Cleanup clippy warnings

src/calc.rs

@@ -26,19 +26,18 @@ impl Calc {
         const NANOS_PER_MILLI: u64 = 1_000_000;
         let mut dur = (duration.as_secs() as u64 * MILLIS_PER_SEC)
             + (duration.subsec_nanos() as u64 / NANOS_PER_MILLI);
-        let durval = if dur as i32 >= 0xfc0i32 {
+        if dur as i32 >= 0xfc0i32 {
             0xffu8 // Max duration
         } else {
             loop {
-                if !(dur as i32 > 0x3fi32) {
+                if dur as i32 <= 0x3fi32 {
                     break;
                 }
                 dur = (dur as i32 / 4i32) as u64;
                 factor = (factor as i32 + 1i32) as u8;
             }
             (dur as i32 + factor as i32 * 64i32) as u8
-        };
-        durval
+        }
     }
 
     ///
@@ -72,14 +71,14 @@ impl Calc {
 
     pub fn calc_pressure(calib: &CalibData, t_fine: i32, pres_adc: u32) -> u32 {
         let mut var1: i32 = (t_fine >> 1) - 64000;
-        let mut var2: i32 = ((var1 >> 2) * (var1 >> 2) >> 11) * calib.par_p6 as i32 >> 2;
-        var2 = var2 + (var1 * (calib.par_p5 as i32) << 1);
+        let mut var2: i32 = ((((var1 >> 2) * (var1 >> 2)) >> 11) * calib.par_p6 as i32) >> 2;
+        var2 += (var1 * (calib.par_p5 as i32)) << 1;
         var2 = (var2 >> 2i32) + ((calib.par_p4 as i32) << 16i32);
-        var1 = (((var1 >> 2i32) * (var1 >> 2i32) >> 13i32) * ((calib.par_p3 as i32) << 5i32)
+        var1 = (((((var1 >> 2i32) * (var1 >> 2i32)) >> 13i32) * ((calib.par_p3 as i32) << 5i32))
             >> 3i32)
-            + (calib.par_p2 as i32 * var1 >> 1i32);
-        var1 = var1 >> 18i32;
-        var1 = (32768i32 + var1) * calib.par_p1 as i32 >> 15i32;
+            + ((calib.par_p2 as i32 * var1) >> 1i32);
+        var1 >>= 18i32;
+        var1 = ((32768i32 + var1) * calib.par_p1 as i32) >> 15i32;
         let mut pressure_comp: i32 = 1048576u32.wrapping_sub(pres_adc) as i32;
         pressure_comp = ((pressure_comp - (var2 >> 12i32)) as u32).wrapping_mul(3125u32) as i32;
         if pressure_comp >= 0x40000000i32 {
@@ -87,35 +86,35 @@ impl Calc {
         } else {
             pressure_comp = ((pressure_comp << 1i32) as u32).wrapping_div(var1 as u32) as i32;
         }
-        var1 = calib.par_p9 as i32 * ((pressure_comp >> 3i32) * (pressure_comp >> 3i32) >> 13i32)
+        var1 = (calib.par_p9 as i32
+            * (((pressure_comp >> 3i32) * (pressure_comp >> 3i32)) >> 13i32))
             >> 12i32;
-        var2 = (pressure_comp >> 2i32) * calib.par_p8 as i32 >> 13i32;
-        let var3: i32 = (pressure_comp >> 8i32)
+        var2 = ((pressure_comp >> 2i32) * calib.par_p8 as i32) >> 13i32;
+        let var3: i32 = ((pressure_comp >> 8i32)
             * (pressure_comp >> 8i32)
             * (pressure_comp >> 8i32)
-            * calib.par_p10 as i32
+            * calib.par_p10 as i32)
             >> 17i32;
-        pressure_comp =
-            pressure_comp + (var1 + var2 + var3 + ((calib.par_p7 as i32) << 7i32) >> 4i32);
+        pressure_comp += (var1 + var2 + var3 + ((calib.par_p7 as i32) << 7i32)) >> 4i32;
         pressure_comp as u32
     }
 
