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- Committer: Tim Marston
- Date: 2012-03-21 19:37:33 UTC
- Revision ID: tim@ed.am-20120321193733-29euxt0t0h9dwsj3
added .dep directories to bzrignore
- files added:
- .bzrignore
- project
- src
- src/util
- test
- test/fan-test
- test/fan-test/Makefile
- test/led-test
- test/led-test/Makefile
- test/phantom-button-presses
- test/phantom-button-presses/Makefile
- test/rtc-test
- test/rtc-test/util
- files removed:
- propeller-clock.sch
- files renamed:
- Notes => notes
- Makefile => src/Makefile
- files modified:
- electronics-information
added
removed
src/propeller-clock.cc
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/* -*- mode: c++; compile-command: "BOARD=pro5v make"; -*- */
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/*
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* propeller-clock.ino
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*
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* Copyright (C) 2011 Tim Marston <tim@ed.am> and Dan Marston.
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*
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* This file is part of propeller-clock (hereafter referred to as "this
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* program"). See http://ed.am/dev/software/arduino/propeller-clock for more
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* information.
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Lesser General Public License as published
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* by the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/******************************************************************************
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Set up:
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* a PC fan is wired up to a 12V power supply
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* the fan's SENSE (tachometer) pin connected to pin 2 on the
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Arduino.
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* the pins 4 to 13 on the Arduino should directly drive an LED (the
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LED on pin 4 is in the centre of the clock face and the LED on pin
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13 is at the outside.
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* if a longer hand (and a larger clock face) is desired, pin 4 can be
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used to indirectly drive a transistor which in turn drives several
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LEDs that turn on and off in unison in the centre of the clock.
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* a button should be attached to pin 3 that grounds it when pressed.
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* A DS1307 remote clock is connected via I2C on analogue pins 4 and 5.
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Implementation details:
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* for a schematic, see ../project/propeller-clock.sch.
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* the timing of the drawing of the clock face is recalculated with
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every rotation of the propeller.
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* a PC fan actually sends 2 tachometer pulses per revolution, so the
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software skips every other one. This means that the clock may
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appear upside-down if started with the propeller in the wrong
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position. You will need to experiment to discover the position that
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the propeller must be in when starting the clock.
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Usage instructions:
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* pressing the button cycles between variations of the current
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display mode.
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* pressing and holding the button for a second cycles between display
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modes (e.g., analogue and digital).
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* pressing and holding the button for 5 seconds enters "time set"
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mode. In this mode, the following applies:
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- the field that is being set flashes
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- pressing the button increments the field currently being set
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- pressing and holding the button for a second cycles through the
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fields that can be set
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- pressing and holding the button for 5 seconds sets the time and
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exits "time set" mode
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******************************************************************************/
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#include "config.h"
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#include "button.h"
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#include "time.h"
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#include "Arduino.h"
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#include "analogue_clock.h"
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#include "digital_clock.h"
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#include "test_pattern.h"
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#include "settings_mode.h"
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#include "text.h"
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#include "text_renderer.h"
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#include "common.h"
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//_____________________________________________________________________________
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// data
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// when non-zero, the time (in microseconds) of a new fan pulse that
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// has just occurred, which means that segment drawing needs to be
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// restarted
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static unsigned long _new_pulse_at = 0;
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// the time (in microseconds) when the last fan pulse occurred
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static unsigned long _last_pulse_at = 0;
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// duration (in microseconds) that a segment should be displayed
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static unsigned long _segment_step = 0;
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// remainder after divisor and a tally of the remainders for each segment
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static unsigned long _segment_step_sub_step = 0;
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static unsigned long _segment_step_sub = 0;
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// the button
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static Button _button( 3 );
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// modes
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static int _major_mode = 0;
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static int _minor_mode = 0;
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#define MAIN_MODE_IDX 1
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#define SETTINGS_MODE_IDX 0
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#define ANALOGUE_CLOCK_IDX 0
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#define DIGITAL_CLOCK_IDX 1
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#define TEST_PATTERN_IDX 2
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//_____________________________________________________________________________
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// code
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// activate the current minor mode
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void activate_minor_mode()
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{
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switch( _minor_mode ) {
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case ANALOGUE_CLOCK_IDX: analogue_clock_activate(); break;
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case DIGITAL_CLOCK_IDX: digital_clock_activate(); break;
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}
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// reset text
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Text::reset();
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leds_off();
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}
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// activate major mode
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void activate_major_mode()
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{
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switch( _major_mode ) {
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case MAIN_MODE_IDX: activate_minor_mode(); break;
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case SETTINGS_MODE_IDX: settings_mode_activate(); break;
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}
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// reset text
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Text::reset();
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leds_off();
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}
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// perform button events
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void do_button_events()
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{
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// loop through pending events
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while( int event = _button.get_event() )
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{
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switch( event )
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{
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case 1:
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// short press
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switch( _major_mode ) {
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case MAIN_MODE_IDX:
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switch( _minor_mode ) {
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case ANALOGUE_CLOCK_IDX: analogue_clock_press(); break;
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case DIGITAL_CLOCK_IDX: digital_clock_press(); break;
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}
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break;
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case SETTINGS_MODE_IDX: settings_mode_press(); break;
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}
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break;
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case 2:
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// long press
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switch( _major_mode ) {
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case MAIN_MODE_IDX:
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if( ++_minor_mode >= 3 )
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_minor_mode = 0;
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activate_minor_mode();
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break;
