• Stars
    star
    250
  • Rank 162,397 (Top 4 %)
  • Language
    C
  • Created over 10 years ago
  • Updated about 5 years ago

Reviews

There are no reviews yet. Be the first to send feedback to the community and the maintainers!

Repository Details

Book code for Test-Driven Development for Embedded C

tddec-code

Book code for Test-Driven Development for Embedded C

This directory structure is not exactly the same as the structure of the code in Test-Driven Development for Embedded C. I flattened the structure so that there are no projects inside of projects.

Instructions for building the book's code with Docker

With the ever changing C/C++ environments, it has been a challenge to keep the TDD-EC code building. To make it easy to get started I'm using Docker to take out the guess work.

A cool thing about using Docker is that you don't have to install other compilers on your system, though you do have to install docker. The compilers and tools are hidden in the docker container.

Install Docker

I use a Mac, so I've installed docker for Mac. It was easy. I expect the Linux install to also be easy. For Windows you can either use the newer Docker for Windows, if you have Hyper-V, or the older VirtualBox based Docker Toolbox. Ideally you should use 64-bit Windows. (If you get this workig with Windows and Docker, please contribute your instructions.)

You might be thinking, why should I go to all this trouble? You should because it's not that much trouble and then you will have a great unit test environment that does not interfere with your native environment.

If you do find differences or errors please let me know.

Docker Install Information

Get a gcc version 7 docker image

From the Mac or Linux command line (with docker running), do these commands. Depending on how your account is setup, you may need to run docker as sudo.

docker pull gcc:7
docker run gcc:7 gcc -v

You should see something like this for the gcc version report:

Using built-in specs.
COLLECT_GCC=gcc
COLLECT_LTO_WRAPPER=/usr/local/libexec/gcc/x86_64-linux-gnu/7.3.0/lto-wrapper
Target: x86_64-linux-gnu
Configured with: /usr/src/gcc/configure --build=x86_64-linux-gnu --disable-multilib --enable-languages=c,c++,fortran,go
Thread model: posix
gcc version 7.3.0 (GCC)

Clone tddec-code repo

You'll need to clone this repo (not download a zip or tarball) because the repo includes the CppUTest git submodule.

From the Mac or Linux command line, get tddec-code and cpputest. Use a different directory if you like.

MYPROJECTS=myprojects
mkdir -p $MYPROJECTS
cd $MYPROJECTS
git clone --recurse-submodules https://github.com/jwgrenning/tddec-code.git

You should be able to see the tddec-code contents including the cpputest contents.

Build CppUTest and the TDD-EC book code in the Docker container.

From the Mac or Linux command line (with docker running), run these commands. You will see CppUTest build and run its tests and then the TDD-EC book code will build and run its tests.

MOUNT_DIR=$PWD:/usr/src
WORKING_DIR=/usr/src/tddec-code
export CPPUTEST_HOME=$WORKING_DIR/cpputest
docker run -it  -v $MOUNT_DIR -w $WORKING_DIR -e CPPUTEST_HOME gcc:7 make

Your current working directory ($PWD) is mounted as a volume in the container using directory /usr/src. That directory lives in the docker container as well as in your native environment.

Or from the Windows cmd.exe shell (with docker running), run these commands. You will see CppUTest build and run its tests and then the TDD-EC book code will build and run its tests. It assumes you have pulled the sources into folder C:\Users\YourName\tddec-code.

set PWD=/c/Users/YourName
set MOUNT_DIR=%PWD%:/usr/src
set WORKING_DIR=/usr/src/tddec-code
set CPPUTEST_HOME=%WORKING_DIR%/cpputest
docker run -it  -v %MOUNT_DIR% -w %WORKING_DIR% -e CPPUTEST_HOME gcc:7 make

Your current working directory (%PWD%) is mounted as a volume in the container using directory /usr/src. That directory lives in the docker container as well as in your native environment.

Build any sub-project from a command line

From the Mac or Linux command line (with docker running)

docker run -it -v $MOUNT_DIR -w $WORKING_DIR -e CPPUTEST_HOME gcc:7 /bin/bash

Or from the Windows cmd.exe command line (with docker running)

docker run -it -v %MOUNT_DIR% -w %WORKING_DIR% -e CPPUTEST_HOME gcc:7 /bin/bash

From the docker container bash prompt, go to any subdirectory like this:

cd code-t2
make

You can now play to your hearts content and use this setup to bootstrap your own test environmentfigure that out. You can make changes to the code-t2 files, flip over to the Docker command line and run make.

Instead of gcc:7, you can try other versions of gcc or clang if you like. For now you are on your own in those other environments.




If you want to try without docker, you might run into the problem of

moving targets for CppUTest, gcc and clang.



