高级C测试:考查C程序员的0x10个最佳问题-白红宇

高级C测试:考查C程序员的0x10个最佳问题

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发布时间：2019-05-25

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/**embeddedsoft:这几个题目不是很难，但很基本，能在一定地层面上考查程序员对Ｃ的掌握情况，作者基本上对每个题目都作出了详细的解答，这些题目值得思考和借鉴！/

Advanced Test in C: The 0x10 Best Questions for C Programmers

Using this Test In the entire test following convention are used

In all program, assume that the required header file/files has /have been included

Consider the data type

char is 1 byte

int is 2 byte

long int 4 byte

float is 4 byet

double is 8 byte

long double is 10 byte

pointer is 2 byte

1. Consider the following program:

#include
   
    static jmp_buf  buf;main() /*embeddedsoft:volatile的意义*/{  volatile  int b;  b =3;  if(setjmp(buf)!=0)    {    printf("%d ", b);      exit(0);  }  b=5;  longjmp(buf , 1);}

The output for this program is:

(a) 3

(b) 5

(d) None of the above

2. Consider the following program:

main()/*embeddedsoft:强制转换*/{   struct node    {     int a;     int b;     int c;        };   struct node  s= { 3, 5,6 };   struct node *pt = &s;   printf("%d" ,  *(int*)pt);}

The output for this program is:

(a) 3

(b) 5

(d) 7

3. Consider the following code segment:

int  foo ( int x , int  n)　/*embeddedsoft:递归调用*/{  int val;  val =1;    if (n>0)   {    if (n%2 == 1)  val = val *x;        val = val * foo(x*x , n/2);  }  return val;}

What function of x and n is compute by this code segment?

(a) xn

(b) x*n

(d) None of the above

4. Consider the following program:

main()/*embeddedsoft:指针运算*/{  int  a[5] = {1,2,3,4,5};  int *ptr =  (int*)(&a+1);  printf("%d %d" , *(a+1), *(ptr-1) );}

The output for this program is:

(a) 2 2

(b) 2 1

(d) None of the above

5. Consider the following program:

void foo(int [][3] );     main(){  int a [3][3]= { { 1,2,3} , { 4,5,6},{7,8,9}};  foo(a);  printf("%d" , a[2][1]);}void foo( int b[][3])/*embeddedsoft:数组的退化*/{  ++ b;  b[1][1] =9;}

The output for this program is:

(a) 8

(b) 9

(d) None of the above

6. Consider the following program:

main(){  int a, b,c, d;  a=3;  b=5;  c=a,b;  d=(a,b);  printf("c=%d" ,c);  printf("d=%d" ,d);}

The output for this program is:

(a) c=3 d=3

(b) c=5 d=3

(d) c=5 d=5

7. Consider the following program:

main(){  int a[][3] = { 1,2,3 ,4,5,6};  int (*ptr)[3] =a;  printf("%d %d "  ,(*ptr)[1], (*ptr)[2] );  ++ptr;  printf("%d %d"  ,(*ptr)[1], (*ptr)[2] );}

The output for this program is:

(a) 2 3 5 6

(b) 2 3 4 5

(d) None of the above

8. Consider following function

int *f1(void){  int x =10;  return(&x);}int *f2(void){  int*ptr;  *ptr =10;  return ptr;}int *f3(void){  int *ptr;  ptr=(int*) malloc(sizeof(int));  return ptr;}

Which of the above three functions are likely to cause problem with pointers

(a) Only f3

(b) Only f1 and f3

(d) f1 , f2 ,f3

9. Consider the following program:

main(){  int i=3;  int j;  j = sizeof(++i+ ++i);  printf("i=%d j=%d", i ,j);}

The output for this program is:

(a) i=4 j=2

(b) i=3 j=2

(d) i=3 j=6

10. Consider the following program:

void f1(int *, int); void f2(int *, int); void(*p[2]) ( int *, int);main(){  int a;  int b;  p[0] = f1;  p[1] = f2;  a=3;  b=5;  p[0](&a , b);  printf("%d/t %d/t" , a ,b);  p[1](&a , b);  printf("%d/t %d/t" , a ,b);}void f1( int* p , int q){  int tmp;  tmp =*p;  *p = q;  q= tmp;}void f2( int* p , int q){  int tmp;  tmp =*p;  *p = q;  q= tmp;}

The output for this program is:

(a) 5 5 5 5

(b) 3 5 3 5

(d) 3 3 3 3

11. Consider the following program:

void e(int );   main(){  int a;  a=3;  e(a);}void e(int n){  if(n>0)  {    e(--n);    printf("%d" , n);    e(--n);  }}

The output for this program is:

(a) 0 1 2 0

(b) 0 1 2 1

(d) 0 2 1 1

12. Consider following declaration

typedef int (*test) ( float * , float*)test tmp;

type of tmp is

(a) Pointer to function of having two arguments that is pointer to float

(b) int

(d) None of the above

13. Consider the following program:

main(){  char *p;  char buf[10] ={ 1,2,3,4,5,6,9,8};  p = (buf+1)[5];  printf("%d" , p);}

The output for this program is:

(a) 5

(b) 6

(d) None of the above

14. Consider the following program:

Void f(char**);main(){  char * argv[] = { "ab" ,"cd" , "ef" ,"gh", "ij" ,"kl" };  f( argv );}void f( char **p ){  char* t;  t= (p+= sizeof(int))[-1];  printf( "%s" , t);}

