buildtools/binutils/cpu/m32c.cpu
Alexander von Gluck IV 46e1ce6913 binutils: Import binutils 2.36.1
Change-Id: I06fc1c19229e26c20132c255c92b7e71ea3cc31a
Reviewed-on: https://review.haiku-os.org/c/buildtools/+/4372
Reviewed-by: Fredrik Holmqvist <fredrik.holmqvist@gmail.com>
Reviewed-by: Alex von Gluck IV <kallisti5@unixzen.com>
2021-08-26 20:24:40 +00:00

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; Renesas M32C CPU description. -*- Scheme -*-
;
; Copyright 2005, 2006, 2007, 2009 Free Software Foundation, Inc.
;
; Contributed by Red Hat Inc; developed under contract from Renesas.
;
; This file is part of the GNU Binutils.
;
; 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, write to the Free Software
; Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
; MA 02110-1301, USA.
(include "simplify.inc")
(define-arch
(name m32c)
(comment "Renesas M32C")
(default-alignment forced)
(insn-lsb0? #f)
(machs m16c m32c)
(isas m16c m32c)
)
(define-isa
(name m16c)
(default-insn-bitsize 32)
; Number of bytes of insn we can initially fetch.
(base-insn-bitsize 32)
; Used in computing bit numbers.
(default-insn-word-bitsize 32)
(decode-assist (0 1 2 3 4 5 6 7)) ; Initial bitnumbers to decode insns by.
; fetches 1 insn at a time.
(liw-insns 1)
; executes 1 insn at a time.
(parallel-insns 1)
)
(define-isa
(name m32c)
(default-insn-bitsize 32)
; Number of bytes of insn we can initially fetch.
(base-insn-bitsize 32)
; Used in computing bit numbers.
(default-insn-word-bitsize 32)
(decode-assist (0 1 2 3 4 5 6 7)) ; Initial bitnumbers to decode insns by.
; fetches 1 insn at a time.
(liw-insns 1)
; executes 1 insn at a time.
(parallel-insns 1)
)
(define-cpu
; cpu names must be distinct from the architecture name and machine names.
; The "b" suffix stands for "base" and is the convention.
; The "f" suffix stands for "family" and is the convention.
(name m16cbf)
(comment "Renesas M16C base family")
(insn-endian big)
(data-endian little)
(word-bitsize 16)
)
(define-cpu
; cpu names must be distinct from the architecture name and machine names.
; The "b" suffix stands for "base" and is the convention.
; The "f" suffix stands for "family" and is the convention.
(name m32cbf)
(comment "Renesas M32C base family")
(insn-endian big)
(data-endian little)
(word-bitsize 16)
)
(define-mach
(name m16c)
(comment "Generic M16C cpu")
(cpu m32cbf)
)
(define-mach
(name m32c)
(comment "Generic M32C cpu")
(cpu m32cbf)
)
; Model descriptions.
(define-model
(name m16c)
(comment "m16c") (attrs)
(mach m16c)
; `state' is a list of variables for recording model state
; (state)
(unit u-exec "Execution Unit" ()
1 1 ; issue done
() ; state
() ; inputs
() ; outputs
() ; profile action (default)
)
)
(define-model
(name m32c)
(comment "m32c") (attrs)
(mach m32c)
; `state' is a list of variables for recording model state
; (state)
(unit u-exec "Execution Unit" ()
1 1 ; issue done
() ; state
() ; inputs
() ; outputs
() ; profile action (default)
)
)
(define-attr
(type enum)
(name RL_TYPE)
(values NONE JUMP 1ADDR 2ADDR)
(default NONE)
)
; Macros to simplify MACH attribute specification.
(define-pmacro all-isas () (ISA m16c,m32c))
(define-pmacro m16c-isa () (ISA m16c))
(define-pmacro m32c-isa () (ISA m32c))
(define-pmacro MACH16 (MACH m16c))
(define-pmacro MACH32 (MACH m32c))
(define-pmacro (machine size)
(MACH (.sym m size c)) (ISA (.sym m size c)))
(define-pmacro RL_JUMP (RL_TYPE JUMP))
(define-pmacro RL_1ADDR (RL_TYPE 1ADDR))
(define-pmacro RL_2ADDR (RL_TYPE 2ADDR))
;=============================================================
; Fields
;-------------------------------------------------------------
; Main opcodes
;
(dnf f-0-1 "opcode" (all-isas) 0 1)
(dnf f-0-2 "opcode" (all-isas) 0 2)
(dnf f-0-3 "opcode" (all-isas) 0 3)
(dnf f-0-4 "opcode" (all-isas) 0 4)
(dnf f-1-3 "opcode" (all-isas) 1 3)
(dnf f-2-2 "opcode" (all-isas) 2 2)
(dnf f-3-4 "opcode" (all-isas) 3 4)
(dnf f-3-1 "opcode" (all-isas) 3 1)
(dnf f-4-1 "opcode" (all-isas) 4 1)
(dnf f-4-3 "opcode" (all-isas) 4 3)
(dnf f-4-4 "opcode" (all-isas) 4 4)
(dnf f-4-6 "opcode" (all-isas) 4 6)
(dnf f-5-1 "opcode" (all-isas) 5 1)
(dnf f-5-3 "opcode" (all-isas) 5 3)
(dnf f-6-2 "opcode" (all-isas) 6 2)
(dnf f-7-1 "opcode" (all-isas) 7 1)
(dnf f-8-1 "opcode" (all-isas) 8 1)
(dnf f-8-2 "opcode" (all-isas) 8 2)
(dnf f-8-3 "opcode" (all-isas) 8 3)
(dnf f-8-4 "opcode" (all-isas) 8 4)
(dnf f-8-8 "opcode" (all-isas) 8 8)
(dnf f-9-3 "opcode" (all-isas) 9 3)
(dnf f-9-1 "opcode" (all-isas) 9 1)
(dnf f-10-1 "opcode" (all-isas) 10 1)
(dnf f-10-2 "opcode" (all-isas) 10 2)
(dnf f-10-3 "opcode" (all-isas) 10 3)
(dnf f-11-1 "opcode" (all-isas) 11 1)
(dnf f-12-1 "opcode" (all-isas) 12 1)
(dnf f-12-2 "opcode" (all-isas) 12 2)
(dnf f-12-3 "opcode" (all-isas) 12 3)
(dnf f-12-4 "opcode" (all-isas) 12 4)
(dnf f-12-6 "opcode" (all-isas) 12 6)
(dnf f-13-3 "opcode" (all-isas) 13 3)
(dnf f-14-1 "opcode" (all-isas) 14 1)
(dnf f-14-2 "opcode" (all-isas) 14 2)
(dnf f-15-1 "opcode" (all-isas) 15 1)
(dnf f-16-1 "opcode" (all-isas) 16 1)
(dnf f-16-2 "opcode" (all-isas) 16 2)
(dnf f-16-4 "opcode" (all-isas) 16 4)
(dnf f-16-8 "opcode" (all-isas) 16 8)
(dnf f-18-1 "opcode" (all-isas) 18 1)
(dnf f-18-2 "opcode" (all-isas) 18 2)
(dnf f-18-3 "opcode" (all-isas) 18 3)
(dnf f-20-1 "opcode" (all-isas) 20 1)
(dnf f-20-3 "opcode" (all-isas) 20 3)
(dnf f-20-2 "opcode" (all-isas) 20 2)
(dnf f-20-4 "opcode" (all-isas) 20 4)
(dnf f-21-3 "opcode" (all-isas) 21 3)
(dnf f-24-2 "opcode" (all-isas) 24 2)
(dnf f-24-8 "opcode" (all-isas) 24 8)
(dnf f-32-16 "opcode" (all-isas) 32 16)
;-------------------------------------------------------------
; Registers
;-------------------------------------------------------------
(dnf f-src16-rn "source Rn for m16c" (MACH16 m16c-isa) 10 2)
(dnf f-src16-an "source An for m16c" (MACH16 m16c-isa) 11 1)
(dnf f-src32-an-unprefixed "destination An for m32c" (MACH32 m32c-isa) 11 1)
(dnf f-src32-an-prefixed "destination An for m32c" (MACH32 m32c-isa) 19 1)
; QI mode gr encoding for m32c is different than for m16c. The hardware
; is indexed using the m16c encoding, so perform the transformation here.
; register m16c m32c
; ----------------------
; r0l 00'b 10'b
; r0h 01'b 00'b
; r1l 10'b 11'b
; r1h 11'b 01'b
(df f-src32-rn-unprefixed-QI "source Rn QI for m32c" (MACH32 m32c-isa) 10 2 UINT
((value pc) (or USI (and (inv (sll value 1)) 2) (and (srl value 1) 1))) ; insert
((value pc) (or USI (and (inv (srl value 1)) 1) (and (sll value 1) 2))) ; extract
)
; QI mode gr encoding for m32c is different than for m16c. The hardware
; is indexed using the m16c encoding, so perform the transformation here.
; register m16c m32c
; ----------------------
; r0l 00'b 10'b
; r0h 01'b 00'b
; r1l 10'b 11'b
; r1h 11'b 01'b
(df f-src32-rn-prefixed-QI "source Rn QI for m32c" (MACH32 m32c-isa) 18 2 UINT
((value pc) (or USI (and (inv (sll value 1)) 2) (and (srl value 1) 1))) ; insert
((value pc) (or USI (and (inv (srl value 1)) 1) (and (sll value 1) 2))) ; extract
)
; HI mode gr encoding for m32c is different than for m16c. The hardware
; is indexed using the m16c encoding, so perform the transformation here.
; register m16c m32c
; ----------------------
; r0 00'b 10'b
; r1 01'b 11'b
; r2 10'b 00'b
; r3 11'b 01'b
(df f-src32-rn-unprefixed-HI "source Rn HI for m32c" (MACH32 m32c-isa) 10 2 UINT
((value pc) (mod USI (add value 2) 4)) ; insert
((value pc) (mod USI (add value 2) 4)) ; extract
)
; HI mode gr encoding for m32c is different than for m16c. The hardware
; is indexed using the m16c encoding, so perform the transformation here.
; register m16c m32c
; ----------------------
; r0 00'b 10'b
; r1 01'b 11'b
; r2 10'b 00'b
; r3 11'b 01'b
(df f-src32-rn-prefixed-HI "source Rn HI for m32c" (MACH32 m32c-isa) 18 2 UINT
((value pc) (mod USI (add value 2) 4)) ; insert
((value pc) (mod USI (add value 2) 4)) ; extract
)
; SI mode gr encoding for m32c is as follows:
; register encoding index
; -------------------------
; r2r0 10'b 0
; r3r1 11'b 1
(df f-src32-rn-unprefixed-SI "source Rn SI for m32c" (MACH32 m32c-isa) 10 2 UINT
((value pc) (add USI value 2)) ; insert
((value pc) (sub USI value 2)) ; extract
)
(df f-src32-rn-prefixed-SI "source Rn SI for m32c" (MACH32 m32c-isa) 18 2 UINT
((value pc) (add USI value 2)) ; insert
((value pc) (sub USI value 2)) ; extract
)
(dnf f-dst32-rn-ext-unprefixed "destination Rn for m32c" (MACH32 m32c-isa) 9 1)
(dnf f-dst16-rn "destination Rn for m16c" (MACH16 m16c-isa) 14 2)
(dnf f-dst16-rn-ext "destination Rn for m16c" (MACH16 m16c-isa) 14 1)
(dnf f-dst16-rn-QI-s "destination Rn for m16c" (MACH16 m16c-isa) 5 1)
(dnf f-dst16-an "destination An for m16c" (MACH16 m16c-isa) 15 1)
(dnf f-dst16-an-s "destination An for m16c" (MACH16 m16c-isa) 4 1)
(dnf f-dst32-an-unprefixed "destination An for m32c" (MACH32 m32c-isa) 9 1)
(dnf f-dst32-an-prefixed "destination An for m32c" (MACH32 m32c-isa) 17 1)
; QI mode gr encoding for m32c is different than for m16c. The hardware
; is indexed using the m16c encoding, so perform the transformation here.
; register m16c m32c
; ----------------------
; r0l 00'b 10'b
; r0h 01'b 00'b
; r1l 10'b 11'b
; r1h 11'b 01'b
(df f-dst32-rn-unprefixed-QI "destination Rn QI for m32c" (MACH32 m32c-isa) 8 2 UINT
((value pc) (or USI (and (inv (sll value 1)) 2) (and (srl value 1) 1))) ; insert
((value pc) (or USI (and (inv (srl value 1)) 1) (and (sll value 1) 2))) ; extract
)
(df f-dst32-rn-prefixed-QI "destination Rn QI for m32c" (MACH32 m32c-isa) 16 2 UINT
((value pc) (or USI (and (inv (sll value 1)) 2) (and (srl value 1) 1))) ; insert
((value pc) (or USI (and (inv (srl value 1)) 1) (and (sll value 1) 2))) ; extract
)
; HI mode gr encoding for m32c is different than for m16c. The hardware
; is indexed using the m16c encoding, so perform the transformation here.
; register m16c m32c
; ----------------------
; r0 00'b 10'b
; r1 01'b 11'b
; r2 10'b 00'b
; r3 11'b 01'b
(df f-dst32-rn-unprefixed-HI "destination Rn HI for m32c" (MACH32 m32c-isa) 8 2 UINT
((value pc) (mod USI (add value 2) 4)) ; insert
((value pc) (mod USI (add value 2) 4)) ; extract
)
(df f-dst32-rn-prefixed-HI "destination Rn HI for m32c" (MACH32 m32c-isa) 16 2 UINT
((value pc) (mod USI (add value 2) 4)) ; insert
((value pc) (mod USI (add value 2) 4)) ; extract
)
; SI mode gr encoding for m32c is as follows:
; register encoding index
; -------------------------
; r2r0 10'b 0
; r3r1 11'b 1
(df f-dst32-rn-unprefixed-SI "destination Rn SI for m32c" (MACH32 m32c-isa) 8 2 UINT
((value pc) (add USI value 2)) ; insert
((value pc) (sub USI value 2)) ; extract
)
(df f-dst32-rn-prefixed-SI "destination Rn SI for m32c" (MACH32 m32c-isa) 16 2 UINT
((value pc) (add USI value 2)) ; insert
((value pc) (sub USI value 2)) ; extract
)
(dnf f-dst16-1-S "destination R0[hl] for m16c" (MACH16 m16c-isa) 5 1)
;-------------------------------------------------------------
; Immediates embedded in the base insn
;-------------------------------------------------------------
(df f-imm-8-s4 "4 bit signed" (all-isas) 8 4 INT #f #f)
(df f-imm-12-s4 "4 bit signed" (all-isas) 12 4 INT #f #f)
(df f-imm-13-u3 "3 bit unsigned" (all-isas) 13 3 UINT #f #f)
(df f-imm-20-s4 "4 bit signed" (all-isas) 20 4 INT #f #f)
(df f-imm1-S "1 bit immediate for short format binary insns" (MACH32 m32c-isa) 2 1 UINT
((value pc) (sub USI value 1)) ; insert
((value pc) (add USI value 1)) ; extract
)
(dnmf f-imm3-S "3 bit unsigned for short format insns" (all-isas) UINT
(f-2-2 f-7-1)
(sequence () ; insert
(set (ifield f-7-1) (and (sub (ifield f-imm3-S) 1) 1))
(set (ifield f-2-2) (and (srl (sub (ifield f-imm3-S) 1) 1) #x3))
)
(sequence () ; extract
(set (ifield f-imm3-S) (add (or (sll (ifield f-2-2) 1)
(ifield f-7-1))
1))
)
)
;-------------------------------------------------------------
; Immediates and displacements beyond the base insn
;-------------------------------------------------------------
(df f-dsp-8-u6 "6 bit unsigned" (all-isas) 8 6 UINT #f #f)
(df f-dsp-8-u8 "8 bit unsigned" (all-isas) 8 8 UINT #f #f)
(df f-dsp-8-s8 "8 bit signed" (all-isas) 8 8 INT #f #f)
(df f-dsp-10-u6 "6 bit unsigned" (all-isas) 10 6 UINT #f #f)
(df f-dsp-16-u8 "8 bit unsigned" (all-isas) 16 8 UINT #f #f)
(df f-dsp-16-s8 "8 bit signed" (all-isas) 16 8 INT #f #f)
(df f-dsp-24-u8 "8 bit unsigned" (all-isas) 24 8 UINT #f #f)
(df f-dsp-24-s8 "8 bit signed" (all-isas) 24 8 INT #f #f)
(df f-dsp-32-u8 "8 bit unsigned" (all-isas) 32 8 UINT #f #f)
(df f-dsp-32-s8 "8 bit signed" (all-isas) 32 8 INT #f #f)
(df f-dsp-40-u8 "8 bit unsigned" (all-isas) 40 8 UINT #f #f)
(df f-dsp-40-s8 "8 bit signed" (all-isas) 40 8 INT #f #f)
(df f-dsp-48-u8 "8 bit unsigned" (all-isas) 48 8 UINT #f #f)
(df f-dsp-48-s8 "8 bit signed" (all-isas) 48 8 INT #f #f)
(df f-dsp-56-u8 "8 bit unsigned" (all-isas) 56 8 UINT #f #f)
(df f-dsp-56-s8 "8 bit signed" (all-isas) 56 8 INT #f #f)
(df f-dsp-64-u8 "8 bit unsigned" (all-isas) 64 8 UINT #f #f)
(df f-dsp-64-s8 "8 bit signed" (all-isas) 64 8 INT #f #f)
; Insn opcode endianness is big, but the immediate fields are stored
; in little endian. Handle this here at the field level for all immediate
; fields longer that 1 byte.
;
; CGEN can't handle a field which spans a 32 bit word boundary, so
; handle those as multi ifields.
;
; Take care in expressions using 'srl' or 'sll' as part of some larger
; expression meant to yield sign-extended values. CGEN translates
; uses of those operators into C expressions whose type is 'unsigned
; int', which tends to make the whole expression 'unsigned int'.
; Expressions like (set (ifield foo) X), however, just take X and
; store it in some member of 'struct cgen_fields', all of whose
; members are 'long'. On machines where 'long' is larger than
; 'unsigned int', assigning a "sign-extended" unsigned int to a long
; just produces a very large positive value. insert_normal will
; range-check the field's value and produce odd error messages like
; this:
;
; Error: operand out of range (4160684031 not between -2147483648 and 2147483647) `add.l #-265,-270[fb]'
;
; Annoyingly, the code will work fine on machines where 'long' and
; 'unsigned int' are the same size: the assignment will produce a
; negative number.
;
; Just tell yourself over and over: overflow detection is expensive,
; and you're glad C doesn't do it, because it never happens in real
; life.
(df f-dsp-8-u16 "16 bit unsigned" (all-isas) 8 16 UINT
((value pc) (or UHI
(and (srl value 8) #xff)
(sll (and value #xff) 8))) ; insert
((value pc) (or UHI
(and UHI (srl UHI value 8) #xff)
(sll UHI (and UHI value #xff) 8))) ; extract
)
(df f-dsp-8-s16 "8 bit signed" (all-isas) 8 16 INT
((value pc) (ext INT
(trunc HI
(or (and (srl value 8) #xff)
(sll (and value #xff) 8))))) ; insert
((value pc) (ext INT
(trunc HI
(or (and (srl value 8) #xff)
(sll (and value #xff) 8))))) ; extract
)
(df f-dsp-16-u16 "16 bit unsigned" (all-isas) 16 16 UINT
((value pc) (or UHI
(and (srl value 8) #xff)
(sll (and value #xff) 8))) ; insert
((value pc) (or UHI
(and UHI (srl UHI value 8) #xff)
(sll UHI (and UHI value #xff) 8))) ; extract
)
(df f-dsp-16-s16 "16 bit signed" (all-isas) 16 16 INT
((value pc) (ext INT
(trunc HI
(or (and (srl value 8) #xff)
(sll (and value #xff) 8))))) ; insert
((value pc) (ext INT
(trunc HI
(or (and (srl value 8) #xff)
(sll (and value #xff) 8))))) ; extract
)
(dnmf f-dsp-24-u16 "16 bit unsigned" (all-isas) UINT
(f-dsp-24-u8 f-dsp-32-u8)
(sequence () ; insert
(set (ifield f-dsp-24-u8) (and (ifield f-dsp-24-u16) #xff))
(set (ifield f-dsp-32-u8) (and (srl (ifield f-dsp-24-u16) 8) #xff))
)
(sequence () ; extract
(set (ifield f-dsp-24-u16) (or (sll (ifield f-dsp-32-u8) 8)
(ifield f-dsp-24-u8)))
)
)
(dnmf f-dsp-24-s16 "16 bit signed" (all-isas) INT
(f-dsp-24-u8 f-dsp-32-u8)
(sequence () ; insert
(set (ifield f-dsp-24-u8)
(and (ifield f-dsp-24-s16) #xff))
(set (ifield f-dsp-32-u8)
(and (srl (ifield f-dsp-24-s16) 8) #xff))
)
(sequence () ; extract
(set (ifield f-dsp-24-s16)
(ext INT
(trunc HI (or (sll (ifield f-dsp-32-u8) 8)
(ifield f-dsp-24-u8)))))
)
)
(df f-dsp-32-u16 "16 bit unsigned" (all-isas) 32 16 UINT
((value pc) (or UHI
(and (srl value 8) #xff)
(sll (and value #xff) 8))) ; insert
((value pc) (or UHI
(and UHI (srl UHI value 8) #xff)
(sll UHI (and UHI value #xff) 8))) ; extract
)
(df f-dsp-32-s16 "16 bit signed" (all-isas) 32 16 INT
((value pc) (ext INT
(trunc HI
(or (and (srl value 8) #xff)
(sll (and value #xff) 8))))) ; insert
((value pc) (ext INT
(trunc HI
(or (and (srl value 8) #xff)
(sll (and value #xff) 8))))) ; extract
)
(df f-dsp-40-u16 "16 bit unsigned" (all-isas) 40 16 UINT
((value pc) (or UHI
(and (srl value 8) #xff)
(sll (and value #xff) 8))) ; insert
((value pc) (or UHI
(and UHI (srl UHI value 8) #xff)
(sll UHI (and UHI value #xff) 8))) ; extract
)
(df f-dsp-40-s16 "16 bit signed" (all-isas) 40 16 INT
((value pc) (ext INT
(trunc HI
(or (and (srl value 8) #xff)
(sll (and value #xff) 8))))) ; insert
((value pc) (ext INT
(trunc HI
(or (and (srl value 8) #xff)
(sll (and value #xff) 8))))) ; extract
)
(df f-dsp-48-u16 "16 bit unsigned" (all-isas) 48 16 UINT
((value pc) (or UHI
(and (srl value 8) #xff)
(sll (and value #xff) 8))) ; insert
((value pc) (or UHI
(and UHI (srl UHI value 8) #xff)
(sll UHI (and UHI value #xff) 8))) ; extract
)
(df f-dsp-48-s16 "16 bit signed" (all-isas) 48 16 INT
((value pc) (ext INT
(trunc HI
(or (and (srl value 8) #xff)
(sll (and value #xff) 8))))) ; insert
((value pc) (ext INT
(trunc HI
(or (and (srl value 8) #xff)
(sll (and value #xff) 8))))) ; extract
)
(df f-dsp-64-u16 "16 bit unsigned" (all-isas) 64 16 UINT
((value pc) (or UHI
(and (srl value 8) #xff)
(sll (and value #xff) 8))) ; insert
((value pc) (or UHI
(and UHI (srl UHI value 8) #xff)
(sll UHI (and UHI value #xff) 8))) ; extract
)
(df f-dsp-8-s24 "24 bit signed" (all-isas) 8 24 INT
((value pc) (sub SI (xor (or SI (or (and (srl value 16) #xff)
(and value #xff00))
(sll (and value #xff) 16))
#x800000) #x800000))
((value pc) (sub SI (xor (or SI
(or (and (srl value 16) #xff)
(and value #xff00))
(sll (and value #xff) 16))
#x800000) #x800000))
)
(df f-dsp-8-u24 "24 bit unsigned" (all-isas) 8 24 UINT
((value pc) (or SI
(or (srl value 16) (and value #xff00))
(sll (and value #xff) 16)))
((value pc) (or SI
(or (srl value 16) (and value #xff00))
(sll (and value #xff) 16)))
)
(dnmf f-dsp-16-u24 "24 bit unsigned" (all-isas) UINT
(f-dsp-16-u16 f-dsp-32-u8)
(sequence () ; insert
(set (ifield f-dsp-16-u16) (and (ifield f-dsp-16-u24) #xffff))
(set (ifield f-dsp-32-u8) (and (srl (ifield f-dsp-16-u24) 16) #xff))
)
(sequence () ; extract
(set (ifield f-dsp-16-u24) (or (sll (ifield f-dsp-32-u8) 16)
(ifield f-dsp-16-u16)))
)
)
(dnmf f-dsp-24-u24 "24 bit unsigned" (all-isas) UINT
(f-dsp-24-u8 f-dsp-32-u16)
(sequence () ; insert
(set (ifield f-dsp-24-u8) (and (ifield f-dsp-24-u24) #xff))
(set (ifield f-dsp-32-u16) (and (srl (ifield f-dsp-24-u24) 8) #xffff))
)
(sequence () ; extract
(set (ifield f-dsp-24-u24) (or (sll (ifield f-dsp-32-u16) 8)
(ifield f-dsp-24-u8)))
)
)
(df f-dsp-32-u24 "24 bit unsigned" (all-isas) 32 24 UINT
((value pc) (or USI
(or USI
(and (srl value 16) #x0000ff)
(and value #x00ff00))
(and (sll value 16) #xff0000))) ; insert
((value pc) (or USI
(or USI
(and USI (srl value 16) #x0000ff)
(and USI value #x00ff00))
(and USI (sll value 16) #xff0000))) ; extract
)
(df f-dsp-40-u20 "20 bit unsigned" (all-isas) 40 20 UINT
((value pc) (or USI
(or USI
(and (srl value 16) #x0000ff)
(and value #x00ff00))
(and (sll value 16) #x0f0000))) ; insert
((value pc) (or USI
(or USI
(and USI (srl value 16) #x0000ff)
(and USI value #x00ff00))
(and USI (sll value 16) #x0f0000))) ; extract
)
(df f-dsp-40-u24 "24 bit unsigned" (all-isas) 40 24 UINT
((value pc) (or USI
(or USI
(and (srl value 16) #x0000ff)
(and value #x00ff00))
(and (sll value 16) #xff0000))) ; insert
((value pc) (or USI
(or USI
(and USI (srl value 16) #x0000ff)
(and USI value #x00ff00))
(and USI (sll value 16) #xff0000))) ; extract
)
(dnmf f-dsp-40-s32 "32 bit signed" (all-isas) INT
(f-dsp-40-u24 f-dsp-64-u8)
(sequence () ; insert
(set (ifield f-dsp-64-u8) (and (srl (ifield f-dsp-40-s32) 24) #xff))
(set (ifield f-dsp-40-u24) (and (ifield f-dsp-40-s32) #xffffff))
)
(sequence () ; extract
(set (ifield f-dsp-40-s32) (or (and (ifield f-dsp-40-u24) #xffffff)
(and (sll (ifield f-dsp-64-u8) 24) #xff000000)))
)
)
(dnmf f-dsp-48-u20 "20 bit unsigned" (all-isas) UINT
(f-dsp-48-u16 f-dsp-64-u8)
(sequence () ; insert
(set (ifield f-dsp-64-u8) (and (srl (ifield f-dsp-48-u20) 16) #x0f))
(set (ifield f-dsp-48-u16) (and (ifield f-dsp-48-u20) #xffff))
)
(sequence () ; extract
(set (ifield f-dsp-48-u20) (or (and (ifield f-dsp-48-u16) #xffff)
(and (sll (ifield f-dsp-64-u8) 16) #x0f0000)))
)
)
(dnmf f-dsp-48-u24 "24 bit unsigned" (all-isas) UINT
(f-dsp-48-u16 f-dsp-64-u8)
(sequence () ; insert
(set (ifield f-dsp-64-u8) (and (srl (ifield f-dsp-48-u24) 16) #xff))
(set (ifield f-dsp-48-u16) (and (ifield f-dsp-48-u24) #xffff))
)
(sequence () ; extract
(set (ifield f-dsp-48-u24) (or (and (ifield f-dsp-48-u16) #xffff)
(and (sll (ifield f-dsp-64-u8) 16) #xff0000)))
)
)
(dnmf f-dsp-16-s32 "32 bit signed" (all-isas) INT
(f-dsp-16-u16 f-dsp-32-u16)
(sequence () ; insert
(set (ifield f-dsp-32-u16) (and (srl (ifield f-dsp-16-s32) 16) #xffff))
(set (ifield f-dsp-16-u16) (and (ifield f-dsp-16-s32) #xffff))
)
(sequence () ; extract
(set (ifield f-dsp-16-s32) (or (and (ifield f-dsp-16-u16) #xffff)
(and (sll (ifield f-dsp-32-u16) 16) #xffff0000)))
)
)
(dnmf f-dsp-24-s32 "32 bit signed" (all-isas) INT
(f-dsp-24-u8 f-dsp-32-u24)
(sequence () ; insert
(set (ifield f-dsp-32-u24) (and (srl (ifield f-dsp-24-s32) 8) #xffffff))
(set (ifield f-dsp-24-u8) (and (ifield f-dsp-24-s32) #xff))
)
(sequence () ; extract
(set (ifield f-dsp-24-s32) (or (and (ifield f-dsp-24-u8) #xff)
(and (sll (ifield f-dsp-32-u24) 8) #xffffff00)))
)
)
(df f-dsp-32-s32 "32 bit signed" (all-isas) 32 32 INT
((value pc)
;; insert
(ext INT
(or SI
(or SI
(and (srl value 24) #x00ff)
(and (srl value 8) #xff00))
(or SI
(sll (and value #xff00) 8)
(sll (and value #x00ff) 24)))))
;; extract
((value pc)
(ext INT
(or SI
(or SI
(and (srl value 24) #x00ff)
(and (srl value 8) #xff00))
(or SI
(sll (and value #xff00) 8)
(sll (and value #x00ff) 24)))))
)
(dnmf f-dsp-48-u32 "32 bit unsigned" (all-isas) UINT
(f-dsp-48-u16 f-dsp-64-u16)
(sequence () ; insert
(set (ifield f-dsp-64-u16) (and (srl (ifield f-dsp-48-u32) 16) #xffff))
(set (ifield f-dsp-48-u16) (and (ifield f-dsp-48-u32) #xffff))
)
(sequence () ; extract
(set (ifield f-dsp-48-u32) (or (and (ifield f-dsp-48-u16) #xffff)
(sll (and (ifield f-dsp-64-u16) #xffff) 16)))
)
)
(dnmf f-dsp-48-s32 "32 bit signed" (all-isas) INT
(f-dsp-48-u16 f-dsp-64-u16)
(sequence () ; insert
(set (ifield f-dsp-64-u16) (and (srl (ifield f-dsp-48-s32) 16) #xffff))
(set (ifield f-dsp-48-u16) (and (ifield f-dsp-48-s32) #xffff))
)
(sequence () ; extract
(set (ifield f-dsp-48-s32) (or (and (ifield f-dsp-48-u16) #xffff)
(sll (and (ifield f-dsp-64-u16) #xffff) 16)))
)
)
(dnmf f-dsp-56-s16 "16 bit signed" (all-isas) INT
(f-dsp-56-u8 f-dsp-64-u8)
(sequence () ; insert
(set (ifield f-dsp-56-u8)
(and (ifield f-dsp-56-s16) #xff))
(set (ifield f-dsp-64-u8)
(and (srl (ifield f-dsp-56-s16) 8) #xff))
)
(sequence () ; extract
(set (ifield f-dsp-56-s16)
(ext INT
(trunc HI (or (sll (ifield f-dsp-64-u8) 8)
(ifield f-dsp-56-u8)))))
)
)
(df f-dsp-64-s16 " 16 bit signed" (all-isas) 64 16 INT
((value pc) (ext INT
(trunc HI
(or (and (srl value 8) #xff)
(sll (and value #xff) 8))))) ; insert
((value pc) (ext INT
(trunc HI
(or (and (srl value 8) #xff)
(sll (and value #xff) 8))))) ; extract
)
;-------------------------------------------------------------
; Bit indices
;-------------------------------------------------------------
(dnf f-bitno16-S "bit index for m16c" (all-isas) 5 3)
(dnf f-bitno32-prefixed "bit index for m32c" (all-isas) 21 3)
(dnf f-bitno32-unprefixed "bit index for m32c" (all-isas) 13 3)
(dnmf f-bitbase16-u11-S "unsigned bit,base:11" (all-isas) UINT
(f-bitno16-S f-dsp-8-u8)
(sequence () ; insert
(set (ifield f-bitno16-S) (and f-bitbase16-u11-S #x7))
(set (ifield f-dsp-8-u8) (and (srl (ifield f-bitbase16-u11-S) 3) #xff))
)
(sequence () ; extract
(set (ifield f-bitbase16-u11-S) (or (sll (ifield f-dsp-8-u8) 3)
(ifield f-bitno16-S)))
)
)
(dnmf f-bitbase32-16-u11-unprefixed "unsigned bit,base:11" (all-isas) UINT
(f-bitno32-unprefixed f-dsp-16-u8)
(sequence () ; insert
(set (ifield f-bitno32-unprefixed) (and f-bitbase32-16-u11-unprefixed #x7))
(set (ifield f-dsp-16-u8) (and (srl (ifield f-bitbase32-16-u11-unprefixed) 3) #xff))
)
(sequence () ; extract
(set (ifield f-bitbase32-16-u11-unprefixed) (or (sll (ifield f-dsp-16-u8) 3)
(ifield f-bitno32-unprefixed)))
)
)
(dnmf f-bitbase32-16-s11-unprefixed "signed bit,base:11" (all-isas) INT
(f-bitno32-unprefixed f-dsp-16-s8)
(sequence () ; insert
(set (ifield f-bitno32-unprefixed) (and f-bitbase32-16-s11-unprefixed #x7))
(set (ifield f-dsp-16-s8) (sra INT (ifield f-bitbase32-16-s11-unprefixed) 3))
)
(sequence () ; extract
(set (ifield f-bitbase32-16-s11-unprefixed) (or (mul (ifield f-dsp-16-s8) 8)
(ifield f-bitno32-unprefixed)))
)
)
(dnmf f-bitbase32-16-u19-unprefixed "unsigned bit,base:19" (all-isas) UINT
(f-bitno32-unprefixed f-dsp-16-u16)
(sequence () ; insert
(set (ifield f-bitno32-unprefixed) (and f-bitbase32-16-u19-unprefixed #x7))
(set (ifield f-dsp-16-u16) (and (srl (ifield f-bitbase32-16-u19-unprefixed) 3) #xffff))
)
(sequence () ; extract
(set (ifield f-bitbase32-16-u19-unprefixed) (or (sll (ifield f-dsp-16-u16) 3)
(ifield f-bitno32-unprefixed)))
)
)
(dnmf f-bitbase32-16-s19-unprefixed "signed bit,base:11" (all-isas) INT
(f-bitno32-unprefixed f-dsp-16-s16)
(sequence () ; insert
(set (ifield f-bitno32-unprefixed) (and f-bitbase32-16-s19-unprefixed #x7))
(set (ifield f-dsp-16-s16) (sra INT (ifield f-bitbase32-16-s19-unprefixed) 3))
)
(sequence () ; extract
(set (ifield f-bitbase32-16-s19-unprefixed) (or (mul (ifield f-dsp-16-s16) 8)
(ifield f-bitno32-unprefixed)))
)
)
; SID decoder doesn't handle multi-ifield referencing another multi-ifield :-(
(dnmf f-bitbase32-16-u27-unprefixed "unsigned bit,base:27" (all-isas) UINT
(f-bitno32-unprefixed f-dsp-16-u16 f-dsp-32-u8)
(sequence () ; insert
(set (ifield f-bitno32-unprefixed) (and f-bitbase32-16-u27-unprefixed #x7))
(set (ifield f-dsp-16-u16) (and (srl (ifield f-bitbase32-16-u27-unprefixed) 3) #xffff))
(set (ifield f-dsp-32-u8) (and (srl (ifield f-bitbase32-16-u27-unprefixed) 19) #xff))
)
(sequence () ; extract
(set (ifield f-bitbase32-16-u27-unprefixed) (or (sll (ifield f-dsp-16-u16) 3)
(or (sll (ifield f-dsp-32-u8) 19)
(ifield f-bitno32-unprefixed))))
)
)
(dnmf f-bitbase32-24-u11-prefixed "unsigned bit,base:11" (all-isas) UINT
(f-bitno32-prefixed f-dsp-24-u8)
(sequence () ; insert
(set (ifield f-bitno32-prefixed) (and f-bitbase32-24-u11-prefixed #x7))
(set (ifield f-dsp-24-u8) (and (srl (ifield f-bitbase32-24-u11-prefixed) 3) #xff))
)
(sequence () ; extract
(set (ifield f-bitbase32-24-u11-prefixed) (or (sll (ifield f-dsp-24-u8) 3)
(ifield f-bitno32-prefixed)))
)
)
(dnmf f-bitbase32-24-s11-prefixed "signed bit,base:11" (all-isas) INT
(f-bitno32-prefixed f-dsp-24-s8)
(sequence () ; insert
(set (ifield f-bitno32-prefixed) (and f-bitbase32-24-s11-prefixed #x7))
(set (ifield f-dsp-24-s8) (sra INT (ifield f-bitbase32-24-s11-prefixed) 3))
)
(sequence () ; extract
(set (ifield f-bitbase32-24-s11-prefixed) (or (mul (ifield f-dsp-24-s8) 8)
(ifield f-bitno32-prefixed)))
)
)
; SID decoder doesn't handle multi-ifield referencing another multi-ifield :-(
(dnmf f-bitbase32-24-u19-prefixed "unsigned bit,base:19" (all-isas) UINT
(f-bitno32-prefixed f-dsp-24-u8 f-dsp-32-u8)
(sequence () ; insert
(set (ifield f-bitno32-prefixed) (and f-bitbase32-24-u19-prefixed #x7))
(set (ifield f-dsp-24-u8) (and (srl (ifield f-bitbase32-24-u19-prefixed) 3) #xff))
(set (ifield f-dsp-32-u8) (and (srl (ifield f-bitbase32-24-u19-prefixed) 11) #xff))
)
(sequence () ; extract
(set (ifield f-bitbase32-24-u19-prefixed) (or (sll (ifield f-dsp-24-u8) 3)
(or (sll (ifield f-dsp-32-u8) 11)
(ifield f-bitno32-prefixed))))
)
)
; SID decoder doesn't handle multi-ifield referencing another multi-ifield :-(
(dnmf f-bitbase32-24-s19-prefixed "signed bit,base:11" (all-isas) INT
(f-bitno32-prefixed f-dsp-24-u8 f-dsp-32-s8)
(sequence () ; insert
(set (ifield f-bitno32-prefixed) (and f-bitbase32-24-s19-prefixed #x7))
(set (ifield f-dsp-24-u8) (and (srl (ifield f-bitbase32-24-s19-prefixed) 3) #xff))
(set (ifield f-dsp-32-s8) (sra INT (ifield f-bitbase32-24-s19-prefixed) 11))
)
(sequence () ; extract
(set (ifield f-bitbase32-24-s19-prefixed) (or (sll (ifield f-dsp-24-u8) 3)
(or (mul (ifield f-dsp-32-s8) 2048)
(ifield f-bitno32-prefixed))))
)
)
; SID decoder doesn't handle multi-ifield referencing another multi-ifield :-(
(dnmf f-bitbase32-24-u27-prefixed "unsigned bit,base:27" (all-isas) UINT
(f-bitno32-prefixed f-dsp-24-u8 f-dsp-32-u16)
(sequence () ; insert
(set (ifield f-bitno32-prefixed) (and f-bitbase32-24-u27-prefixed #x7))
(set (ifield f-dsp-24-u8) (and (srl (ifield f-bitbase32-24-u27-prefixed) 3) #xff))
