[CareerCup] 7.6 The Line Passes the Most Number of Points 经过最多点的直线

时间:2023-03-09 00:04:03
[CareerCup] 7.6 The Line Passes the Most Number of Points 经过最多点的直线

7.6 Given a two-dimensional graph with points on it, find a line which passes the most number of points.

这道题给了我们许多点,让我们求经过最多点的一条直线。给之前那道7.5 A Line Cut Two Squares in Half 平均分割两个正方形的直线一样,都需要自己写出点类和直线类。在直线类中,我用我们用斜率和截距来表示直线,为了应对斜率不存在情况,我们还需用一个flag来标记是否为垂直的线。在直线类中,我们要有判断两条直线是否相等的函数。判断相等的方法和之前那道7.3 Line Intersection 直线相交相同,都需要使用epsilon,只要两个数的差值的绝对值小于epsilon,我们就认定是相等的。对于给定的所有点,每两个点能组成一条直线,我们的方法是遍历所有的直线,把所有相同的直线都存入哈希表中,key是直线的斜率,映射关系是斜率和直线集合的映射,那么我们只需找到包含直线最多的那个集合即可,参见代码如下:

class Point {

public:

    double _x, _y;

    Point(double x, double y): _x(x), _y(y) {};

};

class Line {

public:

    static constexpr double _epsilon = 0.0001;

    double _slope, _intercept;

    bool _infi_slope = false;

    Line(Point p, Point q) {

        if (fabs(p._x - q._x) > _epsilon) {

            _slope = (p._y - q._y) / (p._x - q._x);

            _intercept = p._y - _slope * p._x;

        } else {

            _infi_slope = true;

            _intercept = p._x;

        }

    }

    static double floorToNearestEpsilon(double d) {

        int r = (int)(d / _epsilon);

        return ((double)r) * _epsilon;

    }

    bool isEquivalent(double a, double b) {

        return (fabs(a - b) < _epsilon);

    }

    bool isEquivalent(Line other) {

        if (isEquivalent(_slope, other._slope) && isEquivalent(_intercept, other._intercept) && (_infi_slope == other._infi_slope)) {

            return true;

        }

        return false;

    }

};

class Solution {

public:

    Line findBestLine(vector<Point> &points) {

        Line res(points[], points[]);

        int bestCnt = ;

        unordered_map<double, vector<Line> > m;

        for (int i = ; i < (int)points.size(); ++i) {

            for (int j = i + ; j < (int)points.size(); ++j) {

                Line line(points[i], points[j]);

                insertLine(m, line);

                int cnt = countEquivalentLines(m, line);

                if (cnt > bestCnt) {

                    res = line;

                    bestCnt = cnt;

                }

            }

        }

        return res;

    }

    void insertLine(unordered_map<double, vector<Line> > &m, Line &line) {

        vector<Line> lines;

        double key = Line::floorToNearestEpsilon(line._slope);

        if (m.find(key) != m.end()) {

            lines = m[key];

        } else {

            m[key] = lines;

        }

        lines.push_back(line);

    }

    int countEquivalentLines(unordered_map<double, vector<Line> > &m, Line &line) {

        double key = Line::floorToNearestEpsilon(line._slope);

        double eps = Line::_epsilon;

        return countEquivalentLines(m[key], line) + countEquivalentLines(m[key - eps], line) + countEquivalentLines(m[key + eps], line);

    }

    int countEquivalentLines(vector<Line> &lines, Line &line) {

        if (lines.empty()) return ;

        int res = ;

        for (auto &a : lines) {

            if (a.isEquivalent(line)) ++res;

        }

        return res;

    }

};