I'm in the process of rewriting a legacy CMake setup to use modern features like automatic dependency propagation. (i.e. using things like target_include_directories(<target> PUBLIC <dir>) instead of include_directories(<dir>).) Currently, we manually handle all project dependency information by setting a bunch of global directory properties.

In my testing, I've found a few examples where a target in the new build will link to a library that the old build would not. I'm not linking to it explicitly, so I know this is coming from the target's dependencies, but in order to find which one(s) I have to recursively look through all of the project's CMakeLists.txts, following up the dependency hierarchy until I find one that pulls in the library in question. We have dozens of libraries so this is not a trivial process.

Does CMake provide any way to see, for each target, which of its dependencies were added explicitly, and which ones were propagated through transitive dependencies?

It looks like the --graphviz output does show this distinction, so clearly CMake knows the context internally. However, I'd like to write a tree-like script to show dependency information on the command line, and parsing Graphviz files sounds like both a nightmare and a hack.

As far as I can tell, cmake-file-api does not include this information. I thought the codemodel/target/dependencies field might work, but it lists both local and transitive dependencies mixed together. And the backtrace field of each dependency only ties back to the add_executable/add_library call for the current target.

  • 1
    How doesn't --graphiz option not answer your question? Why parsing dot files feels like a nightmare? Dot files is the simplest, common and flexible way to human-readable represent connected points. With gvpr utility you can do anything with them in awk-ish style, and you can import them in other languages. Why is a dot file, that literally represents a tree-like structure of dependencies between targets, not a "way to see" that what you ask for? – KamilCuk Dec 17 '19 at 21:20
  • @KamilCuk Fair enough. I think I was hoping for a more standardized format like JSON that I could read without installing additional packages and without writing my own parser. I assumed that the dependency graph would be available in multiple formats (I still need to experiment with the CMake server API, for example). But if dotfiles are the easiest (or only) way to get that information, that's fine. – 0x5453 Dec 18 '19 at 22:03
  • 1
    I wouldn't stake too many bets on Graphviz showing these differently. The code that tells it apart is linked here, it's not very sophisticated. – kert Dec 24 '19 at 22:23

You can parse dot file generated by graphviz and extract details which you want. Below is sample python script to do that.

import pydot
import sys

graph = pydot.graph_from_dot_file(sys.argv[1])
result = {}

for g in graph:
    # print(g)
    for node in g.get_node_list():
        if node.get("label") != None:
            result[node.get("label")] = []

    for edge in g.get_edges():

for r in result:

You can also add this script to run from cmake as custom target, so you can call it from you build system. You can find sample cmake project here

  • Thanks for the example, I'll have to look into pydot. – 0x5453 Dec 18 '19 at 22:04

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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