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Data types

univector class is a base of all containers in KFR.

univector can have both static and dynamic size and can even hold only reference to an external data (just like array_view or string_view)

univector<float> is derived from std::vector<float> and contains all its member functions and constructors.

univector<float, 10> is derived from std::array<float, 10> and contains all its member functions and constructors.

univector<float, 0> is only reference to data and doesn’t contain any values.

Such universal template allows functions in KFR to get data in any format.

You can get subrange of an array using slice function:

univector<float, 100> v;
// ...
const float s1 = sum(v); // Sum all elements
const float s2 = sum(v.slice(2, 50)); // Sum 50 elements starting from 2
Result of the call to slice is always univector<T, 0>, a reference to external data.

The lifetime of the reference is limited to the lifetime of the original data.

Note

univector class is also Expression and can be used whereever expression is required.

Pass data to KFR functions

If you don't use univector for data representation, you can still pass the data to KFR functions and filters.

Examples (rms is used as an example function that takes univector):

std::vector or std::array

std::vector<float> data; // existing data, or std::array<N, float>

float val = rms(make_univector(data)); // No data copy

Plain pointer

const float* data; // existing data
size_t size;       // 

float val = rms(make_univector(data, size)); // No data copy

array

const float data[1024];

float val = rms(make_univector(data)); // No data copy

Data Types

Unsigned:

u8, u16, u32 and u64

Signed:

i8, i16, i32 and i64

Floating point:

f32 and f64

Complex:

complex<f32> and complex<f64>

Vector:

vec<u8, 4>, vec<f32, 3>, vec<i64, 1>, vec<complex<float>, 15>, vec<u8, 256>, vec<vec<int, 3>, 3>

You are not limited to sizes of SIMD registers and basic types.