bitwise_andnot (Core Functions)


Import

#include <archr/core/bitwise_andnot.h>
#include <archr/core/bitwise_andnot.hpp>
import archr.core
atomsLoads('archr')

Synopsis

 float archr_core_bitwise_andnot_1f32f32(const float i1, const float i2);
(1)
 double archr_core_bitwise_andnot_1f64f64(const double i1, const double i2);
(2)
 int8_t archr_core_bitwise_andnot_1i8i8(const int8_t i1, const int8_t i2);
(3)
 int16_t archr_core_bitwise_andnot_1i16i16(const int16_t i1, const int16_t i2);
(4)
 int32_t archr_core_bitwise_andnot_1i32i32(const int32_t i1, const int32_t i2);
(5)
 int64_t archr_core_bitwise_andnot_1i64i64(const int64_t i1, const int64_t i2);
(6)
 uint8_t archr_core_bitwise_andnot_1u8u8(const uint8_t i1, const uint8_t i2);
(7)
 uint16_t archr_core_bitwise_andnot_1u16u16(const uint16_t i1, const uint16_t i2);
(8)
 uint32_t archr_core_bitwise_andnot_1u32u32(const uint32_t i1, const uint32_t i2);
(9)
 uint64_t archr_core_bitwise_andnot_1u64u64(const uint64_t i1, const uint64_t i2);
(10)
 void archr_core_bitwise_andnot_f32f32(float *o0, const float *i1, size_t sz, const float *i2);
(11)
 void archr_core_bitwise_andnot_f64f64(double *o0, const double *i1, size_t sz, const double *i2);
(12)
 void archr_core_bitwise_andnot_i8i8(int8_t *o0, const int8_t *i1, size_t sz, const int8_t *i2);
(13)
 void archr_core_bitwise_andnot_i16i16(int16_t *o0, const int16_t *i1, size_t sz, const int16_t *i2);
(14)
 void archr_core_bitwise_andnot_i32i32(int32_t *o0, const int32_t *i1, size_t sz, const int32_t *i2);
(15)
 void archr_core_bitwise_andnot_i64i64(int64_t *o0, const int64_t *i1, size_t sz, const int64_t *i2);
(16)
 void archr_core_bitwise_andnot_u8u8(uint8_t *o0, const uint8_t *i1, size_t sz, const uint8_t *i2);
(17)
 void archr_core_bitwise_andnot_u16u16(uint16_t *o0, const uint16_t *i1, size_t sz, const uint16_t *i2);
(18)
 void archr_core_bitwise_andnot_u32u32(uint32_t *o0, const uint32_t *i1, size_t sz, const uint32_t *i2);
(19)
 void archr_core_bitwise_andnot_u64u64(uint64_t *o0, const uint64_t *i1, size_t sz, const uint64_t *i2);
(20)
 float bitwise_andnot(const float i1, const float i2);
(1)
 double bitwise_andnot(const double i1, const double i2);
(2)
 int8_t bitwise_andnot(const int8_t i1, const int8_t i2);
(3)
 int16_t bitwise_andnot(const int16_t i1, const int16_t i2);
(4)
 int32_t bitwise_andnot(const int32_t i1, const int32_t i2);
(5)
 int64_t bitwise_andnot(const int64_t i1, const int64_t i2);
(6)
 uint8_t bitwise_andnot(const uint8_t i1, const uint8_t i2);
(7)
 uint16_t bitwise_andnot(const uint16_t i1, const uint16_t i2);
(8)
 uint32_t bitwise_andnot(const uint32_t i1, const uint32_t i2);
(9)
 uint64_t bitwise_andnot(const uint64_t i1, const uint64_t i2);
(10)
 void bitwise_andnot(const float *i1, size_t sz, const float *i2, float *o0);
(11)
 void bitwise_andnot(const double *i1, size_t sz, const double *i2, double *o0);
(12)
 void bitwise_andnot(const int8_t *i1, size_t sz, const int8_t *i2, int8_t *o0);
(13)
 void bitwise_andnot(const int16_t *i1, size_t sz, const int16_t *i2, int16_t *o0);
(14)
 void bitwise_andnot(const int32_t *i1, size_t sz, const int32_t *i2, int32_t *o0);
(15)
 void bitwise_andnot(const int64_t *i1, size_t sz, const int64_t *i2, int64_t *o0);
(16)
 void bitwise_andnot(const uint8_t *i1, size_t sz, const uint8_t *i2, uint8_t *o0);
(17)
 void bitwise_andnot(const uint16_t *i1, size_t sz, const uint16_t *i2, uint16_t *o0);
(18)
