The standard predefined macro __FILE__ available in C shows the full path to the file. Is there any way to shorten the path and get just the filename? I mean instead of


I see



  • 36
    It would be really really great to find a preprocessor-only solution. I'm afraid that the suggestions based on string operations will execute at runtime.
    – cdleonard
    Commented Dec 13, 2011 at 11:26
  • 9
    Since you're using gcc, I think you can change what __FILE__ contains by changing the filename you pass on the command line. So instead of gcc /full/path/to/file.c, try cd /full/path/to; gcc file.c; cd -;. Of course there's a bit more to it than that if you're relying on gcc's current directory for the include path or output file location. Edit: the gcc docs suggest that it's the full path, not the input file name argument, but that's not what I'm seeing for gcc 4.5.3 on Cygwin. So you may as well try it on Linux and see. Commented Dec 13, 2011 at 11:44
  • 4
    GCC 4.5.1 (built for arm-none-eabi specifically) uses the exact text of the file name on its command line. In my case it was the IDE's fault for invoking GCC with all file names fully qualified instead of putting the current directory somewhere sensible (location of the project file, perhaps?) or configurable and using relative paths from there. I suspect a lot of IDEs do that (especially on Windows) out of some sort of discomfort related to explaining where the "current" directory really is for a GUI app.
    – RBerteig
    Commented Sep 13, 2012 at 21:03
  • 3
    @SteveJessop - hope you read this comment. I have a situation where I see __FILE__ printed as ../../../../../../../../rtems/c/src/lib/libbsp/sparc/leon2/../../shared/bootcard.c and I want to know where gcc compiled the file such that this file is relatively located like it is shown.
    – Chan Kim
    Commented Sep 14, 2014 at 4:32
  • 2
    This question is not a dupe of the linked one. For one, the linked one is about C++, and the answers consequently delves into C++ macro esoterica. Second, there is nothing in OP's question which mandates a macro solution. It only solemnly points out a problem and asks an open ended question. Commented Jun 8, 2015 at 17:53

31 Answers 31



#include <string.h>

#define __FILENAME__ (strrchr(__FILE__, '/') ? strrchr(__FILE__, '/') + 1 : __FILE__)

For Windows use '\\' instead of '/'.

  • 18
    / is a valid path separator in Windows. Commented Dec 13, 2011 at 11:56
  • 11
    / is a valid path separator in file names passed to CreateFile() and so forth. However, that doesn't always mean that you can use / just anywhere in Windows since there is a tradition (inherited from CPM) of using / as the argument lead in at the command prompt. But a quality tool would be careful to split file names at both slash and backslash characters to avoid any problems for folks that do manage to use /.
    – RBerteig
    Commented Sep 13, 2012 at 20:53
  • 6
    @AmigableClarkKant, no you can mix both separators in the same file name.
    – RBerteig
    Commented Sep 13, 2012 at 20:55
  • 38
    This could be shortened to strrchr("/" __FILE__, '/') + 1. By prepending "/" to __FILE__, strrchr is be guaranteed to find something, and thus the conditional ?: is no longer needed. Commented Jun 22, 2015 at 15:03
  • 9
    I wonder if the optimizer is able to optimize the calls to strchr and strrchr. Not to mention references to the __FILENAME__ macro. If not, this solution is 100% bloat.
    – l33t
    Commented Nov 9, 2018 at 20:28

Here's a tip if you're using cmake. From: http://public.kitware.com/pipermail/cmake/2013-January/053117.html

I'm copying the tip so it's all on this page:

  ${CMAKE_SOURCE_DIR}/,,$(abspath $<))\"'")

If you're using GNU make, I see no reason you couldn't extend this to your own makefiles. For example, you might have a line like this:

CXX_FLAGS+=-D__FILENAME__='\"$(subst $(SOURCE_PREFIX)/,,$(abspath $<))\"'"

where $(SOURCE_PREFIX) is the prefix that you want to remove.

Then use __FILENAME__ in place of __FILE__.

