WechatIMG2.png

项目已接入高德地图，并且大部分功能已经实现好，但BOSS觉得iOS自带的地图效果更好。。。本着面向老板编程的思想，换之。还好，高德地图是在MapKit上封装的，大部分api只要将前缀MA->MK即可，但有一个问题麻烦了，就是处理轨迹的渐变，Mapkit没有相应的方法，高德又不是开源的，而且国内的网站上基本搜不到解决方案，所以在这里把自己的思路和在国外论坛上找到的解决方法分享出来，让其他做运动的同行节省点时间。

如何在iPhone上绘制mapView就不说了，在mapView上绘制轨迹要添加MKPolyline，调用[self.mapView addOverlay:self.polyLine]；但这个MKPolyline的构造方法中只接受和坐标相关的值，而轨迹渐变自然要通过速度控制，但传不进去，所以只能重写一个实现<MKOverlay>协议的类。下面就是我找到的，拿去可以直接用：

GradientPolylineOverlay.h实现

#import <Foundation/Foundation.h>

#import <MapKit/MapKit.h>

@interface GradientPolylineOverlay : NSObject <MKOverlay>{

    MKMapPoint *points;

    NSUInteger pointCount;

    NSUInteger pointSpace;

    MKMapRect boundingMapRect;

    pthread_rwlock_t rwLock;

}

//Initialize the overlay with the starting coordinate.

//The overlay's boundingMapRect will be set to a sufficiently large square

//centered on the starting coordinate.

-(id) initWithCenterCoordinate:(CLLocationCoordinate2D)coord;

-(id) initWithPoints:(CLLocationCoordinate2D*)_points velocity:(float*)_velocity count:(NSUInteger)_count;

//Add a location observation. A MKMapRect containing the newly added point

//and the previously added point is returned so that the view can be updated

//int that rectangle. If the added coordinate has not moved far enough from

//the previously added coordinate it will not be added to the list and

//MKMapRectNULL will be returned.

//

-(MKMapRect)addCoordinate:(CLLocationCoordinate2D)coord;

-(void) lockForReading;

//The following properties must only be accessed when holding the read lock

// via lockForReading. Once you're done accessing the points, release the

// read lock with unlockForReading.

//

@property (assign) MKMapPoint *points;

@property (readonly) NSUInteger pointCount;

@property (assign) float *velocity;

-(void) unlockForReading;

@end

GradientPolylineOverlay.m

#import "GradientPolylineOverlay.h"

#import <pthread.h>

#define INITIAL_POINT_SPACE 1000

#define MINIMUM_DELTA_METERS 10.0

@implementation GradientPolylineOverlay{

}

@synthesize points, pointCount, velocity;

-(id) initWithCenterCoordinate:(CLLocationCoordinate2D)coord{

    self = [super init];

    if (self){

        //initialize point storage and place this first coordinate in it

        pointSpace = INITIAL_POINT_SPACE;

        points = malloc(sizeof(MKMapPoint)*pointSpace);

        points[0] = MKMapPointForCoordinate(coord);

        pointCount = 1;

        //bite off up to 1/4 of the world to draw into

        MKMapPoint origin = points[0];

        origin.x -= MKMapSizeWorld.width/8.0;

        origin.y -= MKMapSizeWorld.height/8.0;

        MKMapSize size = MKMapSizeWorld;

        size.width /=4.0;

        size.height /=4.0;

        boundingMapRect = (MKMapRect) {origin, size};

        MKMapRect worldRect = MKMapRectMake(0, 0, MKMapSizeWorld.width, MKMapSizeWorld.height);

        boundingMapRect = MKMapRectIntersection(boundingMapRect, worldRect);

        // initialize read-write lock for drawing and updates

        pthread_rwlock_init(&rwLock,NULL);

    }

    return self;

}

-(id) initWithPoints:(CLLocationCoordinate2D*)_points velocity:(float *)_velocity count:(NSUInteger)_count{

    self = [super init];

    if (self){

        pointCount = _count;

        self.points = malloc(sizeof(MKMapPoint)*pointCount);

        for (int i=0; i<_count; i++){

            self.points[i] = MKMapPointForCoordinate(_points[i]);

        }

        self.velocity = malloc(sizeof(float)*pointCount);

        for (int i=0; i<_count;i++){

            self.velocity[i] = _velocity[i];

        }

        //bite off up to 1/4 of the world to draw into

        MKMapPoint origin = points[0];

        origin.x -= MKMapSizeWorld.width/8.0;

        origin.y -= MKMapSizeWorld.height/8.0;

        MKMapSize size = MKMapSizeWorld;

        size.width /=4.0;

        size.height /=4.0;

        boundingMapRect = (MKMapRect) {origin, size};

        MKMapRect worldRect = MKMapRectMake(0, 0, MKMapSizeWorld.width, MKMapSizeWorld.height);

        boundingMapRect = MKMapRectIntersection(boundingMapRect, worldRect);

        // initialize read-write lock for drawing and updates

        pthread_rwlock_init(&rwLock,NULL);

    }

    return self;

}

-(void)dealloc{

    free(points);

    free(velocity);

    pthread_rwlock_destroy(&rwLock);

}

//center

-(CLLocationCoordinate2D)coordinate{

    return MKCoordinateForMapPoint(points[0]);

}

-(MKMapRect)boundingMapRect{

    return boundingMapRect;

}

-(void) lockForReading{

    pthread_rwlock_rdlock(&rwLock);

}

-(void) unlockForReading{

    pthread_rwlock_unlock(&rwLock);

}

-(MKMapRect)addCoordinate:(CLLocationCoordinate2D)coord{

    //Acquire the write lock because we are going to changing the list of points

    pthread_rwlock_wrlock(&rwLock);

    //Convert a CLLocationCoordinate2D to an MKMapPoint

    MKMapPoint newPoint = MKMapPointForCoordinate(coord);

    MKMapPoint prevPoint = points[pointCount-1];

    //Get the distance between this new point and previous point

    CLLocationDistance metersApart = MKMetersBetweenMapPoints(newPoint, prevPoint);

    MKMapRect updateRect = MKMapRectNull;

    if (metersApart > MINIMUM_DELTA_METERS){

        //Grow the points array if necessary

        if (pointSpace == pointCount){

            pointSpace *= 2;

            points = realloc(points, sizeof(MKMapPoint) * pointSpace);

        }

        //Add the new point to points array

        points[pointCount] = newPoint;

        pointCount++;

        //Compute MKMapRect bounding prevPoint and newPoint

        double minX = MIN(newPoint.x,prevPoint.x);

        double minY = MIN(newPoint.y,prevPoint.y);

        double maxX = MAX(newPoint.x, prevPoint.x);

        double maxY = MAX(newPoint.y, prevPoint.y);

        updateRect = MKMapRectMake(minX, minY, maxX - minX, maxY - minY);

    }

    pthread_rwlock_unlock(&rwLock);

    return updateRect;

}

@end

下面是在mapview上添加PolyLine的方法：([self smoothTrack] 是我针对项目需求做速度平滑渐变的算法，可以忽略；我绘制轨迹的坐标数据结构是由精度、维度、速度构成的字典；最后添加的方法是调用mapview的分类中的方法，所以有级别，也是根我需求相关，可直接用[self.mapView addOverlay:self.polyline] 代替)

NSMutableArray *smoothTrackArray = [self smoothTrack];

    double count = smoothTrackArray.count;

    CLLocationCoordinate2D *points;

    float *velocity;

    points = malloc(sizeof(CLLocationCoordinate2D)*count);

    velocity = malloc(sizeof(float)*count);

    for(int i=0;i<count;i++){

        NSDictionary *dic = [smoothTrackArray objectAtIndex:i];

        CLLocationDegrees latitude  = [dic[@"latitude"] doubleValue];

        CLLocationDegrees longitude = [dic[@"longitude"] doubleValue];

        CLLocationCoordinate2D coordinate = CLLocationCoordinate2DMake(latitude, longitude);

        velocity[i] = [dic[@"speed"] doubleValue];

        points[i] = coordinate;

    }

    self.polyline = [[GradientPolylineOverlay alloc] initWithPoints:points velocity:velocity count:count];

    [self.mapView addOverlay:self.polyline level:1];

轨迹添加好了，还需要在渲染器上面呈现，会调用Mapkit相应的代理：(GradientPolylineRenderer 则是与之对应的渲染器)

