/elec/propeller-clock : revision 14

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Committer: edam
Date: 2011-11-17 13:06:43 UTC
Revision ID: edam@waxworlds.org-20111117130643-0azy70bj8ueoq8cn

moved GPL to top-level dir

files added:
COPYING

propeller-clock.sch

files removed:
.bzrignore

arduino.mk

pcb.psd

project

project/propeller-clock.pro

project/propeller-clock.sch

src/analogue_clock_mode.cc

src/analogue_clock_mode.h

src/button.cc

src/button.h

src/config.h

src/digital_clock_mode.cc

src/digital_clock_mode.h

src/display.cc

src/display.h

src/drawer.cc

src/drawer.h

src/major_mode.h

src/minor_mode.cc

src/minor_mode.h

src/mode_base.h

src/switcher_major_mode.cc

src/switcher_major_mode.h

src/test_mode.cc

src/test_mode.h

src/text.cc

src/text.h

src/text_renderer.cc

src/text_renderer.h

src/time.cc

src/time.h

src/util

src/util/DS1307.cpp

src/util/DS1307.h

src/util/PString.cpp

src/util/PString.h

test/fan-test

test/fan-test/Makefile

test/led-test

test/led-test/Makefile

test/led-test/led-test.ino

test/phantom-button-presses

test/phantom-button-presses/Makefile

test/phantom-button-presses/main.ino

files renamed:
src/Makefile => Makefile

notes => Notes

test/ => fan-test/

test/fan-test/fan-test.ino => fan-test/fan-test.pde

src/ => propeller-clock/

src/propeller-clock.ino => propeller-clock/propeller-clock.pde

files modified:
electronics-information

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added added

removed removed

propeller-clock/propeller-clock.pde

/* -*- mode: c++; compile-command: "BOARD=pro5v make"; -*- */

* propeller-clock.ino

* propeller-clock.pde

* This file is part of propeller-clock (hereafter referred to as "this

* program"). See http://ed.am/dev/software/arduino/propeller-clock for more

* program"). See http://ed.am/software/arduino/propeller-clock for more

* information.

* This program is free software: you can redistribute it and/or modify

* along with this program. If not, see <http://www.gnu.org/licenses/>.

/******************************************************************************

Set up:

* a PC fan is wired up to a 12V power supply

* the fan's SENSE (tachiometer) pin connected to pin 2 on the

arduino.

* the pins 4 to 13 on the arduino should directly drive an LED (the

LED on pin 4 is in the centre of the clock face and the LED on pin

13 is at the outside.

* if a longer hand (and a larger clock face) is desired, pin 4 can be

used to indirectly drive a transistor which in turn drives several

LEDs that turn on anf off in unison in the centre of the clock.

* a button should be attached to pin 3 that grounds it when pressed.

* A DS1307 remote clock is connected via I2C on analog pins 4 and 5.

Implementation details:

* for a schematic, see ../project/propeller-clock.sch.

* the timing of the drawing of the clock face is recalculated with

every rotation of the propeller.

* a PC fan actually sends 2 tachiometer pulses per revolution, so the

software skips every other one. This means that the clock may

appear upside-down if started with the propeller in the wrong

position. You will need to experiment to dicsover the position that

the propeller must be in when starting the clock.

Usage instructions:

* pressing the button cycles between variations of the current

display mode.

* pressing and holding the button for a second cycles between display

modes (e.g., analogue and digital).

* pressing and holding the button for 5 seconds enters "time set"

mode. In this mode, the following applies:

- the field that is being set flashes

- pressing the button increments the field currently being set

- pressing and holding the button for a second cycles through the

fields that can be set

- pressing and holding the button for 5 seconds sets the time and

exits "time set" mode

******************************************************************************/

#include "config.h"

#include "display.h"

#include "button.h"

#include "time.h"

#include "switcher_major_mode.h"

#include "drawer.h"

//_____________________________________________________________________________

// data

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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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// major mode

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static int major_mode = 0;

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#define MAX_MAJOR_MODES 5

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// major modes

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static MajorMode *major_modes[ MAX_MAJOR_MODES ] = { 0 };

// display mode

static

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//_____________________________________________________________________________

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// code

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// perform button events

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void doButtonEvents()

// ISR to handle the pulses from the fan's tachiometer

void fanPulseHandler()

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{

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// loop through pending events

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while( int event = button.get_event() )

// the fan actually sends two pulses per revolution. These pulses

// may not be exactly evenly distributed around the rotation, so

// we can't recalculate times on every pulse. Instead, we ignore

// every other pulse so timings are based on a complete rotation.

static bool ignore = true;

ignore = !ignore;

if( !ignore )

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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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major_modes[ major_mode ]->press();

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break;

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case 2:

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// long press

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major_modes[ major_mode ]->long_press();

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break;

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case 3:

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// looooong press (change major mode)

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do {

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if( ++major_mode >= MAX_MAJOR_MODES )

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major_mode = 0;

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} while( major_modes[ major_mode ] == NULL );

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major_modes[ major_mode ]->activate();

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break;

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}

// set a new pulse time

new_pulse_at = micros();

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}

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}

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// draw a display segment

// draw a particular segment

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void drawNextSegment( 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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// draw

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Drawer &drawer = major_modes[ major_mode ]->get_drawer();

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if( reset ) drawer.draw_reset();

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drawer.draw( segment );

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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

static unsigned int segment = 0;

if( reset ) segment = 0;

segment++;

for( int a = 0; a < 10; a++ )

digitalWrite( a + 4, ( ( segment >> a ) & 1 )? HIGH : LOW );

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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 waitTillEndOfSegment( bool reset )

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void waitTillNextSegment( bool reset )

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{

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static unsigned long end_time = 0;

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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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semgment_step_sub += semgment_step_sub_step;

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if( semgment_step_sub >= NUM_SEGMENTS ) {

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semgment_step_sub -= NUM_SEGMENTS;

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end_time++;

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}

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121

}

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122

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// ISR to handle the pulses from the fan's tachiometer

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void fanPulseHandler()

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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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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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// set up major modes

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static SwitcherMajorMode switcher_major_mode;

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int mode = 0;

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major_modes[ mode++ ] = &switcher_major_mode;

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major_modes[ 0 ]->activate();

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// serial comms

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Serial.begin( 9600 );

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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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calculateSegmentTimes();

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// keep track of time

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Time &time = Time::get_instance();

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time.update();

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// perform button events

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doButtonEvents();

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}

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// draw this segment

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drawNextSegment( reset );

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// do we need to recalculate segment times?

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if( reset )

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calculateSegmentTimes();

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// wait till it's time to draw the next segment

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waitTillEndOfSegment( reset );

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waitTillNextSegment( reset );

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}