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In my application, I'm dealing with a larger-size classes (over 50 methods) each of which is reasonably complex. I'm not worried about the complexity as they are still straight forward in terms of isolating pieces of functionality into smaller methods and then calling them. This is how the number of methods becomes large (a lot of these methods are private - specifically isolating pieces of functionality).

However when I get to the implementation stage, I find that I loose track of which methods have been implemented and which ones have not been. Then at linking stage I receive errors for the unimplemented methods. This would be fine, but there are a lot of interdependencies between classes and in order to link the app I would need to get EVERYTHING ready. Yet I would prefer to get one class our of the way before moving to the next one.

For reasons beyond my control, I cannot use an IDE - only a plain text editor and g++ compiler. Is there any way to find unimplemented methods in one class without doing a full linking? Right now I literally do text search on method signatures in the implementation cpp file for each of the methods, but this is very time consuming.

share|improve this question
What prevents you from simply attempting to link and grepping for the "undefined reference to " message? – Agentlien Jan 14 '13 at 10:55
Yes, that's one way of doing it, but I'll get a lot of these that may not relate to the class in question. The overall project has hundreds of classes and the build takes about 30 minutes. – Aleks G Jan 14 '13 at 11:25
I suspected it would be the pure quantity which may pose a problem. However, you should be able to grep for "undefined reference to ClassInQuestion::", to only get hits for methods from that class. (I'll make an answer stating the same) – Agentlien Jan 14 '13 at 11:38
perhaps you can somehow use regex and find <methodname> in the .h file and then look for <myclass>::<methodname> in the cpp file? My regex skills are unfortunately worthless though :P – Default Jan 14 '13 at 12:03
up vote 0 down vote accepted

Though I can't see a simple way of doing this without actually attempting to link, you could grep the linker output for "undefined reference to ClassInQuestion::", which should give you only lines related to this error for methods of the given class.

This at least lets you avoid sifting through all error messages from the whole linking process, though it does not prevent having to go through a full linking.

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Yeah, from the automated point of view this seems to be the simplest approach. The biggest issue now is the 30+ minutes that the build takes... – Aleks G Jan 14 '13 at 11:54
@AleksG That is indeed an issue, and with that in place I cannot find a suitable solution other than writing a tool for comparing the .h and .cpp files, looking for matching/missing function declarations and definitions. – Agentlien Jan 14 '13 at 12:07

You could add a stub for every method you intend to implement, and do:

void SomeClass::someMethod() {
    #error Not implemented

With gcc, this outputs file, line number and the error message for each of these. So you could then just compile the module in question and grep for "Not implemented", without requiring a linker run.

Although you then still need to add these stubs to the implementation files, which might be part of what you were trying to circumvent in the first place.

share|improve this answer
But this still requires me to implement all methods. Moreover, I need to be able to compile a non-complete class to check for syntax errors, etc. before everything is ready. – Aleks G Jan 14 '13 at 11:53
Well, that's true. Although you could add all the stubs and then start implementing, and you'd have an easy way to see which methods are still stubs. But I see how it may not be exactly what you're looking for. – lethal-guitar Jan 14 '13 at 11:57
Maybe you can write a short add_method python script or something, which inserts the above stub at the end of a cpp file? Should not be too hard, unless you use different namespace nesting levels in different files.. – lethal-guitar Jan 14 '13 at 12:03

That’s what unit tests and test coverage tools are for: write minimal tests for all functions up-front. Tests for missing functions won’t link. The test coverage report will tell you whether all functions have been visited.

Of course that’s only helping up to some extent, it’s not a 100% fool proof. Your development methodology sounds slightly dodgy to me though: developing classes one by one in isolation doesn’t work in practice: classes that depend on each other (and remember: reduce dependencies!) need to be developed in lockstep to some extent. You cannot churn out a complete implementation for one class and move to the next, never looking back.

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I don't want to "visit" every function. I want, at editing stage, to see what I have not implemented. To run unit tests, I need to compile and link - and the whole point of my question was to see if there a way to find missing implementations without linking. – Aleks G Jan 14 '13 at 13:42
@Aleks Well sure there is. In an IDE. Which you explicitly don’t want. And sure, there are other tools to also give you that information. My answer describes them. – Konrad Rudolph Jan 14 '13 at 13:57

In the past I have built an executable for each class:

#include "klass.h"
int main() {
    Klass object;
    return 0;        

This reduces build time, can let you focus on one class at a time, speeds up your feedback loop.