  • 17
    I am afraid then this doesn't work for the FILE referenced in header file. Commented Sep 12, 2013 at 1:55
  • 5
    Agree with @BaiyanHuang but not sure that the comment is clear. __FILE__ is not a simple preprocessor symbol, it changes to the current file is often used for emitting the name of the current file (header or source module). This __FILENAME__ would only have the outermost source
    – nhed
    Commented May 1, 2014 at 19:59
  • 5
    This answer's solution is not portable since it uses Bourne shell escapes. Better to use CMake to implement it in a clean and portable way. See define_file_basename_for_sources macro answer here. Commented Jan 16, 2015 at 18:29
  • 4
    The GNU Make variant of this is CFLAGS += -D__FILENAME__=\"$(notdir $<)\"
    – ctuffli
    Commented Jul 7, 2017 at 20:56
  • 4
    @firegurafiku On embedded platforms, code size is often more of a constraint than speed. If you have debug statements in each file, that can quickly balloon file-size up with full-path strings. I'm dealing with such a platform at the moment, and referencing __FILE__ everywhere is blowing out of code-space.
    – mrtumnus
    Commented Feb 2, 2018 at 14:45

GCC 8 now has the -fmacro-prefix-map and -ffile-prefix-map options:


When preprocessing files residing in directory old, expand the __FILE__ and __BASE_FILE__ macros as if the files resided in directory new instead. This can be used to change an absolute path to a relative path by using . for new which can result in more reproducible builds that are location independent. This option also affects __builtin_FILE() during compilation. See also -ffile-prefix-map.


When compiling files residing in directory old, record any references to them in the result of the compilation as if the files resided in directory new instead. Specifying this option is equivalent to specifying all the individual -f*-prefix-map options. This can be used to make reproducible builds that are location independent. See also -fmacro-prefix-map and -fdebug-prefix-map.

Setting an invalid path for -ffile-prefix-map (-fdebug-prefix-map) will break debugging unless you tell your debugger how to map back. (gdb: set substitue-path, vscode: "sourceFileMap").

If your intent is to only clean up __FILE__ just use -fmacro-prefix-map.

Example: So for my Jenkins builds I will add -ffile-prefix-map=${WORKSPACE}/=/, and another to remove the local dev package install prefix.

NOTE Unfortunately the -ffile-prefix-map and -fmacro-prefix-map options are only available in GCC 8 onwards. For, say, GCC 5, we only have -fdebug-prefix-map which does not affect __FILE__.

  • 4
    Option -ffile-prefix-map indeed implies both -fdebug-prefix-map and -fmacro-prefix-map options. See also the references at reproducible-builds.org/docs/build-path The GCC bug that tracks -fmacro-prefix-map and -ffile-prefix-map is gcc.gnu.org/bugzilla/show_bug.cgi?id=70268
    – Lekensteyn
    Commented Jan 21, 2019 at 10:26
  • 3
    If your compiler supports this, like any decently recent version of GCC or Clang does, you should use this instead of the other solutions. It is so much more elegant and lightweight.
    – ocroquette
    Commented Jun 1, 2022 at 16:48

I have just thought of a great solution to this that works with both source and header files, is very efficient and works on compile time in all platforms without compiler-specific extensions. This solution also preserves the relative directory structure of your project, so you know in which folder the file is in, and only relative to the root of your project.

The idea is to get the size of the source directory with your build tool and just add it to the __FILE__ macro, removing the directory entirely and only showing the file name starting at your source directory.

The following example is implemented using CMake, but there's no reason it wouldn't work with any other build tools, because the trick is very simple.

On the CMakeLists.txt file, define a macro that has the length of the path to your project on CMake:

# The additional / is important to remove the last character from the path.
# Note that it does not matter if the OS uses / or \, because we are only
# saving the path size.

On your source code, define a __FILENAME__ macro that just adds the source path size to the __FILE__ macro:


Then just use this new macro instead of the __FILE__ macro. This works because the __FILE__ path will always start with the path to your CMake source dir. By removing it from the __FILE__ string the preprocessor will take care of specifying the correct file name and it will all be relative to the root of your CMake project.

If you care about the performance, this is as efficient as using __FILE__, because both __FILE__ and SOURCE_PATH_SIZE are known compile time constants, so it can be optimized away by the compiler.

The only place where this would fail is if you're using this on generated files and they're on a off-source build folder. Then you'll probably have to create another macro using the CMAKE_BUILD_DIR variable instead of CMAKE_SOURCE_DIR.