(set (ifield f-dsp-32-u16) (and (srl (ifield f-bitbase32-24-u27-prefixed) 11) #xffff))
)
(sequence () ; extract
(set (ifield f-bitbase32-24-u27-prefixed) (or (sll (ifield f-dsp-24-u8) 3)
(or (sll (ifield f-dsp-32-u16) 11)
(ifield f-bitno32-prefixed))))
)
)
;-------------------------------------------------------------
; Labels
;-------------------------------------------------------------
(df f-lab-5-3 "3 bit pc relative unsigned offset" (PCREL-ADDR all-isas) 5 3 UINT
((value pc) (sub SI value (add SI pc 2))) ; insert
((value pc) (add SI value (add SI pc 2))) ; extract
)
(dnmf f-lab32-jmp-s "unsigned 3 bit pc relative offset" (PCREL-ADDR all-isas) UINT
(f-2-2 f-7-1)
(sequence ((SI val)) ; insert
(set val (sub (sub (ifield f-lab32-jmp-s) pc) 2))
(set (ifield f-7-1) (and val #x1))
(set (ifield f-2-2) (srl val 1))
)
(sequence () ; extract
(set (ifield f-lab32-jmp-s) (add pc (add (or (sll (ifield f-2-2) 1)
(ifield f-7-1))
2)))
)
)
(df f-lab-8-8 "8 bit pc relative signed offset" (PCREL-ADDR all-isas) 8 8 INT
((value pc) (sub SI value (add SI pc 1))) ; insert
((value pc) (add SI value (add SI pc 1))) ; extract
)
(df f-lab-8-16 "16 bit pc relative signed offset" (PCREL-ADDR SIGN-OPT all-isas) 8 16 UINT
((value pc) (or SI (sll (and (sub value (add pc 1)) #xff) 8)
(srl (and (sub value (add pc 1)) #xff00) 8)))
((value pc) (add SI (sub (xor (or (srl (and value #xff00) 8)
(sll (and value #xff) 8))
#x8000)
#x8000)
(add pc 1)))
)
(df f-lab-8-24 "24 bit absolute" (all-isas ABS-ADDR) 8 24 UINT
((value pc) (or SI
(or (srl value 16) (and value #xff00))
(sll (and value #xff) 16)))
((value pc) (or SI
(or (srl value 16) (and value #xff00))
(sll (and value #xff) 16)))
)
(df f-lab-16-8 "8 bit pc relative signed offset" (PCREL-ADDR all-isas) 16 8 INT
((value pc) (sub SI value (add SI pc 2))) ; insert
((value pc) (add SI value (add SI pc 2))) ; extract
)
(df f-lab-24-8 "8 bit pc relative signed offset" (PCREL-ADDR all-isas) 24 8 INT
((value pc) (sub SI value (add SI pc 2))) ; insert
((value pc) (add SI value (add SI pc 2))) ; extract
)
(df f-lab-32-8 "8 bit pc relative signed offset" (PCREL-ADDR all-isas) 32 8 INT
((value pc) (sub SI value (add SI pc 2))) ; insert
((value pc) (add SI value (add SI pc 2))) ; extract
)
(df f-lab-40-8 "8 bit pc relative signed offset" (PCREL-ADDR all-isas) 40 8 INT
((value pc) (sub SI value (add SI pc 2))) ; insert
((value pc) (add SI value (add SI pc 2))) ; extract
)
;-------------------------------------------------------------
; Condition codes
;-------------------------------------------------------------
(dnf f-cond16 "condition code" (all-isas) 12 4)
(dnf f-cond16j-5 "condition code" (all-isas) 5 3)
(dnmf f-cond32 "condition code" (all-isas) UINT
(f-9-1 f-13-3)
(sequence () ; insert
(set (ifield f-9-1) (and (srl (ifield f-cond32) 3) 1))
(set (ifield f-13-3) (and (ifield f-cond32) #x7))
)
(sequence () ; extract
(set (ifield f-cond32) (or (sll (ifield f-9-1) 3)
(ifield f-13-3)))
)
)
(dnmf f-cond32j "condition code" (all-isas) UINT
(f-1-3 f-7-1)
(sequence () ; insert
(set (ifield f-1-3) (and (srl (ifield f-cond32j) 1) #x7))
(set (ifield f-7-1) (and (ifield f-cond32j) #x1))
)
(sequence () ; extract
(set (ifield f-cond32j) (or (sll (ifield f-1-3) 1)
(ifield f-7-1)))
)
)
;=============================================================
; Hardware
;
(dnh h-pc "program counter" (PC all-isas) (pc USI) () () ())
;-------------------------------------------------------------
; General registers
; The actual registers are 16 bits
;-------------------------------------------------------------
(define-hardware
(name h-gr)
(comment "general 16 bit registers")
(attrs all-isas CACHE-ADDR)
(type register HI (4))
(indices keyword "" (("r0" 0) ("r1" 1) ("r2" 2) ("r3" 3))))
; Define different views of the grs as VIRTUAL with getter/setter specs
;
(define-hardware
(name h-gr-QI)
(comment "general 8 bit registers")
(attrs all-isas VIRTUAL)
(type register QI (4))
(indices keyword "" (("r0l" 0) ("r0h" 1) ("r1l" 2) ("r1h" 3)))
(get (index) (and (if SI (mod index 2)
(srl (reg h-gr (div index 2)) 8)
(reg h-gr (div index 2)))
#xff))
(set (index newval) (set (reg h-gr (div index 2))
(if SI (mod index 2)
(or (and (reg h-gr (div index 2)) #xff)
(sll (and newval #xff) 8))
(or (and (reg h-gr (div index 2)) #xff00)
(and newval #xff))))))
(define-hardware
(name h-gr-HI)
(comment "general 16 bit registers")
(attrs all-isas VIRTUAL)
(type register HI (4))
(indices keyword "" (("r0" 0) ("r1" 1) ("r2" 2) ("r3" 3)))
(get (index) (reg h-gr index))
(set (index newval) (set (reg h-gr index) newval)))
(define-hardware
(name h-gr-SI)
(comment "general 32 bit registers")
(attrs all-isas VIRTUAL)
(type register SI (2))
(indices keyword "" (("r2r0" 0) ("r3r1" 1)))
(get (index) (or SI
(and (reg h-gr index) #xffff)
(sll (and (reg h-gr (add index 2)) #xffff) 16)))
(set (index newval) (sequence ()
(set (reg h-gr index) (and newval #xffff))
(set (reg h-gr (add index 2)) (srl newval 16)))))
(define-hardware
(name h-gr-ext-QI)
(comment "general 16 bit registers")
(attrs all-isas VIRTUAL)
(type register HI (2))
(indices keyword "" (("r0l" 0) ("r1l" 1)))
(get (index) (reg h-gr-QI (mul index 2)))
(set (index newval) (set (reg h-gr (mul index 2)) newval)))
(define-hardware
(name h-gr-ext-HI)
(comment "general 16 bit registers")
(attrs all-isas VIRTUAL)
(type register SI (2))
(indices keyword "" (("r0" 0) ("r1" 1)))
(get (index) (reg h-gr (mul index 2)))
(set (index newval) (set (reg h-gr-SI index) newval)))
(define-hardware
(name h-r0l)
(comment "r0l register")
(attrs all-isas VIRTUAL)
(type register QI)
(indices keyword "" (("r0l" 0)))
(get () (reg h-gr-QI 0))
(set (newval) (set (reg h-gr-QI 0) newval)))
(define-hardware
(name h-r0h)
(comment "r0h register")
(attrs all-isas VIRTUAL)
(type register QI)
(indices keyword "" (("r0h" 0)))
(get () (reg h-gr-QI 1))
(set (newval) (set (reg h-gr-QI 1) newval)))
(define-hardware
(name h-r1l)
(comment "r1l register")
(attrs all-isas VIRTUAL)
(type register QI)
(indices keyword "" (("r1l" 0)))
(get () (reg h-gr-QI 2))
(set (newval) (set (reg h-gr-QI 2) newval)))
(define-hardware
(name h-r1h)
(comment "r1h register")
(attrs all-isas VIRTUAL)
(type register QI)
(indices keyword "" (("r1h" 0)))
(get () (reg h-gr-QI 3))
(set (newval) (set (reg h-gr-QI 3) newval)))
(define-hardware
(name h-r0)
(comment "r0 register")
(attrs all-isas VIRTUAL)
(type register HI)
(indices keyword "" (("r0" 0)))
(get () (reg h-gr 0))
(set (newval) (set (reg h-gr 0) newval)))
(define-hardware
(name h-r1)
(comment "r1 register")
(attrs all-isas VIRTUAL)
(type register HI)
(indices keyword "" (("r1" 0)))
(get () (reg h-gr 1))
(set (newval) (set (reg h-gr 1) newval)))
(define-hardware
(name h-r2)
(comment "r2 register")
(attrs all-isas VIRTUAL)
(type register HI)
(indices keyword "" (("r2" 0)))
(get () (reg h-gr 2))
(set (newval) (set (reg h-gr 2) newval)))
(define-hardware
(name h-r3)
(comment "r3 register")
(attrs all-isas VIRTUAL)
(type register HI)
(indices keyword "" (("r3" 0)))
(get () (reg h-gr 3))
(set (newval) (set (reg h-gr 3) newval)))
(define-hardware
(name h-r0l-r0h)
(comment "r0l or r0h")
(attrs all-isas VIRTUAL)
(type register QI (2))
(indices keyword "" (("r0l" 0) ("r0h" 1)))
(get (index) (reg h-gr-QI index))
(set (index newval) (set (reg h-gr-QI index) newval)))
(define-hardware
(name h-r2r0)
(comment "r2r0 register")
(attrs all-isas VIRTUAL)
(type register SI)
(indices keyword "" (("r2r0" 0)))
(get () (or (sll (reg h-gr 2) 16) (reg h-gr 0)))
(set (newval)
(sequence ()
(set (reg h-gr 0) newval)
(set (reg h-gr 2) (sra newval 16)))))
(define-hardware
(name h-r3r1)
(comment "r3r1 register")
(attrs all-isas VIRTUAL)
(type register SI)
(indices keyword "" (("r3r1" 0)))
(get () (or (sll (reg h-gr 3) 16) (reg h-gr 1)))
(set (newval)
(sequence ()
(set (reg h-gr 1) newval)
(set (reg h-gr 3) (sra newval 16)))))
(define-hardware
(name h-r1r2r0)
(comment "r1r2r0 register")
(attrs all-isas VIRTUAL)
(type register DI)
(indices keyword "" (("r1r2r0" 0)))
(get () (or DI (sll DI (reg h-gr 1) 32) (or (sll (reg h-gr 2) 16) (reg h-gr 0))))
(set (newval)
(sequence ()
(set (reg h-gr 0) newval)
(set (reg h-gr 2) (sra newval 16))
(set (reg h-gr 1) (sra newval 32)))))
;-------------------------------------------------------------
; Address registers
;-------------------------------------------------------------
(define-hardware
(name h-ar)
(comment "address registers")
(attrs all-isas)
(type register USI (2))
(indices keyword "" (("a0" 0) ("a1" 1)))
(get (index) (c-call USI "h_ar_get_handler" index))
(set (index newval) (c-call VOID "h_ar_set_handler" index newval)))
; Define different views of the ars as VIRTUAL with getter/setter specs
(define-hardware
(name h-ar-QI)
(comment "8 bit view of address register")
(attrs all-isas VIRTUAL)
(type register QI (2))
(indices keyword "" (("a0" 0) ("a1" 1)))
(get (index) (reg h-ar index))
(set (index newval) (set (reg h-ar index) newval)))
(define-hardware
(name h-ar-HI)
(comment "16 bit view of address register")
(attrs all-isas VIRTUAL)
(type register HI (2))
(indices keyword "" (("a0" 0) ("a1" 1)))
(get (index) (reg h-ar index))
(set (index newval) (set (reg h-ar index) newval)))
(define-hardware
(name h-ar-SI)
(comment "32 bit view of address register")
(attrs all-isas VIRTUAL)
(type register SI)
(indices keyword "" (("a1a0" 0)))
(get () (or SI (sll SI (ext SI (reg h-ar 1)) 16) (ext SI (reg h-ar 0))))
(set (newval) (sequence ()
(set (reg h-ar 0) (and newval #xffff))
(set (reg h-ar 1) (and (srl newval 16) #xffff)))))
(define-hardware
(name h-a0)
(comment "16 bit view of address register")
(attrs all-isas VIRTUAL)
(type register HI)
(indices keyword "" (("a0" 0)))
(get () (reg h-ar 0))
(set (newval) (set (reg h-ar 0) newval)))
(define-hardware
(name h-a1)
(comment "16 bit view of address register")
(attrs all-isas VIRTUAL)
(type register HI)
(indices keyword "" (("a1" 1)))
(get () (reg h-ar 1))
(set (newval) (set (reg h-ar 1) newval)))
; SB Register
(define-hardware
(name h-sb)
(comment "SB register")
(attrs all-isas)
(type register USI)
(get () (c-call USI "h_sb_get_handler"))
(set (newval) (c-call VOID "h_sb_set_handler" newval))
)
; FB Register
(define-hardware
(name h-fb)
(comment "FB register")
(attrs all-isas)
(type register USI)
(get () (c-call USI "h_fb_get_handler"))
(set (newval) (c-call VOID "h_fb_set_handler" newval))
)
; SP Register
(define-hardware
(name h-sp)
(comment "SP register")
(attrs all-isas)
(type register USI)
(get () (c-call USI "h_sp_get_handler"))
(set (newval) (c-call VOID "h_sp_set_handler" newval))
)
;-------------------------------------------------------------
; condition-code bits
;-------------------------------------------------------------
(define-hardware
(name h-sbit)
(comment "sign bit")
(attrs all-isas)
(type register BI)
)
(define-hardware
(name h-zbit)
(comment "zero bit")
(attrs all-isas)
(type register BI)
)
(define-hardware
(name h-obit)
(comment "overflow bit")
(attrs all-isas)
(type register BI)
)
(define-hardware
(name h-cbit)
(comment "carry bit")
(attrs all-isas)
(type register BI)
)
(define-hardware
(name h-ubit)
(comment "stack pointer select bit")
(attrs all-isas)
(type register BI)
)
(define-hardware
(name h-ibit)
(comment "interrupt enable bit")
(attrs all-isas)
(type register BI)
)
(define-hardware
(name h-bbit)
(comment "register bank select bit")
(attrs all-isas)
(type register BI)
)
(define-hardware
(name h-dbit)
(comment "debug bit")
(attrs all-isas)
(type register BI)
)
(define-hardware
(name h-dct0)
(comment "dma transfer count 000")
(attrs all-isas)
(type register UHI)
)
(define-hardware
(name h-dct1)
(comment "dma transfer count 001")
(attrs all-isas)
(type register UHI)
)
(define-hardware
(name h-svf)
(comment "save flag 011")
(attrs all-isas)
(type register UHI)
)
(define-hardware
(name h-drc0)
(comment "dma transfer count reload 100")
(attrs all-isas)
(type register UHI)
)
(define-hardware
(name h-drc1)
(comment "dma transfer count reload 101")
(attrs all-isas)
(type register UHI)
)
(define-hardware
(name h-dmd0)
(comment "dma mode 110")
(attrs all-isas)
(type register UQI)
)
(define-hardware
(name h-dmd1)
(comment "dma mode 111")
(attrs all-isas)
(type register UQI)
)
(define-hardware
(name h-intb)
(comment "interrupt table 000")
(attrs all-isas)
(type register USI)
)
(define-hardware
(name h-svp)
(comment "save pc 100")
(attrs all-isas)
(type register UHI)
)
(define-hardware
(name h-vct)
(comment "vector 101")
(attrs all-isas)
(type register USI)
)
(define-hardware
(name h-isp)
(comment "interrupt stack ptr 111")
(attrs all-isas)
(type register USI)
)
(define-hardware
(name h-dma0)
(comment "dma mem addr 010")
(attrs all-isas)
(type register USI)
)
(define-hardware
(name h-dma1)
(comment "dma mem addr 011")
(attrs all-isas)
(type register USI)
)
(define-hardware
(name h-dra0)
(comment "dma mem addr reload 100")
(attrs all-isas)
(type register USI)
)
(define-hardware
(name h-dra1)
(comment "dma mem addr reload 101")
(attrs all-isas)
(type register USI)
)
(define-hardware
(name h-dsa0)
(comment "dma sfr addr 110")
(attrs all-isas)
(type register USI)
)
(define-hardware
(name h-dsa1)
(comment "dma sfr addr 111")
(attrs all-isas)
(type register USI)
)
;-------------------------------------------------------------
; Condition code operand hardware
;-------------------------------------------------------------
(define-hardware
(name h-cond16)
(comment "condition code hardware for m16c")
(attrs m16c-isa MACH16)
(type immediate UQI)
(values keyword ""
(("geu" #x00) ("c" #x00)
("gtu" #x01)
("eq" #x02) ("z" #x02)
("n" #x03)
("le" #x04)
("o" #x05)
("ge" #x06)
("ltu" #xf8) ("nc" #xf8)
("leu" #xf9)
("ne" #xfa) ("nz" #xfa)
("pz" #xfb)
("gt" #xfc)
("no" #xfd)
("lt" #xfe)
)
)
)
(define-hardware
(name h-cond16c)
(comment "condition code hardware for m16c")
(attrs m16c-isa MACH16)
(type immediate UQI)
(values keyword ""
(("geu" #x00) ("c" #x00)
("gtu" #x01)
("eq" #x02) ("z" #x02)
("n" #x03)
("ltu" #x04) ("nc" #x04)
("leu" #x05)
("ne" #x06) ("nz" #x06)
("pz" #x07)
("le" #x08)
("o" #x09)
("ge" #x0a)
("gt" #x0c)
("no" #x0d)
("lt" #x0e)
)
)
)
(define-hardware
(name h-cond16j)
(comment "condition code hardware for m16c")
(attrs m16c-isa MACH16)
(type immediate UQI)
(values keyword ""
(("le" #x08)
("o" #x09)
("ge" #x0a)
("gt" #x0c)
("no" #x0d)
("lt" #x0e)
)
)
)
(define-hardware
(name h-cond16j-5)
(comment "condition code hardware for m16c")
(attrs m16c-isa MACH16)
(type immediate UQI)
(values keyword ""
(("geu" #x00) ("c" #x00)
("gtu" #x01)
("eq" #x02) ("z" #x02)
("n" #x03)
("ltu" #x04) ("nc" #x04)
("leu" #x05)
("ne" #x06) ("nz" #x06)
("pz" #x07)
)
)
)
(define-hardware
(name h-cond32)
(comment "condition code hardware for m32c")
(attrs m32c-isa MACH32)
(type immediate UQI)
(values keyword ""
(("ltu" #x00) ("nc" #x00)
("leu" #x01)
("ne" #x02) ("nz" #x02)
("pz" #x03)
("no" #x04)
("gt" #x05)
("ge" #x06)
("geu" #x08) ("c" #x08)
("gtu" #x09)
("eq" #x0a) ("z" #x0a)
("n" #x0b)
("o" #x0c)
("le" #x0d)
("lt" #x0e)
)
)
)
(define-hardware
(name h-cr1-32)
(comment "control registers")
(attrs m32c-isa MACH32)
(type immediate UQI)
(values keyword "" (("dct0" 0) ("dct1" 1) ("flg" 2) ("svf" 3) ("drc0" 4)
("drc1" 5) ("dmd0" 6) ("dmd1" 7))))
(define-hardware
(name h-cr2-32)
(comment "control registers")
(attrs m32c-isa MACH32)
(type immediate UQI)
(values keyword "" (("intb" 0) ("sp" 1) ("sb" 2) ("fb" 3) ("svp" 4)
("vct" 5) ("isp" 7))))
(define-hardware
(name h-cr3-32)
(comment "control registers")
(attrs m32c-isa MACH32)
(type immediate UQI)
(values keyword "" (("dma0" 2) ("dma1" 3) ("dra0" 4)
("dra1" 5) ("dsa0" 6) ("dsa1" 7))))
(define-hardware
(name h-cr-16)
(comment "control registers")
(attrs m16c-isa MACH16)
(type immediate UQI)
(values keyword "" (("intbl" 1) ("intbh" 2) ("flg" 3) ("isp" 4)
("sp" 5) ("sb" 6) ("fb" 7))))
(define-hardware
(name h-flags)
(comment "flag hardware for m32c")
(attrs all-isas)
(type immediate UQI)
(values keyword ""
(("c" #x0)
("d" #x1)
("z" #x2)
("s" #x3)
("b" #x4)
("o" #x5)
("i" #x6)
("u" #x7)
)
)
)
;-------------------------------------------------------------
; Misc helper hardware
;-------------------------------------------------------------
(define-hardware
(name h-shimm)
(comment "shift immediate")
(attrs all-isas)
(type immediate (INT 4))
(values keyword "" (("1" 0) ("2" 1) ("3" 2) ("4" 3) ("5" 4) ("6" 5) ("7" 6)
("8" 7) ("-1" -8) ("-2" -7) ("-3" -6) ("-4" -5) ("-5" -4)
("-6" -3) ("-7" -2) ("-8" -1)
)))
(define-hardware
(name h-bit-index)
(comment "bit index for the next insn")
(attrs m32c-isa MACH32)
(type register UHI)
)
(define-hardware
(name h-src-index)
(comment "source index for the next insn")
(attrs m32c-isa MACH32)
(type register UHI)
)
(define-hardware
(name h-dst-index)
(comment "destination index for the next insn")
(attrs m32c-isa MACH32)
(type register UHI)
)
(define-hardware
(name h-src-indirect)
(comment "indirect src for the next insn")
(attrs all-isas)
(type register UHI)
)
(define-hardware
(name h-dst-indirect)
(comment "indirect dst for the next insn")
(attrs all-isas)
(type register UHI)
)
(define-hardware
(name h-none)
(comment "for storing unused values")
(attrs m32c-isa MACH32)
(type register SI)
)
;=============================================================
; Operands
;-------------------------------------------------------------
; Source Registers
;-------------------------------------------------------------
(dnop Src16RnQI "general register QI view" (MACH16 m16c-isa) h-gr-QI f-src16-rn)
(dnop Src16RnHI "general register QH view" (MACH16 m16c-isa) h-gr-HI f-src16-rn)
(dnop Src32RnUnprefixedQI "general register QI view" (MACH32 m32c-isa) h-gr-QI f-src32-rn-unprefixed-QI)
(dnop Src32RnUnprefixedHI "general register HI view" (MACH32 m32c-isa) h-gr-HI f-src32-rn-unprefixed-HI)
(dnop Src32RnUnprefixedSI "general register SI view" (MACH32 m32c-isa) h-gr-SI f-src32-rn-unprefixed-SI)
(dnop Src32RnPrefixedQI "general register QI view" (MACH32 m32c-isa) h-gr-QI f-src32-rn-prefixed-QI)
(dnop Src32RnPrefixedHI "general register HI view" (MACH32 m32c-isa) h-gr-HI f-src32-rn-prefixed-HI)
(dnop Src32RnPrefixedSI "general register SI view" (MACH32 m32c-isa) h-gr-SI f-src32-rn-prefixed-SI)
(dnop Src16An "address register" (MACH16 m16c-isa) h-ar f-src16-an)
(dnop Src16AnQI "address register QI view" (MACH16 m16c-isa) h-ar-QI f-src16-an)
(dnop Src16AnHI "address register HI view" (MACH16 m16c-isa) h-ar-HI f-src16-an)
(dnop Src32AnUnprefixed "address register" (MACH32 m32c-isa) h-ar f-src32-an-unprefixed)
(dnop Src32AnUnprefixedQI "address register QI view" (MACH32 m32c-isa) h-ar-QI f-src32-an-unprefixed)
(dnop Src32AnUnprefixedHI "address register HI view" (MACH32 m32c-isa) h-ar-HI f-src32-an-unprefixed)
(dnop Src32AnUnprefixedSI "address register SI view" (MACH32 m32c-isa) h-ar f-src32-an-unprefixed)
(dnop Src32AnPrefixed "address register" (MACH32 m32c-isa) h-ar f-src32-an-prefixed)
(dnop Src32AnPrefixedQI "address register QI view" (MACH32 m32c-isa) h-ar-QI f-src32-an-prefixed)
(dnop Src32AnPrefixedHI "address register HI view" (MACH32 m32c-isa) h-ar-HI f-src32-an-prefixed)
(dnop Src32AnPrefixedSI "address register SI view" (MACH32 m32c-isa) h-ar f-src32-an-prefixed)
; Destination Registers
;
(dnop Dst16RnQI "general register QI view" (MACH16 m16c-isa) h-gr-QI f-dst16-rn)
(dnop Dst16RnHI "general register HI view" (MACH16 m16c-isa) h-gr-HI f-dst16-rn)
(dnop Dst16RnSI "general register SI view" (MACH16 m16c-isa) h-gr-SI f-dst16-rn)
(dnop Dst16RnExtQI "general register QI/HI view for 'ext' insns" (MACH16 m16c-isa) h-gr-ext-QI f-dst16-rn-ext)
(dnop Dst32R0QI-S "general register QI view" (MACH32 m32c-isa) h-r0l f-nil)
(dnop Dst32R0HI-S "general register HI view" (MACH32 m32c-isa) h-r0 f-nil)
(dnop Dst32RnUnprefixedQI "general register QI view" (MACH32 m32c-isa) h-gr-QI f-dst32-rn-unprefixed-QI)
(dnop Dst32RnUnprefixedHI "general register HI view" (MACH32 m32c-isa) h-gr-HI f-dst32-rn-unprefixed-HI)
(dnop Dst32RnUnprefixedSI "general register SI view" (MACH32 m32c-isa) h-gr-SI f-dst32-rn-unprefixed-SI)
(dnop Dst32RnExtUnprefixedQI "general register QI view" (MACH32 m32c-isa) h-gr-ext-QI f-dst32-rn-ext-unprefixed)
(dnop Dst32RnExtUnprefixedHI "general register HI view" (MACH32 m32c-isa) h-gr-ext-HI f-dst32-rn-ext-unprefixed)
(dnop Dst32RnPrefixedQI "general register QI view" (MACH32 m32c-isa) h-gr-QI f-dst32-rn-prefixed-QI)
(dnop Dst32RnPrefixedHI "general register HI view" (MACH32 m32c-isa) h-gr-HI f-dst32-rn-prefixed-HI)
(dnop Dst32RnPrefixedSI "general register SI view" (MACH32 m32c-isa) h-gr-SI f-dst32-rn-prefixed-SI)
(dnop Dst16RnQI-S "general register QI view" (MACH16 m16c-isa) h-r0l-r0h f-dst16-rn-QI-s)
(dnop Dst16AnQI-S "address register QI view" (MACH16 m16c-isa) h-ar-QI f-dst16-rn-QI-s)
(dnop Bit16Rn "general register bit view" (MACH16 m16c-isa) h-gr-HI f-dst16-rn)
(dnop Bit32RnPrefixed "general register bit view" (MACH32 m32c-isa) h-gr-QI f-dst32-rn-prefixed-QI)
(dnop Bit32RnUnprefixed "general register bit view" (MACH32 m32c-isa) h-gr-QI f-dst32-rn-unprefixed-QI)
(dnop R0 "r0" (all-isas) h-r0 f-nil)
(dnop R1 "r1" (all-isas) h-r1 f-nil)
(dnop R2 "r2" (all-isas) h-r2 f-nil)
(dnop R3 "r3" (all-isas) h-r3 f-nil)
(dnop R0l "r0l" (all-isas) h-r0l f-nil)
(dnop R0h "r0h" (all-isas) h-r0h f-nil)
(dnop R2R0 "r2r0" (all-isas) h-r2r0 f-nil)
(dnop R3R1 "r3r1" (all-isas) h-r3r1 f-nil)
(dnop R1R2R0 "r1r2r0" (all-isas) h-r1r2r0 f-nil)
(dnop Dst16An "address register" (MACH16 m16c-isa) h-ar f-dst16-an)
(dnop Dst16AnQI "address register QI view" (MACH16 m16c-isa) h-ar-QI f-dst16-an)
(dnop Dst16AnHI "address register HI view" (MACH16 m16c-isa) h-ar-HI f-dst16-an)
(dnop Dst16AnSI "address register SI view" (MACH16 m16c-isa) h-ar-SI f-dst16-an)
(dnop Dst16An-S "address register HI view" (MACH16 m16c-isa) h-ar-HI f-dst16-an-s)
(dnop Dst32AnUnprefixed "address register" (MACH32 m32c-isa) h-ar f-dst32-an-unprefixed)
(dnop Dst32AnUnprefixedQI "address register QI view" (MACH32 m32c-isa) h-ar-QI f-dst32-an-unprefixed)
(dnop Dst32AnUnprefixedHI "address register HI view" (MACH32 m32c-isa) h-ar-HI f-dst32-an-unprefixed)
(dnop Dst32AnUnprefixedSI "address register SI view" (MACH32 m32c-isa) h-ar f-dst32-an-unprefixed)
(dnop Dst32AnExtUnprefixed "address register" (MACH32 m32c-isa) h-ar f-dst32-an-unprefixed)
(dnop Dst32AnPrefixed "address register" (MACH32 m32c-isa) h-ar f-dst32-an-prefixed)
(dnop Dst32AnPrefixedQI "address register QI view" (MACH32 m32c-isa) h-ar-QI f-dst32-an-prefixed)
(dnop Dst32AnPrefixedHI "address register HI view" (MACH32 m32c-isa) h-ar-HI f-dst32-an-prefixed)
(dnop Dst32AnPrefixedSI "address register SI view" (MACH32 m32c-isa) h-ar f-dst32-an-prefixed)
(dnop Bit16An "address register bit view" (MACH16 m16c-isa) h-ar f-dst16-an)
(dnop Bit32AnPrefixed "address register bit" (MACH32 m32c-isa) h-ar f-dst32-an-prefixed)
(dnop Bit32AnUnprefixed "address register bit" (MACH32 m32c-isa) h-ar f-dst32-an-unprefixed)
(dnop A0 "a0" (all-isas) h-a0 f-nil)
(dnop A1 "a1" (all-isas) h-a1 f-nil)
(dnop sb "SB register" (all-isas SEM-ONLY) h-sb f-nil)
(dnop fb "FB register" (all-isas SEM-ONLY) h-fb f-nil)
(dnop sp "SP register" (all-isas SEM-ONLY) h-sp f-nil)
(define-full-operand SrcDst16-r0l-r0h-S-normal "r0l/r0h pair" (MACH16 m16c-isa)
h-sint DFLT f-5-1
((parse "r0l_r0h") (print "r0l_r0h")) () ()
)
(define-full-operand Regsetpop "popm regset" (all-isas) h-uint
DFLT f-8-8 ((parse "pop_regset") (print "pop_regset")) () ())
(define-full-operand Regsetpush "pushm regset" (all-isas) h-uint
DFLT f-8-8 ((parse "push_regset") (print "push_regset")) () ())
(dnop Rn16-push-S "r0[lh]" (MACH16 m16c-isa) h-gr-QI f-4-1)
(dnop An16-push-S "a[01]" (MACH16 m16c-isa) h-ar-HI f-4-1)
;-------------------------------------------------------------
; Offsets and absolutes
;-------------------------------------------------------------
(define-full-operand Dsp-8-u6 "unsigned 6 bit displacement at offset 8 bits" (all-isas)
h-uint DFLT f-dsp-8-u6
((parse "unsigned6")) () ()
)
(define-full-operand Dsp-8-u8 "unsigned 8 bit displacement at offset 8 bits" (all-isas)
h-uint DFLT f-dsp-8-u8
((parse "unsigned8")) () ()
)
(define-full-operand Dsp-8-u16 "unsigned 16 bit displacement at offset 8 bits" (all-isas)
h-uint DFLT f-dsp-8-u16
((parse "unsigned16")) () ()
)
(define-full-operand Dsp-8-s8 "signed 8 bit displacement at offset 8 bits" (all-isas)
h-sint DFLT f-dsp-8-s8
((parse "signed8")) () ()
)
(define-full-operand Dsp-8-s24 "signed 24 bit displacement at offset 8 bits" (all-isas)
h-sint DFLT f-dsp-8-s24
((parse "signed24")) () ()
)
(define-full-operand Dsp-8-u24 "unsigned 24 bit displacement at offset 8 bits" (all-isas)
h-uint DFLT f-dsp-8-u24
((parse "unsigned24")) () ()
)
(define-full-operand Dsp-10-u6 "unsigned 6 bit displacement at offset 10 bits" (all-isas)
h-uint DFLT f-dsp-10-u6
((parse "unsigned6")) () ()
)
(define-full-operand Dsp-16-u8 "unsigned 8 bit displacement at offset 16 bits" (all-isas)
h-uint DFLT f-dsp-16-u8
((parse "unsigned8")) () ()
)
(define-full-operand Dsp-16-u16 "unsigned 16 bit displacement at offset 16 bits" (all-isas)
h-uint DFLT f-dsp-16-u16
((parse "unsigned16")) () ()
)
(define-full-operand Dsp-16-u20 "unsigned 20 bit displacement at offset 16 bits" (all-isas)
h-uint DFLT f-dsp-16-u24
((parse "unsigned20")) () ()
)
(define-full-operand Dsp-16-u24 "unsigned 24 bit displacement at offset 16 bits" (all-isas)
h-uint DFLT f-dsp-16-u24
((parse "unsigned24")) () ()
)
(define-full-operand Dsp-16-s8 "signed 8 bit displacement at offset 16 bits" (all-isas)
h-sint DFLT f-dsp-16-s8
((parse "signed8")) () ()
)
(define-full-operand Dsp-16-s16 "signed 16 bit displacement at offset 16 bits" (all-isas)
h-sint DFLT f-dsp-16-s16
((parse "signed16")) () ()
)
(define-full-operand Dsp-24-u8 "unsigned 8 bit displacement at offset 24 bits" (all-isas)
h-uint DFLT f-dsp-24-u8
((parse "unsigned8")) () ()
)
(define-full-operand Dsp-24-u16 "unsigned 16 bit displacement at offset 24 bits" (all-isas)
h-uint DFLT f-dsp-24-u16
((parse "unsigned16")) () ()
)
(define-full-operand Dsp-24-u20 "unsigned 20 bit displacement at offset 24 bits" (all-isas)
h-uint DFLT f-dsp-24-u24
((parse "unsigned20")) () ()
)
(define-full-operand Dsp-24-u24 "unsigned 24 bit displacement at offset 24 bits" (all-isas)
h-uint DFLT f-dsp-24-u24
((parse "unsigned24")) () ()
)
(define-full-operand Dsp-24-s8 "signed 8 bit displacement at offset 24 bits" (all-isas)
h-sint DFLT f-dsp-24-s8
((parse "signed8")) () ()
)
(define-full-operand Dsp-24-s16 "signed 16 bit displacement at offset 24 bits" (all-isas)
h-sint DFLT f-dsp-24-s16
((parse "signed16")) () ()
)
(define-full-operand Dsp-32-u8 "unsigned 8 bit displacement at offset 32 bits" (all-isas)
h-uint DFLT f-dsp-32-u8
((parse "unsigned8")) () ()
)
(define-full-operand Dsp-32-u16 "unsigned 16 bit displacement at offset 32 bits" (all-isas)
h-uint DFLT f-dsp-32-u16
((parse "unsigned16")) () ()
)
(define-full-operand Dsp-32-u24 "unsigned 24 bit displacement at offset 32 bits" (all-isas)
h-uint DFLT f-dsp-32-u24
((parse "unsigned24")) () ()
)
(define-full-operand Dsp-32-u20 "unsigned 20 bit displacement at offset 32 bits" (all-isas)
h-uint DFLT f-dsp-32-u24
((parse "unsigned20")) () ()
)
(define-full-operand Dsp-32-s8 "signed 8 bit displacement at offset 32 bits" (all-isas)
h-sint DFLT f-dsp-32-s8
((parse "signed8")) () ()
)
(define-full-operand Dsp-32-s16 "signed 16 bit displacement at offset 32 bits" (all-isas)
h-sint DFLT f-dsp-32-s16
((parse "signed16")) () ()
)
(define-full-operand Dsp-40-u8 "unsigned 8 bit displacement at offset 40 bits" (all-isas)
h-uint DFLT f-dsp-40-u8
((parse "unsigned8")) () ()
)
(define-full-operand Dsp-40-s8 "signed 8 bit displacement at offset 40 bits" (all-isas)
h-sint DFLT f-dsp-40-s8
((parse "signed8")) () ()
)
(define-full-operand Dsp-40-u16 "unsigned 16 bit displacement at offset 40 bits" (all-isas)
h-uint DFLT f-dsp-40-u16
((parse "unsigned16")) () ()
)
(define-full-operand Dsp-40-s16 "signed 16 bit displacement at offset 40 bits" (all-isas)
h-sint DFLT f-dsp-40-s16
((parse "signed16")) () ()
)
(define-full-operand Dsp-40-u20 "unsigned 20 bit displacement at offset 40 bits" (all-isas)
h-uint DFLT f-dsp-40-u20
((parse "unsigned20")) () ()
)
(define-full-operand Dsp-40-u24 "unsigned 24 bit displacement at offset 40 bits" (all-isas)
h-uint DFLT f-dsp-40-u24
((parse "unsigned24")) () ()
)
(define-full-operand Dsp-48-u8 "unsigned 8 bit displacement at offset 48 bits" (all-isas)
h-uint DFLT f-dsp-48-u8
((parse "unsigned8")) () ()
)
(define-full-operand Dsp-48-s8 "signed 8 bit displacement at offset 48 bits" (all-isas)
h-sint DFLT f-dsp-48-s8
((parse "signed8")) () ()
)
(define-full-operand Dsp-48-u16 "unsigned 16 bit displacement at offset 48 bits" (all-isas)
h-uint DFLT f-dsp-48-u16
((parse "unsigned16")) () ()
)
(define-full-operand Dsp-48-s16 "signed 16 bit displacement at offset 48 bits" (all-isas)
h-sint DFLT f-dsp-48-s16
((parse "signed16")) () ()
)
(define-full-operand Dsp-48-u20 "unsigned 24 bit displacement at offset 40 bits" (all-isas)
