old-cross-binutils/cpu/or1korbis.cpu
Stefan Kristiansson 999b995ddc or1k: add support for l.swa/l.lwa atomic instructions
This adds support for the load-link/store-conditional
l.lwa/l.swa atomic instructions.
The support is added in such way, that the cpu description not
only describes the mnemonics, but also the functionality.

A couple of fixes to typos in nearby/related code are also snuck
into this.

cpu/
	* or1korbis.cpu (h-atomic-reserve): New hardware.
	(h-atomic-address): Likewise.
	(insn-opcode): Add opcodes for LWA and SWA.
	(atomic-reserve): New operand.
	(atomic-address): Likewise.
	(l-lwa, l-swa): New instructions.
	(l-lbs): Fix typo in comment.
	(store-insn): Clear atomic reserve on store to atomic-address.
	Fix register names in fmt field.

opcodes/
	* or1k-desc.c: Regenerated.
	* or1k-desc.h: Likewise.
	* or1k-opc.c: Likewise.
	* or1k-opc.h: Likewise.
	* or1k-opinst.c: Likewise.
2014-05-08 09:02:50 +03:00

1121 lines
34 KiB
Scheme
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

; OpenRISC Basic Instruction Set 32-bit (ORBIS) -*- Scheme -*-
; Copyright 2000-2014 Free Software Foundation, Inc.
; Contributed for OR32 by Johan Rydberg, jrydberg@opencores.org
; Modified by Julius Baxter, juliusbaxter@gmail.com
; Modified 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/>
; Instruction fields.
; Hardware for immediate operands
(dnh h-simm16 "16-bit signed immediate" ((MACH ORBIS-MACHS)) (immediate (INT 16)) () () ())
(dnh h-uimm16 "16-bit unsigned immediate" () (immediate (UINT 16)) () () ())
(dnh h-uimm6 "6-bit unsigned immediate" () (immediate (UINT 6)) () () ())
; Hardware for the (internal) atomic registers
(dsh h-atomic-reserve "atomic reserve flag" () (register BI))
(dsh h-atomic-address "atomic reserve address" () (register SI))
; Instruction classes.
(dnf f-opcode "insn opcode" ((MACH ORBIS-MACHS)) 31 6)
; Register fields.
(dnf f-r1 "r1" ((MACH ORBIS-MACHS)) 25 5)
(dnf f-r2 "r2" ((MACH ORBIS-MACHS)) 20 5)
(dnf f-r3 "r3" ((MACH ORBIS-MACHS)) 15 5)
; Sub fields
(dnf f-op-25-2 "op-25-2" ((MACH ORBIS-MACHS)) 25 2) ;; nop
(dnf f-op-25-5 "op-25-5" ((MACH ORBIS-MACHS)) 25 5) ;; sys, trap, *sync, sf*
(dnf f-op-16-1 "op-16-1" ((MACH ORBIS-MACHS)) 16 1) ;; movhi,macrc
(dnf f-op-7-4 "op-7-4" ((MACH ORBIS-MACHS)) 7 4)
(dnf f-op-3-4 "op-3-4" ((MACH ORBIS-MACHS)) 3 4)
(dnf f-op-9-2 "op-9-2" ((MACH ORBIS-MACHS)) 9 2) ;; alu ops upper opcode
(dnf f-op-9-4 "op-9-4" ((MACH ORBIS-MACHS)) 9 4) ;;
(dnf f-op-7-8 "op-7-8" ((MACH ORBIS-MACHS)) 7 8)
(dnf f-op-7-2 "op-7-2" ((MACH ORBIS-MACHS)) 7 2) ;; alu lower upper opc,shroti
; Reserved fields
(dnf f-resv-25-26 "resv-25-26" ((MACH ORBIS-MACHS) RESERVED) 25 26)
(dnf f-resv-25-10 "resv-25-10" ((MACH ORBIS-MACHS) RESERVED) 25 10)
(dnf f-resv-25-5 "resv-25-5" ((MACH ORBIS-MACHS) RESERVED) 25 5)
(dnf f-resv-23-8 "resv-23-8" ((MACH ORBIS-MACHS) RESERVED) 23 8)
(dnf f-resv-20-5 "resv-20-5" ((MACH ORBIS-MACHS) RESERVED) 20 5)
(dnf f-resv-20-4 "resv-20-4" ((MACH ORBIS-MACHS) RESERVED) 20 4)
(dnf f-resv-15-8 "resv-15-8" ((MACH ORBIS-MACHS) RESERVED) 15 8)
(dnf f-resv-15-6 "resv-15-6" ((MACH ORBIS-MACHS) RESERVED) 15 6)
(dnf f-resv-10-11 "resv-10-11" ((MACH ORBIS-MACHS) RESERVED) 10 11)
(dnf f-resv-10-7 "resv-10-7" ((MACH ORBIS-MACHS) RESERVED) 10 7)
(dnf f-resv-10-3 "resv-10-3" ((MACH ORBIS-MACHS) RESERVED) 10 3)
(dnf f-resv-10-1 "resv-10-1" ((MACH ORBIS-MACHS) RESERVED) 10 1)
(dnf f-resv-7-4 "resv-7-4" ((MACH ORBIS-MACHS) RESERVED) 7 4)
(dnf f-resv-5-2 "resv-5-2" ((MACH ORBIS-MACHS) RESERVED) 5 2)
(dnf f-imm16-25-5 "imm16-25-5" ((MACH ORBIS-MACHS)) 25 5)
(dnf f-imm16-10-11 "imm16-10-11" ((MACH ORBIS-MACHS)) 10 11)
; PC relative, 26-bit (2 shifted to right)
(df f-disp26
"disp26"
((MACH ORBIS-MACHS) PCREL-ADDR)
25
26
INT
((value pc) (sra SI (sub IAI value pc) (const 2)))
((value pc) (add IAI (sll IAI value (const 2)) pc))
)
; Immediates.