  • 14
    I didn't understand this at first. I coded up examples and ran them against gcc and clang and they work. I also experiment with just appending various literal numeric values, and that behaves as I expected. Then it finally dawned on me. __FILE__ is a pointer to an array of bytes. So adding a numeric literal is just pointer addition. Very clever @RenatoUtsch
    – Daniel
    Commented Jul 2, 2018 at 15:30
  • 2
    It works only if a source file is under cmake list directory. If a source file is outside then it will break, might with access outside of a literal string. So be careful with that.
    – Andry
    Commented Jan 23, 2019 at 17:17
  • It actually does not reduce the code size. I guess the whole path is still compiled into the binary, just the pointer is modified.
    – Tarion
    Commented Feb 20, 2019 at 10:29
  • 1
    @RenatoUtsch The project I'm working on has a change which just specifies the file name, but has the disadvantage of giving the C file name to the header too. The change was made in order to get reproducible builds. So with gcc with -O2, would the string be indeed optimized and the build made reproducible? Commented Dec 4, 2019 at 15:34
  • 1
    Changed macro to #define __FILENAME__ ((__FILE__) + (SOURCE_PATH_SIZE)) to eliminate the clang complaint about integers being added to strings. Also added a #ifndef SOURCE_PATH_SIZE #define SOURCE_PATH_SIZE 0 #endif to keep clang from thinking there is no definition. Now code shows up clean in the ide. Commented Dec 6, 2023 at 21:11


    int main()
         printf("%s\n", &__FILE__[get_file_name_offset(__FILE__)]);

Code generates a compile time offset when:

  • gcc: at least gcc6.1 + -O1

  • msvc: put result into constexpr variable:

        constexpr auto file = &__FILE__[get_file_name_offset(__FILE__)];
        printf("%s\n", file);
  • clang: insists on not compile time evaluation

There is a trick to force all 3 compilers does compile time evaluation even in the debug configuration with disabled optimization:

    namespace utility {

        template <typename T, T v>
        struct const_expr_value
            static constexpr const T value = v;


    #define UTILITY_CONST_EXPR_VALUE(exp) ::utility::const_expr_value<decltype(exp), exp>::value

    int main()
         printf("%s\n", &__FILE__[UTILITY_CONST_EXPR_VALUE(get_file_name_offset(__FILE__))]);


  • 1
    You can define one more helper macro #define LEAF(FN) (&FN[UTILITY_CONST_EXPR_VALUE(get_file_name_offset(FN))]) and use it like this printf("%s\n", LEAF(__FILE__));
    – psyched
    Commented Apr 15, 2021 at 14:38
  • This should be the answer. It doesn't require cmake, modifying the makefile, or runtime computation. And it can be used by a new FILENAME macro to make it intuitive: #define __FILENAME__ (__FILE__ + get_file_name_offset(__FILE__)) Commented Nov 30, 2021 at 0:32
  • 1
    Note, that "utility" is also a namespace used by c++ std, so you might need to rename the namespace or msvc/the compiler might produce very weird errors. For me it produced errors with missing const. I used the LEAF macro to keep things more sane.
    – Jay-Pi
    Commented Nov 30, 2023 at 21:26
  • @Jay-Pi Not sure that you mean, but I use ::utility... as a global namespace reference and had no problems with that. Can you introduce a minimal example?
    – Andry
    Commented Apr 30 at 16:29
  • 1
    @Jay-Pi No, I thought you talk about latest c++ standard with some kind of new namespace like std::utility, but I could not find any. So I wonder why it should not work in previous C++ standards? The old MSVC has nothing special about the namespace usage rules. I always used :: prefix and had no problems with namespace intersection. May be you tried to include an include into opened std namespace? Or used using namespace std somewhere in the code? These are usual mistakes in the code.
    – Andry
    Commented May 3 at 12:59

At least for gcc, the value of __FILE__ is the file path as specified on the compiler's command line. If you compile file.c like this:

gcc -c /full/path/to/file.c

the __FILE__ will expand to "/full/path/to/file.c". If you instead do this:

cd /full/path/to
gcc -c file.c

then __FILE__ will expand to just "file.c".

This may or may not be practical.

The C standard does not require this behavior. All it says about __FILE__ is that it expands to "The presumed name of the current source file (a character string literal)".

An alternative is to use the #line directive. It overrides the current line number, and optionally the source file name. If you want to override the file name but leave the line number alone, use the __LINE__ macro.

For example, you can add this near the top of file.c:

#line __LINE__ "file.c"

The only problem with this is that it assigns the specified line number to the following line, and the first argument to #line has to be a digit-sequence so you can't do something like

#line (__LINE__-1) "file.c"  // This is invalid

Ensuring that the file name in the #line directive matches the actual name of the file is left as an exercise.

At least for gcc, this will also affect the file name reported in diagnostic messages.