h-uint DFLT f-dsp-48-u20
((parse "unsigned24")) () ()
)
(define-full-operand Dsp-48-u24 "unsigned 24 bit displacement at offset 48 bits" (all-isas)
h-uint DFLT f-dsp-48-u24
((parse "unsigned24")) () ()
)
(define-full-operand Imm-8-s4 "signed 4 bit immediate at offset 8 bits" (all-isas)
h-sint DFLT f-imm-8-s4
((parse "signed4")) () ()
)
(define-full-operand Imm-8-s4n "negated 4 bit immediate at offset 8 bits" (all-isas)
h-sint DFLT f-imm-8-s4
((parse "signed4n") (print "signed4n")) () ()
)
(define-full-operand Imm-sh-8-s4 "signed 4 bit shift immediate at offset 8 bits" (all-isas)
h-shimm DFLT f-imm-8-s4
() () ()
)
(define-full-operand Imm-8-QI "signed 8 bit immediate at offset 8 bits" (all-isas)
h-sint DFLT f-dsp-8-s8
((parse "signed8")) () ()
)
(define-full-operand Imm-8-HI "signed 16 bit immediate at offset 8 bits" (all-isas)
h-sint DFLT f-dsp-8-s16
((parse "signed16")) () ()
)
(define-full-operand Imm-12-s4 "signed 4 bit immediate at offset 12 bits" (all-isas)
h-sint DFLT f-imm-12-s4
((parse "signed4")) () ()
)
(define-full-operand Imm-12-s4n "negated 4 bit immediate at offset 12 bits" (all-isas)
h-sint DFLT f-imm-12-s4
((parse "signed4n") (print "signed4n")) () ()
)
(define-full-operand Imm-sh-12-s4 "signed 4 bit shift immediate at offset 12 bits" (all-isas)
h-shimm DFLT f-imm-12-s4
() () ()
)
(define-full-operand Imm-13-u3 "signed 3 bit immediate at offset 13 bits" (all-isas)
h-sint DFLT f-imm-13-u3
((parse "signed4")) () ()
)
(define-full-operand Imm-20-s4 "signed 4 bit immediate at offset 20 bits" (all-isas)
h-sint DFLT f-imm-20-s4
((parse "signed4")) () ()
)
(define-full-operand Imm-sh-20-s4 "signed 4 bit shift immediate at offset 12 bits" (all-isas)
h-shimm DFLT f-imm-20-s4
() () ()
)
(define-full-operand Imm-16-QI "signed 8 bit immediate at offset 16 bits" (all-isas)
h-sint DFLT f-dsp-16-s8
((parse "signed8")) () ()
)
(define-full-operand Imm-16-HI "signed 16 bit immediate at offset 16 bits" (all-isas)
h-sint DFLT f-dsp-16-s16
((parse "signed16")) () ()
)
(define-full-operand Imm-16-SI "signed 32 bit immediate at offset 16 bits" (all-isas)
h-sint DFLT f-dsp-16-s32
((parse "signed32")) () ()
)
(define-full-operand Imm-24-QI "signed 8 bit immediate at offset 24 bits" (all-isas)
h-sint DFLT f-dsp-24-s8
((parse "signed8")) () ()
)
(define-full-operand Imm-24-HI "signed 16 bit immediate at offset 24 bits" (all-isas)
h-sint DFLT f-dsp-24-s16
((parse "signed16")) () ()
)
(define-full-operand Imm-24-SI "signed 32 bit immediate at offset 24 bits" (all-isas)
h-sint DFLT f-dsp-24-s32
((parse "signed32")) () ()
)
(define-full-operand Imm-32-QI "signed 8 bit immediate at offset 32 bits" (all-isas)
h-sint DFLT f-dsp-32-s8
((parse "signed8")) () ()
)
(define-full-operand Imm-32-SI "signed 32 bit immediate at offset 32 bits" (all-isas)
h-sint DFLT f-dsp-32-s32
((parse "signed32")) () ()
)
(define-full-operand Imm-32-HI "signed 16 bit immediate at offset 32 bits" (all-isas)
h-sint DFLT f-dsp-32-s16
((parse "signed16")) () ()
)
(define-full-operand Imm-40-QI "signed 8 bit immediate at offset 40 bits" (all-isas)
h-sint DFLT f-dsp-40-s8
((parse "signed8")) () ()
)
(define-full-operand Imm-40-HI "signed 16 bit immediate at offset 40 bits" (all-isas)
h-sint DFLT f-dsp-40-s16
((parse "signed16")) () ()
)
(define-full-operand Imm-40-SI "signed 32 bit immediate at offset 40 bits" (all-isas)
h-sint DFLT f-dsp-40-s32
((parse "signed32")) () ()
)
(define-full-operand Imm-48-QI "signed 8 bit immediate at offset 48 bits" (all-isas)
h-sint DFLT f-dsp-48-s8
((parse "signed8")) () ()
)
(define-full-operand Imm-48-HI "signed 16 bit immediate at offset 48 bits" (all-isas)
h-sint DFLT f-dsp-48-s16
((parse "signed16")) () ()
)
(define-full-operand Imm-48-SI "signed 32 bit immediate at offset 48 bits" (all-isas)
h-sint DFLT f-dsp-48-s32
((parse "signed32")) () ()
)
(define-full-operand Imm-56-QI "signed 8 bit immediate at offset 56 bits" (all-isas)
h-sint DFLT f-dsp-56-s8
((parse "signed8")) () ()
)
(define-full-operand Imm-56-HI "signed 16 bit immediate at offset 56 bits" (all-isas)
h-sint DFLT f-dsp-56-s16
((parse "signed16")) () ()
)
(define-full-operand Imm-64-HI "signed 16 bit immediate at offset 64 bits" (all-isas)
h-sint DFLT f-dsp-64-s16
((parse "signed16")) () ()
)
(define-full-operand Imm1-S "signed 1 bit immediate for short format binary insns" (m32c-isa)
h-sint DFLT f-imm1-S
((parse "imm1_S")) () ()
)
(define-full-operand Imm3-S "signed 3 bit immediate for short format binary insns" (m32c-isa)
h-sint DFLT f-imm3-S
((parse "imm3_S")) () ()
)
(define-full-operand Bit3-S "3 bit bit number" (m32c-isa)
h-sint DFLT f-imm3-S
((parse "bit3_S")) () ()
)
;-------------------------------------------------------------
; Bit numbers
;-------------------------------------------------------------
(define-full-operand Bitno16R "bit number for indexing registers" (m16c-isa)
h-uint DFLT f-dsp-16-u8
((parse "Bitno16R")) () ()
)
(dnop Bitno32Prefixed "bit number for indexing objects" (m32c-isa) h-uint f-bitno32-prefixed)
(dnop Bitno32Unprefixed "bit number for indexing objects" (m32c-isa) h-uint f-bitno32-unprefixed)
(define-full-operand BitBase16-16-u8 "unsigned bit,base:8 at offset 16for m16c" (m16c-isa)
h-uint DFLT f-dsp-16-u8
((parse "unsigned_bitbase8") (print "unsigned_bitbase")) () ()
)
(define-full-operand BitBase16-16-s8 "signed bit,base:8 at offset 16for m16c" (m16c-isa)
h-sint DFLT f-dsp-16-s8
((parse "signed_bitbase8") (print "signed_bitbase")) () ()
)
(define-full-operand BitBase16-16-u16 "unsigned bit,base:16 at offset 16 for m16c" (m16c-isa)
h-uint DFLT f-dsp-16-u16
((parse "unsigned_bitbase16") (print "unsigned_bitbase")) () ()
)
(define-full-operand BitBase16-8-u11-S "signed bit,base:11 at offset 16 for m16c" (m16c-isa)
h-uint DFLT f-bitbase16-u11-S
((parse "unsigned_bitbase11") (print "unsigned_bitbase")) () ()
)
(define-full-operand BitBase32-16-u11-Unprefixed "unsigned bit,base:11 at offset 16 for m32c" (m32c-isa)
h-uint DFLT f-bitbase32-16-u11-unprefixed
((parse "unsigned_bitbase11") (print "unsigned_bitbase")) () ()
)
(define-full-operand BitBase32-16-s11-Unprefixed "signed bit,base:11 at offset 16 for m32c" (m32c-isa)
h-sint DFLT f-bitbase32-16-s11-unprefixed
((parse "signed_bitbase11") (print "signed_bitbase")) () ()
)
(define-full-operand BitBase32-16-u19-Unprefixed "unsigned bit,base:19 at offset 16 for m32c" (m32c-isa)
h-uint DFLT f-bitbase32-16-u19-unprefixed
((parse "unsigned_bitbase19") (print "unsigned_bitbase")) () ()
)
(define-full-operand BitBase32-16-s19-Unprefixed "signed bit,base:19 at offset 16 for m32c" (m32c-isa)
h-sint DFLT f-bitbase32-16-s19-unprefixed
((parse "signed_bitbase19") (print "signed_bitbase")) () ()
)
(define-full-operand BitBase32-16-u27-Unprefixed "unsigned bit,base:27 at offset 16 for m32c" (m32c-isa)
h-uint DFLT f-bitbase32-16-u27-unprefixed
((parse "unsigned_bitbase27") (print "unsigned_bitbase")) () ()
)
(define-full-operand BitBase32-24-u11-Prefixed "unsigned bit,base:11 at offset 24 for m32c" (m32c-isa)
h-uint DFLT f-bitbase32-24-u11-prefixed
((parse "unsigned_bitbase11") (print "unsigned_bitbase")) () ()
)
(define-full-operand BitBase32-24-s11-Prefixed "signed bit,base:11 at offset 24 for m32c" (m32c-isa)
h-sint DFLT f-bitbase32-24-s11-prefixed
((parse "signed_bitbase11") (print "signed_bitbase")) () ()
)
(define-full-operand BitBase32-24-u19-Prefixed "unsigned bit,base:19 at offset 24 for m32c" (m32c-isa)
h-uint DFLT f-bitbase32-24-u19-prefixed
((parse "unsigned_bitbase19") (print "unsigned_bitbase")) () ()
)
(define-full-operand BitBase32-24-s19-Prefixed "signed bit,base:19 at offset 24 for m32c" (m32c-isa)
h-sint DFLT f-bitbase32-24-s19-prefixed
((parse "signed_bitbase19") (print "signed_bitbase")) () ()
)
(define-full-operand BitBase32-24-u27-Prefixed "unsigned bit,base:27 at offset 24 for m32c" (m32c-isa)
h-uint DFLT f-bitbase32-24-u27-prefixed
((parse "unsigned_bitbase27") (print "unsigned_bitbase")) () ()
)
;-------------------------------------------------------------
; Labels
;-------------------------------------------------------------
(define-full-operand Lab-5-3 "3 bit label" (all-isas RELAX)
h-iaddr DFLT f-lab-5-3
((parse "lab_5_3")) () () )
(define-full-operand Lab32-jmp-s "3 bit label" (all-isas RELAX)
h-iaddr DFLT f-lab32-jmp-s
((parse "lab_5_3")) () () )
(dnop Lab-8-8 "8 bit label" (all-isas RELAX) h-iaddr f-lab-8-8)
(dnop Lab-8-16 "16 bit label" (all-isas RELAX) h-iaddr f-lab-8-16)
(dnop Lab-8-24 "24 bit label" (all-isas RELAX) h-iaddr f-lab-8-24)
(dnop Lab-16-8 "8 bit label" (all-isas RELAX) h-iaddr f-lab-16-8)
(dnop Lab-24-8 "8 bit label" (all-isas RELAX) h-iaddr f-lab-24-8)
(dnop Lab-32-8 "8 bit label" (all-isas RELAX) h-iaddr f-lab-32-8)
(dnop Lab-40-8 "8 bit label" (all-isas RELAX) h-iaddr f-lab-40-8)
;-------------------------------------------------------------
; Condition code bits
;-------------------------------------------------------------
(dnop sbit "negative bit" (SEM-ONLY all-isas) h-sbit f-nil)
(dnop obit "overflow bit" (SEM-ONLY all-isas) h-obit f-nil)
(dnop zbit "zero bit" (SEM-ONLY all-isas) h-zbit f-nil)
(dnop cbit "carry bit" (SEM-ONLY all-isas) h-cbit f-nil)
(dnop ubit "stack ptr select bit" (SEM-ONLY all-isas) h-ubit f-nil)
(dnop ibit "interrupt enable bit" (SEM-ONLY all-isas) h-ibit f-nil)
(dnop bbit "reg bank select bit" (SEM-ONLY all-isas) h-bbit f-nil)
(dnop dbit "debug bit" (SEM-ONLY all-isas) h-dbit f-nil)
;-------------------------------------------------------------
; Condition operands
;-------------------------------------------------------------
(define-pmacro (cond-operand mach offset)
(dnop (.sym cond mach - offset) "condition" ((.sym m mach c-isa)) (.sym h-cond mach) (.sym f-dsp- offset -u8))
)
(cond-operand 16 16)
(cond-operand 16 24)
(cond-operand 16 32)
(cond-operand 32 16)
(cond-operand 32 24)
(cond-operand 32 32)
(cond-operand 32 40)
(dnop cond16c "condition" (m16c-isa) h-cond16c f-cond16)
(dnop cond16j "condition" (m16c-isa) h-cond16j f-cond16)
(dnop cond16j5 "condition" (m16c-isa) h-cond16j-5 f-cond16j-5)
(dnop cond32 "condition" (m32c-isa) h-cond32 f-cond32)
(dnop cond32j "condition" (m32c-isa) h-cond32 f-cond32j)
(dnop sccond32 "scCND condition" (m32c-isa) h-cond32 f-cond16)
(dnop flags16 "flags" (m16c-isa) h-flags f-9-3)
(dnop flags32 "flags" (m32c-isa) h-flags f-13-3)
(dnop cr16 "control" (m16c-isa) h-cr-16 f-9-3)
(dnop cr1-Unprefixed-32 "control" (m32c-isa) h-cr1-32 f-13-3)
(dnop cr1-Prefixed-32 "control" (m32c-isa) h-cr1-32 f-21-3)
(dnop cr2-32 "control" (m32c-isa) h-cr2-32 f-13-3)
(dnop cr3-Unprefixed-32 "control" (m32c-isa) h-cr3-32 f-13-3)
(dnop cr3-Prefixed-32 "control" (m32c-isa) h-cr3-32 f-21-3)
;-------------------------------------------------------------
; Suffixes
;-------------------------------------------------------------
(define-full-operand Z "Suffix for zero format insns" (all-isas)
h-sint DFLT f-nil
((parse "Z") (print "Z")) () ()
)
(define-full-operand S "Suffix for short format insns" (all-isas)
h-sint DFLT f-nil
((parse "S") (print "S")) () ()
)
(define-full-operand Q "Suffix for quick format insns" (all-isas)
h-sint DFLT f-nil
((parse "Q") (print "Q")) () ()
)
(define-full-operand G "Suffix for general format insns" (all-isas)
h-sint DFLT f-nil
((parse "G") (print "G")) () ()
)
(define-full-operand X "Empty suffix" (all-isas)
h-sint DFLT f-nil
((parse "X") (print "X")) () ()
)
(define-full-operand size "any size specifier" (all-isas)
h-sint DFLT f-nil
((parse "size") (print "size")) () ()
)
;-------------------------------------------------------------
; Misc
;-------------------------------------------------------------
(dnop BitIndex "Bit Index for the next insn" (SEM-ONLY MACH32 m32c-isa) h-bit-index f-nil)
(dnop SrcIndex "Source Index for the next insn" (SEM-ONLY MACH32 m32c-isa) h-src-index f-nil)
(dnop DstIndex "Destination Index for the next insn" (SEM-ONLY MACH32 m32c-isa) h-dst-index f-nil)
(dnop NoRemainder "Place holder for when the remainder is not kept" (SEM-ONLY MACH32 m32c-isa) h-none f-nil)
;=============================================================
; Derived Operands
; Memory reference macros that clip addresses appropriately. Refer to
; memory at ADDRESS in MODE, clipped appropriately for either the m16c
; or m32c.
(define-pmacro (mem16 mode address)
(mem mode (and #xffff address)))
(define-pmacro (mem20 mode address)
(mem mode (and #xfffff address)))
(define-pmacro (mem32 mode address)
(mem mode (and #xffffff address)))
; Like mem16 and mem32, but takes MACH as a parameter. MACH must be
; either 16 or 32.
(define-pmacro (mem-mach mach mode address)
((.sym mem mach) mode address))
;-------------------------------------------------------------
; Source
;-------------------------------------------------------------
; Rn direct
;-------------------------------------------------------------
(define-pmacro (src16-Rn-direct-operand xmode)
(begin
(define-derived-operand
(name (.sym src16-Rn-direct- xmode))
(comment (.str "m16c Rn direct source " xmode))
(attrs (machine 16))
(mode xmode)
(args ((.sym Src16Rn xmode)))
(syntax (.str "$Src16Rn" xmode))
(base-ifield f-8-4)
(encoding (+ (f-8-2 0) (.sym Src16Rn xmode)))
(ifield-assertion (eq f-8-2 0))
(getter (trunc xmode (.sym Src16Rn xmode)))
(setter (set (.sym Src16Rn xmode) newval))
)
)
)
(src16-Rn-direct-operand QI)
(src16-Rn-direct-operand HI)
(define-pmacro (src32-Rn-direct-operand group base xmode)
(begin
(define-derived-operand
(name (.sym src32-Rn-direct- group - xmode))
(comment (.str "m32c Rn direct source " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Src32Rn group xmode)))
(syntax (.str "$Src32Rn" group xmode))
(base-ifield (.sym f- base -11))
(encoding (+ ((.sym f- base -3) 4) (.sym Src32Rn group xmode)))
(ifield-assertion (eq (.sym f- base -3) 4))
(getter (trunc xmode (.sym Src32Rn group xmode)))
(setter (set (.sym Src32Rn group xmode) newval))
)
)
)
(src32-Rn-direct-operand Unprefixed 1 QI)
(src32-Rn-direct-operand Prefixed 9 QI)
(src32-Rn-direct-operand Unprefixed 1 HI)
(src32-Rn-direct-operand Prefixed 9 HI)
(src32-Rn-direct-operand Unprefixed 1 SI)
(src32-Rn-direct-operand Prefixed 9 SI)
;-------------------------------------------------------------
; An direct
;-------------------------------------------------------------
(define-pmacro (src16-An-direct-operand xmode)
(begin
(define-derived-operand
(name (.sym src16-An-direct- xmode))
(comment (.str "m16c An direct destination " xmode))
(attrs (machine 16))
(mode xmode)
(args ((.sym Src16An xmode)))
(syntax (.str "$Src16An" xmode))
(base-ifield f-8-4)
(encoding (+ (f-8-2 1) (f-10-1 0) (.sym Src16An xmode)))
(ifield-assertion (andif (eq f-8-2 1) (eq f-10-1 0)))
(getter (trunc xmode (.sym Src16An xmode)))
(setter (set (.sym Src16An xmode) newval))
)
)
)
(src16-An-direct-operand QI)
(src16-An-direct-operand HI)
(define-pmacro (src32-An-direct-operand group base1 base2 xmode)
(begin
(define-derived-operand
(name (.sym src32-An-direct- group - xmode))
(comment (.str "m32c An direct destination " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Src32An group xmode)))
(syntax (.str "$Src32An" group xmode))
(base-ifield (.sym f- base1 -11))
(encoding (+ ((.sym f- base1 -3) 0) ((.sym f- base2 -1) 1) (.sym Src32An group xmode)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 0) (eq (.sym f- base2 -1) 1)))
(getter (trunc xmode (.sym Src32An group xmode)))
(setter (set (.sym Src32An group xmode) newval))
)
)
)
(src32-An-direct-operand Unprefixed 1 10 QI)
(src32-An-direct-operand Unprefixed 1 10 HI)
(src32-An-direct-operand Unprefixed 1 10 SI)
(src32-An-direct-operand Prefixed 9 18 QI)
(src32-An-direct-operand Prefixed 9 18 HI)
(src32-An-direct-operand Prefixed 9 18 SI)
;-------------------------------------------------------------
; An indirect
;-------------------------------------------------------------
(define-pmacro (src16-An-indirect-operand xmode)
(begin
(define-derived-operand
(name (.sym src16-An-indirect- xmode))
(comment (.str "m16c An indirect destination " xmode))
(attrs (machine 16))
(mode xmode)
(args (Src16An))
(syntax "[$Src16An]")
(base-ifield f-8-4)
(encoding (+ (f-8-2 1) (f-10-1 1) Src16An))
(ifield-assertion (andif (eq f-8-2 1) (eq f-10-1 1)))
(getter (mem16 xmode Src16An))
(setter (set (mem16 xmode Src16An) newval))
)
)
)
(src16-An-indirect-operand QI)
(src16-An-indirect-operand HI)
(define-pmacro (src32-An-indirect-operand group base1 base2 xmode)
(begin
(define-derived-operand
(name (.sym src32-An-indirect- group - xmode))
(comment (.str "m32c An indirect destination " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Src32An group)))
(syntax (.str "[$Src32An" group "]"))
(base-ifield (.sym f- base1 -11))
(encoding (+ ((.sym f- base1 -3) 0) ((.sym f- base2 -1) 0) (.sym Src32An group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 0) (eq (.sym f- base2 -1) 0)))
(getter (c-call xmode (.str "operand_getter_" xmode) (.sym Src32An group)
(const 0)))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval
(.sym Src32An group) (const 0)))
; (getter (mem32 xmode (.sym Src32An group)))
; (setter (set (mem32 xmode (.sym Src32An group)) newval))
)
)
)
(src32-An-indirect-operand Unprefixed 1 10 QI)
(src32-An-indirect-operand Unprefixed 1 10 HI)
(src32-An-indirect-operand Unprefixed 1 10 SI)
(src32-An-indirect-operand Prefixed 9 18 QI)
(src32-An-indirect-operand Prefixed 9 18 HI)
(src32-An-indirect-operand Prefixed 9 18 SI)
;-------------------------------------------------------------
; dsp:d[r] relative
;-------------------------------------------------------------
(define-pmacro (src16-relative-operand xmode)
(begin
(define-derived-operand
(name (.sym src16-16-8-SB-relative- xmode))
(comment (.str "m16c dsp:8[sb] relative destination " xmode))
(attrs (machine 16))
(mode xmode)
(args (Dsp-16-u8))
(syntax "${Dsp-16-u8}[sb]")
(base-ifield f-8-4)
(encoding (+ (f-8-4 #xA) Dsp-16-u8))
(ifield-assertion (eq f-8-4 #xA))
(getter (mem16 xmode (add Dsp-16-u8 (reg h-sb))))
(setter (set (mem16 xmode (add Dsp-16-u8 (reg h-sb))) newval))
)
(define-derived-operand
(name (.sym src16-16-16-SB-relative- xmode))
(comment (.str "m16c dsp:16[sb] relative destination " xmode))
(attrs (machine 16))
(mode xmode)
(args (Dsp-16-u16))
(syntax "${Dsp-16-u16}[sb]")
(base-ifield f-8-4)
(encoding (+ (f-8-4 #xE) Dsp-16-u16))
(ifield-assertion (eq f-8-4 #xE))
(getter (mem16 xmode (add Dsp-16-u16 (reg h-sb))))
(setter (set (mem16 xmode (add Dsp-16-u16 (reg h-sb))) newval))
)
(define-derived-operand
(name (.sym src16-16-8-FB-relative- xmode))
(comment (.str "m16c dsp:8[fb] relative destination " xmode))
(attrs (machine 16))
(mode xmode)
(args (Dsp-16-s8))
(syntax "${Dsp-16-s8}[fb]")
(base-ifield f-8-4)
(encoding (+ (f-8-4 #xB) Dsp-16-s8))
(ifield-assertion (eq f-8-4 #xB))
(getter (mem16 xmode (add Dsp-16-s8 (reg h-fb))))
(setter (set (mem16 xmode (add Dsp-16-s8 (reg h-fb))) newval))
)
(define-derived-operand
(name (.sym src16-16-8-An-relative- xmode))
(comment (.str "m16c dsp:8[An] relative destination " xmode))
(attrs (machine 16))
(mode xmode)
(args (Src16An Dsp-16-u8))
(syntax "${Dsp-16-u8}[$Src16An]")
(base-ifield f-8-4)
(encoding (+ (f-8-2 2) (f-10-1 0) Dsp-16-u8 Src16An))
(ifield-assertion (andif (eq f-8-2 2) (eq f-10-1 0)))
(getter (mem16 xmode (add Dsp-16-u8 Src16An)))
(setter (set (mem16 xmode (add Dsp-16-u8 Src16An)) newval))
)
(define-derived-operand
(name (.sym src16-16-16-An-relative- xmode))
(comment (.str "m16c dsp:16[An] relative destination " xmode))
(attrs (machine 16))
(mode xmode)
(args (Src16An Dsp-16-u16))
(syntax "${Dsp-16-u16}[$Src16An]")
(base-ifield f-8-4)
(encoding (+ (f-8-2 3) (f-10-1 0) Dsp-16-u16 Src16An))
(ifield-assertion (andif (eq f-8-2 3) (eq f-10-1 0)))
(getter (mem16 xmode (add Dsp-16-u16 Src16An)))
(setter (set (mem16 xmode (add Dsp-16-u16 Src16An)) newval))
)
(define-derived-operand
(name (.sym src16-16-20-An-relative- xmode))
(comment (.str "m16c dsp:20[An] relative destination " xmode))
(attrs (machine 16))
(mode xmode)
(args (Src16An Dsp-16-u20))
(syntax "${Dsp-16-u20}[$Src16An]")
(base-ifield f-8-4)
(encoding (+ (f-8-2 3) (f-10-1 0) Dsp-16-u20 Src16An))
(ifield-assertion (andif (eq f-8-2 3) (eq f-10-1 0)))
(getter (mem20 xmode (add Dsp-16-u20 Src16An)))
(setter (set (mem20 xmode (add Dsp-16-u20 Src16An)) newval))
)
)
)
(src16-relative-operand QI)
(src16-relative-operand HI)
(define-pmacro (src32-relative-operand offset group base1 base2 xmode)
(begin
(define-derived-operand
(name (.sym src32- offset -8-SB-relative- group - xmode))
(comment (.str "m32c dsp:8[sb] relative destination " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Dsp- offset -u8)))
(syntax (.str "${Dsp-" offset "-u8}[sb]"))
(base-ifield (.sym f- base1 -11))
(encoding (+ ((.sym f- base1 -3) 1) ((.sym f- base2 -2) 2) (.sym Dsp- offset -u8)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 1) (eq (.sym f- base2 -2) 2)))
(getter (c-call xmode (.str "operand_getter_" xmode) sb (.sym Dsp- offset -u8)))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval sb (.sym Dsp- offset -u8)))
; (getter (mem32 xmode (add (.sym Dsp- offset -u8) (reg h-sb))))
; (setter (set (mem32 xmode (add (.sym Dsp- offset -u8) (reg h-sb))) newval))
)
(define-derived-operand
(name (.sym src32- offset -16-SB-relative- group - xmode))
(comment (.str "m32c dsp:16[sb] relative destination " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Dsp- offset -u16)))
(syntax (.str "${Dsp-" offset "-u16}[sb]"))
(base-ifield (.sym f- base1 -11))
(encoding (+ ((.sym f- base1 -3) 2) ((.sym f- base2 -2) 2) (.sym Dsp- offset -u16)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 2) (eq (.sym f- base2 -2) 2)))
(getter (c-call xmode (.str "operand_getter_" xmode) sb (.sym Dsp- offset -u16)))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval sb (.sym Dsp- offset -u16)))
; (getter (mem32 xmode (add (.sym Dsp- offset -u16) (reg h-sb))))
; (setter (set (mem32 xmode (add (.sym Dsp- offset -u16) (reg h-sb))) newval))
)
(define-derived-operand
(name (.sym src32- offset -8-FB-relative- group - xmode))
(comment (.str "m32c dsp:8[fb] relative destination " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Dsp- offset -s8)))
(syntax (.str "${Dsp-" offset "-s8}[fb]"))
(base-ifield (.sym f- base1 -11))
(encoding (+ ((.sym f- base1 -3) 1) ((.sym f- base2 -2) 3) (.sym Dsp- offset -s8)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 1) (eq (.sym f- base2 -2) 3)))
(getter (c-call xmode (.str "operand_getter_" xmode) fb (.sym Dsp- offset -s8)))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval fb (.sym Dsp- offset -s8)))
; (getter (mem32 xmode (add (.sym Dsp- offset -s8) (reg h-fb))))
; (setter (set (mem32 xmode (add (.sym Dsp- offset -s8) (reg h-fb))) newval))
)
(define-derived-operand
(name (.sym src32- offset -16-FB-relative- group - xmode))
(comment (.str "m32c dsp:16[fb] relative destination " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Dsp- offset -s16)))
(syntax (.str "${Dsp-" offset "-s16}[fb]"))
(base-ifield (.sym f- base1 -11))
(encoding (+ ((.sym f- base1 -3) 2) ((.sym f- base2 -2) 3) (.sym Dsp- offset -s16)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 2) (eq (.sym f- base2 -2) 3)))
(getter (c-call xmode (.str "operand_getter_" xmode) fb (.sym Dsp- offset -s16)))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval fb (.sym Dsp- offset -s16)))
; (getter (mem32 xmode (add (.sym Dsp- offset -s16) (reg h-fb))))
; (setter (set (mem32 xmode (add (.sym Dsp- offset -s16) (reg h-fb))) newval))
)
(define-derived-operand
(name (.sym src32- offset -8-An-relative- group - xmode))
(comment (.str "m32c dsp:8[An] relative destination " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Src32An group) (.sym Dsp- offset -u8)))
(syntax (.str "${Dsp-" offset "-u8}[$Src32An" group "]"))
(base-ifield (.sym f- base1 -11))
(encoding (+ ((.sym f- base1 -3) 1) ((.sym f- base2 -1) 0) (.sym Dsp- offset -u8) (.sym Src32An group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 1) (eq (.sym f- base2 -1) 0)))
(getter (c-call xmode (.str "operand_getter_" xmode) (.sym Src32An group) (.sym Dsp- offset -u8)))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval (.sym Src32An group) (.sym Dsp- offset -u8)))
; (getter (mem32 xmode (add (.sym Dsp- offset -u8) (.sym Src32An group))))
; (setter (set (mem32 xmode (add (.sym Dsp- offset -u8) (.sym Src32An group))) newval))
)
(define-derived-operand
(name (.sym src32- offset -16-An-relative- group - xmode))
(comment (.str "m32c dsp:16[An] relative destination " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Src32An group) (.sym Dsp- offset -u16)))
(syntax (.str "${Dsp-" offset "-u16}[$Src32An" group "]"))
(base-ifield (.sym f- base1 -11))
(encoding (+ ((.sym f- base1 -3) 2) ((.sym f- base2 -1) 0) (.sym Dsp- offset -u16) (.sym Src32An group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 2) (eq (.sym f- base2 -1) 0)))
(getter (c-call xmode (.str "operand_getter_" xmode) (.sym Src32An group) (.sym Dsp- offset -u16)))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval (.sym Src32An group) (.sym Dsp- offset -u16)))
; (getter (mem32 xmode (add (.sym Dsp- offset -u16) (.sym Src32An group))))
; (setter (set (mem32 xmode (add (.sym Dsp- offset -u16) (.sym Src32An group))) newval))
)
(define-derived-operand
(name (.sym src32- offset -24-An-relative- group - xmode))
(comment (.str "m32c dsp:16[An] relative destination " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Src32An group) (.sym Dsp- offset -u24)))
(syntax (.str "${Dsp-" offset "-u24}[$Src32An" group "]"))
(base-ifield (.sym f- base1 -11))
(encoding (+ ((.sym f- base1 -3) 3) ((.sym f- base2 -1) 0) (.sym Dsp- offset -u24) (.sym Src32An group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 3) (eq (.sym f- base2 -1) 0)))
(getter (c-call xmode (.str "operand_getter_" xmode) (.sym Src32An group) (.sym Dsp- offset -u24) ))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval (.sym Src32An group) (.sym Dsp- offset -u24)))
; (getter (mem32 xmode (add (.sym Dsp- offset -u24) (.sym Src32An group))))
; (setter (set (mem32 xmode (add (.sym Dsp- offset -u24) (.sym Src32An group))) newval))
)
)
)
(src32-relative-operand 16 Unprefixed 1 10 QI)
(src32-relative-operand 16 Unprefixed 1 10 HI)
(src32-relative-operand 16 Unprefixed 1 10 SI)
(src32-relative-operand 24 Prefixed 9 18 QI)
(src32-relative-operand 24 Prefixed 9 18 HI)
(src32-relative-operand 24 Prefixed 9 18 SI)
;-------------------------------------------------------------
; Absolute address
;-------------------------------------------------------------
(define-pmacro (src16-absolute xmode)
(begin
(define-derived-operand
(name (.sym src16-16-16-absolute- xmode))
(comment (.str "m16c absolute address " xmode))
(attrs (machine 16))
(mode xmode)
(args (Dsp-16-u16))
(syntax (.str "${Dsp-16-u16}"))
(base-ifield f-8-4)
(encoding (+ (f-8-4 #xF) Dsp-16-u16))
(ifield-assertion (eq f-8-4 #xF))
(getter (mem16 xmode Dsp-16-u16))
(setter (set (mem16 xmode Dsp-16-u16) newval))
)
)
)
(src16-absolute QI)
(src16-absolute HI)
(define-pmacro (src32-absolute offset group base1 base2 xmode)
(begin
(define-derived-operand
(name (.sym src32- offset -16-absolute- group - xmode))
(comment (.str "m32c absolute address " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Dsp- offset -u16)))
(syntax (.str "${Dsp-" offset "-u16}"))
(base-ifield (.sym f- base1 -11))
(encoding (+ ((.sym f- base1 -3) 3) ((.sym f- base2 -2) 3) (.sym Dsp- offset -u16)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 3) (eq (.sym f- base2 -2) 3)))
(getter (c-call xmode (.str "operand_getter_" xmode) (const 0) (.sym Dsp- offset -u16)))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval (const 0) (.sym Dsp- offset -u16)))
; (getter (mem32 xmode (.sym Dsp- offset -u16)))
; (setter (set (mem32 xmode (.sym Dsp- offset -u16)) newval))
)
(define-derived-operand
(name (.sym src32- offset -24-absolute- group - xmode))
(comment (.str "m32c absolute address " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Dsp- offset -u24)))
(syntax (.str "${Dsp-" offset "-u24}"))
(base-ifield (.sym f- base1 -11))
(encoding (+ ((.sym f- base1 -3) 3) ((.sym f- base2 -2) 2) (.sym Dsp- offset -u24)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 3) (eq (.sym f- base2 -2) 2)))
(getter (c-call xmode (.str "operand_getter_" xmode) (const 0) (.sym Dsp- offset -u24)))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval (const 0) (.sym Dsp- offset -u24)))
; (getter (mem32 xmode (.sym Dsp- offset -u24)))
; (setter (set (mem32 xmode (.sym Dsp- offset -u24)) newval))
)
)
)
(src32-absolute 16 Unprefixed 1 10 QI)
(src32-absolute 16 Unprefixed 1 10 HI)
(src32-absolute 16 Unprefixed 1 10 SI)
(src32-absolute 24 Prefixed 9 18 QI)
(src32-absolute 24 Prefixed 9 18 HI)
(src32-absolute 24 Prefixed 9 18 SI)
;-------------------------------------------------------------
; An indirect indirect
;
; Double indirect addressing uses the lower 3 bytes of the value stored
; at the address referenced by 'op' as the effective address.
