๐Ÿ“ฆ samueltardieu / stm32-metapac-generated

stm32-metapac-generated / src / peripherals / opamp_f3.rs
๐Ÿ“„ opamp_f3.rs ยท 160 lines 
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160#![allow(clippy::missing_safety_doc)]
                #![allow(clippy::identity_op)]
                #![allow(clippy::unnecessary_cast)]
                #![allow(clippy::erasing_op)]

# [doc = "Operational Amplifier"]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Opamp { ptr : * mut u8 } unsafe impl Send for Opamp { } unsafe impl Sync for Opamp { } impl Opamp { # [inline (always)]
pub const unsafe fn from_ptr (ptr : * mut ()) -> Self { Self { ptr : ptr as _ , } } # [inline (always)]
pub const fn as_ptr (& self) -> * mut () { self . ptr as _ } # [doc = "OPAMP control/status register"]
# [inline (always)]
pub const fn csr (self) -> crate :: common :: Reg < regs :: Csr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x0usize) as _) } } } pub mod regs { # [doc = "OPAMP control/status register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Csr (pub u32) ; impl Csr { # [doc = "OPAMP enable"]
# [inline (always)]
pub const fn opampen (& self) -> bool { let val = (self . 0 >> 0usize) & 0x01 ; val != 0 } # [doc = "OPAMP enable"]
# [inline (always)]
pub fn set_opampen (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 0usize)) | (((val as u32) & 0x01) << 0usize) ; } # [doc = "Forces a calibration reference voltage on non-inverting input and disables external connections."]
# [inline (always)]
pub const fn force_vp (& self) -> super :: vals :: ForceVp { let val = (self . 0 >> 1usize) & 0x01 ; super :: vals :: ForceVp :: from_bits (val as u8) } # [doc = "Forces a calibration reference voltage on non-inverting input and disables external connections."]
# [inline (always)]
pub fn set_force_vp (& mut self , val : super :: vals :: ForceVp) { self . 0 = (self . 0 & ! (0x01 << 1usize)) | (((val . to_bits () as u32) & 0x01) << 1usize) ; } # [doc = "OPAMP Non inverting input selection"]
# [inline (always)]
pub const fn vp_sel (& self) -> super :: vals :: VpSel { let val = (self . 0 >> 2usize) & 0x03 ; super :: vals :: VpSel :: from_bits (val as u8) } # [doc = "OPAMP Non inverting input selection"]
# [inline (always)]
pub fn set_vp_sel (& mut self , val : super :: vals :: VpSel) { self . 0 = (self . 0 & ! (0x03 << 2usize)) | (((val . to_bits () as u32) & 0x03) << 2usize) ; } # [doc = "OPAMP inverting input selection"]
# [inline (always)]
pub const fn vm_sel (& self) -> super :: vals :: VmSel { let val = (self . 0 >> 5usize) & 0x03 ; super :: vals :: VmSel :: from_bits (val as u8) } # [doc = "OPAMP inverting input selection"]
# [inline (always)]
pub fn set_vm_sel (& mut self , val : super :: vals :: VmSel) { self . 0 = (self . 0 & ! (0x03 << 5usize)) | (((val . to_bits () as u32) & 0x03) << 5usize) ; } # [doc = "Timer controlled Mux mode enable"]
# [inline (always)]
pub const fn tcm_en (& self) -> bool { let val = (self . 0 >> 7usize) & 0x01 ; val != 0 } # [doc = "Timer controlled Mux mode enable"]
# [inline (always)]
pub fn set_tcm_en (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 7usize)) | (((val as u32) & 0x01) << 7usize) ; } # [doc = "OPAMP inverting input secondary selection"]
# [inline (always)]
pub const fn vms_sel (& self) -> super :: vals :: VmsSel { let val = (self . 0 >> 8usize) & 0x01 ; super :: vals :: VmsSel :: from_bits (val as u8) } # [doc = "OPAMP inverting input secondary selection"]
# [inline (always)]
pub fn set_vms_sel (& mut self , val : super :: vals :: VmsSel) { self . 0 = (self . 0 & ! (0x01 << 8usize)) | (((val . to_bits () as u32) & 0x01) << 8usize) ; } # [doc = "OPAMP Non inverting input secondary selection"]
# [inline (always)]
pub const fn vps_sel (& self) -> super :: vals :: VpsSel { let val = (self . 0 >> 9usize) & 0x03 ; super :: vals :: VpsSel :: from_bits (val as u8) } # [doc = "OPAMP Non inverting input secondary selection"]
# [inline (always)]
pub fn set_vps_sel (& mut self , val : super :: vals :: VpsSel) { self . 0 = (self . 0 & ! (0x03 << 9usize)) | (((val . to_bits () as u32) & 0x03) << 9usize) ; } # [doc = "Calibration mode enable"]
# [inline (always)]
pub const fn calon (& self) -> bool { let val = (self . 0 >> 11usize) & 0x01 ; val != 0 } # [doc = "Calibration mode enable"]
