[−][src]Enum crc_any::CRC

pub enum CRC {
    CRCu8(CRCu8),
    CRCu16(CRCu16),
    CRCu32(CRCu32),
    CRCu64(CRCu64),
}

This struct can help you compute a CRC value.

Variants

CRCu8(CRCu8)

CRCu16(CRCu16)

CRCu32(CRCu32)

CRCu64(CRCu64)

Implementations

`impl CRC`[src]

`pub fn create_crc( poly: u64, bits: u8, initial: u64, final_xor: u64, reflect: bool ) -> CRC`[src]

Create a CRC instance by providing the length of bits, expression, reflection, an initial value and a final xor value.

`pub fn create_crc_u8( poly: u8, bits: u8, initial: u8, final_xor: u8, reflect: bool ) -> CRC`[src]

Create a CRC instance by providing the length of bits, expression, reflection, an initial value and a final xor value.

`pub fn create_crc_u16( poly: u16, bits: u8, initial: u16, final_xor: u16, reflect: bool ) -> CRC`[src]

Create a CRC instance by providing the length of bits, expression, reflection, an initial value and a final xor value.

`pub fn create_crc_u32( poly: u32, bits: u8, initial: u32, final_xor: u32, reflect: bool ) -> CRC`[src]

Create a CRC instance by providing the length of bits, expression, reflection, an initial value and a final xor value.

`pub fn create_crc_u64( poly: u64, bits: u8, initial: u64, final_xor: u64, reflect: bool ) -> CRC`[src]

Create a CRC instance by providing the length of bits, expression, reflection, an initial value and a final xor value.

`pub fn digest<T: ?Sized + AsRef<[u8]>>(&mut self, data: &T)`[src]

Digest some data.

`pub fn reset(&mut self)`[src]

Reset the sum.

`pub fn get_crc(&mut self) -> u64`[src]

Get the current CRC value (it always returns a u64 value). You can continue calling digest method even after getting a CRC value.

`impl CRC`[src]

`pub fn get_crc_vec_le(&mut self) -> Vec<u8>`[src]

Get the current CRC value (it always returns a vec instance with a length corresponding to the CRC bits). You can continue calling digest method even after getting a CRC value.

`pub fn get_crc_vec_be(&mut self) -> Vec<u8>`[src]

Get the current CRC value (it always returns a vec instance with a length corresponding to the CRC bits). You can continue calling digest method even after getting a CRC value.

`impl CRC`[src]

`pub fn crc3gsm() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x4	0x3	0x0	false	0x7

let mut crc = CRC::crc3gsm();
crc.digest(b"123456789");
assert_eq!("0x4", &crc.to_string());

`pub fn crc4itu() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x7	0x3 (rev: 0xC)	0x0	true	0x0

let mut crc = CRC::crc4itu();
crc.digest(b"123456789");
assert_eq!("0x7", &crc.to_string());

`pub fn crc4interlaken() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xB	0x3	0xF	false	0xF

let mut crc = CRC::crc4interlaken();
crc.digest(b"123456789");
assert_eq!("0xB", &crc.to_string());

`pub fn crc5epc() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x00	0x09	0x09	false	0x00

let mut crc = CRC::crc5epc();
crc.digest(b"123456789");
assert_eq!("0x00", &crc.to_string());

`pub fn crc5itu() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x07	0x15 (rev: 0x15)	0x00	true	0x00

let mut crc = CRC::crc5itu();
crc.digest(b"123456789");
assert_eq!("0x07", &crc.to_string());

`pub fn crc5usb() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x19	0x05 (rev: 0x14)	0x1F	true	0x1F

let mut crc = CRC::crc5usb();
crc.digest(b"123456789");
assert_eq!("0x19", &crc.to_string());

`pub fn crc6cdma2000_a() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x0D	0x27	0x3F	false	0x00

let mut crc = CRC::crc6cdma2000_a();
crc.digest(b"123456789");
assert_eq!("0x0D", &crc.to_string());

`pub fn crc6cdma2000_b() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x3B	0x07	0x3F	false	0x00

let mut crc = CRC::crc6cdma2000_b();
crc.digest(b"123456789");
assert_eq!("0x3B", &crc.to_string());

