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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [config/] [h8300/] [genmova.sh] - Rev 753
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#!/bin/sh # Generate mova.md, a file containing patterns that can be implemented # using the h8sx mova instruction. # Copyright (C) 2004, 2009 Free Software Foundation, Inc. # # 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/>. echo ";; -*- buffer-read-only: t -*-" echo ";; Generated automatically from genmova.sh" echo ";; Copyright (C) 2004, 2009 Free Software Foundation, Inc." echo ";;" echo ";; This file is part of GCC." echo ";;" echo ";; GCC is free software; you can redistribute it and/or modify" echo ";; it under the terms of the GNU General Public License as published by" echo ";; the Free Software Foundation; either version 3, or (at your option)" echo ";; any later version." echo ";;" echo ";; GCC is distributed in the hope that it will be useful," echo ";; but WITHOUT ANY WARRANTY; without even the implied warranty of" echo ";; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the" echo ";; GNU General Public License for more details." echo ";;" echo ";; You should have received a copy of the GNU General Public License" echo ";; along with GCC; see the file COPYING3. If not see" echo ";; <http://www.gnu.org/licenses/>." # Loop over modes for the source operand (the index). Only 8-bit and # 16-bit indices are allowed. for s in QI HI; do # Set $src to the operand syntax for this size of index. case $s in QI) src=%X1.b;; HI) src=%T1.w;; esac # A match_operand for the source. operand="(match_operand:$s 1 \"h8300_dst_operand\" \"0,rQ\")" # Loop over the destination register's mode. The QI and HI versions use # the same instructions as the SI ones, they just ignore the upper bits # of the result. for d in QI HI SI; do # If the destination is larger than the source, include a # zero_extend/plus pattern. We could also match zero extensions # of memory without the plus, but it's not any smaller or faster # than separate insns. case $d:$s in SI:QI | SI:HI | HI:QI) cat <<EOF (define_insn "" [(set (match_operand:$d 0 "register_operand" "=r,r") (plus:$d (zero_extend:$d $operand) (match_operand:$d 2 "immediate_operand" "i,i")))] "TARGET_H8300SX" "mova/b.l @(%o2,$src),%S0" [(set_attr "length_table" "mova") (set_attr "cc" "none")]) EOF ;; esac # Loop over the shift amount. for shift in 1 2; do case $shift in 1) opsize=w mult=2;; 2) opsize=l mult=4;; esac # Calculate the mask of bits that will be nonzero after the source # has been extended and shifted. case $s:$shift in QI:1) mask=510;; QI:2) mask=1020;; HI:1) mask=131070;; HI:2) mask=262140;; esac # There doesn't seem to be a well-established canonical form for # some of the patterns we need. Emit both shift and multiplication # patterns. for form in mult ashift; do case $form in mult) amount=$mult;; ashift) amount=$shift;; esac case $d:$s in # If the source and destination are the same size, we can treat # mova as a sort of multiply-add instruction. QI:QI | HI:HI) cat <<EOF (define_insn "" [(set (match_operand:$d 0 "register_operand" "=r,r") (plus:$d ($form:$d $operand (const_int $amount)) (match_operand:$d 2 "immediate_operand" "i,i")))] "TARGET_H8300SX" "mova/$opsize.l @(%o2,$src),%S0" [(set_attr "length_table" "mova") (set_attr "cc" "none")]) EOF ;; # Handle the cases where the source is smaller than the # destination. Sometimes combine will keep the extension, # sometimes it will use an AND. SI:QI | SI:HI | HI:QI) # Emit the forms that use zero_extend. cat <<EOF (define_insn "" [(set (match_operand:$d 0 "register_operand" "=r,r") ($form:$d (zero_extend:$d $operand) (const_int $amount)))] "TARGET_H8300SX" "mova/$opsize.l @(0,$src),%S0" [(set_attr "length_table" "mova_zero") (set_attr "cc" "none")]) (define_insn "" [(set (match_operand:$d 0 "register_operand" "=r,r") (plus:$d ($form:$d (zero_extend:$d $operand) (const_int $amount)) (match_operand:$d 2 "immediate_operand" "i,i")))] "TARGET_H8300SX" "mova/$opsize.l @(%o2,$src),%S0" [(set_attr "length_table" "mova") (set_attr "cc" "none")]) EOF # Now emit the forms that use AND. When the index is a register, # these forms are effectively $d-mode operations: the index will # be a $d-mode REG or SUBREG. When the index is a memory # location, we will have a paradoxical subreg such as: # # (and:SI (mult:SI (subreg:SI (mem:QI ...) 0) # (const_int 4)) # (const_int 1020)) # # Match the two case separately: a $d-mode register_operand # or a $d-mode subreg of an $s-mode memory_operand. Match the # memory form first since register_operand accepts mem subregs # before reload. memory="(match_operand:$s 1 \"memory_operand\" \"m\")" memory="(subreg:$d $memory 0)" register="(match_operand:$d 1 \"register_operand\" \"0\")" for paradoxical in "$memory" "$register"; do cat <<EOF (define_insn "" [(set (match_operand:$d 0 "register_operand" "=r") (and:$d ($form:$d $paradoxical (const_int $amount)) (const_int $mask)))] "TARGET_H8300SX" "mova/$opsize.l @(0,$src),%S0" [(set_attr "length_table" "mova_zero") (set_attr "cc" "none")]) (define_insn "" [(set (match_operand:$d 0 "register_operand" "=r") (plus:$d (and:$d ($form:$d $paradoxical (const_int $amount)) (const_int $mask)) (match_operand:$d 2 "immediate_operand" "i")))] "TARGET_H8300SX" "mova/$opsize.l @(%o2,$src),%S0" [(set_attr "length_table" "mova") (set_attr "cc" "none")]) EOF done ;; esac done done done done
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