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Diffstat (limited to 'sw/eval-clock-cw-tx/src/ui.rs')
-rw-r--r-- | sw/eval-clock-cw-tx/src/ui.rs | 274 |
1 files changed, 274 insertions, 0 deletions
diff --git a/sw/eval-clock-cw-tx/src/ui.rs b/sw/eval-clock-cw-tx/src/ui.rs new file mode 100644 index 0000000..564b7d1 --- /dev/null +++ b/sw/eval-clock-cw-tx/src/ui.rs @@ -0,0 +1,274 @@ +/* + The MIT License (MIT) + + Copyright (c) 2020 Matthias P. Braendli + + Permission is hereby granted, free of charge, to any person obtaining a copy + of this software and associated documentation files (the "Software"), to deal + in the Software without restriction, including without limitation the rights + to use, copy, modify, merge, publish, distribute, sublicense, and/or sell + copies of the Software, and to permit persons to whom the Software is + furnished to do so, subject to the following conditions: + + The above copyright notice and this permission notice shall be included in all + copies or substantial portions of the Software. + + THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE + AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, + OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE + SOFTWARE. +*/ + +use crate::state::*; + +use core::fmt; +use core::fmt::Write; + +use stm32f1xx_hal::{ + delay::Delay, + gpio::gpiob::*, + gpio::gpioc::*, + gpio::{Input, PullUp, Floating}, +}; + +use embedded_hal::digital::v2::InputPin; +use hd44780_driver::HD44780; + +#[derive(PartialEq, Eq, Clone, Copy)] +struct ButtonState { + pub a : bool, + pub b : bool, + pub c : bool, + pub d : bool, + pub e : bool, + pub enc : bool, +} + +impl ButtonState { + fn edge_detection(&self, old_state : &ButtonState) -> ButtonState { + ButtonState { + a : !old_state.a && self.a, + b : !old_state.b && self.b, + c : !old_state.c && self.c, + d : !old_state.d && self.d, + e : !old_state.e && self.e, + enc : !old_state.enc && self.enc, + } + } +} + +impl Default for ButtonState { + fn default() -> Self { + ButtonState { + a : false, + b : false, + c : false, + d : false, + e : false, + enc : false, + } + } +} + +impl fmt::Display for ButtonState { + fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { + write!(f, "{}{}{}{}{}{}", + if self.a { "A" } else { "a" }, + if self.b { "B" } else { "b" }, + if self.c { "C" } else { "c" }, + if self.d { "D" } else { "d" }, + if self.e { "E" } else { "e" }, + if self.enc { "X" } else { "x" }) + } +} + +#[derive(Default)] +pub struct ButtonResult { + pub display_update : bool, +} + +pub struct UI { + btn0 : PB1<Input<Floating>>, + btn1 : PB0<Input<Floating>>, + + btn2 : PB12<Input<PullUp>>, + btn3 : PB13<Input<PullUp>>, + + btn_enc : PC15<Input<PullUp>>, + + previous_button_state : ButtonState, +} + +impl UI { + pub fn new( + pb0: PB0<Input<Floating>>, + pb1: PB1<Input<Floating>>, + pb12: PB12<Input<PullUp>>, + pb13: PB13<Input<PullUp>>, + pc15 : PC15<Input<PullUp>>) -> UI { + + UI { + btn0 : pb1, + btn1 : pb0, + btn2 : pb12, + btn3 : pb13, + btn_enc : pc15, + previous_button_state : ButtonState::default(), + } + } + + fn read_buttons(&mut self) -> ButtonState { + let mut buttons = ButtonState::default(); + + let b0_low = self.btn0.is_low().unwrap(); + let b1_low = self.btn1.is_low().unwrap(); + + if b0_low && b1_low { + buttons.e = true; + } + else if b0_low { + buttons.a = true; + } + else if b1_low { + buttons.b = true; + } + + if