`pub fn crc6darc() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x26	0x19 (rev: 0x26)	0x00	true	0x00

let mut crc = CRC::crc6darc();
crc.digest(b"123456789");
assert_eq!("0x26", &crc.to_string());

`pub fn crc6gsm() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x13	0x2F	0x00	false	0x3F

let mut crc = CRC::crc6gsm();
crc.digest(b"123456789");
assert_eq!("0x13", &crc.to_string());

`pub fn crc6itu() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x06	0x03 (0x30)	0x00	true	0x00

let mut crc = CRC::crc6itu();
crc.digest(b"123456789");
assert_eq!("0x06", &crc.to_string());

`pub fn crc7() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x75	0x09	0x00	false	0x00

let mut crc = CRC::crc7();
crc.digest(b"123456789");
assert_eq!("0x75", &crc.to_string());

`pub fn crc7umts() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x61	0x45	0x00	false	0x00

let mut crc = CRC::crc7umts();
crc.digest(b"123456789");
assert_eq!("0x61", &crc.to_string());

`pub fn crc8() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xF4	0x07	0x00	false	0x00

let mut crc = CRC::crc8();
crc.digest(b"123456789");
assert_eq!("0xF4", &crc.to_string());

`pub fn crc8cdma2000() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xDA	0x9B	0xFF	false	0x00

let mut crc = CRC::crc8cdma2000();
crc.digest(b"123456789");
assert_eq!("0xDA", &crc.to_string());

`pub fn crc8darc() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xDA	0x39 (rev: 0x9C)	0x00	true	0x00

let mut crc = CRC::crc8darc();
crc.digest(b"123456789");
assert_eq!("0x15", &crc.to_string());

`pub fn crc8dvb_s2() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xBC	0xD5	0x00	false	0x00

let mut crc = CRC::crc8dvb_s2();
crc.digest(b"123456789");
assert_eq!("0xBC", &crc.to_string());

`pub fn crc8ebu() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x97	0x1D (rev: 0xB8)	0xFF	true	0x00

let mut crc = CRC::crc8ebu();
crc.digest(b"123456789");
assert_eq!("0x97", &crc.to_string());

`pub fn crc8icode() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x7E	0x1D	0xFD	false	0x00

let mut crc = CRC::crc8icode();
crc.digest(b"123456789");
assert_eq!("0x7E", &crc.to_string());

`pub fn crc8itu() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xA1	0x07	0x00	false	0x55

let mut crc = CRC::crc8itu();
crc.digest(b"123456789");
assert_eq!("0xA1", &crc.to_string());

`pub fn crc8maxim() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xA1	0x31 (rev: 0x8C)	0x00	true	0x00

let mut crc = CRC::crc8maxim();
crc.digest(b"123456789");
assert_eq!("0xA1", &crc.to_string());

`pub fn crc8rohc() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xD0	0x07 (rev: 0xE0)	0xFF	true	0x00

let mut crc = CRC::crc8rohc();
crc.digest(b"123456789");
assert_eq!("0xD0", &crc.to_string());

`pub fn crc8wcdma() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x25	0x9B (rev: 0xD9)	0x00	true	0x00

let mut crc = CRC::crc8wcdma();
crc.digest(b"123456789");
assert_eq!("0x25", &crc.to_string());

`pub fn crc10() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x199	0x233	0x000	false	0x000

let mut crc = CRC::crc10();
crc.digest(b"123456789");
assert_eq!("0x199", &crc.to_string());

`pub fn crc10cdma2000() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x233	0x3D9	0x3FF	false	0x000

let mut crc = CRC::crc10cdma2000();
crc.digest(b"123456789");
assert_eq!("0x233", &crc.to_string());

`pub fn crc10gsm() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x12A	0x175	0x000	false	0x3FF

let mut crc = CRC::crc10gsm();
crc.digest(b"123456789");
assert_eq!("0x12A", &crc.to_string());

`pub fn crc11() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x5A3	0x385	0x01a	false	0x000

let mut crc = CRC::crc11();
crc.digest(b"123456789");
assert_eq!("0x5A3", &crc.to_string());

