1 files changed, 83 insertions, 0 deletions

diff --git a/pjlib/include/pj/compat/high_precision.h b/pjlib/include/pj/compat/high_precision.h
new file mode 100644
index 00000000..2004fb2a
--- /dev/null
+++ b/pjlib/include/pj/compat/high_precision.h
@@ -0,0 +1,83 @@
+/* $Header: /pjproject-0.3/pjlib/include/pj/compat/high_precision.h 3     10/29/05 11:51a Bennylp $ */

+#ifndef __PJ_COMPAT_HIGH_PRECISION_H__

+#define __PJ_COMPAT_HIGH_PRECISION_H__

+

+

+#if defined(PJ_HAS_FLOATING_POINT) && PJ_HAS_FLOATING_POINT != 0

+    /*

+     * The first choice for high precision math is to use double.

+     */

+#   include <math.h>

+    typedef double pj_highprec_t;

+

+#   define PJ_HIGHPREC_VALUE_IS_ZERO(a)     (a==0)

+#   define pj_highprec_mod(a,b)             (a=fmod(a,b))

+

+#elif defined(PJ_LINUX_KERNEL) && PJ_LINUX_KERNEL != 0

+

+#   include <asm/div64.h>

+    

+    typedef pj_int64_t pj_highprec_t;

+

+#   define pj_highprec_div(a1,a2)   do_div(a1,a2)

+#   define pj_highprec_mod(a1,a2)   (a1=do_mod(a1, a2))

+

+    PJ_INLINE(pj_int64_t) do_mod( pj_int64_t a1, pj_int64_t a2)

+    {

+	return do_div(a1,a2);

+    }

+    

+    

+#elif defined(PJ_HAS_INT64) && PJ_HAS_INT64 != 0

+    /*

+     * Next choice is to use 64-bit arithmatics.

+     */

+    typedef pj_int64_t pj_highprec_t;

+

+#else

+    /*

+     * Last, fallback to 32-bit arithmetics.

+     */

+    typedef pj_int32_t pj_highprec_t;

+

+#endif

+

+/**

+ * @def pj_highprec_mul

+ * pj_highprec_mul(a1, a2) - High Precision Multiplication

+ * Multiply a1 and a2, and store the result in a1.

+ */

+#ifndef pj_highprec_mul

+#   define pj_highprec_mul(a1,a2)   (a1 = a1 * a2)

+#endif

+

+/**

+ * @def pj_highprec_div

+ * pj_highprec_div(a1, a2) - High Precision Division

+ * Divide a2 from a1, and store the result in a1.

+ */

+#ifndef pj_highprec_div

+#   define pj_highprec_div(a1,a2)   (a1 = a1 / a2)

+#endif

+

+/**

+ * @def pj_highprec_mod

+ * pj_highprec_mod(a1, a2) - High Precision Modulus

+ * Get the modulus a2 from a1, and store the result in a1.

+ */

+#ifndef pj_highprec_mod

+#   define pj_highprec_mod(a1,a2)   (a1 = a1 % a2)

+#endif

+

+

+/**

+ * @def PJ_HIGHPREC_VALUE_IS_ZERO(a)

+ * Test if the specified high precision value is zero.

+ */

+#ifndef PJ_HIGHPREC_VALUE_IS_ZERO

+#   define PJ_HIGHPREC_VALUE_IS_ZERO(a)     (a==0)

+#endif

+

+

+#endif	/* __PJ_COMPAT_HIGH_PRECISION_H__ */

+