;-------------------------------------------------------------
(define-pmacro (indirect-addr op) (and USI (mem32 USI op) #x00ffffff))
; (define-pmacro (src-An-indirect-indirect-operand xmode)
; (define-derived-operand
; (name (.sym src32-An-indirect-indirect- xmode))
; (comment (.str "m32c An indirect indirect destination " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args (Src32AnPrefixed))
; (syntax (.str "[[$Src32AnPrefixed]]"))
; (base-ifield f-9-11)
; (encoding (+ (f-9-3 0) (f-18-1 0) Src32AnPrefixed))
; (ifield-assertion (andif (eq f-9-3 0) (eq f-18-1 0)))
; (getter (mem32 xmode (indirect-addr Src32AnPrefixed)))
; (setter (set (mem32 xmode (indirect-addr Src32AnPrefixed)) newval))
; )
; )
; (src-An-indirect-indirect-operand QI)
; (src-An-indirect-indirect-operand HI)
; (src-An-indirect-indirect-operand SI)
;-------------------------------------------------------------
; Relative indirect
;-------------------------------------------------------------
(define-pmacro (src-relative-indirect-operand xmode)
(begin
; (define-derived-operand
; (name (.sym src32-24-8-SB-relative-indirect- xmode))
; (comment (.str "m32c dsp:8[sb] relative source " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args (Dsp-24-u8))
; (syntax "[${Dsp-24-u8}[sb]]")
; (base-ifield f-9-11)
; (encoding (+ (f-9-3 1) (f-18-2 2) Dsp-24-u8))
; (ifield-assertion (andif (eq f-9-3 1) (eq f-18-2 2)))
; (getter (mem32 xmode (indirect-addr (add Dsp-24-u8 (reg h-sb)))))
; (setter (set (mem32 xmode (indirect-addr (add Dsp-24-u8 (reg h-sb)))) newval))
; )
; (define-derived-operand
; (name (.sym src32-24-16-SB-relative-indirect- xmode))
; (comment (.str "m32c dsp:16[sb] relative source " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args (Dsp-24-u16))
; (syntax "[${Dsp-24-u16}[sb]]")
; (base-ifield f-9-11)
; (encoding (+ (f-9-3 2) (f-18-2 2) Dsp-24-u16))
; (ifield-assertion (andif (eq f-9-3 2) (eq f-18-2 2)))
; (getter (mem32 xmode (indirect-addr (add Dsp-24-u16 (reg h-sb)))))
; (setter (set (mem32 xmode (indirect-addr (add Dsp-24-u16 (reg h-sb)))) newval))
; )
; (define-derived-operand
; (name (.sym src32-24-8-FB-relative-indirect- xmode))
; (comment (.str "m32c dsp:8[fb] relative source " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args (Dsp-24-s8))
; (syntax "[${Dsp-24-s8}[fb]]")
; (base-ifield f-9-11)
; (encoding (+ (f-9-3 1) (f-18-2 3) Dsp-24-s8))
; (ifield-assertion (andif (eq f-9-3 1) (eq f-18-2 3)))
; (getter (mem32 xmode (indirect-addr (add Dsp-24-s8 (reg h-fb)))))
; (setter (set (mem32 xmode (indirect-addr (add Dsp-24-s8 (reg h-fb)))) newval))
; )
; (define-derived-operand
; (name (.sym src32-24-16-FB-relative-indirect- xmode))
; (comment (.str "m32c dsp:16[fb] relative source " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args (Dsp-24-s16))
; (syntax "[${Dsp-24-s16}[fb]]")
; (base-ifield f-9-11)
; (encoding (+ (f-9-3 2) (f-18-2 3) Dsp-24-s16))
; (ifield-assertion (andif (eq f-9-3 2) (eq f-18-2 3)))
; (getter (mem32 xmode (indirect-addr (add Dsp-24-s16 (reg h-fb)))))
; (setter (set (mem32 xmode (indirect-addr (add Dsp-24-s16 (reg h-fb)))) newval))
; )
; (define-derived-operand
; (name (.sym src32-24-8-An-relative-indirect- xmode))
; (comment (.str "m32c dsp:8[An] relative indirect source " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args (Src32AnPrefixed Dsp-24-u8))
; (syntax "[${Dsp-24-u8}[$Src32AnPrefixed]]")
; (base-ifield f-9-11)
; (encoding (+ (f-9-3 1) (f-18-1 0) Dsp-24-u8 Src32AnPrefixed))
; (ifield-assertion (andif (eq f-9-3 1) (eq f-18-1 0)))
; (getter (mem32 xmode (indirect-addr (add Dsp-24-u8 Src32AnPrefixed))))
; (setter (set (mem32 xmode (indirect-addr (add Dsp-24-u8 Src32AnPrefixed))) newval))
; )
; (define-derived-operand
; (name (.sym src32-24-16-An-relative-indirect- xmode))
; (comment (.str "m32c dsp:16[An] relative source " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args (Src32AnPrefixed Dsp-24-u16))
; (syntax "[${Dsp-24-u16}[$Src32AnPrefixed]]")
; (base-ifield f-9-11)
; (encoding (+ (f-9-3 2) (f-18-1 0) Dsp-24-u16 Src32AnPrefixed))
; (ifield-assertion (andif (eq f-9-3 2) (eq f-18-1 0)))
; (getter (mem32 xmode (indirect-addr (add Dsp-24-u16 Src32AnPrefixed))))
; (setter (set (mem32 xmode (indirect-addr (add Dsp-24-u16 Src32AnPrefixed))) newval))
; )
; (define-derived-operand
; (name (.sym src32-24-24-An-relative-indirect- xmode))
; (comment (.str "m32c dsp:24[An] relative source " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args (Src32AnPrefixed Dsp-24-u24))
; (syntax "[${Dsp-24-u24}[$Src32AnPrefixed]]")
; (base-ifield f-9-11)
; (encoding (+ (f-9-3 3) (f-18-1 0) Dsp-24-u24 Src32AnPrefixed))
; (ifield-assertion (andif (eq f-9-3 3) (eq f-18-1 0)))
; (getter (mem32 xmode (indirect-addr (add Dsp-24-u24 Src32AnPrefixed))))
; (setter (set (mem32 xmode (indirect-addr (add Dsp-24-u24 Src32AnPrefixed))) newval))
; )
)
)
; (src-relative-indirect-operand QI)
; (src-relative-indirect-operand HI)
; (src-relative-indirect-operand SI)
;-------------------------------------------------------------
; Absolute Indirect address
;-------------------------------------------------------------
(define-pmacro (src32-absolute-indirect offset base1 base2 xmode)
(begin
; (define-derived-operand
; (name (.sym src32- offset -16-absolute-indirect-derived- xmode))
; (comment (.str "m32c absolute indirect address " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args ((.sym Dsp- offset -u16)))
; (syntax (.str "[${Dsp-" offset "-u16}]"))
; (base-ifield (.sym f- base1 -11))
; (encoding (+ ((.sym f- base1 -3) 3) ((.sym f- base2 -2) 3) (.sym Dsp- offset -u16)))
; (ifield-assertion (andif (eq (.sym f- base1 -3) 3) (eq (.sym f- base2 -2) 3)))
; (getter (mem32 xmode (indirect-addr (.sym Dsp- offset -u16))))
; (setter (set (mem32 xmode (indirect-addr (.sym Dsp- offset -u16))) newval))
; )
; (define-derived-operand
; (name (.sym src32- offset -24-absolute-indirect-derived- xmode))
; (comment (.str "m32c absolute indirect address " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args ((.sym Dsp- offset -u24)))
; (syntax (.str "[${Dsp-" offset "-u24}]"))
; (base-ifield (.sym f- base1 -11))
; (encoding (+ ((.sym f- base1 -3) 3) ((.sym f- base2 -2) 2) (.sym Dsp- offset -u24)))
; (ifield-assertion (andif (eq (.sym f- base1 -3) 3) (eq (.sym f- base2 -2) 2)))
; (getter (mem32 xmode (indirect-addr (.sym Dsp- offset -u24))))
; (setter (set (mem32 xmode (indirect-addr (.sym Dsp- offset -u24))) newval))
; )
)
)
(src32-absolute-indirect 24 9 18 QI)
(src32-absolute-indirect 24 9 18 HI)
(src32-absolute-indirect 24 9 18 SI)
;-------------------------------------------------------------
; Register relative source operands for short format insns
;-------------------------------------------------------------
(define-pmacro (src-2-S-operands mach xmode base opc1 opc2 opc3)
(begin
(define-derived-operand
(name (.sym src mach -2-S-8-SB-relative- xmode))
(comment (.str "m" mach "c SB relative address"))
(attrs (machine mach))
(mode xmode)
(args (Dsp-8-u8))
(syntax "${Dsp-8-u8}[sb]")
(base-ifield (.sym f- base -2))
(encoding (+ ((.sym f- base -2) opc1) Dsp-8-u8))
(ifield-assertion (eq (.sym f- base -2) opc1))
(getter (c-call xmode (.str "operand_getter_" xmode) sb Dsp-8-u8))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval sb Dsp-8-u8))
; (getter (mem-mach mach xmode (indirect-addr (add (reg h-sb) Dsp-8-u8))))
; (setter (set (mem-mach mach xmode (indirect-addr (add (reg h-sb) Dsp-8-u8))) newval))
)
(define-derived-operand
(name (.sym src mach -2-S-8-FB-relative- xmode))
(comment (.str "m" mach "c FB relative address"))
(attrs (machine mach))
(mode xmode)
(args (Dsp-8-s8))
(syntax "${Dsp-8-s8}[fb]")
(base-ifield (.sym f- base -2))
(encoding (+ ((.sym f- base -2) opc2) Dsp-8-s8))
(ifield-assertion (eq (.sym f- base -2) opc2))
(getter (c-call xmode (.str "operand_getter_" xmode) fb Dsp-8-s8))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval fb Dsp-8-s8))
; (getter (mem-mach mach xmode (indirect-addr (add (reg h-fb) Dsp-8-s8))))
; (setter (set (mem-mach mach xmode (indirect-addr (add (reg h-fb) Dsp-8-s8))) newval))
)
(define-derived-operand
(name (.sym src mach -2-S-16-absolute- xmode))
(comment (.str "m" mach "c absolute address"))
(attrs (machine mach))
(mode xmode)
(args (Dsp-8-u16))
(syntax "${Dsp-8-u16}")
(base-ifield (.sym f- base -2))
(encoding (+ ((.sym f- base -2) opc3) Dsp-8-u16))
(ifield-assertion (eq (.sym f- base -2) opc3))
(getter (c-call xmode (.str "operand_getter_" xmode) (const 0) Dsp-8-u16))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval (const 0) Dsp-8-u16))
; (getter (mem-mach mach xmode Dsp-8-u16))
; (setter (set (mem-mach mach xmode Dsp-8-u16) newval))
)
)
)
(src-2-S-operands 16 QI 6 1 2 3)
(src-2-S-operands 32 QI 2 2 3 1)
(src-2-S-operands 32 HI 2 2 3 1)
;=============================================================
; Derived Operands
;-------------------------------------------------------------
; Destination
;-------------------------------------------------------------
; Rn direct
;-------------------------------------------------------------
(define-pmacro (dst16-Rn-direct-operand xmode)
(begin
(define-derived-operand
(name (.sym dst16-Rn-direct- xmode))
(comment (.str "m16c Rn direct destination " xmode))
(attrs (machine 16))
(mode xmode)
(args ((.sym Dst16Rn xmode)))
(syntax (.str "$Dst16Rn" xmode))
(base-ifield f-12-4)
(encoding (+ (f-12-2 0) (.sym Dst16Rn xmode)))
(ifield-assertion (eq f-12-2 0))
(getter (trunc xmode (.sym Dst16Rn xmode)))
(setter (set (.sym Dst16Rn xmode) newval))
)
)
)
(dst16-Rn-direct-operand QI)
(dst16-Rn-direct-operand HI)
(dst16-Rn-direct-operand SI)
(define-derived-operand
(name dst16-Rn-direct-Ext-QI)
(comment "m16c Rn direct destination QI")
(attrs (machine 16))
(mode HI)
(args (Dst16RnExtQI))
(syntax "$Dst16RnExtQI")
(base-ifield f-12-4)
(encoding (+ (f-12-2 0) Dst16RnExtQI (f-15-1 0)))
(ifield-assertion (andif (eq f-12-2 0) (eq f-15-1 0)))
(getter (trunc QI (.sym Dst16RnExtQI)))
(setter (set Dst16RnExtQI newval))
)
(define-pmacro (dst32-Rn-direct-operand group base xmode)
(begin
(define-derived-operand
(name (.sym dst32-Rn-direct- group - xmode))
(comment (.str "m32c Rn direct destination " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Dst32Rn group xmode)))
(syntax (.str "$Dst32Rn" group xmode))
(base-ifield (.sym f- base -6))
(encoding (+ ((.sym f- base -3) 4) (.sym Dst32Rn group xmode)))
(ifield-assertion (eq (.sym f- base -3) 4))
(getter (trunc xmode (.sym Dst32Rn group xmode)))
(setter (set (.sym Dst32Rn group xmode) newval))
)
)
)
(dst32-Rn-direct-operand Unprefixed 4 QI)
(dst32-Rn-direct-operand Prefixed 12 QI)
(dst32-Rn-direct-operand Unprefixed 4 HI)
(dst32-Rn-direct-operand Prefixed 12 HI)
(dst32-Rn-direct-operand Unprefixed 4 SI)
(dst32-Rn-direct-operand Prefixed 12 SI)
(define-pmacro (dst32-Rn-direct-Ext-operand group base1 base2 smode dmode)
(begin
(define-derived-operand
(name (.sym dst32-Rn-direct- group - smode))
(comment (.str "m32c Rn direct destination " smode))
(attrs (machine 32))
(mode dmode)
(args ((.sym Dst32Rn group smode)))
(syntax (.str "$Dst32Rn" group smode))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 4) ((.sym f- base2 -1) 1) (.sym Dst32Rn group smode)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 4) (eq (.sym f- base2 -1) 1)))
(getter (trunc smode (.sym Dst32Rn group smode)))
(setter (set (.sym Dst32Rn group smode) newval))
)
)
)
(dst32-Rn-direct-Ext-operand ExtUnprefixed 4 8 QI HI)
(dst32-Rn-direct-Ext-operand ExtUnprefixed 4 8 HI SI)
(define-derived-operand
(name dst32-R3-direct-Unprefixed-HI)
(comment "m32c R3 direct HI")
(attrs (machine 32))
(mode HI)
(args (R3))
(syntax "$R3")
(base-ifield f-4-6)
(encoding (+ (f-4-3 4) (f-8-2 #x1)))
(ifield-assertion (andif (eq f-4-3 4) (eq f-8-2 #x1)))
(getter (trunc HI R3))
(setter (set R3 newval))
)
;-------------------------------------------------------------
; An direct
;-------------------------------------------------------------
(define-pmacro (dst16-An-direct-operand xmode)
(begin
(define-derived-operand
(name (.sym dst16-An-direct- xmode))
(comment (.str "m16c An direct destination " xmode))
(attrs (machine 16))
(mode xmode)
(args ((.sym Dst16An xmode)))
(syntax (.str "$Dst16An" xmode))
(base-ifield f-12-4)
(encoding (+ (f-12-2 1) (f-14-1 0) (.sym Dst16An xmode)))
(ifield-assertion (andif (eq f-12-2 1) (eq f-14-1 0)))
(getter (trunc xmode (.sym Dst16An xmode)))
(setter (set (.sym Dst16An xmode) newval))
)
)
)
(dst16-An-direct-operand QI)
(dst16-An-direct-operand HI)
(dst16-An-direct-operand SI)
(define-pmacro (dst32-An-direct-operand group base1 base2 xmode)
(begin
(define-derived-operand
(name (.sym dst32-An-direct- group - xmode))
(comment (.str "m32c An direct destination " xmode))
(attrs (machine 32))
(mode xmode)
(args ((.sym Dst32An group xmode)))
(syntax (.str "$Dst32An" group xmode))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 0) ((.sym f- base2 -1) 1) (.sym Dst32An group xmode)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 0) (eq (.sym f- base2 -1) 1)))
(getter (trunc xmode (.sym Dst32An group xmode)))
(setter (set (.sym Dst32An group xmode) newval))
)
)
)
(dst32-An-direct-operand Unprefixed 4 8 QI)
(dst32-An-direct-operand Prefixed 12 16 QI)
(dst32-An-direct-operand Unprefixed 4 8 HI)
(dst32-An-direct-operand Prefixed 12 16 HI)
(dst32-An-direct-operand Unprefixed 4 8 SI)
(dst32-An-direct-operand Prefixed 12 16 SI)
;-------------------------------------------------------------
; An indirect
;-------------------------------------------------------------
(define-pmacro (dst16-An-indirect-operand xmode)
(begin
(define-derived-operand
(name (.sym dst16-An-indirect- xmode))
(comment (.str "m16c An indirect destination " xmode))
(attrs (machine 16))
(mode xmode)
(args (Dst16An))
(syntax "[$Dst16An]")
(base-ifield f-12-4)
(encoding (+ (f-12-2 1) (f-14-1 1) Dst16An))
(ifield-assertion (andif (eq f-12-2 1) (eq f-14-1 1)))
(getter (mem16 xmode Dst16An))
(setter (set (mem16 xmode Dst16An) newval))
)
)
)
(dst16-An-indirect-operand QI)
(dst16-An-indirect-operand HI)
(dst16-An-indirect-operand SI)
(define-derived-operand
(name dst16-An-indirect-Ext-QI)
(comment "m16c An indirect destination QI")
(attrs (machine 16))
(mode HI)
(args (Dst16An))
(syntax "[$Dst16An]")
(base-ifield f-12-4)
(encoding (+ (f-12-2 1) (f-14-1 1) Dst16An))
(ifield-assertion (andif (eq f-12-2 1) (eq f-14-1 1)))
(getter (mem16 QI Dst16An))
(setter (set (mem16 HI Dst16An) newval))
)
(define-pmacro (dst32-An-indirect-operand group base1 base2 smode dmode)
(begin
(define-derived-operand
(name (.sym dst32-An-indirect- group - smode))
(comment (.str "m32c An indirect destination " smode))
(attrs (machine 32))
(mode dmode)
(args ((.sym Dst32An group)))
(syntax (.str "[$Dst32An" group "]"))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 0) ((.sym f- base2 -1) 0) (.sym Dst32An group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 0) (eq (.sym f- base2 -1) 0)))
(getter (c-call dmode (.str "operand_getter_" dmode) (.sym Dst32An group)
(const 0)))
(setter (c-call DFLT (.str "operand_setter_" dmode) newval
(.sym Dst32An group) (const 0)))
; (getter (mem32 smode (.sym Dst32An group)))
; (setter (set (mem32 dmode (.sym Dst32An group)) newval))
)
)
)
(dst32-An-indirect-operand Unprefixed 4 8 QI QI)
(dst32-An-indirect-operand Prefixed 12 16 QI QI)
(dst32-An-indirect-operand Unprefixed 4 8 HI HI)
(dst32-An-indirect-operand Prefixed 12 16 HI HI)
(dst32-An-indirect-operand Unprefixed 4 8 SI SI)
(dst32-An-indirect-operand Prefixed 12 16 SI SI)
(dst32-An-indirect-operand ExtUnprefixed 4 8 QI HI)
(dst32-An-indirect-operand ExtUnprefixed 4 8 HI SI)
;-------------------------------------------------------------
; dsp:d[r] relative
;-------------------------------------------------------------
(define-pmacro (dst16-relative-operand offset xmode)
(begin
(define-derived-operand
(name (.sym dst16- offset -8-SB-relative- xmode))
(comment (.str "m16c dsp:8[sb] relative destination " xmode))
(attrs (machine 16))
(mode xmode)
(args ((.sym Dsp- offset -u8)))
(syntax (.str "${Dsp-" offset "-u8}[sb]"))
(base-ifield f-12-4)
(encoding (+ (f-12-4 #xA) (.sym Dsp- offset -u8)))
(ifield-assertion (eq f-12-4 #xA))
(getter (mem16 xmode (add (.sym Dsp- offset -u8) (reg h-sb))))
(setter (set (mem16 xmode (add (.sym Dsp- offset -u8) (reg h-sb))) newval))
)
(define-derived-operand
(name (.sym dst16- offset -16-SB-relative- xmode))
(comment (.str "m16c dsp:16[sb] relative destination " xmode))
(attrs (machine 16))
(mode xmode)
(args ((.sym Dsp- offset -u16)))
(syntax (.str "${Dsp-" offset "-u16}[sb]"))
(base-ifield f-12-4)
(encoding (+ (f-12-4 #xE) (.sym Dsp- offset -u16)))
(ifield-assertion (eq f-12-4 #xE))
(getter (mem16 xmode (add (.sym Dsp- offset -u16) (reg h-sb))))
(setter (set (mem16 xmode (add (.sym Dsp- offset -u16) (reg h-sb))) newval))
)
(define-derived-operand
(name (.sym dst16- offset -8-FB-relative- xmode))
(comment (.str "m16c dsp:8[fb] relative destination " xmode))
(attrs (machine 16))
(mode xmode)
(args ((.sym Dsp- offset -s8)))
(syntax (.str "${Dsp-" offset "-s8}[fb]"))
(base-ifield f-12-4)
(encoding (+ (f-12-4 #xB) (.sym Dsp- offset -s8)))
(ifield-assertion (eq f-12-4 #xB))
(getter (mem16 xmode (add (.sym Dsp- offset -s8) (reg h-fb))))
(setter (set (mem16 xmode (add (.sym Dsp- offset -s8) (reg h-fb))) newval))
)
(define-derived-operand
(name (.sym dst16- offset -8-An-relative- xmode))
(comment (.str "m16c dsp:8[An] relative destination " xmode))
(attrs (machine 16))
(mode xmode)
(args (Dst16An (.sym Dsp- offset -u8)))
(syntax (.str "${Dsp-" offset "-u8}[$Dst16An]"))
(base-ifield f-12-4)
(encoding (+ (f-12-2 2) (f-14-1 0) (.sym Dsp- offset -u8) Dst16An))
(ifield-assertion (andif (eq f-12-2 2) (eq f-14-1 0)))
(getter (mem16 xmode (add (.sym Dsp- offset -u8) Dst16An)))
(setter (set (mem16 xmode (add (.sym Dsp- offset -u8) Dst16An)) newval))
)
(define-derived-operand
(name (.sym dst16- offset -16-An-relative- xmode))
(comment (.str "m16c dsp:16[An] relative destination " xmode))
(attrs (machine 16))
(mode xmode)
(args (Dst16An (.sym Dsp- offset -u16)))
(syntax (.str "${Dsp-" offset "-u16}[$Dst16An]"))
(base-ifield f-12-4)
(encoding (+ (f-12-2 3) (f-14-1 0) (.sym Dsp- offset -u16) Dst16An))
(ifield-assertion (andif (eq f-12-2 3) (eq f-14-1 0)))
(getter (mem16 xmode (add (.sym Dsp- offset -u16) Dst16An)))
(setter (set (mem16 xmode (add (.sym Dsp- offset -u16) Dst16An)) newval))
)
(define-derived-operand
(name (.sym dst16- offset -20-An-relative- xmode))
(comment (.str "m16c dsp:20[An] relative destination " xmode))
(attrs (machine 16))
(mode xmode)
(args (Dst16An (.sym Dsp- offset -u20)))
(syntax (.str "${Dsp-" offset "-u20}[$Dst16An]"))
(base-ifield f-12-4)
(encoding (+ (f-12-2 3) (f-14-1 0) (.sym Dsp- offset -u20) Dst16An))
(ifield-assertion (andif (eq f-12-2 3) (eq f-14-1 0)))
(getter (mem16 xmode (add (.sym Dsp- offset -u20) Dst16An)))
(setter (set (mem16 xmode (add (.sym Dsp- offset -u20) Dst16An)) newval))
)
)
)
(dst16-relative-operand 16 QI)
(dst16-relative-operand 24 QI)
(dst16-relative-operand 32 QI)
(dst16-relative-operand 40 QI)
(dst16-relative-operand 48 QI)
(dst16-relative-operand 16 HI)
(dst16-relative-operand 24 HI)
(dst16-relative-operand 32 HI)
(dst16-relative-operand 40 HI)
(dst16-relative-operand 48 HI)
(dst16-relative-operand 16 SI)
(dst16-relative-operand 24 SI)
(dst16-relative-operand 32 SI)
(dst16-relative-operand 40 SI)
(dst16-relative-operand 48 SI)
(define-pmacro (dst16-relative-Ext-operand offset smode dmode)
(begin
(define-derived-operand
(name (.sym dst16- offset -8-SB-relative-Ext- smode))
(comment (.str "m16c dsp:8[sb] relative destination " smode))
(attrs (machine 16))
(mode dmode)
(args ((.sym Dsp- offset -u8)))
(syntax (.str "${Dsp-" offset "-u8}[sb]"))
(base-ifield f-12-4)
(encoding (+ (f-12-4 #xA) (.sym Dsp- offset -u8)))
(ifield-assertion (eq f-12-4 #xA))
(getter (mem16 smode (add (.sym Dsp- offset -u8) (reg h-sb))))
(setter (set (mem16 dmode (add (.sym Dsp- offset -u8) (reg h-sb))) newval))
)
(define-derived-operand
(name (.sym dst16- offset -16-SB-relative-Ext- smode))
(comment (.str "m16c dsp:16[sb] relative destination " smode))
(attrs (machine 16))
(mode dmode)
(args ((.sym Dsp- offset -u16)))
(syntax (.str "${Dsp-" offset "-u16}[sb]"))
(base-ifield f-12-4)
(encoding (+ (f-12-4 #xE) (.sym Dsp- offset -u16)))
(ifield-assertion (eq f-12-4 #xE))
(getter (mem16 smode (add (.sym Dsp- offset -u16) (reg h-sb))))
(setter (set (mem16 dmode (add (.sym Dsp- offset -u16) (reg h-sb))) newval))
)
(define-derived-operand
(name (.sym dst16- offset -8-FB-relative-Ext- smode))
(comment (.str "m16c dsp:8[fb] relative destination " smode))
(attrs (machine 16))
(mode dmode)
(args ((.sym Dsp- offset -s8)))
(syntax (.str "${Dsp-" offset "-s8}[fb]"))
(base-ifield f-12-4)
(encoding (+ (f-12-4 #xB) (.sym Dsp- offset -s8)))
(ifield-assertion (eq f-12-4 #xB))
(getter (mem16 smode (add (.sym Dsp- offset -s8) (reg h-fb))))
(setter (set (mem16 dmode (add (.sym Dsp- offset -s8) (reg h-fb))) newval))
)
(define-derived-operand
(name (.sym dst16- offset -8-An-relative-Ext- smode))
(comment (.str "m16c dsp:8[An] relative destination " smode))
(attrs (machine 16))
(mode dmode)
(args (Dst16An (.sym Dsp- offset -u8)))
(syntax (.str "${Dsp-" offset "-u8}[$Dst16An]"))
(base-ifield f-12-4)
(encoding (+ (f-12-2 2) (f-14-1 0) (.sym Dsp- offset -u8) Dst16An))
(ifield-assertion (andif (eq f-12-2 2) (eq f-14-1 0)))
(getter (mem16 smode (add (.sym Dsp- offset -u8) Dst16An)))
(setter (set (mem16 dmode (add (.sym Dsp- offset -u8) Dst16An)) newval))
)
(define-derived-operand
(name (.sym dst16- offset -16-An-relative-Ext- smode))
(comment (.str "m16c dsp:16[An] relative destination " smode))
(attrs (machine 16))
(mode dmode)
(args (Dst16An (.sym Dsp- offset -u16)))
(syntax (.str "${Dsp-" offset "-u16}[$Dst16An]"))
(base-ifield f-12-4)
(encoding (+ (f-12-2 3) (f-14-1 0) (.sym Dsp- offset -u16) Dst16An))
(ifield-assertion (andif (eq f-12-2 3) (eq f-14-1 0)))
(getter (mem16 smode (add (.sym Dsp- offset -u16) Dst16An)))
(setter (set (mem16 dmode (add (.sym Dsp- offset -u16) Dst16An)) newval))
)
)
)
(dst16-relative-Ext-operand 16 QI HI)
(define-pmacro (dst32-relative-operand offset group base1 base2 smode dmode)
(begin
(define-derived-operand
(name (.sym dst32- offset -8-SB-relative- group - smode))
(comment (.str "m32c dsp:8[sb] relative destination " smode))
(attrs (machine 32))
(mode dmode)
(args ((.sym Dsp- offset -u8)))
(syntax (.str "${Dsp-" offset "-u8}[sb]"))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 1) ((.sym f- base2 -2) 2) (.sym Dsp- offset -u8)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 1) (eq (.sym f- base2 -2) 2)))
(getter (c-call dmode (.str "operand_getter_" dmode) sb (.sym Dsp- offset -u8)))
(setter (c-call DFLT (.str "operand_setter_" dmode) newval sb (.sym Dsp- offset -u8)))
; (getter (mem32 smode (add (.sym Dsp- offset -u8) (reg h-sb))))
; (setter (set (mem32 dmode (add (.sym Dsp- offset -u8) (reg h-sb))) newval))
)
(define-derived-operand
(name (.sym dst32- offset -16-SB-relative- group - smode))
(comment (.str "m32c dsp:16[sb] relative destination " smode))
(attrs (machine 32))
(mode dmode)
(args ((.sym Dsp- offset -u16)))
(syntax (.str "${Dsp-" offset "-u16}[sb]"))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 2) ((.sym f- base2 -2) 2) (.sym Dsp- offset -u16)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 2) (eq (.sym f- base2 -2) 2)))
(getter (c-call dmode (.str "operand_getter_" dmode) sb (.sym Dsp- offset -u16)))
(setter (c-call DFLT (.str "operand_setter_" dmode) newval sb (.sym Dsp- offset -u16)))
; (getter (mem32 smode (add (.sym Dsp- offset -u16) (reg h-sb))))
; (setter (set (mem32 dmode (add (.sym Dsp- offset -u16) (reg h-sb))) newval))
)
(define-derived-operand
(name (.sym dst32- offset -8-FB-relative- group - smode))
(comment (.str "m32c dsp:8[fb] relative destination " smode))
(attrs (machine 32))
(mode dmode)
(args ((.sym Dsp- offset -s8)))
(syntax (.str "${Dsp-" offset "-s8}[fb]"))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 1) ((.sym f- base2 -2) 3) (.sym Dsp- offset -s8)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 1) (eq (.sym f- base2 -2) 3)))
(getter (c-call dmode (.str "operand_getter_" dmode) fb (.sym Dsp- offset -s8)))
(setter (c-call DFLT (.str "operand_setter_" dmode) newval fb (.sym Dsp- offset -s8)))
; (getter (mem32 smode (add (.sym Dsp- offset -s8) (reg h-fb))))
; (setter (set (mem32 dmode (add (.sym Dsp- offset -s8) (reg h-fb))) newval))
)
(define-derived-operand
(name (.sym dst32- offset -16-FB-relative- group - smode))
(comment (.str "m32c dsp:16[fb] relative destination " smode))
(attrs (machine 32))
(mode dmode)
(args ((.sym Dsp- offset -s16)))
(syntax (.str "${Dsp-" offset "-s16}[fb]"))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 2) ((.sym f- base2 -2) 3) (.sym Dsp- offset -s16)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 2) (eq (.sym f- base2 -2) 3)))
(getter (c-call dmode (.str "operand_getter_" dmode) fb (.sym Dsp- offset -s16)))
(setter (c-call DFLT (.str "operand_setter_" dmode) newval fb (.sym Dsp- offset -s16)))
; (getter (mem32 smode (add (.sym Dsp- offset -s16) (reg h-fb))))
; (setter (set (mem32 dmode (add (.sym Dsp- offset -s16) (reg h-fb))) newval))
)
(define-derived-operand
(name (.sym dst32- offset -8-An-relative- group - smode))
(comment (.str "m32c dsp:8[An] relative destination " smode))
(attrs (machine 32))
(mode dmode)
(args ((.sym Dst32An group) (.sym Dsp- offset -u8)))
(syntax (.str "${Dsp-" offset "-u8}[$Dst32An" group "]"))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 1) ((.sym f- base2 -1) 0) (.sym Dsp- offset -u8) (.sym Dst32An group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 1) (eq (.sym f- base2 -1) 0)))
(getter (c-call dmode (.str "operand_getter_" dmode) (.sym Dst32An group) (.sym Dsp- offset -u8)))
(setter (c-call DFLT (.str "operand_setter_" dmode) newval (.sym Dst32An group) (.sym Dsp- offset -u8)))
; (getter (mem32 smode (add (.sym Dsp- offset -u8) (.sym Dst32An group))))
; (setter (set (mem32 dmode (add (.sym Dsp- offset -u8) (.sym Dst32An group))) newval))
)
(define-derived-operand
(name (.sym dst32- offset -16-An-relative- group - smode))
(comment (.str "m32c dsp:16[An] relative destination " smode))
(attrs (machine 32))
(mode dmode)
(args ((.sym Dst32An group) (.sym Dsp- offset -u16)))
(syntax (.str "${Dsp-" offset "-u16}[$Dst32An" group "]"))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 2) ((.sym f- base2 -1) 0) (.sym Dsp- offset -u16) (.sym Dst32An group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 2) (eq (.sym f- base2 -1) 0)))
(getter (c-call dmode (.str "operand_getter_" dmode) (.sym Dst32An group) (.sym Dsp- offset -u16)))
(setter (c-call DFLT (.str "operand_setter_" dmode) newval (.sym Dst32An group) (.sym Dsp- offset -u16)))
; (getter (mem32 smode (add (.sym Dsp- offset -u16) (.sym Dst32An group))))
; (setter (set (mem32 dmode (add (.sym Dsp- offset -u16) (.sym Dst32An group))) newval))
)
(define-derived-operand
(name (.sym dst32- offset -24-An-relative- group - smode))
(comment (.str "m32c dsp:16[An] relative destination " smode))
(attrs (machine 32))
(mode dmode)
(args ((.sym Dst32An group) (.sym Dsp- offset -u24)))
(syntax (.str "${Dsp-" offset "-u24}[$Dst32An" group "]"))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 3) ((.sym f- base2 -1) 0) (.sym Dsp- offset -u24) (.sym Dst32An group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 3) (eq (.sym f- base2 -1) 0)))
(getter (c-call dmode (.str "operand_getter_" dmode) (.sym Dst32An group) (.sym Dsp- offset -u24)))
(setter (c-call DFLT (.str "operand_setter_" dmode) newval (.sym Dst32An group) (.sym Dsp- offset -u24)))
; (getter (mem32 smode (add (.sym Dsp- offset -u24) (.sym Dst32An group))))
; (setter (set (mem32 dmode (add (.sym Dsp- offset -u24) (.sym Dst32An group))) newval))
)
)
)
(dst32-relative-operand 16 Unprefixed 4 8 QI QI)
(dst32-relative-operand 24 Unprefixed 4 8 QI QI)
(dst32-relative-operand 32 Unprefixed 4 8 QI QI)
(dst32-relative-operand 40 Unprefixed 4 8 QI QI)
(dst32-relative-operand 16 Unprefixed 4 8 HI HI)
(dst32-relative-operand 24 Unprefixed 4 8 HI HI)
(dst32-relative-operand 32 Unprefixed 4 8 HI HI)
(dst32-relative-operand 40 Unprefixed 4 8 HI HI)
(dst32-relative-operand 16 Unprefixed 4 8 SI SI)
(dst32-relative-operand 24 Unprefixed 4 8 SI SI)
(dst32-relative-operand 32 Unprefixed 4 8 SI SI)
(dst32-relative-operand 40 Unprefixed 4 8 SI SI)
(dst32-relative-operand 24 Prefixed 12 16 QI QI)
(dst32-relative-operand 32 Prefixed 12 16 QI QI)
(dst32-relative-operand 40 Prefixed 12 16 QI QI)
(dst32-relative-operand 48 Prefixed 12 16 QI QI)
(dst32-relative-operand 24 Prefixed 12 16 HI HI)
(dst32-relative-operand 32 Prefixed 12 16 HI HI)
(dst32-relative-operand 40 Prefixed 12 16 HI HI)
(dst32-relative-operand 48 Prefixed 12 16 HI HI)
(dst32-relative-operand 24 Prefixed 12 16 SI SI)
(dst32-relative-operand 32 Prefixed 12 16 SI SI)
(dst32-relative-operand 40 Prefixed 12 16 SI SI)
(dst32-relative-operand 48 Prefixed 12 16 SI SI)
(dst32-relative-operand 16 ExtUnprefixed 4 8 QI HI)
(dst32-relative-operand 16 ExtUnprefixed 4 8 HI SI)
;-------------------------------------------------------------
; Absolute address
;-------------------------------------------------------------
(define-pmacro (dst16-absolute offset xmode)
(begin
(define-derived-operand
(name (.sym dst16- offset -16-absolute- xmode))
(comment (.str "m16c absolute address " xmode))
(attrs (machine 16))
(mode xmode)
(args ((.sym Dsp- offset -u16)))
(syntax (.str "${Dsp-" offset "-u16}"))
(base-ifield f-12-4)
(encoding (+ (f-12-4 #xF) (.sym Dsp- offset -u16)))
(ifield-assertion (eq f-12-4 #xF))
(getter (mem16 xmode (.sym Dsp- offset -u16)))
(setter (set (mem16 xmode (.sym Dsp- offset -u16)) newval))
)
)
)
(dst16-absolute 16 QI)
(dst16-absolute 24 QI)
(dst16-absolute 32 QI)
(dst16-absolute 40 QI)
(dst16-absolute 48 QI)
(dst16-absolute 16 HI)
(dst16-absolute 24 HI)
(dst16-absolute 32 HI)
(dst16-absolute 40 HI)
(dst16-absolute 48 HI)
(dst16-absolute 16 SI)
(dst16-absolute 24 SI)
(dst16-absolute 32 SI)
(dst16-absolute 40 SI)
(dst16-absolute 48 SI)
(define-derived-operand
(name dst16-16-16-absolute-Ext-QI)
(comment "m16c absolute address QI")
(attrs (machine 16))
(mode HI)
(args (Dsp-16-u16))
(syntax "${Dsp-16-u16}")
(base-ifield f-12-4)
(encoding (+ (f-12-4 #xF) Dsp-16-u16))
(ifield-assertion (eq f-12-4 #xF))
(getter (mem16 QI Dsp-16-u16))
(setter (set (mem16 HI Dsp-16-u16) newval))
)
(define-pmacro (dst32-absolute offset group base1 base2 smode dmode)
(begin
(define-derived-operand
(name (.sym dst32- offset -16-absolute- group - smode))
(comment (.str "m32c absolute address " smode))
(attrs (machine 32))
(mode dmode)
(args ((.sym Dsp- offset -u16)))
(syntax (.str "${Dsp-" offset "-u16}"))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 3) ((.sym f- base2 -2) 3) (.sym Dsp- offset -u16)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 3) (eq (.sym f- base2 -2) 3)))
(getter (c-call smode (.str "operand_getter_" smode) (const 0) (.sym Dsp- offset -u16)))
(setter (c-call DFLT (.str "operand_setter_" dmode) newval (const 0) (.sym Dsp- offset -u16)))
; (getter (mem32 smode (.sym Dsp- offset -u16)))
; (setter (set (mem32 dmode (.sym Dsp- offset -u16)) newval))
)
(define-derived-operand
(name (.sym dst32- offset -24-absolute- group - smode))
(comment (.str "m32c absolute address " smode))
(attrs (machine 32))
(mode dmode)
(args ((.sym Dsp- offset -u24)))
(syntax (.str "${Dsp-" offset "-u24}"))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 3) ((.sym f- base2 -2) 2) (.sym Dsp- offset -u24)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 3) (eq (.sym f- base2 -2) 2)))
(getter (c-call smode (.str "operand_getter_" smode) (const 0) (.sym Dsp- offset -u24)))
(setter (c-call DFLT (.str "operand_setter_" dmode) newval (const 0) (.sym Dsp- offset -u24)))
; (getter (mem32 smode (.sym Dsp- offset -u24)))
; (setter (set (mem32 dmode (.sym Dsp- offset -u24)) newval))
)
)
)
(dst32-absolute 16 Unprefixed 4 8 QI QI)
(dst32-absolute 24 Unprefixed 4 8 QI QI)
(dst32-absolute 32 Unprefixed 4 8 QI QI)
(dst32-absolute 40 Unprefixed 4 8 QI QI)
(dst32-absolute 16 Unprefixed 4 8 HI HI)
(dst32-absolute 24 Unprefixed 4 8 HI HI)
(dst32-absolute 32 Unprefixed 4 8 HI HI)
(dst32-absolute 40 Unprefixed 4 8 HI HI)
(dst32-absolute 16 Unprefixed 4 8 SI SI)
(dst32-absolute 24 Unprefixed 4 8 SI SI)
(dst32-absolute 32 Unprefixed 4 8 SI SI)
(dst32-absolute 40 Unprefixed 4 8 SI SI)
(dst32-absolute 24 Prefixed 12 16 QI QI)
(dst32-absolute 32 Prefixed 12 16 QI QI)
(dst32-absolute 40 Prefixed 12 16 QI QI)
(dst32-absolute 48 Prefixed 12 16 QI QI)
(dst32-absolute 24 Prefixed 12 16 HI HI)
(dst32-absolute 32 Prefixed 12 16 HI HI)
(dst32-absolute 40 Prefixed 12 16 HI HI)
(dst32-absolute 48 Prefixed 12 16 HI HI)
(dst32-absolute 24 Prefixed 12 16 SI SI)
(dst32-absolute 32 Prefixed 12 16 SI SI)
(dst32-absolute 40 Prefixed 12 16 SI SI)
(dst32-absolute 48 Prefixed 12 16 SI SI)
(dst32-absolute 16 ExtUnprefixed 4 8 QI HI)
(dst32-absolute 16 ExtUnprefixed 4 8 HI SI)
;-------------------------------------------------------------
; An indirect indirect
;-------------------------------------------------------------
;(define-pmacro (dst-An-indirect-indirect-operand xmode)
; (define-derived-operand
; (name (.sym dst32-An-indirect-indirect- xmode))
; (comment (.str "m32c An indirect indirect destination " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args (Dst32AnPrefixed))
; (syntax (.str "[[$Dst32AnPrefixed]]"))