`pub fn crc12() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xF5B	0x080F	0x0000	false	0x0000

let mut crc = CRC::crc12();
crc.digest(b"123456789");
assert_eq!("0xF5B", &crc.to_string());

`pub fn crc12cdma2000() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xD4D	0x0F13	0x0FFF	false	0x0000

let mut crc = CRC::crc12cdma2000();
crc.digest(b"123456789");
assert_eq!("0xD4D", &crc.to_string());

`pub fn crc12gsm() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xB34	0x0D31	0x0000	false	0x0FFF

let mut crc = CRC::crc12gsm();
crc.digest(b"123456789");
assert_eq!("0xB34", &crc.to_string());

`pub fn crc13bbc() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x04FA	0x1CF5	0x0000	false	0x0000

let mut crc = CRC::crc13bbc();
crc.digest(b"123456789");
assert_eq!("0x04FA", &crc.to_string());

`pub fn crc14darc() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x082D	0x0805 (rev: 0x2804)	0x0000	true	0x0000

let mut crc = CRC::crc14darc();
crc.digest(b"123456789");
assert_eq!("0x082D", &crc.to_string());

`pub fn crc14gsm() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x30AE	0x202D	0x0000	false	0x3FFF

let mut crc = CRC::crc14gsm();
crc.digest(b"123456789");
assert_eq!("0x30AE", &crc.to_string());

`pub fn crc15can() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x059E	0x4599	0x0000	false	0x0000

let mut crc = CRC::crc15can();
crc.digest(b"123456789");
assert_eq!("0x059E", &crc.to_string());

`pub fn crc15mpt1327() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x2566	0x6815	0x0000	false	0x0001

let mut crc = CRC::crc15mpt1327();
crc.digest(b"123456789");
assert_eq!("0x2566", &crc.to_string());

`pub fn crc16() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xBB3D	0x8005 (rev: 0xA001)	0x0000	true	0x0000

let mut crc = CRC::crc16();
crc.digest(b"123456789");
assert_eq!("0xBB3D", &crc.to_string());

`pub fn crc16ccitt_false() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x29B1	0x1021	0xFFFF	false	0x0000

let mut crc = CRC::crc16ccitt_false();
crc.digest(b"123456789");
assert_eq!("0x29B1", &crc.to_string());

`pub fn crc16aug_ccitt() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xE5CC	0x1021	0x1D0F	false	0x0000

let mut crc = CRC::crc16aug_ccitt();
crc.digest(b"123456789");
assert_eq!("0xE5CC", &crc.to_string());

`pub fn crc16buypass() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xFEE8	0x8005	0x0000	false	0x0000

let mut crc = CRC::crc16buypass();
crc.digest(b"123456789");
assert_eq!("0xFEE8", &crc.to_string());

`pub fn crc16cdma2000() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x4C06	0xC867	0xFFFF	false	0x0000

let mut crc = CRC::crc16cdma2000();
crc.digest(b"123456789");
assert_eq!("0x4C06", &crc.to_string());

`pub fn crc16dds_110() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x9ECF	0x8005	0x800D	false	0x0000

let mut crc = CRC::crc16dds_110();
crc.digest(b"123456789");
assert_eq!("0x9ECF", &crc.to_string());

`pub fn crc16dect_r() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x007E	0x0589	0x0000	false	0x0001

let mut crc = CRC::crc16dect_r();
crc.digest(b"123456789");
assert_eq!("0x007E", &crc.to_string());

`pub fn crc16dect_x() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x007F	0x0589	0x0000	false	0x0000

let mut crc = CRC::crc16dect_r();
crc.digest(b"123456789");
assert_eq!("0x007E", &crc.to_string());

`pub fn crc16dnp() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xEA82	0x3D65 (rev: 0xA6BC)	0x0000	true	0xFFFF

let mut crc = CRC::crc16dnp();
crc.digest(b"123456789");
assert_eq!("0xEA82", &crc.to_string());

`pub fn crc16en_13757() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xC2B7	0x3D65	0x0000	false	0xFFFF

let mut crc = CRC::crc16en_13757();
crc.digest(b"123456789");
assert_eq!("0xC2B7", &crc.to_string());