# [inline (always)]
pub fn set_calon (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 11usize)) | (((val as u32) & 0x01) << 11usize) ; } # [doc = "Calibration selection"]
# [inline (always)]
pub const fn calsel (& self) -> super :: vals :: Calsel { let val = (self . 0 >> 12usize) & 0x03 ; super :: vals :: Calsel :: from_bits (val as u8) } # [doc = "Calibration selection"]
# [inline (always)]
pub fn set_calsel (& mut self , val : super :: vals :: Calsel) { self . 0 = (self . 0 & ! (0x03 << 12usize)) | (((val . to_bits () as u32) & 0x03) << 12usize) ; } # [doc = "Gain in PGA mode"]
# [inline (always)]
pub const fn pga_gain (& self) -> super :: vals :: PgaGain { let val = (self . 0 >> 14usize) & 0x0f ; super :: vals :: PgaGain :: from_bits (val as u8) } # [doc = "Gain in PGA mode"]
# [inline (always)]
pub fn set_pga_gain (& mut self , val : super :: vals :: PgaGain) { self . 0 = (self . 0 & ! (0x0f << 14usize)) | (((val . to_bits () as u32) & 0x0f) << 14usize) ; } # [doc = "User trimming enable"]
# [inline (always)]
pub const fn user_trim (& self) -> bool { let val = (self . 0 >> 18usize) & 0x01 ; val != 0 } # [doc = "User trimming enable"]
# [inline (always)]
pub fn set_user_trim (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 18usize)) | (((val as u32) & 0x01) << 18usize) ; } # [doc = "Offset trimming value (PMOS)"]
# [inline (always)]
pub const fn trimoffsetp (& self) -> u8 { let val = (self . 0 >> 19usize) & 0x1f ; val as u8 } # [doc = "Offset trimming value (PMOS)"]
# [inline (always)]
pub fn set_trimoffsetp (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x1f << 19usize)) | (((val as u32) & 0x1f) << 19usize) ; } # [doc = "Offset trimming value (NMOS)"]
# [inline (always)]
pub const fn trimoffsetn (& self) -> u8 { let val = (self . 0 >> 24usize) & 0x1f ; val as u8 } # [doc = "Offset trimming value (NMOS)"]
# [inline (always)]
pub fn set_trimoffsetn (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x1f << 24usize)) | (((val as u32) & 0x1f) << 24usize) ; } # [doc = "Output the internal reference voltage"]
# [inline (always)]
pub const fn tstref (& self) -> bool { let val = (self . 0 >> 29usize) & 0x01 ; val != 0 } # [doc = "Output the internal reference voltage"]
# [inline (always)]
pub fn set_tstref (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 29usize)) | (((val as u32) & 0x01) << 29usize) ; } # [doc = "OPAMP ouput status flag"]
# [inline (always)]
pub const fn outcal (& self) -> super :: vals :: Outcal { let val = (self . 0 >> 30usize) & 0x01 ; super :: vals :: Outcal :: from_bits (val as u8) } # [doc = "OPAMP ouput status flag"]
# [inline (always)]
pub fn set_outcal (& mut self , val : super :: vals :: Outcal) { self . 0 = (self . 0 & ! (0x01 << 30usize)) | (((val . to_bits () as u32) & 0x01) << 30usize) ; } # [doc = "OPAMP lock"]
# [inline (always)]
pub const fn lock (& self) -> bool { let val = (self . 0 >> 31usize) & 0x01 ; val != 0 } # [doc = "OPAMP lock"]
# [inline (always)]
pub fn set_lock (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 31usize)) | (((val as u32) & 0x01) << 31usize) ; } } impl Default for Csr { # [inline (always)]
fn default () -> Csr { Csr (0) } } } pub mod vals { # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Calsel { # [doc = "VREFOPAMP=3.3% VDDA"]
PERCENT3_3 = 0x0 , # [doc = "VREFOPAMP=10% VDDA"]
PERCENT10 = 0x01 , # [doc = "VREFOPAMP=50% VDDA"]
PERCENT50 = 0x02 , # [doc = "VREFOPAMP=90% VDDA"]
PERCENT90 = 0x03 , } impl Calsel { # [inline (always)]
pub const fn from_bits (val : u8) -> Calsel { unsafe { core :: mem :: transmute (val & 0x03) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Calsel { # [inline (always)]
fn from (val : u8) -> Calsel { Calsel :: from_bits (val) } } impl From < Calsel > for u8 { # [inline (always)]
fn from (val : Calsel) -> u8 { Calsel :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum ForceVp { # [doc = "Normal operating mode"]
NORMAL = 0x0 , # [doc = "Calibration mode. Non-inverting input connected to calibration reference"]
CALIBRATION = 0x01 , } impl ForceVp { # [inline (always)]
pub const fn from_bits (val : u8) -> ForceVp { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for ForceVp { # [inline (always)]
fn from (val : u8) -> ForceVp { ForceVp :: from_bits (val) } } impl From < ForceVp > for u8 { # [inline (always)]