     pub fn calc_humidity(calib: &CalibData, t_fine: i32, hum_adc: u16) -> u32 {
-        let temp_scaled: i32 = t_fine * 5i32 + 128i32 >> 8i32;
+        let temp_scaled: i32 = (t_fine * 5i32 + 128i32) >> 8i32;
         let var1: i32 = hum_adc as i32
             - calib.par_h1 as i32 * 16i32
-            - (temp_scaled * calib.par_h3 as i32 / 100i32 >> 1i32);
-        let var2: i32 = calib.par_h2 as i32
+            - ((temp_scaled * calib.par_h3 as i32 / 100i32) >> 1i32);
+        let var2: i32 = (calib.par_h2 as i32
             * (temp_scaled * calib.par_h4 as i32 / 100i32
-                + (temp_scaled * (temp_scaled * calib.par_h5 as i32 / 100i32) >> 6i32) / 100i32
-                + (1i32 << 14i32))
+                + ((temp_scaled * (temp_scaled * calib.par_h5 as i32 / 100i32)) >> 6i32) / 100i32
+                + (1i32 << 14i32)))
             >> 10i32;
         let var3: i32 = var1 * var2;
         let var4: i32 = (calib.par_h6 as i32) << 7i32;
-        let var4: i32 = var4 + temp_scaled * calib.par_h7 as i32 / 100i32 >> 4i32;
-        let var5: i32 = (var3 >> 14i32) * (var3 >> 14i32) >> 10i32;
-        let var6: i32 = var4 * var5 >> 1i32;
-        let mut calc_hum: i32 = (var3 + var6 >> 10i32) * 1000i32 >> 12i32;
+        let var4: i32 = (var4 + temp_scaled * calib.par_h7 as i32 / 100i32) >> 4i32;
+        let var5: i32 = ((var3 >> 14i32) * (var3 >> 14i32)) >> 10i32;
+        let var6: i32 = (var4 * var5) >> 1i32;
+        let mut calc_hum: i32 = (((var3 + var6) >> 10i32) * 1000i32) >> 12i32;
         if calc_hum > 100000i32 {
             calc_hum = 100000i32;
         } else if calc_hum < 0i32 {
@@ -161,10 +160,11 @@ impl Calc {
             250000u32,
             125000u32,
         ];
-        let var1: i64 =
-            (1340 + 5 * calib.range_sw_err as i64) * lookup_table1[gas_range as usize] as i64 >> 16;
+        let var1: i64 = ((1340 + 5 * calib.range_sw_err as i64)
+            * lookup_table1[gas_range as usize] as i64)
+            >> 16;
         let var2: u64 = (((gas_res_adc as i64) << 15) - 16777216 + var1) as u64;
-        let var3: i64 = lookup_table2[gas_range as usize] as i64 * var1 >> 9;
+        let var3: i64 = (lookup_table2[gas_range as usize] as i64 * var1) >> 9;
         let calc_gas_res: u32 = ((var3 + ((var2 as i64) >> 1i64)) / var2 as i64) as u32;
         calc_gas_res
     }

src/lib.rs

@@ -247,7 +247,7 @@ impl I2CAddress {
         match &self {
             I2CAddress::Primary => 0x76u8,
             I2CAddress::Secondary => 0x77u8,
-            I2CAddress::Other(addr) => addr.clone(),
+            I2CAddress::Other(addr) => *addr,
         }
     }
 }
@@ -378,8 +378,7 @@ impl I2CUtil {
     {
         let mut buf = [0; 1];
 
-        i2c.write(dev_id, &mut [reg_addr])
-            .map_err(|e| Error::I2CWrite(e))?;
+        i2c.write(dev_id, &[reg_addr]).map_err(Error::I2CWrite)?;
 
         match i2c.read(dev_id, &mut buf) {
             Ok(()) => Ok(buf[0]),
@@ -396,8 +395,7 @@ impl I2CUtil {
     where
         I2C: Read + Write,
     {
-        i2c.write(dev_id, &mut [reg_addr])
-            .map_err(|e| Error::I2CWrite(e))?;
+        i2c.write(dev_id, &[reg_addr]).map_err(Error::I2CWrite)?;
 
         match i2c.read(dev_id, buf) {
             Ok(()) => Ok(()),
@@ -459,7 +457,7 @@ where
         let tmp_buff: [u8; 2] = [BME680_SOFT_RESET_ADDR, BME680_SOFT_RESET_CMD];
 
         i2c.write(dev_id.addr(), &tmp_buff)
-            .map_err(|e| Error::I2CWrite(e))?;
+            .map_err(Error::I2CWrite)?;
 
         delay.delay_ms(BME680_RESET_PERIOD);
         Ok(())
@@ -482,10 +480,10 @@ where
             let calib = Bme680::<I2C, D>::get_calib_data::<I2C>(&mut i2c, dev_id)?;
             debug!("Calib data {:?}", calib);
             let dev = Bme680 {
-                i2c: i2c,
+                i2c,
                 delay: PhantomData,
-                dev_id: dev_id,
-                calib: calib,
+                dev_id,
+                calib,
                 power_mode: PowerMode::ForcedMode,
                 tph_sett: Default::default(),
                 gas_sett: Default::default(),
@@ -507,14 +505,14 @@ where
         }
 
         for (reg_addr, reg_data) in reg {
-            let tmp_buff: [u8; 2] = [reg_addr.clone(), reg_data.clone()];
+            let tmp_buff: [u8; 2] = [*reg_addr, *reg_data];
             debug!(
                 "Setting register reg: {:?} tmp_buf: {:?}",
                 reg_addr, tmp_buff
             );
             self.i2c
                 .write(self.dev_id.addr(), &tmp_buff)
-                .map_err(|e| Error::I2CWrite(e))?;
+                .map_err(Error::I2CWrite)?;
         }
 