It can be easily automated.

I really would look at reducing the size of that class though!


If there are hurdles, you can go brute force:

#include "klass.h"

Klass createObject() {
    return *reinterpret_cast<Klass>(0);

int main() {
    Klass object = createObject();
    return 0;        
share|improve this answer
Of course that only works for classes with default constructors (or at least only those that don’t depend on other classes), and it won’t verify that all functions are implemented. – Konrad Rudolph Jan 14 '13 at 12:37
You can automate it without default constructors. You include the object files necessary to make it link. It verifies all virtual functions have been implemented. This is the outline of the idea, not a full implementation. – Peter Wood Jan 14 '13 at 13:31
That would be nice if Klass didn't depend on 50 other classes to compile. – Aleks G Jan 14 '13 at 13:40
@AleksG That sounds like a serious error in the class design, to be honest. – Konrad Rudolph Jan 14 '13 at 13:57
This is a green room idea. Work out how to do it yourself! – Peter Wood Jan 14 '13 at 14:02

You could write a small script which analyses the header file for method implementations (regular expressions will make this very straightforward), then scans the implementation file for those same method implementations.

For example in Ruby (for a C++ compilation unit):

className = "" # Either hard-code or Regex /class \w+/
allMethods = []

# Scan header file for methods<headerFile>, "r") do |file|
    allLines = { |line| line }
    allLines.each do |line|
        if (line =~ /(\);)$/) # Finds lines ending in ");" (end of method decl.)
            allMethods << line.strip!

implementedMethods = []
yetToImplement = []

# Scan implementation file for same methods<implementationFile>, "r") do |file|
    contents =
    allMethods.each do |method|
        if (contents.include?(method)) # Or (className + "::" + method)
            implementedMethods << method
            yetToImplement << method

# Print the results (may need to scroll the code window)
print "Yet to implement:\n"
yetToImplement.each do |method|
    print (method + "\n")

print "\nAlready implemented:\n"
implementedMethods.each do |method
    print (method + "\n")

Someone else will be able to tell you how to automate this into the build process, but this is one way to quickly check which methods haven't yet been implemented.

share|improve this answer

The delete keyword of c++11 does the trick

struct S{
  void f()=delete; //unimplemented

If C++11 is not avaiable, you can use private as a workaround

struct S{
  private: //unimplemented
  void f();

With this two method, you can write some testing code in a .cpp file

#include "S.hpp"
  void test(){
    S* s;
    s->f(); //will trigger a compilation error

Note that your testing code will never be executed. The namespace{} says to the linker that this code is never used outside the current compilation unit (i.e., test_S.cpp) and will therefore be dropped just after compilation checking.

Because this code is never executed, you do not actualy need to create a real S object in the test function. You just want to trick the compiler in order to test if a S objects has a callable f() function.

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I cannot see an easy way of doing this. Having several classes with no implementation will easily lead to a situation where keeping track in a multiple member team will be a nightmare.

Personally I would want to unit test each class I write and test driven development is my recommendation. However this involves linking the code each time you want to check the status. For tools to use TDD refer to link here.

Another option is to write a piece of code that can parse through the source and check for functihat are to be implemented. GCC_XML is a good starting point.

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Please let me know the reason for the down vote. Will help me understand better. Thanks – Ram Jan 14 '13 at 11:03
This would mean actually implementing every function, which would let it link, but move the problem to run-time. This is not always desirable in a large project. It forces TDD, which may not be a possible transition (since it puts demands on the project as a whole). – Agentlien Jan 14 '13 at 11:05
Another possibility along the same lines would be to initially implement functions as dummies with a static_assert(false,"unimplemented function") for those that -need- to be implemented. – Agentlien Jan 14 '13 at 11:06
I work on a project that has 3 million lines of code and we use TDD. I am sorry but I disagree with your comment on large project. Test Driven Development is one of the best ways to isolate and manage complexity. It also helps me keep track of what is left to do. – Ram Jan 14 '13 at 11:09
I'm not saying that it cannot be used on a big project, I think it's excellent in large projects, for the reasons you've stated. But, beginning with TDD can be a management decision that a lone programmer isn't able to take. In which case such general advice doesn't provide any practical use. – Agentlien Jan 14 '13 at 11:10

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