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Compilation & Linking Computer Organization I 1 November 2009 ©2006-09 McQuain, Feng & Ribbens The Preprocessor When a C compiler is invoked, the.

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Presentation on theme: "Compilation & Linking Computer Organization I 1 November 2009 ©2006-09 McQuain, Feng & Ribbens The Preprocessor When a C compiler is invoked, the."— Presentation transcript:

1 Compilation & Linking Computer Organization I 1 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens The Preprocessor When a C compiler is invoked, the first thing that happens is that the code is parsed and modified by a preprocessor. The preprocessor handles a collection of commands (commonly called directives), which are denoted by the character '#'. #include directives specify an external file (for now a C library file); the preprocessor essentially copies the contents of the specified file in place of the directive. We will see more interesting preprocessor directives later. #include... int main() { printf("Hello, world!\n"); return 0; } Contents of file stdio.h are copied here.

2 Compilation & Linking Computer Organization I 2 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens Typical C Program Organization // single file // a.h // a.c // b.h // b.c // z.h // z.c... // main.c For very small programs, code is often organized in a single source file; the most common convention uses the extension c for C source files. For more interesting C programs, the code is typically organized into a collection of header files (extension h ) and source files. In most cases, the header files contain only type declarations and function prototypes, while the c files contain the corresponding implementations. #include directives are used within both h and c files to “import” declarations as necessary.

3 Compilation & Linking Computer Organization I 3 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens Using Inclusion // main.c #include directives are used within both h and cpp files to “import” declarations as necessary: #include "A.h" A(); // call // A.h void A(); // A.c void A() { // do stuff } // B.h int B(int x); // B.c #include "B.h" int B(int x) { // do stuff } #include "B.h" int x = B(42);

4 Compilation & Linking Computer Organization I 4 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens Controlling Access Often, a.c file includes some functions (and other things) that are needed only in that file: // B.h int B(int x); // B.c #include "B.h" int B(int x) { // do stuff Helper(); } void Helper() {... } Here, B() calls Helper(), but no other functions outside of the file B.c do so… So, we put the declaration of Helper() inside B.c, before any calls to it… … and we do NOT declare Helper() in B.h : void Helper();

5 Compilation & Linking Computer Organization I 5 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens The Multiple Inclusion Problem // main.c #include "A.h" #include "B.h" It is possible to create some unfortunate situations: Here, the preprocessor will copy the text of B.h into main.c twice, once due to the inclusion in A.h and once due to the explicit inclusion in main.c. This scenario is difficult to avoid in large projects involving many individuals or teams. However, there is a simple fix using preprocessor directives: // A.h #include "B.h" // B.h void foo(); // B.h #ifndef B_H #define B_H void foo();... #endif

6 Compilation & Linking Computer Organization I 6 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens #include #include "rFibonacci.h" int main() { for (int i = 0; i < 50; i++) { printf("Fibo(%d) = %lld\n", i, rFibonacci(i)); } return 0; } Example: Fibonacci Here's a short program with a test driver, a Fibonacci function in a second file, and a header file containing the declarations needed for the Fibonacci function: #ifndef RFIBONACCI_H #define RFIBONACCI_H #include uint64_t rFibonacci(uint64_t n); #endif #include "rFibonacci.h" uint64_t rFibonacci(uint64_t n) { if ( n < 2 ) return 1; return rFibonacci(n - 1) + rFibonacci(n - 2); }

7 Compilation & Linking Computer Organization I 7 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens #include #include "rFibonacci.h" int main() { for (int i = 0; i < 50; i++) { printf("Fibo(%d) = %lld\n", i, rFibonacci(i)); } return 0; } Compilation We can compile either c file without the other (but not produce an executable): OK: the function call matches this declaration; compiler doesn't need to see function definition. The compiler notes that this call "binds" to this declaration.

8 Compilation & Linking Computer Organization I 8 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens Compilation -c switch tells gcc to compile and exit If compilation is successful, an object file is created; this is a partial translation of the C source file into machine code.

9 Compilation & Linking Computer Organization I 9 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens Linking The final step in producing an executable is to invoke the linker. The linker resolves the "notes" left by the compiler for external references (like the function name noted earlier), and writes the final executable file. With gcc, the simplest way to do this is to just invoke gcc on the object files…

10 Compilation & Linking Computer Organization I 10 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens Linking -o switch tells gcc what to call executable can invoke gcc with object files to link them and produce executable You'd want to use gcc-4

11 Compilation & Linking Computer Organization I 11 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens #include //#include "rFibonacci.h" int main() { for (int i = 0; i < 50; i++) { printf("Fibo(%d) = %lld\n", i, rFibonacci(i));... Compilation Errors The compiler will generate error messages if it cannot resolve the references it encounters: Omit this include directive and the compiler cannot find a declaration that matches the call to rFibonacci().

12 Compilation & Linking Computer Organization I 12 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens Compilation Errors The compiler will generate error messages if it cannot resolve the references it encounters: #ifndef RFIBONACCI_H #define RFIBONACCI_H #include uint64_t Fibonacci(uint64_t n); #endif Or, if the declaration doesn't match the call, the compiler will generate an error message.

13 Compilation & Linking Computer Organization I 13 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens #include #include "rFibonacci.h" int main() { for (int i = 0; i < 50; i++) { printf("Fibo(%d) = %lld\n", i, rFibonacci(i)); } return 0; } Linker Errors The linker may also produce error messages: #ifndef RFIBONACCI_H #define RFIBONACCI_H #include uint64_t rFibonacci(uint64_t n); #endif #include "rFibonacci.h" uint64_t Fibonacci(uint64_t n) { if ( n < 2 ) return 1; return rFibonacci(n - 1) + rFibonacci(n - 2); } OK Now, linker cannot find a definition (implementation) that matches the function declaration the compiler matched the call to… that's an error.

14 Compilation & Linking Computer Organization I 14 CS@VT November 2009 ©2006-09 McQuain, Feng & Ribbens Linker Errors Unfortunately, linker error messages are less direct than compiler error messages: The message does not refer to a specific line of source code. But, it does name a specific function and it implies there's a difference between the declaration of that function and the definition (implementation) of that function.

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