Lib/constraints.i - third_party/swig - Git at Google

 /* -----------------------------------------------------------------------------
  * constraints.i
  *
  * SWIG constraints library.
  *
  * SWIG library file containing typemaps for implementing various kinds of
  * constraints.  Depends upon the SWIG exception library for generating
  * errors in a language-independent manner.
  * ----------------------------------------------------------------------------- */

 #ifdef AUTODOC
 %text %{
 %include <constraints.i>

 This library provides support for applying constraints to function
 arguments.  Using a constraint, you can restrict arguments to be
 positive numbers, non-NULL pointers, and so on.   The following
 constraints are available :

       Number  POSITIVE        - Positive number (not zero)
       Number  NEGATIVE        - Negative number (not zero)
       Number  NONZERO         - Nonzero number
       Number  NONNEGATIVE     - Positive number (including zero)
       Number  NONPOSITIVE     - Negative number (including zero)
       Pointer NONNULL         - Non-NULL pointer
       Pointer ALIGN8          - 8-byte aligned pointer
       Pointer ALIGN4          - 4-byte aligned pointer
       Pointer ALIGN2          - 2-byte aligned pointer

 To use the constraints, you need to "apply" them to specific
 function arguments in your code.  This is done using the %apply
 directive.   For example :

   %apply Number NONNEGATIVE { double nonneg };
   double sqrt(double nonneg);         // Name of argument must match

   %apply Pointer NONNULL { void *ptr };
   void *malloc(int POSITIVE);       // May return a NULL pointer
   void free(void *ptr);             // May not accept a NULL pointer

 Any function argument of the type you specify with the %apply directive
 will be checked with the appropriate constraint.   Multiple types may
 be specified as follows :

   %apply Pointer NONNULL { void *, Vector *, List *, double *};

 In this case, all of the types listed would be checked for non-NULL
 pointers.

 The common datatypes of int, short, long, unsigned int, unsigned long,
 unsigned short, unsigned char, signed char, float, and double can be
 checked without using the %apply directive by simply using the
 constraint name as the parameter name. For example :

   double sqrt(double NONNEGATIVE);
   double log(double POSITIVE);

 If you have used typedef to change type-names, you can also do this :

   %apply double { Real };       // Make everything defined for doubles
                                 // work for Reals.
   Real sqrt(Real NONNEGATIVE);
   Real log(Real POSITIVE);

 %}
 #endif

 %include <exception.i>

 #ifdef SWIGCSHARP
 // Required attribute for C# exception handling
 #define SWIGCSHARPCANTHROW , canthrow=1
 #else
 #define SWIGCSHARPCANTHROW
 #endif


 // Positive numbers

 %typemap(check SWIGCSHARPCANTHROW)
                 int               POSITIVE,
                 short             POSITIVE,
                 long              POSITIVE,
                 unsigned int      POSITIVE,
                 unsigned short    POSITIVE,
                 unsigned long     POSITIVE,
                 signed char       POSITIVE,
                 unsigned char     POSITIVE,
                 float             POSITIVE,
                 double            POSITIVE,
                 Number            POSITIVE
 {
   if ($1 <= 0) {
     SWIG_exception(SWIG_ValueError,"Expected a positive value.");
   }
 }

 // Negative numbers

 %typemap(check SWIGCSHARPCANTHROW)
                 int               NEGATIVE,
                 short             NEGATIVE,
                 long              NEGATIVE,
                 unsigned int      NEGATIVE,
                 unsigned short    NEGATIVE,
                 unsigned long     NEGATIVE,
                 signed char       NEGATIVE,
                 unsigned char     NEGATIVE,
                 float             NEGATIVE,
                 double            NEGATIVE,
                 Number            NEGATIVE
 {
   if ($1 >= 0) {
     SWIG_exception(SWIG_ValueError,"Expected a negative value.");
   }
 }

 // Nonzero numbers

 %typemap(check SWIGCSHARPCANTHROW)
                 int               NONZERO,
                 short             NONZERO,
                 long              NONZERO,
                 unsigned int      NONZERO,
                 unsigned short    NONZERO,
                 unsigned long     NONZERO,
                 signed char       NONZERO,
                 unsigned char     NONZERO,
                 float             NONZERO,
                 double            NONZERO,
                 Number            NONZERO
 {
   if ($1 == 0) {
     SWIG_exception(SWIG_ValueError,"Expected a nonzero value.");
   }
 }

