# Check if the hands of an analog clock are positioned correctely

I'm creating an analog clock input method that users can use to pick a time. Users can click on the inner circle to set the short hand (hour) and can click on the outer circle to set the long hand (minute).

The problem is that users are free to click any point on the clock and therefor can pick an invalid position of the hands. Is there any way (algoritm) to detect this?

{
var handLong = [10, 20, 30, 40, 50, 60, 70, 80];
var handShort = [10, 20, 30, 40, 50];

injectHands('clock', handShort, handLong);

{
var x = correctX(e.page.x - e.target.getPosition().x, true);
var y = correctY(e.page.y - e.target.getPosition().y, true);

var angle = calculateAngle(x, y);

// grote wijzer positioneren
if (insideOuter(x, y))
{
moveHand(handLong, 'Long', angle);
}
// kleine wijzer positioneren
else if (insideInner(x, y))
{
moveHand(handShort, 'Short', angle);
}
});
});

// Valt punt (x, y) binnen een cirkel met middenpunt (x, y) en radius r
function insideCircle(pointX, pointY, circleX, circleY, radius)
{
dX = pointX - circleX;
dY = pointY - circleY;

return ((dX * dX) + (dY * dY)) <= (radius * radius);
}

// Valt punt (x, y) (enkel) binnen de buitenste cirkel (grote wijzer)
function insideOuter(pointX, pointY)
{
return !insideInner(pointX, pointY) && insideCircle(pointX, pointY, 0, 0, 100);
}

// Valt punt (x, y) (enkel) binnen de binnenste cirkel (grote wijzer)
function insideInner(pointX, pointY)
{
return insideCircle(pointX, pointY, 0, 0, 50);
}

// corrigeer x as (100 => 0) (0 => 100)
function correctX(x, nn)
{
if (nn)
{
return x - 100;
}
return x + 100;
}

// corrigeer y as (100 => 0) (0 => 100)
function correctY(y, nn)
{
if (nn)
{
return -y + 100;
}
return Math.abs(y - 100);
}

function calculateAngle(x, y)
{
if ((x >= 0) && (y >= 0))
{
return Math.atan(x / y) * (180 / Math.PI);
}
else if (((x >= 0) && (y < 0)) || ((x < 0) && (y < 0)))
{
return 180 + Math.atan(x / y) * (180 / Math.PI);
}
else if ((x < 0) && (y >= 0))
{
return 360 - Math.abs(Math.atan(x / y) * (180/ Math.PI));
}
}

function roundAngleByMinute(angle)
{
}

function calculateX(angle, hypotenuse)
{
return Math.sin((Math.PI / 180) * angle) * hypotenuse;
}

function calculateY(angle, hypotenuse)
{
return Math.cos((Math.PI / 180) * angle) * hypotenuse;
}

function injectHands(div, handShort, handLong)
{
for (var i = 0; i < handShort.length; i++)
{
\$(div).grab(new Element('img', {src: 'images/red_8x8.png', class: 'hands handShort', id: 'handShort-' + handShort[i]}));
}
for (var i = 0; i < handLong.length; i++)
{
\$(div).grab(new Element('img', {src: 'images/blue_8x8.png', class: 'hands handLong', id: 'handLong-' + handLong[i]}));
}

\$(div).grab(new Element('img', {src: 'images/black_8x8.png', class: 'hands', id: 'hand-center'}));

\$\$('img.hands').hide();
\$('hand-center').show();
}

function moveHand(hand, whichHand, angle)
{
for (var i = 0; i < hand.length; i++)
{
var hypotenuse = hand[i];
var x = calculateX(angle, hypotenuse) - 5;
var y = calculateY(angle, hypotenuse) + 5;
var left = correctX(x);
var top = correctY(y);

\$('hand' + whichHand + '-' + hypotenuse).set('styles', {'left': left + 'px', 'top': top + 'px'});
}
\$\$('img.hand' + whichHand).show();
}
-
Do you have some example code? – pimvdb Mar 2 '11 at 15:59
I added some code – tersmitten Mar 2 '11 at 16:12
Ooh, I've wanted one of these for a while. – Lightness Races in Orbit Mar 2 '11 at 16:37
please don't use Comic Sans bbc.co.uk/news/magazine-11582548 – Jason S Mar 3 '11 at 13:18

When you set the hour hand, you can figure out the minute hand. trigonometry to the rescue! When you set the minute hand, assume the minute hand forwards to the selected position and adjust hour hand accordingly.

The minute hand shows a function of the hour hands angle, much like the modulo operator works...

The other way round works too: Given a minute hand angle, there are only twelve possible hour hand angles. Just choose the one closest to the current hour hand angle...

-
"The minute hand shows a function of the hour hands angle". Can you describe it for me? – tersmitten Mar 2 '11 at 16:42
@tersmitten: To get the minute hand's angle multiply the hour hand's angle by 12, then take that number modulo the circle. So, for instance, if the hour hand is at 57 degrees (shortly before 2 o'clock), then the minute hand is at <code>(57 * 12) % 360 = 324 degrees (which is 54 minutes). – btilly Mar 2 '11 at 22:17

Just round the position of the hour hand to the nearest hour and add the corresponding offset for the current minute hand position?

-
I don't completely follow :-( What do you mean by: "add the corresponding offset for the current minute hand position" – tersmitten Mar 2 '11 at 15:57
And what if it's 16:30. Then the hour hand is half way between 4 and 5? – tersmitten Mar 2 '11 at 15:58
Yeah.. pretty much.. you could also make the influence vice versa. When dragging the hour hand, move the minute hand according to the sub-hour position or the hour hand, when dragging the minute hand, move the hour hand a little to the corresponding sub-hour position. – fforw Mar 2 '11 at 16:13