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Can anyone give me some idea of how to extract information from a given C++ or Java program(source code)? The information may be names of classes or names of methods or telling some inheritance relation or class hierarchy,etc.You have to write a c++ or Java program for the same.I have tried and abled to do that but it is not totally correct.Right now what I'm doing is reading the given program line by line and checking for "class" keyword and if I find any such word,it means the word following right after that is name of that class(to extract name of classes).I'm just thinking is there any built in libraries in C or Java which can do this work more efficiently ?And please suggest some simple ideas(not some external libraries or plugins).

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in java you can use reflection to find the method names; basically you can do a lot of magic using it. I am however not sure if I understand your question correctly, "from a given C++/Java program"; how are you "given"? –  Scorpion Sep 16 '11 at 4:59
@Scorpion: The OP is basically trying to parse C++ and Java source files. –  Chris Jester-Young Sep 16 '11 at 5:03
By "program" do you mean a compiled program or the source code? –  NullUserException Sep 16 '11 at 5:04
He means source code, as said in a comment bellow. –  Simon Sep 16 '11 at 5:24
@code_hacker: your scheme doesn't work if the string "class foo" appears inside a comment or a string if the keyword and the identifer are on separate lines or separated by a comment, or in the case of java, if the word class is spelled (legally but oddly) with unicode escapes. You have to at least break the source file up into its constituent tokens. If you don't care if your answer is wrong sometimes, your hack may be good enough. If you want answers that are always right, or something more than just class and method names, see my response. –  Ira Baxter Sep 16 '11 at 6:21

6 Answers 6

up vote 2 down vote accepted

If all you want is the names of classes and methods within classes, you can rig a set of regular expressions to pick off various tokens (identifiers, "{", "}", operator, number, string), and a crummy parser (called an "island parser") to recognize the sequence of tokens that make up class declarations and method declarations. (Hint: for Java and C++, make sure you somehow match corresponding { ... }").

This stunt works for classes and methods because in essence this how real compilers work: they break the input stream into tokens (usually using the compiler-generalization of regexps called "lexer generators"), and then use a parser to determine the actual code structure, and classes and methods are pretty easy to spot in the syntax. (This solution is a kind of clean version of what OP posted).

If you want to any other information form Java or C++ source code (e.g., types of method arguments, etc.) you probably need a tool that actually parses the languages, and builds symbol tables so you have a chance of knowing what the identifiers found in various locations mean.

(EDIT: OP indicated he wants to find out what function calls what other function. He can't do this sensibly without a full language front end (parser+ symbol table as a minimum).

You can get various tools to parse C++ (GCC, Clang, Elsa, ...) and various other tools to parse Java (ANTLR, javacc, ...). You will find that GCC is pretty hard to bend to general tasks, Clang and Elsa less problematic. ANTLR and Javacc will parse Java code but don't AFAIK build symbol tables, so they fall a little flat for general purpose tasks. What you will find is that dealing with a C++ tool will turn out to be completely different than dealing with a Java tool since none of these tools have any common compiler infrastructure.

How you extract class and method names from each of these will vary in detail, but most of them offer some kind of way to climb over a parse tree (and you code some ad hoc match for what you want to find, e.g., class declaration syntax) and/or navigate symbol tables (and spit out symbols marked as "class" or "method" names). How you find the right syntax requires you to know in intimate detail the structure of the tree and code lots of test to match for the proper tree structures.

If you really want to process both languages, and use a single infrastructure to do it, you could consider our DMS Software Reengineering Toolkit. DMS is language agnostic but can be tuned to arbitrary langauges, and then parse those languages, build abstract symbol tables and various kinds of flow analysis. DMS has both full C++ Front end (with a built-in preprocessor and handling C++ in its various forms including the new standard C++11) and a Java Front end handling all dialects of Java up through 1.6 (with 1.7 happening momentarily).

To do OPs (originally stated) task of finding classes and methods, you'd tell DMS to parse the file and then climb over trees or symbol tables, much as for the other tools. You can code an ad hoc tree matcher in DMS, but it easier to write patterns:

 pattern match_class_declaration(i: identifier, b: statements): class_declaration
 =  " class \i { \b } ";

can be used with DMS to match those trees that happen to be class declarations, and will return "i" (and "b" which we don't care about) bound to the correspond subtrees. "i" of course contains the class name you want. Other patterns can be used to recognize other constructs, such as class names that inherit, or implement interfaces, or methods that return some type or methods that return void. The point is you don't have to know the tree structure in any great detail to use such patterns.

To go further, as OP seems to want to do (e.g build caller/callee information), you'd need to construct control flow graphs, do points-to analysis, etc. DMS provides support for that.

The good news is one infrastructure handles both languages; you can even mix C++ and Java in DMS without it getting anything confused. The more difficult news is that DMS is a fairly complex beast, but that's because it has to handle all the complexities of C++ and Java (as well as many other langauges). Still beats working with two different language parsers with two radically different implementations and thus two complete sets of learning curves.

