This is a discussion on C- Tricky Question & answers With explanation within the C and C++ Programming forums, part of the Software Development category; C- Tricky Question & answers 1) struct aaa{ struct aaa *prev; int i; struct aaa *next; }; main() { struct aaa abc,...
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| C- Tricky Question & answers 1) struct aaa{ struct aaa *prev; int i; struct aaa *next; }; main() { struct aaa abc,def,ghi,jkl; int x=100; abc.i=0;abc.prev=&jkl; abc.next=&def; def.i=1;def.prev=&abc;def.next=&ghi; ghi.i=2;ghi.prev=&def; ghi.next=&jkl; jkl.i=3;jkl.prev=&ghi;jkl.next=&abc; x=abc.next->next->prev->next->i; printf("%d",x); } Answer: 2 Explanation: above all statements form a double circular linked list; abc.next->next->prev->next->i this one points to "ghi" node the value of at particular node is 2. 2) struct point { int x; int y; }; struct point origin,*pp; main() { pp=&origin; printf("origin is(%d%d)\n",(*pp).x,(*pp).y); printf("origin is (%d%d)\n",pp->x,pp->y); } Answer: origin is(0,0) origin is(0,0) Explanation: pp is a pointer to structure. we can access the elements of the structure either with arrow mark or with indirection operator. Note: Since structure point is globally declared x & y are initialized as zeroes 3) main() { int i=_l_abc(10); printf("%d\n",--i); } int _l_abc(int i) { return(i++); } Answer: 9 Explanation: return(i++) it will first return i and then increments. i.e. 10 will be returned.
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| C- Tricky Question & answers 1) main() { char *p; int *q; long *r; p=q=r=0; p++; q++; r++; printf("%p...%p...%p",p,q,r); } Answer: 0001...0002...0004 Explanation: ++ operator when applied to pointers increments address according to their corresponding data-types. 2) main() { char c=' ',x,convert(z); getc(c); if((c>='a') && (c<='z')) x=convert(c); printf("%c",x); } convert(z) { return z-32; } Answer: Compiler error Explanation: declaration of convert and format of getc() are wrong. 3) main(int argc, char **argv) { printf("enter the character"); getchar(); sum(argv[1],argv[2]); } sum(num1,num2) int num1,num2; { return num1+num2; } Answer: Compiler error. Explanation: argv[1] & argv[2] are strings. They are passed to the function sum without converting it to integer values. 4) # include <stdio.h> int one_d[]={1,2,3}; main() { int *ptr; ptr=one_d; ptr+=3; printf("%d",*ptr); } Answer: garbage value Explanation: ptr pointer is pointing to out of the array range of one_d.
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| C- Tricky Question & answers 1) # include<stdio.h> aaa() { printf("hi"); } bbb(){ printf("hello"); } ccc(){ printf("bye"); } main() { int (*ptr[3])(); ptr[0]=aaa; ptr[1]=bbb; ptr[2]=ccc; ptr[2](); } Answer: bye Explanation: ptr is array of pointers to functions of return type int.ptr[0] is assigned to address of the function aaa. Similarly ptr[1] and ptr[2] for bbb and ccc respectively. ptr[2]() is in effect of writing ccc(), since ptr[2] points to ccc. 2) #include<stdio.h> main() { FILE *ptr; char i; ptr=fopen("zzz.c","r"); while((i=fgetch(ptr))!=EOF) printf("%c",i); } Answer: contents of zzz.c followed by an infinite loop Explanation: The condition is checked against EOF, it should be checked against NULL. 3) main() { int i =0;j=0; if(i && j++) printf("%d..%d",i++,j); printf("%d..%d,i,j); } Answer: 0..0 Explanation: The value of i is 0. Since this information is enough to determine the truth value of the boolean expression. So the statement following the if statement is not executed. The values of i and j remain unchanged and get printed.
