LoongArch: Add LoongArch architecture detection to __float128 support in libgfortran and libquadmath [PR119408].

In GCC14, LoongArch added __float128 as an alias for _Float128.
In commit r15-8962, support for q/Q suffixes for 128-bit floating point
numbers.  This will cause the compiler to automatically link libquadmath
when compiling Fortran programs.  But on LoongArch `long double` is
IEEE quad, so there is no need to implement libquadmath.
This causes link failure.

	PR target/119408

libgfortran/ChangeLog:

	* acinclude.m4: When checking for __float128 support, determine
	whether the current architecture is LoongArch.  If so, return false.
	* configure: Regenerate.

libquadmath/ChangeLog:

	* configure.ac: When checking for __float128 support, determine
	whether the current architecture is LoongArch.  If so, return false.
	* configure: Regenerate.

	Sigend-off-by: Xi Ruoyao <xry111@xry111.site>
	Sigend-off-by: Jakub Jelinek <jakub@redhat.com>

libgfortran/acinclude.m4

@@ -274,6 +274,10 @@ AC_DEFUN([LIBGFOR_CHECK_FLOAT128], [
   AC_CACHE_CHECK([whether we have a usable _Float128 type],
                  libgfor_cv_have_float128, [
    GCC_TRY_COMPILE_OR_LINK([
+    #ifdef __loongarch__
+    #error On LoongArch we should use long double instead; __float128 is only for porting existing code easier.
+    #endif
+
     _Float128 foo (_Float128 x)
     {
      _Complex _Float128 z1, z2;

libgfortran/configure

@@ -30283,6 +30283,10 @@ else
   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
 /* end confdefs.h.  */
 
+    #ifdef __loongarch__
+    #error On LoongArch we should use long double instead; __float128 is only for porting existing code easier.
+    #endif
+
     _Float128 foo (_Float128 x)
     {
      _Complex _Float128 z1, z2;
@@ -30336,6 +30340,10 @@ fi
 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
 /* end confdefs.h.  */
 
+    #ifdef __loongarch__
+    #error On LoongArch we should use long double instead; __float128 is only for porting existing code easier.
+    #endif
+
     _Float128 foo (_Float128 x)
     {
      _Complex _Float128 z1, z2;

libquadmath/configure

@@ -12843,6 +12843,10 @@ else
   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
 /* end confdefs.h.  */
 
+    #ifdef __loongarch__
+    #error  On LoongArch we should use long double instead; __float128 is only for porting existing code easier.
+    #endif
+
     #if (!defined(_ARCH_PPC)) || defined(__LONG_DOUBLE_IEEE128__)
     typedef _Complex float __attribute__((mode(TC))) __complex128;
     #else
@@ -12894,6 +12898,10 @@ fi
 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
 /* end confdefs.h.  */
 
+    #ifdef __loongarch__
+    #error  On LoongArch we should use long double instead; __float128 is only for porting existing code easier.
+    #endif
+
     #if (!defined(_ARCH_PPC)) || defined(__LONG_DOUBLE_IEEE128__)
     typedef _Complex float __attribute__((mode(TC))) __complex128;
     #else

libquadmath/configure.ac

@@ -233,6 +233,10 @@ AM_CONDITIONAL(LIBQUAD_USE_SYMVER_SUN, [test "x$quadmath_use_symver" = xsun])
 
 AC_CACHE_CHECK([whether __float128 is supported], [libquad_cv_have_float128],
   [GCC_TRY_COMPILE_OR_LINK([
+    #ifdef __loongarch__
+    #error  On LoongArch we should use long double instead; __float128 is only for porting existing code easier.
+    #endif
+
     #if (!defined(_ARCH_PPC)) || defined(__LONG_DOUBLE_IEEE128__)
     typedef _Complex float __attribute__((mode(TC))) __complex128;
     #else