`pub fn crc16genibus() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xD64E	0x1021	0xFFFF	false	0xFFFF

let mut crc = CRC::crc16genibus();
crc.digest(b"123456789");
assert_eq!("0xD64E", &crc.to_string());

`pub fn crc16maxim() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x44C2	0x8005 (rev: 0xA001)	0xFFFF	true	0xFFFF

let mut crc = CRC::crc16maxim();
crc.digest(b"123456789");
assert_eq!("0x44C2", &crc.to_string());

`pub fn crc16mcrf4cc() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x6F91	0x1021 (rev: 0x8408)	0xFFFF	true	0x0000

let mut crc = CRC::crc16mcrf4cc();
crc.digest(b"123456789");
assert_eq!("0x6F91", &crc.to_string());

`pub fn crc16riello() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x63D0	0x1021 (rev: 0x8408)	0xB2AA	true	0x0000

let mut crc = CRC::crc16riello();
crc.digest(b"123456789");
assert_eq!("0x63D0", &crc.to_string());

`pub fn crc16t10_dif() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xD0DB	0x8BB7	0x0000	false	0x0000

let mut crc = CRC::crc16t10_dif();
crc.digest(b"123456789");
assert_eq!("0xD0DB", &crc.to_string());

`pub fn crc16teledisk() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x0FB3	0xA097	0x0000	false	0x0000

let mut crc = CRC::crc16teledisk();
crc.digest(b"123456789");
assert_eq!("0x0FB3", &crc.to_string());

`pub fn crc16tms13157() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x26B1	0x1021 (rev: 0x8408)	0x89EC	true	0x0000

let mut crc = CRC::crc16tms13157();
crc.digest(b"123456789");
assert_eq!("0x26B1", &crc.to_string());

`pub fn crc16usb() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xB4C8	0x8005 (rev: 0xA001)	0xFFFF	true	0xFFFF

let mut crc = CRC::crc16usb();
crc.digest(b"123456789");
assert_eq!("0xB4C8", &crc.to_string());

`pub fn crc_a() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xBF05	0x1021 (rev: 0x8408)	0xC6C6	true	0x0000

let mut crc = CRC::crc_a();
crc.digest(b"123456789");
assert_eq!("0xBF05", &crc.to_string());

`pub fn crc16kermit() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x2189	0x1021 (rev: 0x8408)	0x0000	true	0x0000

let mut crc = CRC::crc16kermit();
crc.digest(b"123456789");
assert_eq!("0x2189", &crc.to_string());

`pub fn crc16modbus() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x4B37	0x8005 (rev: 0xA001)	0xFFFF	true	0x0000

let mut crc = CRC::crc16modbus();
crc.digest(b"123456789");
assert_eq!("0x4B37", &crc.to_string());

`pub fn crc16_x25() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x906E	0x8005 (rev: 0xA001)	0xFFFF	true	0xFFFF

let mut crc = CRC::crc16_x25();
crc.digest(b"123456789");
assert_eq!("0x906E", &crc.to_string());

`pub fn crc16xmodem() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x31C3	0x1021	0x0000	false	0x0000

let mut crc = CRC::crc16xmodem();
crc.digest(b"123456789");
assert_eq!("0x31C3", &crc.to_string());

`pub fn crc17can() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x04F03	0x1685B	0x00000	false	0x00000

let mut crc = CRC::crc17can();
crc.digest(b"123456789");
assert_eq!("0x04F03", &crc.to_string());

`pub fn crc21can() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x0ED841	0x102899	0x000000	false	0x000000

let mut crc = CRC::crc21can();
crc.digest(b"123456789");
assert_eq!("0x0ED841", &crc.to_string());

`pub fn crc24() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x21CF02	0x864CFB	0xB704CE	false	0x000000

let mut crc = CRC::crc24();
crc.digest(b"123456789");
assert_eq!("0x21CF02", &crc.to_string());

`pub fn crc24ble() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xC25A56	0x00065B (rev: 0xDA6000)	0x555555	true	0x000000

let mut crc = CRC::crc24ble();
crc.digest(b"123456789");
assert_eq!("0xC25A56", &crc.to_string());

