Examples/test-suite/overload_arrays.i - third_party/swig - Git at Google

 // Tests of overloaded functions of arrays
 // Based on overload_simple testcase
 %module overload_arrays

 #ifdef SWIGCHICKEN
 %warnfilter(SWIGWARN_LANG_OVERLOAD_SHADOW) fbool;
 #endif

 #ifdef SWIGLUA
 // lua only has one numeric type, so most of the overloads shadow each other creating warnings
 %warnfilter(SWIGWARN_LANG_OVERLOAD_SHADOW) foo;
 %warnfilter(SWIGWARN_LANG_OVERLOAD_SHADOW) bar;
 %warnfilter(SWIGWARN_LANG_OVERLOAD_SHADOW) Spam;
 #endif

 #ifdef SWIGGO
 %warnfilter(SWIGWARN_PARSE_KEYWORD) type; // 'type' is a Go keyword, renamed as 'Xtype'
 %rename(Foos) Foo;
 #endif

 #ifdef SWIGOCAML
 %warnfilter(SWIGWARN_PARSE_KEYWORD) type;
 #endif

 %immutable Spam::type;

 %inline %{

 #define SIZE 3

 struct Foo {
 };

 class Bar {
 public:
   Bar(int i = 0) { num = i; }

   static int foo(int a=0, int b=0) {return 0;}

   int num;
 };

 char *foo() {
    return (char *) "foo:";
 }
 char *foo(int[SIZE]) {
    return (char*) "foo:int[SIZE]";
 }

 char *foo(double[SIZE]) {
    return (char*) "foo:double[SIZE]";
 }

 char *foo(char *[SIZE]) {
    return (char*) "foo:char *[SIZE]";
 }

 char *foo(Foo *[SIZE]) {
    return (char*) "foo:Foo *[SIZE]";
 }
 char *foo(Bar *[SIZE]) {
    return (char *) "foo:Bar *[SIZE]";
 }
 char *foo(void *[SIZE]) {
    return (char *) "foo:void *[SIZE]";
 }
 char *foo(Foo *[SIZE], int[SIZE]) {
    return (char *) "foo:Foo *[SIZE],int[SIZE]";
 }
 char *foo(double[SIZE], Bar *[SIZE]) {
    return (char *) "foo:double[SIZE],Bar *[SIZE]";
 }

 char *blah(double[SIZE]) {
    return (char *) "blah:double[SIZE]";
 }

 char *blah(char *[SIZE]) {
    return (char *) "blah:char *[SIZE]";
 }

 class Spam {
 public:
     Spam() { type = "none"; }
     Spam(int[SIZE]) { type = "int[SIZE]"; }
     Spam(double[SIZE]) { type = "double[SIZE]"; }
     Spam(char *[SIZE]) { type = "char *[SIZE]"; }
     Spam(Foo *[SIZE]) { type = "Foo *[SIZE]"; }
     Spam(Bar *[SIZE]) { type = "Bar *[SIZE]"; }
     Spam(void *[SIZE]) { type = "void *[SIZE]"; }
     const char *type;

 char *foo(int[SIZE]) {
    return (char*) "foo:int[SIZE]";
 }
 char *foo(double[SIZE]) {
    return (char*) "foo:double[SIZE]";
 }
 char *foo(char *[SIZE]) {
    return (char*) "foo:char *[SIZE]";
 }
 char *foo(Foo *[SIZE]) {
    return (char*) "foo:Foo *[SIZE]";
 }
 char *foo(Bar *[SIZE]) {
    return (char *) "foo:Bar *[SIZE]";
 }
 char *foo(void *[SIZE]) {
    return (char *) "foo:void *[SIZE]";
 }

 static char *bar(int[SIZE]) {
    return (char*) "bar:int[SIZE]";
 }
 static char *bar(double[SIZE]) {
    return (char*) "bar:double[SIZE]";
 }
 static char *bar(char *[SIZE]) {
    return (char*) "bar:char *[SIZE]";
 }
 static char *bar(Foo *[SIZE]) {
    return (char*) "bar:Foo *[SIZE]";
 }
 static char *bar(Bar *[SIZE]) {
    return (char *) "bar:Bar *[SIZE]";
 }
 static char *bar(void *[SIZE]) {
    return (char *) "bar:void *[SIZE]";
 }
 };

 %}


 %inline {
   class ClassA
   {
   public:
     ClassA() {}
     int method1( ) {return 0;}
     int method1( int arg1[SIZE] ) {return arg1[0];}
   protected:
     int method1( int arg1[SIZE], int arg2[SIZE] ) {return arg1[0] + arg2[0];}

