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Unverified Commit 4f2b19dd authored by Don Gagne's avatar Don Gagne Committed by GitHub
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Merge pull request #7033 from DonLakeFlyer/UTMSHPLoad 

Support UTM SHP files
parents 3c45054e 687dde15
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Showing with 143 additions and 136 deletions
src/SHPFileHelper.cc
View file @ 4f2b19dd
......@@ -8,15 +8,22 @@
****************************************************************************/
#include "SHPFileHelper.h"
#include "UTM.h"
#include <QFile>
#include <QVariant>
#include <QtDebug>
#include <QRegularExpression>
const char* SHPFileHelper::_errorPrefix = QT_TR_NOOP("SHP file load failed. %1");
bool SHPFileHelper::_validateSHPFiles(const QString& shpFile, QString& errorString)
/// Validates the specified SHP file is truly a SHP file and is in the format we understand.
/// @param utmZone[out] Zone for UTM shape, 0 for lat/lon shape
/// @param utmSouthernHemisphere[out] true/false for UTM hemisphere
/// @return true: Valid supported SHP file found, false: Invalid or unsupported file found
bool SHPFileHelper::_validateSHPFiles(const QString& shpFile, int* utmZone, bool* utmSouthernHemisphere, QString& errorString)
{
*utmZone = 0;
errorString.clear();
if (shpFile.endsWith(QStringLiteral(".shp"))) {
......@@ -26,8 +33,25 @@ bool SHPFileHelper::_validateSHPFiles(const QString& shpFile, QString& errorStri
if (prjFile.open(QIODevice::ReadOnly | QIODevice::Text)) {
QTextStream strm(&prjFile);
QString line = strm.readLine();
if (!line.startsWith(QStringLiteral("GEOGCS[\"GCS_WGS_1984\","))) {
errorString = QString(_errorPrefix).arg(tr("Only WGS84 projections are supported."));
if (line.startsWith(QStringLiteral("GEOGCS[\"GCS_WGS_1984\","))) {
*utmZone = 0;
*utmSouthernHemisphere = false;
} else if (line.startsWith(QStringLiteral("PROJCS[\"WGS_1984_UTM_Zone_"))) {
QRegularExpression regEx(QStringLiteral("^PROJCS\\[\"WGS_1984_UTM_Zone_(\\d+){1,2}([NS]{1})"));
QRegularExpressionMatch regExMatch = regEx.match(line);
QStringList rgCapture = regExMatch.capturedTexts();
if (rgCapture.count() == 3) {
int zone = rgCapture[1].toInt();
if (zone >= 1 && zone <= 60) {
*utmZone = zone;
*utmSouthernHemisphere = rgCapture[2] == QStringLiteral("S");
}
}
if (*utmZone == 0) {
errorString = QString(_errorPrefix).arg(tr("UTM projection is not in supported format. Must be PROJCS[\"WGS_1984_UTM_Zone_##N/S"));
}
} else {
errorString = QString(_errorPrefix).arg(tr("Only WGS84 or UTM projections are supported."));
}
} else {
errorString = QString(_errorPrefix).arg(tr("PRJ file open failed: %1").arg(prjFile.errorString()));
......@@ -42,13 +66,15 @@ bool SHPFileHelper::_validateSHPFiles(const QString& shpFile, QString& errorStri
return errorString.isEmpty();
}
SHPHandle SHPFileHelper::_loadShape(const QString& shpFile, QString& errorString)
/// @param utmZone[out] Zone for UTM shape, 0 for lat/lon shape
/// @param utmSouthernHemisphere[out] true/false for UTM hemisphere
SHPHandle SHPFileHelper::_loadShape(const QString& shpFile, int* utmZone, bool* utmSouthernHemisphere, QString& errorString)
{
SHPHandle shpHandle = Q_NULLPTR;
errorString.clear();
if (_validateSHPFiles(shpFile, errorString)) {
if (_validateSHPFiles(shpFile, utmZone, utmSouthernHemisphere, errorString)) {
