CS61C L4 C Pointers (1) Chae, Summer 2008 © UCB Albert Chae Instructor inst.eecs.berkeley.edu/~cs61c CS61C : Machine Structures Lecture #4 –C Strings,

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CS61C L4 C Pointers (1) Chae, Summer 2008 © UCB Albert Chae Instructor inst.eecs.berkeley.edu/~cs61c CS61C : Machine Structures Lecture #4 –C Strings, Arrays, & Malloc

CS61C L4 C Pointers (2) Chae, Summer 2008 © UCB Review: C Strings A string in C is just an array of characters. char string[] = "abc"; Strings are ended by 0 byte (null terminator Value as int, 0 Value as char, '\0' Programmer manually manages memory for strings.

CS61C L4 C Pointers (3) Chae, Summer 2008 © UCB Review: Arrays vs. Pointers Arrays are (almost) identical to pointers char *str_ptr and char str_array[] are nearly identical They differ in very subtle ways: -Incrementing str_array++; // ILLEGAL -declaration of filled arrays int *int_array = {1,2,3}; // ILLEGAL Key Difference: An array variable is a constant “pointer” to the first element.

CS61C L4 C Pointers (4) Chae, Summer 2008 © UCB Review: Arrays vs. Pointers An array parameter can be declared as an array or a pointer; an array argument can be passed as a pointer. int strlen(char s[]) { int n = 0; while (s[n] != 0) n++; return n; } int strlen(char *s) { int n = 0; while (s[n] != 0) n++; return n; } Could be written: while (s[n])

CS61C L4 C Pointers (5) Chae, Summer 2008 © UCB Review: Pointer Arithmetic Since a pointer is just a mem address, we can add to it to traverse an array. p+1 returns a ptr to the next array elt. *p++ vs (*p)++ ? x = *p++  x = *p ; p = p + 1; x = (*p)++  x = *p ; *p = *p + 1; What if we have an array of large structs (objects)? C takes care of it: In reality, p+1 doesn’t add 1 to the memory address, it adds the size of the (type of) array element.

CS61C L4 C Pointers (6) Chae, Summer 2008 © UCB Pointer Arithmetic Summary x = *(p+1) ?  x = *(p+1) ; x = *p+1 ?  x = (*p) + 1 ; x = (*p)++ ?  x = *p ; *p = *p + 1; x = *p++ ? (*p++) ? *(p)++ ? *(p++) ?  x = *p ; p = p + 1; x = *++p ?  p = p + 1 ; x = *p ; Lesson? Using anything but the standard *p++, (*p)++ causes more problems than it solves! P. 53 is a precedence table if you ever have to deal with this

CS61C L4 C Pointers (7) Chae, Summer 2008 © UCB C String Standard Functions int strlen(char *string); compute the length of string int strcmp(char *str1, char *str2); return 0 if str1 and str2 are identical (how is this different from str1 == str2 ?) char *strcpy(char *dst, char *src); copy the contents of string src to the memory at dst. The caller must ensure that dst has enough memory to hold the data to be copied.

CS61C L4 C Pointers (8) Chae, Summer 2008 © UCB Pointers to pointers (1/4) Sometimes you want to have a procedure increment a variable? What gets printed? void AddOne(int x) { x = x + 1; } int y = 5; AddOne( y); printf(“y = %d\n”, y); y = 5 …review…

CS61C L4 C Pointers (9) Chae, Summer 2008 © UCB Pointers to pointers (2/4) Solved by passing in a pointer to our subroutine. Now what gets printed? void AddOne(int *p) { *p = *p + 1; } int y = 5; AddOne(&y); printf(“y = %d\n”, y); y = 6 …review…

CS61C L4 C Pointers (10) Chae, Summer 2008 © UCB Pointers to pointers (3/4) But what if what you want changed is a pointer? What gets printed? void IncrementPtr(int *p) { p = p + 1; } int A[3] = {50, 60, 70}; int *q = A; IncrementPtr( q); printf(“*q = %d\n”, *q); *q = A q