; (base-ifield f-12-6)
; (encoding (+ (f-12-3 0) (f-16-1 0) Dst32AnPrefixed))
; (ifield-assertion (andif (eq f-12-3 0) (eq f-16-1 0)))
; (getter (mem32 xmode (indirect-addr Dst32AnPrefixed)))
; (setter (set (mem32 xmode (indirect-addr Dst32AnPrefixed)) newval))
; )
;)
; (dst-An-indirect-indirect-operand QI)
; (dst-An-indirect-indirect-operand HI)
; (dst-An-indirect-indirect-operand SI)
;-------------------------------------------------------------
; Relative indirect
;-------------------------------------------------------------
(define-pmacro (dst-relative-indirect-operand offset xmode)
(begin
; (define-derived-operand
; (name (.sym dst32- offset -8-SB-relative-indirect- xmode))
; (comment (.str "m32c dsp:8[sb] relative destination " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args ((.sym Dsp- offset -u8)))
; (syntax (.str "[${Dsp-" offset "-u8}[sb]]"))
; (base-ifield f-12-6)
; (encoding (+ (f-12-3 1) (f-16-2 2) (.sym Dsp- offset -u8)))
; (ifield-assertion (andif (eq f-12-3 1) (eq f-16-2 2)))
; (getter (mem32 xmode (indirect-addr (add (.sym Dsp- offset -u8) (reg h-sb)))))
; (setter (set (mem32 xmode (indirect-addr (add (.sym Dsp- offset -u8) (reg h-sb)))) newval))
; )
; (define-derived-operand
; (name (.sym dst32- offset -16-SB-relative-indirect- xmode))
; (comment (.str "m32c dsp:16[sb] relative destination " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args ((.sym Dsp- offset -u16)))
; (syntax (.str "[${Dsp-" offset "-u16}[sb]]"))
; (base-ifield f-12-6)
; (encoding (+ (f-12-3 2) (f-16-2 2) (.sym Dsp- offset -u16)))
; (ifield-assertion (andif (eq f-12-3 2) (eq f-16-2 2)))
; (getter (mem32 xmode (indirect-addr (add (.sym Dsp- offset -u16) (reg h-sb)))))
; (setter (set (mem32 xmode (indirect-addr (add (.sym Dsp- offset -u16) (reg h-sb)))) newval))
; )
; (define-derived-operand
; (name (.sym dst32- offset -8-FB-relative-indirect- xmode))
; (comment (.str "m32c dsp:8[fb] relative destination " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args ((.sym Dsp- offset -s8)))
; (syntax (.str "[${Dsp-" offset "-s8}[fb]]"))
; (base-ifield f-12-6)
; (encoding (+ (f-12-3 1) (f-16-2 3) (.sym Dsp- offset -s8)))
; (ifield-assertion (andif (eq f-12-3 1) (eq f-16-2 3)))
; (getter (mem32 xmode (indirect-addr (add (.sym Dsp- offset -s8) (reg h-fb)))))
; (setter (set (mem32 xmode (indirect-addr (add (.sym Dsp- offset -s8) (reg h-fb)))) newval))
; )
; (define-derived-operand
; (name (.sym dst32- offset -16-FB-relative-indirect- xmode))
; (comment (.str "m32c dsp:16[fb] relative destination " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args ((.sym Dsp- offset -s16)))
; (syntax (.str "[${Dsp-" offset "-s16}[fb]]"))
; (base-ifield f-12-6)
; (encoding (+ (f-12-3 2) (f-16-2 3) (.sym Dsp- offset -s16)))
; (ifield-assertion (andif (eq f-12-3 2) (eq f-16-2 3)))
; (getter (mem32 xmode (indirect-addr (add (.sym Dsp- offset -s16) (reg h-fb)))))
; (setter (set (mem32 xmode (indirect-addr (add (.sym Dsp- offset -s16) (reg h-fb)))) newval))
; )
; (define-derived-operand
; (name (.sym dst32- offset -8-An-relative-indirect- xmode))
; (comment (.str "m32c dsp:8[An] relative indirect destination " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args (Dst32AnPrefixed (.sym Dsp- offset -u8)))
; (syntax (.str "[${Dsp-" offset "-u8}[$Dst32AnPrefixed]]"))
; (base-ifield f-12-6)
; (encoding (+ (f-12-3 1) (f-16-1 0) (.sym Dsp- offset -u8) Dst32AnPrefixed))
; (ifield-assertion (andif (eq f-12-3 1) (eq f-16-1 0)))
; (getter (mem32 xmode (indirect-addr (add (.sym Dsp- offset -u8) Dst32AnPrefixed))))
; (setter (set (mem32 xmode (indirect-addr (add (.sym Dsp- offset -u8) Dst32AnPrefixed))) newval))
; )
; (define-derived-operand
; (name (.sym dst32- offset -16-An-relative-indirect- xmode))
; (comment (.str "m32c dsp:16[An] relative destination " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args (Dst32AnPrefixed (.sym Dsp- offset -u16)))
; (syntax (.str "[${Dsp-" offset "-u16}[$Dst32AnPrefixed]]"))
; (base-ifield f-12-6)
; (encoding (+ (f-12-3 2) (f-16-1 0) (.sym Dsp- offset -u16) Dst32AnPrefixed))
; (ifield-assertion (andif (eq f-12-3 2) (eq f-16-1 0)))
; (getter (mem32 xmode (indirect-addr (add (.sym Dsp- offset -u16) Dst32AnPrefixed))))
; (setter (set (mem32 xmode (indirect-addr (add (.sym Dsp- offset -u16) Dst32AnPrefixed))) newval))
; )
; (define-derived-operand
; (name (.sym dst32- offset -24-An-relative-indirect- xmode))
; (comment (.str "m32c dsp:24[An] relative destination " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args (Dst32AnPrefixed (.sym Dsp- offset -u24)))
; (syntax (.str "[${Dsp-" offset "-u24}[$Dst32AnPrefixed]]"))
; (base-ifield f-12-6)
; (encoding (+ (f-12-3 3) (f-16-1 0) (.sym Dsp- offset -u24) Dst32AnPrefixed))
; (ifield-assertion (andif (eq f-12-3 3) (eq f-16-1 0)))
; (getter (mem32 xmode (indirect-addr (add (.sym Dsp- offset -u24) Dst32AnPrefixed))))
; (setter (set (mem32 xmode (indirect-addr (add (.sym Dsp- offset -u24) Dst32AnPrefixed))) newval))
; )
)
)
; (dst-relative-indirect-operand 24 QI)
; (dst-relative-indirect-operand 32 QI)
; (dst-relative-indirect-operand 40 QI)
; (dst-relative-indirect-operand 48 QI)
; (dst-relative-indirect-operand 24 HI)
; (dst-relative-indirect-operand 32 HI)
; (dst-relative-indirect-operand 40 HI)
; (dst-relative-indirect-operand 48 HI)
; (dst-relative-indirect-operand 24 SI)
; (dst-relative-indirect-operand 32 SI)
; (dst-relative-indirect-operand 40 SI)
; (dst-relative-indirect-operand 48 SI)
;-------------------------------------------------------------
; Absolute indirect
;-------------------------------------------------------------
(define-pmacro (dst-absolute-indirect offset xmode)
(begin
; (define-derived-operand
; (name (.sym dst32- offset -16-absolute-indirect-derived- xmode))
; (comment (.str "m32c absolute indirect address " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args ((.sym Dsp- offset -u16)))
; (syntax (.str "[${Dsp-" offset "-u16}]"))
; (base-ifield f-12-6)
; (encoding (+ (f-12-3 3) (f-16-2 3) (.sym Dsp- offset -u16)))
; (ifield-assertion (andif (eq f-12-3 3) (eq f-16-2 3)))
; (getter (mem32 xmode (indirect-addr (.sym Dsp- offset -u16))))
; (setter (set (mem32 xmode (indirect-addr (.sym Dsp- offset -u16))) newval))
; )
; (define-derived-operand
; (name (.sym dst32- offset -24-absolute-indirect-derived- xmode))
; (comment (.str "m32c absolute indirect address " xmode))
; (attrs (machine 32))
; (mode xmode)
; (args ((.sym Dsp- offset -u24)))
; (syntax (.str "[${Dsp-" offset "-u24}]"))
; (base-ifield f-12-6)
; (encoding (+ (f-12-3 3) (f-16-2 2) (.sym Dsp- offset -u24)))
; (ifield-assertion (andif (eq f-12-3 3) (eq f-16-2 2)))
; (getter (mem32 xmode (indirect-addr (.sym Dsp- offset -u24))))
; (setter (set (mem32 xmode (indirect-addr (.sym Dsp- offset -u24))) newval))
; )
)
)
(dst-absolute-indirect 24 QI)
(dst-absolute-indirect 32 QI)
(dst-absolute-indirect 40 QI)
(dst-absolute-indirect 48 QI)
(dst-absolute-indirect 24 HI)
(dst-absolute-indirect 32 HI)
(dst-absolute-indirect 40 HI)
(dst-absolute-indirect 48 HI)
(dst-absolute-indirect 24 SI)
(dst-absolute-indirect 32 SI)
(dst-absolute-indirect 40 SI)
(dst-absolute-indirect 48 SI)
;-------------------------------------------------------------
; Bit operands
;-------------------------------------------------------------
(define-pmacro (get-register-bit reg bitno)
(and (srl reg bitno) 1)
)
(define-pmacro (set-register-bit reg bitno value)
(set reg (or (and reg (inv (sll 1 bitno)))
(sll (and QI value 1) bitno)))
)
(define-pmacro (get-memory-bit mach base bitno)
(and (srl (mem-mach mach QI (add base (div bitno 8)))
(mod bitno 8))
1)
)
(define-pmacro (set-memory-bit mach base bitno value)
(sequence ((USI addr))
(set addr (add base (div bitno 8)))
(set (mem-mach mach QI addr)
(or (and (mem-mach mach QI addr)
(inv (sll 1 (mod bitno 8))))
(sll (and QI value 1) (mod bitno 8)))))
)
;-------------------------------------------------------------
; Rn direct
;-------------------------------------------------------------
(define-derived-operand
(name bit16-Rn-direct)
(comment "m16c Rn direct bit")
(attrs (machine 16))
(mode BI)
(args (Bitno16R Bit16Rn))
(syntax "$Bitno16R,$Bit16Rn")
(base-ifield f-12-4)
(encoding (+ (f-12-2 0) Bit16Rn Bitno16R))
(ifield-assertion (eq f-12-2 0))
(getter (get-register-bit Bit16Rn Bitno16R))
(setter (set-register-bit Bit16Rn Bitno16R newval))
)
(define-pmacro (bit32-Rn-direct-operand group base)
(begin
(define-derived-operand
(name (.sym bit32-Rn-direct- group))
(comment "m32c Rn direct bit")
(attrs (machine 32))
(mode BI)
(args ((.sym Bitno32 group) (.sym Bit32Rn group)))
(syntax (.str "$Bitno32" group ",$Bit32Rn" group))
(base-ifield (.sym f- base -6))
(encoding (+ ((.sym f- base -3) 4) (.sym Bit32Rn group) (.sym Bitno32 group)))
(ifield-assertion (eq (.sym f- base -3) 4))
(getter (get-register-bit (.sym Bit32Rn group) (.sym Bitno32 group)))
(setter (set-register-bit (.sym Bit32Rn group) (.sym Bitno32 group) newval))
)
)
)
(bit32-Rn-direct-operand Unprefixed 4)
(bit32-Rn-direct-operand Prefixed 12)
;-------------------------------------------------------------
; An direct
;-------------------------------------------------------------
(define-derived-operand
(name bit16-An-direct)
(comment "m16c An direct bit")
(attrs (machine 16))
(mode BI)
(args (Bitno16R Bit16An))
(syntax "$Bitno16R,$Bit16An")
(base-ifield f-12-4)
(encoding (+ (f-12-2 1) (f-14-1 0) Bit16An Bitno16R))
(ifield-assertion (andif (eq f-12-2 1) (eq f-14-1 0)))
(getter (get-register-bit Bit16An Bitno16R))
(setter (set-register-bit Bit16An Bitno16R newval))
)
(define-pmacro (bit32-An-direct-operand group base1 base2)
(begin
(define-derived-operand
(name (.sym bit32-An-direct- group))
(comment "m32c An direct bit")
(attrs (machine 32))
(mode BI)
(args ((.sym Bitno32 group) (.sym Bit32An group)))
(syntax (.str "$Bitno32" group ",$Bit32An" group))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 0) ((.sym f- base2 -1) 1) (.sym Bit32An group) (.sym Bitno32 group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 0) (eq (.sym f- base2 -1) 1)))
(getter (get-register-bit (.sym Bit32An group) (.sym Bitno32 group)))
(setter (set-register-bit (.sym Bit32An group) (.sym Bitno32 group) newval))
)
)
)
(bit32-An-direct-operand Unprefixed 4 8)
(bit32-An-direct-operand Prefixed 12 16)
;-------------------------------------------------------------
; An indirect
;-------------------------------------------------------------
(define-derived-operand
(name bit16-An-indirect)
(comment "m16c An indirect bit")
(attrs (machine 16))
(mode BI)
(args (Bit16An))
(syntax "[$Bit16An]")
(base-ifield f-12-4)
(encoding (+ (f-12-2 1) (f-14-1 1) Bit16An))
(ifield-assertion (andif (eq f-12-2 1) (eq f-14-1 1)))
(getter (get-memory-bit 16 0 Bit16An))
(setter (set-memory-bit 16 0 Bit16An newval))
)
(define-pmacro (bit32-An-indirect-operand group base1 base2)
(begin
(define-derived-operand
(name (.sym bit32-An-indirect- group))
(comment "m32c An indirect destination ")
(attrs (machine 32))
(mode BI)
(args ((.sym Bitno32 group) (.sym Bit32An group)))
(syntax (.str "$Bitno32" group ",[$Bit32An" group "]"))
(base-ifield (.sym f- base1 -6))
(encoding (+ ((.sym f- base1 -3) 0) ((.sym f- base2 -1) 0) (.sym Bit32An group) (.sym Bitno32 group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 0) (eq (.sym f- base2 -1) 0)))
(getter (get-memory-bit 32 (.sym Bit32An group) (.sym Bitno32 group)))
(setter (set-memory-bit 32 (.sym Bit32An group) (.sym Bitno32 group) newval))
)
)
)
(bit32-An-indirect-operand Unprefixed 4 8)
(bit32-An-indirect-operand Prefixed 12 16)
;-------------------------------------------------------------
; dsp:d[r] relative
;-------------------------------------------------------------
(define-pmacro (bit16-relative-operand offset)
(begin
(define-derived-operand
(name (.sym bit16- offset -8-SB-relative))
(comment (.str "m16c dsp:8[sb] relative bit " xmode))
(attrs (machine 16))
(mode BI)
(args ((.sym BitBase16- offset -u8)))
(syntax (.str "${BitBase16-" offset "-u8}[sb]"))
(base-ifield f-12-4)
(encoding (+ (f-12-4 #xA) (.sym BitBase16- offset -u8)))
(ifield-assertion (eq f-12-4 #xA))
(getter (get-memory-bit 16 (reg h-sb) (.sym BitBase16- offset -u8)))
(setter (set-memory-bit 16 (reg h-sb) (.sym BitBase16- offset -u8) newval))
)
(define-derived-operand
(name (.sym bit16- offset -16-SB-relative))
(comment (.str "m16c dsp:16[sb] relative bit " xmode))
(attrs (machine 16))
(mode BI)
(args ((.sym BitBase16- offset -u16)))
(syntax (.str "${BitBase16-" offset "-u16}[sb]"))
(base-ifield f-12-4)
(encoding (+ (f-12-4 #xE) (.sym BitBase16- offset -u16)))
(ifield-assertion (eq f-12-4 #xE))
(getter (get-memory-bit 16 (reg h-sb) (.sym BitBase16- offset -u16)))
(setter (set-memory-bit 16 (reg h-sb) (.sym BitBase16- offset -u16) newval))
)
(define-derived-operand
(name (.sym bit16- offset -8-FB-relative))
(comment (.str "m16c dsp:8[fb] relative bit " xmode))
(attrs (machine 16))
(mode BI)
(args ((.sym BitBase16- offset -s8)))
(syntax (.str "${BitBase16-" offset "-s8}[fb]"))
(base-ifield f-12-4)
(encoding (+ (f-12-4 #xB) (.sym BitBase16- offset -s8)))
(ifield-assertion (eq f-12-4 #xB))
(getter (get-memory-bit 16 (reg h-fb) (.sym BitBase16- offset -s8)))
(setter (set-memory-bit 16 (reg h-fb) (.sym BitBase16- offset -s8) newval))
)
(define-derived-operand
(name (.sym bit16- offset -8-An-relative))
(comment (.str "m16c dsp:8[An] relative bit " xmode))
(attrs (machine 16))
(mode BI)
(args (Bit16An (.sym Dsp- offset -u8)))
(syntax (.str "${Dsp-" offset "-u8}[$Bit16An]"))
(base-ifield f-12-4)
(encoding (+ (f-12-2 2) (f-14-1 0) (.sym Dsp- offset -u8) Bit16An))
(ifield-assertion (andif (eq f-12-2 2) (eq f-14-1 0)))
(getter (get-memory-bit 16 (.sym Dsp- offset -u8) Bit16An))
(setter (set-memory-bit 16 (.sym Dsp- offset -u8) Bit16An newval))
)
(define-derived-operand
(name (.sym bit16- offset -16-An-relative))
(comment (.str "m16c dsp:16[An] relative bit " xmode))
(attrs (machine 16))
(mode BI)
(args (Bit16An (.sym Dsp- offset -u16)))
(syntax (.str "${Dsp-" offset "-u16}[$Bit16An]"))
(base-ifield f-12-4)
(encoding (+ (f-12-2 3) (f-14-1 0) (.sym Dsp- offset -u16) Bit16An))
(ifield-assertion (andif (eq f-12-2 3) (eq f-14-1 0)))
(getter (get-memory-bit 16 (.sym Dsp- offset -u16) Bit16An))
(setter (set-memory-bit 16 (.sym Dsp- offset -u16) Bit16An newval))
)
)
)
(bit16-relative-operand 16)
(define-pmacro (bit32-relative-operand offset group base1 base2)
(begin
(define-derived-operand
(name (.sym bit32- offset -11-SB-relative- group))
(comment "m32c bit,base:11[sb] relative bit")
(attrs (machine 32))
(mode BI)
(args ((.sym BitBase32- offset -u11- group)))
(syntax (.str "${BitBase32-" offset "-u11-" group "}[sb]"))
(base-ifield (.sym f- base1 -12))
(encoding (+ ((.sym f- base1 -3) 1) ((.sym f- base2 -2) 2) (.sym BitBase32- offset -u11- group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 1) (eq (.sym f- base2 -2) 2)))
(getter (get-memory-bit 32 (reg h-sb) (.sym BitBase32- offset -u11- group)))
(setter (set-memory-bit 32 (reg h-sb) (.sym BitBase32- offset -u11- group) newval))
)
(define-derived-operand
(name (.sym bit32- offset -19-SB-relative- group))
(comment "m32c bit,base:19[sb] relative bit")
(attrs (machine 32))
(mode BI)
(args ((.sym BitBase32- offset -u19- group)))
(syntax (.str "${BitBase32-" offset "-u19-" group "}[sb]"))
(base-ifield (.sym f- base1 -12))
(encoding (+ ((.sym f- base1 -3) 2) ((.sym f- base2 -2) 2) (.sym BitBase32- offset -u19- group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 2) (eq (.sym f- base2 -2) 2)))
(getter (get-memory-bit 32 (reg h-sb) (.sym BitBase32- offset -u19- group)))
(setter (set-memory-bit 32 (reg h-sb) (.sym BitBase32- offset -u19- group) newval))
)
(define-derived-operand
(name (.sym bit32- offset -11-FB-relative- group))
(comment "m32c bit,base:11[fb] relative bit")
(attrs (machine 32))
(mode BI)
(args ((.sym BitBase32- offset -s11- group)))
(syntax (.str "${BitBase32-" offset "-s11-" group "}[fb]"))
(base-ifield (.sym f- base1 -12))
(encoding (+ ((.sym f- base1 -3) 1) ((.sym f- base2 -2) 3) (.sym BitBase32- offset -s11- group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 1) (eq (.sym f- base2 -2) 3)))
(getter (get-memory-bit 32 (reg h-fb) (.sym BitBase32- offset -s11- group)))
(setter (set-memory-bit 32 (reg h-fb) (.sym BitBase32- offset -s11- group) newval))
)
(define-derived-operand
(name (.sym bit32- offset -19-FB-relative- group))
(comment "m32c bit,base:19[fb] relative bit")
(attrs (machine 32))
(mode BI)
(args ((.sym BitBase32- offset -s19- group)))
(syntax (.str "${BitBase32-" offset "-s19-" group "}[fb]"))
(base-ifield (.sym f- base1 -12))
(encoding (+ ((.sym f- base1 -3) 2) ((.sym f- base2 -2) 3) (.sym BitBase32- offset -s19- group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 2) (eq (.sym f- base2 -2) 3)))
(getter (get-memory-bit 32 (reg h-fb) (.sym BitBase32- offset -s19- group)))
(setter (set-memory-bit 32 (reg h-fb) (.sym BitBase32- offset -s19- group) newval))
)
(define-derived-operand
(name (.sym bit32- offset -11-An-relative- group))
(comment "m32c bit,base:11[An] relative bit")
(attrs (machine 32))
(mode BI)
(args ((.sym BitBase32- offset -u11- group) (.sym Bit32An group)))
(syntax (.str "${BitBase32-" offset "-u11-" group "}[$Bit32An" group "]"))
(base-ifield (.sym f- base1 -12))
(encoding (+ ((.sym f- base1 -3) 1) ((.sym f- base2 -1) 0) (.sym BitBase32- offset -u11- group) (.sym Bit32An group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 1) (eq (.sym f- base2 -1) 0)))
(getter (get-memory-bit 32 (.sym Bit32An group) (.sym BitBase32- offset -u11- group)))
(setter (set-memory-bit 32 (.sym Bit32An group) (.sym BitBase32- offset -u11- group) newval))
)
(define-derived-operand
(name (.sym bit32- offset -19-An-relative- group))
(comment "m32c bit,base:19[An] relative bit")
(attrs (machine 32))
(mode BI)
(args ((.sym BitBase32- offset -u19- group) (.sym Bit32An group)))
(syntax (.str "${BitBase32-" offset "-u19-" group "}[$Bit32An" group "]"))
(base-ifield (.sym f- base1 -12))
(encoding (+ ((.sym f- base1 -3) 2) ((.sym f- base2 -1) 0) (.sym BitBase32- offset -u19- group) (.sym Bit32An group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 2) (eq (.sym f- base2 -1) 0)))
(getter (get-memory-bit 32 (.sym Bit32An group) (.sym BitBase32- offset -u19- group)))
(setter (set-memory-bit 32 (.sym Bit32An group) (.sym BitBase32- offset -u19- group) newval))
)
(define-derived-operand
(name (.sym bit32- offset -27-An-relative- group))
(comment "m32c bit,base:27[An] relative bit")
(attrs (machine 32))
(mode BI)
(args ((.sym BitBase32- offset -u27- group) (.sym Bit32An group)))
(syntax (.str "${BitBase32-" offset "-u27-" group "}[$Bit32An" group "]"))
(base-ifield (.sym f- base1 -12))
(encoding (+ ((.sym f- base1 -3) 3) ((.sym f- base2 -1) 0) (.sym BitBase32- offset -u27- group) (.sym Bit32An group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 3) (eq (.sym f- base2 -1) 0)))
(getter (get-memory-bit 32 (.sym Bit32An group) (.sym BitBase32- offset -u27- group)))
(setter (set-memory-bit 32 (.sym Bit32An group) (.sym BitBase32- offset -u27- group) newval))
)
)
)
(bit32-relative-operand 16 Unprefixed 4 8)
(bit32-relative-operand 24 Prefixed 12 16)
(define-derived-operand
(name bit16-11-SB-relative-S)
(comment "m16c bit,base:11[sb] relative bit")
(attrs (machine 16))
(mode BI)
(args (BitBase16-8-u11-S))
(syntax "${BitBase16-8-u11-S}[sb]")
(base-ifield (.sym f-5-3))
(encoding (+ BitBase16-8-u11-S))
; (ifield-assertion (#t))
(getter (get-memory-bit 16 (reg h-sb) BitBase16-8-u11-S))
(setter (set-memory-bit 16 (reg h-sb) BitBase16-8-u11-S newval))
)
(define-derived-operand
(name Rn16-push-S-derived)
(comment "m16c r0[lh] for push,pop short version")
(attrs (machine 16))
(mode QI)
(args (Rn16-push-S))
(syntax "${Rn16-push-S}")
(base-ifield (.sym f-4-1))
(encoding (+ Rn16-push-S))
; (ifield-assertion (#t))
(getter (trunc QI Rn16-push-S))
(setter (set Rn16-push-S newval))
)
(define-derived-operand
(name An16-push-S-derived)
(comment "m16c r0[lh] for push,pop short version")
(attrs (machine 16))
(mode HI)
(args (An16-push-S))
(syntax "${An16-push-S}")
(base-ifield (.sym f-4-1))
(encoding (+ An16-push-S))
; (ifield-assertion (#t))
(getter (trunc QI An16-push-S))
(setter (set An16-push-S newval))
)
;-------------------------------------------------------------
; Absolute address
;-------------------------------------------------------------
(define-pmacro (bit16-absolute offset)
(begin
(define-derived-operand
(name (.sym bit16- offset -16-absolute))
(comment "m16c absolute address")
(attrs (machine 16))
(mode BI)
(args ((.sym BitBase16- offset -u16)))
(syntax (.str "${BitBase16-" offset "-u16}"))
(base-ifield f-12-4)
(encoding (+ (f-12-4 #xF) (.sym BitBase16- offset -u16)))
(ifield-assertion (eq f-12-4 #xF))
(getter (get-memory-bit 16 0 (.sym BitBase16- offset -u16)))
(setter (set-memory-bit 16 0 (.sym BitBase16- offset -u16) newval))
)
)
)
(bit16-absolute 16)
(define-pmacro (bit32-absolute offset group base1 base2)
(begin
(define-derived-operand
(name (.sym bit32- offset -19-absolute- group))
(comment "m32c absolute address bit")
(attrs (machine 32))
(mode BI)
(args ((.sym BitBase32- offset -u19- group)))
(syntax (.str "${BitBase32-" offset "-u19-" group "}"))
(base-ifield (.sym f- base1 -12))
(encoding (+ ((.sym f- base1 -3) 3) ((.sym f- base2 -2) 3) (.sym BitBase32- offset -u19- group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 3) (eq (.sym f- base2 -2) 3)))
(getter (get-memory-bit 32 0 (.sym BitBase32- offset -u19- group)))
(setter (set-memory-bit 32 0 (.sym BitBase32- offset -u19- group) newval))
)
(define-derived-operand
(name (.sym bit32- offset -27-absolute- group))
(comment "m32c absolute address bit")
(attrs (machine 32))
(mode BI)
(args ((.sym BitBase32- offset -u27- group)))
(syntax (.str "${BitBase32-" offset "-u27-" group "}"))
(base-ifield (.sym f- base1 -12))
(encoding (+ ((.sym f- base1 -3) 3) ((.sym f- base2 -2) 2) (.sym BitBase32- offset -u27- group)))
(ifield-assertion (andif (eq (.sym f- base1 -3) 3) (eq (.sym f- base2 -2) 2)))
(getter (get-memory-bit 32 0 (.sym BitBase32- offset -u27- group)))
(setter (set-memory-bit 32 0 (.sym BitBase32- offset -u27- group) newval))
)
)
)
(bit32-absolute 16 Unprefixed 4 8)
(bit32-absolute 24 Prefixed 12 16)
;-------------------------------------------------------------
; Destination operands for short fomat insns
;-------------------------------------------------------------
(define-derived-operand
(name dst16-3-S-R0l-direct-QI)
(comment "m16c R0l direct QI")
(attrs (machine 16))
(mode QI)
(args (R0l))
(syntax "r0l")
(base-ifield f-5-3)
(encoding (+ (f-5-3 4)))
(ifield-assertion (eq f-5-3 4))
(getter (trunc QI R0l))
(setter (set R0l newval))
)
(define-derived-operand
(name dst16-3-S-R0h-direct-QI)
(comment "m16c R0h direct QI")
(attrs (machine 16))
(mode QI)
(args (R0h))
(syntax "r0h")
(base-ifield f-5-3)
(encoding (+ (f-5-3 3)))
(ifield-assertion (eq f-5-3 3))
(getter (trunc QI R0h))
(setter (set R0h newval))
)
(define-derived-operand
(name dst16-3-S-8-8-SB-relative-QI)
(comment "m16c SB relative QI")
(attrs (machine 16))
(mode QI)
(args (Dsp-8-u8))
(syntax "${Dsp-8-u8}[sb]")
(base-ifield f-5-3)
(encoding (+ (f-5-3 5) Dsp-8-u8))
(ifield-assertion (eq f-5-3 5))
(getter (mem16 QI (add Dsp-8-u8 (reg h-sb))))
(setter (set (mem16 QI (add Dsp-8-u8 (reg h-sb))) newval))
)
(define-derived-operand
(name dst16-3-S-8-8-FB-relative-QI)
(comment "m16c FB relative QI")
(attrs (machine 16))
(mode QI)
(args (Dsp-8-s8))
(syntax "${Dsp-8-s8}[fb]")
(base-ifield f-5-3)
(encoding (+ (f-5-3 6) Dsp-8-s8))
(ifield-assertion (eq f-5-3 6))
(getter (mem16 QI (add Dsp-8-s8 (reg h-fb))))
(setter (set (mem16 QI (add Dsp-8-s8 (reg h-fb))) newval))
)
(define-derived-operand
(name dst16-3-S-8-16-absolute-QI)
(comment "m16c absolute address QI")
(attrs (machine 16))
(mode QI)
(args (Dsp-8-u16))
(syntax "${Dsp-8-u16}")
(base-ifield f-5-3)
(encoding (+ (f-5-3 7) Dsp-8-u16))
(ifield-assertion (eq f-5-3 7))
(getter (mem16 QI Dsp-8-u16))
(setter (set (mem16 QI Dsp-8-u16) newval))
)
(define-derived-operand
(name dst16-3-S-16-8-SB-relative-QI)
(comment "m16c SB relative QI")
(attrs (machine 16))
(mode QI)
(args (Dsp-16-u8))
(syntax "${Dsp-16-u8}[sb]")
(base-ifield f-5-3)
(encoding (+ (f-5-3 5) Dsp-16-u8))
(ifield-assertion (eq f-5-3 5))
(getter (mem16 QI (add Dsp-16-u8 (reg h-sb))))
(setter (set (mem16 QI (add Dsp-16-u8 (reg h-sb))) newval))
)
(define-derived-operand
(name dst16-3-S-16-8-FB-relative-QI)
(comment "m16c FB relative QI")
(attrs (machine 16))
(mode QI)
(args (Dsp-16-s8))
(syntax "${Dsp-16-s8}[fb]")
(base-ifield f-5-3)
(encoding (+ (f-5-3 6) Dsp-16-s8))
(ifield-assertion (eq f-5-3 6))
(getter (mem16 QI (add Dsp-16-s8 (reg h-fb))))
(setter (set (mem16 QI (add Dsp-16-s8 (reg h-fb))) newval))
)
(define-derived-operand
(name dst16-3-S-16-16-absolute-QI)
(comment "m16c absolute address QI")
(attrs (machine 16))
(mode QI)
(args (Dsp-16-u16))
(syntax "${Dsp-16-u16}")
(base-ifield f-5-3)
(encoding (+ (f-5-3 7) Dsp-16-u16))
(ifield-assertion (eq f-5-3 7))
(getter (mem16 QI Dsp-16-u16))
(setter (set (mem16 QI Dsp-16-u16) newval))
)
(define-derived-operand
(name srcdst16-r0l-r0h-S-derived)
(comment "m16c r0l/r0h operand for short format insns")
(attrs (machine 16))
(mode SI)
(args (SrcDst16-r0l-r0h-S-normal))
(syntax "${SrcDst16-r0l-r0h-S-normal}")
(base-ifield f-6-3)
(encoding (+ (f-6-2 0) SrcDst16-r0l-r0h-S-normal))
(ifield-assertion (eq f-6-2 0))
(getter (trunc SI SrcDst16-r0l-r0h-S-normal))
(setter ()) ; no setter
)
(define-derived-operand
(name dst32-2-S-R0l-direct-QI)
(comment "m32c R0l direct QI")
(attrs (machine 32))
(mode QI)
(args (R0l))
(syntax "r0l")
(base-ifield f-2-2)
(encoding (+ (f-2-2 0)))
(ifield-assertion (eq f-2-2 0))
(getter (trunc QI R0l))
(setter (set R0l newval))
)
(define-derived-operand
(name dst32-2-S-R0-direct-HI)
(comment "m32c R0 direct HI")
(attrs (machine 32))
(mode HI)
(args (R0))
(syntax "r0")
(base-ifield f-2-2)
(encoding (+ (f-2-2 0)))
(ifield-assertion (eq f-2-2 0))
(getter (trunc HI R0))
(setter (set R0 newval))
)
(define-derived-operand
(name dst32-1-S-A0-direct-HI)
(comment "m32c A0 direct HI")
(attrs (machine 32))
(mode HI)
(args (A0))
(syntax "a0")
(base-ifield f-7-1)
(encoding (+ (f-7-1 0)))
(ifield-assertion (eq f-7-1 0))
(getter (trunc HI A0))
(setter (set A0 newval))
)
(define-derived-operand
(name dst32-1-S-A1-direct-HI)
(comment "m32c A1 direct HI")
(attrs (machine 32))
(mode HI)
(args (A1))
(syntax "a1")
(base-ifield f-7-1)
(encoding (+ (f-7-1 1)))
(ifield-assertion (eq f-7-1 1))
(getter (trunc HI A1))
(setter (set A1 newval))
)
(define-pmacro (dst32-2-S-operands xmode)
(begin
(define-derived-operand
(name (.sym dst32-2-S-8-SB-relative- xmode))
(comment "m32c SB relative for short binary insns")
(attrs (machine 32))
(mode xmode)
(args (Dsp-8-u8))
(syntax "${Dsp-8-u8}[sb]")
(base-ifield f-2-2)
(encoding (+ (f-2-2 2) Dsp-8-u8))
(ifield-assertion (eq f-2-2 2))
(getter (c-call xmode (.str "operand_getter_" xmode) sb Dsp-8-u8))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval sb Dsp-8-u8))
; (getter (mem32 xmode (add Dsp-8-u8 (reg h-sb))))
; (setter (set (mem32 xmode (add Dsp-8-u8 (reg h-sb))) newval))
)
(define-derived-operand
(name (.sym dst32-2-S-8-FB-relative- xmode))
(comment "m32c FB relative for short binary insns")
(attrs (machine 32))
(mode xmode)
(args (Dsp-8-s8))
(syntax "${Dsp-8-s8}[fb]")
(base-ifield f-2-2)
(encoding (+ (f-2-2 3) Dsp-8-s8))
(ifield-assertion (eq f-2-2 3))
(getter (c-call xmode (.str "operand_getter_" xmode) fb Dsp-8-s8))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval fb Dsp-8-s8))
; (getter (mem32 xmode (add Dsp-8-s8 (reg h-fb))))
; (setter (set (mem32 xmode (add Dsp-8-s8 (reg h-fb))) newval))
)
(define-derived-operand
(name (.sym dst32-2-S-16-absolute- xmode))
(comment "m32c absolute address for short binary insns")
(attrs (machine 32))
(mode xmode)
(args (Dsp-8-u16))
(syntax "${Dsp-8-u16}")
(base-ifield f-2-2)
(encoding (+ (f-2-2 1) Dsp-8-u16))
(ifield-assertion (eq f-2-2 1))
(getter (c-call xmode (.str "operand_getter_" xmode) (const 0) Dsp-8-u16))
(setter (c-call DFLT (.str "operand_setter_" xmode) newval (const 0) Dsp-8-u16))
; (getter (mem32 xmode Dsp-8-u16))
; (setter (set (mem32 xmode Dsp-8-u16) newval))
)
; (define-derived-operand
; (name (.sym dst32-2-S-8-SB-relative-indirect- xmode))
; (comment "m32c SB relative for short binary insns")
; (attrs (machine 32))
; (mode xmode)
; (args (Dsp-16-u8))
; (syntax "[${Dsp-16-u8}[sb]]")
; (base-ifield f-10-2)
; (encoding (+ (f-10-2 2) Dsp-16-u8))
; (ifield-assertion (eq f-10-2 2))
; (getter (mem32 xmode (indirect-addr (add Dsp-16-u8 (reg h-sb)))))
; (setter (set (mem32 xmode (indirect-addr (add Dsp-16-u8 (reg h-sb)))) newval))
; )
; (define-derived-operand
; (name (.sym dst32-2-S-8-FB-relative-indirect- xmode))
; (comment "m32c FB relative for short binary insns")
; (attrs (machine 32))
; (mode xmode)
; (args (Dsp-16-s8))
; (syntax "[${Dsp-16-s8}[fb]]")
; (base-ifield f-10-2)
; (encoding (+ (f-10-2 3) Dsp-16-s8))
; (ifield-assertion (eq f-10-2 3))
; (getter (mem32 xmode (indirect-addr (add Dsp-16-s8 (reg h-fb)))))
; (setter (set (mem32 xmode (indirect-addr (add Dsp-16-s8 (reg h-fb)))) newval))
; )
; (define-derived-operand
; (name (.sym dst32-2-S-16-absolute-indirect- xmode))
; (comment "m32c absolute address for short binary insns")
; (attrs (machine 32))
; (mode xmode)
; (args (Dsp-16-u16))
; (syntax "[${Dsp-16-u16}]")
; (base-ifield f-10-2)
; (encoding (+ (f-10-2 1) Dsp-16-u16))
; (ifield-assertion (eq f-10-2 1))
; (getter (mem32 xmode (indirect-addr Dsp-16-u16)))
; (setter (set (mem32 xmode (indirect-addr Dsp-16-u16)) newval))
; )
)
)
(dst32-2-S-operands QI)
(dst32-2-S-operands HI)
(dst32-2-S-operands SI)
;=============================================================
; Anyof operands
;-------------------------------------------------------------
; Source operands with no additional fields
;-------------------------------------------------------------
(define-pmacro (src16-basic-operand xmode)
(begin
(define-anyof-operand
(name (.sym src16-basic- xmode))
(comment (.str "m16c source operand of size " xmode " with no additional fields"))
(attrs (machine 16))
(mode xmode)
(choices
(.sym src16-Rn-direct- xmode)
(.sym src16-An-direct- xmode)
(.sym src16-An-indirect- xmode)
)
)
)
)
(src16-basic-operand QI)
(src16-basic-operand HI)
(define-pmacro (src32-basic-operand xmode)
(begin
(define-anyof-operand
(name (.sym src32-basic-Unprefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with no additional fields"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym src32-Rn-direct-Unprefixed- xmode)
(.sym src32-An-direct-Unprefixed- xmode)
(.sym src32-An-indirect-Unprefixed- xmode)
)
)
(define-anyof-operand
(name (.sym src32-basic-Prefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with no additional fields"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym src32-Rn-direct-Prefixed- xmode)
(.sym src32-An-direct-Prefixed- xmode)
(.sym src32-An-indirect-Prefixed- xmode)
)
)
; (define-anyof-operand
; (name (.sym src32-basic-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " indirect with no additional fields"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym src32-An-indirect-indirect- xmode)
; )
; )
)
)
(src32-basic-operand QI)
(src32-basic-operand HI)
(src32-basic-operand SI)
(define-anyof-operand
(name src32-basic-ExtPrefixed-QI)
(comment "m32c source operand of size QI with no additional fields")
(attrs (machine 32))
(mode QI)
(choices
src32-Rn-direct-Prefixed-QI
src32-An-indirect-Prefixed-QI
)
)
;-------------------------------------------------------------
; Source operands with additional fields at offset 16 bits
;-------------------------------------------------------------
(define-pmacro (src16-16-operand xmode)
(begin
(define-anyof-operand
(name (.sym src16-16-8- xmode))
(comment (.str "m16c source operand of size " xmode " with additional 8 bit fields at offset 16"))
(attrs (machine 16))
(mode xmode)
(choices
(.sym src16-16-8-An-relative- xmode)
(.sym src16-16-8-SB-relative- xmode)
(.sym src16-16-8-FB-relative- xmode)
)
)
(define-anyof-operand
(name (.sym src16-16-16- xmode))
(comment (.str "m16c source operand of size " xmode " with additional 16 bit fields at offset 16"))
(attrs (machine 16))
(mode xmode)
(choices
(.sym src16-16-16-An-relative- xmode)
(.sym src16-16-16-SB-relative- xmode)
(.sym src16-16-16-absolute- xmode)
)
)
)
)
(src16-16-operand QI)
(src16-16-operand HI)
(define-pmacro (src32-16-operand xmode)
(begin
(define-anyof-operand
(name (.sym src32-16-8-Unprefixed- xmode))
(comment (.str "m32c source operand of size " xmode " with additional 8 bit fields at offset 16"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym src32-16-8-An-relative-Unprefixed- xmode)
(.sym src32-16-8-SB-relative-Unprefixed- xmode)
(.sym src32-16-8-FB-relative-Unprefixed- xmode)
)
)
(define-anyof-operand
(name (.sym src32-16-16-Unprefixed- xmode))
(comment (.str "m32c source operand of size " xmode " with additional 16 bit fields at offset 16"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym src32-16-16-An-relative-Unprefixed- xmode)
(.sym src32-16-16-SB-relative-Unprefixed- xmode)
(.sym src32-16-16-FB-relative-Unprefixed- xmode)
(.sym src32-16-16-absolute-Unprefixed- xmode)
)
)
(define-anyof-operand
(name (.sym src32-16-24-Unprefixed- xmode))
(comment (.str "m32c source operand of size " xmode " with additional 24 bit fields at offset 16"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym src32-16-24-An-relative-Unprefixed- xmode)