   };
 }
	// Tests of overloaded functions of arrays
	// Based on overload_simple testcase
	%module overload_arrays

	#ifdef SWIGCHICKEN
	%warnfilter(SWIGWARN_LANG_OVERLOAD_SHADOW) fbool;
	#endif

	#ifdef SWIGLUA
	// lua only has one numeric type, so most of the overloads shadow each other creating warnings
	%warnfilter(SWIGWARN_LANG_OVERLOAD_SHADOW) foo;
	%warnfilter(SWIGWARN_LANG_OVERLOAD_SHADOW) bar;
	%warnfilter(SWIGWARN_LANG_OVERLOAD_SHADOW) Spam;
	#endif

	#ifdef SWIGGO
	%warnfilter(SWIGWARN_PARSE_KEYWORD) type; // 'type' is a Go keyword, renamed as 'Xtype'
	%rename(Foos) Foo;
	#endif

	#ifdef SWIGOCAML
	%warnfilter(SWIGWARN_PARSE_KEYWORD) type;
	#endif

	%immutable Spam::type;

	%inline %{

	#define SIZE 3

	struct Foo {
	};

	class Bar {
	public:
	Bar(int i = 0) { num = i; }

	static int foo(int a=0, int b=0) {return 0;}

	int num;
	};

	char *foo() {
	return (char *) "foo:";
	}
	char *foo(int[SIZE]) {
	return (char*) "foo:int[SIZE]";
	}

	char *foo(double[SIZE]) {
	return (char*) "foo:double[SIZE]";
	}

	char foo(char [SIZE]) {
	return (char) "foo:char [SIZE]";
	}

	char foo(Foo [SIZE]) {
	return (char) "foo:Foo [SIZE]";
	}
	char foo(Bar [SIZE]) {
	return (char ) "foo:Bar [SIZE]";
	}
	char foo(void [SIZE]) {
	return (char ) "foo:void [SIZE]";
	}
	char foo(Foo [SIZE], int[SIZE]) {
	return (char ) "foo:Foo [SIZE],int[SIZE]";
	}
	char foo(double[SIZE], Bar [SIZE]) {
	return (char ) "foo:double[SIZE],Bar [SIZE]";
	}

	char *blah(double[SIZE]) {
	return (char *) "blah:double[SIZE]";
	}

	char blah(char [SIZE]) {
	return (char ) "blah:char [SIZE]";
	}

	class Spam {
	public:
	Spam() { type = "none"; }
	Spam(int[SIZE]) { type = "int[SIZE]"; }
	Spam(double[SIZE]) { type = "double[SIZE]"; }
	Spam(char [SIZE]) { type = "char [SIZE]"; }
	Spam(Foo [SIZE]) { type = "Foo [SIZE]"; }
	Spam(Bar [SIZE]) { type = "Bar [SIZE]"; }
	Spam(void [SIZE]) { type = "void [SIZE]"; }
	const char *type;

	char *foo(int[SIZE]) {
	return (char*) "foo:int[SIZE]";
	}
	char *foo(double[SIZE]) {
	return (char*) "foo:double[SIZE]";
	}
	char foo(char [SIZE]) {
	return (char) "foo:char [SIZE]";
	}
	char foo(Foo [SIZE]) {
	return (char) "foo:Foo [SIZE]";
	}
	char foo(Bar [SIZE]) {
	return (char ) "foo:Bar [SIZE]";
	}
	char foo(void [SIZE]) {
	return (char ) "foo:void [SIZE]";
	}

	static char *bar(int[SIZE]) {
	return (char*) "bar:int[SIZE]";
	}
	static char *bar(double[SIZE]) {
	return (char*) "bar:double[SIZE]";
	}
	static char bar(char [SIZE]) {
	return (char) "bar:char [SIZE]";
	}
	static char bar(Foo [SIZE]) {
	return (char) "bar:Foo [SIZE]";
	}
	static char bar(Bar [SIZE]) {
	return (char ) "bar:Bar [SIZE]";
	}
	static char bar(void [SIZE]) {
	return (char ) "bar:void [SIZE]";
	}
	};

	%}


	%inline {
	class ClassA
	{
	public:
	ClassA() {}
	int method1( ) {return 0;}
	int method1( int arg1[SIZE] ) {return arg1[0];}
	protected:
	int method1( int arg1[SIZE], int arg2[SIZE] ) {return arg1[0] + arg2[0];}

	};
	}