(dnf f-uimm16 "uimm16" ((MACH ORBIS-MACHS)) 15 16)
(df f-simm16 "simm16" ((MACH ORBIS-MACHS) SIGN-OPT) 15 16 INT #f #f)
(dnf f-uimm6 "uimm6" ((MACH ORBIS-MACHS)) 5 6) ;; shroti
(define-multi-ifield
(name f-uimm16-split)
(comment "16-bit split unsigned immediate")
(attrs (MACH ORBIS-MACHS))
(mode UINT)
(subfields f-imm16-25-5 f-imm16-10-11)
(insert (sequence ()
(set (ifield f-imm16-25-5)
(and (srl (ifield f-uimm16-split)
(const 11))
(const #x1f)))
(set (ifield f-imm16-10-11)
(and (ifield f-uimm16-split)
(const #x7ff)))))
(extract
(set (ifield f-uimm16-split)
(trunc UHI
(or (sll (ifield f-imm16-25-5)
(const 11))
(ifield f-imm16-10-11)))))
)
(define-multi-ifield
(name f-simm16-split)
(comment "16-bit split signed immediate")
(attrs (MACH ORBIS-MACHS) SIGN-OPT)
(mode INT)
(subfields f-imm16-25-5 f-imm16-10-11)
(insert (sequence ()
(set (ifield f-imm16-25-5)
(and (sra (ifield f-simm16-split)
(const 11))
(const #x1f)))
(set (ifield f-imm16-10-11)
(and (ifield f-simm16-split)
(const #x7ff)))))
(extract
(set (ifield f-simm16-split)
(trunc HI
(or (sll (ifield f-imm16-25-5)
(const 11))
(ifield f-imm16-10-11)))))
)
; Enums.
; insn-opcode: bits 31-26
(define-normal-insn-enum
insn-opcode "insn main opcode enums" ((MACH ORBIS-MACHS)) OPC_ f-opcode
(("J" #x00)
("JAL" #x01)
("BNF" #x03)
("BF" #x04)
("NOP" #x05)
("MOVHIMACRC" #x06)
("SYSTRAPSYNCS" #x08)
("RFE" #x09)
("VECTOR" #x0a)
("JR" #x11)
("JALR" #x12)
("MACI" #x13)
("LWA" #x1b)
("CUST1" #x1c)
("CUST2" #x1d)
("CUST3" #x1e)
("CUST4" #x1f)
("LD" #x20)
("LWZ" #x21)
("LWS" #x22)
("LBZ" #x23)
("LBS" #x24)
("LHZ" #x25)
("LHS" #x26)
("ADDI" #x27)
("ADDIC" #x28)
("ANDI" #x29)
("ORI" #x2a)
("XORI" #x2b)
("MULI" #x2c)
("MFSPR" #x2d)
("SHROTI" #x2e)
("SFI" #x2f)
("MTSPR" #x30)
("MAC" #x31)
("FLOAT" #x32)
("SWA" #x33)
("SD" #x34)
("SW" #x35)
("SB" #x36)
("SH" #x37)
("ALU" #x38)
("SF" #x39)
("CUST5" #x3c)
("CUST6" #x3d)
("CUST7" #x3e)
("CUST8" #x3f)
)
)
(define-normal-insn-enum insn-opcode-systrapsyncs
"systrapsync insn opcode enums" ((MACH ORBIS-MACHS))
OPC_SYSTRAPSYNCS_ f-op-25-5
(("SYSCALL" #x00 )
("TRAP" #x08 )
("MSYNC" #x10 )
("PSYNC" #x14 )
("CSYNC" #x18 )
)
)
(define-normal-insn-enum insn-opcode-movehimacrc
"movhi/macrc insn opcode enums" ((MACH ORBIS-MACHS))
OPC_MOVHIMACRC_ f-op-16-1
(("MOVHI" #x0)
("MACRC" #x1)
)
)
(define-normal-insn-enum insn-opcode-mac
"multiply/accumulate insn opcode enums" ((MACH ORBIS-MACHS))
OPC_MAC_ f-op-3-4
(("MAC" #x1)
("MSB" #x2)
)
)
(define-normal-insn-enum insn-opcode-shorts
"shift/rotate insn opcode enums" ((MACH ORBIS-MACHS))
OPC_SHROTS_ f-op-7-2
(("SLL" #x0 )
("SRL" #x1 )
("SRA" #x2 )
("ROR" #x3 )
)
)
(define-normal-insn-enum insn-opcode-extbhs
"extend byte/half opcode enums" ((MACH ORBIS-MACHS))
OPC_EXTBHS_ f-op-9-4
(("EXTHS" #x0)
("EXTBS" #x1)
("EXTHZ" #x2)
("EXTBZ" #x3)
)
)
(define-normal-insn-enum insn-opcode-extws
"extend word opcode enums" ((MACH ORBIS-MACHS))
OPC_EXTWS_ f-op-9-4
(("EXTWS" #x0)
("EXTWZ" #x1)
)
)
(define-normal-insn-enum insn-opcode-alu-regreg
"alu reg/reg insn opcode enums" ((MACH ORBIS-MACHS))
OPC_ALU_REGREG_ f-op-3-4
(("ADD" #x0)
("ADDC" #x1)
("SUB" #x2)
("AND" #x3)
("OR" #x4)
("XOR" #x5)
("MUL" #x6)
("SHROT" #x8)
("DIV" #x9)
("DIVU" #xA)
("MULU" #xB)
("EXTBH" #xC)
("EXTW" #xD)
("CMOV" #xE)
("FFL1" #xF)
)
)
(define-normal-insn-enum insn-opcode-setflag
"setflag insn opcode enums" ((MACH ORBIS-MACHS))
OPC_SF_ f-op-25-5
(("EQ" #x00)
("NE" #x01)
("GTU" #x02)
("GEU" #x03)
("LTU" #x04)
("LEU" #x05)
("GTS" #x0A)
("GES" #x0B)
("LTS" #x0C)
("LES" #x0D)
)
)
; Instruction operands.
