Cppcheck
2009-11-14
Introduction
Cppcheck is an analysis tool for C/C++ code. Unlike C/C++ compilers
and many other analysis tools, we don't detect syntax errors. Cppcheck
only detects the types of bugs that the compilers normally fail to detect.
The goal is no false positives.
Supported platforms:
You can check non-standard code that includes various compiler
extensions, inline assembly code, etc.
Cppcheck is supposed to be compilable by any C++ compiler which
handles the latest C++ standard.
Cppcheck is supposed to work on any platform that has sufficient
cpu and memory.
Getting started
First test
Here is a simple code
int main()
{
char a[10];
a[10] = 0;
return 0;
}
If you save that into file1.c and
execute:
cppcheck file1.c
The output from cppcheck will then be:
Checking file1.c...
[file1.c:4]: (error) Array index out of bounds
Checking all files in a folder
Normally a program has many sourcefiles. And you want to check
them all. Cppcheck can check all sourcefiles in a directory:
cppcheck path
If "path" is a folder then cppcheck will check all sourcefiles in
this folder.
Checking path/file1.cpp...
1/2 files checked 50% done
Checking path/file2.cpp...
2/2 files checked 100% done
Possible errors
By default, an error is only reported when
Cppcheck is sure there is an
error.
When a likely issue is discovered Cppcheck
bails out without reporting this issue - to prevent false positives.
When --all is given, these issues are
reported.
The --all flag is useful but makes
Cppcheck more unreliable, you will probably get false
positives.
Here is a simple code example:
void f()
{
Fred *f = new Fred;
}
Execute this command:
cppcheck --all file1.cpp
The output from Cppcheck:
[file1.cpp:4]: (possible error) Memory leak: fred
The "possible" means that the reported message may be wrong (if
Fred has automatic deallocation it is not a memory leak).
Stylistic issues
By default Cppcheck will only check for bugs. There are also a few
checks for stylistic issues.
Here is a simple code example:
void f(int x)
{
int i;
if (x == 0)
{
i = 0;
}
}
To enable stylistic checks, use the --style flag:
cppcheck --style file1.c
The reported error is:
[file3.c:3]: (style) The scope of the variable i can be limited
Saving results in file
Many times you will want to save the results in a file. The
results are written to stderr and the progress messages are written to
stdout. So you can use the normal shell redirections to save to
file.
cppcheck file1.c 2> err.txt
Unused functions
This check will try to find unused functions. It is best to use
this when the whole program is checked, so that all usages is seen by
cppcheck.
cppcheck --unused-functions path
Multithreaded checking
If you have a multicore processor, it is a good idea to use the
-j flag. To use 4 threads to check the files in a
folder:
cppcheck -j 4 path
XML output
Cppcheck can generate the output in XML format.
Use the --xml flag when you execute cppcheck:
cppcheck --xml file1.cpp
The xml format is:
<?xml version="1.0"?>
<results>
<error file="file1.cpp" line="123" id="someError" severity="error" msg="some error text"/>
</results>
Attributes:
file
filename. Both relative and absolute paths are possible
line
a number
id
id of error. These are always valid symbolnames.
severity
one of: error / possible error / style / possible style
msg
the error message
Reformatting the output
If you want to reformat the output so it looks different you can use
templates.
To get Visual Studio compatible output you can use "--template
vs":
cppcheck --template vs gui/test.cpp
This output will look like this:
Checking gui/test.cpp...
gui/test.cpp(31): error: Memory leak: b
gui/test.cpp(16): error: Mismatching allocation and deallocation: k
To get gcc compatible output you can use "--template gcc":
cppcheck --template gcc gui/test.cpp
The output will look like this:
Checking gui/test.cpp...
gui/test.cpp:31: error: Memory leak: b
gui/test.cpp:16: error: Mismatching allocation and deallocation: k
You can write your own pattern (for example a comma-separated
format):
cppcheck --template "{file},{line},{severity},{id},{message}" gui/test.cpp
The output will look like this:
Checking gui/test.cpp...
gui/test.cpp,31,error,memleak,Memory leak: b
gui/test.cpp,16,error,mismatchAllocDealloc,Mismatching allocation and deallocation: k
Suppressions
If you want to filter out certain errors you can suppress these.
First you need to create a suppressions file.
[error id]:[filename]
[error id]:[filename2]
[error id]
The error id is the id that you want to suppress.
The easiest way to get it is to use the --xml command
line flag. Copy and paste the id string from the xml
output.
Here is an example:
memleak:file1.cpp
exceptNew:file1.cpp
uninitvar
You can then use the suppressions file:
cppcheck --suppressions suppressions.txt src/
Leaks
Looking for memory leaks and resource leaks is a key feature of
Cppcheck. Cppcheck can detect many common mistakes by default. But through
some tweaking you can both increase the capabilities and also reduce the
amount of false positives.
Automatic deallocation
A common cause of false positives is when there is automatic
deallocation. Here is an example:
void Form1::foo()
{
QPushButton *pb = new QPushButton("OK", this);
}
Cppcheck can't see where the deallocation is when you have such
code.
If you execute:
cppcheck --all file1.cpp
The result will be:
[file1.cpp:4]: (possible error) Memory leak: pb
The "possible" in the error message means that the message may be
a false positive.
To avoid such false positives, create a textfile and write the
names of the automaticly deallocated classes.
QLabel
QPushButton
Then execute cppcheck with the --auto-dealloc
option:
cppcheck --auto-dealloc qt.lst file1.cpp
Userdefined allocation/deallocation functions
Cppcheck understands many common allocation and
deallocation functions. But not all.
Here is example code that might leak memory or resources:
void foo(int x)
{
void *f = CreateFred();
if (x == 1)
return;
DestroyFred(f);
}
If you analyse that with Cppcheck it won't find any leaks:
cppcheck --all fred1.cpp
You can add some custom leaks checking by providing simple
implementations for the allocation and deallocation functions. Write
this in a separate file:
void *CreateFred()
{
return malloc(100);
}
void DestroyFred(void *p)
{
free(p);
}
When Cppcheck see this it understands that CreateFred will return
allocated memory and that DestroyFred will deallocate memory.
Now, execute Cppcheck this way:
cppcheck --append=fred.cpp fred1.cpp
The output from cppcheck is:
Checking fred1.cpp...
[fred1.cpp:5]: (error) Memory leak: f
Exception safety
Cppcheck has a few checks that ensure that you don't break the basic
guarantee of exception safety. We don't have any checks for the strong
guarantee yet.
Example:
Fred::Fred() : a(new int[20]), b(new int[20])
{
}
By default cppcheck will not detect any problems in that
code.
To enable the exception safety checking you can use
--enable:
cppcheck --enable fred.cpp
The output will be:
[fred.cpp:3]: (style) Upon exception there is memory leak: a
If an exception occurs when b is allocated,
a will leak.