  • 2
    Keith Thompson it is great solution, thank You. The only problem is that it seems that this macro cuts __LINE__ value by one. So __LINE__ written in line x gest evaluated to x-1. At least with gcc 5.4.
    – elklepo
    Commented Nov 6, 2018 at 23:23
  • 2
    @Klepak: You're right, and that's standard behavior. The directive "causes the implementation to behave as if the following sequence of source lines begins with a source line that has a line number as specified by the digit sequence". And it has to be a digit-sequence, so you can't use #line __LINE__-1, "file.c". I'll update my answer. Commented Nov 7, 2018 at 2:11
  • 1
    How would it be for other compilers like Clang, MSVC, or Intel C Compiler? Commented Dec 30, 2019 at 9:38
  • 5
    At line 0 of a file, I just do: #line 2 "name.cpp". Also as a side note it is nice to know that it does not contaminate other files that #include it (at least on MSVC)
    – Matt Eding
    Commented Apr 14, 2021 at 18:44

Purely compile time solution here. It's based on the fact that sizeof() of a string literal returns its length+1.

#define STRIPPATH(s)\
    (sizeof(s) > 2 && (s)[sizeof(s)-2] == '/' ? (s) + sizeof(s) - 1 : \
    sizeof(s) > 3 && (s)[sizeof(s)-3] == '/' ? (s) + sizeof(s) - 2 : \
    sizeof(s) > 4 && (s)[sizeof(s)-4] == '/' ? (s) + sizeof(s) - 3 : \
    sizeof(s) > 5 && (s)[sizeof(s)-5] == '/' ? (s) + sizeof(s) - 4 : \
    sizeof(s) > 6 && (s)[sizeof(s)-6] == '/' ? (s) + sizeof(s) - 5 : \
    sizeof(s) > 7 && (s)[sizeof(s)-7] == '/' ? (s) + sizeof(s) - 6 : \
    sizeof(s) > 8 && (s)[sizeof(s)-8] == '/' ? (s) + sizeof(s) - 7 : \
    sizeof(s) > 9 && (s)[sizeof(s)-9] == '/' ? (s) + sizeof(s) - 8 : \
    sizeof(s) > 10 && (s)[sizeof(s)-10] == '/' ? (s) + sizeof(s) - 9 : \
    sizeof(s) > 11 && (s)[sizeof(s)-11] == '/' ? (s) + sizeof(s) - 10 : (s))


Feel free to extend the conditional operator cascade to the maximum sensible file name in the project. Path length doesn't matter, as long as you check far enough from the end of the string.

I'll see if I can get a similar macro with no hard-coded length with macro recursion...

  • 5
    Cool answer. You need to use at least -O1 to use this to be compile-time. Commented Mar 14, 2017 at 19:59
  • 2
    Isn't this backwards? You want to find the last occurrence of '/', which means you should start with the sizeof(s) > 2 check first. Also, this did not work at compile-time for me, at -Os. The full path strings were present in the output binary.
    – mrtumnus
    Commented Feb 2, 2018 at 14:42
  • Nope this is not purely compile time solution.
    – Hadatko
    Commented Jun 29, 2021 at 14:35
  • @Hadatko please elaborate. What exactly makes this not purely compile time in your view? Commented Nov 8, 2023 at 8:49

Recent Clang compiler has a __FILE_NAME__ macro (see here).

  • 2
    seems that gcc has added it, too
    – rtrrtr
    Commented Jul 15, 2022 at 12:22

For Visual Studio, you can use the (undocumented/experimental) /d1trimfile compiler option. It takes a case-insensitive prefix argument and has the effect of stripping this prefix from __FILE__ whenever this macro is evaluated.

Applying the /d1trimfile:"$(SolutionDir)\" option effectively changes all __FILE__ evaluations to become solution directory relative:


NB: Explanation for the trailing \ right before the ":

To escape the first one ($(SolutionDir) ends in a backslash), otherwise the quote is escaped. You need an even amount of backslashes before the quote.


I have use the same solution with @Patrick 's answer for years.

It has a small issue when the full path contains symbol-link.

Better solution.

set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -Wno-builtin-macro-redefined -D'__FILE__=\"$(subst $(realpath ${CMAKE_SOURCE_DIR})/,,$(abspath $<))\"'")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Wno-builtin-macro-redefined -D'__FILE__=\"$(subst $(realpath ${CMAKE_SOURCE_DIR})/,,$(abspath $<))\"'")

Why should use this ?

  • -Wno-builtin-macro-redefined to mute the compiler warnings for redefining __FILE__ macro.

    For those compilers do not support this, refer to the Robust way below.

  • Strip the project path from the file path is your real requirement. You won't like to waste the time to find out where is a header.h file, src/foo/header.h or src/bar/header.h.

  • We should strip the __FILE__ macro in cmake config file.

    This macro is used in most exists codes. Simply redefine it can set you free.