`pub fn crc24flexray_a() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x7979BD	0x5D6DCB	0xFEDCBA	false	0x000000

let mut crc = CRC::crc24flexray_a();
crc.digest(b"123456789");
assert_eq!("0x7979BD", &crc.to_string());

`pub fn crc24flexray_b() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x1F23B8	0x5D6DCB	0xABCDEF	false	0x000000

let mut crc = CRC::crc24flexray_b();
crc.digest(b"123456789");
assert_eq!("0x1F23B8", &crc.to_string());

`pub fn crc24lte_a() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xCDE703	0x864CFB	0x000000	false	0x000000

let mut crc = CRC::crc24lte_a();
crc.digest(b"123456789");
assert_eq!("0xCDE703", &crc.to_string());

`pub fn crc24lte_b() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x23EF52	0x800063	0x000000	false	0x000000

let mut crc = CRC::crc24lte_b();
crc.digest(b"123456789");
assert_eq!("0x23EF52", &crc.to_string());

`pub fn crc24os9() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x200FA5	0x800063	0xFFFFFF	false	0xFFFFFF

let mut crc = CRC::crc24os9();
crc.digest(b"123456789");
assert_eq!("0x200FA5", &crc.to_string());

`pub fn crc30cdma() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x04C34ABF	0x2030B9C7	0x3FFFFFFF	false	0x3FFFFFFF

let mut crc = CRC::crc30cdma();
crc.digest(b"123456789");
assert_eq!("0x04C34ABF", &crc.to_string());

`pub fn crc32() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xCBF43926	0x04C11DB7 (rev: 0xEDB88320)	0xFFFFFFFF	true	0xFFFFFFFF

let mut crc = CRC::crc32();
crc.digest(b"123456789");
assert_eq!("0xCBF43926", &crc.to_string());

`pub fn crc32mhash() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x181989FC	0x04C11DB7	0xFFFFFFFF	false	0xFFFFFFFF

Output will be reversed by bytes.

let mut crc = CRC::crc32mhash();
crc.digest(b"123456789");
assert_eq!("0x181989FC", &crc.to_string());

`pub fn crc32bzip2() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xFC891918	0x04C11DB7	0xFFFFFFFF	false	0xFFFFFFFF

let mut crc = CRC::crc32bzip2();
crc.digest(b"123456789");
assert_eq!("0xFC891918", &crc.to_string());

`pub fn crc32c() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xE3069283	0x1EDC6F41 (rev: 0x82F63B78)	0xFFFFFFFF	true	0xFFFFFFFF

let mut crc = CRC::crc32c();
crc.digest(b"123456789");
assert_eq!("0xE3069283", &crc.to_string());

`pub fn crc32d() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x87315576	0xA833982B (rev: 0xD419CC15)	0xFFFFFFFF	true	0xFFFFFFFF

let mut crc = CRC::crc32d();
crc.digest(b"123456789");
assert_eq!("0x87315576", &crc.to_string());

`pub fn crc32mpeg2() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x0376E6E7	0x04C11DB7	0xFFFFFFFF	false	0x00000000

let mut crc = CRC::crc32mpeg2();
crc.digest(b"123456789");
assert_eq!("0x0376E6E7", &crc.to_string());

`pub fn crc32posix() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x765E7680	0x04C11DB7	0x00000000	false	0xFFFFFFFF

let mut crc = CRC::crc32posix();
crc.digest(b"123456789");
assert_eq!("0x765E7680", &crc.to_string());

`pub fn crc32q() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x3010BF7F	0x814141AB	0x00000000	false	0x00000000

let mut crc = CRC::crc32q();
crc.digest(b"123456789");
assert_eq!("0x3010BF7F", &crc.to_string());

`pub fn crc32jamcrc() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x340BC6D9	0x04C11DB7 (rev: 0xEDB88320)	0x00000000	true	0x00000000

let mut crc = CRC::crc32jamcrc();
crc.digest(b"123456789");
assert_eq!("0x340BC6D9", &crc.to_string());

`pub fn crc32xfer() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xBD0BE338	0x000000AF	0x00000000	false	0x00000000

let mut crc = CRC::crc32xfer();
crc.digest(b"123456789");
assert_eq!("0xBD0BE338", &crc.to_string());

