From c119262d3e0d4a706efcd4a68bbe5f8102826fcf Mon Sep 17 00:00:00 2001
From: Jean Fabre-Monplaisir <jean-isaac-fm@live.fr>
Date: Sun, 1 Feb 2015 23:30:18 +0100
Subject: Formatting

---
 geom.hpp    | 36 +++++++++++------------
 problem.cpp | 94 ++++++++++++++++++++++++++++++-------------------------------
 problem.hpp | 36 +++++++++++------------
 3 files changed, 83 insertions(+), 83 deletions(-)

diff --git a/geom.hpp b/geom.hpp
index 27b3de5..aecc822 100644
--- a/geom.hpp
+++ b/geom.hpp
@@ -14,9 +14,9 @@ inline double frand(double a, double b) {
 }
 
 inline double canon_angle(double ref, double move_it){
-    while (ref>move_it) move_it += 2*M_PI;
-    while (move_it >= ref + 2*M_PI) move_it -= 2*M_PI;
-    return move_it ;
+	while (ref>move_it) move_it += 2*M_PI;
+	while (move_it >= ref + 2*M_PI) move_it -= 2*M_PI;
+	return move_it ;
 }
 
 struct vec {
@@ -195,20 +195,20 @@ struct angular_sector {
 		assert(i.c.c == o.c.c);
 		assert(i.theta1 == o.theta1);
 		assert(i.theta2 == o.theta2);
-		
-	}
-    bool is_in_sector(vec p) const{
-        if(inner.is_in_pie(p) && (p-inner.c.c).norm() <=outer.c.r && inner.c.r <=(p-inner.c.c).norm())return true;
-	return false;
-    }
-
-    double dist(vec p) const{
-	if (is_in_sector(p)) return 0;
-	return std::min(std::min(std::min(inner.dist(p),outer.dist(p)),
-				 segment(vec::from_polar(inner.c.r,inner.theta1)+inner.c.c,
-					 vec::from_polar(outer.c.r,inner.theta2)+inner.c.c).dist(p)),
-			segment(vec::from_polar(inner.c.r,inner.theta2)+inner.c.c,
-				vec::from_polar(outer.c.r,inner.theta2)+inner.c.c).dist(p)) ;
-    }
+
+	}
+	bool is_in_sector(vec p) const{
+		if(inner.is_in_pie(p) && (p-inner.c.c).norm() <=outer.c.r && inner.c.r <=(p-inner.c.c).norm())return true;
+		return false;
+	}
+
+	double dist(vec p) const{
+		if (is_in_sector(p)) return 0;
+		return std::min(std::min(std::min(inner.dist(p),outer.dist(p)),
+					segment(vec::from_polar(inner.c.r,inner.theta1)+inner.c.c,
+						vec::from_polar(outer.c.r,inner.theta2)+inner.c.c).dist(p)),
+				segment(vec::from_polar(inner.c.r,inner.theta2)+inner.c.c,
+					vec::from_polar(outer.c.r,inner.theta2)+inner.c.c).dist(p)) ;
+	}
 };
 /* vim: set ts=4 sw=4 tw=0 noet :*/
diff --git a/problem.cpp b/problem.cpp
index c733200..350836e 100644
--- a/problem.cpp
+++ b/problem.cpp
@@ -12,60 +12,60 @@ using namespace std;
 
 double hilare_a_mvt::length() {
 	// returns length traveled by the car
-    if (is_arc)	return domega * (center - from.pos()).norm();
-    return ds ;
+	if (is_arc)	return domega * (center - from.pos()).norm();
+	return ds ;
 }
 
 bool hilare_a::intersects(const obstacle &o) const {
-    
-    if((pos()-o.c.c).norm() < o.c.r + param->r_c_car)return true ;
-    if((pos_trolley()-o.c.c).norm() < o.c.r + param->r_c_trolley)return true ;
-    if(segment(pos(),pos_trolley()).dist(o.c.c) < o.c.r)return true ;
-    return false ;
+
+	if((pos()-o.c.c).norm() < o.c.r + param->r_c_car)return true ;
+	if((pos_trolley()-o.c.c).norm() < o.c.r + param->r_c_trolley)return true ;
+	if(segment(pos(),pos_trolley()).dist(o.c.c) < o.c.r)return true ;
+	return false ;
 }
 
