1 / 22

Exam / Homework

Exam / Homework. Exam 1 Solutions Posted Questions? Starting K&R chapter 4 tonight Read Glass and Ables Section on MAKE Start on HW4 - Due Class 13. Functions and C Program Structure. C makes functions efficient and easy to use Program != a few big functions

torgny
Télécharger la présentation

Exam / Homework

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Exam / Homework • Exam 1 • Solutions Posted • Questions? • Starting K&R chapter 4 tonight • Read Glass and Ables Section on MAKE • Start on HW4 - Due Class 13

  2. Functions and C Program Structure • C makes functions efficient and easy to use • Program != a few big functions • Program == many small functions • Functions may reside in separate source files • Source files compiled and loaded separately • An Introduction to MAKEFILE is coming (A process that K&R does not go into)

  3. C Program File Structure • In file main.c: /* function prototypes */ #include “function.h” /* indirect */ int foobar(int, float); /* directly */ int main() { int n = foobar(function(), 1.0); } int foobar(int i, float j) { /* statements using i and j */ return (some integer expression); }

  4. C Program File Structure • In file function.h: /* function.h: function prototype */ int function(void); • In file function.c: /* function.c: function code */ #include “function.h” int function() { /* function code */ }

  5. Function Prototypes • Special case for null argument lists • Always code function prototype as: int foo (void); • Keeps compiler parameter checking enabled • Demonstration of bad example: int foo (); x = foo (i, j, k); /* compiler won’t catch! */

  6. Post-fix Notation • For hw4, you need to know how to convert an algebraic (in-fix) expression to post-fix • Some calculators work this way, e.g H-P • Algebraic (123 + 21) * (567 – 432) • Post-fix 123 21 + 567 432 - * • No parentheses are needed! • How’s that work?

  7. Post-fix Implementation with a Stack Enter: 123 21 + 567 432 - * Stack States: 123 21 144 567 432 135 19440 Empty 123 144 567 144 144

  8. Post-fix Calculator Program • Pseudo-code for In-fix calculator (See K&R, pg 75) while (next the character is not an EOF) if (number) push it on the stack else if (operator) pop operand(s) /* may be one or two */ do operation push result back on the stack else if (newline) pop and print value from top of stack else error

  9. Post-fix Calculator Program • See K&R, page 76 and then page 78 • Operand order is not important for some ops + , *, &, | • Operand order is important for some ops! -, /, % • There is only one operand for some ops ~, !,

  10. Post-fix Calculator Program • Break down the pseudo-code into functions • push / pop • get next number or operator, i.e. get op ( ) • getch / ungetch • Both push and pop access a set of variables for the stack  static external • Both getch and ungetch access a buffer for characters from stdin  static external

  11. Communication Between Functions • Sometimes closely related functions need to share access to variables in situations where they never call each other and therefore can’t pass arguments to the shared variables • Ex: push and pop share the stack variables • Declare “static” variables inside source file for the functions (before / outside the braces for any of the functions)  “Static External” per K&R • Makes them “globally” accessible to all functions in the source file (similar to Java class variables)

  12. Multi-Module ProgramsGlass & Ables, pg 397(3 ed.) • To compile all .c files and create executable gcc main.c getop.c stack.c getch.c –o calcit • To compile only one and create executable with objects of previously compiled files gcc main.c getop.o stack.o getch.o –o calcit • To build an executable from a complex set of separate files skipping any unneeded steps make –f makefile (makefile documents build rules)

  13. Dependency Tree for a Build calcit main.o getop.o stack.o getch.o main.c getop.c stack.c getch.c getop.h stack.h getch.h

  14. Make (Glass, pg 347) • makefile rule format target: dependency list for needed files command list to create target • Example: calcit: main.o getop.o stack.o getch.o gcc main.o … getch.o -o calcit • Note: Must use tabs to indent – not spaces

  15. Make • CC is defined early in the makefile with the line: CC = gcc • Then using $(CC) causes substitution calcit: main.o getop.o stack.o getch.o $(CC) main.o getop.o stack.o getch.o -o calcit

  16. Make • The user can type the command "make", or make with a named target, for example: “make getop.o” to cause the rules leading up to the target getop.o to be executed, if needed. • When user types "make" without a target name, the FIRST rule listed will be the default target constructed. Thus, the "calcit" rule should be the first rule in the makefile

  17. Make • At the end of the makefile, there is a rule with a target name "clean". clean: rm *.o • Since "clean" is not a file: • There is no dependency list (ages of files don't matter) • It is called when you give the command "make clean". • It deletes .o files to reduce the clutter in the directory.

  18. Header Files • Principles for contents of .h files • Each .h file includes all of the function prototypes and symbolic constants needed to invoke those functions int function (int ); /* no code for function */ #define VALUE0_FOR_ARGUMENT 0 • No statements that allocate memory in .h files!! • Don’t use a single “calc.h” file (K&R, pg 82) • A reusable solution shown in “Dependency Tree” • An xxx.h file for each xxx.c source file of functions • #include getop.h in getop.c and all source files that call functions provided in the getop.c source file (i.e. main)

  19. Header Files – Math Library • When you want to use math functions Example: SIN( ) or SQRT( ) • Write #include <math.h> • But also invoke compiler with special flag: gcc -lm . . . (lm means library, math)

  20. Back to Post-fix Calculator Program • Look at getop, getch, ungetch functions • In getop( ), we try to input a char string for a number. But if the string ends with a '+', we want to put that back in stdin, somehow, for a successive invocation of getch • We do this with ungetch( )

  21. getch.c #define BUFSIZE 100 static char buf[BUFSIZE]; /* buffer for ungetch */ static int bufp = 0; /* next free position in buf */ /* get a possibly pushed back char from stdin */ int getch(void) { return (bufp > 0) ? buf[--bufp] : getchar( ); }

  22. getch.c /* push char back for getch later */ void ungetch(int c) { if (bufp >= BUFSIZE) printf("ungetch: too many characters in buffer.\n"); else buf[bufp++] = c; }

More Related