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| C- Tricky Question & answers 1) main() { int i; i = abc(); printf("%d",i); } abc() { _AX = 1000; } Answer: 1000 Explanation: Normally the return value from the function is through the information from the accumulator. Here _AH is the pseudo global variable denoting the accumulator. Hence, the value of the accumulator is set 1000 so the function returns value 1000. 2) int i; main(){ int t; for ( t=4;scanf("%d",&i)-t;printf("%d\n",i)) printf("%d--",t--); } // If the inputs are 0,1,2,3 find the o/p Answer: 4--0 3--1 2--2 Explanation: Let us assume some x= scanf("%d",&i)-t the values during execution will be, t i x 4 0 -4 3 1 -2 2 2 0 3) main(){ int a= 0;int b = 20;char x =1;char y =10; if(a,b,x,y) printf("hello"); } Answer: hello Explanation: The comma operator has associativity from left to right. Only the rightmost value is returned and the other values are evaluated and ignored. Thus the value of last variable y is returned to check in if. Since it is a non zero value if becomes true so, "hello" will be printed. 4) main(){ unsigned int i; for(i=1;i>-2;i--) printf("c aptitude"); } Explanation: i is an unsigned integer. It is compared with a signed value. Since the both types doesn't match, signed is promoted to unsigned value. The unsigned equivalent of -2 is a huge value so condition becomes false and control comes out of the loop.
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| C- Tricky Question & answers 1) In the following pgm add a stmt in the function fun such that the address of 'a' gets stored in 'j'. main(){ int * j; void fun(int **); fun(&j); } void fun(int **k) { int a =0; /* add a stmt here*/ } Answer: *k = &a Explanation: The argument of the function is a pointer to a pointer. 2) What are the following notations of defining functions known as? i. int abc(int a,float b) { /* some code */ } ii. int abc(a,b) int a; float b; { /* some code*/ } Answer: i. ANSI C notation ii. Kernighan & Ritche notation 3) main() { char *p; p="%d\n"; p++; p++; printf(p-2,300); } Answer: 300 Explanation: The pointer points to % since it is incremented twice and again decremented by 2, it points to '%d\n' and 300 is printed.
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| C- Tricky Question & answers 1) main(){ char a[100]; a[0]='a';a[1]]='b';a[2]='c';a[4]='d'; abc(a); } abc(char a[]){ a++; printf("%c",*a); a++; printf("%c",*a); } Explanation: The base address is modified only in function and as a result a points to 'b' then after incrementing to 'c' so bc will be printed. 2) func(a,b) int a,b; { return( a= (a==b) ); } main() { int process(),func(); printf("The value of process is %d !\n ",process(func,3,6)); } process(pf,val1,val2) int (*pf) (); int val1,val2; { return((*pf) (val1,val2)); } Answer: The value if process is 0 ! Explanation: The function 'process' has 3 parameters - 1, a pointer to another function 2 and 3, integers. When this function is invoked from main, the following substitutions for formal parameters take place: func for pf, 3 for val1 and 6 for val2. This function returns the result of the operation performed by the function 'func'. The function func has two integer parameters. The formal parameters are substituted as 3 for a and 6 for b. since 3 is not equal to 6, a==b returns 0. therefore the function returns 0 which in turn is returned by the function 'process'. 3) void main() { static int i=5; if(--i){ main(); printf("%d ",i); } } Answer: 0 0 0 0 Explanation: The variable "I" is declared as static, hence memory for I will be allocated for only once, as it encounters the statement. The function main() will be called recursively unless I becomes equal to 0, and since main() is recursively called, so the value of static I ie., 0 will be printed every time the control is returned.
