/* Definitions of target machine for GNU compiler, for IBM RS/6000.
   Copyright (C) 2002-2020 Free Software Foundation, Inc.
   Contributed by Richard Kenner (kenner@vlsi1.ultra.nyu.edu)

   This file is part of GCC.

   GCC is free software; you can redistribute it and/or modify it
   under the terms of the GNU General Public License as published
   by the Free Software Foundation; either version 3, or (at your
   option) any later version.

   GCC is distributed in the hope that it will be useful, but WITHOUT
   ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
   or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public
   License for more details.

   You should have received a copy of the GNU General Public License
   along with GCC; see the file COPYING3.  If not see
   <http://www.gnu.org/licenses/>.  */

/* We order the 3 128-bit floating point types so that IFmode (IBM 128-bit
   floating point) is the 128-bit floating point type with the highest
   precision (128 bits).  This so that machine independent parts of the
   compiler do not try to widen IFmode to TFmode on ISA 3.0 (power9) that has
   hardware support for IEEE 128-bit.  We set TFmode (long double mode) in
   between, and KFmode (explicit __float128) below it.

   Previously, IFmode and KFmode were defined to be fractional modes and TFmode
   was the standard mode.  Since IFmode does not define the normal arithmetic
   insns (other than neg/abs), on a ISA 3.0 system, the machine independent
   parts of the compiler would see that TFmode has the necessary hardware
   support, and widen the operation from IFmode to TFmode.  However, IEEE
   128-bit is not strictly a super-set of IBM extended double and the
   conversion to/from IEEE 128-bit was a function call.

   We now make IFmode the highest fractional mode, which means its values are
   not considered for widening.  Since we don't define insns for IFmode, the
   IEEE 128-bit modes would not widen to IFmode.  */

#ifndef RS6000_MODES_H
#include "config/rs6000/rs6000-modes.h"
#endif

/* IBM 128-bit floating point.  */
FRACTIONAL_FLOAT_MODE (IF, FLOAT_PRECISION_IFmode, 16, ibm_extended_format);

/* Explicit IEEE 128-bit floating point.  */
FRACTIONAL_FLOAT_MODE (KF, FLOAT_PRECISION_KFmode, 16, ieee_quad_format);

/* 128-bit floating point, either IBM 128-bit or IEEE 128-bit.  This is
   adjusted in rs6000_option_override_internal to be the appropriate floating
   point type.  */
FRACTIONAL_FLOAT_MODE (TF, FLOAT_PRECISION_TFmode, 16, ieee_quad_format);

/* Add any extra modes needed to represent the condition code.

   For the RS/6000, we need separate modes when unsigned (logical) comparisons
   are being done and we need a separate mode for floating-point.  We also
   use a mode for the case when we are comparing the results of two
   comparisons, as then only the EQ bit is valid in the register.  */

CC_MODE (CCUNS);
CC_MODE (CCFP);
CC_MODE (CCEQ);

/* Vector modes.  */

/* VMX/VSX.  */
VECTOR_MODES (INT, 16);       /* V16QI V8HI  V4SI V2DI */
VECTOR_MODE (INT, TI, 1);     /*                  V1TI */
VECTOR_MODES (FLOAT, 16);     /*       V8HF  V4SF V2DF */

/* Two VMX/VSX vectors (for permute, select, concat, etc.)  */
VECTOR_MODES (INT, 32);       /* V32QI V16HI V8SI V4DI */
VECTOR_MODES (FLOAT, 32);     /*       V16HF V8SF V4DF */

/* Half VMX/VSX vector (for internal use)  */
VECTOR_MODE (FLOAT, SF, 2);   /*                 V2SF  */
VECTOR_MODE (INT, SI, 2);     /*                 V2SI  */

/* Replacement for TImode that only is allowed in GPRs.  We also use PTImode
   for quad memory atomic operations to force getting an even/odd register
   combination.  */
PARTIAL_INT_MODE (TI, 128, PTI);