    Compilers like gcc predefines this macro from the command line arguments. And the full path is written in makefiles generated by cmake.

  • Hard code in CMAKE_*_FLAGS is required.

    There is some commands to add compiler options or definitions in some more recently version, like add_definitions() and add_compile_definitions(). These commands will parse the make functions like subst before apply to source files. That is not we want.

Robust way for -Wno-builtin-macro-redefined.

check_c_compiler_flag(-Wno-builtin-macro-redefined SUPPORT_C_WNO_BUILTIN_MACRO_REDEFINED)
    set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -Wno-builtin-macro-redefined")
check_cxx_compiler_flag(-Wno-builtin-macro-redefined SUPPORT_CXX_WNO_BUILTIN_MACRO_REDEFINED)
    set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Wno-builtin-macro-redefined")

Remember to remove this compiler option from the set(*_FLAGS ... -D__FILE__=...) line.

  • 2
    This does not work for contents coming from include files.
    – chqrlie
    Commented Mar 30, 2020 at 11:52
  • can you post some code? A common case is to set variables in local scope and use it in another.
    – Levi.G
    Commented Apr 10, 2020 at 10:28
  • 1
    For example if you use __FILE__ with your definition to produce a diagnostic in an inline function defined in a header file, the runtime diagnostic will report the name of the file passed to the compiler instead of the name of the include file, whereas the line number would refer to the include file.
    – chqrlie
    Commented Apr 10, 2020 at 10:34
  • 1
    yes, it designed to be that, for the most common usage is #define LOG(fmt, args...) printf("%s " fmt, __FILE__, ##args). when using the LOG() macro, you do not really want to see log.h in messages. after all, the __FILE__ macro is expanded in every C/Cpp file (compile unit) instead of the included files.
    – Levi.G
    Commented Jun 14, 2020 at 8:24

In VC, when using /FC, __FILE__ expands to the full path, without the /FC option __FILE__ expands file name. ref: here

  • in VS2019, /FC is forced if using the Edit & Continue /ZI d/b. Commented Sep 11, 2020 at 9:11
  • Without the /FC option, __FILE__ uses the relative path instead of the absolute path. Although it is shorter, it is not a "file name without path" solution.
    – Cem Polat
    Commented Apr 6, 2022 at 9:47
  • At least in VS2019 & VS2022 the default for the underlying setting in the project files (UseFullPaths) defaults to true unless overridden at a more local level (such as in the project file). See Microsoft.Cl.Common.props ... Commented Jan 19, 2023 at 16:14

This behaviour has been implemented in some compilers, you can get basename of the compiled file by using:


Here is the solution available with C++14 or newer that uses compile-time calculation:

constexpr auto* getFileName(const char* const path)
    const auto* startPosition = path;
    for (const auto* currentCharacter = path;*currentCharacter != '\0'; ++currentCharacter)
        if (*currentCharacter == '\\' || *currentCharacter == '/')
            startPosition = currentCharacter;

    if (startPosition != path)

    return startPosition;

std::cout << getFileName(__FILE__);
  • Great solution. Usable earlier to C++11 ?
    – Jesko
    Commented Jan 7, 2023 at 16:14
  • 1
    @Jesko Unfortunately constexpr is a must here, so it won't work for earlier standards Commented Jan 10, 2023 at 16:43
  • 1
    @Jesko This isn't even usable in C++11. This starts being usable with C++14. ("'auto' return without trailing return type; deduced return types are a C++14 extension") Commented Nov 8, 2023 at 16:26

Use the basename() function, or, if you are on Windows, _splitpath().

#include <libgen.h>

#define PRINTFILE() { char buf[] = __FILE__; printf("Filename:  %s\n", basename(buf)); }

Also try man 3 basename in a shell.

  • 2
    @mahmood: char file_copy[] = __FILE__; const char *filename = basename(__FILE__);. The reason for the copy is that basename can modify the input string. You also have to watch out that the result pointer is only good until basename is called again. This means it isn't thread-safe. Commented Dec 13, 2011 at 11:26
  • @SteveJessop, ah I forgot. True. Commented Dec 13, 2011 at 11:53
  • 1
    @Amigable: to be fair, I suspect that basename in fact will not modify the input string that results from __FILE__, because the input string doesn't have a / at the end and so there's no need for modification. So you might get away with it, but I figure the first time someone sees basename, they should see it with all the restrictions. Commented Dec 13, 2011 at 11:57
  • @SteveJessop the BSd man page for basename() mention that legacy version of basename() takes a const char* and does not modify the string. The linux man page mentions nothing about const but mentions that it can return a part of the argument string. So, best be conservative dealing with basename(). Commented Dec 13, 2011 at 12:20
  • @SteveJessop, hehe, I only now after looking at your comment carefully, after four years, realize that / at the end of the string means basename may have a good reason to modify its argument. Commented Jun 8, 2015 at 17:49

If you are using CMAKE with GNU compiler this global define works fine:

set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -D__MY_FILE__='\"$(notdir $(abspath $<))\"'")

There's no compile time way to do this. Obviously you can do it at runtime using the C runtime, as some of the other answers have demonstrated, but at compile time, when the pre-procesor kicks in, you're out of luck.

