binutils-gdb/cpu/or1korfpx.cpu

; OpenRISC 1000 architecture.  -*- Scheme -*-
; Copyright 2000-2014 Free Software Foundation, Inc.
; Contributed by Peter Gavin, pgavin@gmail.com
;
; This program 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 of the License, or
; (at your option) any later version.
;
; This program 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 this program; if not, see <http://www.gnu.org/licenses/>

; Initial ORFPX32 instruction set

; I'm not sure how CGEN handles rounding in FP operations, except for
; in conversions to/from integers.  So lf.add, lf.sub, lf.mul, and
; lf.div do not round according to the FPCSR RM field.
; NaN, overflow, and underflow are not yet handled either.

(define-normal-insn-enum insn-opcode-float-regreg
  "floating point reg/reg insn opcode enums" ()
  OPC_FLOAT_REGREG_ f-op-7-8
  (("ADD_S"  #x00)
   ("SUB_S"  #x01)
   ("MUL_S"  #x02)
   ("DIV_S"  #x03)
   ("ITOF_S" #x04)
   ("FTOI_S" #x05)
   ("REM_S"  #x06)
   ("MADD_S" #x07)
   ("SFEQ_S" #x08)
   ("SFNE_S" #x09)
   ("SFGT_S" #x0a)
   ("SFGE_S" #x0b)
   ("SFLT_S" #x0c)
   ("SFLE_S" #x0d)
   ("ADD_D"  #x10)
   ("SUB_D"  #x11)
   ("MUL_D"  #x12)
   ("DIV_D"  #x13)
   ("ITOF_D" #x14)
   ("FTOI_D" #x15)
   ("REM_D"  #x16)
   ("MADD_D" #x17)
   ("SFEQ_D" #x18)
   ("SFNE_D" #x19)
   ("SFGT_D" #x1a)
   ("SFGE_D" #x1b)
   ("SFLT_D" #x1c)
   ("SFLE_D" #x1d)
   ("CUST1_S" #xd0)
   ("CUST1_D" #xe0)
   )
  )

(dnop rDSF "destination register (single floating point mode)" () h-fsr f-r1)
(dnop rASF "source register A (single floating point mode)"    () h-fsr f-r2)
(dnop rBSF "source register B (single floating point mode)"    () h-fsr f-r3)

(dnop rDDF "destination register (double floating point mode)" ((MACH ORFPX64-MACHS)) h-fdr f-r1)
(dnop rADF "source register A (double floating point mode)"    ((MACH ORFPX64-MACHS)) h-fdr f-r1)
(dnop rBDF "source register B (double floating point mode)"    ((MACH ORFPX64-MACHS)) h-fdr f-r1)

(define-pmacro (float-regreg-insn mnemonic)
  (begin
    (dni (.sym lf- mnemonic -s)
         (.str "lf." mnemonic ".s reg/reg/reg")
         ((MACH ORFPX-MACHS))
         (.str "lf." mnemonic ".s $rDSF,$rASF,$rBSF")
         (+ OPC_FLOAT rDSF rASF rBSF (f-resv-10-3 0) (.sym OPC_FLOAT_REGREG_ (.upcase mnemonic) _S))
         (set SF rDSF (mnemonic SF rASF rBSF))
         ()
         )
    (dni (.sym lf- mnemonic -d)
         (.str "lf." mnemonic ".d reg/reg/reg")
         ((MACH ORFPX64-MACHS))
         (.str "lf." mnemonic ".d $rDDF,$rADF,$rBDF")
         (+ OPC_FLOAT rDDF rADF rBDF (f-resv-10-3 0) (.sym OPC_FLOAT_REGREG_ (.upcase mnemonic) _D))
         (set DF rDDF (mnemonic DF rADF rBDF))
         ()
         )
    )
  )

(float-regreg-insn add)
(float-regreg-insn sub)
(float-regreg-insn mul)
(float-regreg-insn div)