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| C- Tricky Question & answers 1) void main() { int k=ret(sizeof(float)); printf("\n here value is %d",++k); } int ret(int ret) { ret += 2.5; return(ret); } Answer: Here value is 7 Explanation: The int ret(int ret), ie., the function name and the argument name can be the same. Firstly, the function ret() is called in which the sizeof(float) ie., 4 is passed, after the first expression the value in ret will be 6, as ret is integer hence the value stored in ret will have implicit type conversion from float to int. The ret is returned in main() it is printed after and preincrement. 2) void main() { char a[]="12345\0"; int i=strlen(a); printf("here in 3 %d\n",++i); } Answer: here in 3 6 Explanation: The char array 'a' will hold the initialized string, whose length will be counted from 0 till the null character. Hence the 'I' will hold the value equal to 5, after the pre-increment in the printf statement, the 6 will be printed. 3) void main() { unsigned giveit=-1; int gotit; printf("%u ",++giveit); printf("%u \n",gotit=--giveit); } Answer: 0 65535
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| C- Tricky Question & answers 1) void main() { int i; char a[]="\0"; if(printf("%s\n",a)) printf("Ok here \n"); else printf("Forget it\n"); } Answer: Ok here Explanation: Printf will return how many characters does it print. Hence printing a null character returns 1 which makes the if statement true, thus "Ok here" is printed. 2) void main() { void *v; int integer=2; int *i=&integer; v=i; printf("%d",(int*)*v); } Answer: Compiler Error. We cannot apply indirection on type void*. Explanation: Void pointer is a generic pointer type. No pointer arithmetic can be done on it. Void pointers are normally used for, 1. Passing generic pointers to functions and returning such pointers. 2. As a intermediate pointer type. 3. Used when the exact pointer type will be known at a later point of time. 3) void main() { int i=i++,j=j++,k=k++; printf(“%d%d%d”,i,j,k); } Answer: Garbage values. Explanation: An identifier is available to use in program code from the point of its declaration. So expressions such as i = i++ are valid statements. The i, j and k are automatic variables and so they contain some garbage value. Garbage in is garbage out (GIGO).
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| C- Tricky Question & answers 1) void main() { static int i=i++, j=j++, k=k++; printf(“i = %d j = %d k = %d”, i, j, k); } Answer: i = 1 j = 1 k = 1 Explanation: Since static variables are initialized to zero by default. 2) void main() { while(1){ if(printf("%d",printf("%d"))) break; else continue; } } Answer: Garbage values Explanation: The inner printf executes first to print some garbage value. The printf returns no of characters printed and this value also cannot be predicted. Still the outer printf prints something and so returns a non-zero value. So it encounters the break statement and comes out of the while statement. 3) main() { unsigned int i=10; while(i-->=0) printf("%u ",i); } Answer: 10 9 8 7 6 5 4 3 2 1 0 65535 65534….. Explanation: Since i is an unsigned integer it can never become negative. So the expression i-- >=0 will always be true, leading to an infinite loop.
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| 1) void main() { int i=10, j=2; int *ip= &i, *jp = &j; int k = *ip/*jp; printf(“%d”,k); } Answer: Compiler Error: “Unexpected end of file in comment started in line 5”. Explanation: The programmer intended to divide two integers, but by the “maximum munch” rule, the compiler treats the operator sequence / and * as /* which happens to be the starting of comment. To force what is intended by the programmer, int k = *ip/ *jp; // give space explicity separating / and * //or int k = *ip/(*jp); // put braces to force the intention will solve the problem. 2) void main() { char ch; for(ch=0;ch<=127;ch++) printf(“%c %d \n“, ch, ch); } void main() { int i=10, j=2; int *ip= &i, *jp = &j; int k = *ip/*jp; printf(“%d”,k); } Answer: Compiler Error: “Unexpected end of file in comment started in line 5”. Explanation: The programmer intended to divide two integers, but by the “maximum munch” rule, the compiler treats the operator sequence / and * as /* which happens to be the starting of comment. To force what is intended by the programmer, int k = *ip/ *jp; // give space explicity separating / and * //or int k = *ip/(*jp); // put braces to force the intention will solve the problem. 3) void main() { char ch; for(ch=0;ch<=127;ch++) printf(“%c %d \n“, ch, ch); } Answer: Implementaion dependent Explanation: The char type may be signed or unsigned by default. If it is signed then ch++ is executed after ch reaches 127 and rotates back to -128. Thus ch is always smaller than 127.
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| 1) main() { int a=10,*j; void *k; j=k=&a; j++; k++; printf("\n %u %u ",j,k); } Answer: Compiler error: Cannot increment a void pointer Explanation: Void pointers are generic pointers and they can be used only when the type is not known and as an intermediate address storage type. No pointer arithmetic can be done on it and you cannot apply indirection operator (*) on void pointers. 2) Printf can be implemented by using __________ list. Answer: Variable length argument lists 3) char *someFun() { char *temp = “string constant"; return temp; } int main() { puts(someFun()); } Answer: string constant Explanation: The program suffers no problem and gives the output correctly because the character constants are stored in code/data area and not allocated in stack, so this doesn’t lead to dangling pointers.