#pragma mark -

#pragma mark - MKMap Delegate

- (MKOverlayRenderer *)mapView:(MKMapView *)mapView rendererForOverlay:(id <MKOverlay>)overlay{

    if([overlay isKindOfClass:[GradientPolylineOverlay class]]){

        //轨迹

        GradientPolylineRenderer *polylineRenderer = [[GradientPolylineRenderer alloc] initWithOverlay:overlay];

        polylineRenderer.lineWidth = 8.f;

        return polylineRenderer;

    }

    return nil;

}

GradientPolylineRenderer.h实现：

#import <MapKit/MapKit.h>

@interface GradientPolylineRenderer : MKOverlayPathRenderer

@end

GradientPolylineRenderer.m实现：(上面的几个宏定义，是速度的边界值，以及对应的颜色边界值；另外我这里会对hues[i]是否为0做判断，项目需求要区分暂停点和速度过快点，已防作弊，此种情况会用虚线代替，如果只绘制渐变实线，不用管这)

#import "GradientPolylineRenderer.h"

#import <pthread.h>

#import "GradientPolylineOverlay.h"

#import "Constant.h"

#define V_MAX 4.5

#define V_MIN 1.0

#define H_MAX 0.33

#define H_MIN 0.03

@implementation GradientPolylineRenderer{

    float* hues;

    pthread_rwlock_t rwLock;

    GradientPolylineOverlay* polyline;

}

- (id) initWithOverlay:(id<MKOverlay>)overlay{

    self = [super initWithOverlay:overlay];

    if (self){

        pthread_rwlock_init(&rwLock,NULL);

        polyline = ((GradientPolylineOverlay*)self.overlay);

        float *velocity = polyline.velocity;

        int count = (int)polyline.pointCount;

        [self velocity:velocity ToHue:&hues count:count];

        [self createPath];

    }

    return self;

}

/**

 *  Convert velocity to Hue using specific formular.

 *

 *  H(v) = Hmax, (v > Vmax)

 *       = Hmin + ((v-Vmin)*(Hmax-Hmin))/(Vmax-Vmin), (Vmin <= v <= Vmax)

 *       = Hmin, (v < Vmin)

 *

 *  @param velocity Velocity list.

 *  @param count    count of velocity list.

 *

 *  @return An array of hues mapping each velocity.

 */

- (void) velocity:(float*)velocity ToHue:(float**)_hue count:(int)count{

    *_hue = malloc(sizeof(float)*count);

    for (int i=0;i<count;i++){

        float curVelo = velocity[i];

//        //原有渐变公式

//        curVelo = ((curVelo < V_MIN) ? V_MIN : (curVelo  > V_MAX) ? V_MAX : curVelo);

//        (*_hue)[i] = H_MIN + ((curVelo-V_MIN)*(H_MAX-H_MIN))/(V_MAX-V_MIN);

        if(curVelo>0.){

            curVelo = ((curVelo < V_MIN) ? V_MIN : (curVelo  > V_MAX) ? V_MAX : curVelo);

            (*_hue)[i] = H_MIN + ((curVelo-V_MIN)*(H_MAX-H_MIN))/(V_MAX-V_MIN);

        }else{

            //暂停颜色

            (*_hue)[i] = 0.;

        }

    }

}

-(void) createPath{

    CGMutablePathRef path = CGPathCreateMutable();

    BOOL pathIsEmpty = YES;

    for (int i=0;i< polyline.pointCount;i++){

        CGPoint point = [self pointForMapPoint:polyline.points[i]];

        if (pathIsEmpty){

            CGPathMoveToPoint(path, nil, point.x, point.y);

            pathIsEmpty = NO;

        } else {

            CGPathAddLineToPoint(path, nil, point.x, point.y);

        }

    }

    pthread_rwlock_wrlock(&rwLock);

    self.path = path; //<—— don't forget this line.

    pthread_rwlock_unlock(&rwLock);

}

//-(BOOL)canDrawMapRect:(MKMapRect)mapRect zoomScale:(MKZoomScale)zoomScale{

//    CGRect pointsRect = CGPathGetBoundingBox(self.path);

//    CGRect mapRectCG = [self rectForMapRect:mapRect];

//    return CGRectIntersectsRect(pointsRect, mapRectCG);

//}

- (void) drawMapRect:(MKMapRect)mapRect zoomScale:(MKZoomScale)zoomScale inContext:(CGContextRef)context{