         Ok(())
@@ -724,7 +722,7 @@ where
 
             if current_power_mode != PowerMode::SleepMode {
                 // Set to sleep
-                tmp_pow_mode = tmp_pow_mode & !BME680_MODE_MSK;
+                tmp_pow_mode &= !BME680_MODE_MSK;
                 debug!("Setting to sleep tmp_pow_mode: {}", tmp_pow_mode);
                 self.bme680_set_regs(&[(BME680_CONF_T_P_MODE_ADDR, tmp_pow_mode)])?;
                 delay.delay_ms(BME680_POLL_PERIOD_MS);
@@ -813,7 +811,7 @@ where
         tph_dur = tph_dur.wrapping_add(1u32);
         let mut duration = Duration::from_millis(tph_dur as u64);
         if sensor_settings.gas_sett.run_gas_measurement {
-            duration = duration + sensor_settings.gas_sett.heatr_dur.expect("Heatrdur");
+            duration += sensor_settings.gas_sett.heatr_dur.expect("Heatrdur");
         }
         Ok(duration)
     }
@@ -908,7 +906,7 @@ where
             ),
             (
                 BME680_GAS_WAIT0_ADDR,
-                Calc::calc_heater_dur(gas_sett.heatr_dur.unwrap_or(Duration::from_secs(0))),
+                Calc::calc_heater_dur(gas_sett.heatr_dur.unwrap_or_else(|| Duration::from_secs(0))),
             ),
         ];
 
@@ -917,9 +915,7 @@ where
     }
 
     fn get_gas_config(&mut self) -> Result<GasSett, <I2C as Read>::Error, <I2C as Write>::Error> {
-        let mut gas_sett: GasSett = Default::default();
-
-        gas_sett.heatr_temp = Some(I2CUtil::read_byte(
+        let heatr_temp = Some(I2CUtil::read_byte(
             &mut self.i2c,
             self.dev_id.addr(),
             BME680_ADDR_SENS_CONF_START,
@@ -930,7 +926,12 @@ where
             self.dev_id.addr(),
             BME680_ADDR_GAS_CONF_START,
         )? as u64;
-        gas_sett.heatr_dur = Some(Duration::from_millis(heatr_dur_ms));
+
+        let gas_sett = GasSett {
+            heatr_temp,
+            heatr_dur: Some(Duration::from_millis(heatr_dur_ms)),
+            ..Default::default()
+        };
 
         Ok(gas_sett)
     }
@@ -971,8 +972,8 @@ where
                 ((buff[13] as u32).wrapping_mul(4) | (buff[14] as u32).wrapping_div(64)) as u16;
             let gas_range = buff[14] & BME680_GAS_RANGE_MSK;
 
-            data.status = data.status | buff[14] & BME680_GASM_VALID_MSK;
-            data.status = data.status | buff[14] & BME680_HEAT_STAB_MSK;
+            data.status |= buff[14] & BME680_GASM_VALID_MSK;
+            data.status |= buff[14] & BME680_HEAT_STAB_MSK;
 
             if data.status & BME680_NEW_DATA_MSK != 0 {
                 let (temp, t_fine) =

src/settings.rs

@@ -151,7 +151,7 @@ bitflags! {
 /// ```
 /// use bme680::{IIRFilterSize, OversamplingSetting, SettingsBuilder};
 /// use std::time::Duration;
-/// let settings = SettingsBuilder::new()
+/// let settings = SettingsBuilder::default()
 ///     .with_humidity_oversampling(OversamplingSetting::OS2x)
 ///     .with_pressure_oversampling(OversamplingSetting::OS4x)
 ///     .with_temperature_oversampling(OversamplingSetting::OS8x)
@@ -161,6 +161,7 @@ bitflags! {
 ///     .with_run_gas(true)
 ///     .build();
 /// ```
+#[derive(Default)]
 pub struct SettingsBuilder {
     desired_settings: DesiredSensorSettings,
     sensor_settings: SensorSettings,
@@ -171,11 +172,9 @@ pub type Settings = (SensorSettings, DesiredSensorSettings);
 
 impl SettingsBuilder {
     pub fn new() -> SettingsBuilder {
-        SettingsBuilder {
-            desired_settings: Default::default(),
-            sensor_settings: Default::default(),
-        }
+        SettingsBuilder::default()
     }
+
     pub fn with_temperature_filter(mut self, filter: IIRFilterSize) -> SettingsBuilder {
         self.sensor_settings.tph_sett.filter = Some(filter);
         self.desired_settings |= DesiredSensorSettings::FILTER_SEL;