(dnop sys-sr "supervision register" ((MACH ORBIS-MACHS) SEM-ONLY) h-sys-sr f-nil)
(dnop sys-esr0 "exception supervision register 0" ((MACH ORBIS-MACHS) SEM-ONLY) h-sys-esr0 f-nil)
(dnop sys-epcr0 "exception PC register 0" ((MACH ORBIS-MACHS) SEM-ONLY) h-sys-epcr0 f-nil)
(dnop sys-sr-lee "SR little endian enable bit" ((MACH ORBIS-MACHS) SEM-ONLY) h-sys-sr-lee f-nil)
(dnop sys-sr-f "SR flag bit" ((MACH ORBIS-MACHS) SEM-ONLY) h-sys-sr-f f-nil)
(dnop sys-sr-cy "SR carry bit" ((MACH ORBIS-MACHS) SEM-ONLY) h-sys-sr-cy f-nil)
(dnop sys-sr-ov "SR overflow bit" ((MACH ORBIS-MACHS) SEM-ONLY) h-sys-sr-ov f-nil)
(dnop sys-sr-ove "SR overflow exception enable bit" ((MACH ORBIS-MACHS) SEM-ONLY) h-sys-sr-ove f-nil)
(dnop sys-cpucfgr-ob64s "CPUCFGR ORBIS64 supported bit" ((MACH ORBIS-MACHS) SEM-ONLY) h-sys-cpucfgr-ob64s f-nil)
(dnop sys-cpucfgr-nd "CPUCFGR no delay bit" ((MACH ORBIS-MACHS) SEM-ONLY) h-sys-cpucfgr-nd f-nil)
(dnop sys-fpcsr-rm "floating point round mode" ((MACH ORBIS-MACHS) SEM-ONLY) h-sys-fpcsr-rm f-nil)
(dnop mac-machi "MAC HI result register" ((MACH ORBIS-MACHS) SEM-ONLY) h-mac-machi f-nil)
(dnop mac-maclo "MAC LO result register" ((MACH ORBIS-MACHS) SEM-ONLY) h-mac-maclo f-nil)
(dnop atomic-reserve "atomic reserve flag" ((MACH ORBIS-MACHS) SEM-ONLY) h-atomic-reserve f-nil)
(dnop atomic-address "atomic address" ((MACH ORBIS-MACHS) SEM-ONLY) h-atomic-address f-nil)
(dnop uimm6 "uimm6" ((MACH ORBIS-MACHS)) h-uimm6 f-uimm6)
(dnop rD "destination register" ((MACH ORBIS-MACHS)) h-gpr f-r1)
(dnop rA "source register A" ((MACH ORBIS-MACHS)) h-gpr f-r2)
(dnop rB "source register B" ((MACH ORBIS-MACHS)) h-gpr f-r3)
(define-operand
(name disp26)
(comment "pc-rel 26 bit")
(attrs (MACH ORBIS-MACHS))
(type h-iaddr)
(index f-disp26)
(handlers (parse "disp26"))
)
(define-operand
(name simm16)
(comment "16-bit signed immediate")
(attrs (MACH ORBIS-MACHS) SIGN-OPT)
(type h-simm16)
(index f-simm16)
(handlers (parse "simm16"))
)
(define-operand
(name uimm16)
(comment "16-bit unsigned immediate")
(attrs (MACH ORBIS-MACHS))
(type h-uimm16)
(index f-uimm16)
(handlers (parse "uimm16"))
)
(define-operand
(name simm16-split)
(comment "split 16-bit signed immediate")
(attrs (MACH ORBIS-MACHS) SIGN-OPT)
(type h-simm16)
(index f-simm16-split)
(handlers (parse "simm16"))
)
(define-operand
(name uimm16-split)
(comment "split 16-bit unsigned immediate")
(attrs (MACH ORBIS-MACHS))
(type h-uimm16)
(index f-uimm16-split)
(handlers (parse "uimm16"))
)
; Instructions.