  • 1
    the strrchr answer could plausibly be computed at compile-time, although of course still not by the preprocessor. I don't know whether gcc actually does it, I haven't checked, but I'm pretty sure that it does compute strlen of string literals at compile-time. Commented Dec 13, 2011 at 11:32
  • @Steve - maybe, but that's a big dependency on compiler specific behaviour.
    – Sean
    Commented Dec 13, 2011 at 11:36
  • I don't think it is a big dependency, because I very much doubt that this code is performance-critical. And if it is, move it out of the loop. In cases where this is a huge deal, because you absolutely need a string literal containing just the basename, you could perhaps compute the right string at build time by running some script over the source. Commented Dec 13, 2011 at 11:37
  • 5
    It may not be performance critical, but it can easily be seen as privacy critical. There's no real good reason for revealing my per-customer organizational practices in strings frozen into a released EXE file. Worse, for applications created on behalf of a customer, those strings might reveal things my customer might prefer not to, such as not being the author of their own product. Since __FILE__ is invoked implicitly by assert(), this leak can occur without any other overt act.
    – RBerteig
    Commented Sep 13, 2012 at 20:58
  • @RBerteig the basename of __FILE__ itself may also reveal things the customer might prefer not to, so using __FILE__ anywhere at all -- whether it contains the full absolute pathname or just the basename -- has the same issues that you pointed out. In this situation all output will need to be scrutinized and a special API should be introduced for output to customers. The rest of the output should be dumped to /dev/NULL or stdout and stderr should be closed. :-)
    – tchen
    Commented Jan 11, 2013 at 5:23

A slight variation on what @red1ynx proposed would to be create the following macro:

#define SET_THIS_FILE_NAME() \
    static const char* const THIS_FILE_NAME = \
        strrchr(__FILE__, '/') ? strrchr(__FILE__, '/') + 1 : __FILE__;

In each of your .c(pp) files add:


Then you can refer to THIS_FILE_NAME instead of __FILE__:

printf("%s\n", THIS_FILE_NAME);

This means the construction is performed once per .c(pp) file instead of each time the macro is referenced.

It is limited to use only from .c(pp) files and would be unusable from header files.


just hope to improve FILE macro a bit:

#define FILE (strrchr(__FILE__, '/') ? strrchr(__FILE__, '/') + 1 : strrchr(__FILE__, '\\') ? strrchr(__FILE__, '\\') + 1 : __FILE__)

this catches / and \, like Czarek Tomczak requested, and this works great in my mixed environment.

  • 9
    Defining a macro named FILE is a really bad idea if you include <stdio.h>. Commented May 20, 2013 at 22:44
  • good to know. i just wanted to show Czarek my \\ / solution, so i don't bothered with naming schemes. Commented Jun 6, 2013 at 6:55
  • The answer doesn't always work if __FILE__ contains mixed separators e.g. c:\abc/xyz\file.h. Commented Mar 5, 2023 at 21:45

I did a macro __FILENAME__ that avoids cutting full path each time. The issue is to hold the resulting file name in a cpp-local variable.

It can be easily done by defining a static global variable in .h file. This definition gives separate and independent variables in each .cpp file that includes the .h. In order to be a multithreading-proof it worth to make the variable(s) also thread local (TLS).

One variable stores the File Name (shrunk). Another holds the non-cut value that __FILE__ gave. The h file:

static __declspec( thread ) const char* fileAndThreadLocal_strFilePath = NULL;
static __declspec( thread ) const char* fileAndThreadLocal_strFileName = NULL;

The macro itself calls method with all the logic:

#define __FILENAME__ \
    GetSourceFileName(__FILE__, fileAndThreadLocal_strFilePath, fileAndThreadLocal_strFileName)