if (!(shpHandle = SHPOpen(shpFile.toUtf8(), "rb"))) {
errorString = QString(_errorPrefix).arg(tr("SHPOpen failed."));
}
......@@ -63,7 +89,9 @@ ShapeFileHelper::ShapeType SHPFileHelper::determineShapeType(const QString& shpF
errorString.clear();
SHPHandle shpHandle = SHPFileHelper::_loadShape(shpFile, errorString);
int utmZone;
bool utmSouthernHemisphere;
SHPHandle shpHandle = SHPFileHelper::_loadShape(shpFile, &utmZone, &utmSouthernHemisphere, errorString);
if (errorString.isEmpty()) {
int cEntities, type;
......@@ -85,6 +113,8 @@ ShapeFileHelper::ShapeType SHPFileHelper::determineShapeType(const QString& shpF
bool SHPFileHelper::loadPolygonFromFile(const QString& shpFile, QList<QGeoCoordinate>& vertices, QString& errorString)
{
int utmZone = 0;
bool utmSouthernHemisphere;
double vertexFilterMeters = 5;
SHPHandle shpHandle = Q_NULLPTR;
SHPObject* shpObject = Q_NULLPTR;
......@@ -92,7 +122,7 @@ bool SHPFileHelper::loadPolygonFromFile(const QString& shpFile, QList<QGeoCoordi
errorString.clear();
vertices.clear();
shpHandle = SHPFileHelper::_loadShape(shpFile, errorString);
shpHandle = SHPFileHelper::_loadShape(shpFile, &utmZone, &utmSouthernHemisphere, errorString);
if (!errorString.isEmpty()) {
goto Error;
}
......@@ -111,7 +141,14 @@ bool SHPFileHelper::loadPolygonFromFile(const QString& shpFile, QList<QGeoCoordi
}
for (int i=0; i<shpObject->nVertices; i++) {
vertices.append(QGeoCoordinate(shpObject->padfY[i], shpObject->padfX[i]));
double lat, lon;
if (utmZone) {
UTMXYToLatLon(shpObject->padfX[i], shpObject->padfY[i], utmZone, utmSouthernHemisphere, lat, lon);
} else {
lat = shpObject->padfY[i];
lon = shpObject->padfX[i];
}
vertices.append(QGeoCoordinate(lat, lon));
}
// Filter last vertex such that it differs from first
......
src/SHPFileHelper.h
View file @ 4f2b19dd
......@@ -29,8 +29,8 @@ public:
static bool loadPolygonFromFile(const QString& shpFile, QList<QGeoCoordinate>& vertices, QString& errorString);
private:
static bool _validateSHPFiles(const QString& shpFile, QString& errorString);
static SHPHandle _loadShape(const QString& shpFile, QString& errorString);
static bool _validateSHPFiles(const QString& shpFile, int* utmZone, bool* utmSouthernHemisphere, QString& errorString);
static SHPHandle _loadShape(const QString& shpFile, int* utmZone, bool* utmSouthernHemisphere, QString& errorString);
static const char* _errorPrefix;
};
src/UTM.cpp
View file @ 4f2b19dd
This diff is collapsed.
src/UTM.h
View file @ 4f2b19dd
......@@ -3,9 +3,6 @@
// Original Javascript by Chuck Taylor
// Port to C++ by Alex Hajnal
//
// *** THIS CODE USES 32-BIT FLOATS BY DEFAULT ***
// *** For 64-bit double-precision edit this file: undefine FLOAT_32 and define FLOAT_64 (see below)
//
// This is a simple port of the code on the Geographic/UTM Coordinate Converter (1) page from Javascript to C++.
// Using this you can easily convert between UTM and WGS84 (latitude and longitude).
// Accuracy seems to be around 50cm (I suspect rounding errors are limiting precision).
......@@ -15,58 +12,18 @@
//
// 1) http://home.hiwaay.net/~taylorc/toolbox/geography/geoutm.html
// QGC Note: This file has been slightly modified to prevent possible conflicts with other parts of the system
#ifndef UTM_H
#define UTM_H
// Choose floating point precision:
// 32-bit (for Teensy 3.5/3.6 ARM boards, etc.)
