Cppcheck is an analysis tool for C/C++ code. It provides unique code analysis to detect bugs and focuses on detecting undefined behaviour and dangerous coding constructs. The goal is to detect only real errors in the code (i.e. have very few false positives). Cppcheck is designed to be able to analyze your C/C++ code even if it has non-standard syntax (common in embedded projects).
We don't know which approach (project file or manual configuration) will give you the best results. It is recommended that you try both. It is possible that you will get different results so that to find most bugs you need to use both approaches.
This option is only valid when supplying an input directory. To ignore multiple directories supply the -i multiple times. The following command ignores both the src/b and src/c directories.
By default Cppcheck uses an internal C/C++ parser. However it is possible to use the Clang parser instead.
Install `clang`. Then use Cppcheck option `--clang`.
Technically, Cppcheck will execute `clang` with its `-ast-dump` option. The Clang output is then imported and converted into our normal Cppcheck format. And then normal Cppcheck analysis is performed on that.
suggestions about defensive programming to prevent bugs
**style**
stylistic issues related to code cleanup (unused functions, redundant code, constness, and such)
**performance**
Suggestions for making the code faster. These suggestions are only based on common knowledge. It is not certain you'll get any measurable difference in speed by fixing these messages.
**portability**
portability warnings. 64-bit portability. code might work different on different compilers. etc.
**information**
Configuration problems. The recommendation is to only enable these during configuration.
The Cppcheck GUI has a few options that are not available in the command line directly. To use these options you can import a GUI project file. We want to keep the command line tool usage simple and limit the options by intention.
In the `Cppcheck GUI` you have the choice to only analyze a single debug configuration. If you want to use this choice on the command line then create a `Cppcheck GUI` project with this activated and then import the GUI project file on the command line.
If you use `--project` then Cppcheck will use the preprocessor settings from the imported project. Otherwise you'll probably want to configure the include paths, defines, etc.
By default Cppcheck will check all preprocessor configurations (except those that have #error in them). So the above code will by default be analyzed both with `A` defined and without `A` defined.
You can use `-D` and/or `-U` to change this. When you use `-D`, cppcheck will by default only check the given configuration and nothing else. This is how compilers work. But you can use `--force` or `--max-configs` to override the number of configurations.
To add an include path, use `-I`, followed by the path.
Cppcheck's preprocessor basically handles includes like any other preprocessor. However, while other preprocessors stop working when they encounter a missing header, cppcheck will just print an information message and continues parsing the code.
The purpose of this behaviour is that cppcheck is meant to work without necessarily seeing the entire code. Actually, it is recommended to not give all include paths. While it is useful for cppcheck to see the declaration of a class when checking the implementation of its members, passing standard library headers is highly discouraged because it will result in worse results and longer checking time. For such cases, .cfg files (see below) are the better way to provide information about the implementation of functions and types to cppcheck.
You can suppress certain types of errors. The format for such a suppression is one of:
[error id]:[filename]:[line]
[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 --template=gcc command line flag. The id is shown in brackets.
The filename may include the wildcard characters \* or ?, which match any sequence of characters or any single character respectively. It is recommended that you use "/" as path separator on all operating systems. The filename must match the filename in the reported warning exactly. For instance, if the warning contains a relative path then the suppression must match that relative path.
Suppressions can also be added directly in the code by adding comments that contain special keywords. Before adding such comments, consider that the code readability is sacrificed a little.
This code will normally generate an error message:
void f() {
char arr[5];
arr[10] = 0;
}
The output is:
cppcheck test.c
[test.c:3]: (error) Array 'arr[5]' index 10 out of bounds
There is a possible null pointer dereference at line 3. Cppcheck can show how it came to that conclusion by showing extra location information. You need to use both --template and --template-location at the command line.
Write all locations. Each location is written in [{file}:{line}] format and the locations are separated by ->. For instance it might look like: [multiline.c:8] -> [multiline.c:9] -> [multiline.c:3]
**{inconclusive:text}**
If warning is inconclusive then the given text is written. The given text can be any arbitrary text that does not contain }. Example: {inconclusive:inconclusive,}
[cert.py](https://github.com/danmar/cppcheck/blob/main/addons/cert.py) checks for compliance with the safe programming standard [SEI CERT](http://www.cert.org/secure-coding/).
[misra.py](https://github.com/danmar/cppcheck/blob/main/addons/misra.py) is used to verify compliance with MISRA C 2012 - a proprietary set of guidelines to avoid such questionable code, developed for embedded systems.
Since this standard is proprietary, cppcheck does not display error text by specifying only the number of violated rules (for example, [c2012-21.3]). If you want to display full texts for violated rules, you will need to create a text file containing MISRA rules, which you will have to pass when calling the script with `--rule-texts` key. Some examples of rule texts files available in [tests directory](https://github.com/danmar/cppcheck/blob/main/addons/test/misra/).
You can also suppress some unwanted rules using `--suppress-rules` option. Suppressed rules should be set as comma-separated listed, for example: `--suppress-rules 21.1,18.7`. The full list of supported rules is available on [Cppcheck](http://cppcheck.sourceforge.net/misra.php) home page.
[y2038.py](https://github.com/danmar/cppcheck/blob/main/addons/y2038.py) checks Linux system for [year 2038 problem](https://en.wikipedia.org/wiki/Year_2038_problem) safety. This required [modified environment](https://github.com/3adev/y2038). See complete description [here](https://github.com/danmar/cppcheck/blob/main/addons/doc/y2038.txt).
[threadsafety.py](https://github.com/danmar/cppcheck/blob/main/addons/threadsafety.py) analyse Cppcheck dump files to locate thread safety issues like static local objects used by multiple threads.
When external libraries are used, such as WinAPI, POSIX, gtk, Qt, etc, Cppcheck doesn't know how the external functions behave. Cppcheck then fails to detect various problems such as leaks, buffer overflows, possible null pointer dereferences, etc. But this can be fixed with configuration files.
Cppcheck already contains configurations for several libraries. They can be loaded as described below. Note that the configuration for the standard libraries of C and C++, std.cfg, is always loaded by cppcheck. If you create or update a configuration file for a popular library, we would appreciate if you upload it to us.
You can create and use your own .cfg files for your projects. Use `--check-library` and `--enable=information` to get hints about what you should configure.
You can convert the XML output from cppcheck into a HTML report. You'll need Python and the pygments module (<http://pygments.org/)> for this to work. In the Cppcheck source tree there is a folder htmlreport that contains a script that transforms a Cppcheck XML file into HTML output.
[test1.cpp:10] (error) Function 'foo' is called, can not determine that its contract 'x>0' is always met. [bughuntingFunctionCall]
## Adding a contract in the GUI
There are two ways:
* Open the "Contracts" tab at the bottom of the screen. Find the function in the listbox and double click on it.
* Right click on a warning and click on "Edit contract.." in the popup menu. This popup menu item is only available if the warning is not inconclusive.
The data flow analysis can analyze simple functions completely but complex functions are not analyzed completely (yet). The data flow analysis will be continuously improved in the future but it will never be perfect.
It is likely that you will get false alarms caused by incomplete data flow analysis. Unfortunately it is unlikely that such false alarms can be fixed by contracts.