, B, That](b: B)(implicit op: operators.OpPow.Impl2[TT, B, That]): That

Element-wise exponentiation of this and b.

36. #### final def :^=[TT >: This, B](b: B)(implicit op: operators.OpPow.InPlaceImpl2[TT, B]): This

Mutates this by element-wise exponentiation of this by b.

37. #### final def :^^[TT >: This, B, That](b: B)(implicit op: operators.OpXor.Impl2[TT, B, That]): That

Element-wise logical "xor" operator -- returns true if only one of the corresponding elements is non-zero.

38. #### final def :^^=[TT >: This, B](b: B)(implicit op: operators.OpXor.InPlaceImpl2[TT, B]): This

Mutates this by element-wise xor of this and b.

39. #### final def :|[TT >: This, B, That](b: B)(implicit op: operators.OpOr.Impl2[TT, B, That]): That

Element-wise logical "or" operator -- returns true if either element is non-zero.

40. #### final def :|=[TT >: This, B](b: B)(implicit op: operators.OpOr.InPlaceImpl2[TT, B]): This

Mutates this by element-wise or of this and b.

41. #### final def ==(arg0: AnyRef): Boolean

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42. #### final def ==(arg0: Any): Boolean

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43. #### def \[TT >: This, B, That](b: B)(implicit op: operators.OpSolveMatrixBy.Impl2[TT, B, That]): That

Shaped solve of this by b.

44. #### final def ^^[TT >: This, B, That](b: B)(implicit op: operators.OpXor.Impl2[TT, B, That]): That

Alias for :^^(b) for all b.

45. #### final def ^^=[TT >: This, B](b: B)(implicit op: operators.OpXor.InPlaceImpl2[TT, B]): This

Mutates this by element-wise xor of this and b.

46. #### final def asInstanceOf[T0]: T0

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47. #### def clone(): AnyRef

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@throws( ... )
48. #### final def dot[TT >: This, B, BB >: B, That](b: B)(implicit op: operators.OpMulInner.Impl2[TT, BB, That]): That

Inner product of this and b.

49. #### final def eq(arg0: AnyRef): Boolean

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50. #### def equals(arg0: Any): Boolean

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51. #### def finalize(): Unit

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protected[java.lang]
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@throws( classOf[java.lang.Throwable] )
52. #### final def getClass(): Class[_]

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53. #### def hashCode(): Int

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54. #### final def isInstanceOf[T0]: Boolean

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55. #### final def ne(arg0: AnyRef): Boolean

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56. #### final def norm[TT >: This, B, R](b: B)(implicit op: norm.Impl2[TT, B, R]): R

Represents the norm of this vector

57. #### final def norm[TT >: This, R]()(implicit op: norm.Impl[TT, R]): R

Represents the "natural" norm of this vector, for types that don't support arbitrary norms

58. #### final def notify(): Unit

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59. #### final def notifyAll(): Unit

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60. #### final def synchronized[T0](arg0: ⇒ T0): T0

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61. #### final def t[TT >: This, That, Slice1, Slice2, Result](a: Slice1, b: Slice2)(implicit op: CanTranspose[TT, That], canSlice: CanSlice2[That, Slice1, Slice2, Result]): Result

A transposed view of this object, followed by a slice.

A transposed view of this object, followed by a slice. Sadly frequently necessary.

62. #### final def t[TT >: This, That](implicit op: CanTranspose[TT, That]): That

A transposed view of this object.

63. #### def toString(): String

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66. #### final def wait(): Unit

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67. #### final def wait(arg0: Long, arg1: Int): Unit

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68. #### final def wait(arg0: Long): Unit

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69. #### final def |[TT >: This, B, That](b: B)(implicit op: operators.OpOr.Impl2[TT, B, That]): That

Alias for :||(b) for all b.

70. #### final def |=[TT >: This, B](b: B)(implicit op: operators.OpOr.InPlaceImpl2[TT, B]): This

Mutates this by element-wise or of this and b.