; Branch releated instructions
(define-pmacro (cti-link-return)
(set IAI (reg h-gpr 9) (add pc (if sys-cpucfgr-nd 4 8)))
)
(define-pmacro (cti-transfer-control condition target)
;; this mess is necessary because we're
;; skipping the delay slot, but it's
;; actually the start of the next basic
;; block
(sequence ()
(if condition
(delay 1 (set IAI pc target))
(if sys-cpucfgr-nd
(delay 1 (set IAI pc (add pc 4))))
)
(if sys-cpucfgr-nd
(skip 1)
)
)
)
(define-pmacro
(define-cti
cti-name
cti-comment
cti-attrs
cti-syntax
cti-format
cti-semantics)
(begin
(dni
cti-name
cti-comment
(.splice (MACH ORBIS-MACHS) DELAYED-CTI NOT-IN-DELAY-SLOT (.unsplice cti-attrs))
cti-syntax
cti-format
(cti-semantics)
()
)
)
)
(define-cti
l-j
"jump (pc-relative iaddr)"
(!COND-CTI UNCOND-CTI)
"l.j ${disp26}"
(+ OPC_J disp26)
(.pmacro ()
(cti-transfer-control 1 disp26)
)
)
(define-cti
l-jal
"jump and link (pc-relative iaddr)"
(!COND-CTI UNCOND-CTI)
"l.jal ${disp26}"
(+ OPC_JAL disp26)
(.pmacro ()
(sequence ()
(cti-link-return)
(cti-transfer-control 1 disp26)
)
)
)
(define-cti
l-jr
"jump register (absolute iaddr)"
(!COND-CTI UNCOND-CTI)
"l.jr $rB"
(+ OPC_JR (f-resv-25-10 0) rB (f-resv-10-11 0))
(.pmacro ()
(cti-transfer-control 1 rB)
)
)
(define-cti
l-jalr
"jump register and link (absolute iaddr)"
(!COND-CTI UNCOND-CTI)
"l.jalr $rB"
(+ OPC_JALR (f-resv-25-10 0) rB (f-resv-10-11 0) )
(.pmacro ()
(sequence ()
(cti-link-return)
(cti-transfer-control 1 rB)
)
)
)
(define-cti
l-bnf
"branch if condition bit not set (pc relative iaddr)"
(COND-CTI !UNCOND-CTI)
"l.bnf ${disp26}"
(+ OPC_BNF disp26)
(.pmacro ()
(cti-transfer-control (not sys-sr-f) disp26)
)
)
(define-cti
l-bf
"branch if condition bit set (pc relative iaddr)"
(COND-CTI !UNCOND-CTI)
"l.bf ${disp26}"
(+ OPC_BF disp26)
(.pmacro ()
(cti-transfer-control sys-sr-f disp26)
)
)
(dni l-trap "trap (exception)"
((MACH ORBIS-MACHS) NOT-IN-DELAY-SLOT)
"l.trap ${uimm16}"
(+ OPC_SYSTRAPSYNCS OPC_SYSTRAPSYNCS_TRAP (f-resv-20-5 0) uimm16)
; Do exception entry handling in C function, PC set based on SR state
(raise-exception EXCEPT-TRAP)
()
)
(dni l-sys "syscall (exception)"
; This function may not be in delay slot
((MACH ORBIS-MACHS) NOT-IN-DELAY-SLOT)
"l.sys ${uimm16}"
(+ OPC_SYSTRAPSYNCS OPC_SYSTRAPSYNCS_SYSCALL (f-resv-20-5 0) uimm16)
; Do exception entry handling in C function, PC set based on SR state
(raise-exception EXCEPT-SYSCALL)
()
)
(dni l-rfe "return from exception"
; This function may not be in delay slot
((MACH ORBIS-MACHS) NOT-IN-DELAY-SLOT FORCED-CTI)
"l.rfe"
(+ OPC_RFE (f-resv-25-26 0))
(c-call VOID "@cpu@_rfe")
()
)
; Misc instructions
; l.nop with immediate must be first so it handles all l.nops in sim
(dni l-nop-imm "nop uimm16"
((MACH ORBIS-MACHS))
"l.nop ${uimm16}"
(+ OPC_NOP (f-op-25-2 #x1) (f-resv-23-8 0) uimm16)
(c-call VOID "@cpu@_nop" (zext UWI uimm16))
()
)
(if (application-is? SIMULATOR)
(begin)
(begin
(dni l-nop "nop"
((MACH ORBIS-MACHS))
"l.nop"
(+ OPC_NOP (f-op-25-2 #x1) (f-resv-23-8 0) uimm16)
(nop)
()
)
)
)
(dni l-movhi "movhi reg/uimm16"
((MACH ORBIS-MACHS))
"l.movhi $rD,$uimm16"
(+ OPC_MOVHIMACRC rD (f-resv-20-4 0) OPC_MOVHIMACRC_MOVHI uimm16)
(set UWI rD (sll UWI (zext UWI uimm16) (const 16)))
()
)
(dni l-macrc "macrc reg"
((MACH ORBIS-MACHS))
"l.macrc $rD"
(+ OPC_MOVHIMACRC rD (f-resv-20-4 0) OPC_MOVHIMACRC_MACRC (f-uimm16 0))