The CppUTest install has changed a lot since my book was written. So you'll have to install CppUTest locally for use with the book code.

  1. Download CppUTest from cpputest.org. Put CppUTest somewhere like ~/tools/cpputest

  2. Build CppUTest locally using these instructions not the instructions from cpputest.org.

cd ~/tools/cpputest
autoreconf . -i
./configure
make tdd
  1. Define an environment variable to point to where you put CppUTest, like
export CPPUTEST_HOME=~/tools/cpputest

Under Windows you can use the control panel or setx utility to set the environment variable. Make sure to restart your IDE, or terminal window.

  1. Unzip the code into some directory /path/to/code/root. Make sure the path contains no spaces. You should end up with this directory structure:
    /path/to/code/root/code
    /path/to/code/root/code-t0
    /path/to/code/root/code-t1
    /path/to/code/root/code-t2
    /path/to/code/root/code-t3
    /path/to/code/root/SandBox
  1. Build the examples
% cd /path/to/code/root
% make

To do a clean build

% cd /path/to/code/root
% make clean all

To make a specific project from the command line (code-t0 for example)

cd /path/to/code/root/code-t0
make

Warning problems with gcc/clang

With the compilers adding more and more static analysis, each compiler may issue warnings like this:

#undef __USE_MINGW_ANSI_STDIO
       ^
/path/to/tools/cpputest-3.8/include/CppUTest/CppUTestConfig.h:265:9: error: macro name
      is a reserved identifier [-Werror,-Wreserved-id-macro]
#define __USE_MINGW_ANSI_STDIO 1
        ^
In file included from <built-in>:1:
/path/to//tools/cpputest-3.8/include/CppUTest/MemoryLeakDetectorNewMacros.h:58:9: error: 
      keyword is hidden by macro definition [-Werror,-Wkeyword-macro]
#define new new(__FILE__, __LINE__)
        ^

The -Werror flag tells the compiler to treat warning as errors, causing the compile to fail. You could turn that off, but before you do that, you can tell the compiler to not complain about specific errors.

For the two errors shown in the above error output, from the (cygwin, mongx, linux, mac) command line set the initial value for CPPUTEST_WARNINGFLAGS like this:

export CPPUTEST_WARNINGFLAGS="-Wno-reserved-id-macro -Wno-keyword-macro"

Notice that adding "no-" to the warning flags from the error output disables that warning. Generally this can be used to disable any new warning that comes up.

Run make again. Once you clear the warnings you should get a clean build. You could add any of your needed compiler flag setting to CppUTestCompileFlags.mk.

Unknown warnings in gcc/clang

If your compiler does not support some warning flag in the released makefiles, you can get an error about it. The -Wno-unknown-warning-option is in CppUTestCompileFlags.mk, but may not be supported. You'll need to comment out each flag the compiler complains about in CppUTestCompileFlags.mk.


For eclipse users

You should be able to import the whole directory tree as a project. Make sure to use the options for a makefile project. You do not want eclipse managing this unit test build for you.


For Visual Studio users

The ".dsp" and ".dsw" files provided for Visual Studio version 6 are likely out of date. VisualStudio usually can upgrade those. If not and you are knowledgeable about VS you should be able to get the code to build without a lot of trouble.

You'll want to first build CppUTest and then define CPPUTEST_HOME in your environment variables. VS must be restarted for it to see CPPUTEST_HOME. You may have to adjust how the book code test projects reference the library holding CppUTest. Get code-t0 to work first, then the others will be easier.

If you want to make Visual Studio support files for all the projects, please fork the repo make the changes and send me a pull request.

  1. Reading the code

For everybody

When you look at the downloaded code, you will see some distracting comments throughout the code that look like this:

/* START: codeIncludeTag */
...
... code ...
...
/* END: codeIncludeTag */

These allow the code to be kept separate from the book text. This keeps the examples compilable and avoids book/code conflicts. The "START: codeIncludeTag" and "END: codeIncludeTag" tags identify code that is pulled into the book during the automated book build process. Try to ignore them.

You will also notice some code that has been turned off using conditional compilation. It looks like this:

#if 0 /* START: IsOnTake1 */
BOOL LedDriver_IsOn(int ledNumber)
{
    return TRUE;
}
#endif /* END: IsOnTake1 */

Code in the #if 0 block is a snapshot of code that has since evolved. It may or may not have code include tags. In this book, the code is always evolving. I've left the latest version at the top of the file and move the intermediate code snippets further down the file.

  1. Experiment

SandBox - project

Here is a project ready for you to experiment with CppUTest any my version of Unity


About Unity test framework

The version in the book is not the supported version maintained by the guys at throwtheswitch.com. If you want a supported version, please go to throwtheswitch.com

Please report any problems on the book's forum: www.pragprog.com/titles/jgade.