(.sym src32-16-24-absolute-Unprefixed- xmode)
)
)
)
)
(src32-16-operand QI)
(src32-16-operand HI)
(src32-16-operand SI)
;-------------------------------------------------------------
; Source operands with additional fields at offset 24 bits
;-------------------------------------------------------------
(define-pmacro (src-24-operand group xmode)
(begin
(define-anyof-operand
(name (.sym src32-24-8- group - xmode))
(comment (.str "m32c source operand of size " xmode " with additional 8 bit fields at offset 24"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym src32-24-8-An-relative- group - xmode)
(.sym src32-24-8-SB-relative- group - xmode)
(.sym src32-24-8-FB-relative- group - xmode)
)
)
(define-anyof-operand
(name (.sym src32-24-16- group - xmode))
(comment (.str "m32c source operand of size " xmode " with additional 16 bit fields at offset 16"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym src32-24-16-An-relative- group - xmode)
(.sym src32-24-16-SB-relative- group - xmode)
(.sym src32-24-16-FB-relative- group - xmode)
(.sym src32-24-16-absolute- group - xmode)
)
)
(define-anyof-operand
(name (.sym src32-24-24- group - xmode))
(comment (.str "m32c source operand of size " xmode " with additional 24 bit fields at offset 16"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym src32-24-24-An-relative- group - xmode)
(.sym src32-24-24-absolute- group - xmode)
)
)
)
)
(src-24-operand Prefixed QI)
(src-24-operand Prefixed HI)
(src-24-operand Prefixed SI)
(define-pmacro (src-24-indirect-operand xmode)
(begin
; (define-anyof-operand
; (name (.sym src32-24-8-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " with additional fields at offset 24"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym src32-24-8-An-relative-indirect- xmode)
; (.sym src32-24-8-SB-relative-indirect- xmode)
; (.sym src32-24-8-FB-relative-indirect- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym src32-24-16-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " with additional fields at offset 24"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym src32-24-16-An-relative-indirect- xmode)
; (.sym src32-24-16-SB-relative-indirect- xmode)
; (.sym src32-24-16-FB-relative-indirect- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym src32-24-24-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " with additional fields at offset 24"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym src32-24-24-An-relative-indirect- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym src32-24-16-absolute-indirect- xmode))
; (comment (.str "m32c source operand of size " xmode " 16 bit absolute indirect"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym src32-24-16-absolute-indirect-derived- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym src32-24-24-absolute-indirect- xmode))
; (comment (.str "m32c source operand of size " xmode " 24 bit absolute indirect"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym src32-24-24-absolute-indirect-derived- xmode)
; )
; )
)
)
; (src-24-indirect-operand QI)
; (src-24-indirect-operand HI)
; (src-24-indirect-operand SI)
;-------------------------------------------------------------
; Destination operands with no additional fields
;-------------------------------------------------------------
(define-pmacro (dst16-basic-operand xmode)
(begin
(define-anyof-operand
(name (.sym dst16-basic- xmode))
(comment (.str "m16c destination operand of size " xmode " with no additional fields"))
(attrs (machine 16))
(mode xmode)
(choices
(.sym dst16-Rn-direct- xmode)
(.sym dst16-An-direct- xmode)
(.sym dst16-An-indirect- xmode)
)
)
)
)
(dst16-basic-operand QI)
(dst16-basic-operand HI)
(dst16-basic-operand SI)
(define-pmacro (dst32-basic-operand xmode)
(begin
(define-anyof-operand
(name (.sym dst32-basic-Unprefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with no additional fields"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-Rn-direct-Unprefixed- xmode)
(.sym dst32-An-direct-Unprefixed- xmode)
(.sym dst32-An-indirect-Unprefixed- xmode)
)
)
(define-anyof-operand
(name (.sym dst32-basic-Prefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with no additional fields"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-Rn-direct-Prefixed- xmode)
(.sym dst32-An-direct-Prefixed- xmode)
(.sym dst32-An-indirect-Prefixed- xmode)
)
)
)
)
(dst32-basic-operand QI)
(dst32-basic-operand HI)
(dst32-basic-operand SI)
;-------------------------------------------------------------
; Destination operands with possible additional fields at offset 16 bits
;-------------------------------------------------------------
(define-pmacro (dst16-16-operand xmode)
(begin
(define-anyof-operand
(name (.sym dst16-16- xmode))
(comment (.str "m16c destination operand of size " xmode " with additional fields at offset 16"))
(attrs (machine 16))
(mode xmode)
(choices
(.sym dst16-Rn-direct- xmode)
(.sym dst16-An-direct- xmode)
(.sym dst16-An-indirect- xmode)
(.sym dst16-16-8-An-relative- xmode)
(.sym dst16-16-16-An-relative- xmode)
(.sym dst16-16-8-SB-relative- xmode)
(.sym dst16-16-16-SB-relative- xmode)
(.sym dst16-16-8-FB-relative- xmode)
(.sym dst16-16-16-absolute- xmode)
)
)
(define-anyof-operand
(name (.sym dst16-16-8- xmode))
(comment (.str "m16c destination operand of size " xmode " with additional fields at offset 16"))
(attrs (machine 16))
(mode xmode)
(choices
(.sym dst16-16-8-An-relative- xmode)
(.sym dst16-16-8-SB-relative- xmode)
(.sym dst16-16-8-FB-relative- xmode)
)
)
(define-anyof-operand
(name (.sym dst16-16-16- xmode))
(comment (.str "m16c destination operand of size " xmode " with additional fields at offset 16"))
(attrs (machine 16))
(mode xmode)
(choices
(.sym dst16-16-16-An-relative- xmode)
(.sym dst16-16-16-SB-relative- xmode)
(.sym dst16-16-16-absolute- xmode)
)
)
(define-anyof-operand
(name (.sym dst16-16-16sa- xmode))
(comment (.str "m16c destination operand of size " xmode " with additional fields at offset 16"))
(attrs (machine 16))
(mode xmode)
(choices
(.sym dst16-16-16-SB-relative- xmode)
(.sym dst16-16-16-absolute- xmode)
)
)
(define-anyof-operand
(name (.sym dst16-16-20ar- xmode))
(comment (.str "m16c destination operand of size " xmode " with additional fields at offset 16"))
(attrs (machine 16))
(mode xmode)
(choices
(.sym dst16-16-20-An-relative- xmode)
)
)
)
)
(dst16-16-operand QI)
(dst16-16-operand HI)
(dst16-16-operand SI)
(define-anyof-operand
(name dst16-16-Ext-QI)
(comment "m16c destination operand of size QI for 'ext' insns with additional fields at offset 16")
(attrs (machine 16))
(mode QI)
(choices
dst16-Rn-direct-Ext-QI
dst16-An-indirect-Ext-QI
dst16-16-8-An-relative-Ext-QI
dst16-16-16-An-relative-Ext-QI
dst16-16-8-SB-relative-Ext-QI
dst16-16-16-SB-relative-Ext-QI
dst16-16-8-FB-relative-Ext-QI
dst16-16-16-absolute-Ext-QI
)
)
(define-derived-operand
(name dst16-An-indirect-Mova-HI)
(comment "m16c addressof An indirect destination HI")
(attrs (ISA m16c))
(mode HI)
(args (Dst16An))
(syntax "[$Dst16An]")
(base-ifield f-12-4)
(encoding (+ (f-12-2 1) (f-14-1 1) Dst16An))
(ifield-assertion
(andif (eq f-12-2 1) (eq f-14-1 1)))
(getter Dst16An)
(setter (nop))
)
(define-derived-operand
(name dst16-16-8-An-relative-Mova-HI)
(comment
"m16c addressof dsp:8[An] relative destination HI")
(attrs (ISA m16c))
(mode HI)
(args (Dst16An Dsp-16-u8))
(syntax "${Dsp-16-u8}[$Dst16An]")
(base-ifield f-12-4)
(encoding
(+ (f-12-2 2) (f-14-1 0) Dsp-16-u8 Dst16An))
(ifield-assertion
(andif (eq f-12-2 2) (eq f-14-1 0)))
(getter (add Dsp-16-u8 Dst16An))
(setter (nop))
)
(define-derived-operand
(name dst16-16-16-An-relative-Mova-HI)
(comment
"m16c addressof dsp:16[An] relative destination HI")
(attrs (ISA m16c))
(mode HI)
(args (Dst16An Dsp-16-u16))
(syntax "${Dsp-16-u16}[$Dst16An]")
(base-ifield f-12-4)
(encoding
(+ (f-12-2 3) (f-14-1 0) Dsp-16-u16 Dst16An))
(ifield-assertion
(andif (eq f-12-2 3) (eq f-14-1 0)))
(getter (add Dsp-16-u16 Dst16An))
(setter (nop))
)
(define-derived-operand
(name dst16-16-8-SB-relative-Mova-HI)
(comment
"m16c addressof dsp:8[sb] relative destination HI")
(attrs (ISA m16c))
(mode HI)
(args (Dsp-16-u8))
(syntax "${Dsp-16-u8}[sb]")
(base-ifield f-12-4)
(encoding (+ (f-12-4 10) Dsp-16-u8))
(ifield-assertion (eq f-12-4 10))
(getter (add Dsp-16-u8 (reg h-sb)))
(setter (nop))
)
(define-derived-operand
(name dst16-16-16-SB-relative-Mova-HI)
(comment
"m16c addressof dsp:16[sb] relative destination HI")
(attrs (ISA m16c))
(mode HI)
(args (Dsp-16-u16))
(syntax "${Dsp-16-u16}[sb]")
(base-ifield f-12-4)
(encoding (+ (f-12-4 14) Dsp-16-u16))
(ifield-assertion (eq f-12-4 14))
(getter (add Dsp-16-u16 (reg h-sb)))
(setter (nop))
)
(define-derived-operand
(name dst16-16-8-FB-relative-Mova-HI)
(comment
"m16c addressof dsp:8[fb] relative destination HI")
(attrs (ISA m16c))
(mode HI)
(args (Dsp-16-s8))
(syntax "${Dsp-16-s8}[fb]")
(base-ifield f-12-4)
(encoding (+ (f-12-4 11) Dsp-16-s8))
(ifield-assertion (eq f-12-4 11))
(getter (add Dsp-16-s8 (reg h-fb)))
(setter (nop))
)
(define-derived-operand
(name dst16-16-16-absolute-Mova-HI)
(comment "m16c addressof absolute address HI")
(attrs (ISA m16c))
(mode HI)
(args (Dsp-16-u16))
(syntax "${Dsp-16-u16}")
(base-ifield f-12-4)
(encoding (+ (f-12-4 15) Dsp-16-u16))
(ifield-assertion (eq f-12-4 15))
(getter Dsp-16-u16)
(setter (nop))
)
(define-anyof-operand
(name dst16-16-Mova-HI)
(comment "m16c addressof destination operand of size HI with additional fields at offset 16")
(attrs (machine 16))
(mode HI)
(choices
dst16-An-indirect-Mova-HI
dst16-16-8-An-relative-Mova-HI
dst16-16-16-An-relative-Mova-HI
dst16-16-8-SB-relative-Mova-HI
dst16-16-16-SB-relative-Mova-HI
dst16-16-8-FB-relative-Mova-HI
dst16-16-16-absolute-Mova-HI
)
)
(define-derived-operand
(name dst32-An-indirect-Unprefixed-Mova-SI)
(comment "m32c addressof An indirect destination SI")
(attrs (ISA m32c))
(mode SI)
(args (Dst32AnUnprefixed))
(syntax "[$Dst32AnUnprefixed]")
(base-ifield f-4-6)
(encoding
(+ (f-4-3 0) (f-8-1 0) Dst32AnUnprefixed))
(ifield-assertion
(andif (eq f-4-3 0) (eq f-8-1 0)))
(getter Dst32AnUnprefixed)
(setter (nop))
)
(define-derived-operand
(name dst32-16-8-An-relative-Unprefixed-Mova-SI)
(comment "m32c addressof dsp:8[An] relative destination SI")
(attrs (ISA m32c))
(mode SI)
(args (Dst32AnUnprefixed Dsp-16-u8))
(syntax "${Dsp-16-u8}[$Dst32AnUnprefixed]")
(base-ifield f-4-6)
(encoding
(+ (f-4-3 1)
(f-8-1 0)
Dsp-16-u8
Dst32AnUnprefixed))
(ifield-assertion
(andif (eq f-4-3 1) (eq f-8-1 0)))
(getter (add Dsp-16-u8 Dst32AnUnprefixed))
(setter (nop))
)
(define-derived-operand
(name dst32-16-16-An-relative-Unprefixed-Mova-SI)
(comment
"m32c addressof dsp:16[An] relative destination SI")
(attrs (ISA m32c))
(mode SI)
(args (Dst32AnUnprefixed Dsp-16-u16))
(syntax "${Dsp-16-u16}[$Dst32AnUnprefixed]")
(base-ifield f-4-6)
(encoding
(+ (f-4-3 2)
(f-8-1 0)
Dsp-16-u16
Dst32AnUnprefixed))
(ifield-assertion
(andif (eq f-4-3 2) (eq f-8-1 0)))
(getter (add Dsp-16-u16 Dst32AnUnprefixed))
(setter (nop))
)
(define-derived-operand
(name dst32-16-24-An-relative-Unprefixed-Mova-SI)
(comment "addressof m32c dsp:16[An] relative destination SI")
(attrs (ISA m32c))
(mode SI)
(args (Dst32AnUnprefixed Dsp-16-u24))
(syntax "${Dsp-16-u24}[$Dst32AnUnprefixed]")
(base-ifield f-4-6)
(encoding
(+ (f-4-3 3)
(f-8-1 0)
Dsp-16-u24
Dst32AnUnprefixed))
(ifield-assertion
(andif (eq f-4-3 3) (eq f-8-1 0)))
(getter (add Dsp-16-u24 Dst32AnUnprefixed))
(setter (nop))
)
(define-derived-operand
(name dst32-16-8-SB-relative-Unprefixed-Mova-SI)
(comment "m32c addressof dsp:8[sb] relative destination SI")
(attrs (ISA m32c))
(mode SI)
(args (Dsp-16-u8))
(syntax "${Dsp-16-u8}[sb]")
(base-ifield f-4-6)
(encoding (+ (f-4-3 1) (f-8-2 2) Dsp-16-u8))
(ifield-assertion
(andif (eq f-4-3 1) (eq f-8-2 2)))
(getter (add Dsp-16-u8 (reg h-sb)))
(setter (nop))
)
(define-derived-operand
(name dst32-16-16-SB-relative-Unprefixed-Mova-SI)
(comment "m32c addressof dsp:16[sb] relative destination SI")
(attrs (ISA m32c))
(mode SI)
(args (Dsp-16-u16))
(syntax "${Dsp-16-u16}[sb]")
(base-ifield f-4-6)
(encoding (+ (f-4-3 2) (f-8-2 2) Dsp-16-u16))
(ifield-assertion
(andif (eq f-4-3 2) (eq f-8-2 2)))
(getter (add Dsp-16-u16 (reg h-sb)))
(setter (nop))
)
(define-derived-operand
(name dst32-16-8-FB-relative-Unprefixed-Mova-SI)
(comment "m32c addressof dsp:8[fb] relative destination SI")
(attrs (ISA m32c))
(mode SI)
(args (Dsp-16-s8))
(syntax "${Dsp-16-s8}[fb]")
(base-ifield f-4-6)
(encoding (+ (f-4-3 1) (f-8-2 3) Dsp-16-s8))
(ifield-assertion
(andif (eq f-4-3 1) (eq f-8-2 3)))
(getter (add Dsp-16-s8 (reg h-fb)))
(setter (nop))
)
(define-derived-operand
(name dst32-16-16-FB-relative-Unprefixed-Mova-SI)
(comment "m32c addressof dsp:16[fb] relative destination SI")
(attrs (ISA m32c))
(mode SI)
(args (Dsp-16-s16))
(syntax "${Dsp-16-s16}[fb]")
(base-ifield f-4-6)
(encoding (+ (f-4-3 2) (f-8-2 3) Dsp-16-s16))
(ifield-assertion
(andif (eq f-4-3 2) (eq f-8-2 3)))
(getter (add Dsp-16-s16 (reg h-fb)))
(setter (nop))
)
(define-derived-operand
(name dst32-16-16-absolute-Unprefixed-Mova-SI)
(comment "m32c addressof absolute address SI") (attrs (ISA m32c))
(mode SI)
(args (Dsp-16-u16))
(syntax "${Dsp-16-u16}")
(base-ifield f-4-6)
(encoding (+ (f-4-3 3) (f-8-2 3) Dsp-16-u16))
(ifield-assertion
(andif (eq f-4-3 3) (eq f-8-2 3)))
(getter Dsp-16-u16)
(setter (nop))
)
(define-derived-operand
(name dst32-16-24-absolute-Unprefixed-Mova-SI)
(comment "m32c addressof absolute address SI") (attrs (ISA m32c))
(mode SI)
(args (Dsp-16-u24))
(syntax "${Dsp-16-u24}")
(base-ifield f-4-6)
(encoding (+ (f-4-3 3) (f-8-2 2) Dsp-16-u24))
(ifield-assertion
(andif (eq f-4-3 3) (eq f-8-2 2)))
(getter Dsp-16-u24)
(setter (nop))
)
(define-anyof-operand
(name dst32-16-Unprefixed-Mova-SI)
(comment
"m32c addressof destination operand of size SI with additional fields at offset 16")
(attrs (ISA m32c))
(mode SI)
(choices
dst32-An-indirect-Unprefixed-Mova-SI
dst32-16-8-An-relative-Unprefixed-Mova-SI
dst32-16-16-An-relative-Unprefixed-Mova-SI
dst32-16-24-An-relative-Unprefixed-Mova-SI
dst32-16-8-SB-relative-Unprefixed-Mova-SI
dst32-16-16-SB-relative-Unprefixed-Mova-SI
dst32-16-8-FB-relative-Unprefixed-Mova-SI
dst32-16-16-FB-relative-Unprefixed-Mova-SI
dst32-16-16-absolute-Unprefixed-Mova-SI
dst32-16-24-absolute-Unprefixed-Mova-SI))
(define-pmacro (dst32-16-operand xmode)
(begin
(define-anyof-operand
(name (.sym dst32-16-Unprefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with additional fields at offset 16"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-Rn-direct-Unprefixed- xmode)
(.sym dst32-An-direct-Unprefixed- xmode)
(.sym dst32-An-indirect-Unprefixed- xmode)
(.sym dst32-16-8-An-relative-Unprefixed- xmode)
(.sym dst32-16-16-An-relative-Unprefixed- xmode)
(.sym dst32-16-24-An-relative-Unprefixed- xmode)
(.sym dst32-16-8-SB-relative-Unprefixed- xmode)
(.sym dst32-16-16-SB-relative-Unprefixed- xmode)
(.sym dst32-16-8-FB-relative-Unprefixed- xmode)
(.sym dst32-16-16-FB-relative-Unprefixed- xmode)
(.sym dst32-16-16-absolute-Unprefixed- xmode)
(.sym dst32-16-24-absolute-Unprefixed- xmode)
)
)
(define-anyof-operand
(name (.sym dst32-16-8-Unprefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with additional fields at offset 16"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-16-8-An-relative-Unprefixed- xmode)
(.sym dst32-16-8-SB-relative-Unprefixed- xmode)
(.sym dst32-16-8-FB-relative-Unprefixed- xmode)
)
)
(define-anyof-operand
(name (.sym dst32-16-16-Unprefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with additional fields at offset 16"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-16-16-An-relative-Unprefixed- xmode)
(.sym dst32-16-16-SB-relative-Unprefixed- xmode)
(.sym dst32-16-16-FB-relative-Unprefixed- xmode)
(.sym dst32-16-16-absolute-Unprefixed- xmode)
)
)
(define-anyof-operand
(name (.sym dst32-16-16sa-Unprefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with additional fields at offset 16"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-16-16-SB-relative-Unprefixed- xmode)
(.sym dst32-16-16-FB-relative-Unprefixed- xmode)
(.sym dst32-16-16-absolute-Unprefixed- xmode)
)
)
(define-anyof-operand
(name (.sym dst32-16-24-Unprefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with additional fields at offset 16"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-16-24-An-relative-Unprefixed- xmode)
(.sym dst32-16-24-absolute-Unprefixed- xmode)
)
)
)
)
(dst32-16-operand QI)
(dst32-16-operand HI)
(dst32-16-operand SI)
(define-pmacro (dst32-16-Ext-operand smode dmode)
(begin
(define-anyof-operand
(name (.sym dst32-16-ExtUnprefixed- smode))
(comment (.str "m32c destination operand of size " smode " with additional fields at offset 16"))
(attrs (machine 32))
(mode dmode)
(choices
(.sym dst32-Rn-direct-ExtUnprefixed- smode)
(.sym dst32-An-direct-Unprefixed- dmode) ; ExtUnprefixed mode not required for this operand -- use the normal dmode version
(.sym dst32-An-indirect-ExtUnprefixed- smode)
(.sym dst32-16-8-An-relative-ExtUnprefixed- smode)
(.sym dst32-16-16-An-relative-ExtUnprefixed- smode)
(.sym dst32-16-24-An-relative-ExtUnprefixed- smode)
(.sym dst32-16-8-SB-relative-ExtUnprefixed- smode)
(.sym dst32-16-16-SB-relative-ExtUnprefixed- smode)
(.sym dst32-16-8-FB-relative-ExtUnprefixed- smode)
(.sym dst32-16-16-FB-relative-ExtUnprefixed- smode)
(.sym dst32-16-16-absolute-ExtUnprefixed- smode)
(.sym dst32-16-24-absolute-ExtUnprefixed- smode)
)
)
)
)
(dst32-16-Ext-operand QI HI)
(dst32-16-Ext-operand HI SI)
(define-anyof-operand
(name dst32-16-Unprefixed-Mulex-HI)
(comment "m32c destination operand of size HI with additional fields at offset 16")
(attrs (machine 32))
(mode HI)
(choices
dst32-R3-direct-Unprefixed-HI
dst32-An-direct-Unprefixed-HI
dst32-An-indirect-Unprefixed-HI
dst32-16-8-An-relative-Unprefixed-HI
dst32-16-16-An-relative-Unprefixed-HI
dst32-16-24-An-relative-Unprefixed-HI
dst32-16-8-SB-relative-Unprefixed-HI
dst32-16-16-SB-relative-Unprefixed-HI
dst32-16-8-FB-relative-Unprefixed-HI
dst32-16-16-FB-relative-Unprefixed-HI
dst32-16-16-absolute-Unprefixed-HI
dst32-16-24-absolute-Unprefixed-HI
)
)
;-------------------------------------------------------------
; Destination operands with possible additional fields at offset 24 bits
;-------------------------------------------------------------
(define-pmacro (dst16-24-operand xmode)
(begin
(define-anyof-operand
(name (.sym dst16-24- xmode))
(comment (.str "m16c destination operand of size " xmode " with additional fields at offset 24"))
(attrs (machine 16))
(mode xmode)
(choices
(.sym dst16-Rn-direct- xmode)
(.sym dst16-An-direct- xmode)
(.sym dst16-An-indirect- xmode)
(.sym dst16-24-8-An-relative- xmode)
(.sym dst16-24-16-An-relative- xmode)
(.sym dst16-24-8-SB-relative- xmode)
(.sym dst16-24-16-SB-relative- xmode)
(.sym dst16-24-8-FB-relative- xmode)
(.sym dst16-24-16-absolute- xmode)
)
)
)
)
(dst16-24-operand QI)
(dst16-24-operand HI)
(define-pmacro (dst32-24-operand xmode)
(begin
(define-anyof-operand
(name (.sym dst32-24-Unprefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with additional fields at offset 24"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-Rn-direct-Unprefixed- xmode)
(.sym dst32-An-direct-Unprefixed- xmode)
(.sym dst32-An-indirect-Unprefixed- xmode)
(.sym dst32-24-8-An-relative-Unprefixed- xmode)
(.sym dst32-24-16-An-relative-Unprefixed- xmode)
(.sym dst32-24-24-An-relative-Unprefixed- xmode)
(.sym dst32-24-8-SB-relative-Unprefixed- xmode)
(.sym dst32-24-16-SB-relative-Unprefixed- xmode)
(.sym dst32-24-8-FB-relative-Unprefixed- xmode)
(.sym dst32-24-16-FB-relative-Unprefixed- xmode)
(.sym dst32-24-16-absolute-Unprefixed- xmode)
(.sym dst32-24-24-absolute-Unprefixed- xmode)
)
)
(define-anyof-operand
(name (.sym dst32-24-Prefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with additional fields at offset 24"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-Rn-direct-Prefixed- xmode)
(.sym dst32-An-direct-Prefixed- xmode)
(.sym dst32-An-indirect-Prefixed- xmode)
(.sym dst32-24-8-An-relative-Prefixed- xmode)
(.sym dst32-24-16-An-relative-Prefixed- xmode)
(.sym dst32-24-24-An-relative-Prefixed- xmode)
(.sym dst32-24-8-SB-relative-Prefixed- xmode)
(.sym dst32-24-16-SB-relative-Prefixed- xmode)
(.sym dst32-24-8-FB-relative-Prefixed- xmode)
(.sym dst32-24-16-FB-relative-Prefixed- xmode)
(.sym dst32-24-16-absolute-Prefixed- xmode)
(.sym dst32-24-24-absolute-Prefixed- xmode)
)
)
(define-anyof-operand
(name (.sym dst32-24-8-Prefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with additional fields at offset 24"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-24-8-An-relative-Prefixed- xmode)
(.sym dst32-24-8-SB-relative-Prefixed- xmode)
(.sym dst32-24-8-FB-relative-Prefixed- xmode)
)
)
(define-anyof-operand
(name (.sym dst32-24-16-Prefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with additional fields at offset 24"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-24-16-An-relative-Prefixed- xmode)
(.sym dst32-24-16-SB-relative-Prefixed- xmode)
(.sym dst32-24-16-FB-relative-Prefixed- xmode)
(.sym dst32-24-16-absolute-Prefixed- xmode)
)
)
(define-anyof-operand
(name (.sym dst32-24-24-Prefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with additional fields at offset 24"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-24-24-An-relative-Prefixed- xmode)
(.sym dst32-24-24-absolute-Prefixed- xmode)
)
)
; (define-anyof-operand
; (name (.sym dst32-24-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " with additional fields at offset 24"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32-An-indirect-indirect- xmode)
; (.sym dst32-24-8-An-relative-indirect- xmode)
; (.sym dst32-24-16-An-relative-indirect- xmode)
; (.sym dst32-24-24-An-relative-indirect- xmode)
; (.sym dst32-24-8-SB-relative-indirect- xmode)
; (.sym dst32-24-16-SB-relative-indirect- xmode)
; (.sym dst32-24-8-FB-relative-indirect- xmode)
; (.sym dst32-24-16-FB-relative-indirect- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym dst32-basic-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " with no additional fields"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32-An-indirect-indirect- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym dst32-24-8-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " with additional fields at offset 24"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32-24-8-An-relative-indirect- xmode)
; (.sym dst32-24-8-SB-relative-indirect- xmode)
; (.sym dst32-24-8-FB-relative-indirect- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym dst32-24-16-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " with additional fields at offset 24"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32-24-16-An-relative-indirect- xmode)
; (.sym dst32-24-16-SB-relative-indirect- xmode)
; (.sym dst32-24-16-FB-relative-indirect- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym dst32-24-24-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " with additional fields at offset 24"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32-24-24-An-relative-indirect- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym dst32-24-absolute-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " absolute indirect"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32-24-16-absolute-indirect-derived- xmode)
; (.sym dst32-24-24-absolute-indirect-derived- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym dst32-24-16-absolute-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " absolute indirect"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32-24-16-absolute-indirect-derived- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym dst32-24-24-absolute-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " absolute indirect"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32-24-24-absolute-indirect-derived- xmode)
; )
; )
)
)
(dst32-24-operand QI)
(dst32-24-operand HI)
(dst32-24-operand SI)
;-------------------------------------------------------------
; Destination operands with possible additional fields at offset 32 bits
;-------------------------------------------------------------
(define-pmacro (dst16-32-operand xmode)
(begin
(define-anyof-operand
(name (.sym dst16-32- xmode))
(comment (.str "m16c destination operand of size " xmode " with additional fields at offset 32"))
(attrs (machine 16))
(mode xmode)
(choices
(.sym dst16-Rn-direct- xmode)
(.sym dst16-An-direct- xmode)
(.sym dst16-An-indirect- xmode)
(.sym dst16-32-8-An-relative- xmode)
(.sym dst16-32-16-An-relative- xmode)
(.sym dst16-32-8-SB-relative- xmode)
(.sym dst16-32-16-SB-relative- xmode)
(.sym dst16-32-8-FB-relative- xmode)
(.sym dst16-32-16-absolute- xmode)
)
)
)
)
(dst16-32-operand QI)
(dst16-32-operand HI)
; This macro actually handles operands at offset 32, 40 and 48 bits
(define-pmacro (dst32-32plus-operand offset xmode)
(begin
(define-anyof-operand
(name (.sym dst32- offset -Unprefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with additional fields at offset 32"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-Rn-direct-Unprefixed- xmode)
(.sym dst32-An-direct-Unprefixed- xmode)
(.sym dst32-An-indirect-Unprefixed- xmode)
(.sym dst32- offset -8-An-relative-Unprefixed- xmode)
(.sym dst32- offset -16-An-relative-Unprefixed- xmode)
(.sym dst32- offset -24-An-relative-Unprefixed- xmode)
(.sym dst32- offset -8-SB-relative-Unprefixed- xmode)
(.sym dst32- offset -16-SB-relative-Unprefixed- xmode)
(.sym dst32- offset -8-FB-relative-Unprefixed- xmode)
(.sym dst32- offset -16-FB-relative-Unprefixed- xmode)
(.sym dst32- offset -16-absolute-Unprefixed- xmode)
(.sym dst32- offset -24-absolute-Unprefixed- xmode)
)
)
(define-anyof-operand
(name (.sym dst32- offset -Prefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with additional fields at offset 32"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-Rn-direct-Prefixed- xmode)
(.sym dst32-An-direct-Prefixed- xmode)
(.sym dst32-An-indirect-Prefixed- xmode)
(.sym dst32- offset -8-An-relative-Prefixed- xmode)
(.sym dst32- offset -16-An-relative-Prefixed- xmode)
(.sym dst32- offset -24-An-relative-Prefixed- xmode)
(.sym dst32- offset -8-SB-relative-Prefixed- xmode)
(.sym dst32- offset -16-SB-relative-Prefixed- xmode)
(.sym dst32- offset -8-FB-relative-Prefixed- xmode)
(.sym dst32- offset -16-FB-relative-Prefixed- xmode)
(.sym dst32- offset -16-absolute-Prefixed- xmode)
(.sym dst32- offset -24-absolute-Prefixed- xmode)
)
)
; (define-anyof-operand
; (name (.sym dst32- offset -indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " with additional fields at offset 32"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32-An-indirect-indirect- xmode)
; (.sym dst32- offset -8-An-relative-indirect- xmode)
; (.sym dst32- offset -16-An-relative-indirect- xmode)
; (.sym dst32- offset -24-An-relative-indirect- xmode)
; (.sym dst32- offset -8-SB-relative-indirect- xmode)
; (.sym dst32- offset -16-SB-relative-indirect- xmode)
; (.sym dst32- offset -8-FB-relative-indirect- xmode)
; (.sym dst32- offset -16-FB-relative-indirect- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym dst32- offset -absolute-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " absolute indirect"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32- offset -16-absolute-indirect-derived- xmode)
; (.sym dst32- offset -24-absolute-indirect-derived- xmode)
; )
; )
)
)
(dst32-32plus-operand 32 QI)
(dst32-32plus-operand 32 HI)
(dst32-32plus-operand 32 SI)
(dst32-32plus-operand 40 QI)
(dst32-32plus-operand 40 HI)
(dst32-32plus-operand 40 SI)
;-------------------------------------------------------------
; Destination operands with possible additional fields at offset 48 bits
;-------------------------------------------------------------
(define-pmacro (dst32-48-operand offset xmode)
(begin
(define-anyof-operand
(name (.sym dst32- offset -Prefixed- xmode))
(comment (.str "m32c destination operand of size " xmode " with additional fields at offset 32"))
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-Rn-direct-Prefixed- xmode)
(.sym dst32-An-direct-Prefixed- xmode)
(.sym dst32-An-indirect-Prefixed- xmode)
(.sym dst32- offset -8-An-relative-Prefixed- xmode)
(.sym dst32- offset -16-An-relative-Prefixed- xmode)
(.sym dst32- offset -24-An-relative-Prefixed- xmode)
(.sym dst32- offset -8-SB-relative-Prefixed- xmode)
(.sym dst32- offset -16-SB-relative-Prefixed- xmode)
(.sym dst32- offset -8-FB-relative-Prefixed- xmode)
(.sym dst32- offset -16-FB-relative-Prefixed- xmode)
(.sym dst32- offset -16-absolute-Prefixed- xmode)
(.sym dst32- offset -24-absolute-Prefixed- xmode)
)
)
; (define-anyof-operand
; (name (.sym dst32- offset -indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " with additional fields at offset 32"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32-An-indirect-indirect- xmode)
; (.sym dst32- offset -8-An-relative-indirect- xmode)
; (.sym dst32- offset -16-An-relative-indirect- xmode)
; (.sym dst32- offset -24-An-relative-indirect- xmode)
; (.sym dst32- offset -8-SB-relative-indirect- xmode)
; (.sym dst32- offset -16-SB-relative-indirect- xmode)
; (.sym dst32- offset -8-FB-relative-indirect- xmode)
; (.sym dst32- offset -16-FB-relative-indirect- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym dst32- offset -absolute-indirect- xmode))
; (comment (.str "m32c destination operand of size " xmode " absolute indirect"))
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32- offset -16-absolute-indirect-derived- xmode)
; (.sym dst32- offset -24-absolute-indirect-derived- xmode)
; )
; )
)
)
(dst32-48-operand 48 QI)
(dst32-48-operand 48 HI)
(dst32-48-operand 48 SI)
;-------------------------------------------------------------
; Bit operands for m16c
;-------------------------------------------------------------
(define-pmacro (bit16-operand offset)
(begin
(define-anyof-operand
(name (.sym bit16- offset))
(comment (.str "m16c bit operand with possible additional fields at offset 24"))
(attrs (machine 16))
(mode BI)
(choices
bit16-Rn-direct
bit16-An-direct
bit16-An-indirect
(.sym bit16- offset -8-An-relative)
(.sym bit16- offset -16-An-relative)
(.sym bit16- offset -8-SB-relative)
(.sym bit16- offset -16-SB-relative)
(.sym bit16- offset -8-FB-relative)
(.sym bit16- offset -16-absolute)
)
)
(define-anyof-operand
(name (.sym bit16- offset -basic))
(comment (.str "m16c bit operand with no additional fields"))
(attrs (machine 16))
(mode BI)
(choices
bit16-An-indirect
)
)
(define-anyof-operand
(name (.sym bit16- offset -8))
(comment (.str "m16c bit operand with possible additional fields at offset 24"))
(attrs (machine 16))
(mode BI)
(choices
bit16-Rn-direct
bit16-An-direct
(.sym bit16- offset -8-An-relative)
(.sym bit16- offset -8-SB-relative)
(.sym bit16- offset -8-FB-relative)
)
)
(define-anyof-operand
(name (.sym bit16- offset -16))
(comment (.str "m16c bit operand with possible additional fields at offset 24"))
(attrs (machine 16))
(mode BI)
(choices
(.sym bit16- offset -16-An-relative)
(.sym bit16- offset -16-SB-relative)
(.sym bit16- offset -16-absolute)
)
)
)
)
(bit16-operand 16)
;-------------------------------------------------------------
; Bit operands for m32c
;-------------------------------------------------------------
(define-pmacro (bit32-operand offset group)
(begin
(define-anyof-operand
(name (.sym bit32- offset - group))
(comment (.str "m32c bit operand with possible additional fields at offset 24"))
(attrs (machine 32))
(mode BI)
(choices
(.sym bit32-Rn-direct- group)
(.sym bit32-An-direct- group)
(.sym bit32-An-indirect- group)
(.sym bit32- offset -11-An-relative- group)
(.sym bit32- offset -19-An-relative- group)
(.sym bit32- offset -27-An-relative- group)
(.sym bit32- offset -11-SB-relative- group)
(.sym bit32- offset -19-SB-relative- group)
(.sym bit32- offset -11-FB-relative- group)
(.sym bit32- offset -19-FB-relative- group)
(.sym bit32- offset -19-absolute- group)
(.sym bit32- offset -27-absolute- group)
)
)
)
)
(bit32-operand 16 Unprefixed)
(bit32-operand 24 Prefixed)
(define-anyof-operand
(name bit32-basic-Unprefixed)
(comment "m32c bit operand with no additional fields")
(attrs (machine 32))
(mode BI)
(choices
bit32-Rn-direct-Unprefixed
bit32-An-direct-Unprefixed
bit32-An-indirect-Unprefixed
)
)
(define-anyof-operand
(name bit32-16-8-Unprefixed)
(comment "m32c bit operand with 8 bit additional fields")
(attrs (machine 32))
(mode BI)
(choices
bit32-16-11-An-relative-Unprefixed
bit32-16-11-SB-relative-Unprefixed
bit32-16-11-FB-relative-Unprefixed
)
)
(define-anyof-operand
(name bit32-16-16-Unprefixed)
(comment "m32c bit operand with 16 bit additional fields")
(attrs (machine 32))
(mode BI)
(choices
bit32-16-19-An-relative-Unprefixed
bit32-16-19-SB-relative-Unprefixed
bit32-16-19-FB-relative-Unprefixed
bit32-16-19-absolute-Unprefixed
)
)
(define-anyof-operand
(name bit32-16-24-Unprefixed)
(comment "m32c bit operand with 24 bit additional fields")
(attrs (machine 32))
(mode BI)
(choices
bit32-16-27-An-relative-Unprefixed
bit32-16-27-absolute-Unprefixed
)
)
;-------------------------------------------------------------
; Operands for short format binary insns
;-------------------------------------------------------------
(define-anyof-operand
(name src16-2-S)
(comment "m16c source operand of size QI for short format insns")
(attrs (machine 16))
(mode QI)
(choices
src16-2-S-8-SB-relative-QI
src16-2-S-8-FB-relative-QI
src16-2-S-16-absolute-QI
)
)
(define-anyof-operand
(name src32-2-S-QI)
(comment "m32c source operand of size QI for short format insns")
(attrs (machine 32))
