# Querying for a specific point along a UIBezierCurve for animation?

I have recently finished writing a script for Maya that exports a file containing data for a Bezier path (a series of xy points and xy control points).

This bezier path is meant to represent the 3D "rail" or path that my character will travel along at a constant speed inside of the app.

I understand how to construct a UIBezierCurve, but I cant seem to find any solid information on if its possible / how to get the x / y position of a point on the curve, given a distance to travel along the curve.

I found this list on apple:

http://lists.apple.com/archives/cocoa-dev/2002/Feb/msg01806.html

But I dont quite understand what that function is returning and how I would use it to accomplish what Im aiming for.

Any help / advice would be greatly appreciated,

-

What the link you cite is alluding to is that each segment of a bezier curve traces out a path (x(t), y(t)), where t goes from 0 to 1.

I'm not familiar with `UIBezierCurve`, but I would bet you can get an `NSBezierPath` from it, and from there you can iterate through the segments manually. Each segment is either a moveTo, lineTo, curveTo, or close (equivalent to a lineTo that last moveTo location). The only nontrivial path type is curveTo, which you can read more about here:

http://en.wikipedia.org/wiki/B%C3%A9zier_curve#Cubic_B.C3.A9zier_curves

If you just wanted to animate moving along the curve giving each segment a fixed amount of time, it would be simple; you could just iterate through the segments and within each one, run t gradually from 0 to 1 and plug into the equation.

The tricky bit is going to be moving at a constant speed. For that, you need to actually measure the length of each segment and split that length into parts for each frame. You can read more about that in this question:

Equidistant points across Bezier curves

I haven't worked with Cocoa in a while, but I have some code here in Java that you can probably port fairly easily (it's all just math, which is the same in any language):

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NSBezierPath is part of AppKit and therefore not available in Cocoa Touch. Did you mean CGPath? –  Peter Hosey Jan 17 '12 at 3:32
Yes, it looks like in UIKit you would have to use `CGPath` and the only way to iterate through it is with a callback and from `CGPathApply`. Sorry about that; my Cocoa experience is from years ago on the desktop. –  Russell Zahniser Jan 17 '12 at 12:40
Thanks. After a lot of experimenting and reading I think I have finally come up with both a MEL script for maya that exports an entire bezier curve to a text file and a custom class for Objective C++ that can read in the file and return an x/y position on the bezier path based on a distance. Ill wrap everything up and post my findings here either tonight or tomorrow. –  Adam Eisfeld Jan 18 '12 at 5:51

Alright so this'll be a long answer. Here's what Ive done:

1. Ive programmed a MEL script that allows you to draw a bezier curve within Maya and then - selecting that curve - run my script which will go through the curve analyzing each bezier section of the curve calculating the length of each section and the positions of the curve points / control points. Once it has all of this data calculated, it exports everything to a .bezier file that is structured like this:

Line 1: Number of individual bezier curves contained in the entire bezier path Line 2: Length of first bezier curve ... Line X: Length of last bezier curve

X Position of the first control point of the first curve point Y Position of the first control point of the first curve point Z Position of the first control point of the first curve point

X Position of the first curve point Y Position of the first curve point Z Position of the first curve point

X Position of the second control point of the first curve point Y Position of the second control point of the first curve point Z Position of the second control point of the first curve point

...

X Position of the first control point of the last curve point Y Position of the first control point of the last curve point Z Position of the first control point of the last curve point

X Position of the last curve point Y Position of the last curve point Z Position of the last curve point

X Position of the second control point of the last curve point Y Position of the second control point of the last curve point Z Position of the second control point of the last curve point

So for this set of classes to work you'll need a file structured like that.

Here are the three classes Ive then programmed to handle .bezier files:

AEBezierPath:

.h file:

``````#import <Foundation/Foundation.h>
#import "AEBezierVertex.h"
#import "AEBezierLine.h"

@interface AEBezierPath : NSObject
{
NSMutableArray *vertices;
NSMutableArray *lines;
UIBezierPath *path;
}

@property (strong) NSMutableArray *vertices;
@property (strong) NSMutableArray *lines;
@property (strong) UIBezierPath *path;

-(id) initFromFile: (NSString*) file;
-(CGPoint) positionFromDistance: (float) fromDistance;

@end
``````