`pub fn crc40gsm() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xD4164FC646	0x0004820009	0x0000000000	false	0xFFFFFFFFFF

let mut crc = CRC::crc40gsm();
crc.digest(b"123456789");
assert_eq!("0xD4164FC646", &crc.to_string());

`pub fn crc64() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x6C40DF5F0B497347	0x42F0E1EBA9EA3693	0x0000000000000000	false	0x0000000000000000

let mut crc = CRC::crc64();
crc.digest(b"123456789");
assert_eq!("0x6C40DF5F0B497347", &crc.to_string());

`pub fn crc64iso() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xB90956C775A41001	0x000000000000001B (rev: 0xD800000000000000)	0xFFFFFFFFFFFFFFFF	true	0xFFFFFFFFFFFFFFFF

let mut crc = CRC::crc64iso();
crc.digest(b"123456789");
assert_eq!("0xB90956C775A41001", &crc.to_string());

`pub fn crc64we() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0x62EC59E3F1A4F00A	0x42F0E1EBA9EA3693	0xFFFFFFFFFFFFFFFF	false	0xFFFFFFFFFFFFFFFF

let mut crc = CRC::crc64we();
crc.digest(b"123456789");
assert_eq!("0x62EC59E3F1A4F00A", &crc.to_string());

`pub fn crc64jones() -> CRC`[src]

Check	Poly	Init	Ref	XorOut
0xE9C6D914C4B8D9CA	0xAD93D23594C935A9 (rev: 0x95AC9329AC4BC9B5)	0x0000000000000000	true	0x0000000000000000

let mut crc = CRC::crc64jones();
crc.digest(b"123456789");
assert_eq!("0xE9C6D914C4B8D9CA", &crc.to_string());

Trait Implementations

`impl Debug for CRC`[src]

`fn fmt(&self, f: &mut Formatter) -> Result`[src]

`impl Display for CRC`[src]

`fn fmt(&self, f: &mut Formatter) -> Result<(), Error>`[src]

Auto Trait Implementations

`impl Send for CRC`

`impl Sync for CRC`

`impl Unpin for CRC`

Blanket Implementations

`impl<T> Any for T where T: 'static + ?Sized,` [src]

`fn type_id(&self) -> TypeId`[src]

`impl<T> Borrow<T> for T where T: ?Sized,` [src]

`fn borrow(&self) -> &T`[src]

`impl<T> BorrowMut<T> for T where T: ?Sized,` [src]

`fn borrow_mut(&mut self) -> &mut T`[src]

`impl<T> From<T> for T`[src]

`fn from(t: T) -> T`[src]

`impl<T, U> Into for T where U: From<T>,` [src]

`fn into(self) -> U`[src]

`impl<T> ToString for T where T: Display + ?Sized,` [src]

`default fn to_string(&self) -> String`[src]

`impl<T, U> TryFrom for T where U: Into<T>,` [src]

`type Error = Infallible`

The type returned in the event of a conversion error.

`fn try_from(value: U) -> Result<T, <T as TryFrom>::Error>`[src]

`impl<T, U> TryInto for T where U: TryFrom<T>,` [src]

`type Error = >::Error`

The type returned in the event of a conversion error.

[−][src]Enum crc_any::CRC

Variants

Implementations

impl CRC[src]

pub fn create_crc( poly: u64, bits: u8, initial: u64, final_xor: u64, reflect: bool) -> CRC[src]

pub fn create_crc_u8( poly: u8, bits: u8, initial: u8, final_xor: u8, reflect: bool) -> CRC[src]

pub fn create_crc_u16( poly: u16, bits: u8, initial: u16, final_xor: u16, reflect: bool) -> CRC[src]

pub fn create_crc_u32( poly: u32, bits: u8, initial: u32, final_xor: u32, reflect: bool) -> CRC[src]

pub fn create_crc_u64( poly: u64, bits: u8, initial: u64, final_xor: u64, reflect: bool) -> CRC[src]

pub fn digest<T: ?Sized + AsRef<[u8]>>(&mut self, data: &T)[src]

pub fn reset(&mut self)[src]

pub fn get_crc(&mut self) -> u64[src]