 bool hilare_a_mvt::intersects(const obstacle &o) const {
-    hilare_a_param *p = from.param;
-    vec pos_init = from.pos();
-    vec pos_init_trolley = from.pos_trolley();
-    if(is_arc){
-	double r_min =
-	    min((pos_init - center).norm()-(p->r_c_car),
-		(pos_init_trolley - center).norm()-(p->r_c_trolley));
-	double r_max =
-	    max((pos_init - center).norm()+(p->r_c_car),
-		(pos_init_trolley - center).norm()+(p->r_c_trolley));
-	//TODO
-	double theta1;
-	double theta2;
-	if (domega>=0) {
-	    if(from.phi > 0){
-		theta1 = (from.pos()-center).angle();
-		theta2 = (to.pos_trolley()-center).angle();
-	    }
-	    else {
-		theta1 = (from.pos_trolley()-center).angle();
-		theta2 = (to.pos()-center).angle();
+	hilare_a_param *p = from.param;
+	vec pos_init = from.pos();
+	vec pos_init_trolley = from.pos_trolley();
+	if(is_arc){
+		double r_min =
+			min((pos_init - center).norm()-(p->r_c_car),
+					(pos_init_trolley - center).norm()-(p->r_c_trolley));
+		double r_max =
+			max((pos_init - center).norm()+(p->r_c_car),
+					(pos_init_trolley - center).norm()+(p->r_c_trolley));
+		//TODO
+		double theta1;
+		double theta2;
+		if (domega>=0) {
+			if(from.phi > 0){
+				theta1 = (from.pos()-center).angle();
+				theta2 = (to.pos_trolley()-center).angle();
+			}
+			else {
+				theta1 = (from.pos_trolley()-center).angle();
+				theta2 = (to.pos()-center).angle();
+			}
 		}
-	}
-	else {
-	    if(from.phi > 0){ //TODO ??
-		theta2 = (from.pos()-center).angle();
-		theta1 = (to.pos_trolley()-center).angle();
-	    }
-	    else {
-		theta2 = (from.pos_trolley()-center).angle();
-		theta1 = (to.pos()-center).angle();
+		else {
+			if(from.phi > 0){ //TODO ??
+				theta2 = (from.pos()-center).angle();
+				theta1 = (to.pos_trolley()-center).angle();
+			}
+			else {
+				theta2 = (from.pos_trolley()-center).angle();
+				theta1 = (to.pos()-center).angle();
+			}
 		}
+		theta2 = canon_angle(theta1,theta2);
+		angular_sector sector = angular_sector(circarc(circle(center,r_min), theta1, theta2), circarc(circle(center,r_max), theta1, theta2));
+		if (sector.dist(o.c.c)<=o.c.r)return true;
+		if (from.intersects(o)) return true;
+		if (to.intersects(o)) return true;
+		return false;
+
 	}
-	theta2 = canon_angle(theta1,theta2);
-    angular_sector sector = angular_sector(circarc(circle(center,r_min), theta1, theta2), circarc(circle(center,r_max), theta1, theta2));
-    if (sector.dist(o.c.c)<=o.c.r)return true;
-    if (from.intersects(o)) return true;
-    if (to.intersects(o)) return true;
-    return false;
-    
-    }
 	return false;
 }
 
@@ -86,7 +86,7 @@ solution solution::direct_sol(const hilare_a &pos_a, const hilare_a &pos_b) {
 	// - trouver les quatre droites tangentes aux deux cercles canoniques
 	// - pour chacune de ces droites, se mettre dessus, aller droit, s'en séparer
 	//   (vérifier la cohérence : il n'y en a que deux qui sont dans le bon sens !)
-	
+
 	// cas où la position de départ ou d'arrivée n'a pas pour courbe canonique un cercle : se tourner de pi/6 par exemple
 	// (ce cas n'arrivera pas, car on tire complètement au hasard...)
 
@@ -139,7 +139,7 @@ solution solution::direct_sol(const hilare_a &pos_a, const hilare_a &pos_b) {
 
 		if (fabs(xx) < 0.01 || fabs(xx - 2*M_PI) < 0.01 && fabs(xx + 2*M_PI) < 0.01) {
 			vector<hilare_a_mvt> sol;
-			
+
 			hilare_a_mvt r1;
 			r1.is_arc = true;
 			r1.from = pos_a;
diff --git a/problem.hpp b/problem.hpp
index 5d9269a..40361d9 100644
--- a/problem.hpp
+++ b/problem.hpp
@@ -46,7 +46,7 @@ struct hilare_a {	// System A
 		return vec(xc, yc);
 	}
 
-    	bool intersects(const obstacle &o) const;	// intersects an obstacle ?
+	bool intersects(const obstacle &o) const;	// intersects an obstacle ?
 
 };
 
@@ -82,10 +82,10 @@ struct hilare_a_mvt {
 	double ds;					// longueur par
 
 	double length();			// length of a movement
-    
+
 	bool intersects(const obstacle &o) const;	// intersects an obstacle ?
 
-    	bool intersects(const problem &p) const;	// intersects any obstacle on the map ?
+	bool intersects(const problem &p) const;	// intersects any obstacle on the map ?
 };
 
 struct solution {
@@ -116,28 +116,28 @@ class solver {
 
 	private:
 
-	sf::Mutex _d_lock;
-	solver_internal _d;
-	problem _p;
+		sf::Mutex _d_lock;
+		solver_internal _d;
+		problem _p;
+
+		bool _please_stop;
+		bool _running;
+		bool _done;
+		solution _s;
 
-	bool _please_stop;
-	bool _running;
-	bool _done;
-	solution _s;
-	
-	sf::Thread _worker;
+		sf::Thread _worker;
 
 	public:
-	solver();
+		solver();
 
-	void start(const problem &p);
+		void start(const problem &p);
 
-	void run();	// worker thread
+		void run();	// worker thread
 
-	bool finished();
-	solution get_solution();
+		bool finished();
+		solution get_solution();
 
-	solver_internal peek_internal();
+		solver_internal peek_internal();
 };
 
 
-- 
cgit v1.2.3