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I need to draw line with arrow on its end in my Draw app. I'm not good in trigonometry, so can't solve this problem.

The user put his finger on the screen and draw the line in any direction. So, the arrow should appear on the line end.

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3 Answers 3

This is a fun little problem. First of all, there are lots of ways to draw arrows, with curved or straight sides. Let's pick a very simple way and label the measurements we'll need:

arrow parts

We want to write a function that takes the start point, the end point, the tail width, the head width, and the head length, and returns a path outlining the arrow shape. Let's create a category named dqd_arrowhead to add this method to UIBezierPath:

// UIBezierPath+dqd_arrowhead.h

@interface UIBezierPath (dqd_arrowhead)

+ (UIBezierPath *)dqd_bezierPathWithArrowFromPoint:(CGPoint)startPoint


Since there are seven corners on the path of the arrow, let's start our implementation by naming that constant:

// UIBezierPath+dqd_arrowhead.m

#import "UIBezierPath+dqd_arrowhead.h"

#define kArrowPointCount 7

@implementation UIBezierPath (dqd_arrowhead)

+ (UIBezierPath *)dqd_bezierPathWithArrowFromPoint:(CGPoint)startPoint
                                        headLength:(CGFloat)headLength {

OK, the easy part is done. Now, how do we find the coordinates of those seven points on the path? It is much easier to find the points if the arrow is aligned along the X axis:

axis-aligned arrow points

It's pretty easy to compute the point coordinates on an axis-aligned arrow, but we'll need the overall length of the arrow to do it. We'll use the hypotf function from the standard library:

    CGFloat length = hypotf(endPoint.x - startPoint.x, endPoint.y - startPoint.y);

We'll call on a helper method to actually compute the seven points:

    CGPoint points[kArrowPointCount];
    [self dqd_getAxisAlignedArrowPoints:points

But we need to transform those points, because in general we're not trying to create an axis-aligned arrow. Fortunately, Core Graphics supports a kind of transformation called an affine transformation, which lets us rotate and translate (slide) points. We'll call another helper method to create the transform that turns our axis-aligned arrow into the arrow we were asked for:

    CGAffineTransform transform = [self dqd_transformForStartPoint:startPoint

Now we can create a Core Graphics path using the points of the axis-aligned arrow and the transform that turns it into the arrow we want:

    CGMutablePathRef cgPath = CGPathCreateMutable();
    CGPathAddLines(cgPath, &transform, points, sizeof points / sizeof *points);

Finally, we can wrap a UIBezierPath around the CGPath and return it:

    UIBezierPath *uiPath = [UIBezierPath bezierPathWithCGPath:cgPath];
    return uiPath;

Here's the helper method that computes the point coordinates. It's quite simple. Refer back to the diagram of the axis-aligned arrow if you need to.

+ (void)dqd_getAxisAlignedArrowPoints:(CGPoint[kArrowPointCount])points
                           headLength:(CGFloat)headLength {
    CGFloat tailLength = length - headLength;
    points[0] = CGPointMake(0, tailWidth / 2);
    points[1] = CGPointMake(tailLength, tailWidth / 2);
    points[2] = CGPointMake(tailLength, headWidth / 2);
    points[3] = CGPointMake(length, 0);
    points[4] = CGPointMake(tailLength, -headWidth / 2);
    points[5] = CGPointMake(tailLength, -tailWidth / 2);
    points[6] = CGPointMake(0, -tailWidth / 2);

Computing the affine transform is more complicated. This is where the trigonometry comes in. You could use atan2 and the CGAffineTransformRotate and CGAffineTransformTranslate functions to create it, but if you remember enough trigonometry, you can create it directly. Consult “The Math Behind the Matrices” in the Quartz 2D Programming Guide for more information about what I'm doing here:

+ (CGAffineTransform)dqd_transformForStartPoint:(CGPoint)startPoint
                                         length:(CGFloat)length {
    CGFloat cosine = (endPoint.x - startPoint.x) / length;
    CGFloat sine = (endPoint.y - startPoint.y) / length;
    return (CGAffineTransform){ cosine, sine, -sine, cosine, startPoint.x, startPoint.y };


I have put all of the code in a gist for easy copy'n'paste.

