algorithm-in-python/dataStructure/polynomial.cpp
2018-07-15 11:20:52 +08:00

349 lines
9.2 KiB
C++

/* mbinary
#########################################################################
# File : polynomial.cpp
# Author: mbinary
# Mail: zhuheqin1@gmail.com
# Blog: https://mbinary.coding.me
# Github: https://github.com/mbinary
# Created Time: 2018-05-19 23:07
# Description:
#########################################################################
*/
#include<cstdlib>
#include<cstdio>
#include<cstring>
#include<cmath>
#include<malloc.h>
#include<map>
using namespace std;
#if defined(__linux__)
#define LINUX true
#elif defined(_WIN32)
#define LINUX false
#endif
bool isZero(double a)
{
if((a<0.00001)&&-a<0.00001)
return true;
return false;
}
class node
{
friend class polynomial;
double coefficient;
double index;
};
class polynomial
{
int SIZE;
int n;
node* p;
public:
polynomial(int sz=50);
polynomial(const polynomial & );
~polynomial();
double cal(double);
void getData();
void display();
polynomial operator=(const polynomial &);
polynomial operator+(const polynomial &);
polynomial operator-(const polynomial &);
polynomial operator*(const polynomial &);
};
polynomial::polynomial(int sz):n(0),SIZE(sz)
{
p = (node*) new node[SIZE];
memset(p,0,sizeof(p));
}
polynomial::~polynomial()
{
delete p;
}
double polynomial::cal(double x)
{
double rst=0;
for(int i =0;i<n;++i){
rst += pow(x,p[i].index)*p[i].coefficient;
}
return rst;
}
polynomial::polynomial(const polynomial &a)
{
p = (node*) new node[50];
memset(p,0,sizeof(p));
n = a.n;
for(int i = 0;i<a.n;++i){
p[i].index = a.p[i].index;
p[i].coefficient = a.p[i].coefficient;
}
}
polynomial polynomial::operator=(const polynomial& a)
{
n = a.n;
for(int i = 0;i<a.n;++i){
p[i].index = a.p[i].index;
p[i].coefficient = a.p[i].coefficient;
}
return *this;
}
void polynomial::display()
{
node * tmp = p;
if(n == 0){
printf("0\n");
return;
}
// char *fmt = ("x"); printf(fmt,...);
for(int i = n-1;i>=0;--i){
double t = tmp[i].coefficient;
double idx = tmp[i].index;
if(isZero(idx)){
printf("%+g",t);
continue;
}
if(isZero(t-1)) printf("+");
else if(isZero(t+1))printf("-");
else printf("%+g",t);
printf("x");
if(!isZero(idx-1)) printf("^%g",idx);
}
printf("\n");
}
void polynomial::getData()
{
printf("Please input data . \n");
printf("For every item,Coefficient first .Use space to separate,EOF to end\n");
map<double,double> mp;
double idx;
double coef;
while(scanf("%lf%lf",&coef,&idx)!=EOF){
if(isZero(coef)) continue;
if(mp.count(idx) == 0){
mp[idx] = coef;
}
else{
mp[idx] += coef;
if(isZero(mp[idx])){
mp.erase(idx);
}
}
}
if(mp.size()>SIZE){
SIZE *=2;
p = (node*)realloc(p,sizeof(node)*SIZE) ;
}
for(map<double,double>::iterator it = mp.begin();it!=mp.end();++it){
p[n].index = it->first;
p[n++].coefficient = it->second;
}
}
polynomial polynomial::operator+(const polynomial & a)
{
polynomial rst ;
int p1 = 0,p2 = 0,p3 = 0;
double exp1 = p[p1].index;
double exp2 = a.p[p2].index;
while(p1<n && p2<a.n){
while(p1<n &&exp1<exp2){
rst.p[p3].index = exp1;
rst.p[p3].coefficient = p[p1].coefficient;
++p1,++p3;
exp1 = p[p1].index;;
}
while(p2<a.n &&exp1>exp2){
rst.p[p3].index = exp2;
rst.p[p3].coefficient = a.p[p2].coefficient;
++p2,++p3;
exp2 = a.p[p2].index;;
}
if(isZero(exp1-exp2)){
double tmp= p[p1].coefficient + a.p[p2].coefficient;
if(isZero(tmp)){
++p1,++p2;
}
else{