(dni lf-rem-s
     "lf.rem.s reg/reg/reg"
     ((MACH ORFPX-MACHS))
     "lf.rem.s $rDSF,$rASF,$rBSF"
     (+ OPC_FLOAT rDSF rASF rBSF (f-resv-10-3 0) OPC_FLOAT_REGREG_REM_S)
     (set SF rDSF (rem SF rASF rBSF))
     ()
     )
(dni lf-rem-d
     "lf.rem.d reg/reg/reg"
     ((MACH ORFPX64-MACHS))
     "lf.rem.d $rDDF,$rADF,$rBDF"
     (+ OPC_FLOAT rDDF rADF rBDF (f-resv-10-3 0) OPC_FLOAT_REGREG_REM_D)
     (set DF rDDF (mod DF rADF rBDF))
     ()
     )

(define-pmacro (get-rounding-mode)
  (case INT sys-fpcsr-rm
        ((0) 1) ; TIES-TO-EVEN -- I'm assuming this is what is meant by "round to nearest"
        ((1) 3) ; TOWARD-ZERO
        ((2) 4) ; TOWARD-POSITIVE
        (else 5) ; TOWARD-NEGATIVE
        )
  )

(dni lf-itof-s
     "lf.itof.s reg/reg"
     ((MACH ORFPX-MACHS))
     "lf.itof.s $rDSF,$rA"
     (+ OPC_FLOAT rDSF rA (f-r3 0) (f-resv-10-3 0) OPC_FLOAT_REGREG_ITOF_S)
     (set SF rDSF (float SF (get-rounding-mode) (trunc SI rA)))
     ()
     )
(dni lf-itof-d
     "lf.itof.d reg/reg"
     ((MACH ORFPX64-MACHS))
     "lf.itof.d $rDSF,$rA"
     (+ OPC_FLOAT rDSF rA (f-r3 0) (f-resv-10-3 0) OPC_FLOAT_REGREG_ITOF_D)
     (set DF rDDF (float DF (get-rounding-mode) rA))
     ()
     )

(dni lf-ftoi-s
     "lf.ftoi.s reg/reg"
     ((MACH ORFPX-MACHS))
     "lf.ftoi.s $rD,$rASF"
     (+ OPC_FLOAT rD rASF (f-r3 0) (f-resv-10-3 0) OPC_FLOAT_REGREG_FTOI_S)
     (set WI rD (ext WI (fix SI (get-rounding-mode) rASF)))
     ()
     )

(dni lf-ftoi-d
     "lf.ftoi.d reg/reg"
     ((MACH ORFPX64-MACHS))
     "lf.ftoi.d $rD,$rADF"
     (+ OPC_FLOAT rD rADF (f-r3 0) (f-resv-10-3 0) OPC_FLOAT_REGREG_FTOI_D)
     (set DI rD (fix DI (get-rounding-mode) rADF))
     ()
     )

(define-pmacro (float-setflag-insn mnemonic)
  (begin
    (dni (.sym lf- mnemonic -s)
         (.str "lf.sf" mnemonic ".s reg/reg")
         ((MACH ORFPX-MACHS))
         (.str "lf.sf" mnemonic ".s $rASF,$rBSF")
         (+ OPC_FLOAT (f-r1 0) rASF rBSF (f-resv-10-3 0) (.sym OPC_FLOAT_REGREG_SF (.upcase mnemonic) _S))
         (set BI sys-sr-f (mnemonic SF rASF rBSF))
         ()
         )
    (dni (.sym lf- mnemonic -d)
         (.str "lf.sf" mnemonic ".d reg/reg")
         ((MACH ORFPX64-MACHS))
         (.str "lf.sf" mnemonic ".d $rASF,$rBSF")
         (+ OPC_FLOAT (f-r1 0) rASF rBSF (f-resv-10-3 0) (.sym OPC_FLOAT_REGREG_SF (.upcase mnemonic) _D))
         (set BI sys-sr-f (mnemonic DF rADF rBDF))
         ()
         )
    )
  )

(float-setflag-insn eq)
(float-setflag-insn ne)
(float-setflag-insn ge)
(float-setflag-insn gt)
(float-setflag-insn lt)
(float-setflag-insn le)