CS61C L4 C Pointers (11) Chae, Summer 2008 © UCB Pointers to pointers (4/4) Solution! Pass a pointer to a pointer, called a handle, declared as **h Now what gets printed? void IncrementPtr(int **h) { *h = *h + 1; } int A[3] = {50, 60, 70}; int *q = A; IncrementPtr(&q); printf(“*q = %d\n”, *q); *q = A q q

CS61C L4 C Pointers (12) Chae, Summer 2008 © UCB Dynamic Memory Allocation (1/3) Recall that we can make ptrs point to… something that already exists Newly allocated memory C has operator sizeof() which gives size in bytes (of type or variable) Assume size of objects can be misleading & is bad style, so use sizeof(type) Many years ago an int was 16 bits, and programs assumed it was 2 bytes

CS61C L4 C Pointers (13) Chae, Summer 2008 © UCB Dynamic Memory Allocation (2/3) To allocate room for something new to point to, use malloc() (with the help of a typecast and sizeof ): ptr = (int *) malloc (sizeof(int)); Now, ptr points to a space somewhere in memory of size (sizeof(int)) in bytes. (int *) simply tells the compiler what will go into that space (called a typecast). malloc is almost never used for 1 var ptr = (int *) malloc (n*sizeof(int)); This allocates an array of n integers.

CS61C L4 C Pointers (14) Chae, Summer 2008 © UCB Dynamic Memory Allocation (3/3) Once malloc() is called, the memory location contains garbage, so don’t use it until you’ve set its value. When finished using dynamically allocated space, we must dynamically free it: free(ptr); Use this command to clean up.

CS61C L4 C Pointers (15) Chae, Summer 2008 © UCB Peer Instruction 1 What will y contain? int main(int argc, char** argv) { int y, *z; y = 4; z = &y; y = *z + 9; return 0; }

CS61C L4 C Pointers (16) Chae, Summer 2008 © UCB Peer Instruction 2 What is in foo and bar at the end of this program? int main(int argc, char** argv) { int foo, *bar, **baz, quux; bar = &quux; foo = 4; baz = &bar; **baz = 13; bar = &foo; **baz = 9; return 0; }

CS61C L4 C Pointers (17) Chae, Summer 2008 © UCB Administrivia Homework submission Guide on website, as well as within hw spec You can submit as many times as you like, we will only grade the latest one. Upcoming due dates HW0 out by tomorrow (sorry for delay) -Due 7/1 in lab or to my office -Picture + signed agreement to academic honesty policy Quiz 1 due Friday 6/27 HW1 due Monday 6/30 -Start today! Quiz 2 due Tuesday 7/1 HW2 due Saturday 7/5, should be out by end of this week

CS61C L4 C Pointers (18) Chae, Summer 2008 © UCB Administrivia No Office Hours today (but I’ll be in and out of lab) Waitlist should be resolved Newsgroup (details on website)

CS61C L4 C Pointers (19) Chae, Summer 2008 © UCB Binky Pointer Video (thanks to SU)

CS61C L4 C Pointers (20) Chae, Summer 2008 © UCB C structures : Overview A struct is a data structure composed for simpler data types. Like a class in Java/C++ but without methods or inheritance. struct point { int x; int y; }; void PrintPoint(struct point p) { printf(“(%d,%d)”, p.x, p.y); }

CS61C L4 C Pointers (21) Chae, Summer 2008 © UCB C structures: Pointers to them The C arrow operator ( -> ) dereferences and extracts a structure field with a single operator. The following are equivalent: struct point *p; printf(“x is %d\n”, (*p).x); printf(“x is %d\n”, p->x);

CS61C L4 C Pointers (22) Chae, Summer 2008 © UCB How big are structs? Recall C operator sizeof() which gives size in bytes (of type or variable) How big is sizeof(struct p) ? struct p { char x; int y; }; 5 bytes? 8 bytes? Compiler may word align integer y