And the function is implemented this way:

const char* GetSourceFileName(const char* strFilePath, 
                              const char*& rstrFilePathHolder, 
                              const char*& rstrFileNameHolder)
    if(strFilePath != rstrFilePathHolder)
        // This if works in 2 cases: 
        // - when first time called in the cpp (ordinary case) or
        // - when the macro __FILENAME__ is used in both h and cpp files 
        //   and so the method is consequentially called 
        //     once with strFilePath == "UserPath/HeaderFileThatUsesMyMACRO.h" and 
        //     once with strFilePath == "UserPath/CPPFileThatUsesMyMACRO.cpp"
        rstrFileNameHolder = removePath(strFilePath);
        rstrFilePathHolder = strFilePath;
    return rstrFileNameHolder;

The removePath() can be implemented in different ways, but the fast and simple seems to be with strrchr:

const char* removePath(const char* path)
    const char* pDelimeter = strrchr (path, '\\');
    if (pDelimeter)
        path = pDelimeter+1;

    pDelimeter = strrchr (path, '/');
    if (pDelimeter)
        path = pDelimeter+1;

    return path;


#pragma push_macro("__FILE__")
#define __FILE__ "foobar.c"

after the include statements in your source file and add

#pragma pop_macro("__FILE__")

at the end of your source file.

  • 3
    push_macro and pop_macro are non-standard. (gcc supports them for compatibility with Microsoft Windows compilers.) In any case, there's no point in pushing and popping the definition of __FILE__; the restored value won't be used after the end of the source file anyway. A cleaner way to change the value of __FILE__ is #line __LINE__ "foobar.c" Commented Feb 3, 2016 at 16:30
  • 1
    And this causes an internal error in gcc's preprocessor. gcc.gnu.org/bugzilla/show_bug.cgi?id=69665 Commented Feb 4, 2016 at 2:06

Here is a portable function that works for both Linux (path '/') and Windows (mix of '\' and '/').
Compiles with gcc, clang and vs.

#include <string.h>
#include <stdio.h>

const char* GetFileName(const char *path)
    const char *name = NULL, *tmp = NULL;
    if (path && *path) {
        name = strrchr(path, '/');
        tmp = strrchr(path, '\\');
        if (tmp) {
             return name && name > tmp ? name + 1 : tmp + 1;
    return name ? name + 1 : path;

int main() {
    const char *name = NULL, *path = NULL;

    path = __FILE__;
    name = GetFileName(path);
    printf("path: %s, filename: %s\n", path, name);

    path ="/tmp/device.log";
    name = GetFileName(path);
    printf("path: %s, filename: %s\n", path, name);

    path = "C:\\Downloads\\crisis.avi";
    name = GetFileName(path);
    printf("path: %s, filename: %s\n", path, name);

    path = "C:\\Downloads/nda.pdf";
    name = GetFileName(path);
    printf("path: %s, filename: %s\n", path, name);

    path = "C:/Downloads\\word.doc";
    name = GetFileName(path);
    printf("path: %s, filename: %s\n", path, name);

    path = NULL;
    name = GetFileName(NULL);
    printf("path: %s, filename: %s\n", path, name);

    path = "";
    name = GetFileName("");
    printf("path: %s, filename: %s\n", path, name);

    return 0;

Standard output:

path: test.c, filename: test.c
path: /tmp/device.log, filename: device.log
path: C:\Downloads\crisis.avi, filename: crisis.avi
path: C:\Downloads/nda.pdf, filename: nda.pdf
path: C:/Downloads\word.doc, filename: word.doc
path: (null), filename: (null)
path: , filename: 

If you ended up on this page looking for a way to remove absolute source path that is pointing to ugly build location from the binary that you are shipping, below might suit your needs.

Although this doesn't produce exactly the answer that the author has expressed his wish for since it assumes the use of CMake, it gets pretty close. It's a pity this wasn't mentioned earlier by anyone as it would have saved me loads of time.

OPTION(CMAKE_USE_RELATIVE_PATHS "If true, cmake will use relative paths" ON)

Setting above variable to ON will generate build command in the format:

cd /ugly/absolute/path/to/project/build/src && 
    gcc <.. other flags ..> -c ../../src/path/to/source.c

As a result, __FILE__ macro will resolve to ../../src/path/to/source.c

CMake documentation

Beware of the warning on the documentation page though:

Use relative paths (May not work!).