 void bitwise_andnot(const uint32_t *i1, size_t sz, const uint32_t *i2, uint32_t *o0);
(19)
 void bitwise_andnot(const uint64_t *i1, size_t sz, const uint64_t *i2, uint64_t *o0);
(20)
template <typename Range> void bitwise_andnot(const Range& i1, const Range& i2, Range& o0);
(21)
subroutine archr_core_bitwise_andnot_1f32f32(real(4) :: r, real(4), parameter :: i1, real(4), parameter :: i2)
(1)
subroutine archr_core_bitwise_andnot_1f64f64(real(8) :: r, real(8), parameter :: i1, real(8), parameter :: i2)
(2)
subroutine archr_core_bitwise_andnot_1i8i8(integer(1) :: r, integer(1), parameter :: i1, integer(1), parameter :: i2)
(3)
subroutine archr_core_bitwise_andnot_1i16i16(integer(2) :: r, integer(2), parameter :: i1, integer(2), parameter :: i2)
(4)
subroutine archr_core_bitwise_andnot_1i32i32(integer(4) :: r, integer(4), parameter :: i1, integer(4), parameter :: i2)
(5)
subroutine archr_core_bitwise_andnot_1i64i64(integer(8) :: r, integer(8), parameter :: i1, integer(8), parameter :: i2)
(6)
subroutine archr_core_bitwise_andnot_1u8u8(integer(1) :: r, integer(1), parameter :: i1, integer(1), parameter :: i2)
(7)
subroutine archr_core_bitwise_andnot_1u16u16(integer(2) :: r, integer(2), parameter :: i1, integer(2), parameter :: i2)
(8)
subroutine archr_core_bitwise_andnot_1u32u32(integer(4) :: r, integer(4), parameter :: i1, integer(4), parameter :: i2)
(9)
subroutine archr_core_bitwise_andnot_1u64u64(integer(8) :: r, integer(8), parameter :: i1, integer(8), parameter :: i2)
(10)
subroutine archr_core_bitwise_andnot_f32f32(real(4), dimension(*), parameter :: i1, integer(4) :: sz, real(4), dimension(*), parameter :: i2, real(4), dimension(*) :: o0)
(11)
subroutine archr_core_bitwise_andnot_f64f64(real(8), dimension(*), parameter :: i1, integer(4) :: sz, real(8), dimension(*), parameter :: i2, real(8), dimension(*) :: o0)
(12)
subroutine archr_core_bitwise_andnot_i8i8(integer(1), dimension(*), parameter :: i1, integer(4) :: sz, integer(1), dimension(*), parameter :: i2, integer(1), dimension(*) :: o0)
(13)
subroutine archr_core_bitwise_andnot_i16i16(integer(2), dimension(*), parameter :: i1, integer(4) :: sz, integer(2), dimension(*), parameter :: i2, integer(2), dimension(*) :: o0)
(14)
subroutine archr_core_bitwise_andnot_i32i32(integer(4), dimension(*), parameter :: i1, integer(4) :: sz, integer(4), dimension(*), parameter :: i2, integer(4), dimension(*) :: o0)
(15)
subroutine archr_core_bitwise_andnot_i64i64(integer(8), dimension(*), parameter :: i1, integer(4) :: sz, integer(8), dimension(*), parameter :: i2, integer(8), dimension(*) :: o0)
(16)
subroutine archr_core_bitwise_andnot_u8u8(integer(1), dimension(*), parameter :: i1, integer(4) :: sz, integer(1), dimension(*), parameter :: i2, integer(1), dimension(*) :: o0)
(17)
subroutine archr_core_bitwise_andnot_u16u16(integer(2), dimension(*), parameter :: i1, integer(4) :: sz, integer(2), dimension(*), parameter :: i2, integer(2), dimension(*) :: o0)
(18)
subroutine archr_core_bitwise_andnot_u32u32(integer(4), dimension(*), parameter :: i1, integer(4) :: sz, integer(4), dimension(*), parameter :: i2, integer(4), dimension(*) :: o0)
(19)
subroutine archr_core_bitwise_andnot_u64u64(integer(8), dimension(*), parameter :: i1, integer(4) :: sz, integer(8), dimension(*), parameter :: i2, integer(8), dimension(*) :: o0)
(20)
def bitwise_andnot(i1, i2):
    return o0
(1)
function o0 = archr_core_bitwise_andnot(i1, i2)
(1)