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| 1) main() { int a=10,*j; void *k; j=k=&a; j++; k++; printf("\n %u %u ",j,k); } Answer: Compiler error: Cannot increment a void pointer Explanation: Void pointers are generic pointers and they can be used only when the type is not known and as an intermediate address storage type. No pointer arithmetic can be done on it and you cannot apply indirection operator (*) on void pointers. 2) Printf can be implemented by using __________ list. Answer: Variable length argument lists 3) char *someFun() { char *temp = “string constant"; return temp; } int main() { puts(someFun()); } Answer: string constant Explanation: The program suffers no problem and gives the output correctly because the character constants are stored in code/data area and not allocated in stack, so this doesn’t lead to dangling pointers.
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| 1) #include<conio.h> main() { int x,y=2,z,a; if(x=y%2) z=2; a=2; printf("%d %d ",z,x); } Answer: Garbage-value 0 Explanation: The value of y%2 is 0. This value is assigned to x. The condition reduces to if (x) or in other words if(0) and so z goes uninitialized. Thumb Rule: Check all control paths to write bug free code. 2) main() { int a[10]; printf("%d",*a+1-*a+3); } Answer: 4 Explanation: *a and -*a cancels out. The result is as simple as 1 + 3 = 4 ! 3) #define prod(a,b) a*b main() { int x=3,y=4; printf("%d",prod(x+2,y-1)); } Answer: 10 Explanation: The macro expands and evaluates to as: x+2*y-1 => x+(2*y)-1 => 10
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| 1) main() { unsigned int i=65000; while(i++!=0); printf("%d",i); } Answer: 1 Explanation: Note the semicolon after the while statement. When the value of i becomes 0 it comes out of while loop. Due to post-increment on i the value of i while printing is 1. 2) main() { int i=0; while(+(+i--)!=0) i-=i++; printf("%d",i); } Answer: -1 Explanation: Unary + is the only dummy operator in C. So it has no effect on the expression and now the while loop is, while(i--!=0) which is false and so breaks out of while loop. The value –1 is printed due to the post-decrement operator. 3) main() { float f=5,g=10; enum{i=10,j=20,k=50}; printf("%d\n",++k); printf("%f\n",f<<2); printf("%lf\n",f%g); printf("%lf\n",fmod(f,g)); } Answer: Line no 5: Error: Lvalue required Line no 6: Cannot apply leftshift to float Line no 7: Cannot apply mod to float Explanation: Enumeration constants cannot be modified, so you cannot apply ++. Bit-wise operators and % operators cannot be applied on float values. fmod() is to find the modulus values for floats as % operator is for ints.
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| 1) main() { int i=10; void pascal f(int,int,int); f(i++,i++,i++); printf(" %d",i); } void pascal f(integer :i,integer:j,integer :k) { write(i,j,k); } Answer: Compiler error: unknown type integer Compiler error: undeclared function write Explanation: Pascal keyword doesn’t mean that pascal code can be used. It means that the function follows Pascal argument passing mechanism in calling the functions. 2) void pascal f(int i,int j,int k) { printf(“%d %d %d”,i, j, k); } void cdecl f(int i,int j,int k) { printf(“%d %d %d”,i, j, k); } main() { int i=10; f(i++,i++,i++); printf(" %d\n",i); i=10; f(i++,i++,i++); printf(" %d",i); } Answer: 10 11 12 13 12 11 10 13 Explanation: Pascal argument passing mechanism forces the arguments to be called from left to right. cdecl is the normal C argument passing mechanism where the arguments are passed from right to left. 3) What is the output of the program given below main() { signed char i=0; for(;i>=0;i++) ; printf("%d\n",i); } Answer: -128 Explanation: Notice the semicolon at the end of the for loop. THe initial value of the i is set to 0. The inner loop executes to increment the value from 0 to 127 (the positive range of char) and then it rotates to the negative value of -128. The condition in the for loop fails and so comes out of the for loop. It prints the current value of i that is -128.
