cannam@85: dnl @synopsis MN_C_CLIP_MODE cannam@85: dnl cannam@85: dnl Determine the clipping mode when converting float to int. cannam@85: dnl @version 1.0 May 17 2003 cannam@85: dnl @author Erik de Castro Lopo cannam@85: dnl cannam@85: dnl Permission to use, copy, modify, distribute, and sell this file for any cannam@85: dnl purpose is hereby granted without fee, provided that the above copyright cannam@85: dnl and this permission notice appear in all copies. No representations are cannam@85: dnl made about the suitability of this software for any purpose. It is cannam@85: dnl provided "as is" without express or implied warranty. cannam@85: cannam@85: cannam@85: cannam@85: cannam@85: cannam@85: cannam@85: cannam@85: dnl Find the clipping mode in the following way: cannam@85: dnl 1) If we are not cross compiling test it. cannam@85: dnl 2) IF we are cross compiling, assume that clipping isn't done correctly. cannam@85: cannam@85: AC_DEFUN([MN_C_CLIP_MODE], cannam@85: [AC_CACHE_CHECK(processor clipping capabilities, cannam@85: ac_cv_c_clip_type, cannam@85: cannam@85: # Initialize to unknown cannam@85: ac_cv_c_clip_positive=unknown cannam@85: ac_cv_c_clip_negative=unknown cannam@85: cannam@85: cannam@85: if test $ac_cv_c_clip_positive = unknown ; then cannam@85: AC_TRY_RUN( cannam@85: [[ cannam@85: #define _ISOC9X_SOURCE 1 cannam@85: #define _ISOC99_SOURCE 1 cannam@85: #define __USE_ISOC99 1 cannam@85: #define __USE_ISOC9X 1 cannam@85: #include cannam@85: int main (void) cannam@85: { double fval ; cannam@85: int k, ival ; cannam@85: cannam@85: fval = 1.0 * 0x7FFFFFFF ; cannam@85: for (k = 0 ; k < 100 ; k++) cannam@85: { ival = (lrint (fval)) >> 24 ; cannam@85: if (ival != 127) cannam@85: return 1 ; cannam@85: cannam@85: fval *= 1.2499999 ; cannam@85: } ; cannam@85: cannam@85: return 0 ; cannam@85: } cannam@85: ]], cannam@85: ac_cv_c_clip_positive=yes, cannam@85: ac_cv_c_clip_positive=no, cannam@85: ac_cv_c_clip_positive=unknown cannam@85: ) cannam@85: cannam@85: AC_TRY_RUN( cannam@85: [[ cannam@85: #define _ISOC9X_SOURCE 1 cannam@85: #define _ISOC99_SOURCE 1 cannam@85: #define __USE_ISOC99 1 cannam@85: #define __USE_ISOC9X 1 cannam@85: #include cannam@85: int main (void) cannam@85: { double fval ; cannam@85: int k, ival ; cannam@85: cannam@85: fval = -8.0 * 0x10000000 ; cannam@85: for (k = 0 ; k < 100 ; k++) cannam@85: { ival = (lrint (fval)) >> 24 ; cannam@85: if (ival != -128) cannam@85: return 1 ; cannam@85: cannam@85: fval *= 1.2499999 ; cannam@85: } ; cannam@85: cannam@85: return 0 ; cannam@85: } cannam@85: ]], cannam@85: ac_cv_c_clip_negative=yes, cannam@85: ac_cv_c_clip_negative=no, cannam@85: ac_cv_c_clip_negative=unknown cannam@85: ) cannam@85: fi cannam@85: cannam@85: if test $ac_cv_c_clip_positive = yes ; then cannam@85: ac_cv_c_clip_positive=1 cannam@85: else cannam@85: ac_cv_c_clip_positive=0 cannam@85: fi cannam@85: cannam@85: if test $ac_cv_c_clip_negative = yes ; then cannam@85: ac_cv_c_clip_negative=1 cannam@85: else cannam@85: ac_cv_c_clip_negative=0 cannam@85: fi cannam@85: cannam@85: [[ cannam@85: case "$ac_cv_c_clip_positive$ac_cv_c_clip_negative" in cannam@85: "00") cannam@85: ac_cv_c_clip_type="none" cannam@85: ;; cannam@85: "10") cannam@85: ac_cv_c_clip_type="positive" cannam@85: ;; cannam@85: "01") cannam@85: ac_cv_c_clip_type="negative" cannam@85: ;; cannam@85: "11") cannam@85: ac_cv_c_clip_type="both" cannam@85: ;; cannam@85: esac cannam@85: ]] cannam@85: cannam@85: ) cannam@85: ] cannam@85: cannam@85: )# MN_C_CLIP_MODE cannam@85: cannam@85: