iOS地图上WGS84、GCJ-02、BD-09互转解决方案

近来开发的项目涉及地图位置分享模块,android组的同事先开工,用的是百度地图sdk,本人后面开工,用的是iOS SDK的mapkit做,之后问题来了,同一个经纬度坐标在iOS端和Android端出现了比较大偏差。查了下资料苹果地图在大陆的数据源是高德的,查了下高德采用GCJ-02, 百度map sdk 采用的是BD-09,只好写了个类在发送和接收时做好转换,略微蛋疼。Github上有人写了一个现成的转换类,可以参考参考  传送门 ,其主要代码见下: 

头文件:

#import <Foundation/Foundation.h>
#import <CoreLocation/CoreLocation.h>
@interface JZLocationConverter : NSObject

/**
 *	@brief	世界标准地理坐标(WGS-84) 转换成 中国国测局地理坐标(GCJ-02)<火星坐标>
 *
 *  ####只在中国大陆的范围的坐标有效,以外直接返回世界标准坐标
 *
 *	@param 	location 	世界标准地理坐标(WGS-84)
 *
 *	@return	中国国测局地理坐标(GCJ-02)<火星坐标>
 */
+ (CLLocationCoordinate2D)wgs84ToGcj02:(CLLocationCoordinate2D)location;


/**
 *	@brief	中国国测局地理坐标(GCJ-02) 转换成 世界标准地理坐标(WGS-84)
 *
 *  ####此接口有1-2米左右的误差,需要精确定位情景慎用
 *
 *	@param 	location 	中国国测局地理坐标(GCJ-02)
 *
 *	@return	世界标准地理坐标(WGS-84)
 */
+ (CLLocationCoordinate2D)gcj02ToWgs84:(CLLocationCoordinate2D)location;


/**
 *	@brief	世界标准地理坐标(WGS-84) 转换成 百度地理坐标(BD-09)
 *
 *	@param 	location 	世界标准地理坐标(WGS-84)
 *
 *	@return	百度地理坐标(BD-09)
 */
+ (CLLocationCoordinate2D)wgs84ToBd09:(CLLocationCoordinate2D)location;


/**
 *	@brief	中国国测局地理坐标(GCJ-02)<火星坐标> 转换成 百度地理坐标(BD-09)
 *
 *	@param 	location 	中国国测局地理坐标(GCJ-02)<火星坐标>
 *
 *	@return	百度地理坐标(BD-09)
 */
+ (CLLocationCoordinate2D)gcj02ToBd09:(CLLocationCoordinate2D)location;


/**
 *	@brief	百度地理坐标(BD-09) 转换成 中国国测局地理坐标(GCJ-02)<火星坐标>
 *
 *	@param 	location 	百度地理坐标(BD-09)
 *
 *	@return	中国国测局地理坐标(GCJ-02)<火星坐标>
 */
+ (CLLocationCoordinate2D)bd09ToGcj02:(CLLocationCoordinate2D)location;


/**
 *	@brief	百度地理坐标(BD-09) 转换成 世界标准地理坐标(WGS-84)
 *
 *  ####此接口有1-2米左右的误差,需要精确定位情景慎用
 *
 *	@param 	location 	百度地理坐标(BD-09)
 *
 *	@return	世界标准地理坐标(WGS-84)
 */
+ (CLLocationCoordinate2D)bd09ToWgs84:(CLLocationCoordinate2D)location;


@end

实现文件

#import "JZLocationConverter.h"
#import <CoreLocation/CoreLocation.h>
#define LAT_OFFSET_0(x,y) -100.0 + 2.0 * x + 3.0 * y + 0.2 * y * y + 0.1 * x * y + 0.2 * sqrt(fabs(x))
#define LAT_OFFSET_1 (20.0 * sin(6.0 * x * M_PI) + 20.0 * sin(2.0 * x * M_PI)) * 2.0 / 3.0
#define LAT_OFFSET_2 (20.0 * sin(y * M_PI) + 40.0 * sin(y / 3.0 * M_PI)) * 2.0 / 3.0
#define LAT_OFFSET_3 (160.0 * sin(y / 12.0 * M_PI) + 320 * sin(y * M_PI / 30.0)) * 2.0 / 3.0

#define LON_OFFSET_0(x,y) 300.0 + x + 2.0 * y + 0.1 * x * x + 0.1 * x * y + 0.1 * sqrt(fabs(x))
#define LON_OFFSET_1 (20.0 * sin(6.0 * x * M_PI) + 20.0 * sin(2.0 * x * M_PI)) * 2.0 / 3.0
#define LON_OFFSET_2 (20.0 * sin(x * M_PI) + 40.0 * sin(x / 3.0 * M_PI)) * 2.0 / 3.0
#define LON_OFFSET_3 (150.0 * sin(x / 12.0 * M_PI) + 300.0 * sin(x / 30.0 * M_PI)) * 2.0 / 3.0

#define RANGE_LON_MAX 137.8347
#define RANGE_LON_MIN 72.004
#define RANGE_LAT_MAX 55.8271
#define RANGE_LAT_MIN 0.8293
// jzA = 6378245.0, 1/f = 298.3
// b = a * (1 - f)
// ee = (a^2 - b^2) / a^2;
#define jzA 6378245.0
#define jzEE 0.00669342162296594323



@implementation JZLocationConverter

+ (double)transformLat:(double)x bdLon:(double)y
{
	double ret = LAT_OFFSET_0(x, y);
	ret += LAT_OFFSET_1;
	ret += LAT_OFFSET_2;
	ret += LAT_OFFSET_3;
	return ret;
}

+ (double)transformLon:(double)x bdLon:(double)y
{
	double ret = LON_OFFSET_0(x, y);
	ret += LON_OFFSET_1;
	ret += LON_OFFSET_2;
	ret += LON_OFFSET_3;
	return ret;
}

+ (BOOL)outOfChina:(double)lat bdLon:(double)lon
{
	if (lon < RANGE_LON_MIN || lon > RANGE_LON_MAX)
		return true;
	if (lat < RANGE_LAT_MIN || lat > RANGE_LAT_MAX)
		return true;
	return false;
}

+ (CLLocationCoordinate2D)gcj02Encrypt:(double)ggLat bdLon:(double)ggLon
{
	CLLocationCoordinate2D resPoint;
	double mgLat;
	double mgLon;
	if ([self outOfChina:ggLat bdLon:ggLon]) {
		resPoint.latitude = ggLat;
		resPoint.longitude = ggLon;
		return resPoint;
	}
	double dLat = [self transformLat:(ggLon - 105.0)bdLon:(ggLat - 35.0)];
	double dLon = [self transformLon:(ggLon - 105.0) bdLon:(ggLat - 35.0)];
	double radLat = ggLat / 180.0 * M_PI;
	double magic = sin(radLat);
	magic = 1 - jzEE * magic * magic;
	double sqrtMagic = sqrt(magic);
	dLat = (dLat * 180.0) / ((jzA * (1 - jzEE)) / (magic * sqrtMagic) * M_PI);
	dLon = (dLon * 180.0) / (jzA / sqrtMagic * cos(radLat) * M_PI);
	mgLat = ggLat + dLat;
	mgLon = ggLon + dLon;
	
	resPoint.latitude = mgLat;
	resPoint.longitude = mgLon;
	return resPoint;
}

+ (CLLocationCoordinate2D)gcj02Decrypt:(double)gjLat gjLon:(double)gjLon {
	CLLocationCoordinate2D  gPt = [self gcj02Encrypt:gjLat bdLon:gjLon];
	double dLon = gPt.longitude - gjLon;
	double dLat = gPt.latitude - gjLat;
	CLLocationCoordinate2D pt;
	pt.latitude = gjLat - dLat;
	pt.longitude = gjLon - dLon;
	return pt;
}