#define FLOAT_64
// 64-bit (for desktop/server use)
//#define FLOAT_64
#ifdef FLOAT_64
#define FLOAT double
#define SIN sin
#define COS cos
#define TAN tan
#define POW pow
#define SQRT sqrt
#define FLOOR floor
#else
#ifdef FLOAT_32
#define FLOAT float
#define SIN sinf
#define COS cosf
#define TAN tanf
#define POW powf
#define SQRT sqrtf
#define FLOOR floorf
#endif
#endif
#include <math.h>
#define pi 3.14159265358979
/* Ellipsoid model constants (actual values here are for WGS84) */
#define sm_a 6378137.0
#define sm_b 6356752.314
#define sm_EccSquared 6.69437999013e-03
#define UTMScaleFactor 0.9996
// DegToRad
// Converts degrees to radians.
FLOAT DegToRad(FLOAT deg);
double DegToRad(double deg);
// RadToDeg
// Converts radians to degrees.
FLOAT RadToDeg(FLOAT rad);
double RadToDeg(double rad);
// ArcLengthOfMeridian
// Computes the ellipsoidal distance from the equator to a point at a
......@@ -84,7 +41,7 @@ FLOAT RadToDeg(FLOAT rad);
//
// Returns:
// The ellipsoidal distance of the point from the equator, in meters.
FLOAT ArcLengthOfMeridian (FLOAT phi);
double ArcLengthOfMeridian (double phi);
// UTMCentralMeridian
// Determines the central meridian for the given UTM zone.
......@@ -95,7 +52,7 @@ FLOAT ArcLengthOfMeridian (FLOAT phi);
// Returns:
// The central meridian for the given UTM zone, in radians
// Range of the central meridian is the radian equivalent of [-177,+177].
FLOAT UTMCentralMeridian(int zone);
double UTMCentralMeridian(int zone);
// FootpointLatitude
//
......@@ -110,7 +67,7 @@ FLOAT UTMCentralMeridian(int zone);
//
// Returns:
// The footpoint latitude, in radians.
FLOAT FootpointLatitude(FLOAT y);
double FootpointLatitude(double y);
// MapLatLonToXY
// Converts a latitude/longitude pair to x and y coordinates in the
......@@ -131,7 +88,7 @@ FLOAT FootpointLatitude(FLOAT y);
//
// Returns:
// The function does not return a value.
void MapLatLonToXY (FLOAT phi, FLOAT lambda, FLOAT lambda0, FLOAT &x, FLOAT &y);
void MapLatLonToXY (double phi, double lambda, double lambda0, double &x, double &y);
// MapXYToLatLon
// Converts x and y coordinates in the Transverse Mercator projection to
......@@ -160,7 +117,7 @@ void MapLatLonToXY (FLOAT phi, FLOAT lambda, FLOAT lambda0, FLOAT &x, FLOAT &y);
//
// x1frac, x2frac, x2poly, x3poly, etc. are to enhance readability and
// to optimize computations.
void MapXYToLatLon (FLOAT x, FLOAT y, FLOAT lambda0, FLOAT& phi, FLOAT& lambda);
void MapXYToLatLon (double x, double y, double lambda0, double& phi, double& lambda);
// LatLonToUTMXY
// Converts a latitude/longitude pair to x and y coordinates in the
......@@ -179,7 +136,7 @@ void MapXYToLatLon (FLOAT x, FLOAT y, FLOAT lambda0, FLOAT& phi, FLOAT& lambda);
//
// Returns:
// The UTM zone used for calculating the values of x and y.
int LatLonToUTMXY (FLOAT lat, FLOAT lon, int zone, FLOAT& x, FLOAT& y);
int LatLonToUTMXY (double lat, double lon, int zone, double& x, double& y);
// UTMXYToLatLon
//
......@@ -200,7 +157,7 @@ int LatLonToUTMXY (FLOAT lat, FLOAT lon, int zone, FLOAT& x, FLOAT& y);
//
// Returns:
// The function does not return a value.
void UTMXYToLatLon (FLOAT x, FLOAT y, int zone, bool southhemi, FLOAT& lat, FLOAT& lon);
void UTMXYToLatLon (double x, double y, int zone, bool southhemi, double& lat, double& lon);
#endif
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