fn from (val : ForceVp) -> u8 { ForceVp :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Outcal { # [doc = "Non-inverting < inverting"]
LOW = 0x0 , # [doc = "Non-inverting > inverting"]
HIGH = 0x01 , } impl Outcal { # [inline (always)]
pub const fn from_bits (val : u8) -> Outcal { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Outcal { # [inline (always)]
fn from (val : u8) -> Outcal { Outcal :: from_bits (val) } } impl From < Outcal > for u8 { # [inline (always)]
fn from (val : Outcal) -> u8 { Outcal :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum PgaGain { # [doc = "Gain 2"]
GAIN2 = 0x0 , # [doc = "Gain 4"]
GAIN4 = 0x01 , # [doc = "Gain 8"]
GAIN8 = 0x02 , _RESERVED_3 = 0x03 , # [doc = "Gain 16"]
GAIN16 = 0x04 , _RESERVED_5 = 0x05 , _RESERVED_6 = 0x06 , _RESERVED_7 = 0x07 , # [doc = "Gain 2, feedback connected to VM0"]
GAIN2_VM0 = 0x08 , # [doc = "Gain 4, feedback connected to VM0"]
GAIN4_VM0 = 0x09 , # [doc = "Gain 8, feedback connected to VM0"]
GAIN8_VM0 = 0x0a , # [doc = "Gain 16, feedback connected to VM0"]
GAIN16_VM0 = 0x0b , # [doc = "Gain 2, feedback connected to VM1"]
GAIN2_VM1 = 0x0c , # [doc = "Gain 4, feedback connected to VM1"]
GAIN4_VM1 = 0x0d , # [doc = "Gain 8, feedback connected to VM1"]
GAIN8_VM1 = 0x0e , # [doc = "Gain 16, feedback connected to VM1"]
GAIN16_VM1 = 0x0f , } impl PgaGain { # [inline (always)]
pub const fn from_bits (val : u8) -> PgaGain { unsafe { core :: mem :: transmute (val & 0x0f) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for PgaGain { # [inline (always)]
fn from (val : u8) -> PgaGain { PgaGain :: from_bits (val) } } impl From < PgaGain > for u8 { # [inline (always)]
fn from (val : PgaGain) -> u8 { PgaGain :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum VmSel { # [doc = "PC5 (VM0) used as OPAMP2 inverting input"]
PC5 = 0x0 , # [doc = "PA5 (VM1) used as OPAMP2 inverting input"]
PA5 = 0x01 , # [doc = "Resistor feedback output (PGA mode)"]
PGA = 0x02 , # [doc = "Follower mode"]
FOLLOWER = 0x03 , } impl VmSel { # [inline (always)]
pub const fn from_bits (val : u8) -> VmSel { unsafe { core :: mem :: transmute (val & 0x03) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for VmSel { # [inline (always)]
fn from (val : u8) -> VmSel { VmSel :: from_bits (val) } } impl From < VmSel > for u8 { # [inline (always)]
fn from (val : VmSel) -> u8 { VmSel :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum VmsSel { # [doc = "PC5 (VM0) used as OPAMP2 inverting input when TCM_EN=1"]
PC5 = 0x0 , # [doc = "PA5 (VM1) used as OPAMP2 inverting input when TCM_EN=1"]
PA5 = 0x01 , } impl VmsSel { # [inline (always)]
pub const fn from_bits (val : u8) -> VmsSel { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for VmsSel { # [inline (always)]
fn from (val : u8) -> VmsSel { VmsSel :: from_bits (val) } } impl From < VmsSel > for u8 { # [inline (always)]
fn from (val : VmsSel) -> u8 { VmsSel :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum VpSel { _RESERVED_0 = 0x0 , # [doc = "PB14 used as OPAMP2 non-inverting input"]
PB14 = 0x01 , # [doc = "PB0 used as OPAMP2 non-inverting input"]
PB0 = 0x02 , # [doc = "PA7 used as OPAMP2 non-inverting input"]
PA7 = 0x03 , } impl VpSel { # [inline (always)]
pub const fn from_bits (val : u8) -> VpSel { unsafe { core :: mem :: transmute (val & 0x03) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for VpSel { # [inline (always)]
fn from (val : u8) -> VpSel { VpSel :: from_bits (val) } } impl From < VpSel > for u8 { # [inline (always)]
fn from (val : VpSel) -> u8 { VpSel :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum VpsSel { _RESERVED_0 = 0x0 , # [doc = "PB14 used as OPAMP2 non-inverting input when TCM_EN=1"]
PB14 = 0x01 , # [doc = "PB0 used as OPAMP2 non-inverting input when TCM_EN=1"]
PB0 = 0x02 , # [doc = "PA7 used as OPAMP2 non-inverting input when TCM_EN=1"]
PA7 = 0x03 , } impl VpsSel { # [inline (always)]
pub const fn from_bits (val : u8) -> VpsSel { unsafe { core :: mem :: transmute (val & 0x03) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for VpsSel { # [inline (always)]
fn from (val : u8) -> VpsSel { VpsSel :: from_bits (val) } } impl From < VpsSel > for u8 { # [inline (always)]
fn from (val : VpsSel) -> u8 { VpsSel :: to_bits (val) } } }