(mode QI)
(choices
src32-2-S-8-SB-relative-QI
src32-2-S-8-FB-relative-QI
src32-2-S-16-absolute-QI
)
)
(define-anyof-operand
(name src32-2-S-HI)
(comment "m32c source operand of size QI for short format insns")
(attrs (machine 32))
(mode HI)
(choices
src32-2-S-8-SB-relative-HI
src32-2-S-8-FB-relative-HI
src32-2-S-16-absolute-HI
)
)
(define-anyof-operand
(name Dst16-3-S-8)
(comment "m16c destination operand of size QI for short format insns")
(attrs (machine 16))
(mode QI)
(choices
dst16-3-S-R0l-direct-QI
dst16-3-S-R0h-direct-QI
dst16-3-S-8-8-SB-relative-QI
dst16-3-S-8-8-FB-relative-QI
dst16-3-S-8-16-absolute-QI
)
)
(define-anyof-operand
(name Dst16-3-S-16)
(comment "m16c destination operand of size QI for short format insns")
(attrs (machine 16))
(mode QI)
(choices
dst16-3-S-R0l-direct-QI
dst16-3-S-R0h-direct-QI
dst16-3-S-16-8-SB-relative-QI
dst16-3-S-16-8-FB-relative-QI
dst16-3-S-16-16-absolute-QI
)
)
(define-anyof-operand
(name srcdst16-r0l-r0h-S)
(comment "m16c r0l/r0h operand of size QI for short format insns")
(attrs (machine 16))
(mode SI)
(choices
srcdst16-r0l-r0h-S-derived
)
)
(define-anyof-operand
(name dst32-2-S-basic-QI)
(comment "m32c r0l operand of size QI for short format binary insns")
(attrs (machine 32))
(mode QI)
(choices
dst32-2-S-R0l-direct-QI
)
)
(define-anyof-operand
(name dst32-2-S-basic-HI)
(comment "m32c r0 operand of size HI for short format binary insns")
(attrs (machine 32))
(mode HI)
(choices
dst32-2-S-R0-direct-HI
)
)
(define-pmacro (dst32-2-S-operands xmode)
(begin
(define-anyof-operand
(name (.sym dst32-2-S-8- xmode))
(comment "m32c operand of size " xmode " for short format binary insns")
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-2-S-8-SB-relative- xmode)
(.sym dst32-2-S-8-FB-relative- xmode)
)
)
(define-anyof-operand
(name (.sym dst32-2-S-16- xmode))
(comment "m32c operand of size " xmode " for short format binary insns")
(attrs (machine 32))
(mode xmode)
(choices
(.sym dst32-2-S-16-absolute- xmode)
)
)
; (define-anyof-operand
; (name (.sym dst32-2-S-8-indirect- xmode))
; (comment "m32c operand of size " xmode " for short format binary insns")
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32-2-S-8-SB-relative-indirect- xmode)
; (.sym dst32-2-S-8-FB-relative-indirect- xmode)
; )
; )
; (define-anyof-operand
; (name (.sym dst32-2-S-absolute-indirect- xmode))
; (comment "m32c operand of size " xmode " for short format binary insns")
; (attrs (machine 32))
; (mode xmode)
; (choices
; (.sym dst32-2-S-16-absolute-indirect- xmode)
; )
; )
)
)
(dst32-2-S-operands QI)
(dst32-2-S-operands HI)
(dst32-2-S-operands SI)
(define-anyof-operand
(name dst32-an-S)
(comment "m32c An operand for short format binary insns")
(attrs (machine 32))
(mode HI)
(choices
dst32-1-S-A0-direct-HI
dst32-1-S-A1-direct-HI
)
)
(define-anyof-operand
(name bit16-11-S)
(comment "m16c bit operand for short format insns")
(attrs (machine 16))
(mode BI)
(choices
bit16-11-SB-relative-S
)
)
(define-anyof-operand
(name Rn16-push-S-anyof)
(comment "m16c bit operand for short format insns")
(attrs (machine 16))
(mode QI)
(choices
Rn16-push-S-derived
)
)
(define-anyof-operand
(name An16-push-S-anyof)
(comment "m16c bit operand for short format insns")
(attrs (machine 16))
(mode HI)
(choices
An16-push-S-derived
)
)
;=============================================================
; Common macros for instruction definitions
;
(define-pmacro (set-z x)
(sequence ()
(set zbit (zflag x)))
)
(define-pmacro (set-s x)
(sequence ()
(set sbit (nflag x)))
)
(define-pmacro (set-z-and-s x)
(sequence ()
(set-z x)
(set-s x))
)
;=============================================================
; Unary insn macros
;-------------------------------------------------------------
(define-pmacro (unary-insn-defn-g mach group mode wstr op encoding sem opg)
(dni (.sym op mach wstr - group)
(.str op wstr opg " dst" mach "-" group "-" mode)
((machine mach) RL_1ADDR)
(.str op wstr opg " ${dst" mach "-" group "-" mode "}")
encoding
(sem mode (.sym dst mach - group - mode))
())
)
(define-pmacro (unary-insn-defn mach group mode wstr op encoding sem)
(unary-insn-defn-g mach group mode wstr op encoding sem "")
)
(define-pmacro (unary16-defn-g mode wstr wbit op opc1 opc2 opc3 sem opg)
(unary-insn-defn-g 16 16 mode wstr op
(+ opc1 opc2 (f-7-1 wbit) opc3 (.sym dst16-16- mode))
sem opg)
)
(define-pmacro (unary16-defn mode wstr wbit op opc1 opc2 opc3 sem)
(unary-16-defn-g mode wstr wbit op opc1 opc2 opc3 sem "")
)
(define-pmacro (unary32-defn-g mode wstr wbit op opc1 opc2 opc3 sem opg)
(begin
; Multi insns are tried for assembly in the reverse order in which they appear here, so
; define the absolute-indirect insns first in order to prevent them from being selected
; when the mode is register-indirect
; (unary-insn-defn 32 24-absolute-indirect mode wstr op
; (+ (f-0-4 0) (f-4-4 9) (f-8-4 opc1) (f-15-1 wbit) (.sym dst32-24-absolute-indirect- mode) (f-18-2 opc2) (f-20-4 opc3))
; sem)
(unary-insn-defn-g 32 16-Unprefixed mode wstr op
(+ (f-0-4 opc1) (f-7-1 wbit) (.sym dst32-16-Unprefixed- mode) (f-10-2 opc2) (f-12-4 opc3))
sem opg)
; (unary-insn-defn 32 24-indirect mode wstr op
; (+ (f-0-4 0) (f-4-4 9) (f-8-4 opc1) (f-15-1 wbit) (.sym dst32-24-indirect- mode) (f-18-2 opc2) (f-20-4 opc3))
; sem)
)
)
(define-pmacro (unary32-defn mode wstr wbit op opc1 opc2 opc3 sem)
(unary32-defn-g mode wstr wbit op opc1 opc2 opc3 sem "")
)
(define-pmacro (unary-insn-mach-g mach op opc1 opc2 opc3 sem opg)
(begin
(.apply (.sym unary mach -defn-g) (QI .b 0 op opc1 opc2 opc3 sem opg))
(.apply (.sym unary mach -defn-g) (HI .w 1 op opc1 opc2 opc3 sem opg))
)
)
(define-pmacro (unary-insn-mach mach op opc1 opc2 opc3 sem)
(unary-insn-mach-g mach op opc1 opc2 opc3 sem "")
)
(define-pmacro (unary-insn op opc16-1 opc16-2 opc16-3 opc32-1 opc32-2 opc32-3 sem)
(begin
(unary-insn-mach-g 16 op opc16-1 opc16-2 opc16-3 sem "")
(unary-insn-mach-g 32 op opc32-1 opc32-2 opc32-3 sem "")
)
)
(define-pmacro (unary-insn-g op opc16-1 opc16-2 opc16-3 opc32-1 opc32-2 opc32-3 sem)
(begin
(unary-insn-mach-g 16 op opc16-1 opc16-2 opc16-3 sem "$G")
(unary-insn-mach-g 32 op opc32-1 opc32-2 opc32-3 sem "$G")
)
)
;-------------------------------------------------------------
; Sign/zero extension macros
;-------------------------------------------------------------
(define-pmacro (ext-insn-defn mach group smode dmode wstr op encoding sem)
(dni (.sym op mach wstr - group)
(.str op wstr " dst" mach "-" group "-" smode)
((machine mach))
(.str op wstr " ${dst" mach "-" group "-" smode "}")
encoding
(sem smode dmode (.sym dst mach - group - smode) (.sym dst mach - group - smode))
())
)
(define-pmacro (ext16-defn smode dmode wstr wbit op opc1 opc2 opc3 sem)
(ext-insn-defn 16 16-Ext smode dmode wstr op
(+ opc1 opc2 (f-7-1 wbit) opc3 (.sym dst16-16-Ext- smode))
sem)
)
(define-pmacro (ext32-defn smode dmode wstr wbit op opc1 opc2 opc3 sem)
(ext-insn-defn 32 16-ExtUnprefixed smode dmode wstr op
(+ opc1 opc2 (f-7-1 wbit) opc3 (.sym dst32-16-ExtUnprefixed- smode))
sem)
)
(define-pmacro (ext32-binary-insn src-group dst-group op wstr encoding sem)
(dni (.sym op 32 wstr - src-group - dst-group)
(.str op 32 wstr " src32-" src-group "-QI,dst32-" dst-group "-HI")
((machine 32))
(.str op wstr " ${src32-" src-group "-QI},${dst32-" dst-group "-HI}")
encoding
(sem QI HI (.sym src32- src-group -QI) (.sym dst32 - dst-group -HI))
())
)
(define-pmacro (ext32-binary-defn op wstr opc1 opc2 sem)
(begin
(ext32-binary-insn basic-ExtPrefixed 24-Prefixed op wstr
(+ (f-0-4 0) (f-4-4 1) (f-8-1 opc1) (f-15-1 0) src32-basic-ExtPrefixed-QI dst32-24-Prefixed-HI (f-20-4 opc2))
sem)
(ext32-binary-insn 24-24-Prefixed 48-Prefixed op wstr
(+ (f-0-4 0) (f-4-4 1) (f-8-1 opc1) (f-15-1 0) src32-24-24-Prefixed-QI dst32-48-Prefixed-HI (f-20-4 opc2))
sem)
(ext32-binary-insn 24-16-Prefixed 40-Prefixed op wstr
(+ (f-0-4 0) (f-4-4 1) (f-8-1 opc1) (f-15-1 0) src32-24-16-Prefixed-QI dst32-40-Prefixed-HI (f-20-4 opc2))
sem)
(ext32-binary-insn 24-8-Prefixed 32-Prefixed op wstr
(+ (f-0-4 0) (f-4-4 1) (f-8-1 opc1) (f-15-1 0) src32-24-8-Prefixed-QI dst32-32-Prefixed-HI (f-20-4 opc2))
sem)
)
)
;=============================================================
; Binary Arithmetic macros
;
;-------------------------------------------------------------
;<arith>.size:S src2,r0[l] -- for m32c
;-------------------------------------------------------------
(define-pmacro (binary-arith32-S-src2 op xmode wstr wbit opc1 opc2 sem)
(dni (.sym op 32 wstr .S-src2-r0- xmode)
(.str op 32 wstr ":S src2,r0[l]")
((machine 32))
(.str op wstr"$S ${src32-2-S-" xmode "},${Dst32R0" xmode "-S}")
(+ opc1 opc2 (.sym src32-2-S- xmode) (f-7-1 wbit))
(sem xmode (.sym src32-2-S- xmode) (.sym Dst32R0 xmode -S))
())
)
;-------------------------------------------------------------
;<arith>.b:S src2,r0l/r0h -- for m16c
;-------------------------------------------------------------
(define-pmacro (binary-arith16-b-S-src2 op opc1 opc2 sem)
(begin
(dni (.sym op 16 .b.S-src2)
(.str op ".b:S src2,r0[lh]")
((machine 16))
(.str op ".b$S ${src16-2-S},${Dst16RnQI-S}")
(+ opc1 opc2 Dst16RnQI-S src16-2-S)
(sem QI src16-2-S Dst16RnQI-S)
())
(dni (.sym op 16 .b.S-r0l-r0h)
(.str op ".b:S r0l/r0h")
((machine 16))
(.str op ".b$S ${srcdst16-r0l-r0h-S}")
(+ opc1 opc2 srcdst16-r0l-r0h-S)
(if (eq srcdst16-r0l-r0h-S 0)
(sem QI R0h R0l)
(sem QI R0l R0h))
())
)
)
;-------------------------------------------------------------
;<arith>.b:S #imm8,dst3 -- for m16c
;-------------------------------------------------------------
(define-pmacro (binary-arith16-b-S-imm8-dst3 op sz opc1 opc2 sem)
(dni (.sym op 16 .b.S-imm8-dst3)
(.str op sz ":S imm8,dst3")
((machine 16))
(.str op sz "$S #${Imm-8-QI},${Dst16-3-S-16}")
(+ opc1 opc2 Dst16-3-S-16 Imm-8-QI)
(sem QI Imm-8-QI Dst16-3-S-16)
())
)
;-------------------------------------------------------------
;<arith>.size:Q #imm4,sp -- for m16c
;-------------------------------------------------------------
(define-pmacro (binary-arith16-Q-sp op opc1 opc2 opc3 sem)
(dni (.sym op 16 -wQ-sp)
(.str op ".w:q #imm4,sp")
((machine 16))
(.str op ".w$Q #${Imm-12-s4},sp")
(+ opc1 opc2 opc3 Imm-12-s4)
(sem QI Imm-12-s4 sp)
())
)
;-------------------------------------------------------------
;<arith>.size:G #imm,sp -- for m16c
;-------------------------------------------------------------
(define-pmacro (binary-arith16-G-sp-defn mode wstr wbit op opc1 opc2 opc3 opc4 sem)
(dni (.sym op 16 wstr - G-sp)
(.str op wstr " imm-sp " mode)
((machine 16))
(.str op wstr "$G #${Imm-16-" mode "},sp")
(+ opc1 opc2 (f-7-1 wbit) opc3 opc4 (.sym Imm-16- mode))
(sem mode (.sym Imm-16- mode) sp)
())
)
(define-pmacro (binary-arith16-G-sp op opc1 opc2 opc3 opc4 sem)
(begin
(binary-arith16-G-sp-defn QI .b 0 op opc1 opc2 opc3 opc4 sem)
(binary-arith16-G-sp-defn HI .w 1 op opc1 opc2 opc3 opc4 sem)
)
)
;-------------------------------------------------------------
;<arith>.size:G #imm,dst -- for m16c and m32c
;-------------------------------------------------------------
(define-pmacro (binary-arith-imm-dst-defn mach src dstgroup dmode wstr op suffix encoding sem)
(dni (.sym op mach wstr - imm-G - dstgroup)
(.str op wstr " " mach "-imm-G-" dstgroup "-" dmode)
((machine mach) RL_1ADDR)
(.str op wstr "$"suffix " #${" src "},${dst" mach "-" dstgroup "-" dmode "}")
encoding
(sem dmode src (.sym dst mach - dstgroup - dmode))
())
)
; m16c variants
(define-pmacro (binary-arith16-imm-dst-defn smode dmode wstr wbit op suffix opc1 opc2 opc3 sem)
(begin
(binary-arith-imm-dst-defn 16 (.sym Imm-32- smode) 16-16 dmode wstr op suffix
(+ opc1 opc2 (f-7-1 wbit) opc3 (.sym dst16-16-16- dmode) (.sym Imm-32- smode))
sem)
(binary-arith-imm-dst-defn 16 (.sym Imm-24- smode) 16-8 dmode wstr op suffix
(+ opc1 opc2 (f-7-1 wbit) opc3 (.sym dst16-16-8- dmode) (.sym Imm-24- smode))
sem)
(binary-arith-imm-dst-defn 16 (.sym Imm-16- smode) basic dmode wstr op suffix
(+ opc1 opc2 (f-7-1 wbit) opc3 (.sym dst16-basic- dmode) (.sym Imm-16- smode))
sem)
)
)
; m32c Unprefixed variants
(define-pmacro (binary-arith32-imm-dst-Unprefixed smode dmode wstr wbit op suffix opc1 opc2 opc3 sem)
(begin
(binary-arith-imm-dst-defn 32 (.sym Imm-40- smode) 16-24-Unprefixed dmode wstr op suffix
(+ (f-0-4 opc1) (f-10-2 opc2) (f-7-1 wbit) (f-12-4 opc3) (.sym dst32-16-24-Unprefixed- dmode) (.sym Imm-40- smode))
sem)
(binary-arith-imm-dst-defn 32 (.sym Imm-32- smode) 16-16-Unprefixed dmode wstr op suffix
(+ (f-0-4 opc1) (f-10-2 opc2) (f-7-1 wbit) (f-12-4 opc3) (.sym dst32-16-16-Unprefixed- dmode) (.sym Imm-32- smode))
sem)
(binary-arith-imm-dst-defn 32 (.sym Imm-24- smode) 16-8-Unprefixed dmode wstr op suffix
(+ (f-0-4 opc1) (f-10-2 opc2) (f-7-1 wbit) (f-12-4 opc3) (.sym dst32-16-8-Unprefixed- dmode) (.sym Imm-24- smode))
sem)
(binary-arith-imm-dst-defn 32 (.sym Imm-16- smode) basic-Unprefixed dmode wstr op suffix
(+ (f-0-4 opc1) (f-10-2 opc2) (f-7-1 wbit) (f-12-4 opc3) (.sym dst32-basic-Unprefixed- dmode) (.sym Imm-16- smode))
sem)
)
)
; m32c Prefixed variants
(define-pmacro (binary-arith32-imm-dst-Prefixed smode dmode wstr wbit op suffix opc1 opc2 opc3 sem)
(begin
(binary-arith-imm-dst-defn 32 (.sym Imm-48- smode) 24-24-Prefixed dmode wstr op suffix
(+ (f-0-4 0) (f-4-4 1) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3) (.sym dst32-24-24-Prefixed- dmode) (.sym Imm-48- smode))
sem)
(binary-arith-imm-dst-defn 32 (.sym Imm-40- smode) 24-16-Prefixed dmode wstr op suffix
(+ (f-0-4 0) (f-4-4 1) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3) (.sym dst32-24-16-Prefixed- dmode) (.sym Imm-40- smode))
sem)
(binary-arith-imm-dst-defn 32 (.sym Imm-32- smode) 24-8-Prefixed dmode wstr op suffix
(+ (f-0-4 0) (f-4-4 1) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3) (.sym dst32-24-8-Prefixed- dmode) (.sym Imm-32- smode))
sem)
(binary-arith-imm-dst-defn 32 (.sym Imm-24- smode) basic-Prefixed dmode wstr op suffix
(+ (f-0-4 0) (f-4-4 1) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3) (.sym dst32-basic-Prefixed- dmode) (.sym Imm-24- smode))
sem)
)
)
; All m32c variants
(define-pmacro (binary-arith32-imm-dst-defn smode dmode wstr wbit op suffix opc1 opc2 opc3 sem)
(begin
; Multi insns are tried for assembly in the reverse order in which they appear here, so
; define the absolute-indirect insns first in order to prevent them from being selected
; when the mode is register-indirect
; (binary-arith-imm-dst-defn 32 (.sym Imm-48- smode) 24-24-absolute-indirect dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3) (.sym dst32-24-24-absolute-indirect- dmode) (.sym Imm-48- smode))
; sem)
; (binary-arith-imm-dst-defn 32 (.sym Imm-40- smode) 24-16-absolute-indirect dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3) (.sym dst32-24-16-absolute-indirect- dmode) (.sym Imm-40- smode))
; sem)
; Unprefixed modes next
(binary-arith32-imm-dst-Unprefixed smode dmode wstr wbit op suffix opc1 opc2 opc3 sem)
; Remaining indirect modes
; (binary-arith-imm-dst-defn 32 (.sym Imm-24- smode) basic-indirect dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3) (.sym dst32-basic-indirect- dmode) (.sym Imm-24- smode))
; sem)
; (binary-arith-imm-dst-defn 32 (.sym Imm-48- smode) 24-24-indirect dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3) (.sym dst32-24-24-indirect- dmode) (.sym Imm-48- smode))
; sem)
; (binary-arith-imm-dst-defn 32 (.sym Imm-40- smode) 24-16-indirect dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3) (.sym dst32-24-16-indirect- dmode) (.sym Imm-40- smode))
; sem)
; (binary-arith-imm-dst-defn 32 (.sym Imm-32- smode) 24-8-indirect dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3) (.sym dst32-24-8-indirect- dmode) (.sym Imm-32- smode))
; sem)
)
)
(define-pmacro (binary-arith-imm-dst-mach mach op suffix opc1 opc2 opc3 sem)
(begin
(.apply (.sym binary-arith mach -imm-dst-defn) (QI QI .b 0 op suffix opc1 opc2 opc3 sem))
(.apply (.sym binary-arith mach -imm-dst-defn) (HI HI .w 1 op suffix opc1 opc2 opc3 sem))
)
)
(define-pmacro (binary-arith-imm-dst op suffix opc16-1 opc16-2 opc16-3 opc32-1 opc32-2 opc32-3 sem)
(begin
(binary-arith-imm-dst-mach 16 op suffix opc16-1 opc16-2 opc16-3 sem)
(binary-arith-imm-dst-mach 32 op suffix opc32-1 opc32-2 opc32-3 sem)
)
)
;-------------------------------------------------------------
;<arith>.size:Q #imm4,dst -- for m16c and m32c
;-------------------------------------------------------------
(define-pmacro (binary-arith-imm4-dst-defn mach src dstgroup mode wstr op encoding sem)
(dni (.sym op mach wstr - imm4-Q - dstgroup)
(.str op wstr " " mach "-imm4-Q-" dstgroup "-" mode)
((machine mach) RL_1ADDR)
(.str op wstr "$Q #${" src "},${dst" mach "-" dstgroup "-" mode "}")
encoding
(sem mode src (.sym dst mach - dstgroup - mode))
())
)
; m16c variants
(define-pmacro (binary-arith16-imm4-dst-defn mode wstr wbit1 wbit2 op opc1 opc2 sem)
(binary-arith-imm4-dst-defn 16 Imm-8-s4 16 mode wstr op
(+ opc1 opc2 (f-7-1 wbit2) Imm-8-s4 (.sym dst16-16- mode))
sem)
)
(define-pmacro (binary-arith16-shimm4-dst-defn mode wstr wbit1 wbit2 op opc1 opc2 sem)
(binary-arith-imm4-dst-defn 16 Imm-sh-8-s4 16 mode wstr op
(+ opc1 opc2 (f-7-1 wbit2) Imm-sh-8-s4 (.sym dst16-16- mode))
sem)
)
; m32c variants
(define-pmacro (binary-arith32-imm4-dst-defn mode wstr wbit1 wbit2 op opc1 opc2 sem)
(begin
; Multi insns are tried for assembly in the reverse order in which they appear here, so
; define the absolute-indirect insns first in order to prevent them from being selected
; when the mode is register-indirect
; (binary-arith-imm4-dst-defn 32 Imm-20-s4 24-absolute-indirect mode wstr op
; (+ (f-0-4 0) (f-4-4 9) (f-8-3 opc1) (f-11-1 wbit1) (f-15-1 wbit2) (.sym dst32-24-absolute-indirect- mode) (f-18-2 opc2) Imm-20-s4)
; sem)
(binary-arith-imm4-dst-defn 32 Imm-12-s4 16-Unprefixed mode wstr op
(+ (f-0-3 opc1) (f-3-1 wbit1) (f-7-1 wbit2) (.sym dst32-16-Unprefixed- mode) (f-10-2 opc2) Imm-12-s4)
sem)
; (binary-arith-imm4-dst-defn 32 Imm-20-s4 24-indirect mode wstr op
; (+ (f-0-4 0) (f-4-4 9) (f-8-3 opc1) (f-11-1 wbit1) (f-15-1 wbit2) (.sym dst32-24-indirect- mode) (f-18-2 opc2) Imm-20-s4)
; sem)
)
)
(define-pmacro (binary-arith32-shimm4-dst-defn mode wstr wbit1 wbit2 op opc1 opc2 sem)
(begin
; Multi insns are tried for assembly in the reverse order in which they appear here, so
; define the absolute-indirect insns first in order to prevent them from being selected
; when the mode is register-indirect
; (binary-arith-imm4-dst-defn 32 Imm-sh-20-s4 24-absolute-indirect mode wstr op
; (+ (f-0-4 0) (f-4-4 9) (f-8-3 opc1) (f-11-1 wbit1) (f-15-1 wbit2) (.sym dst32-24-absolute-indirect- mode) (f-18-2 opc2) Imm-sh-20-s4)
; sem)
(binary-arith-imm4-dst-defn 32 Imm-sh-12-s4 16-Unprefixed mode wstr op
(+ (f-0-3 opc1) (f-3-1 wbit1) (f-7-1 wbit2) (.sym dst32-16-Unprefixed- mode) (f-10-2 opc2) Imm-sh-12-s4)
sem)
; (binary-arith-imm4-dst-defn 32 Imm-sh-20-s4 24-indirect mode wstr op
; (+ (f-0-4 0) (f-4-4 9) (f-8-3 opc1) (f-11-1 wbit1) (f-15-1 wbit2) (.sym dst32-24-indirect- mode) (f-18-2 opc2) Imm-sh-20-s4)
; sem)
)
)
(define-pmacro (binary-arith-imm4-dst-mach mach op opc1 opc2 sem)
(begin
(.apply (.sym binary-arith mach -imm4-dst-defn) (QI .b 0 0 op opc1 opc2 sem))
(.apply (.sym binary-arith mach -imm4-dst-defn) (HI .w 0 1 op opc1 opc2 sem))
)
)
(define-pmacro (binary-arith-imm4-dst op opc16-1 opc16-2 opc32-1 opc32-2 sem)
(begin
(binary-arith-imm4-dst-mach 16 op opc16-1 opc16-2 sem)
(binary-arith-imm4-dst-mach 32 op opc32-1 opc32-2 sem)
)
)
;-------------------------------------------------------------
;<arith>.size:G src,dst -- for m16c and m32c
;-------------------------------------------------------------
(define-pmacro (binary-arith-src-dst-defn mach srcgroup dstgroup smode dmode wstr op suffix encoding sem)
(dni (.sym op mach wstr - srcgroup - dstgroup)
(.str op wstr " dst" mach "-" srcgroup "-" dstgroup "-" dmode)
((machine mach) RL_2ADDR)
(.str op wstr "$" suffix " ${src" mach "-" srcgroup "-" smode "},${dst" mach "-" dstgroup "-" dmode "}")
encoding
(sem dmode (.sym src mach - srcgroup - smode) (.sym dst mach - dstgroup - dmode))
())
)
; m16c variants
(define-pmacro (binary-arith16-src-dst-defn smode dmode wstr wbit op suffix opc1 opc2 sem)
(begin
(binary-arith-src-dst-defn 16 basic 16 smode dmode wstr op suffix
(+ opc1 opc2 (f-7-1 wbit) (.sym src16-basic- smode) (.sym dst16-16- dmode))
sem)
(binary-arith-src-dst-defn 16 16-16 32 smode dmode wstr op suffix
(+ opc1 opc2 (f-7-1 wbit) (.sym src16-16-16- smode) (.sym dst16-32- dmode))
sem)
(binary-arith-src-dst-defn 16 16-8 24 smode dmode wstr op suffix
(+ opc1 opc2 (f-7-1 wbit) (.sym src16-16-8- smode) (.sym dst16-24- dmode))
sem)
)
)
; m32c Prefixed variants
(define-pmacro (binary-arith32-src-dst-Prefixed smode dmode wstr wbit op suffix opc1 opc2 sem)
(begin
(binary-arith-src-dst-defn 32 basic-Prefixed 24-Prefixed smode dmode wstr op suffix
(+ (f-0-4 0) (f-4-4 1) (f-8-1 opc1) (f-15-1 wbit) (.sym src32-basic-Prefixed- smode) (.sym dst32-24-Prefixed- dmode) (f-20-4 opc2))
sem)
(binary-arith-src-dst-defn 32 24-24-Prefixed 48-Prefixed smode dmode wstr op suffix
(+ (f-0-4 0) (f-4-4 1) (f-8-1 opc1) (f-15-1 wbit) (.sym src32-24-24-Prefixed- smode) (.sym dst32-48-Prefixed- dmode) (f-20-4 opc2))
sem)
(binary-arith-src-dst-defn 32 24-16-Prefixed 40-Prefixed smode dmode wstr op suffix
(+ (f-0-4 0) (f-4-4 1) (f-8-1 opc1) (f-15-1 wbit) (.sym src32-24-16-Prefixed- smode) (.sym dst32-40-Prefixed- dmode) (f-20-4 opc2))
sem)
(binary-arith-src-dst-defn 32 24-8-Prefixed 32-Prefixed smode dmode wstr op suffix
(+ (f-0-4 0) (f-4-4 1) (f-8-1 opc1) (f-15-1 wbit) (.sym src32-24-8-Prefixed- smode) (.sym dst32-32-Prefixed- dmode) (f-20-4 opc2))
sem)
)
)
; all m32c variants
(define-pmacro (binary-arith32-src-dst-defn smode dmode wstr wbit op suffix opc1 opc2 sem)
(begin
; Multi insns are tried for assembly in the reverse order in which they appear here, so
; define the absolute-indirect insns first in order to prevent them from being selected
; when the mode is register-indirect
; (binary-arith-src-dst-defn 32 24-24-absolute-indirect 48-absolute-indirect smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-24-absolute-indirect- smode) (.sym dst32-48-absolute-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-16-absolute-indirect 40-absolute-indirect smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-16-absolute-indirect- smode) (.sym dst32-40-absolute-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-24-absolute-indirect 48-Prefixed smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 1) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-24-absolute-indirect- smode) (.sym dst32-48-Prefixed- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-16-absolute-indirect 40-Prefixed smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 1) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-16-absolute-indirect- smode) (.sym dst32-40-Prefixed- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-24-absolute-indirect 48-indirect smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-24-absolute-indirect- smode) (.sym dst32-48-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-16-absolute-indirect 40-indirect smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-16-absolute-indirect- smode) (.sym dst32-40-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 basic-Prefixed 24-absolute-indirect smode dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-basic-Prefixed- smode) (.sym dst32-24-absolute-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-24-Prefixed 48-absolute-indirect smode dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-24-Prefixed- smode) (.sym dst32-48-absolute-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-16-Prefixed 40-absolute-indirect smode dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-16-Prefixed- smode) (.sym dst32-40-absolute-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-8-Prefixed 32-absolute-indirect smode dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-8-Prefixed- smode) (.sym dst32-32-absolute-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 basic-indirect 24-absolute-indirect smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-basic-indirect- smode) (.sym dst32-24-absolute-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-24-indirect 48-absolute-indirect smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-24-indirect- smode) (.sym dst32-48-absolute-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-16-indirect 40-absolute-indirect smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-16-indirect- smode) (.sym dst32-40-absolute-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-8-indirect 32-absolute-indirect smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-8-indirect- smode) (.sym dst32-32-absolute-indirect- dmode) (f-20-4 opc2))
; sem)
(binary-arith-src-dst-defn 32 basic-Unprefixed 16-Unprefixed smode dmode wstr op suffix
(+ (f-0-1 opc1) (f-7-1 wbit) (.sym src32-basic-Unprefixed- smode) (.sym dst32-16-Unprefixed- dmode) (f-12-4 opc2))
sem)
(binary-arith-src-dst-defn 32 16-24-Unprefixed 40-Unprefixed smode dmode wstr op suffix
(+ (f-0-1 opc1) (f-7-1 wbit) (.sym src32-16-24-Unprefixed- smode) (.sym dst32-40-Unprefixed- dmode) (f-12-4 opc2))
sem)
(binary-arith-src-dst-defn 32 16-16-Unprefixed 32-Unprefixed smode dmode wstr op suffix
(+ (f-0-1 opc1) (f-7-1 wbit) (.sym src32-16-16-Unprefixed- smode) (.sym dst32-32-Unprefixed- dmode) (f-12-4 opc2))
sem)
(binary-arith-src-dst-defn 32 16-8-Unprefixed 24-Unprefixed smode dmode wstr op suffix
(+ (f-0-1 opc1) (f-7-1 wbit) (.sym src32-16-8-Unprefixed- smode) (.sym dst32-24-Unprefixed- dmode) (f-12-4 opc2))
sem)
; (binary-arith-src-dst-defn 32 basic-indirect 24-Prefixed smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 1) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-basic-indirect- smode) (.sym dst32-24-Prefixed- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-24-indirect 48-Prefixed smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 1) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-24-indirect- smode) (.sym dst32-48-Prefixed- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-16-indirect 40-Prefixed smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 1) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-16-indirect- smode) (.sym dst32-40-Prefixed- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-8-indirect 32-Prefixed smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 1) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-8-indirect- smode) (.sym dst32-32-Prefixed- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 basic-Prefixed 24-indirect smode dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-basic-Prefixed- smode) (.sym dst32-24-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-24-Prefixed 48-indirect smode dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-24-Prefixed- smode) (.sym dst32-48-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-16-Prefixed 40-indirect smode dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-16-Prefixed- smode) (.sym dst32-40-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-8-Prefixed 32-indirect smode dmode wstr op suffix
; (+ (f-0-4 0) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-8-Prefixed- smode) (.sym dst32-32-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 basic-indirect 24-indirect smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-basic-indirect- smode) (.sym dst32-24-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-24-indirect 48-indirect smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-24-indirect- smode) (.sym dst32-48-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-16-indirect 40-indirect smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-16-indirect- smode) (.sym dst32-40-indirect- dmode) (f-20-4 opc2))
; sem)
; (binary-arith-src-dst-defn 32 24-8-indirect 32-indirect smode dmode wstr op suffix
; (+ (f-0-4 4) (f-4-4 9) (f-8-1 opc1) (f-15-1 wbit)
; (.sym src32-24-8-indirect- smode) (.sym dst32-32-indirect- dmode) (f-20-4 opc2))
; sem)
)
)
(define-pmacro (binary-arith-src-dst-mach mach op suffix opc1 opc2 sem)
(begin
(.apply (.sym binary-arith mach -src-dst-defn) (QI QI .b 0 op suffix opc1 opc2 sem))
(.apply (.sym binary-arith mach -src-dst-defn) (HI HI .w 1 op suffix opc1 opc2 sem))
)
)
(define-pmacro (binary-arith-src-dst op suffix opc16-1 opc16-2 opc32-1 opc32-2 sem)
(begin
(binary-arith-src-dst-mach 16 op suffix opc16-1 opc16-2 sem)
(binary-arith-src-dst-mach 32 op suffix opc32-1 opc32-2 sem)
)
)
;-------------------------------------------------------------
;<arith>.size:S #imm,dst -- for m32c
;-------------------------------------------------------------
(define-pmacro (binary-arith32-s-imm-dst-defn src dstgroup mode wstr op encoding sem)
(dni (.sym op 32 wstr - imm-S - dstgroup)
(.str op wstr " 32-imm-S-" dstgroup "-" mode)
((machine 32))
(.str op wstr "$S #${" src "},${dst32-" dstgroup "-" mode "}")
encoding
(sem mode src (.sym dst32- dstgroup - mode))
())
)
(define-pmacro (binary-arith32-z-imm-dst-defn src dstgroup mode wstr op encoding sem)
(dni (.sym op 32 wstr - imm-Z - dstgroup)
(.str op wstr " 32-imm-Z-" dstgroup "-" mode)
((machine 32))
(.str op wstr "$Z #0,${dst32-" dstgroup "-" mode "}")
encoding
(sem mode (const 0) (.sym dst32- dstgroup - mode))
())
)
(define-pmacro (binary-arith32-s-imm-dst mode wstr wbit op opc1 opc2 sem)
(begin
; (binary-arith32-s-imm-dst-defn (.sym Imm-32- mode) 2-S-absolute-indirect mode wstr op
; (+ (f-0-4 0) (f-4-4 9) (f-8-2 opc1) (.sym dst32-2-S-absolute-indirect- mode) (f-12-3 opc2) (f-15-1 wbit) (.sym Imm-32- mode))
; sem)
(binary-arith32-s-imm-dst-defn (.sym Imm-8- mode) 2-S-basic mode wstr op
(+ (f-0-2 opc1) (.sym dst32-2-S-basic- mode) (f-4-3 opc2) (f-7-1 wbit) (.sym Imm-8- mode))
sem)
(binary-arith32-s-imm-dst-defn (.sym Imm-24- mode) 2-S-16 mode wstr op
(+ (f-0-2 opc1) (.sym dst32-2-S-16- mode) (f-4-3 opc2) (f-7-1 wbit) (.sym Imm-24- mode))
sem)
(binary-arith32-s-imm-dst-defn (.sym Imm-16- mode) 2-S-8 mode wstr op
(+ (f-0-2 opc1) (.sym dst32-2-S-8- mode) (f-4-3 opc2) (f-7-1 wbit) (.sym Imm-16- mode))
sem)
; (binary-arith32-s-imm-dst-defn (.sym Imm-24- mode) 2-S-8-indirect mode wstr op
; (+ (f-0-4 0) (f-4-4 9) (f-8-2 opc1) (.sym dst32-2-S-8-indirect- mode) (f-12-3 opc2) (f-15-1 wbit) (.sym Imm-24- mode))
; sem)
)
)
(define-pmacro (binary-arith32-z-imm-dst mode wstr wbit op opc1 opc2 sem)
(begin
; (binary-arith32-z-imm-dst-defn (.sym Imm-32- mode) 2-S-absolute-indirect mode wstr op
; (+ (f-0-4 0) (f-4-4 9) (f-8-2 opc1) (.sym dst32-2-S-absolute-indirect- mode) (f-12-3 opc2) (f-15-1 wbit) (.sym Imm-32- mode))
; sem)
(binary-arith32-z-imm-dst-defn (.sym Imm-8- mode) 2-S-basic mode wstr op
(+ (f-0-2 opc1) (.sym dst32-2-S-basic- mode) (f-4-3 opc2) (f-7-1 wbit))
sem)
(binary-arith32-z-imm-dst-defn (.sym Imm-24- mode) 2-S-16 mode wstr op
(+ (f-0-2 opc1) (.sym dst32-2-S-16- mode) (f-4-3 opc2) (f-7-1 wbit))
sem)
(binary-arith32-z-imm-dst-defn (.sym Imm-16- mode) 2-S-8 mode wstr op
(+ (f-0-2 opc1) (.sym dst32-2-S-8- mode) (f-4-3 opc2) (f-7-1 wbit))
sem)
; (binary-arith32-z-imm-dst-defn (.sym Imm-24- mode) 2-S-8-indirect mode wstr op
; (+ (f-0-4 0) (f-4-4 9) (f-8-2 opc1) (.sym dst32-2-S-8-indirect- mode) (f-12-3 opc2) (f-15-1 wbit) (.sym Imm-24- mode))
; sem)
)
)
;-------------------------------------------------------------
;<arith>.L:S #imm1,An -- for m32c
;-------------------------------------------------------------
(define-pmacro (binary-arith32-l-s-imm1-an op opc1 opc2 sem)
(begin
(dni (.sym op 32.l-s-imm1-S-an)
(.str op ".l 32-imm1-S-an")
((machine 32))
(.str op ".l$S #${Imm1-S},${dst32-an-S}")
(+ opc1 Imm1-S opc2 dst32-an-S)
(sem SI Imm1-S dst32-an-S)
())
)
)
;-------------------------------------------------------------
;<arith>.L:Q #imm3,sp -- for m32c
;-------------------------------------------------------------
(define-pmacro (binary-arith32-l-q-imm3-sp op opc1 opc2 sem)
(begin
(dni (.sym op 32.l-imm3-Q)
(.str op ".l 32-imm3-Q")
((machine 32))
(.str op ".l$Q #${Imm3-S},sp")
(+ opc1 Imm3-S opc2)
(sem SI Imm3-S sp)
())
)
)
;-------------------------------------------------------------
;<arith>.L:S #imm8,sp -- for m32c
;-------------------------------------------------------------
(define-pmacro (binary-arith32-l-s-imm8-sp op opc1 opc2 opc3 opc4 sem)
(begin
(dni (.sym op 32.l-imm8-S)
(.str op ".l 32-imm8-S")
((machine 32))
(.str op ".l$S #${Imm-16-QI},sp")
(+ opc1 opc2 opc3 opc4 Imm-16-QI)
(sem SI Imm-16-QI sp)
())
)
)
;-------------------------------------------------------------
;<arith>.L:G #imm16,sp -- for m32c
;-------------------------------------------------------------
(define-pmacro (binary-arith32-l-g-imm16-sp op opc1 opc2 opc3 opc4 sem)
(begin
(dni (.sym op 32.l-imm16-G)
(.str op ".l 32-imm16-G")
((machine 32))
(.str op ".l$G #${Imm-16-HI},sp")
(+ opc1 opc2 opc3 opc4 Imm-16-HI)
(sem SI Imm-16-HI sp)
())
)
)
;-------------------------------------------------------------
;<arith>jnz.size #imm4,dst,label -- for m16c and m32c
;-------------------------------------------------------------
(define-pmacro (arith-jnz-imm4-dst-defn mach src dstgroup label mode wstr op encoding sem)
(dni (.sym op mach wstr - imm4 - dstgroup)
(.str op wstr " " mach "-imm4-" dstgroup "-" label "-" mode)
(RL_JUMP RELAXABLE (machine mach))
(.str op wstr " #${" src "},${dst" mach "-" dstgroup "-" mode "},${" label "}")
encoding
(sem mode src (.sym dst mach - dstgroup - mode) label)
())
)
; m16c variants
(define-pmacro (arith-jnz16-imm4-dst-defn mode wstr wbit op i4n opc1 opc2 sem)
(begin
(arith-jnz-imm4-dst-defn 16 (.sym Imm-8- i4n) basic Lab-16-8 mode wstr op