(sequence ()
(set UWI rD mac-maclo)
(set UWI mac-maclo 0)
(set UWI mac-machi 0)
)
()
)
; System releated instructions
(dni l-mfspr "mfspr"
((MACH ORBIS-MACHS))
"l.mfspr $rD,$rA,${uimm16}"
(+ OPC_MFSPR rD rA uimm16)
(set UWI rD (c-call UWI "@cpu@_mfspr" (or rA (zext UWI uimm16))))
()
)
(dni l-mtspr "mtspr"
((MACH ORBIS-MACHS))
"l.mtspr $rA,$rB,${uimm16-split}"
(+ OPC_MTSPR rA rB uimm16-split )
(c-call VOID "@cpu@_mtspr" (or rA (zext WI uimm16-split)) rB)
()
)
; Load instructions
(define-pmacro (load-store-addr base offset size)
(c-call AI "@cpu@_make_load_store_addr" base (ext SI offset) size))
(dni l-lwz "l.lwz reg/simm16(reg)"
((MACH ORBIS-MACHS))
"l.lwz $rD,${simm16}($rA)"
(+ OPC_LWZ rD rA simm16)
(set UWI rD (zext UWI (mem USI (load-store-addr rA simm16 4))))
()
)
(dni l-lws "l.lws reg/simm16(reg)"
((MACH ORBIS-MACHS))
"l.lws $rD,${simm16}($rA)"
(+ OPC_LWS rD rA simm16)
(set WI rD (ext WI (mem SI (load-store-addr rA simm16 4))))
()
)
(dni l-lwa "l.lwa reg/simm16(reg)"
((MACH ORBIS-MACHS))
"l.lwa $rD,${simm16}($rA)"
(+ OPC_LWA rD rA simm16)
(sequence ()
(set UWI rD (zext UWI (mem USI (load-store-addr rA simm16 4))))
(set atomic-reserve (const 1))
(set atomic-address (load-store-addr rA simm16 4))
)
()
)
(dni l-lbz "l.lbz reg/simm16(reg)"
((MACH ORBIS-MACHS))
"l.lbz $rD,${simm16}($rA)"
(+ OPC_LBZ rD rA simm16)
(set UWI rD (zext UWI (mem UQI (load-store-addr rA simm16 1))))
()
)
(dni l-lbs "l.lbs reg/simm16(reg)"
((MACH ORBIS-MACHS))
"l.lbs $rD,${simm16}($rA)"
(+ OPC_LBS rD rA simm16)
(set WI rD (ext WI (mem QI (load-store-addr rA simm16 1))))
()
)
(dni l-lhz "l.lhz reg/simm16(reg)"
((MACH ORBIS-MACHS))
"l.lhz $rD,${simm16}($rA)"
(+ OPC_LHZ rD simm16 rA)
(set UWI rD (zext UWI (mem UHI (load-store-addr rA simm16 2))))
()
)
(dni l-lhs "l.lhs reg/simm16(reg)"
((MACH ORBIS-MACHS))
"l.lhs $rD,${simm16}($rA)"
(+ OPC_LHS rD rA simm16)
(set WI rD (ext WI (mem HI (load-store-addr rA simm16 2))))
()
)
; Store instructions
(define-pmacro (store-insn mnemonic opc-op mode size)
(begin
(dni (.sym l- mnemonic)
(.str "l." mnemonic " simm16(reg)/reg")
((MACH ORBIS-MACHS))
(.str "l." mnemonic " ${simm16-split}($rA),$rB")
(+ opc-op rA rB simm16-split)
(sequence ((SI addr))
(set addr (load-store-addr rA simm16-split size))
(set mode (mem mode addr) (trunc mode rB))
(if (eq (and addr #xffffffc) atomic-address)
(set atomic-reserve (const 0))
)
)
()
)
)
)
(store-insn sw OPC_SW USI 4)
(store-insn sb OPC_SB UQI 1)
(store-insn sh OPC_SH UHI 2)
(dni l-swa "l.swa simm16(reg)/reg"
((MACH ORBIS-MACHS))
"l.swa ${simm16-split}($rA),$rB"
(+ OPC_SWA rA rB simm16)
(sequence ((SI addr) (BI flag))
(set addr (load-store-addr rA simm16-split 4))
(set sys-sr-f (and atomic-reserve (eq addr atomic-address)))
(if sys-sr-f
(set USI (mem USI addr) (trunc USI rB))
)
(set atomic-reserve (const 0))
)
()
)
; Shift and rotate instructions
(define-pmacro (shift-insn mnemonic)
(begin
(dni (.sym l- mnemonic)
(.str "l." mnemonic " reg/reg/reg")
((MACH ORBIS-MACHS))
(.str "l." mnemonic " $rD,$rA,$rB")
(+ OPC_ALU rD rA rB (f-resv-10-3 0) (.sym OPC_SHROTS_ (.upcase mnemonic)) (f-resv-5-2 0)
OPC_ALU_REGREG_SHROT )
(set UWI rD (mnemonic rA rB))
()
)
(dni (.sym l- mnemonic "i")
(.str "l." mnemonic " reg/reg/uimm6")
((MACH ORBIS-MACHS))
(.str "l." mnemonic "i $rD,$rA,${uimm6}")