 // Nonnegative numbers

 %typemap(check SWIGCSHARPCANTHROW)
                 int               NONNEGATIVE,
                 short             NONNEGATIVE,
                 long              NONNEGATIVE,
                 unsigned int      NONNEGATIVE,
                 unsigned short    NONNEGATIVE,
                 unsigned long     NONNEGATIVE,
                 signed char       NONNEGATIVE,
                 unsigned char     NONNEGATIVE,
                 float             NONNEGATIVE,
                 double            NONNEGATIVE,
                 Number            NONNEGATIVE
 {
   if ($1 < 0) {
     SWIG_exception(SWIG_ValueError,"Expected a non-negative value.");
   }
 }

 // Nonpositive numbers

 %typemap(check SWIGCSHARPCANTHROW)
                 int               NONPOSITIVE,
                 short             NONPOSITIVE,
                 long              NONPOSITIVE,
                 unsigned int      NONPOSITIVE,
                 unsigned short    NONPOSITIVE,
                 unsigned long     NONPOSITIVE,
                 signed char       NONPOSITIVE,
                 unsigned char     NONPOSITIVE,
                 float             NONPOSITIVE,
                 double            NONPOSITIVE,
                 Number            NONPOSITIVE
 {
   if ($1 > 0) {
     SWIG_exception(SWIG_ValueError,"Expected a non-positive value.");
   }
 }

 // Non-NULL pointer

 %typemap(check SWIGCSHARPCANTHROW)
                 void *            NONNULL,
                 Pointer           NONNULL
 {
   if (!$1) {
     SWIG_exception(SWIG_ValueError,"Received a NULL pointer.");
   }
 }

 // Aligned pointers

 %typemap(check SWIGCSHARPCANTHROW)
                 void *            ALIGN8,
                 Pointer           ALIGN8
 {
    unsigned long long tmp;
    tmp = (unsigned long long) $1;
    if (tmp & 7) {
      SWIG_exception(SWIG_ValueError,"Pointer must be 8-byte aligned.");
    }
 }

 %typemap(check SWIGCSHARPCANTHROW)
                 void *            ALIGN4,
                 Pointer           ALIGN4
 {
    unsigned long long tmp;
    tmp = (unsigned long long) $1;
    if (tmp & 3) {
      SWIG_exception(SWIG_ValueError,"Pointer must be 4-byte aligned.");
    }
 }

 %typemap(check SWIGCSHARPCANTHROW)
                 void *            ALIGN2,
                 Pointer           ALIGN2
 {
    unsigned long long tmp;
    tmp = (unsigned long long) $1;
    if (tmp & 1) {
      SWIG_exception(SWIG_ValueError,"Pointer must be 2-byte aligned.");
    }
 }
	/* -----------------------------------------------------------------------------
	* constraints.i
	*
	* SWIG constraints library.
	*
	* SWIG library file containing typemaps for implementing various kinds of
	* constraints. Depends upon the SWIG exception library for generating
	* errors in a language-independent manner.
	* ----------------------------------------------------------------------------- */

	#ifdef AUTODOC
	%text %{
	%include <constraints.i>

	This library provides support for applying constraints to function
	arguments. Using a constraint, you can restrict arguments to be
	positive numbers, non-NULL pointers, and so on. The following
	constraints are available :

	Number POSITIVE - Positive number (not zero)
	Number NEGATIVE - Negative number (not zero)
	Number NONZERO - Nonzero number
	Number NONNEGATIVE - Positive number (including zero)
	Number NONPOSITIVE - Negative number (including zero)
	Pointer NONNULL - Non-NULL pointer
	Pointer ALIGN8 - 8-byte aligned pointer
	Pointer ALIGN4 - 4-byte aligned pointer
	Pointer ALIGN2 - 2-byte aligned pointer

	To use the constraints, you need to "apply" them to specific
	function arguments in your code. This is done using the %apply
	directive. For example :

	%apply Number NONNEGATIVE { double nonneg };
	double sqrt(double nonneg); // Name of argument must match

	%apply Pointer NONNULL { void *ptr };
	void *malloc(int POSITIVE); // May return a NULL pointer
	void free(void *ptr); // May not accept a NULL pointer

	Any function argument of the type you specify with the %apply directive
	will be checked with the appropriate constraint. Multiple types may
	be specified as follows :

	%apply Pointer NONNULL { void , Vector , List , double };

	In this case, all of the types listed would be checked for non-NULL
	pointers.