    //put this blok into the canDraw method cause problem

    CGRect pointsRect = CGPathGetBoundingBox(self.path);

    CGRect mapRectCG = [self rectForMapRect:mapRect];

    if (!CGRectIntersectsRect(pointsRect, mapRectCG))return;

    CGContextSetLineCap(context, kCGLineCapRound);

    CGContextSetLineJoin(context, kCGLineJoinRound);

    UIColor* pcolor,*ccolor;

    for (int i=0;i< polyline.pointCount;i++){

        CGPoint point = [self pointForMapPoint:polyline.points[i]];

        CGMutablePathRef path = CGPathCreateMutable();

        if(hues[i]==0.){

            //虚线

            if(i==0){

                CGPathMoveToPoint(path, nil, point.x, point.y);

            }else{

                //颜色

                CGContextSetRGBStrokeColor(context, 153.0 / 255.0, 153.0 / 255.0, 153.0 / 255.0, 1.0);

                //线宽

                CGFloat lineWidth = CGContextConvertSizeToUserSpace(context, (CGSize){self.lineWidth,self.lineWidth}).width;

                CGContextSetLineWidth(context, lineWidth);

                CGFloat lengths[] = {lineWidth*2,lineWidth*2};//设置虚线

                CGContextSetLineDash(context, lineWidth, lengths, 2);//设置虚线

                CGPoint prevPoint = [self pointForMapPoint:polyline.points[i-1]];

                CGPathMoveToPoint(path, nil, prevPoint.x, prevPoint.y);

                CGPathAddLineToPoint(path, nil, point.x, point.y);

                CGContextAddPath(context, path);

                CGContextStrokePath(context);

            }

        }else{

            //跑步渐变

            ccolor = [UIColor colorWithHue:hues[i] saturation:1.0f brightness:1.0f alpha:1.0f];

            if (i==0){

                CGPathMoveToPoint(path, nil, point.x, point.y);

            } else {

                CGPoint prevPoint = [self pointForMapPoint:polyline.points[i-1]];

                CGPathMoveToPoint(path, nil, prevPoint.x, prevPoint.y);

                CGPathAddLineToPoint(path, nil, point.x, point.y);

                CGFloat pc_r,pc_g,pc_b,pc_a,

                cc_r,cc_g,cc_b,cc_a;

                [pcolor getRed:&pc_r green:&pc_g blue:&pc_b alpha:&pc_a];

                [ccolor getRed:&cc_r green:&cc_g blue:&cc_b alpha:&cc_a];

                CGFloat gradientColors[8] = {pc_r,pc_g,pc_b,pc_a,

                    cc_r,cc_g,cc_b,cc_a};

                CGFloat gradientLocation[2] = {0,1};

                CGContextSaveGState(context);

                CGFloat lineWidth = CGContextConvertSizeToUserSpace(context, (CGSize){self.lineWidth,self.lineWidth}).width;

                CGPathRef pathToFill = CGPathCreateCopyByStrokingPath(path, NULL, lineWidth, self.lineCap, self.lineJoin, self.miterLimit);

                CGContextAddPath(context, pathToFill);

                CGContextClip(context);

                CGColorSpaceRef colorSpace = CGColorSpaceCreateDeviceRGB();

                CGGradientRef gradient = CGGradientCreateWithColorComponents(colorSpace, gradientColors, gradientLocation, 2);

                CGColorSpaceRelease(colorSpace);

                CGPoint gradientStart = prevPoint;

                CGPoint gradientEnd = point;

                CGContextDrawLinearGradient(context, gradient, gradientStart, gradientEnd, kCGGradientDrawsAfterEndLocation);

                CGGradientRelease(gradient);

                CGContextRestoreGState(context);

                pcolor = [UIColor colorWithCGColor:ccolor.CGColor];

            }

        }

    }

}

@end

以上就是我基于Mapkit绘制渐变轨迹的方式，相比高德的轨迹，圆滑程度还是欠缺些，但这些都是项目日后优化的点。
最后，附上我项目的下载地址，如果有帮到你，求好评，谢谢！；如果有其他问题，也欢迎一起讨论
https://itunes.apple.com/cn/app/ning-meng-pao-bu/id1108388147?mt=8