+ (CLLocationCoordinate2D)bd09Decrypt:(double)bdLat bdLon:(double)bdLon
{
	CLLocationCoordinate2D gcjPt;
	double x = bdLon - 0.0065, y = bdLat - 0.006;
	double z = sqrt(x * x + y * y) - 0.00002 * sin(y * M_PI);
	double theta = atan2(y, x) - 0.000003 * cos(x * M_PI);
	gcjPt.longitude = z * cos(theta);
	gcjPt.latitude = z * sin(theta);
	return gcjPt;
}

+(CLLocationCoordinate2D)bd09Encrypt:(double)ggLat bdLon:(double)ggLon
{
	CLLocationCoordinate2D bdPt;
	double x = ggLon, y = ggLat;
	double z = sqrt(x * x + y * y) + 0.00002 * sin(y * M_PI);
	double theta = atan2(y, x) + 0.000003 * cos(x * M_PI);
	bdPt.longitude = z * cos(theta) + 0.0065;
	bdPt.latitude = z * sin(theta) + 0.006;
	return bdPt;
}


+ (CLLocationCoordinate2D)wgs84ToGcj02:(CLLocationCoordinate2D)location
{
	return [self gcj02Encrypt:location.latitude bdLon:location.longitude];
}

+ (CLLocationCoordinate2D)gcj02ToWgs84:(CLLocationCoordinate2D)location
{
	return [self gcj02Decrypt:location.latitude gjLon:location.longitude];
}


+ (CLLocationCoordinate2D)wgs84ToBd09:(CLLocationCoordinate2D)location
{
	CLLocationCoordinate2D gcj02Pt = [self gcj02Encrypt:location.latitude
												  bdLon:location.longitude];
	return [self bd09Encrypt:gcj02Pt.latitude bdLon:gcj02Pt.longitude] ;
}

+ (CLLocationCoordinate2D)gcj02ToBd09:(CLLocationCoordinate2D)location
{
	return  [self bd09Encrypt:location.latitude bdLon:location.longitude];
}

+ (CLLocationCoordinate2D)bd09ToGcj02:(CLLocationCoordinate2D)location
{
	return [self bd09Decrypt:location.latitude bdLon:location.longitude];
}

+ (CLLocationCoordinate2D)bd09ToWgs84:(CLLocationCoordinate2D)location
{
	CLLocationCoordinate2D gcj02 = [self bd09ToGcj02:location];
	return [self gcj02Decrypt:gcj02.latitude gjLon:gcj02.longitude];
}

@end

测试用例:

CLLocationCoordinate2D gcj02 = CLLocationCoordinate2DMake(114.21892734521,29.575429778924);
	CLLocationCoordinate2D bd09 = [JZLocationConverter gcj02ToBd09:gcj02];
	NSLog(@"%f,%f", bd09.latitude, bd09.longitude); 

	// http://developer.baidu.com/map/index.php?title=webapi/guide/changeposition
	// JZLocationConverter 测试数据: 114.21892734521,29.575429778924  ; 转化结果: 114.224960,29.581853
	// 百度api  测试数据: 114.21892734521,29.575429778924  ; 百度api转换结果: 114.22539195429,29.581585367458

总体来说,存在一点偏差,但跟处理前的效果比一下,相对可以接受了些。

参考:

http://blog.csdn.net/jiajiayouba/article/details/25140967

http://developer.baidu.com/map/index.php?title=webapi/guide/changeposition 

http://blog.csdn.net/winnyrain/article/details/22233559 

http://www.kuaifenxiang.net/article/17 

http://blog.csdn.net/coolypf/article/details/8569813 

http://www.cppblog.com/socketref/archive/2011/06/29/149713.html

posted on 2016-12-13 20:44  Jason_Luo  阅读(2415)  评论(0编辑  收藏  举报

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