Clang has a very cool extension named block bringing true lambda function mechanism to C. Compared to block, gcc's nested functions are quite limited. However, trying to compile a trivial program c.c:

#include <stdio.h>

int main() {
    void (^hello)(void) = ^(void) {
        printf("Hello, block!\n");
    return 0;

with clang -fblocks c.c, I got

/usr/bin/ld.gold: /tmp/cc-NZ7tqa.o: in function __block_literal_global:c.c(.rodata+0x10): error: undefined reference to '_NSConcreteGlobalBlock'
clang: error: linker command failed with exit code 1 (use -v to see invocation)

seems I should use clang -fblocks c.c -lBlocksRuntime, but then I got

/usr/bin/ld.gold: error: cannot find -lBlocksRuntime
(the rest is the same as above)

Any hints?

  • Did you install the extension properly? Where did libBlocksRuntime.a and/or libBlocksRuntime.so end up? Is that directory in the default link library search path? Do you need to use a -L argument to add the directory to the search path? May 6, 2011 at 5:30
  • @QuantumMechanic I installed clang from Arch Linux's repo. -fblocks works so I believe Arch's build of clang has the extension. I did a search for *BlocksRuntime* in /usr/lib and found none. Any hint on where these libraries are generally located?
    – xiaq
    May 6, 2011 at 5:33
  • sudo apt-get install libblocksruntime-dev on Ubuntu works just fine, I'm using blocks in production C based code under Ubuntu. Jun 19, 2012 at 8:45
  • As a hack, add a block of memory named _NSConcreteGlobalBlock. tio.run/…
    – jxh
    Feb 6, 2019 at 0:13

3 Answers 3


On Ubuntu Linux:

sudo apt-get install llvm
sudo apt-get install clang
sudo apt-get install libblocksruntime-dev


#include <stdio.h>

int main() {
    void (^hello)(void) = ^(void) {
        printf("Hello, block!\n");
    return 0;


clang test.c -fblocks -lBlocksRuntime -o test

Hello, block!

works fine.


Technical background information:

Blocks themselves are language feature but they also require some runtime support. So either the compiler has to provide a runtime library and statically link it into the build product or the system must provide such a runtime library the build product can be linked against.

In case of macOS, the blocks runtime is part of libSystem and as all executable and dynamic libraries on macOS are linked against libSystem, they all do have blocks support.

On a Linux system, such runtime support would typically added to the libC library (glibc in most cases) if it was considered a core feature of the system or the language, yet as gcc currently has no support for blocks at all and its unknown if blocks will ever become an official C feature, Linux systems don't ship runtime support for blocks by default.

clang itself does offer a target-indepedent blocks runtime as part of the compiler runtime library, yet it is optional and many Linux systems don't seem to include in their clang install package. That's why the project blocksruntime has been created, that builds the clang blocks runtime support as an own library, which you can statically link into your projects or dynamically install onto your systems. The source code is available on GitHub.

Depending on your Linux distribution, a ready-to-use installer package may exist. Note that blocksruntime cannot just be compiled for Linux, it can also be compiled for FreeBSD or Windows (MinGW/Mingw-w64) or even for Mac if you don't want to use the runtime that Apple provides. Theoretically it should be portable to any platform that clang natively supports.


Judging from Which libraries do you need to link against for a clang program using blocks it appears there is no easy way of fixing this, at least as of early 2010.

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