5-1
/* 计算圆柱体积 */ #include<stdio.h> int main(void) { double height,radius,volume; double cylinder(double r,double h); printf("Enter radius and height:"); scanf("%lf%lf",&radius,&height); volume=cylinder(radius,height); printf("Volume=%.3f ",volume); return 0; } double cylinder(double r,double h) { double result; result=3.1415926*r*r*h; return result; }
5-2
int event(int n) { if(n%2==0) return 1; else return 0; }
5-3
#include<stdio.h> #include<math.h> int main(void) { double e,pi; double funpi(double e); printf("Enter e:"); scanf("%lf",&e); pi=funpi(e); printf("pi=%f ",pi); return 0; } double funpi(double e) { int denominator,flag; double item,sum; flag=1; denominator=1; item=1.0; sum=0; while(fabs(item)>=e){ item=flag*1.0/denominator; sum=sum+item; flag=-flag; denominator=denominator+2; } return sum*4; }
5-4
#include<stdio.h> #include<math.h> int main(void) { int count,m; int prime(int m); count=0; for(m=2;m<=100;m++){ if(prime(m)!=0){ printf("%6d",m); count++; if(count%10==0) printf(" "); } } printf(" "); } int prime(int m) { int i,n; if(m==1)return 0; n=sqrt(m); for(i=2;i<=n;i++) if(m%1==0){ return 0; } return 1; }
5-5
#include<stdio.h> int main(void) { void pyramid(int n); pyramid(5); return 0; } void pyramid(int n) { int i,j; for(i=1;i<=n;i++){ for(j=1;j<=n-i;j++) printf(" "); for(j=1;j<=i;j++) printf("%d",i); putchar(' '); } }
5-6
#include<stdio.h> float result_real,result_imag; int main(void) { float imag1,imag2,real1,real2; void complex_prod(float real1,float imag1,float real2,float imag2); void complex_add(float real1,float imag1,float real2,float imag2); printf("Enter 1st complex number(real and imaginary):"); scanf("%f%f",&real1,&imag1); printf("Enter 2st complex number(real and imaginary):"); scanf("%f%f",&real2,&imag2); complex_add(real1,imag1,real2,imag2); printf("addition ofcomplex is %f+%fi ",result_real,result_imag); complex_prod(real1,imag1,real2,imag2); printf("product of complex is %f+%%F ",result_real,result_imag); return 0; } void complex_add(float real1,float imag1,float real2,float imag2) { result_real=real1+real2; result_imag=imag1+imag2; } void complex_prod(float real1,float imag1,float real2,float imag2) { result_real=real1*real2-imag1*imag2; result_imag=real1*imag2+real2*imag1; }
5-7
#include<stdio.h> int x; int f( ); int main(void) { int a=1; x=a; a=f( ); { int b=2; b=a+b; x=x+b; } printf("%d%d",a,x); return 0; } int f( ) { int x=4; return x; }
5-8
#include<stdio.h> float cash; int main(void) { int choice; float value; void income(float number),expend(float number); cash=0; printf("Enter operate choice(0--end,1--income,2--expend);"); scanf("%d",&choice); while(choice!=0){ if(choice==1||choice==2){ printf("Enter cash value:"); scanf("%f",&value); if(choice==1) income(value); else expend(value); printf("current cash:%2f ",cash); } printf("Enter operate choice(0--end,1--income,2--expend):"); scanf("%d",&choice); } return 0; } void income(float number) { cash=cash+number; } void expend(float number) { cash=cash-number; }
5-9
#include<stdio.h> double fact_s(int n); int main(void) { int i,n; printf("Input n:"); scanf("%d",&n); for(i=1;i<=n;i++) printf("%3d!=%.0f ",i,fact_s(i)); return 0; } double fact_s(int n) { static double f=1; f=f*n; return(f); }