	The common datatypes of int, short, long, unsigned int, unsigned long,
	unsigned short, unsigned char, signed char, float, and double can be
	checked without using the %apply directive by simply using the
	constraint name as the parameter name. For example :

	double sqrt(double NONNEGATIVE);
	double log(double POSITIVE);

	If you have used typedef to change type-names, you can also do this :

	%apply double { Real }; // Make everything defined for doubles
	// work for Reals.
	Real sqrt(Real NONNEGATIVE);
	Real log(Real POSITIVE);

	%}
	#endif

	%include <exception.i>

	#ifdef SWIGCSHARP
	// Required attribute for C# exception handling
	#define SWIGCSHARPCANTHROW , canthrow=1
	#else
	#define SWIGCSHARPCANTHROW
	#endif


	// Positive numbers

	%typemap(check SWIGCSHARPCANTHROW)
	int POSITIVE,
	short POSITIVE,
	long POSITIVE,
	unsigned int POSITIVE,
	unsigned short POSITIVE,
	unsigned long POSITIVE,
	signed char POSITIVE,
	unsigned char POSITIVE,
	float POSITIVE,
	double POSITIVE,
	Number POSITIVE
	{
	if ($1 <= 0) {
	SWIG_exception(SWIG_ValueError,"Expected a positive value.");
	}
	}

	// Negative numbers

	%typemap(check SWIGCSHARPCANTHROW)
	int NEGATIVE,
	short NEGATIVE,
	long NEGATIVE,
	unsigned int NEGATIVE,
	unsigned short NEGATIVE,
	unsigned long NEGATIVE,
	signed char NEGATIVE,
	unsigned char NEGATIVE,
	float NEGATIVE,
	double NEGATIVE,
	Number NEGATIVE
	{
	if ($1 >= 0) {
	SWIG_exception(SWIG_ValueError,"Expected a negative value.");
	}
	}

	// Nonzero numbers

	%typemap(check SWIGCSHARPCANTHROW)
	int NONZERO,
	short NONZERO,
	long NONZERO,
	unsigned int NONZERO,
	unsigned short NONZERO,
	unsigned long NONZERO,
	signed char NONZERO,
	unsigned char NONZERO,
	float NONZERO,
	double NONZERO,
	Number NONZERO
	{
	if ($1 == 0) {
	SWIG_exception(SWIG_ValueError,"Expected a nonzero value.");
	}
	}

	// Nonnegative numbers

	%typemap(check SWIGCSHARPCANTHROW)
	int NONNEGATIVE,
	short NONNEGATIVE,
	long NONNEGATIVE,
	unsigned int NONNEGATIVE,
	unsigned short NONNEGATIVE,
	unsigned long NONNEGATIVE,
	signed char NONNEGATIVE,
	unsigned char NONNEGATIVE,
	float NONNEGATIVE,
	double NONNEGATIVE,
	Number NONNEGATIVE
	{
	if ($1 < 0) {
	SWIG_exception(SWIG_ValueError,"Expected a non-negative value.");
	}
	}

	// Nonpositive numbers

	%typemap(check SWIGCSHARPCANTHROW)
	int NONPOSITIVE,
	short NONPOSITIVE,
	long NONPOSITIVE,
	unsigned int NONPOSITIVE,
	unsigned short NONPOSITIVE,
	unsigned long NONPOSITIVE,
	signed char NONPOSITIVE,
	unsigned char NONPOSITIVE,
	float NONPOSITIVE,
	double NONPOSITIVE,
	Number NONPOSITIVE
	{
	if ($1 > 0) {
	SWIG_exception(SWIG_ValueError,"Expected a non-positive value.");
	}
	}

	// Non-NULL pointer

	%typemap(check SWIGCSHARPCANTHROW)
	void * NONNULL,
	Pointer NONNULL
	{
	if (!$1) {
	SWIG_exception(SWIG_ValueError,"Received a NULL pointer.");
	}
	}

	// Aligned pointers

	%typemap(check SWIGCSHARPCANTHROW)
	void * ALIGN8,
	Pointer ALIGN8
	{
	unsigned long long tmp;
	tmp = (unsigned long long) $1;
	if (tmp & 7) {
	SWIG_exception(SWIG_ValueError,"Pointer must be 8-byte aligned.");
	}
	}

	%typemap(check SWIGCSHARPCANTHROW)
	void * ALIGN4,
	Pointer ALIGN4
	{
	unsigned long long tmp;
	tmp = (unsigned long long) $1;
	if (tmp & 3) {
	SWIG_exception(SWIG_ValueError,"Pointer must be 4-byte aligned.");
	}
	}

	%typemap(check SWIGCSHARPCANTHROW)
	void * ALIGN2,
	Pointer ALIGN2
	{
	unsigned long long tmp;
	tmp = (unsigned long long) $1;
	if (tmp & 1) {
	SWIG_exception(SWIG_ValueError,"Pointer must be 2-byte aligned.");
	}
	}