self.btn2.is_low().unwrap() { + buttons.c = true; + } + + if self.btn3.is_low().unwrap() { + buttons.d = true; + } + + if self.btn_enc.is_low().unwrap() { + buttons.enc = true; + } + + buttons + } + + pub fn handle_buttons(&mut self, state: &mut State) -> ButtonResult { + let mut result = ButtonResult::default(); + let button_state = self.read_buttons(); + let button_updates = button_state.edge_detection(&self.previous_button_state); + self.previous_button_state = button_state; + + if button_updates.a { + state.vfo_sel = match (state.ui_sel, state.vfo_sel) { + (UISelection::VFO, VFOSelection::A) => VFOSelection::B, + (UISelection::VFO, VFOSelection::B) => VFOSelection::A, + _ => state.vfo_sel.clone(), + }; + state.ui_sel = UISelection::VFO; + result.display_update = true; + } + + if button_updates.c { + let (new_ui_sel, new_filter_shift) = match (state.ui_sel, state.mode) { + (UISelection::Mode, Mode::CW(CWMode::StraightKey)) => (UISelection::Mode, Mode::CW(CWMode::Iambic)), + (UISelection::Mode, Mode::CW(CWMode::Iambic)) => (UISelection::Mode, Mode::CW(CWMode::StraightKey)), + (_, f) => (UISelection::Mode, f), + }; + + state.ui_sel = new_ui_sel; + state.mode = new_filter_shift; + + result.display_update = true; + } + + if button_updates.d { + state.tune_speed = match state.tune_speed { + TuneSpeed::Slow => TuneSpeed::Mid, + TuneSpeed::Mid => TuneSpeed::Fast, + TuneSpeed::Fast => TuneSpeed::Slow, + }; + result.display_update = true; + } + + if button_updates.enc { + match state.ui_sel { + UISelection::VFO => {}, + UISelection::Mode => { + state.mode = Mode::CW(CWMode::StraightKey); + }, + } + + result.display_update = true; + } + + result + } + + // Returns true if bfo must be reprogrammed + pub fn update_encoder(&mut self, state: &mut State, delta : i32) { + match state.ui_sel { + UISelection::VFO => { + match state.vfo_sel { + VFOSelection::A => { + state.vfo_a = (state.vfo_a as i32 + delta * state.vfo_incr()) as u32; + }, + VFOSelection::B => { + state.vfo_b = (state.vfo_b as i32 + delta * state.vfo_incr()) as u32; + }, + } + }, + UISelection::Mode => { + match state.mode { + Mode::CW(CWMode::Iambic) => { + let mut new_wpm = state.cw_wpm as i32 + delta / 4; + if new_wpm < 1 { + new_wpm = 1; + } + + let wpm = new_wpm as u32; + state.cw_wpm = wpm; + state.mode = Mode::CW(CWMode::Iambic); + }, + _ => { }, + } + }, + } + } +} + +pub fn update_disp<T: hd44780_driver::bus::DataBus>(lcd: &mut HD44780<T>, state: &State, delay: &mut Delay) +{ + let mut string = arrayvec::ArrayString::<[_; 16]>::new(); + + let disp_freq = state.vfo() as i32; + write!(string, "{:<05}.{:<03} ", disp_freq / 1000, disp_freq % 1000).unwrap(); + + write!(string, " CW{:<02}", state.cw_wpm).unwrap(); + + lcd.set_cursor_pos(0, delay).unwrap(); + lcd.write_str(&string, delay).unwrap(); + + string.clear(); + + match &state.vfo_sel { + VFOSelection::A => write!(string, "VFOa").unwrap(), + VFOSelection::B => write!(string, "VFOb").unwrap(), + } + + write!(string, " {}", if state.ui_sel == UISelection::Mode { ">" } else { " " }).unwrap(); + + let mode = match state.mode { + Mode::CW(CWMode::StraightKey) => "CWs", + Mode::CW(CWMode::Iambic) => "CWp", + }; + + let speed = match state.tune_speed { + TuneSpeed::Slow => "SLO", + TuneSpeed::Mid => "MID", + TuneSpeed::Fast => "FST", + }; + + write!(string, "{} {}", mode, speed).unwrap(); + + lcd.set_cursor_pos(40, delay).unwrap(); + lcd.write_str(&string, delay).unwrap(); +} |