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But these are not standard libraries provided in gcc.I'm bounded to compile the code with gcc, so it would be great if you can suggest me some standard methods provided in compiler itself. –  dark_shadow Sep 16 '11 at 6:29
@code_hacker: if you insist on using GCC, there is a set of infrastructure there that can help you answer your questions. You'll find it byzantine due to its convoluted history, from what I've heard; I have no specific experience or advice on how to use it for this task (you should start another SO thread to ask that question). The GCC suite might handle Java, there was a version that did, but I don't know if has kept up. It would have helped if you had said you wanted to do function-call analysis using GCC. –  Ira Baxter Sep 16 '11 at 6:36

the question sounds too vague to answer. please elaborate.

from what i could gauge, use Reflection when you are working with Java classes to figure out almost everything about a class and its methods. There are other (static) APIs that you could use on the Class object (if you have that hand). Refer the javadocs for more.

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@all : The "given" means you will be given some input program (source code) which can be either in C++ or java,now the task is to extract names of all classes and methods from that source code using another program(you can code this program either in C or java,it's your choice).If there is anything else that is not clear about question please do ask me. –  dark_shadow Sep 16 '11 at 5:13

You could try to use some source from compilers, like gcc. They already have all the syntax parsing and preprocessing there, so you could save tons of time.

For compiled Java you could also use bytecode manipulation libraries (like asm).

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As you're trying to parse a text file, a shell script based on awk and/or sed would be sufficient. You'll have to define some simple regular expressions based on the languages keywords and syntax to extract the informations you need.

For instance, this regular expression would match most of the class declarations of a C++ source file: class *([A-Za-z_][A-Za-z_0-9]*) *\{?$ The parenthesis allow you to extract the identifier you're looking for, this is called a capturing group.

If you really want to do it in C/C++/Java, you'll have to find a library that provides regular expressions facilities (Java standard library already provides some). Maybe Boost Regex for a C++ program.

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C, C++, and Java are all at least context-free languages (and I wouldn't be surprised if they were context-sensitive). Parsing them with regular expressions is very questionable -- it could work to extract class and function names (although I doubt it would be neat), but I'm fairly certain it cannot extract the rest of the function signatures without making a proper parser, and then you may as well use LLVM for C++. I don't know about Java, but there's probably something similar for it. –  Anton Golov Sep 16 '11 at 5:35
It seams he's only looking for names, not for signatures. Since most programmers use approximatly the same coding style, this can be easily extracted this way. It completely depends on his needs. –  Simon Sep 16 '11 at 5:42
Using regular expression seems to be a diificult work,it may work to extract names of classes and functions but I have to do a lot of work even after that which includes finding which function is calling other function from same class,and finding function arguments.Isn't there anything simple than this? –  dark_shadow Sep 16 '11 at 6:00
You will not find a simple way to do a processing like this. Try to find an already existing program that does this. And please update your question which is very unprecise. –  Simon Sep 16 '11 at 6:08
Also don't forget for C++ the preprocessor can change things a lot. You'll at least want to run that awk/sed on the preprocessed source code. –  Michael Anderson Sep 16 '11 at 6:36

Here's an example building up how to parse a C++ file using the clang (llvm) libraries. Its long and pretty detailed but you should be able to adapt it to do what you need (for C and C++ anyway .. dont know if llvm is any good at handling Java ... and don't know if its easy to adapt that approach for Java).

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I need something which is standard and comes in gcc already.I can't use some external libraries or toolkits.It would be great if you can tell me about some standard methods or libraries which comes in gcc. –  dark_shadow Sep 16 '11 at 6:30

Not sure about current Java, but C++ is a true nightmare to parse if you want to fully extract semantic information (consider that it took YEARS for the industry to agree 100% on how and if certain construct should have been parsed).

Note that while class name in C++ is easy enough (just remember however that the word class or struct can also be present before a template parameter instead of typename, that you can have "nested classes" and that you can have class "forward declarations") for members things are much harder because member name comes after the type and even understanding what is a type, where the type ends or what is the member name is not trivial... consider

int (*foo)(int x, int y);
Node<Bar, Baz, Allocator<Foo, &Q::operator > >, 12> (*rex)(int);

in the first case the member name is foo, and in the second case member name is rex (note that I'm not sure if the second example is valid C++ code or, supposing it's valid, if common C++ compilers would accept it).

Note that even just understanding where the class member list begins after the class name is not trivial (you have to skip the inheritance list that can include templated classes with parameters that are generic types).

So, giving up with a regular expression (that clearly is not able to parse a type being it a complex recursive entity), the only solution is to use code written by someone else.

For this job (for C++) you can try for example GCC-XML that has been written exactly for this reason (it generates an XML result from parsing C++ source code).

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OP says he also wants to extract function-calls-function information. GCC-XML doesn't process function bodies, so that won't help him with the whole task. Nor will it help him with Java. –  Ira Baxter Sep 16 '11 at 6:52
And industry still doesn't agree on how to parse/interpret/compile all the constructs. –  Ira Baxter Sep 16 '11 at 7:16
@Ira Baxter: Actually long ago I got the "template can do it" disease and wasted some time trying to abuse template machinery. I even remember getting to a case in which out of three different compilers one was giving an error and the remaining two were both compiling but with different semantic. And the sad thing is that by reading the specs I was not able to decide which of the three was right or if for example the correct semantic should have been another one. –  6502 Sep 16 '11 at 8:38

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