Description

Computes the bitwise_andnot:

Parameters

i1_first, i1_last

The first range of input elements

i2

The beggining of the the second range of input elements

o0

The beginning of the destination range, may be equal to i1 or i2

i1, i2

The scalar/contiguous data input elements

Example


#include <time.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <stddef.h>
#include <archr/core/bitwise_andnot.h>

double rand_in(double min, double max) {
  return min + ((double)(max - min) * ((double)rand() / RAND_MAX));
}

int main() {
  time_t t;
  size_t i;
  size_t sz = 10;
  int32_t* i1 = (int32_t*)malloc(sz * sizeof(int32_t));
  int32_t* i2 = (int32_t*)malloc(sz * sizeof(int32_t));
  int32_t* o1 = (int32_t*)malloc(sz * sizeof(int32_t));

  srand((unsigned int)time(&t));
  for (i = 0; i < sz; ++i) {
    i1[i] = (int32_t)rand_in((int32_t)-10, (int32_t)10);
  i2[i] = (int32_t)rand_in((int32_t)-10, (int32_t)10);
  }
  archr_core_bitwise_andnot_i32i32(o1, i1, sz, i2);
  for (i = 0; i < sz; ++i) {
    printf("%4lu: bitwise_andnot(%d, %d) = %d\n", i, i1[i], i2[i], o1[i]);
  }
}

Possible Output

   0: bitwise_andnot(9, 1) = 8
   1: bitwise_andnot(-3, -7) = 4
   2: bitwise_andnot(-5, -8) = 3
   3: bitwise_andnot(4, 9) = 4
   4: bitwise_andnot(5, 6) = 1
   5: bitwise_andnot(0, -6) = 0
   6: bitwise_andnot(1, 0) = 1
   7: bitwise_andnot(-2, -9) = 8
   8: bitwise_andnot(-3, -9) = 8
   9: bitwise_andnot(8, 9) = 0

#include <ctime>
#include <cstdio>
#include <cstdlib>
#include <cstdint>
#include <cstddef>
#include <vector>
#include <algorithm>
#include <iomanip>
#include <iostream>
#include <archr/core/bitwise_andnot.hpp>

double rand_in(double min, double max) {
  return min + (double(max - min) * (double(std::rand()) / RAND_MAX));
}

int main() {
  std::size_t i;
  std::size_t sz = 10;
  std::vector<std::int32_t> i1(sz);
  std::vector<std::int32_t> i2(sz);
  std::vector<std::int32_t> o1(sz);

  std::srand(std::time(0));
  std::generate(i1.begin(), i1.end(), []() { return rand_in(std::int32_t(-10), std::int32_t(10)); });
  std::generate(i2.begin(), i2.end(), []() { return rand_in(std::int32_t(-10), std::int32_t(10)); });
  archr::core::bitwise_andnot(i1.data(), sz, i2.data(), o1.data());
  for (i = 0; i < sz; ++i) {
    std::cout << std::setw(4) << i << ": " << "bitwise_andnot" << "(" << i1[i] << ", " << i2[i] << ")" << " = " << o1[i] << std::endl;
  }
}

Possible Output

   0: bitwise_andnot(9, 0) = 9
   1: bitwise_andnot(1, -6) = 1
   2: bitwise_andnot(-3, 1) = -4
   3: bitwise_andnot(-7, 0) = -7
   4: bitwise_andnot(-5, -2) = 1
   5: bitwise_andnot(-8, -9) = 8
   6: bitwise_andnot(4, -3) = 0
   7: bitwise_andnot(9, -9) = 8
   8: bitwise_andnot(5, 8) = 5
   9: bitwise_andnot(6, 9) = 6

program main
  integer(4), parameter  :: sz = 10
  integer(4), dimension(sz) :: o0
  integer(4), dimension(sz) :: i0
  integer(4), dimension(sz) :: i1
  real(8)                :: r0, r1
  real(8)                :: min0, max0
  real(8)                :: min1, max1
  real(8)                :: min2, max2
  ! Init:
    min0 = -10
    max0 = 10
    min1 = -10
    max1 = 10
  do i=1,sz
    r0 = random_in(min0, max0)
    r1 = random_in(min1, max1)
    i0(i) = int(r0)
    i1(i) = int(r1)
  end do
  ! Example:
  call archr_core_bitwise_andnot_i32i32(o0, i0, size(i0), i1)
  ! Output:
  do i=1,sz
    print *, i, ": ", o0(i)
  end do
contains
  ! Generate a random number within a range
  function random_in(mn, mx) result(r)
    real(8) :: r
    real(8), intent(in) :: mn, mx
    r = mn + (rand() * (mx - mn))
  end function random_in
end program

Possible Output

           1 :            6
           2 :            5
           3 :            0
           4 :          -12
           5 :            3
           6 :           -2
           7 :            0
           8 :           -8
           9 :            0
          10 :            6