(dni lf-madd-s
     "lf.madd.s reg/reg/reg"
     ((MACH ORFPX-MACHS))
     "lf.madd.s $rDSF,$rASF,$rBSF"
     (+ OPC_FLOAT rDSF rASF rBSF (f-resv-10-3 0) OPC_FLOAT_REGREG_MADD_S)
     (set SF rDSF (add SF (mul SF rASF rBSF) rDSF))
     ()
     )
(dni lf-madd-d
     "lf.madd.d reg/reg/reg"
     ((MACH ORFPX64-MACHS))
     "lf.madd.d $rDDF,$rADF,$rBDF"
     (+ OPC_FLOAT rDDF rADF rBDF (f-resv-10-3 0) OPC_FLOAT_REGREG_MADD_D)
     (set DF rDDF (add DF (mul DF rADF rBDF) rDDF))
     ()
     )

(define-pmacro (float-cust-insn cust-num)
  (begin
    (dni (.sym "lf-cust" cust-num "-s")
         (.str "lf.cust" cust-num ".s")
         ((MACH ORFPX-MACHS))
         (.str "lf.cust" cust-num ".s $rASF,$rBSF")
         (+ OPC_FLOAT (f-resv-25-5 0) rASF rBSF (f-resv-10-3 0) (.sym "OPC_FLOAT_REGREG_CUST" cust-num "_S"))
         (nop)
         ()
         )
    (dni (.sym "lf-cust" cust-num "-d")
         (.str "lf.cust" cust-num ".d")
         ((MACH ORFPX64-MACHS))
         (.str "lf.cust" cust-num ".d")
         (+ OPC_FLOAT (f-resv-25-5 0) rADF rBDF (f-resv-10-3 0) (.sym "OPC_FLOAT_REGREG_CUST" cust-num "_D"))
         (nop)
         ()
         )
    )
  )

(float-cust-insn "1")
Remove support for the (deprecated) openrisc and or32 configurations and replace with support for the new or1k configuration. 2014-04-22 16:57:47 +02:00			`; OpenRISC 1000 architecture. -- Scheme --`
			`; Copyright 2000-2014 Free Software Foundation, Inc.`
			`; Contributed by Peter Gavin, pgavin@gmail.com`
			`;`
			`; This program 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 of the License, or`
			`; (at your option) any later version.`
			`;`
			`; This program 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 this program; if not, see <http://www.gnu.org/licenses/>`

			`; Initial ORFPX32 instruction set`

			`; I'm not sure how CGEN handles rounding in FP operations, except for`
			`; in conversions to/from integers. So lf.add, lf.sub, lf.mul, and`
			`; lf.div do not round according to the FPCSR RM field.`
			`; NaN, overflow, and underflow are not yet handled either.`

			`(define-normal-insn-enum insn-opcode-float-regreg`
			`"floating point reg/reg insn opcode enums" ()`
			`OPC_FLOAT_REGREG_ f-op-7-8`
			`(("ADD_S" #x00)`
			`("SUB_S" #x01)`
			`("MUL_S" #x02)`
			`("DIV_S" #x03)`
			`("ITOF_S" #x04)`
			`("FTOI_S" #x05)`
			`("REM_S" #x06)`
			`("MADD_S" #x07)`
			`("SFEQ_S" #x08)`
			`("SFNE_S" #x09)`
			`("SFGT_S" #x0a)`
			`("SFGE_S" #x0b)`
			`("SFLT_S" #x0c)`
			`("SFLE_S" #x0d)`
			`("ADD_D" #x10)`
			`("SUB_D" #x11)`
			`("MUL_D" #x12)`
			`("DIV_D" #x13)`
			`("ITOF_D" #x14)`
			`("FTOI_D" #x15)`
			`("REM_D" #x16)`
			`("MADD_D" #x17)`
			`("SFEQ_D" #x18)`
			`("SFNE_D" #x19)`
			`("SFGT_D" #x1a)`
			`("SFGE_D" #x1b)`
			`("SFLT_D" #x1c)`
			`("SFLE_D" #x1d)`
			`("CUST1_S" #xd0)`
			`("CUST1_D" #xe0)`
			`)`
			`)`

			`(dnop rDSF "destination register (single floating point mode)" () h-fsr f-r1)`
			`(dnop rASF "source register A (single floating point mode)" () h-fsr f-r2)`
			`(dnop rBSF "source register B (single floating point mode)" () h-fsr f-r3)`