impl CRC[src]

pub fn get_crc_vec_le(&mut self) -> Vec<u8>[src]

pub fn get_crc_vec_be(&mut self) -> Vec<u8>[src]

impl CRC[src]

pub fn crc3gsm() -> CRC[src]

pub fn crc4itu() -> CRC[src]

pub fn crc4interlaken() -> CRC[src]

pub fn crc5epc() -> CRC[src]

pub fn crc5itu() -> CRC[src]

pub fn crc5usb() -> CRC[src]

pub fn crc6cdma2000_a() -> CRC[src]

pub fn crc6cdma2000_b() -> CRC[src]

pub fn crc6darc() -> CRC[src]

pub fn crc6gsm() -> CRC[src]

pub fn crc6itu() -> CRC[src]

pub fn crc7() -> CRC[src]

pub fn crc7umts() -> CRC[src]

pub fn crc8() -> CRC[src]

pub fn crc8cdma2000() -> CRC[src]

pub fn crc8darc() -> CRC[src]

pub fn crc8dvb_s2() -> CRC[src]

pub fn crc8ebu() -> CRC[src]

pub fn crc8icode() -> CRC[src]

pub fn crc8itu() -> CRC[src]

pub fn crc8maxim() -> CRC[src]

pub fn crc8rohc() -> CRC[src]

pub fn crc8wcdma() -> CRC[src]

pub fn crc10() -> CRC[src]

pub fn crc10cdma2000() -> CRC[src]

pub fn crc10gsm() -> CRC[src]

pub fn crc11() -> CRC[src]

pub fn crc12() -> CRC[src]

pub fn crc12cdma2000() -> CRC[src]

pub fn crc12gsm() -> CRC[src]

pub fn crc13bbc() -> CRC[src]

pub fn crc14darc() -> CRC[src]

pub fn crc14gsm() -> CRC[src]

pub fn crc15can() -> CRC[src]

pub fn crc15mpt1327() -> CRC[src]

pub fn crc16() -> CRC[src]

pub fn crc16ccitt_false() -> CRC[src]

pub fn crc16aug_ccitt() -> CRC[src]

pub fn crc16buypass() -> CRC[src]

pub fn crc16cdma2000() -> CRC[src]

pub fn crc16dds_110() -> CRC[src]

pub fn crc16dect_r() -> CRC[src]

pub fn crc16dect_x() -> CRC[src]

pub fn crc16dnp() -> CRC[src]

pub fn crc16en_13757() -> CRC[src]

pub fn crc16genibus() -> CRC[src]

pub fn crc16maxim() -> CRC[src]

pub fn crc16mcrf4cc() -> CRC[src]

pub fn crc16riello() -> CRC[src]

pub fn crc16t10_dif() -> CRC[src]

pub fn crc16teledisk() -> CRC[src]

pub fn crc16tms13157() -> CRC[src]

pub fn crc16usb() -> CRC[src]

pub fn crc_a() -> CRC[src]

pub fn crc16kermit() -> CRC[src]

pub fn crc16modbus() -> CRC[src]

pub fn crc16_x25() -> CRC[src]

pub fn crc16xmodem() -> CRC[src]

pub fn crc17can() -> CRC[src]

pub fn crc21can() -> CRC[src]

pub fn crc24() -> CRC[src]

pub fn crc24ble() -> CRC[src]

pub fn crc24flexray_a() -> CRC[src]

pub fn crc24flexray_b() -> CRC[src]

`impl CRC`[src]

`pub fn create_crc( poly: u64, bits: u8, initial: u64, final_xor: u64, reflect: bool ) -> CRC`[src]

`pub fn create_crc_u8( poly: u8, bits: u8, initial: u8, final_xor: u8, reflect: bool ) -> CRC`[src]

`pub fn create_crc_u16( poly: u16, bits: u8, initial: u16, final_xor: u16, reflect: bool ) -> CRC`[src]

`pub fn create_crc_u32( poly: u32, bits: u8, initial: u32, final_xor: u32, reflect: bool ) -> CRC`[src]

`pub fn create_crc_u64( poly: u64, bits: u8, initial: u64, final_xor: u64, reflect: bool ) -> CRC`[src]

