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I'm trying to generate calling graph with which to find out all the possible execution paths that are hitting a particular function (so that I don't have to figure out all the paths manually, as there are many paths that lead to this function). For instance:

path 1: A -> B -> C -> D  
path 2: A -> B -> X -> Y -> D  
path 3: A -> G -> M -> N -> O -> P -> S -> D  
path n: ...

I have tried Codeviz and Doxygen, somehow both results show nothing but callees of target function, D. In my case, D is a member function of a class whose object will be wrapped within a smart pointer. Clients will always obtain the smart pointer object through a factory in order to invoke D.

Does anyone know how to achieve this?

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4 Answers 4

static void D() { }
static void Y() { D(); }
static void X() { Y(); }
static void C() { D(); X(); }
static void B() { C(); }
static void S() { D(); }
static void P() { S(); }
static void O() { P(); }
static void N() { O(); }
static void M() { N(); }
static void G() { M(); }
static void A() { B(); G(); }

int main() {


$ clang++ -S -emit-llvm main1.cpp -o - | opt -analyze -dot-callgraph
$ dot -Tpng -ocallgraph.png

Yields some shiny picture (there is an "external node", because main has external linkage and might be called from outside that translation unit too):


You may want to postprocess this with c++filt, so that you can get the unmangled names of the functions and classes involved. Like in the following

#include <vector>

struct A { 
  void f(); // not defined, prevents inlining it!

int main() {
  std::vector<A> v;

$ clang++ -S -emit-llvm main1.cpp -o - |
   opt -analyze -std-link-opts -dot-callgraph
$ cat | 
   c++filt | 
   sed 's,>,\\>,g; s,-\\>,->,g; s,<,\\<,g' | 
   gawk '/external node/{id=$1} $1 != id' | 
   dot -Tpng -ocallgraph.png    

Yields this beauty (oh my, the size without optimizations turned on was too big!)


That mystical unnamed function, Node0x884c4e0, is a placeholder assumed to be called by any function whose definition is not known.

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Have you done this on a multi file project ? looks very cool as a tool – dirvine Oct 10 '12 at 22:05
Is there a way to do this so that functions that are not local to the file/files like all std functions that call each other don't get called? – soandos Mar 15 '13 at 22:06
+1 For some reason I had to pass the -n option to c++filt for the names to unmangle. Thought I'd mention it here in case anyone else faces the same issue. – Aky Jan 4 '14 at 10:08
@dirvine since building such information requires all of the compile flags context, it would be easiest if added as a step to your build scripts (Make, CMAKE, etc) – Catskul Mar 5 '14 at 22:30
I get an error when trying this: Pass::print not implemented for pass: 'Print call graph to 'dot' file'! What's up with that? clang 3.8 – Arne Sep 11 at 10:32

Statically computing an accurate C++ call graph is hard, because you need a precise langauge parser, correct name lookup, and a good points-to analyzer that honors the language semantics properly. Doxygen doesn't have any of these, I don't know why people claim to like it for C++; it is easy to construct a 10 line C++ example that Doxygen erroneously analyzes).

You might be better off running a timing profiler which collects a call graph dynamically (this describes ours) and simply exercise a lot of cases. Such profilers will show you the actual call graph exercised.

EDIT: I suddenly remembered Understand for C++, which claims to construct call graphs. I don't know what they use for a parser, or whether they do the detailed analysis right; I have no specific experience with their product.

I am impressed by Schaub's answer, using Clang; I would expect Clang to have all the elements right.

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Unfortunately I'm not aware of all the use cases that may trigger that function :(. In fact, my ultimate goal is to find out the exact list of use cases which utilizing that function for debugging purpose. I'm able to find out the direct callers with code indexing tool, but need to figure out all the execution paths for further analysis. – shiouming Mar 21 '11 at 10:40

In order for the clang++ command to find standard header files like mpi.h two additional options should be used -### -fsyntax-only, i.e. the full command should look as:

clang++ -### -fsyntax-only -S -emit-llvm main1.cpp -o - | opt -analyze -dot-callgraph
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The "C++ Bsc Analyzer" can display call graphs - by reading the file generated by the bscmake utility.

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