array.__add__(other: Union[int, float, array], /) array

Calculates the sum for each element of an array instance with the respective element of the array `other`.

Special cases

For floating-point operands, let `self` equal `x1` and `other` equal `x2`.

• If either `x1_i` or `x2_i` is `NaN`, the result is `NaN`.

• If `x1_i` is `+infinity` and `x2_i` is `-infinity`, the result is `NaN`.

• If `x1_i` is `-infinity` and `x2_i` is `+infinity`, the result is `NaN`.

• If `x1_i` is `+infinity` and `x2_i` is `+infinity`, the result is `+infinity`.

• If `x1_i` is `-infinity` and `x2_i` is `-infinity`, the result is `-infinity`.

• If `x1_i` is `+infinity` and `x2_i` is a finite number, the result is `+infinity`.

• If `x1_i` is `-infinity` and `x2_i` is a finite number, the result is `-infinity`.

• If `x1_i` is a finite number and `x2_i` is `+infinity`, the result is `+infinity`.

• If `x1_i` is a finite number and `x2_i` is `-infinity`, the result is `-infinity`.

• If `x1_i` is `-0` and `x2_i` is `-0`, the result is `-0`.

• If `x1_i` is `-0` and `x2_i` is `+0`, the result is `+0`.

• If `x1_i` is `+0` and `x2_i` is `-0`, the result is `+0`.

• If `x1_i` is `+0` and `x2_i` is `+0`, the result is `+0`.

• If `x1_i` is either `+0` or `-0` and `x2_i` is a nonzero finite number, the result is `x2_i`.

• If `x1_i` is a nonzero finite number and `x2_i` is either `+0` or `-0`, the result is `x1_i`.

• If `x1_i` is a nonzero finite number and `x2_i` is `-x1_i`, the result is `+0`.

• In the remaining cases, when neither `infinity`, `+0`, `-0`, nor a `NaN` is involved, and the operands have the same mathematical sign or have different magnitudes, the sum must be computed and rounded to the nearest representable value according to IEEE 754-2019 and a supported round mode. If the magnitude is too large to represent, the operation overflows and the result is an `infinity` of appropriate mathematical sign.

Note

Floating-point addition is a commutative operation, but not always associative.

Parameters
• self (array) – array instance (augend array). Should have a numeric data type.

• other (Union[int, float, array]) – addend array. Must be compatible with `self` (see Broadcasting). Should have a numeric data type.

Returns

out (array) – an array containing the element-wise sums. The returned array must have a data type determined by Type Promotion Rules.

Note

Element-wise results must equal the results returned by the equivalent element-wise function `add()`.