`pub fn digest<T: ?Sized + AsRef<[u8]>>(&mut self, data: &T)`[src]

`pub fn reset(&mut self)`[src]

`pub fn get_crc(&mut self) -> u64`[src]

`impl CRC`[src]

`pub fn get_crc_vec_le(&mut self) -> Vec<u8>`[src]

`pub fn get_crc_vec_be(&mut self) -> Vec<u8>`[src]

`impl CRC`[src]

`pub fn crc3gsm() -> CRC`[src]

`pub fn crc4itu() -> CRC`[src]

`pub fn crc4interlaken() -> CRC`[src]

`pub fn crc5epc() -> CRC`[src]

`pub fn crc5itu() -> CRC`[src]

`pub fn crc5usb() -> CRC`[src]

`pub fn crc6cdma2000_a() -> CRC`[src]

`pub fn crc6cdma2000_b() -> CRC`[src]

`pub fn crc6darc() -> CRC`[src]

`pub fn crc6gsm() -> CRC`[src]

`pub fn crc6itu() -> CRC`[src]

`pub fn crc7() -> CRC`[src]

`pub fn crc7umts() -> CRC`[src]

`pub fn crc8() -> CRC`[src]

`pub fn crc8cdma2000() -> CRC`[src]

`pub fn crc8darc() -> CRC`[src]

`pub fn crc8dvb_s2() -> CRC`[src]

`pub fn crc8ebu() -> CRC`[src]

`pub fn crc8icode() -> CRC`[src]

`pub fn crc8itu() -> CRC`[src]

`pub fn crc8maxim() -> CRC`[src]

`pub fn crc8rohc() -> CRC`[src]

`pub fn crc8wcdma() -> CRC`[src]

`pub fn crc10() -> CRC`[src]

`pub fn crc10cdma2000() -> CRC`[src]

`pub fn crc10gsm() -> CRC`[src]

`pub fn crc11() -> CRC`[src]

`pub fn crc12() -> CRC`[src]

`pub fn crc12cdma2000() -> CRC`[src]

`pub fn crc12gsm() -> CRC`[src]

`pub fn crc13bbc() -> CRC`[src]

`pub fn crc14darc() -> CRC`[src]

`pub fn crc14gsm() -> CRC`[src]

`pub fn crc15can() -> CRC`[src]

`pub fn crc15mpt1327() -> CRC`[src]

`pub fn crc16() -> CRC`[src]

`pub fn crc16ccitt_false() -> CRC`[src]

`pub fn crc16aug_ccitt() -> CRC`[src]

`pub fn crc16buypass() -> CRC`[src]

`pub fn crc16cdma2000() -> CRC`[src]

`pub fn crc16dds_110() -> CRC`[src]

`pub fn crc16dect_r() -> CRC`[src]

`pub fn crc16dect_x() -> CRC`[src]

`pub fn crc16dnp() -> CRC`[src]

`pub fn crc16en_13757() -> CRC`[src]

`pub fn crc16genibus() -> CRC`[src]

`pub fn crc16maxim() -> CRC`[src]

`pub fn crc16mcrf4cc() -> CRC`[src]

`pub fn crc16riello() -> CRC`[src]

`pub fn crc16t10_dif() -> CRC`[src]

`pub fn crc16teledisk() -> CRC`[src]

`pub fn crc16tms13157() -> CRC`[src]

`pub fn crc16usb() -> CRC`[src]

`pub fn crc_a() -> CRC`[src]

`pub fn crc16kermit() -> CRC`[src]

`pub fn crc16modbus() -> CRC`[src]

`pub fn crc16_x25() -> CRC`[src]

`pub fn crc16xmodem() -> CRC`[src]

`pub fn crc17can() -> CRC`[src]

`pub fn crc21can() -> CRC`[src]

`pub fn crc24() -> CRC`[src]

`pub fn crc24ble() -> CRC`[src]

`pub fn crc24flexray_a() -> CRC`[src]

`pub fn crc24flexray_b() -> CRC`[src]

`pub fn crc24lte_a() -> CRC`[src]

`pub fn crc24lte_b() -> CRC`[src]

`pub fn crc24os9() -> CRC`[src]