CMSC 201 - C Coding Standards
General Comments
Every programming department has a some set of standards or conventions
that programmers are expected to follow. The purpose of these standards
is make programs readable and maintainable. After all, you may be the
programmer who maintains your own code more than 6 months after having
written the original. While no two programming departments
standards/conventions may be the same, it is important that all members
of the department follow the same standards. Neatness counts ! ! !
At UMBC, the following standards have been created and are followed
in CMSC 201.
Part of every project grade
is based upon how well these standards are followed.
It is your responsiblity to understand these standards.
If you have any questions, ask your instructor,
any of the TAs or the Help Center.
Naming Conventions
- Use meaningful variable names ! !
For example, if your program needs a variable to represent
the radius of a circle, call it 'radius', NOT 'r' and NOT 'rad'.
The use of single letter variables is forbidden, except as simple 'for' loop
indices.
The use of obvious, common, meaningful abbreviations is permitted.
For example, 'number' can be abbreviated as 'num' as in 'numStudents'.
- Begin variable names with lowercase letters
- Begin function names with uppercase letters
- Use all uppercase for symbolic constants (#define)
- Use all uppercase for typedefs
- Do not use global variables
- Be consistent!
- Separate "words" within identifiers with underscores or mixed upper
and lowercase. Examples:
2-"word" variable name: grandTotal or grand_total
2-"word" function name: ProcessError or Process_Error
Use of Whitespace
The prudent use of whitespace (blank lines as well as space)
goes a long way to making your program readable.
- Use blank lines to separate major parts of a source file or function.
- Separate declarations from executable statements with a blank line.
- DO NOT use tabs (unless your editor changes TABs to 3 or 4 SPACEs).
TABs may be interpreted differently by different editors.
- Use 3 or 4 spaces for each level of indentation
- Preprocessor directives, function prototypes, and headers of function
definitions begin in column 1.
- All statements in the body of a function are indented 3 or 4 spaces.
Statements inside of a loop or part of an "if" structure are indented
further.
- Use spaces around all operators. For example, write
x = y + 5;, NOT x=y+5;
- Using the emacs or xemacs editor along with the the .emacs file
provided for you will automatically indent your code appropriately.
Use of Braces
- Always use braces to mark the beginning and end of a loop or "if"
structure, even when not required.
- See the indentation standard for
appropriate placement of braces.
Comments
Comments are the programmers main source of documentation. Comments for files,
functions and code are described below.
File Header Comments
EVERY source file (.c and .h files) should contain an opening comment
describing the contents of the file and other pertinent information.
This "file header comment" MUST include the following information.
- The file name
- Your name
- The date the file was created
- Your SSN (last 4-digits okay i.e. xxx-xx-1234)
- Your section number
- Your UMBC e-mail address
For example
/*****************************************
** File: proj1.c
** Author: Bob Smith
** Date: 6/22/99
** SSN: 123-45-6789
** Section:304
** E-mail: bsmith22@gl.umbc.edu
**
** This file contains the main driver program for project 1.
** This program reads the file specified as the first command line
** argument, counts the number of words, spaces, and characters and
** displays the results in the format specified in the project description
**
** Other files required are
** 1. chars.c -- routines that count each type of character
** 2. words.c -- routines that count each word
** 3. proj1.h -- prototypes for all functions needed by this file
**
***********************************************/
Function Header Comments
EACH FUNCTION must have a header comment includes the following:
- function name
- a description of what the function does
- a description of the function's inputs
- a description of the function's outputs
- side effect of the function (if any -- this should be rare)
For example:
/************************************************
** CircleArea --
** This function calculates the area of a circle
** with the specified radius
** Inputs: the circle's radius as a parameter
** Output: the circle's area as the return value
**************************************************/
In-Line Comments
"In-line" comments are used to clarify what your code does,
NOT how it does it. Well structured code will be broken into logical sections
that perform a simple task. Each of these sections of code (typically
starting with an 'if' statement, or a loop or a 'switch' should be documented.
A particularly important line of code should also be commented.
Do not comment every line of code.
Trivial comments
(/** increment x **/) are worse than no comments at all.
An in-line comment appears above the code to which is applies and is
indented to the same level as the code.
For example:
/* check every element of the array */
for (i = 0; i < ARRAYSIZE; i++)
{
/* if it's odd, add one
** if even, do nothing */
if (array[i] % 2 == 1)
{
array[i]++;
}
}
Comments for #defines and variables
#defines may be commented on the same line as which they occur.
Such comments should be aligned with the comments for other #defines.
Once again -- Neatness Counts ! !
For example
#define NUMSTUDENTS 55 /* number of students in the class */
#define NUMSECTIONS 12 /* number of sections of CMSC201 */
#define NUMTAS 8 /* number of graduate student TAs */
variables may be commented in the same style as #defines
IF THEY ARE DEFINED ONE PER LINE as in the example below
int total; /* total students this section */
FIlE *ifp; /* input file pointer */
double average; /* class's final exam average */