It is not guaranteed to work in all cases, but worked in mine - CMake 3.13 + gcc 4.5

  • 1
    CMake 3.4+ documentation states that "This variable has no effect. The partially implemented effect it had in previous releases was removed in CMake 3.4." If it worked for you with 3.13, there's another reason for that.
    – mike.dld
    Commented Jun 19, 2019 at 6:53

A short, working answer for both Windows and *nix:

#define __FILENAME__ std::max<const char*>(__FILE__,\
    std::max(strrchr(__FILE__, '\\')+1, strrchr(__FILE__, '/')+1))
  • Why do you need std::max<const char*> instead of just std::max?
    – chqrlie
    Commented Mar 30, 2020 at 11:51
  • Good solution except std::max requires <algorithm> which I would rather not include in a header file. Another option can be checking platform by #ifdef _WIN32 since __FILE__ will have consistent separator characters.
    – Burak
    Commented Oct 15, 2021 at 12:16
  • 1
    @Burak then any other simple "max" function will suffice. #define PATH_SEPARATOR will also help of course.
    – Luc Bloom
    Commented May 9, 2022 at 10:15

In MSVC, add FILENAME macro as FILENAME=%(FileName)%(Extension) to the Preprocessor Definitions of the C++ project. I'm afraid this is completely a compiler killer. Somehow it breaks parallel build.

  • The fact that the question uses "/" as path separator points to a non-Windows compiler. I doubt @mahmood was using MSVC; some comments state he was using gcc but I could not locate where he said so. Commented Apr 6, 2022 at 17:39

Here's a solution that works for environments that don't have the string library (Linux kernel, embedded systems, etc):

#define FILENAME ({ \
    const char* filename_start = __FILE__; \
    const char* filename = filename_start; \
    while(*filename != '\0') \
        filename++; \
    while((filename != filename_start) && (*(filename - 1) != '/')) \
        filename--; \
    filename; })

Now just use FILENAME instead of __FILENAME__. Yes, it's still a runtime thing but it works.

  • May want to check both '/' and '\', depending on platform. Commented Apr 26, 2018 at 18:08

A tweaked, even more "bloated" version of red1ynx's answer:

#define __FILENAME__ \
  (strchr(__FILE__, '\\') \
  ? ((strrchr(__FILE__, '\\') ? strrchr(__FILE__, '\\') + 1 : __FILE__)) \
  : ((strrchr(__FILE__, '/') ? strrchr(__FILE__, '/') + 1 : __FILE__)))

If we find backslashes, we split on backslashes. Otherwise, split on forward slash. Simple enough.

Just about any alternative would be cleaner (A C++ constexpr is really the gold standard here, in my opinion). However, this may be helpful if you're using some compiler where __BASE_FILE__ isn't available.

  • Why should you search for backslashes first? If __FILE__ contains mixed separators, e.g. c:\abc\xyz/file.h, then the macro does not work. Commented Mar 5, 2023 at 22:01

I think this is better than using strrchr function. strfnchr will search last delemeter '/' and get filename from __FILE__ and you can use __FILE__NAME__ instead __FILE__ for get file name without full file path. strrchr solution searching filename twice per use. but this code is just 1 time search. And it works effectively even if there is no seperater '/' in __FILE__. You can use it by replacing it with \ as needed. The source code of strfnchr was improved by using the source code of strrchr below. I think it will work more effectively than strrchr. https://code.woboq.org/userspace/glibc/string/strrchr.c.html

inline const char* strfnchr(const char* s, int c) {
  const char* found = s;
  while (*(s++)) {
    if (*s == c)
      found = s;
  if (found != s)
    return found + 1;
  return s;

#define __FILE_NAME__ strfnchr(__FILE__, '/')
  • 3
    Please don't post only code as answer, but also provide an explanation what your code does and how it solves the problem of the question. Answers with an explanation are usually more helpful and of better quality, and are more likely to attract upvotes. Commented Mar 5, 2021 at 14:53
#include <algorithm>
#include <string>
using namespace std;
string f( __FILE__ );
f = string( (find(f.rbegin(), f.rend(), '/')+1).base() + 1, f.end() );

// searches for the '/' from the back, transfers the reverse iterator 
// into a forward iterator and constructs a new sting with both

This solution is based on @RenatoUtsch answer:

CMake list:


C/C++ header


The top answer is not good enough for it's not a compile-time const expression Here is a really simple solution:

 #define FILESTEM(x)                                                        \
  std::string_view(x).substr(std::string_view(x).rfind(OS_PATH_SLASH) + 1, \
                             std::string_view(x).rfind('.') -              \
                                 std::string_view(x).rfind(OS_PATH_SLASH) - 1)

it's a constexpr and can use in header file.

  • This is a C++ solution. The OP asked in a 'C' environment. This doesn't work for a 'C' program.
    – Brad
    Commented Sep 12, 2022 at 18:02

Not the answer you're looking for? Browse other questions tagged or ask your own question.