(+ OPC_SHROTI rD rA (f-resv-15-8 0) (.sym OPC_SHROTS_ (.upcase mnemonic)) uimm6)
(set rD (mnemonic rA uimm6))
()
)
)
)
(shift-insn sll)
(shift-insn srl)
(shift-insn sra)
(shift-insn ror)
; Arithmetic insns
; ALU op macro
(define-pmacro (alu-insn mnemonic)
(begin
(dni (.sym l- mnemonic)
(.str "l." mnemonic " reg/reg/reg")
((MACH ORBIS-MACHS))
(.str "l." mnemonic " $rD,$rA,$rB")
(+ OPC_ALU rD rA rB (f-resv-10-7 0) (.sym OPC_ALU_REGREG_ (.upcase mnemonic)))
(set rD (mnemonic rA rB))
()
)
)
)
(alu-insn and)
(alu-insn or)
(alu-insn xor)
(define-pmacro (alu-carry-insn mnemonic)
(begin
(dni (.sym l- mnemonic)
(.str "l." mnemonic " reg/reg/reg")
((MACH ORBIS-MACHS))
(.str "l." mnemonic " $rD,$rA,$rB")
(+ OPC_ALU rD rA rB (f-resv-10-7 #x00) (.sym OPC_ALU_REGREG_ (.upcase mnemonic)))
(sequence ()
(sequence ()
(set BI sys-sr-cy ((.sym mnemonic "c-cflag") WI rA rB 0))
(set BI sys-sr-ov ((.sym mnemonic "c-oflag") WI rA rB 0))
(set rD (mnemonic WI rA rB))
)
(if (andif sys-sr-ov sys-sr-ove)
(raise-exception EXCEPT-RANGE))
)
()
)
)
)
(alu-carry-insn add)
(alu-carry-insn sub)
(dni (l-addc) "l.addc reg/reg/reg"
((MACH ORBIS-MACHS))
("l.addc $rD,$rA,$rB")
(+ OPC_ALU rD rA rB (f-resv-10-7 #x00) OPC_ALU_REGREG_ADDC)
(sequence ()
(sequence ((BI tmp-sys-sr-cy))
(set BI tmp-sys-sr-cy sys-sr-cy)
(set BI sys-sr-cy (addc-cflag WI rA rB tmp-sys-sr-cy))
(set BI sys-sr-ov (addc-oflag WI rA rB tmp-sys-sr-cy))
(set rD (addc WI rA rB tmp-sys-sr-cy))
)
(if (andif sys-sr-ov sys-sr-ove)
(raise-exception EXCEPT-RANGE))
)
()
)
(dni (l-mul) "l.mul reg/reg/reg"
((MACH ORBIS-MACHS))
("l.mul $rD,$rA,$rB")
(+ OPC_ALU rD rA rB (f-resv-10-7 #x30) OPC_ALU_REGREG_MUL)
(sequence ()
(sequence ()
; 2's complement overflow
(set BI sys-sr-ov (mul-o2flag WI rA rB))
; 1's complement overflow
(set BI sys-sr-cy (mul-o1flag WI rA rB))
(set rD (mul WI rA rB))
)
(if (andif sys-sr-ov sys-sr-ove)
(raise-exception EXCEPT-RANGE))
)
()
)
(dni (l-mulu) "l.mulu reg/reg/reg"
((MACH ORBIS-MACHS))
("l.mulu $rD,$rA,$rB")
(+ OPC_ALU rD rA rB (f-resv-10-7 #x30) OPC_ALU_REGREG_MULU)
(sequence ()
(sequence ()
; 2's complement overflow
(set BI sys-sr-ov 0)
; 1's complement overflow
(set BI sys-sr-cy (mul-o1flag UWI rA rB))
(set rD (mul UWI rA rB))
)
(if (andif sys-sr-ov sys-sr-ove)
(raise-exception EXCEPT-RANGE))
)
()
)
(dni l-div "divide (signed)"
((MACH ORBIS-MACHS))
"l.div $rD,$rA,$rB"
(+ OPC_ALU rD rA rB (f-resv-10-7 #x30) OPC_ALU_REGREG_DIV)
(sequence ()
(if (ne rB 0)
(sequence ()
(set BI sys-sr-cy 0)
(set WI rD (div WI rA rB))
)
(set BI sys-sr-cy 1)
)
(set BI sys-sr-ov 0)
(if (andif sys-sr-cy sys-sr-ove)
(raise-exception EXCEPT-RANGE))
)
()
)
(dni l-divu "divide (unsigned)"
((MACH ORBIS-MACHS))
"l.divu $rD,$rA,$rB"
(+ OPC_ALU rD rA rB (f-resv-10-7 #x30) OPC_ALU_REGREG_DIVU)
(sequence ()
(if (ne rB 0)
(sequence ()
(set BI sys-sr-cy 0)
(set rD (udiv UWI rA rB))
)
(set BI sys-sr-cy 1)
)
(set BI sys-sr-ov 0)
(if (andif sys-sr-cy sys-sr-ove)
(raise-exception EXCEPT-RANGE))
)
()
)
(dni l-ff1 "find first '1'"
((MACH ORBIS-MACHS))
"l.ff1 $rD,$rA"
(+ OPC_ALU rD rA rB (f-resv-10-7 #x00) OPC_ALU_REGREG_FFL1)
(set rD (c-call UWI "@cpu@_ff1" rA))
()
)
(dni l-fl1 "find last '1'"
((MACH ORBIS-MACHS))
"l.fl1 $rD,$rA"
(+ OPC_ALU rD rA rB (f-resv-10-7 #x10) OPC_ALU_REGREG_FFL1)
(set rD (c-call UWI "@cpu@_fl1" rA))
