// // FILE: bitHelpers_demo.ino // AUTHOR: Rob Tillaart // VERSION: 0.1.0 // PURPOSE: demo // DATE: 2020-07-28 // URL: https://github.com/RobTillaart/bitHelpers #include "bitHelpers.h" uint32_t start, stop; void setup() { Serial.begin(115200); Serial.println(); Serial.println(__FILE__); Serial.println(); test_bitCount1_32_bits_variations(); test_bitCount2(); test_bitReverse(); test_nybbleReverse(); test_byteReverse(); test_swap(); test_bitFlip(); test_bitRotateLeft(); test_bitRotateRight(); test_bitRot(); Serial.println("\nDone..."); } void loop() { } ////////////////////////////////// void test_bitCount1_32_bits_variations() { Serial.println(); Serial.println(__FUNCTION__); volatile uint8_t cnt; volatile uint32_t x = 0xFFFFFFFF; start = micros(); for (int i = 0; i < 1000; i++) { cnt = bitCountReference(x); } stop = micros(); Serial.print(cnt); Serial.print("\t"); Serial.print((stop - start) / 1000.0, 3); Serial.println("\tbitCountReference"); delay(10); start = micros(); for (int i = 0; i < 1000; i++) { cnt = bitCountKR(x); } stop = micros(); Serial.print(cnt); Serial.print("\t"); Serial.print((stop - start) / 1000.0, 3); Serial.println("\tbitCountKR"); delay(10); start = micros(); for (int i = 0; i < 1000; i++) { cnt = bitCountArray(x); } stop = micros(); Serial.print(cnt); Serial.print("\t"); Serial.print((stop - start) / 1000.0, 3); Serial.println("\tbitCountArray"); delay(10); start = micros(); for (int i = 0; i < 1000; i++) { cnt = bitCountF1(x); } stop = micros(); Serial.print(cnt); Serial.print("\t"); Serial.print((stop - start) / 1000.0, 3); Serial.println("\tbitCountF1"); delay(10); start = micros(); for (int i = 0; i < 1000; i++) { cnt = bitCountF2(x); } stop = micros(); Serial.print(cnt); Serial.print("\t"); Serial.print((stop - start) / 1000.0, 3); Serial.println("\tbitCountF2"); Serial.println(); } void test_bitCount2() { Serial.println(); Serial.println(__FUNCTION__); volatile uint8_t cnt; volatile uint8_t a = 0xFF; volatile uint16_t b = 0xFFFF; volatile uint32_t c = 0xFFFFFFFF; volatile uint64_t d = 0xFFFFFFFFFFFFFFFF; start = micros(); for (int i = 0; i < 1000; i++) { cnt = bitCount(a); } stop = micros(); Serial.print(cnt); Serial.print("\t"); Serial.print((stop - start) / 1000.0, 3); Serial.println("\tbitCount 8 bit"); delay(10); start = micros(); for (int i = 0; i < 1000; i++) { cnt = bitCount(b); } stop = micros(); Serial.print(cnt); Serial.print("\t"); Serial.print((stop - start) / 1000.0, 3); Serial.println("\tbitCount 16 bit"); delay(10); start = micros(); for (int i = 0; i < 1000; i++) { cnt = bitCount(c); } stop = micros(); Serial.print(cnt); Serial.print("\t"); Serial.print((stop - start) / 1000.0, 3); Serial.println("\tbitCount 32 bit"); delay(10); start = micros(); for (int i = 0; i < 1000; i++) { cnt = bitCount(d); } stop = micros(); Serial.print(cnt); Serial.print("\t"); Serial.print((stop - start) / 1000.0, 3); Serial.println("\tbitCount 64 bit"); delay(10); Serial.println(); } void test_bitReverse() { Serial.println(); Serial.println(__FUNCTION__); uint8_t a = 0x17; a = bitReverse(a); Serial.println(a, HEX); a = bitReverse(a); Serial.println(a, HEX); uint16_t b = 0x1735; b = bitReverse(b); Serial.println(b, HEX); b = bitReverse(b); Serial.println(b, HEX); uint32_t x = 0x12345678; x = bitReverse(x); Serial.println(x, HEX); x = bitReverse(x); Serial.println(x, HEX); start = micros(); for (int i = 0; i < 1000; i++) { x = bitReverse(x); } stop = micros(); Serial.print(" X:\t"); Serial.println(x, HEX); Serial.print(" Time:\t"); Serial.println((stop - start) / 1000.0, 3); Serial.println(); } void test_nybbleReverse() { Serial.println(); Serial.println(__FUNCTION__); uint8_t a = 0x17; a = nybbleReverse(a); Serial.println(a, HEX); a = nybbleReverse(a); Serial.println(a, HEX); uint16_t b = 0x1735; b = nybbleReverse(b); Serial.println(b, HEX); b = nybbleReverse(b); Serial.println(b, HEX); uint32_t x = 0x12345678; x = nybbleReverse(x); Serial.println(x, HEX); x = nybbleReverse(x); Serial.println(x, HEX); start = micros(); for (int i = 0; i < 1000; i++) { x = nybbleReverse(x); } stop = micros(); Serial.print(" X:\t"); Serial.println(x, HEX); Serial.print(" Time:\t"); Serial.println((stop - start) / 1000.0, 3); Serial.println(); } void test_byteReverse() { Serial.println(); Serial.println(__FUNCTION__); uint16_t b = 0x1735; b = byteReverse(b); Serial.println(b, HEX); b = byteReverse(b); Serial.println(b, HEX); uint32_t x = 0x12345678; x = byteReverse(x); Serial.println(x, HEX); x = byteReverse(x); Serial.println(x, HEX); start = micros(); for (int i = 0; i < 1000; i++) { x = byteReverse(x); } stop = micros(); Serial.print(" X:\t"); Serial.println(x, HEX); Serial.print(" Time:\t"); Serial.println((stop - start) / 1000.0, 3); Serial.println(); } void test_swap() { Serial.println(); Serial.println(__FUNCTION__); uint8_t a = 0x17; a = swap(a); Serial.println(a, HEX); a = swap(a); Serial.println(a, HEX); uint16_t b = 0x1735; b = swap(b); Serial.println(b, HEX); b = swap(b); Serial.println(b, HEX); uint32_t x = 0x12345678; x = swap(x); Serial.println(x, HEX); x = swap(x); Serial.println(x, HEX); start = micros(); for (int i = 0; i < 1000; i++) { x = swap(x); } stop = micros(); Serial.print(" X:\t"); Serial.println(x, HEX); Serial.print(" Time:\t"); Serial.println((stop - start) / 1000.0, 3); Serial.println(); } void test_bitFlip() { Serial.println(); Serial.println(__FUNCTION__); uint32_t x = 0xFFFFFFFF; start = micros(); for (int i = 0; i < 1000; i++) { for (int j = 0; j < 32; j++) { x = bitFlip(x, j); } } stop = micros(); Serial.print(" X:\t"); Serial.println(x, HEX); Serial.print(" Time:\t"); Serial.println((stop - start) / 1000.0 / 32, 3); Serial.println(); } void test_bitRotateLeft() { Serial.println(); Serial.println(__FUNCTION__); volatile uint32_t x = 0x12345678; for (int i = 0; i < 8; i++) { x = bitRotateLeft(x, 4); Serial.println(x, HEX); } start = micros(); for (int i = 0; i < 1000; i++) { for (int j = 0; j < 32; j++) { x = bitRotateLeft(x, j); } } stop = micros(); Serial.print(" X:\t"); Serial.println(x, HEX); Serial.print(" Time:\t"); Serial.println((stop - start) / 1000.0 / 32, 3); Serial.println(); } void test_bitRotateRight() { Serial.println(); Serial.println(__FUNCTION__); uint32_t x = 0x12345678; for (int i = 0; i < 8; i++) { x = bitRotateRight(x, 4); Serial.println(x, HEX); } start = micros(); for (int i = 0; i < 1000; i++) { for (int i = 0; i < 32; i++) { x = bitRotateRight(x, i); } } stop = micros(); Serial.print(" X:\t"); Serial.println(x, HEX); Serial.print(" Time:\t"); Serial.println((stop - start) / 1000.0 / 32, 3); Serial.println(); } void test_bitRot() { Serial.println(); Serial.println(__FUNCTION__); uint32_t x = 0x12345678; for (int i = 0; i < 8; i++) { x = bitRot(x, i * 0.12); Serial.println(x, HEX); } x = 0xFFFFFFFF; Serial.print(" X:\t"); Serial.println(x, HEX); start = micros(); for (int i = 0; i < 1000; i++) { x = bitRot(x, 0.01); } stop = micros(); Serial.print(" X:\t"); Serial.println(x, HEX); Serial.print(" Time:\t"); Serial.println((stop - start) / 1000.0, 3); Serial.println(); } // -- END OF FILE --