			`(dnop rDDF "destination register (double floating point mode)" ((MACH ORFPX64-MACHS)) h-fdr f-r1)`
			`(dnop rADF "source register A (double floating point mode)" ((MACH ORFPX64-MACHS)) h-fdr f-r1)`
			`(dnop rBDF "source register B (double floating point mode)" ((MACH ORFPX64-MACHS)) h-fdr f-r1)`

			`(define-pmacro (float-regreg-insn mnemonic)`
			`(begin`
			`(dni (.sym lf- mnemonic -s)`
			`(.str "lf." mnemonic ".s reg/reg/reg")`
			`((MACH ORFPX-MACHS))`
			`(.str "lf." mnemonic ".s $rDSF,$rASF,$rBSF")`
			`(+ OPC_FLOAT rDSF rASF rBSF (f-resv-10-3 0) (.sym OPC_FLOAT_REGREG_ (.upcase mnemonic) _S))`
			`(set SF rDSF (mnemonic SF rASF rBSF))`
			`()`
			`)`
			`(dni (.sym lf- mnemonic -d)`
			`(.str "lf." mnemonic ".d reg/reg/reg")`
			`((MACH ORFPX64-MACHS))`
			`(.str "lf." mnemonic ".d $rDDF,$rADF,$rBDF")`
			`(+ OPC_FLOAT rDDF rADF rBDF (f-resv-10-3 0) (.sym OPC_FLOAT_REGREG_ (.upcase mnemonic) _D))`
			`(set DF rDDF (mnemonic DF rADF rBDF))`
			`()`
			`)`
			`)`
			`)`

			`(float-regreg-insn add)`
			`(float-regreg-insn sub)`
			`(float-regreg-insn mul)`
			`(float-regreg-insn div)`

			`(dni lf-rem-s`
			`"lf.rem.s reg/reg/reg"`
			`((MACH ORFPX-MACHS))`
			`"lf.rem.s $rDSF,$rASF,$rBSF"`
			`(+ OPC_FLOAT rDSF rASF rBSF (f-resv-10-3 0) OPC_FLOAT_REGREG_REM_S)`
			`(set SF rDSF (rem SF rASF rBSF))`
			`()`
			`)`
			`(dni lf-rem-d`
			`"lf.rem.d reg/reg/reg"`
			`((MACH ORFPX64-MACHS))`
			`"lf.rem.d $rDDF,$rADF,$rBDF"`
			`(+ OPC_FLOAT rDDF rADF rBDF (f-resv-10-3 0) OPC_FLOAT_REGREG_REM_D)`
			`(set DF rDDF (mod DF rADF rBDF))`
			`()`
			`)`

			`(define-pmacro (get-rounding-mode)`
			`(case INT sys-fpcsr-rm`
			`((0) 1) ; TIES-TO-EVEN -- I'm assuming this is what is meant by "round to nearest"`
			`((1) 3) ; TOWARD-ZERO`
			`((2) 4) ; TOWARD-POSITIVE`
			`(else 5) ; TOWARD-NEGATIVE`
			`)`
			`)`

			`(dni lf-itof-s`
			`"lf.itof.s reg/reg"`
			`((MACH ORFPX-MACHS))`
			`"lf.itof.s $rDSF,$rA"`
			`(+ OPC_FLOAT rDSF rA (f-r3 0) (f-resv-10-3 0) OPC_FLOAT_REGREG_ITOF_S)`
			`(set SF rDSF (float SF (get-rounding-mode) (trunc SI rA)))`
			`()`
			`)`
			`(dni lf-itof-d`
			`"lf.itof.d reg/reg"`
			`((MACH ORFPX64-MACHS))`
			`"lf.itof.d $rDSF,$rA"`
			`(+ OPC_FLOAT rDSF rA (f-r3 0) (f-resv-10-3 0) OPC_FLOAT_REGREG_ITOF_D)`
			`(set DF rDDF (float DF (get-rounding-mode) rA))`
			`()`
			`)`

			`(dni lf-ftoi-s`
			`"lf.ftoi.s reg/reg"`
			`((MACH ORFPX-MACHS))`
			`"lf.ftoi.s $rD,$rASF"`
			`(+ OPC_FLOAT rD rASF (f-r3 0) (f-resv-10-3 0) OPC_FLOAT_REGREG_FTOI_S)`
			`(set WI rD (ext WI (fix SI (get-rounding-mode) rASF)))`
			`()`
			`)`