()
)
(define-pmacro (alu-insn-simm mnemonic)
(begin
(dni (.sym l- mnemonic "i")
(.str "l." mnemonic " reg/reg/simm16")
((MACH ORBIS-MACHS))
(.str "l." mnemonic "i $rD,$rA,$simm16")
(+ (.sym OPC_ (.upcase mnemonic) "I") rD rA simm16)
(set rD (mnemonic rA (ext WI simm16)))
()
)
)
)
(define-pmacro (alu-insn-uimm mnemonic)
(begin
(dni (.sym l- mnemonic "i")
(.str "l." mnemonic " reg/reg/uimm16")
((MACH ORBIS-MACHS))
(.str "l." mnemonic "i $rD,$rA,$uimm16")
(+ (.sym OPC_ (.upcase mnemonic) "I") rD rA uimm16)
(set rD (mnemonic rA (zext UWI uimm16)))
()
)
)
)
(alu-insn-uimm and)
(alu-insn-uimm or)
(alu-insn-simm xor)
(define-pmacro (alu-carry-insn-simm mnemonic)
(begin
(dni (.sym l- mnemonic "i")
(.str "l." mnemonic "i reg/reg/simm16")
((MACH ORBIS-MACHS))
(.str "l." mnemonic "i $rD,$rA,$simm16")
(+ (.sym OPC_ (.upcase mnemonic) "I") rD rA simm16)
(sequence ()
(sequence ()
(set BI sys-sr-cy ((.sym mnemonic "c-cflag") WI rA (ext WI simm16) 0))
(set BI sys-sr-ov ((.sym mnemonic "c-oflag") WI rA (ext WI simm16) 0))
(set rD (mnemonic WI rA (ext WI simm16)))
)
(if (andif sys-sr-ov sys-sr-ove)
(raise-exception EXCEPT-RANGE))
)
()
)
)
)
(alu-carry-insn-simm add)
(dni (l-addic)
("l.addic reg/reg/simm16")
((MACH ORBIS-MACHS))
("l.addic $rD,$rA,$simm16")
(+ OPC_ADDIC rD rA simm16)
(sequence ()
(sequence ((BI tmp-sys-sr-cy))
(set BI tmp-sys-sr-cy sys-sr-cy)
(set BI sys-sr-cy (addc-cflag WI rA (ext WI simm16) tmp-sys-sr-cy))
(set BI sys-sr-ov (addc-oflag WI rA (ext WI simm16) tmp-sys-sr-cy))
(set WI rD (addc WI rA (ext WI simm16) tmp-sys-sr-cy))
)
(if (andif sys-sr-ov sys-sr-ove)
(raise-exception EXCEPT-RANGE))
)
()
)
(dni (l-muli)
"l.muli reg/reg/simm16"
((MACH ORBIS-MACHS))
("l.muli $rD,$rA,$simm16")
(+ OPC_MULI rD rA simm16)
(sequence ()
(sequence ()
; 2's complement overflow
(set sys-sr-ov (mul-o2flag WI rA (ext WI simm16)))
; 1's complement overflow
(set sys-sr-cy (mul-o1flag UWI rA (ext UWI simm16)))
(set rD (mul WI rA (ext WI simm16)))
)
(if (andif sys-sr-ov sys-sr-ove)
(raise-exception EXCEPT-RANGE))
)
()
)
(define-pmacro (extbh-insn mnemonic extop extmode truncmode)
(begin
(dni (.sym l- mnemonic)
(.str "l." mnemonic " reg/reg")
((MACH ORBIS-MACHS))
(.str "l." mnemonic " $rD,$rA")
(+ OPC_ALU rD rA (f-resv-15-6 0) (.sym OPC_EXTBHS_ (.upcase mnemonic)) (f-resv-5-2 0) OPC_ALU_REGREG_EXTBH)
(set rD (extop extmode (trunc truncmode rA)))
()
)
)
)
(extbh-insn exths ext WI HI)
(extbh-insn extbs ext WI QI)
(extbh-insn exthz zext UWI UHI)
(extbh-insn extbz zext UWI UQI)
(define-pmacro (extw-insn mnemonic extop extmode truncmode)
(begin
(dni (.sym l- mnemonic)
(.str "l." mnemonic " reg/reg")
((MACH ORBIS-MACHS))
(.str "l." mnemonic " $rD,$rA")
(+ OPC_ALU rD rA (f-resv-15-6 0) (.sym OPC_EXTWS_ (.upcase mnemonic)) (f-resv-5-2 0) OPC_ALU_REGREG_EXTW)
(set rD (extop extmode (trunc truncmode rA)))
()
)
)
)
(extw-insn extws ext WI SI)
(extw-insn extwz zext USI USI)
(dni l-cmov
"l.cmov reg/reg/reg"
((MACH ORBIS-MACHS))
"l.cmov $rD,$rA,$rB"
(+ OPC_ALU rD rA rB (f-resv-10-1 0) (f-op-9-2 0) (f-resv-7-4 0) OPC_ALU_REGREG_CMOV)
(if sys-sr-f
(set UWI rD rA)
(set UWI rD rB)
)
()
)
; Compare instructions
; Ordering compare
(define-pmacro (sf-insn op)
(begin
(dni (.sym l- "sf" op "s") ; l-sfgts
(.str "l.sf" op "s reg/reg") ; "l.sfgts reg/reg"
((MACH ORBIS-MACHS))