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| 1) main() { unsigned char i=0; for(;i>=0;i++) ; printf("%d\n",i); } Answer: infinite loop Explanation: The difference between the previous question and this one is that the char is declared to be unsigned. So the i++ can never yield negative value and i>=0 never becomes false so that it can come out of the for loop. 2) main() { char i=0; for(;i>=0;i++) ; printf("%d\n",i); } Answer: Behavior is implementation dependent. Explanation: The detail if the char is signed/unsigned by default is implementation dependent. If the implementation treats the char to be signed by default the program will print –128 and terminate. On the other hand if it considers char to be unsigned by default, it goes to infinite loop. Rule: You can write programs that have implementation dependent behavior. But dont write programs that depend on such behavior. 3) Is the following statement a declaration/definition. Find what does it mean? int (*x)[10]; Answer: Definition. x is a pointer to array of(size 10) integers. Apply clock-wise rule to find the meaning of this definition.
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| 1). What is the output for the program given below typedef enum errorType{warning, error, exception,}error; main() { error g1; g1=1; printf("%d",g1); } Answer Compiler error: Multiple declaration for error Explanation The name error is used in the two meanings. One means that it is a enumerator constant with value 1. The another use is that it is a type name (due to typedef) for enum errorType. Given a situation the compiler cannot distinguish the meaning of error to know in what sense the error is used: error g1; g1=error; // which error it refers in each case? When the compiler can distinguish between usages then it will not issue error (in pure technical terms, names can only be overloaded in different namespaces). Note: the extra comma in the declaration, enum errorType{warning, error, exception,} is not an error. An extra comma is valid and is provided just for programmer’s convenience. 2) typedef struct error{int warning, error, exception;}error; main() { error g1; g1.error =1; printf("%d",g1.error); } Answer 1 Explanation The three usages of name errors can be distinguishable by the compiler at any instance, so valid (they are in different namespaces). Typedef struct error{int warning, error, exception;}error; This error can be used only by preceding the error by struct kayword as in: struct error someError; typedef struct error{int warning, error, exception;}error; This can be used only after . (dot) or -> (arrow) operator preceded by the variable name as in : g1.error =1; printf("%d",g1.error); typedef struct error{int warning, error, exception;}error; This can be used to define variables without using the preceding struct keyword as in: error g1; Since the compiler can perfectly distinguish between these three usages, it is perfectly legal and valid. Note This code is given here to just explain the concept behind. In real programming don’t use such overloading of names. It reduces the readability of the code. Possible doesn’t mean that we should use it!
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| 1) #ifdef something int some=0; #endif main() { int thing = 0; printf("%d %d\n", some ,thing); } Answer: Compiler error : undefined symbol some Explanation: This is a very simple example for conditional compilation. The name something is not already known to the compiler making the declaration int some = 0; effectively removed from the source code. 2) #if something == 0 int some=0; #endif main() { int thing = 0; printf("%d %d\n", some ,thing); } Answer: 0 0 Explanation: This code is to show that preprocessor expressions are not the same as the ordinary expressions. If a name is not known the preprocessor treats it to be equal to zero. 3) void main() { if(~0 == (unsigned int)-1) printf(“You can answer this if you know how values are represented in memory”); } Answer: You can answer this if you know how values are represented in memory Explanation ~ (tilde operator or bit-wise negation operator) operates on 0 to produce all ones to fill the space for an integer. –1 is represented in unsigned value as all 1’s and so both are equal.
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| 1) int swap(int *a,int *b) { *a=*a+*b;*b=*a-*b;*a=*a-*b; } main() { int x=10,y=20; swap(&x,&y); printf("x= %d y = %d\n",x,y); } Answer x = 20 y = 10 Explanation This is one way of swapping two values. Simple checking will help understand this. 2) main() { char *p = “ayqm”; printf(“%c”,++*(p++)); } Answer: b 3) main() { int i=5; printf("%d",++i++); } Answer: Compiler error: Lvalue required in function main Explanation: ++i yields an rvalue. For postfix ++ to operate an lvalue is required.
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