Struct Cfg2 

#[repr(transparent)]
pub struct Cfg2(pub u32);

Configuration register 2 for the primary channel pair.

Tuple Fields

0: u32

Implementations

impl Cfg2

pub const fn framelen(&self) -> u16

Frame Length, minus 1 encoded, defines the number of clocks and data bits in the frames that this channel pair participates in. See Frame format. 0x000 to 0x002 = not supported 0x003 = frame is 4 bits in total length 0x004 = frame is 5 bits in total length 0x1FF = frame is 512 bits in total length if FRAMELEN is an defines an odd length frame (e.g. 33 clocks) in mode 0 or 1, the extra clock appears in the right half. When MODE = 3, FRAMELEN must be larger than DATALEN in order for the WS pulse to be generated correctly.

pub const fn set_framelen(&mut self, val: u16)

Frame Length, minus 1 encoded, defines the number of clocks and data bits in the frames that this channel pair participates in. See Frame format. 0x000 to 0x002 = not supported 0x003 = frame is 4 bits in total length 0x004 = frame is 5 bits in total length 0x1FF = frame is 512 bits in total length if FRAMELEN is an defines an odd length frame (e.g. 33 clocks) in mode 0 or 1, the extra clock appears in the right half. When MODE = 3, FRAMELEN must be larger than DATALEN in order for the WS pulse to be generated correctly.

pub const fn position(&self) -> u16

Data Position. Defines the location within the frame of the data for this channel pair. POSITION + DATALEN must be less than FRAMELEN. See Frame format. When MODE = 0, POSITION defines the location of data in both the left phase and right phase, starting one clock after the WS edge. In other modes, POSITION defines the location of data within the entire frame. ONECHANNEL = 1 while MODE = 0 is a special case, see the description of ONECHANNEL. The combination of DATALEN and the POSITION fields of all channel pairs must be made such that the channels do not overlap within the frame. 0x000 = data begins at bit position 0 (the first bit position) within the frame or WS phase. 0x001 = data begins at bit position 1 within the frame or WS phase. 0x002 = data begins at bit position 2 within the frame or WS phase.

pub const fn set_position(&mut self, val: u16)

Data Position. Defines the location within the frame of the data for this channel pair. POSITION + DATALEN must be less than FRAMELEN. See Frame format. When MODE = 0, POSITION defines the location of data in both the left phase and right phase, starting one clock after the WS edge. In other modes, POSITION defines the location of data within the entire frame. ONECHANNEL = 1 while MODE = 0 is a special case, see the description of ONECHANNEL. The combination of DATALEN and the POSITION fields of all channel pairs must be made such that the channels do not overlap within the frame. 0x000 = data begins at bit position 0 (the first bit position) within the frame or WS phase. 0x001 = data begins at bit position 1 within the frame or WS phase. 0x002 = data begins at bit position 2 within the frame or WS phase.

Trait Implementations

impl Clone for Cfg2

fn clone(&self) -> Cfg2

Returns a duplicate of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl Debug for Cfg2

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl Default for Cfg2

fn default() -> Cfg2

Returns the “default value” for a type.

impl PartialEq for Cfg2

fn eq(&self, other: &Cfg2) -> bool

Tests for self and other values to be equal, and is used by ==.

fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl Copy for Cfg2

impl Eq for Cfg2

impl StructuralPartialEq for Cfg2