/*
open source routing machine
Copyright (C) Dennis Luxen, 2010
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU AFFERO General Public License as published by
the Free Software Foundation; either version 3 of the License, or
any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
or see http://www.gnu.org/licenses/agpl.txt.
*/
#ifndef BASE_DESCRIPTOR_H_
#define BASE_DESCRIPTOR_H_
#include <cassert>
#include <cmath>
#include <cstdio>
#include <string>
#include <vector>
#include "../typedefs.h"
#include "../DataStructures/ExtractorStructs.h"
#include "../DataStructures/HashTable.h"
#include "../DataStructures/PolylineCompressor.h"
#include "../Util/StringUtil.h"
#include "RawRouteData.h"
static double areaThresholds[19] = { 5000, 5000, 5000, 5000, 5000, 2500, 2000, 1500, 800, 400, 250, 150, 100, 75, 25, 20, 10, 5, 0 };
/* Get angle of line segment (A,C)->(C,B), atan2 magic, formerly cosine theorem*/
static double GetAngleBetweenTwoEdges(const _Coordinate& A, const _Coordinate& C, const _Coordinate& B) {
int v1x = A.lon - C.lon;
int v1y = A.lat - C.lat;
int v2x = B.lon - C.lon;
int v2y = B.lat - C.lat;
double angle = (atan2((double)v2y,v2x) - atan2((double)v1y,v1x) )*180/M_PI;
while(angle < 0)
angle += 360;
return angle;
}
struct RouteSummary {
std::string lengthString;
std::string durationString;
std::string startName;
std::string destName;
RouteSummary() : lengthString("0"), durationString("0"), startName("unknown street"), destName("unknown street") {}
void BuildDurationAndLengthStrings(double distance, unsigned time) {
//compute distance/duration for route summary
std::ostringstream s;
s << 10*(round(distance/10.));
lengthString = s.str();
int travelTime = 60*(time/60.) + 1;
s.str("");
s << travelTime;
durationString = s.str();
}
};
struct DirectionOfInstruction {
std::string direction;
std::string shortDirection;
};
struct DescriptorState {
_Coordinate currentCoordinate, nextCoordinate, previousCoordinate, tmpCoord, startOfSegmentCoordinate;
std::string routeGeometryString;
std::string routeInstructionString;
unsigned lastNameID, currentNameID, geometryCounter, startIndexOfGeometry;
double entireDistance, distanceOfInstruction, durationOfInstruction;
DescriptorState() : lastNameID(0), currentNameID(0), geometryCounter(0), startIndexOfGeometry(0), entireDistance(0.), distanceOfInstruction(0.), durationOfInstruction(0.) {};
double GetAngleBetweenCoordinates() const {
return GetAngleBetweenTwoEdges(previousCoordinate, currentCoordinate, nextCoordinate);
}
bool CurrentAndPreviousNameIDsEqual() const {
return lastNameID == currentNameID;
}
void SetStartOfSegment() {
startOfSegmentCoordinate = nextCoordinate;
entireDistance += distanceOfInstruction;
lastNameID = currentNameID;
distanceOfInstruction = 0;
startIndexOfGeometry = geometryCounter-1;
}
void PrintCoordinates() {
#ifdef DEBUG
std::cout << "prev: " << previousCoordinate << ", curr: " << currentCoordinate << ", next: " << nextCoordinate << std::endl;
#endif
}
};
struct _DescriptorConfig {
_DescriptorConfig() : instructions(true), geometry(true), encodeGeometry(false), z(18) {}
bool instructions;
bool geometry;
bool encodeGeometry;
unsigned short z;
PolylineCompressor pc;
};
template<class SearchEngineT>
class BaseDescriptor {
public:
BaseDescriptor() { }
//Maybe someone can explain the pure virtual destructor thing to me (dennis)
virtual ~BaseDescriptor() { }
virtual void Run(http::Reply & reply, RawRouteData &rawRoute, PhantomNodes &phantomNodes, SearchEngineT &sEngine, unsigned distance) = 0;
virtual void SetConfig(const _DescriptorConfig & config) = 0;
};
static inline void getDirectionOfInstruction(double angle, DirectionOfInstruction & dirInst) {
if(angle >= 23 && angle < 67) {
dirInst.direction = "southeast";
dirInst.shortDirection = "SE";
return;
}
if(angle >= 67 && angle < 113) {
dirInst.direction = "south";
dirInst.shortDirection = "S";
return;
}
if(angle >= 113 && angle < 158) {
dirInst.direction = "southwest";
dirInst.shortDirection = "SW";
return;
}
if(angle >= 158 && angle < 202) {
dirInst.direction = "west";
dirInst.shortDirection = "W";
return;
}
if(angle >= 202 && angle < 248) {
dirInst.direction = "northwest";
dirInst.shortDirection = "NW";
return;
}
if(angle >= 248 && angle < 292) {
dirInst.direction = "north";
dirInst.shortDirection = "N";
return;
}
if(angle >= 292 && angle < 336) {
dirInst.direction = "northeast";
dirInst.shortDirection = "NE";
return;
}
dirInst.direction = "East";
dirInst.shortDirection = "E";
return;
}
static inline void getTurnDirectionOfInstruction(double angle, std::string & output) {
if(angle >= 23 && angle < 67) {
output = "Turn sharp right";
// cout << "angle " << angle << "-> " << output << endl;
return;
}
if (angle >= 67 && angle < 113) {
output = "Turn right";
// cout << "angle " << angle << "-> " << output << endl;
return;
}
if (angle >= 113 && angle < 158) {
output = "Bear right";
// cout << "angle " << angle << "-> " << output << endl;
return;
}
if (angle >= 158 && angle < 202) {
output = "Continue";
// cout << "angle " << angle << "-> " << output << endl;
return;
}
if (angle >= 202 && angle < 248) {
output = "Bear left";
// cout << "angle " << angle << "-> " << output << endl;
return;
}
if (angle >= 248 && angle < 292) {
output = "Turn left";
// cout << "angle " << angle << "-> " << output << endl;
return;
}
if (angle >= 292 && angle < 336) {
output = "Turn sharp left";
// cout << "angle " << angle << "-> " << output << endl;
return;
}
output = "U-Turn";
// cout << "angle " << angle << "-> " << output << endl;
}
#endif /* BASE_DESCRIPTOR_H_ */