With this category, you can easily draw arrows:

sample arrow 1 sample arrow 2

Since you're just generating a path, you can choose not to fill it, or not to stroke it as in this example:

unstroked arrow sample

You have to be careful, though. This code doesn't prevent you from getting funky results if you make the head width less than the tail width, or if you make the head length larger than the total arrow length:

narrow head sample head too long sample

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Rob, you are such a saint to this poor fellow. ;) –  sudo rm -rf Nov 26 '12 at 6:05
Thank you very much! :) Done it! )) Cool! –  Sasha Prent Nov 28 '12 at 8:08
@SashaPrent If I've answered your question, please click the check mark next to (the top of) my answer. Thanks. –  rob mayoff Nov 28 '12 at 8:13
really very powerful and Rob ..,i must say you are a master of onjective c funcitions as well as of maths –  Rakesh Feb 12 '13 at 8:54
Good answer. @SashaPrent, start to accept answer. –  Tirth Apr 10 '13 at 6:56
//This is the integration into the view of the previous exemple
//Attach the following class to your view in the xib file

#import <UIKit/UIKit.h>

@interface Arrow : UIView


#import "Arrow.h"
#import "UIBezierPath+dqd_arrowhead.h"

@implementation Arrow
    CGPoint startPoint;
    CGPoint endPoint;
    CGFloat tailWidth;
    CGFloat headWidth;
    CGFloat headLength;
    UIBezierPath *path;


- (id)initWithCoder:(NSCoder *)aDecoder
    if (self = [super initWithCoder:aDecoder])
        [self setMultipleTouchEnabled:NO];
        [self setBackgroundColor:[UIColor whiteColor]];

    return self;

- (void)drawRect:(CGRect)rect {

    [[UIColor redColor] setStroke];
    tailWidth = 4;
    headWidth = 8;
    headLength = 8;
    path = [UIBezierPath dqd_bezierPathWithArrowFromPoint:(CGPoint)startPoint
    [path setLineWidth:2.0];

    [path stroke];

- (void) touchesBegan:(NSSet*)touches withEvent:(UIEvent*)event
    UITouch* touchPoint = [touches anyObject];
    startPoint = [touchPoint locationInView:self];
    endPoint = [touchPoint locationInView:self];

    [self setNeedsDisplay];

-(void)touchesEnded:(NSSet *)touches withEvent:(UIEvent *)event
    UITouch* touch = [touches anyObject];
    endPoint=[touch locationInView:self];
    [self setNeedsDisplay];

-(void)touchesMoved:(NSSet *)touches withEvent:(UIEvent *)event
    UITouch* touch = [touches anyObject];
    endPoint = [touch locationInView:self];
    [self setNeedsDisplay];

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thanks buddy, you really helped me! –  AmiiQo Sep 25 '13 at 9:30
It might be more efficient to use a CAShapeLayer instead of implementing drawRect:. –  rob mayoff Jan 18 '14 at 9:42
what a beautifully detailed, thorough, elegant explanation. There is genuine care radiating from the whole thing. Thank you. –  johnrubythecat Oct 22 '14 at 2:11

The only way is to draw the arrows "by hands", I mean by code because Core Graphics generally has no idea about "arrows".

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I tried to calculate vectors and coordinates of side lines and draw small lines from lastPoint of middleLine. –  Sasha Prent Nov 23 '12 at 12:33
Wait, don't you use CoreGraphics? –  eagle.dan.1349 Nov 24 '12 at 8:14
Yes, i use CoreGraphics! Help, anyone, please! –  Sasha Prent Nov 24 '12 at 11:57

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