CS61C L4 C Pointers (23) Chae, Summer 2008 © UCB Linked List Example Let’s look at an example of using structures, pointers, malloc(), and free() to implement a linked list of strings. struct Node { char *value; struct Node *next; }; typedef struct Node *List; /* Create a new (empty) list */ List ListNew(void) { return NULL; }

CS61C L4 C Pointers (24) Chae, Summer 2008 © UCB Linked List Example /* add a string to an existing list */ List list_add(List list, char *string) { struct Node *node = (struct Node*) malloc(sizeof(struct Node)); node->value = (char*) malloc((strlen(string) + 1)*sizeof(char)); strcpy(node->value, string); node->next = list; return node; } node: list: string: “abc” …… NULL ?

CS61C L4 C Pointers (25) Chae, Summer 2008 © UCB Linked List Example /* add a string to an existing list */ List list_add(List list, char *string) { struct Node *node = (struct Node*) malloc(sizeof(struct Node)); node->value = (char*) malloc(strlen(string) + 1); strcpy(node->value, string); node->next = list; return node; } node: list: string: “abc” …… NULL ? ?

CS61C L4 C Pointers (26) Chae, Summer 2008 © UCB Linked List Example /* add a string to an existing list */ List list_add(List list, char *string) { struct Node *node = (struct Node*) malloc(sizeof(struct Node)); node->value = (char*) malloc(strlen(string) + 1); strcpy(node->value, string); node->next = list; return node; } node: list: string: “abc” …… NULL ? “????”

CS61C L4 C Pointers (27) Chae, Summer 2008 © UCB Linked List Example /* add a string to an existing list */ List list_add(List list, char *string) { struct Node *node = (struct Node*) malloc(sizeof(struct Node)); node->value = (char*) malloc(strlen(string) + 1); strcpy(node->value, string); node->next = list; return node; } node: list: string: “abc” …… NULL ? “abc”

CS61C L4 C Pointers (28) Chae, Summer 2008 © UCB Linked List Example /* add a string to an existing list */ List list_add(List list, char *string) { struct Node *node = (struct Node*) malloc(sizeof(struct Node)); node->value = (char*) malloc(strlen(string) + 1); strcpy(node->value, string); node->next = list; return node; } node: list: string: “abc” …… NULL “abc”

CS61C L4 C Pointers (29) Chae, Summer 2008 © UCB Linked List Example /* add a string to an existing list */ List list_add(List list, char *string) { struct Node *node = (struct Node*) malloc(sizeof(struct Node)); node->value = (char*) malloc(strlen(string) + 1); strcpy(node->value, string); node->next = list; return node; } node: …… NULL “abc”

CS61C L4 C Pointers (30) Chae, Summer 2008 © UCB Which are guaranteed to print out 5? I: main() { int *a_ptr; *a_ptr = 5; printf(“%d”, *a_ptr); } II: main() { int *p, a = 5; p = &a;... /* code; a & p NEVER on LHS of = */ printf(“%d”, a); } III: main() { int *ptr; ptr = (int *) malloc (sizeof(int)); *ptr = 5; printf(“%d”, *ptr); } Peer Instruction I II III 1: : - - YES 3: - YES - 4: - YES YES 5: YES - - 6: YES - YES 7: YES YES - 8: YES YES YES

CS61C L4 C Pointers (31) Chae, Summer 2008 © UCB int main(void){ int A[] = {5,10}; int *p = A; printf(“%u %d %d %d\n”,p,*p,A[0],A[1]); p = p + 1; printf(“%u %d %d %d\n”,p,*p,A[0],A[1]); *p = *p + 1; printf(“%u %d %d %d\n”,p,*p,A[0],A[1]); } If the first printf outputs , what will the other two printf output? 1: then : then : then 101 4: then 104 5: One of the two printfs causes an ERROR 6: I surrender! Peer Instruction A[1] 510 A[0]p

CS61C L4 C Pointers (32) Chae, Summer 2008 © UCB Summary Use handles to change pointers Create abstractions with structures Dynamically allocated heap memory must be manually deallocated in C. Use malloc() and free() to allocate and deallocate memory from heap.

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