The output for this program is:

(a) ab

(b) cd

(d) gh

15. Consider the following program:

#include
   
    int ripple ( int , ...);main(){  int num;  num = ripple ( 3, 5,7);  printf( " %d" , num);}int ripple (int n, ...){  int i , j;  int k;    va_list p;  k= 0;  j = 1;  va_start( p , n);       for (; j

The output for this program is:

(a) 7

(b) 6

(d) 3

16. Consider the following program:

int counter (int i){  static int count =0;  count = count +i;  return (count );}main(){  int i , j;  for (i=0; i <=5; i++)    j = counter(i);}

The value of j at the end of the execution of the this program is:

(a) 10

(b) 15

(d) 7

Answer With Detailed Explanation

_____________________________________________________________

Answer 1.

The answer is (b)

volatile variable isn't affected by the optimization. Its value after the longjump is the last value variable assumed.

b last value is 5 hence 5 is printed.

setjmp : Sets up for nonlocal goto /* setjmp.h*/

Stores context information such as register values so that the lomgjmp function can return control to the statement following the one calling setjmp.Returns 0 when it is initially called.

Lonjjmp: longjmp Performs nonlocal goto /* setjmp.h*/

Transfers control to the statement where the call to setjmp (which initialized buf) was made. Execution continues at this point as if longjmp cannot return the value 0.A nonvolatile automatic variable might be changed by a call to longjmp.When you use setjmp and longjmp, the only automatic variables guaranteed to remain valid are those declared volatile.

Note: Test program without volatile qualifier (result may very)

Answer 2.

The answer is (a)

The members of structures have address in increasing order of their declaration. If a pointer to a structure is cast to the type of a pointer to its first member, the result refers to the first member.

Answer 3.

The answer is (a)

Non recursive version of the program

int  what ( int x , int  n){  int val;  int product;  product =1;  val =x;  while(n>0)  {    if (n%2 == 1)        product = product*val;    n = n/2;     val = val* val;  }}

/* Code raise a number (x) to a large power (n) using binary doubling strategy */

Algorithm description

(while n>0)  {  if  next most significant binary digit of  n( power)  is one  then multiply accumulated product by current val  ,   reduce n(power)  sequence by a factor of two using integer division .  get next val by multiply current value of itself                   }

Answer 4.

The answer is (c)

type of a is array of int

type of &a is pointer to array of int

Taking a pointer to the element one beyond the end of an array is sure to work.

Answer 5.

The answer is (b)

Answer 6.

The answer is (c)

The comma separates the elements of a function argument list. The comma is also used as an operator in comma expressions. Mixing the two uses of comma is legal, but you must use parentheses to distinguish them. the left operand E1 is evaluated as a void expression, then E2 is evaluated to give the result and type of the comma expression. By recursion, the expression

E1, E2, ..., En

results in the left-to-right evaluation of each Ei, with the value and type of En giving the result of the whole expression.

c=a,b;  / *yields c=a* /d=(a,b); /* d =b  */

Answer 7.

The answer is (a)

/* ptr is pointer to array of 3 int */

Answer 8.

The answer is (c)

f1 and f2 return address of local variable ,when function exit local variable disappeared

Answer 9.

The answer is (b)

sizeof operator gives the number of bytes required to store an object of the type of its operand . The operands is either an expression, which is not evaluated ( (++i + ++ i ) is not evaluated so i remain 3 and j is

sizeof int that is 2) or a parenthesized type name.

Answer 10.

The answer is (a)

void(*p[2]) ( int *, int);

define array of pointer to function accept two argument that is pointer to int and return int. p[0] = f1; p[1] = f2 contain address of function .function name without parenthesis represent address of function Value and address of variable is passed to function only argument that is effected is a (address is passed). Because of call by value f1, f2 can not effect b

Answer 11.

The answer is (a)

Answer 12.

The answer is (c)

C provide a facility called typedef for creating new data type names, for example declaration

typedef char string

Makes the name string a synonym for int .The type string can be used in declaration, cast, etc, exactly the same way that the type int can be. Notice that the type being declared in a typedef appears in the position of a variable name not after the word typedef.

Answer 13.

The answer is (c)

If the type of an expression is "array of T" for some type T, then the value of the expression is a pointer to the first object in the array, and the type of the expression is altered to "pointer to T"

So (buf+1)[5] is equvalent to *(buf +6) or buf[6]

Answer 14.

The answer is (b)

p+=sizeof(int) point to argv[2]

(p+=sizeof(int))[-1] points to argv[1]

Answer 15.

The answer is (c)

When we call ripple value of the first argument passed to ripple is collected in the n that is 3. va_start initialize p to point to first unnamed argument that is 5 (first argument).Each call of va_arg return an argument and step p to the next argument. va_arg uses a type name to determine what type to return and how big a step to take Consider inner loop

(; i; i&=i-1) k++ /* count number of  1 bit in i *

in five number of 1 bits is (101) 2

in seven number of 1 bits is (111) 3

hence k return 5

example

let  i= 9 = 1001     i-1  = 1000            (i-1) +1 = i               1000                 +1              1 001

The right most 1 bit of i has corresponding 0 bit in i-1 this way i & i-1, in a two complement number system will delete the right most 1 bit I(repeat until I become 0 gives number of 1 bits)