			`(dni lf-ftoi-d`
			`"lf.ftoi.d reg/reg"`
			`((MACH ORFPX64-MACHS))`
			`"lf.ftoi.d $rD,$rADF"`
			`(+ OPC_FLOAT rD rADF (f-r3 0) (f-resv-10-3 0) OPC_FLOAT_REGREG_FTOI_D)`
			`(set DI rD (fix DI (get-rounding-mode) rADF))`
			`()`
			`)`

			`(define-pmacro (float-setflag-insn mnemonic)`
			`(begin`
			`(dni (.sym lf- mnemonic -s)`
			`(.str "lf.sf" mnemonic ".s reg/reg")`
			`((MACH ORFPX-MACHS))`
			`(.str "lf.sf" mnemonic ".s $rASF,$rBSF")`
			`(+ OPC_FLOAT (f-r1 0) rASF rBSF (f-resv-10-3 0) (.sym OPC_FLOAT_REGREG_SF (.upcase mnemonic) _S))`
			`(set BI sys-sr-f (mnemonic SF rASF rBSF))`
			`()`
			`)`
			`(dni (.sym lf- mnemonic -d)`
			`(.str "lf.sf" mnemonic ".d reg/reg")`
			`((MACH ORFPX64-MACHS))`
			`(.str "lf.sf" mnemonic ".d $rASF,$rBSF")`
			`(+ OPC_FLOAT (f-r1 0) rASF rBSF (f-resv-10-3 0) (.sym OPC_FLOAT_REGREG_SF (.upcase mnemonic) _D))`
			`(set BI sys-sr-f (mnemonic DF rADF rBDF))`
			`()`
			`)`
			`)`
			`)`

			`(float-setflag-insn eq)`
			`(float-setflag-insn ne)`
			`(float-setflag-insn ge)`
			`(float-setflag-insn gt)`
			`(float-setflag-insn lt)`
			`(float-setflag-insn le)`

			`(dni lf-madd-s`
			`"lf.madd.s reg/reg/reg"`
			`((MACH ORFPX-MACHS))`
			`"lf.madd.s $rDSF,$rASF,$rBSF"`
			`(+ OPC_FLOAT rDSF rASF rBSF (f-resv-10-3 0) OPC_FLOAT_REGREG_MADD_S)`
			`(set SF rDSF (add SF (mul SF rASF rBSF) rDSF))`
			`()`
			`)`
			`(dni lf-madd-d`
			`"lf.madd.d reg/reg/reg"`
			`((MACH ORFPX64-MACHS))`
			`"lf.madd.d $rDDF,$rADF,$rBDF"`
			`(+ OPC_FLOAT rDDF rADF rBDF (f-resv-10-3 0) OPC_FLOAT_REGREG_MADD_D)`
			`(set DF rDDF (add DF (mul DF rADF rBDF) rDDF))`
			`()`
			`)`

			`(define-pmacro (float-cust-insn cust-num)`
			`(begin`
			`(dni (.sym "lf-cust" cust-num "-s")`
			`(.str "lf.cust" cust-num ".s")`
			`((MACH ORFPX-MACHS))`
			`(.str "lf.cust" cust-num ".s $rASF,$rBSF")`
			`(+ OPC_FLOAT (f-resv-25-5 0) rASF rBSF (f-resv-10-3 0) (.sym "OPC_FLOAT_REGREG_CUST" cust-num "_S"))`
			`(nop)`
			`()`
			`)`
			`(dni (.sym "lf-cust" cust-num "-d")`
			`(.str "lf.cust" cust-num ".d")`
			`((MACH ORFPX64-MACHS))`
			`(.str "lf.cust" cust-num ".d")`
			`(+ OPC_FLOAT (f-resv-25-5 0) rADF rBDF (f-resv-10-3 0) (.sym "OPC_FLOAT_REGREG_CUST" cust-num "_D"))`
			`(nop)`
			`()`
			`)`
			`)`
			`)`

			`(float-cust-insn "1")`