(.str "l.sf" op "s $rA,$rB") ; "l.sfgts $rA,$rB"
(+ OPC_SF (.sym "OPC_SF_" (.upcase op) "S") rA rB (f-resv-10-11 0)) ; (+ OPC_SF OPC_SF_GTS rA rB (f-resv-10-11 0))
(set sys-sr-f (op WI rA rB)) ; (set sys-sr-f (gt WI rA rB))
()
)
(dni (.sym l- "sf" op "si") ; l-sfgtsi
(.str "l.sf" op "si reg/simm16") ; "l.sfgtsi reg/simm16"
((MACH ORBIS-MACHS))
(.str "l.sf" op "si $rA,$simm16") ; "l.sfgtsi $rA,$simm16"
(+ OPC_SFI (.sym "OPC_SF_" (.upcase op) "S") rA simm16) ; (+ OPC_SFI OPC_SF_GTS rA simm16)
(set sys-sr-f (op WI rA (ext WI simm16))) ; (set sys-sr-f (gt WI rA (ext WI simm16)))
()
)
(dni (.sym l- "sf" op "u") ; l-sfgtu
(.str "l.sf" op "u reg/reg") ; "l.sfgtu reg/reg"
((MACH ORBIS-MACHS))
(.str "l.sf" op "u $rA,$rB") ; "l.sfgtu $rA,$rB"
(+ OPC_SF (.sym "OPC_SF_" (.upcase op) "U") rA rB (f-resv-10-11 0)) ; (+ OPC_SF OPC_SF_GTU rA rB (f-resv-10-11 0))
(set sys-sr-f ((.sym op "u") WI rA rB)) ; (set sys-sr-f (gtu WI rA rB))
()
)
; immediate is sign extended even for unsigned compare
(dni (.sym l- "sf" op "ui") ; l-sfgtui
(.str "l.sf" op "ui reg/simm16") ; "l.sfgtui reg/uimm16"
((MACH ORBIS-MACHS))
(.str "l.sf" op "ui $rA,$simm16") ; "l.sfgtui $rA,$simm16"
(+ OPC_SFI (.sym "OPC_SF_" (.upcase op) "U") rA simm16) ; (+ OPC_SFI OPC_SF_GTU rA simm16)
(set sys-sr-f ((.sym op "u") WI rA (ext WI simm16))) ; (set sys-sr-f (gtu WI rA (ext WI simm16)))
()
)
)
)
(sf-insn gt)
(sf-insn ge)
(sf-insn lt)
(sf-insn le)
; Equality compare
(define-pmacro (sf-insn-eq op)
(begin
(dni (.sym l- "sf" op)
(.str "l." op " reg/reg")
((MACH ORBIS-MACHS))
(.str "l.sf" op " $rA,$rB")
(+ OPC_SF (.sym "OPC_SF_" (.upcase op)) rA rB (f-resv-10-11 0))
(set sys-sr-f (op WI rA rB))
()
)
(dni (.sym l- "sf" op "i")
(.str "l.sf" op "i reg/simm16")
((MACH ORBIS-MACHS))
(.str "l.sf" op "i $rA,$simm16")
(+ OPC_SFI (.sym "OPC_SF_" (.upcase op)) rA simm16)
(set sys-sr-f (op WI rA (ext WI simm16)))
()
)
)
)
(sf-insn-eq eq)
(sf-insn-eq ne)
(dni l-mac
"l.mac reg/reg"
((MACH ORBIS-MACHS))
"l.mac $rA,$rB"
(+ OPC_MAC (f-op-25-5 0) rA rB (f-resv-10-7 0) OPC_MAC_MAC)
(sequence ((WI prod) (DI result))
(set WI prod (mul WI rA rB))
(set DI result (add (join DI SI mac-machi mac-maclo) (ext DI prod)))
(set SI mac-machi (subword SI result 0))
(set SI mac-maclo (subword SI result 1))
)
()
)
(dni l-msb
"l.msb reg/reg"
((MACH ORBIS-MACHS))
"l.msb $rA,$rB"
(+ OPC_MAC (f-op-25-5 0) rA rB (f-resv-10-7 0) OPC_MAC_MSB)
(sequence ((WI prod) (DI result))
(set WI prod (mul WI rA rB))
(set DI result (sub (join DI SI mac-machi mac-maclo) (ext DI prod)))
(set SI mac-machi (subword SI result 0))
(set SI mac-maclo (subword SI result 1))
)
()
)
(dni l-maci
"l.maci reg/simm16"
((MACH ORBIS-MACHS))
"l.maci $rA,${simm16}"
(+ OPC_MACI (f-resv-25-5 0) rA simm16)
(sequence ((WI prod) (DI result))
(set WI prod (mul WI (ext WI simm16) rA))
(set DI result (add (join DI SI mac-machi mac-maclo) (ext DI prod)))
(set SI mac-machi (subword SI result 0))
(set SI mac-maclo (subword SI result 1))
)
()
)
(define-pmacro (cust-insn cust-num)
(begin
(dni (.sym l- "cust" cust-num)
(.str "l.cust" cust-num)
((MACH ORBIS-MACHS))
(.str "l.cust" cust-num)
(+ (.sym OPC_CUST cust-num) (f-resv-25-26 0))
(nop)
()
)
)
)
(cust-insn "1")
(cust-insn "2")
(cust-insn "3")
(cust-insn "4")
(cust-insn "5")
(cust-insn "6")
(cust-insn "7")
(cust-insn "8")