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case SETTINGS_MODE_IDX: settings_mode_long_press(); break;
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}
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break;
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case 3:
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// looooong press (change major mode)
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if( ++_major_mode > 1 )
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_major_mode = 0;
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activate_major_mode();
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break;
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}
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}
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}
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// draw a display segment
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void draw_next_segment( bool reset )
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{
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// keep track of segment
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#if CLOCK_FORWARD
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static int segment = ( NUM_SEGMENTS - CLOCK_SHIFT ) % NUM_SEGMENTS;
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if( reset ) segment = ( NUM_SEGMENTS - CLOCK_SHIFT ) % NUM_SEGMENTS;
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#else
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static int segment = NUM_SEGMENTS - 1 - CLOCK_SHIFT;
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if( reset ) segment = NUM_SEGMENTS - 1 - CLOCK_SHIFT;
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#endif
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// reset the text renderer
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TextRenderer::reset_buffer();
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// frame reset
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if( reset ) {
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switch( _major_mode ) {
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case MAIN_MODE_IDX:
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switch( _minor_mode ) {
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case ANALOGUE_CLOCK_IDX: analogue_clock_draw_reset(); break;
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case DIGITAL_CLOCK_IDX: digital_clock_draw_reset(); break;
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}
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break;
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case SETTINGS_MODE_IDX: settings_mode_draw_reset(); break;
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}
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// tell the text services we're starting a new frame
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Text::draw_reset();
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}
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// draw
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switch( _major_mode ) {
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case MAIN_MODE_IDX:
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switch( _minor_mode ) {
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case ANALOGUE_CLOCK_IDX: analogue_clock_draw( segment ); break;
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case DIGITAL_CLOCK_IDX: digital_clock_draw( segment ); break;
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case TEST_PATTERN_IDX: test_pattern_draw( segment ); break;
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}
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break;
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case SETTINGS_MODE_IDX: settings_mode_draw( segment ); break;
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}
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// draw any text that was rendered
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TextRenderer::output_buffer();
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#if CLOCK_FORWARD
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if( ++segment >= NUM_SEGMENTS ) segment = 0;
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#else
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if( --segment < 0 ) segment = NUM_SEGMENTS - 1;
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#endif
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}
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// calculate time constants when a new pulse has occurred
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void calculate_segment_times()
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{
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// check for overflows, and only recalculate times if there isn't
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// one (if there is, we'll just go with the last pulse's times)
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if( _new_pulse_at > _last_pulse_at )
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{
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// new segment stepping times
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unsigned long delta = _new_pulse_at - _last_pulse_at;
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_segment_step = delta / NUM_SEGMENTS;
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_segment_step_sub = 0;
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_segment_step_sub_step = delta % NUM_SEGMENTS;
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}
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// now we have dealt with this pulse, save the pulse time and
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// clear new_pulse_at, ready for the next pulse
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_last_pulse_at = _new_pulse_at;
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_new_pulse_at = 0;
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}
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// wait until it is time to draw the next segment or a new pulse has
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// occurred
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void wait_till_end_of_segment( bool reset )
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{
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static unsigned long end_time = 0;
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// handle reset
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if( reset )
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end_time = _last_pulse_at;
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// work out the time that this segment should be displayed until
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end_time += _segment_step;
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_segment_step_sub += _segment_step_sub_step;
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if( _segment_step_sub >= NUM_SEGMENTS ) {
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_segment_step_sub -= NUM_SEGMENTS;
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end_time++;
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}
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// wait
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while( micros() < end_time && !_new_pulse_at );
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}
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// ISR to handle the pulses from the fan's tachiometer
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void fan_pulse_handler()
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{
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// the fan actually sends two pulses per revolution. These pulses
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// may not be exactly evenly distributed around the rotation, so
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// we can't recalculate times on every pulse. Instead, we ignore
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// every other pulse so timings are based on a complete rotation.
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static bool ignore = true;
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ignore = !ignore;
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if( !ignore )
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{
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// set a new pulse time
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_new_pulse_at = micros();
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}
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}
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// main setup
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void setup()
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{
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// set up an interrupt handler on pin 2 to nitice fan pulses
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attachInterrupt( 0, fan_pulse_handler, RISING );
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digitalWrite( 2, HIGH );
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// set up output pins (4 to 13) for the led array
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for( int a = 4; a < 14; a++ )
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pinMode( a, OUTPUT );
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// set up mode-switch button on pin 3
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pinMode( 3, INPUT );
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digitalWrite( 3, HIGH );
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static int event_times[] = { 5, 500, 4000, 0 };
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_button.set_event_times( event_times );
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// initialise RTC
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Time::init();
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// activate the minor mode
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activate_major_mode();
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}
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// main loop
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void loop()
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{
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// if there has been a new pulse, we'll be resetting the display
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bool reset = _new_pulse_at? true : false;
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// update button
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_button.update();
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// only do this stuff at the start of a display cycle, to ensure
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// that no state changes mid-display
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if( reset )
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{
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// calculate segment times
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calculate_segment_times();
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// keep track of time
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Time::update();
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// perform button events
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do_button_events();
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}
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// draw this segment
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draw_next_segment( reset );
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// wait till it's time to draw the next segment
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wait_till_end_of_segment( reset );
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}
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