.m file:

``````#import "AEBezierPath.h"

CGFloat bezierInterpolation(CGFloat t, CGFloat a, CGFloat b, CGFloat c, CGFloat d) {
// see also below for another way to do this, that follows the 'coefficients'
// idea, and is a little clearer
CGFloat t2 = t * t;
CGFloat t3 = t2 * t;
return a + (-a * 3 + t * (3 * a - a * t)) * t
+ (3 * b + t * (-6 * b + b * 3 * t)) * t
+ (c * 3 - c * 3 * t) * t2
+ d * t3;
}

@implementation AEBezierPath
@synthesize vertices;
@synthesize lines;
@synthesize path;

-(id) initFromFile: (NSString*) file
{
self = [super init];
if (self) {

NSError *fileError;
NSStringEncoding *encoding;

vertices = [[NSMutableArray alloc] init];
lines = [[NSMutableArray alloc] init];
path = [[UIBezierPath alloc] init];

//Load the specified file's contents into an NSString
NSString *fileData = [[NSString alloc] initWithContentsOfFile:[[NSBundle mainBundle] pathForResource:@"testcurve" ofType:@"bezier"] usedEncoding:&encoding error:&fileError];
NSScanner *scanner = [[NSScanner alloc] initWithString:fileData];

if(fileData == nil)
{
}
else
{
float x;
float y;
float cx;
float cy;
float cx2;
float cy2;
float temp;

int totalSegments = 0;
float length;

[scanner scanInt:&totalSegments];

for (int s = 0; s < totalSegments; s++) {
[scanner scanFloat:&length];
AEBezierLine *newLine = [[AEBezierLine alloc] initWithLength:length];

}

AEBezierVertex *vertex;

while ([scanner isAtEnd] == 0) {

[scanner scanFloat:&x];
[scanner scanFloat:&temp];
[scanner scanFloat:&y];

[scanner scanFloat:&cx2];
[scanner scanFloat:&temp];
[scanner scanFloat:&cy2];

cx = x;
cy = y;
}

else{

[scanner scanFloat:&cx];
[scanner scanFloat:&temp];
[scanner scanFloat:&cy];

[scanner scanFloat:&x];
[scanner scanFloat:&temp];
[scanner scanFloat:&y];

if ([scanner isAtEnd] == 0) {
[scanner scanFloat:&cx2];
[scanner scanFloat:&temp];
[scanner scanFloat:&cy2];
}else
{
cx = x;
cy = y;
}
}

}

for (int c = 0; c < [vertices count]-1; c++) {

//Init CGPoints for single bezier curve segment
CGPoint p1, p2, p3, p4;

//Store starting bezier point and control point
AEBezierVertex *b1 = [vertices objectAtIndex:c];
p1 = b1.control;
p2 = b1.controlOut;

//Store ending bezier point and control point
AEBezierVertex *b2 = [vertices objectAtIndex:c+1];
p3 = b2.controlIn;
p4 = b2.control;

if (c == 0) {
[path moveToPoint:p1];
}
else
{
}
}
}
}
return self;
}

-(CGPoint) positionFromDistance: (float) fromDistance
{
CGPoint position;

AEBezierLine *line;
float runningLength;
int seg = 0;

for (int c = 0; c < [lines count]; c++) {
seg = c;
line = [lines objectAtIndex:c];
runningLength += line.length;
if (runningLength > fromDistance) {
break;
}
}

CGPoint p1, p2, p3, p4;

AEBezierVertex *vert1 = [vertices objectAtIndex:seg];
p1 = vert1.control;
p2 = vert1.controlOut;

//Store ending bezier point and control point
AEBezierVertex *vert2 = [vertices objectAtIndex:seg+1];
p3 = vert2.controlIn;
p4 = vert2.control;

float travelDist;
travelDist = fromDistance;

travelDist = runningLength - travelDist;
travelDist = line.length - travelDist;

float t = travelDist / line.length;

//Create a new point to represent this position
position = CGPointMake(bezierInterpolation(t, p1.x, p2.x, p3.x, p4.x),
bezierInterpolation(t, p1.y, p2.y, p3.y, p4.y));

return position;
}

@end
``````

AEBezierVertex:

.h file:

``````#import <Foundation/Foundation.h>

@interface AEBezierVertex : NSObject
{
CGPoint controlIn;
CGPoint controlOut;
CGPoint control;
}
@property CGPoint controlIn;
@property CGPoint controlOut;
@property CGPoint control;

-(id) initWithControl: (CGPoint) setControl In: (CGPoint) setIn Out: (CGPoint) setOut;

@end
``````

.m file:

``````#import "AEBezierVertex.h"

@implementation AEBezierVertex
@synthesize controlIn;
@synthesize controlOut;
@synthesize control;

-(id) initWithControl: (CGPoint) setControl In: (CGPoint) setIn Out: (CGPoint) setOut
{
self = [super init];
if (self) {
//Init
control = setControl;
controlIn = setIn;
controlOut = setOut;
}
return self;
}

@end
``````

AEBezierLine:

.h file:

``````#import <Foundation/Foundation.h>

@interface AEBezierLine : NSObject
{
float length;
}
@property float length;

-(id) initWithLength: (float) setLength;

@end
``````

.m file:

``````#import "AEBezierLine.h"

@implementation AEBezierLine
@synthesize length;

-(id) initWithLength: (float) setLength
{
self = [super init];
if (self) {
//Init
length = setLength;
}
return self;
}

@end
``````

How It Works:

1. Ensure you have created a .bezier file suiting the structure I've shown above and have it in your app's bundle.

2. Instantiate a new AEBezierPath instance via:

-(id) initFromFile: (NSString*) file;

This will read in all of the data from the .bezier file named *file and construct a UIBezierPath from it, as well as store the necessary length information into the AEBezierPath.

1. Query the AEBezierPath for an x/y position in the form of a CGPoint, by sending it a distance value to travel from the start of the path, using the method:

-(CGPoint) positionFromDistance: (float) fromDistance;

This method will first determine which bezier segment that distance lies on by using the lengths of each bezier segment previously retrieved from the .bezier file. After this the method will use the bezierInterpolation function mentioned in the previous posts on this SO Question to calculate the x/y position on the bezier path at this distance, and return it as a CGPoint.

Its not perfect, there still is some noticeable differences in the distance traveled over long bezier curves vs short tight corners, but it is certainly far less noticeable than not using this system at all and instead relying on a percentage value to travel along the bezier curve.

I know the code can certainly be optimized, this is just a first run through to get everything working, but I think its good enough to post as an answer for now.