rst.p[p3].index = p[p1].index;
rst.p[p3].coefficient = tmp;
++p1,++p2,++p3;
}
}
}
if(p1 == n){
while(p2<a.n){
rst.p[p3].index = a.p[p2].index;
rst.p[p3].coefficient = a.p[p2].coefficient;
++p2,++p3;
}
}
else{
while(p1<n){
rst.p[p3].index = p[p1].index;
rst.p[p3].coefficient = p[p1].coefficient;
++p1,++p3;
}
}
rst.n = p3;
return rst;
}
polynomial polynomial::operator-(const polynomial & a)
{
polynomial rst(a) ;
int i = 0;
while(i<rst.n){
rst.p[i].coefficient = -rst.p[i].coefficient;
++i;
}
return (*this + rst);
}
polynomial polynomial::operator*(const polynomial & a)
{
map<double,double> mp;
for(int i = 0;i<n;++i){
double idx = p[i].index;
double coef = p[i].coefficient;
for(int j = 0;j<a.n;++j){
double index = idx+a.p[j].index;
if(mp.count(index)==0){
mp[index] = coef*a.p[j].coefficient;
}
else{
mp[index] += coef*a.p[j].coefficient;
if(isZero(mp[index])){
mp.erase(index);
}
}
}
}
int sz =50;
while(mp.size()>sz){
sz *=2;
}
polynomial rst(sz);
for(map<double,double>::iterator it = mp.begin();it!=mp.end();++it){
rst.p[rst.n].index = it->first;
rst.p[rst.n++].coefficient = it->second;
}
return rst;
}
int num = 0;
polynomial pl[30];
void menu()
{
printf("**********OPERATIONS***********\n");
printf("*****0. create *****\n");
printf("*****1. add + *****\n");
printf("*****2. sub - *****\n");
printf("*****3. mul * *****\n");
printf("*****4. display *****\n");
printf("*****5. menu *****\n");
printf("*****6. clear screen *****\n");
printf("*****7. exit *****\n");
printf("*****8. copy *****\n");
printf("*****9. display all *****\n");
printf("*****10. cal val *****\n");
printf("**********OPERATIONS***********\n");
}
void loop()
{
int op;
while(scanf("%d",&op)!=EOF){
if(op == 0){
pl[num].getData();
++num;
printf("You've created polynomial %d:\n",num);
pl[num-1].display();
}
else if(op==1||op==2||op==3){
if(num<2){
printf("Oops! you've got less two polynomial\nPlease choose another operation\n");
continue;
}
printf("input two nums of the two polynomial to be operated.eg: 1 2\n");
int t1=100,t2=100;
while(1){
scanf("%d%d",&t1,&t2);
if(t1>num||t2>num||t1<0||t2<0){
printf("wrong num ,please input again\n");
}
else break;
}
printf("the rst is:\n");
t1 -=1,t2-=1;
if(op == 1){
(pl[t1]+pl[t2]).display();
}
else if(op == 2){
(pl[t1]-pl[t2]).display();
}
else (pl[t1]*pl[t2]).display();
}
else if(op == 4){
printf("input a polynomial's num to display it\n");
int tmp;
scanf("%d",&tmp);
if(tmp>num){
printf("wrong num");
}
else{
printf("info of polynomial %d\n",tmp);
pl[tmp-1].display();
}
}
else if(op == 9){
for(int i = 0;i<num;++i){
printf("polynomial %d : ",i+1);
pl[i].display();
}
}
else if(op == 5){
menu();
}
else if(op == 6){
if(LINUX) system("clear");
else system("cls");
menu();
}
else if(op == 10){
double x;
int t;
printf("choose a polynomial\n");
scanf("%d",&t);
if(t>num||t<0){
printf("wrong num\n");
}
else {
printf("input a value\n");
scanf("%lf",&x);
pl[t-1].display();
printf("%g\n",pl[t-1].cal(x));
}
}
else if(op == 8){
if(num == 0){
printf("you have'nt any polynomial tp copy\n");
continue;
}
int n = num+1;
while(n>num){
printf("input the number of an existing polynomial you want to copy\n");
scanf("%d",&n);
}
(pl[num] = pl[n-1]);
printf("You've copyed this polynomial:\n");
pl[num++].display();
}
else exit(0);
printf("select an operation\n");
}
}
int main(void)
{
menu();
loop();
return 0;
}