Search results
106 packages found
Multiply two single-precision complex floating-point numbers.
Compute the absolute value of a double-precision complex floating-point number.
Subtract two single-precision complex floating-point numbers.
- stdlib
- stdmath
- mathematics
- math
- csubtract
- subtract
- sub
- csub
- csubf
- subtraction
- difference
- sum
- arithmetic
- complex
- View more
Test whether two double-precision complex floating-point numbers are the same value.
- stdlib
- stdmath
- mathematics
- math
- complex
- cmplx
- number
- base
- assert
- test
- validate
- equality
- compare
- comparison
- View more
Create a typed array.
- stdlib
- stdtypes
- types
- data
- structure
- typed
- array
- typed array
- typed-array
- vector
- ndarray
- matrix
- float64array
- float32array
- View more
Generate a linearly spaced numeric array whose elements increment by 1 starting from zero.
- stdlib
- stdtypes
- types
- data
- structure
- typed
- array
- typed array
- typed-array
- vector
- ndarray
- matrix
- float64array
- float32array
- View more
Convert a Node-API value representing a strided array to a single-precision complex floating-point array.
Test whether two single-precision complex floating-point numbers are the same value.
- stdlib
- stdmath
- mathematics
- math
- complex
- cmplx
- number
- base
- assert
- test
- validate
- equality
- compare
- comparison
- View more
Multiply two double-precision complex floating-point numbers.
Subtract two double-precision complex floating-point numbers.
Apply a unary function to a single-precision complex floating-point strided input array and assign results to a single-precision complex floating-point strided output array.
Apply a unary function to a double-precision complex floating-point strided input array and assign results to a double-precision complex floating-point strided output array.
Wrap a function accepting complex number arguments to support providing both real and complex numbers.
Compute the argument of a double-precision complex floating-point number in radians.
Evaluate the identity function for a single-precision complex floating-point number.
Convert a Node-API value representing a strided array to a double-precision complex floating-point array.
Evaluate the identity function for a double-precision complex floating-point number.
Round a double-precision complex floating-point number toward positive infinity.
Round each component of a double-precision complex floating-point number to the nearest multiple of 10^n toward positive infinity.
Round a single-precision complex floating-point number toward positive infinity.