(+ opc1 opc2 (f-7-1 wbit) (.sym Imm-8- i4n) (.sym dst16-basic- mode) Lab-16-8)
sem)
(arith-jnz-imm4-dst-defn 16 (.sym Imm-8- i4n) 16-16 Lab-32-8 mode wstr op
(+ opc1 opc2 (f-7-1 wbit) (.sym Imm-8- i4n) (.sym dst16-16-16- mode) Lab-32-8)
sem)
(arith-jnz-imm4-dst-defn 16 (.sym Imm-8- i4n) 16-8 Lab-24-8 mode wstr op
(+ opc1 opc2 (f-7-1 wbit) (.sym Imm-8- i4n) (.sym dst16-16-8- mode) Lab-24-8)
sem)
)
)
; m32c variants
(define-pmacro (arith-jnz32-imm4-dst-defn mode wstr wbit op i4n opc1 opc2 sem)
(begin
(arith-jnz-imm4-dst-defn 32 (.sym Imm-12- i4n) basic-Unprefixed Lab-16-8 mode wstr op
(+ (f-0-4 opc1) (f-7-1 wbit) (.sym dst32-basic-Unprefixed- mode) (f-10-2 opc2) (.sym Imm-12- i4n) Lab-16-8)
sem)
(arith-jnz-imm4-dst-defn 32 (.sym Imm-12- i4n) 16-24-Unprefixed Lab-40-8 mode wstr op
(+ (f-0-4 opc1) (f-7-1 wbit) (.sym dst32-16-24-Unprefixed- mode) (f-10-2 opc2) (.sym Imm-12- i4n) Lab-40-8)
sem)
(arith-jnz-imm4-dst-defn 32 (.sym Imm-12- i4n) 16-16-Unprefixed Lab-32-8 mode wstr op
(+ (f-0-4 opc1) (f-7-1 wbit) (.sym dst32-16-16-Unprefixed- mode) (f-10-2 opc2) (.sym Imm-12- i4n) Lab-32-8)
sem)
(arith-jnz-imm4-dst-defn 32 (.sym Imm-12- i4n) 16-8-Unprefixed Lab-24-8 mode wstr op
(+ (f-0-4 opc1) (f-7-1 wbit) (.sym dst32-16-8-Unprefixed- mode) (f-10-2 opc2) (.sym Imm-12- i4n) Lab-24-8)
sem)
)
)
(define-pmacro (arith-jnz-imm4-dst-mach mach op i4n opc1 opc2 sem)
(begin
(.apply (.sym arith-jnz mach -imm4-dst-defn) (QI .b 0 op i4n opc1 opc2 sem))
(.apply (.sym arith-jnz mach -imm4-dst-defn) (HI .w 1 op i4n opc1 opc2 sem))
)
)
(define-pmacro (arith-jnz-imm4-dst op i4n opc16-1 opc16-2 opc32-1 opc32-2 sem)
(begin
(arith-jnz-imm4-dst-mach 16 op i4n opc16-1 opc16-2 sem)
(arith-jnz-imm4-dst-mach 32 op i4n opc32-1 opc32-2 sem)
)
)
;-------------------------------------------------------------
;mov.size dsp8[sp],dst -- for m16c and m32c
;-------------------------------------------------------------
(define-pmacro (mov-dspsp-dst-defn mach dstgroup dsp mode wstr op encoding sem)
(dni (.sym op mach wstr -dspsp-dst- dstgroup)
(.str op wstr " " mach "-dsp[sp]-" dstgroup "-" dsp "-" mode)
((machine mach))
(.str op wstr "$G ${" dsp "}[sp],${dst" mach "-" dstgroup "-" mode "}")
encoding
(sem mach mode dsp (.sym dst mach - dstgroup - mode))
())
)
(define-pmacro (mov-src-dspsp-defn mach dstgroup dsp mode wstr op encoding sem)
(dni (.sym op mach wstr -dst-dspsp- dstgroup)
(.str op wstr " " mach "-dsp[sp]-" dstgroup "-" dsp "-" mode)
((machine mach))
(.str op wstr "$G ${dst" mach "-" dstgroup "-" mode "},${" dsp "}[sp]")
encoding
(sem mach mode (.sym dst mach - dstgroup - mode) dsp)
())
)
; m16c variants
(define-pmacro (mov16-dspsp-dst-defn mode wstr wbit op opc1 opc2 opc3 sem)
(begin
(mov-dspsp-dst-defn 16 basic Dsp-16-s8 mode wstr op
(+ opc1 opc2 (f-7-1 wbit) opc3 (.sym dst16-basic- mode) Dsp-16-s8)
sem)
(mov-dspsp-dst-defn 16 16-16 Dsp-32-s8 mode wstr op
(+ opc1 opc2 (f-7-1 wbit) opc3 (.sym dst16-16-16- mode) Dsp-32-s8)
sem)
(mov-dspsp-dst-defn 16 16-8 Dsp-24-s8 mode wstr op
(+ opc1 opc2 (f-7-1 wbit) opc3 (.sym dst16-16-8- mode) Dsp-24-s8)
sem)
)
)
(define-pmacro (mov16-src-dspsp-defn mode wstr wbit op opc1 opc2 opc3 sem)
(begin
(mov-src-dspsp-defn 16 basic Dsp-16-s8 mode wstr op
(+ opc1 opc2 (f-7-1 wbit) opc3 (.sym dst16-basic- mode) Dsp-16-s8)
sem)
(mov-src-dspsp-defn 16 16-16 Dsp-32-s8 mode wstr op
(+ opc1 opc2 (f-7-1 wbit) opc3 (.sym dst16-16-16- mode) Dsp-32-s8)
sem)
(mov-src-dspsp-defn 16 16-8 Dsp-24-s8 mode wstr op
(+ opc1 opc2 (f-7-1 wbit) opc3 (.sym dst16-16-8- mode) Dsp-24-s8)
sem)
)
)
; m32c variants
(define-pmacro (mov32-dspsp-dst-defn mode wstr wbit op opc1 opc2 opc3 sem)
(begin
(mov-dspsp-dst-defn 32 basic-Unprefixed Dsp-16-s8 mode wstr op
(+ (f-0-4 opc1) (f-7-1 wbit) (.sym dst32-basic-Unprefixed- mode) (f-10-2 opc2) (f-12-4 opc3) Dsp-16-s8)
sem)
(mov-dspsp-dst-defn 32 16-24-Unprefixed Dsp-40-s8 mode wstr op
(+ (f-0-4 opc1) (f-7-1 wbit) (.sym dst32-16-24-Unprefixed- mode) (f-10-2 opc2) (f-12-4 opc3) Dsp-40-s8)
sem)
(mov-dspsp-dst-defn 32 16-16-Unprefixed Dsp-32-s8 mode wstr op
(+ (f-0-4 opc1) (f-7-1 wbit) (.sym dst32-16-16-Unprefixed- mode) (f-10-2 opc2) (f-12-4 opc3) Dsp-32-s8)
sem)
(mov-dspsp-dst-defn 32 16-8-Unprefixed Dsp-24-s8 mode wstr op
(+ (f-0-4 opc1) (f-7-1 wbit) (.sym dst32-16-8-Unprefixed- mode) (f-10-2 opc2) (f-12-4 opc3) Dsp-24-s8)
sem)
)
)
(define-pmacro (mov32-src-dspsp-defn mode wstr wbit op opc1 opc2 opc3 sem)
(begin
(mov-src-dspsp-defn 32 basic-Unprefixed Dsp-16-s8 mode wstr op
(+ (f-0-4 opc1) (f-7-1 wbit) (.sym dst32-basic-Unprefixed- mode) (f-10-2 opc2) (f-12-4 opc3) Dsp-16-s8)
sem)
(mov-src-dspsp-defn 32 16-24-Unprefixed Dsp-40-s8 mode wstr op
(+ (f-0-4 opc1) (f-7-1 wbit) (.sym dst32-16-24-Unprefixed- mode) (f-10-2 opc2) (f-12-4 opc3) Dsp-40-s8)
sem)
(mov-src-dspsp-defn 32 16-16-Unprefixed Dsp-32-s8 mode wstr op
(+ (f-0-4 opc1) (f-7-1 wbit) (.sym dst32-16-16-Unprefixed- mode) (f-10-2 opc2) (f-12-4 opc3) Dsp-32-s8)
sem)
(mov-src-dspsp-defn 32 16-8-Unprefixed Dsp-24-s8 mode wstr op
(+ (f-0-4 opc1) (f-7-1 wbit) (.sym dst32-16-8-Unprefixed- mode) (f-10-2 opc2) (f-12-4 opc3) Dsp-24-s8)
sem)
)
)
(define-pmacro (mov-src-dspsp-mach mach op opc1 opc2 opc3 sem)
(begin
(.apply (.sym mov mach -src-dspsp-defn) (QI .b 0 op opc1 opc2 opc3 sem))
(.apply (.sym mov mach -src-dspsp-defn) (HI .w 1 op opc1 opc2 opc3 sem))
)
)
(define-pmacro (mov-dspsp-dst-mach mach op opc1 opc2 opc3 sem)
(begin
(.apply (.sym mov mach -dspsp-dst-defn) (QI .b 0 op opc1 opc2 opc3 sem))
(.apply (.sym mov mach -dspsp-dst-defn) (HI .w 1 op opc1 opc2 opc3 sem))
)
)
(define-pmacro (mov-dspsp-dst op opc16-1 opc16-2 opc16-3 opc32-1 opc32-2 opc32-3 sem)
(begin
(mov-dspsp-dst-mach 16 op opc16-1 opc16-2 opc16-3 sem)
(mov-dspsp-dst-mach 32 op opc32-1 opc32-2 opc32-3 sem)
)
)
(define-pmacro (mov-src-dspsp op opc16-1 opc16-2 opc16-3 opc32-1 opc32-2 opc32-3 sem)
(begin
(mov-src-dspsp-mach 16 op opc16-1 opc16-2 opc16-3 sem)
(mov-src-dspsp-mach 32 op opc32-1 opc32-2 opc32-3 sem)
)
)
;-------------------------------------------------------------
; lde dsp24,dst -- for m16c
;-------------------------------------------------------------
(define-pmacro (lde-dst-dsp mode wstr wbit dstgroup srcdisp)
(begin
(dni (.sym lde wstr - dstgroup -u20)
(.str "lde" wstr "-" dstgroup "-u20")
((machine 16))
(.str "lde" wstr " ${" srcdisp "},${dst16-" dstgroup "-" mode "}")
(+ (f-0-4 #x7) (f-4-3 #x2) (f-7-1 wbit) (f-8-4 #x8)
(.sym dst16- dstgroup - mode) srcdisp)
(nop)
())
(dni (.sym lde wstr - dstgroup -u20a0)
(.str "lde" wstr "-" dstgroup "-u20a0")
((machine 16))
(.str "lde" wstr " ${" srcdisp "}[a0],${dst16-" dstgroup "-" mode "}")
(+ (f-0-4 #x7) (f-4-3 #x2) (f-7-1 wbit) (f-8-4 #x9)
(.sym dst16- dstgroup - mode) srcdisp)
(nop)
())
(dni (.sym lde wstr - dstgroup -a1a0)
(.str "lde" wstr "-" dstgroup "-a1a0")
((machine 16))
(.str "lde" wstr " [a1a0],${dst16-" dstgroup "-" mode "}")
(+ (f-0-4 #x7) (f-4-3 #x2) (f-7-1 wbit) (f-8-4 #xa)
(.sym dst16- dstgroup - mode))
(nop)
())
)
)
(define-pmacro (lde-dst mode wstr wbit)
(begin
; like: QI .b 0
(lde-dst-dsp mode wstr wbit basic Dsp-16-u20)
(lde-dst-dsp mode wstr wbit 16-8 Dsp-24-u20)
(lde-dst-dsp mode wstr wbit 16-16 Dsp-32-u20)
)
)
;-------------------------------------------------------------
; ste dst,dsp24 -- for m16c
;-------------------------------------------------------------
(define-pmacro (ste-dst-dsp mode wstr wbit dstgroup srcdisp)
(begin
(dni (.sym ste wstr - dstgroup -u20)
(.str "ste" wstr "-" dstgroup "-u20")
((machine 16))
(.str "ste" wstr " ${dst16-" dstgroup "-" mode "},${" srcdisp "}")
(+ (f-0-4 #x7) (f-4-3 #x2) (f-7-1 wbit) (f-8-4 #x0)
(.sym dst16- dstgroup - mode) srcdisp)
(nop)
())
(dni (.sym ste wstr - dstgroup -u20a0)
(.str "ste" wstr "-" dstgroup "-u20a0")
((machine 16))
(.str "ste" wstr " ${dst16-" dstgroup "-" mode "},${" srcdisp "}[a0]")
(+ (f-0-4 #x7) (f-4-3 #x2) (f-7-1 wbit) (f-8-4 #x1)
(.sym dst16- dstgroup - mode) srcdisp)
(nop)
())
(dni (.sym ste wstr - dstgroup -a1a0)
(.str "ste" wstr "-" dstgroup "-a1a0")
((machine 16))
(.str "ste" wstr " ${dst16-" dstgroup "-" mode "},[a1a0]")
(+ (f-0-4 #x7) (f-4-3 #x2) (f-7-1 wbit) (f-8-4 #x2)
(.sym dst16- dstgroup - mode))
(nop)
())
)
)
(define-pmacro (ste-dst mode wstr wbit)
(begin
; like: QI .b 0
(ste-dst-dsp mode wstr wbit basic Dsp-16-u20)
(ste-dst-dsp mode wstr wbit 16-8 Dsp-24-u20)
(ste-dst-dsp mode wstr wbit 16-16 Dsp-32-u20)
)
)
;=============================================================
; Division
;-------------------------------------------------------------
(define-pmacro (div-sem divop modop opmode reg src quot rem max min)
(sequence ()
(if (eq src 0)
(set obit (const BI 1))
(sequence ((opmode quot-result) (opmode rem-result))
(set quot-result (divop opmode (ext opmode reg) src))
(set rem-result (modop opmode (ext opmode reg) src))
(set obit (orif (gt opmode quot-result max)
(lt opmode quot-result min)))
(set quot quot-result)
(set rem rem-result))))
)
;<divop>.size #imm -- for m16c and m32c
(define-pmacro (div-imm-defn mach wstr op src encoding divop modop opmode reg quot rem max min sem)
(dni (.sym op mach wstr - src)
(.str op mach wstr "-" src)
((machine mach))
(.str op wstr " #${" src "}")
encoding
(sem divop modop opmode reg src quot rem max min)
())
)
(define-pmacro (div16-imm-defn smode wstr wbit op divop modop opmode reg quot rem max min opc1 opc2 opc3 opc4 sem)
(div-imm-defn 16 wstr op (.sym Imm-16 - smode)
(+ opc1 opc2 (f-7-1 wbit) opc3 opc4 (.sym Imm-16 - smode))
divop modop opmode reg quot rem max min
sem)
)
(define-pmacro (div32-imm-defn smode wstr wbit op divop modop opmode reg quot rem max min opc1 opc2 opc3 opc4 sem)
(div-imm-defn 32 wstr op (.sym Imm-16 - smode)
(+ (f-0-4 opc1) (f-4-4 opc2) (f-8-3 opc3) (f-11-1 wbit) (f-12-4 opc4) (.sym Imm-16 - smode))
divop modop opmode reg quot rem max min
sem)
)
(define-pmacro (div-imm-mach mach op divop modop opmode max-QI min-QI max-HI min-HI opc1 opc2 opc3 opc4 sem)
(begin
(.apply (.sym div mach -imm-defn) (QI .b 0 op divop modop opmode R0 R0l R0h max-QI min-QI opc1 opc2 opc3 opc4 sem))
(.apply (.sym div mach -imm-defn) (HI .w 1 op divop modop opmode R2R0 R0 R2 max-HI min-HI opc1 opc2 opc3 opc4 sem))
)
)
(define-pmacro (div-imm op divop modop opmode max-QI min-QI max-HI min-HI opc16-1 opc16-2 opc16-3 opc16-4 opc32-1 opc32-2 opc32-3 opc32-4 sem)
(begin
(div-imm-mach 16 op divop modop opmode max-QI min-QI max-HI min-HI opc16-1 opc16-2 opc16-3 opc16-4 sem)
(div-imm-mach 32 op divop modop opmode max-QI min-QI max-HI min-HI opc32-1 opc32-2 opc32-3 opc32-4 sem)
)
)
;<divop>.size src -- for m16c and m32c
(define-pmacro (div-src-defn mach wstr op src encoding divop modop opmode reg quot rem max min sem)
(dni (.sym op mach wstr - src)
(.str op mach wstr "-" src)
((machine mach))
(.str op wstr " ${" src "}")
encoding
(sem divop modop opmode reg src quot rem max min)
())
)
(define-pmacro (div16-src-defn smode wstr wbit op divop modop opmode reg quot rem max min opc1 opc2 opc3 sem)
(div-src-defn 16 wstr op (.sym dst16-16 - smode)
(+ opc1 opc2 (f-7-1 wbit) opc3 (.sym dst16-16 - smode))
divop modop opmode reg quot rem max min
sem)
)
(define-pmacro (div32-src-defn smode wstr wbit op divop modop opmode reg quot rem max min opc1 opc2 opc3 sem)
(begin
; Multi insns are tried for assembly in the reverse order in which they appear here, so
; define the absolute-indirect insns first in order to prevent them from being selected
; when the mode is register-indirect
; (div-src-defn 32 wstr op (.sym dst32-24-absolute-indirect- smode)
; (+ (f-0-4 0) (f-4-4 9) (f-8-4 opc1) (f-15-1 wbit) (f-18-2 opc2) (f-20-4 opc3) (.sym dst32-24-absolute-indirect - smode))
; divop modop opmode reg quot rem max min
; sem)
(div-src-defn 32 wstr op (.sym dst32-16-Unprefixed- smode)
(+ (f-0-4 opc1) (f-7-1 wbit) (f-10-2 opc2) (f-12-4 opc3) (.sym dst32-16-Unprefixed- smode))
divop modop opmode reg quot rem max min
sem)
; (div-src-defn 32 wstr op (.sym dst32-24-indirect- smode)
; (+ (f-0-4 0) (f-4-4 9) (f-8-4 opc1) (f-15-1 wbit) (f-18-2 opc2) (f-20-4 opc3) (.sym dst32-24-indirect - smode))
; divop modop opmode reg quot rem max min
; sem)
)
)
(define-pmacro (div-src-mach mach op divop modop opmode max-QI min-QI max-HI min-HI opc1 opc2 opc3 sem)
(begin
(.apply (.sym div mach -src-defn) (QI .b 0 op divop modop opmode R0 R0l R0h max-QI min-QI opc1 opc2 opc3 sem))
(.apply (.sym div mach -src-defn) (HI .w 1 op divop modop opmode R2R0 R0 R2 max-HI min-HI opc1 opc2 opc3 sem))
)
)
(define-pmacro (div-src op divop modop opmode max-QI min-QI max-HI min-HI opc16-1 opc16-2 opc16-3 opc32-1 opc32-2 opc32-3 sem)
(begin
(div-src-mach 16 op divop modop opmode max-QI min-QI max-HI min-HI opc16-1 opc16-2 opc16-3 sem)
(div-src-mach 32 op divop modop opmode max-QI min-QI max-HI min-HI opc32-1 opc32-2 opc32-3 sem)
)
)
;=============================================================
; Bit manipulation
;
(define-pmacro (bit-insn-defn mach op suffix opnd encoding sem)
(dni (.sym op mach - suffix - opnd)
(.str op mach ":" suffix " " opnd)
((machine mach))
(.str op "$" suffix " ${" opnd "}")
encoding
(sem opnd)
())
)
(define-pmacro (bitsrc16-defn op opc1 opc2 opc3 sem)
(bit-insn-defn 16 op X bit16-16
(+ opc1 opc2 opc3 bit16-16)
sem)
)
(define-pmacro (bitsrc32-defn op opc1 opc2 opc3 sem)
(begin
(bit-insn-defn 32 op X bit32-24-Prefixed
(+ (f-0-4 0) (f-4-4 1) (f-8-4 opc1) bit32-24-Prefixed (f-15-1 opc2) (f-18-3 opc3))
sem)
)
)
(define-pmacro (bitsrc-insn op opc16-1 opc16-2 opc16-3 opc32-1 opc32-2 opc32-3 sem)
(begin
(bitsrc16-defn op opc16-1 opc16-2 opc16-3 sem)
(bitsrc32-defn op opc32-1 opc32-2 opc32-3 sem)
)
)
(define-pmacro (bitdst16-defn op opc1 opc2 opc3 opc4 opc5 opc6 sem)
(begin
(bit-insn-defn 16 op G bit16-16-basic (+ opc1 opc2 opc3 bit16-16-basic) sem)
(bit-insn-defn 16 op G bit16-16-16 (+ opc1 opc2 opc3 bit16-16-16) sem)
(bit-insn-defn 16 op S bit16-11-S (+ opc4 opc5 opc6 bit16-11-S) sem)
(bit-insn-defn 16 op G bit16-16-8 (+ opc1 opc2 opc3 bit16-16-8) sem)
)
)
(define-pmacro (bitdst32-defn op opc1 opc2 opc3 sem)
(begin
(bit-insn-defn 32 op X bit32-16-Unprefixed
(+ (f-0-4 opc1) bit32-16-Unprefixed (f-7-1 opc2) (f-10-3 opc3))
sem)
)
)
(define-pmacro (bitdstnos-insn op opc16-1 opc16-2 opc16-3 opc32-1 opc32-2 opc32-3 sem)
(begin
(bitsrc16-defn op opc16-1 opc16-2 opc16-3 sem)
(bitdst32-defn op opc32-1 opc32-2 opc32-3 sem)
)
)
(define-pmacro (bitdst-insn op opc16-1 opc16-2 opc16-3 opc16-4 opc16-5 opc16-6 opc32-1 opc32-2 opc32-3 sem)
(begin
(bitdst16-defn op opc16-1 opc16-2 opc16-3 opc16-4 opc16-5 opc16-6 sem)
(bitdst32-defn op opc32-1 opc32-2 opc32-3 sem)
)
)
;=============================================================
; Bit condition
;
(define-pmacro (bitcond-insn-defn mach op bit-opnd cond-opnd encoding sem)
(dni (.sym op mach - bit-opnd - cond-opnd)
(.str op mach " " bit-opnd " " cond-opnd)
((machine mach))
(.str op "${" cond-opnd "} ${" bit-opnd "}")
encoding
(sem mach bit-opnd cond-opnd)
())
)
(define-pmacro (bitcond16-defn op opc1 opc2 opc3 sem)
(begin
(bitcond-insn-defn 16 op bit16-16-basic cond16-16 (+ opc1 opc2 opc3 bit16-16-basic cond16-16) sem)
(bitcond-insn-defn 16 op bit16-16-16 cond16-32 (+ opc1 opc2 opc3 bit16-16-16 cond16-32) sem)
(bitcond-insn-defn 16 op bit16-16-8 cond16-24 (+ opc1 opc2 opc3 bit16-16-8 cond16-24) sem)
)
)
(define-pmacro (bitcond32-defn op opc1 opc2 opc3 sem)
(begin
(bitcond-insn-defn 32 op bit32-16-24-Unprefixed cond32-40
(+ (f-0-4 opc1) bit32-16-24-Unprefixed (f-7-1 opc2) (f-10-3 opc3) cond32-40)
sem)
(bitcond-insn-defn 32 op bit32-16-16-Unprefixed cond32-32
(+ (f-0-4 opc1) bit32-16-16-Unprefixed (f-7-1 opc2) (f-10-3 opc3) cond32-32)
sem)
(bitcond-insn-defn 32 op bit32-16-8-Unprefixed cond32-24
(+ (f-0-4 opc1) bit32-16-8-Unprefixed (f-7-1 opc2) (f-10-3 opc3) cond32-24)
sem)
(bitcond-insn-defn 32 op bit32-basic-Unprefixed cond32-16
(+ (f-0-4 opc1) bit32-basic-Unprefixed (f-7-1 opc2) (f-10-3 opc3) cond32-16)
sem)
)
)
(define-pmacro (bitcond-insn op opc16-1 opc16-2 opc16-3 opc32-1 opc32-2 opc32-3 sem)
(begin
(bitcond16-defn op opc16-1 opc16-2 opc16-3 sem)
(bitcond32-defn op opc32-1 opc32-2 opc32-3 sem)
)
)
;=============================================================
;<insn>.size #imm1,#imm2,dst -- for m32c
;
(define-pmacro (insn-imm1-imm2-dst-defn src1 src2 dstgroup xmode wstr op encoding sem)
(dni (.sym op 32 wstr - src1 - src2 - dstgroup)
(.str op 32 wstr "-" src1 "-" src2 "-" dstgroup "-" xmode)
((machine 32))
(.str op wstr " #${" src1 "},#${" src2 "},${dst32-" dstgroup "-" xmode "}")
encoding
(sem xmode src1 src2 (.sym dst32- dstgroup - xmode))
())
)
; m32c Prefixed variants
(define-pmacro (insn32-imm1-imm2-dst-Prefixed-defn xmode wstr wbit base1 base2 base3 base4 op opc1 opc2 opc3 sem)
(begin
(insn-imm1-imm2-dst-defn (.sym Imm-48- xmode) (.sym Imm- base4 - xmode) 24-24-Prefixed xmode wstr op
(+ (f-0-4 0) (f-4-4 1) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3)
(.sym dst32-24-24-Prefixed- xmode) (.sym Imm-48- xmode) (.sym Imm- base4 - xmode))
sem)
(insn-imm1-imm2-dst-defn (.sym Imm-40- xmode) (.sym Imm- base3 - xmode) 24-16-Prefixed xmode wstr op
(+ (f-0-4 0) (f-4-4 1) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3)
(.sym dst32-24-16-Prefixed- xmode) (.sym Imm-40- xmode) (.sym Imm- base3 - xmode))
sem)
(insn-imm1-imm2-dst-defn (.sym Imm-32- xmode) (.sym Imm- base2 - xmode) 24-8-Prefixed xmode wstr op
(+ (f-0-4 0) (f-4-4 1) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3)
(.sym dst32-24-8-Prefixed- xmode) (.sym Imm-32- xmode) (.sym Imm- base2 - xmode))
sem)
(insn-imm1-imm2-dst-defn (.sym Imm-24- xmode) (.sym Imm- base1 - xmode) basic-Prefixed xmode wstr op
(+ (f-0-4 0) (f-4-4 1) (f-8-4 opc1) (f-18-2 opc2) (f-15-1 wbit) (f-20-4 opc3)
(.sym dst32-basic-Prefixed- xmode) (.sym Imm-24- xmode) (.sym Imm- base1 - xmode))
sem)
)
)
; m32c Unprefixed variants
(define-pmacro (insn32-imm1-imm2-dst-Unprefixed-defn xmode wstr wbit base1 base2 base3 base4 op opc1 opc2 opc3 sem)
(begin
(insn-imm1-imm2-dst-defn (.sym Imm-40- xmode) (.sym Imm- base4 - xmode) 16-24-Unprefixed xmode wstr op
(+ (f-0-4 opc1) (f-10-2 opc2) (f-7-1 wbit) (f-12-4 opc3)
(.sym dst32-16-24-Unprefixed- xmode) (.sym Imm-40- xmode) (.sym Imm- base4 - xmode))
sem)
(insn-imm1-imm2-dst-defn (.sym Imm-32- xmode) (.sym Imm- base3 - xmode) 16-16-Unprefixed xmode wstr op
(+ (f-0-4 opc1) (f-10-2 opc2) (f-7-1 wbit) (f-12-4 opc3)
(.sym dst32-16-16-Unprefixed- xmode) (.sym Imm-32- xmode) (.sym Imm- base3 - xmode))
sem)
(insn-imm1-imm2-dst-defn (.sym Imm-24- xmode) (.sym Imm- base2 - xmode) 16-8-Unprefixed xmode wstr op
(+ (f-0-4 opc1) (f-10-2 opc2) (f-7-1 wbit) (f-12-4 opc3)
(.sym dst32-16-8-Unprefixed- xmode) (.sym Imm-24- xmode) (.sym Imm- base2 - xmode))
sem)
(insn-imm1-imm2-dst-defn (.sym Imm-16- xmode) (.sym Imm- base1 - xmode) basic-Unprefixed xmode wstr op
(+ (f-0-4 opc1) (f-10-2 opc2) (f-7-1 wbit) (f-12-4 opc3)
(.sym dst32-basic-Unprefixed- xmode) (.sym Imm-16- xmode) (.sym Imm- base1 - xmode))
sem)
)
)
(define-pmacro (insn-imm1-imm2-dst-Prefixed op opc32-1 opc32-2 opc32-3 sem)
(begin
(insn32-imm1-imm2-dst-Prefixed-defn QI .b 0 32 40 48 56 op opc32-1 opc32-2 opc32-3 sem)
(insn32-imm1-imm2-dst-Prefixed-defn HI .w 1 40 48 56 64 op opc32-1 opc32-2 opc32-3 sem)
)
)
(define-pmacro (insn-imm1-imm2-dst-Unprefixed op opc32-1 opc32-2 opc32-3 sem)
(begin
(insn32-imm1-imm2-dst-Unprefixed-defn QI .b 0 24 32 40 48 op opc32-1 opc32-2 opc32-3 sem)
(insn32-imm1-imm2-dst-Unprefixed-defn HI .w 1 32 40 48 56 op opc32-1 opc32-2 opc32-3 sem)
)
)
;=============================================================
; Insn definitions
;-------------------------------------------------------------
; abs - absolute
;-------------------------------------------------------------
(define-pmacro (abs-sem mode dst)
(sequence ((mode result))
(set result (abs mode dst))
(set obit (eq result dst))
(set-z-and-s result)
(set dst result))
)
(unary-insn abs (f-0-4 7) (f-4-3 3) (f-8-4 #xF) #xA #x1 #xF abs-sem)
;-------------------------------------------------------------
; adcf - addition carry flag
;-------------------------------------------------------------
(define-pmacro (adcf-sem mode dst)
(sequence ((mode result))
(set result (addc mode dst 0 cbit))
(set obit (add-oflag mode dst 0 cbit))
(set cbit (add-cflag mode dst 0 cbit))
(set-z-and-s result)
(set dst result))
)
(unary-insn adcf (f-0-4 7) (f-4-3 3) (f-8-4 #xE) #xB #x1 #xE adcf-sem)
;-------------------------------------------------------------
; add - binary addition
;-------------------------------------------------------------
(define-pmacro (add-sem mode src1 dst)
(sequence ((mode result))
(set result (add mode src1 dst))
(set obit (add-oflag mode src1 dst 0))
(set cbit (add-cflag mode src1 dst 0))
(set-z-and-s result)
(set dst result))
)
; add.L:G #imm32,dst (m32 #2)
(binary-arith32-imm-dst-defn SI SI .l 0 add G #x8 #x3 #x1 add-sem)
; add.size:G #imm,dst (m16 #1 m32 #1)
(binary-arith-imm-dst add G (f-0-4 7) (f-4-3 3) (f-8-4 4) #x8 #x2 #xE add-sem)
; add.size:Q #imm4,dst (m16 #2 m32 #3)
(binary-arith-imm4-dst add (f-0-4 #xC) (f-4-3 4) #x7 #x3 add-sem)
(binary-arith32-imm4-dst-defn SI .l 1 0 add #x7 #x3 add-sem)
; add.b:S #imm8,dst3 (m16 #3)
(binary-arith16-b-S-imm8-dst3 add ".b" (f-0-4 8) (f-4-1 0) add-sem)
; add.BW:Q #imm4,sp (m16 #7)
(binary-arith16-Q-sp add (f-0-4 7) (f-4-4 #xD) (f-8-4 #xB) add-sem)
(dnmi add16-bQ-sp "add16-bQ-sp" ()
"add.b:q #${Imm-12-s4},sp"
(emit add16-wQ-sp Imm-12-s4))
; add.BW:G #imm,sp (m16 #6)
(binary-arith16-G-sp add (f-0-4 7) (f-4-3 6) (f-8-4 #xE) (f-12-4 #xB) add-sem)
; add.BW:G src,dst (m16 #4 m32 #6)
(binary-arith-src-dst add G (f-0-4 #xA) (f-4-3 0) #x1 #x8 add-sem)
; add.B.S src2,r0l/r0h (m16 #5)
(binary-arith16-b-S-src2 add (f-0-4 2) (f-4-1 0) add-sem)
; add.L:G src,dst (m32 #7)
(binary-arith32-src-dst-defn SI SI .l 1 add G #x1 #x2 add-sem)
; add.L:S #imm{1,2},A0/A1 (m32 #5)
(binary-arith32-l-s-imm1-an add (f-0-2 2) (f-3-4 6) add-sem)
; add.L:Q #imm3,sp (m32 #9)
(binary-arith32-l-q-imm3-sp add (f-0-2 1) (f-4-3 1) add-sem)
; add.L:S #imm8,sp (m32 #10)
(binary-arith32-l-s-imm8-sp add (f-0-4 #xb) (f-4-4 6) (f-8-4 0) (f-12-4 3) add-sem)
; add.L:G #imm16,sp (m32 #8)
(binary-arith32-l-g-imm16-sp add (f-0-4 #xb) (f-4-4 6) (f-8-4 1) (f-12-4 3) add-sem)
; add.BW:S #imm,dst2 (m32 #4)
(binary-arith32-s-imm-dst QI .b 0 add #x0 #x3 add-sem)
(binary-arith32-s-imm-dst HI .w 1 add #x0 #x3 add-sem)
;-------------------------------------------------------------
; adc - binary add with carry
;-------------------------------------------------------------
(define-pmacro (addc-sem mode src dst)
(sequence ((mode result))
(set result (addc mode src dst cbit))
(set obit (add-oflag mode src dst cbit))
(set cbit (add-cflag mode src dst cbit))
(set-z-and-s result)
(set dst result))
)
; adc.size:G #imm,dst
(binary-arith16-imm-dst-defn QI QI .b 0 adc X (f-0-4 7) (f-4-3 3) (f-8-4 6) addc-sem)
(binary-arith16-imm-dst-defn HI HI .w 1 adc X (f-0-4 7) (f-4-3 3) (f-8-4 6) addc-sem)
(binary-arith32-imm-dst-Prefixed QI QI .b 0 adc X #x8 #x2 #xE addc-sem)
(binary-arith32-imm-dst-Prefixed HI HI .w 1 adc X #x8 #x2 #xE addc-sem)
; adc.BW:G src,dst
(binary-arith16-src-dst-defn QI QI .b 0 adc X (f-0-4 #xB) (f-4-3 0) addc-sem)
(binary-arith16-src-dst-defn HI HI .w 1 adc X (f-0-4 #xB) (f-4-3 0) addc-sem)
(binary-arith32-src-dst-Prefixed QI QI .b 0 adc X #x1 #x4 addc-sem)
(binary-arith32-src-dst-Prefixed HI HI .w 1 adc X #x1 #x4 addc-sem)
;-------------------------------------------------------------
; dadc - decimal add with carry
; dadd - decimal addition
;-------------------------------------------------------------
(define-pmacro (dadc-sem mode src dst)
(sequence ((mode result))
(set result (subc mode dst src (not cbit)))
(set cbit (sub-cflag mode dst src (not cbit)))
(set-z-and-s result)
(set dst result))
)
(define-pmacro (decimal-subtraction16-insn op opc1 opc2)
(begin
; op.b #imm8,r0l
(dni (.sym op 16.b-imm8)
(.str op ".b #imm8")
((machine 16))
(.str op ".b #${Imm-16-QI},r0l")
(+ (f-0-4 #x7) (f-4-4 #xC) (f-8-4 #xE) (f-12-4 opc1) Imm-16-QI)
((.sym op -sem) QI Imm-16-QI R0l)
())
; op.w #imm16,r0
(dni (.sym op 16.w-imm16)
(.str op ".b #imm16")
((machine 16))
(.str op ".w #${Imm-16-HI},r0")
(+ (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #xE) (f-12-4 opc1) Imm-16-HI)
((.sym op -sem) HI Imm-16-HI R0)
())
; op.b #r0h,r0l
(dni (.sym op 16.b-r0h-r0l)
(.str op ".b r0h,r0l")
((machine 16))
(.str op ".b r0h,r0l")
(+ (f-0-4 #x7) (f-4-4 #xC) (f-8-4 #xE) (f-12-4 opc2))
((.sym op -sem) QI R0h R0l)
())
; op.w #r1,r0
(dni (.sym op 16.w-r1-r0)
(.str op ".b r1,r0")
((machine 16))
(.str op ".w r1,r0")
(+ (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #xE) (f-12-4 opc2))
((.sym op -sem) HI R1 R0)
())
)
)
; dadc for m16c
(decimal-subtraction16-insn dadc #xE #x6 )
; dadc.size #imm,dst
(binary-arith32-imm-dst-Prefixed QI QI .b 0 dadc X #x8 #x0 #xE dadc-sem)
(binary-arith32-imm-dst-Prefixed HI HI .w 1 dadc X #x8 #x0 #xE dadc-sem)
; dadc.BW src,dst
(binary-arith32-src-dst-Prefixed QI QI .b 0 dadc X #x1 #x8 dadc-sem)
(binary-arith32-src-dst-Prefixed HI HI .w 1 dadc X #x1 #x8 dadc-sem)
(define-pmacro (dadd-sem mode src dst)
(sequence ((mode result))
(set result (subc mode dst src 0))
(set cbit (sub-cflag mode dst src 0))
(set-z-and-s result)
(set dst result))
)
; dadd for m16c
(decimal-subtraction16-insn dadd #xC #x4)
; dadd.size #imm,dst
(binary-arith32-imm-dst-Prefixed QI QI .b 0 dadd X #x8 #x1 #xE dadd-sem)
(binary-arith32-imm-dst-Prefixed HI HI .w 1 dadd X #x8 #x1 #xE dadd-sem)
; dadd.BW src,dst
(binary-arith32-src-dst-Prefixed QI QI .b 0 dadd X #x1 #x0 dadd-sem)
(binary-arith32-src-dst-Prefixed HI HI .w 1 dadd X #x1 #x0 dadd-sem)
;-------------------------------------------------------------;
; addx - Add extend sign with no carry
;-------------------------------------------------------------;
(define-pmacro (addx-sem mode src dst)
(sequence ((SI source) (SI result))
(set source (zext SI (trunc QI src)))
(set result (add SI source dst))
(set obit (add-oflag SI source dst 0))
(set cbit (add-cflag SI source dst 0))
(set-z-and-s result)
(set dst result))
)
; addx #imm,dst
(binary-arith32-imm-dst-defn QI SI "" 0 addx X #x8 #x1 #x1 addx-sem)
; addx src,dst
(binary-arith32-src-dst-defn QI SI "" 0 addx X #x1 #x2 addx-sem)
;-------------------------------------------------------------
; adjnz - Add/Sub and branch if not zero
;-------------------------------------------------------------
(define-pmacro (arith-jnz-sem mode src dst label)
(sequence ((mode result))
(set result (add mode src dst))
(set dst result)
(if (ne result 0)
(set pc label)))
)
; adjnz.size #imm4,dst,label
(arith-jnz-imm4-dst adjnz s4 (f-0-4 #xF) (f-4-3 4) #xf #x1 arith-jnz-sem)
;-------------------------------------------------------------
; and - binary and
;-------------------------------------------------------------
(define-pmacro (and-sem mode src1 dst)
(sequence ((mode result))
(set result (and mode src1 dst))
(set-z-and-s result)
(set dst result))
)
; and.size:G #imm,dst (m16 #1 m32 #1)
(binary-arith-imm-dst and G (f-0-4 7) (f-4-3 3) (f-8-4 2) #x8 #x3 #xF and-sem)
; and.b:S #imm8,dst3 (m16 #2)
(binary-arith16-b-S-imm8-dst3 and ".b" (f-0-4 9) (f-4-1 0) and-sem)
; and.BW:G src,dst (m16 #3 m32 #3)
(binary-arith-src-dst and G (f-0-4 #x9) (f-4-3 0) #x1 #xD and-sem)
; and.B.S src2,r0l/r0h (m16 #4)
(binary-arith16-b-S-src2 and (f-0-4 1) (f-4-1 0) and-sem)
; and.BW:S #imm,dst2 (m32 #2)
(binary-arith32-s-imm-dst QI .b 0 and #x1 #x6 and-sem)
(binary-arith32-s-imm-dst HI .w 1 and #x1 #x6 and-sem)
;-------------------------------------------------------------
; band - bit and
;-------------------------------------------------------------
(define-pmacro (band-sem src)
(set cbit (and src cbit))
)
(bitsrc-insn band (f-0-4 7) (f-4-4 #xE) (f-8-4 4) #xD #x0 #x1 band-sem)
;-------------------------------------------------------------
; bclr - bit clear
;-------------------------------------------------------------
(define-pmacro (bclr-sem dst)
(set dst 0)
)
(bitdst-insn bclr (f-0-4 7) (f-4-4 #xE) (f-8-4 8) (f-0-2 1) (f-2-2 0) (f-4-1 0) #xD #x0 #x6 bclr-sem)
;-------------------------------------------------------------
; bitindex - bit index
;-------------------------------------------------------------
(define-pmacro (bitindex-sem mode dst)
(set BitIndex dst)
)
(unary-insn-defn 32 16-Unprefixed QI .b bitindex
(+ (f-0-4 #xC) (f-7-1 0) dst32-16-Unprefixed-QI (f-10-2 #x2) (f-12-4 #xE))
bitindex-sem)
(unary-insn-defn 32 16-Unprefixed HI .w bitindex
(+ (f-0-4 #xC) (f-7-1 1) dst32-16-Unprefixed-HI (f-10-2 #x2) (f-12-4 #xE))
bitindex-sem)
;-------------------------------------------------------------
; bmCnd - bit move condition
;-------------------------------------------------------------
(define-pmacro (test-condition16 cond)
(case UQI cond
((#x00) (trunc BI cbit))
((#x01) (not (or cbit zbit)))
((#x02) (trunc BI zbit))
((#x03) (trunc BI sbit))
((#x04) (or zbit (xor sbit obit)))
((#x05) (trunc BI obit))
((#x06) (xor sbit obit))
((#xf8) (not cbit))
((#xf9) (or cbit zbit))
((#xfa) (not zbit))
((#xfb) (not sbit))
((#xfc) (not (or zbit (xor sbit obit))))
((#xfd) (not obit))
((#xfe) (not (xor sbit obit)))
(else (const BI 0))
)
)
(define-pmacro (test-condition32 cond)
(case UQI cond
((#x00) (not cbit))
((#x01) (or cbit zbit))
((#x02) (not zbit))
((#x03) (not sbit))
((#x04) (not obit))
((#x05) (not (or zbit (xor sbit obit))))
((#x06) (not (xor sbit obit)))
((#x08) (trunc BI cbit))
((#x09) (not (or cbit zbit)))
((#x0a) (trunc BI zbit))
((#x0b) (trunc BI sbit))
((#x0c) (trunc BI obit))
((#x0d) (or zbit (xor sbit obit)))
((#x0e) (xor sbit obit))
(else (const BI 0))
)
)
(define-pmacro (bitcond-sem mach op cond)
(if ((.sym test-condition mach) cond)
(set op 1)
(set op 0))
)
(bitcond-insn bm (f-0-4 7) (f-4-4 #xE) (f-8-4 2) #xD #x0 #x2 bitcond-sem)
(dni bm16-c
"bm16 C"
((machine 16))
"bm$cond16c c"
(+ (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #xD) cond16c)
(bitcond-sem 16 cbit cond16c)
())
(dni bm32-c
"bm32 C"
((machine 32))
"bm$cond32 c"
(+ (f-0-4 #xD) (f-4-4 #x9) (f-8-1 0) (f-10-3 5) cond32)
(bitcond-sem 32 cbit cond32)
())
;-------------------------------------------------------------
; bnand
;-------------------------------------------------------------
(define-pmacro (bnand-sem src)
(set cbit (and (inv src) cbit))
)
(bitsrc-insn bnand (f-0-4 7) (f-4-4 #xE) (f-8-4 5) #xD #x0 #x3 bnand-sem)
;-------------------------------------------------------------
; bnor
;-------------------------------------------------------------
(define-pmacro (bnor-sem src)
(set cbit (or (inv src) cbit))
)
(bitsrc-insn bnor (f-0-4 7) (f-4-4 #xE) (f-8-4 7) #xD #x0 #x6 bnor-sem)
;-------------------------------------------------------------
; bnot
;-------------------------------------------------------------
(define-pmacro (bnot-sem dst)
(set dst (inv dst))
)
(bitdst-insn bnot (f-0-4 7) (f-4-4 #xE) (f-8-4 #xA) (f-0-2 1) (f-2-2 1) (f-4-1 0) #xD #x0 #x3 bnot-sem)
;-------------------------------------------------------------
; bntst
;-------------------------------------------------------------
(define-pmacro (bntst-sem src)
(set cbit (inv src))
(set zbit (inv src))
)
(bitsrc-insn bntst (f-0-4 7) (f-4-4 #xE) (f-8-4 3) #xD #x0 #x0 bntst-sem)
;-------------------------------------------------------------
; bnxor
;-------------------------------------------------------------
(define-pmacro (bnxor-sem src)
(set cbit (xor (inv src) cbit))
)
(bitsrc-insn bnxor (f-0-4 7) (f-4-4 #xE) (f-8-4 #xD) #xD #x0 #x7 bnxor-sem)
;-------------------------------------------------------------
; bor
;-------------------------------------------------------------
(define-pmacro (bor-sem src)
(set cbit (or src cbit))
)
(bitsrc-insn bor (f-0-4 7) (f-4-4 #xE) (f-8-4 #x6) #xD #x0 #x4 bor-sem)
;-------------------------------------------------------------
; brk
;-------------------------------------------------------------
(dni brk16
"brk"
((machine 16))
"brk"
(+ (f-0-4 #x0) (f-4-4 #x0))
(nop)
())
(dni brk32
"brk"
((machine 32))
"brk"
(+ (f-0-4 #x0) (f-4-4 #x0))
(nop)
())
;-------------------------------------------------------------
; brk2
;-------------------------------------------------------------
(dni brk232
"brk2"
((machine 32))
"brk2"
(+ (f-0-4 #x0) (f-4-4 #x8))
(nop)
())
;-------------------------------------------------------------
; bset
;-------------------------------------------------------------
(define-pmacro (bset-sem dst)
(set dst 1)
)
(bitdst-insn bset (f-0-4 7) (f-4-4 #xE) (f-8-4 9) (f-0-2 1) (f-2-2 0) (f-4-1 1) #xD #x0 #x7 bset-sem)
;-------------------------------------------------------------
; btst
;-------------------------------------------------------------
(define-pmacro (btst-sem dst)
(set zbit (inv dst))
(set cbit dst)
)
(bitdst16-defn btst (f-0-4 7) (f-4-4 #xE) (f-8-4 #xB) (f-0-2 1) (f-2-2 1) (f-4-1 1) btst-sem)
(bit-insn-defn 32 btst G bit32-16-Unprefixed
(+ (f-0-4 #xD) bit32-16-Unprefixed (f-7-1 #x0) (f-10-3 #x0))
btst-sem)
(dni btst.s "btst:s" ((machine 32))
"btst:s ${Bit3-S},${Dsp-8-u16}"
(+ (f-0-2 #x0) (f-4-3 #x5) Bit3-S Dsp-8-u16)
() ())
;-------------------------------------------------------------
; btstc
;-------------------------------------------------------------
(define-pmacro (btstc-sem dst)
(set zbit (inv dst))
(set cbit dst)
(set dst (const 0))
)
(bitdstnos-insn btstc (f-0-4 7) (f-4-4 #xE) (f-8-4 #x0) #xD #x0 #x4 btstc-sem)
;-------------------------------------------------------------
; btsts
;-------------------------------------------------------------
(define-pmacro (btsts-sem dst)
(set zbit (inv dst))
(set cbit dst)
(set dst (const 0))
)
(bitdstnos-insn btsts (f-0-4 7) (f-4-4 #xE) (f-8-4 #x1) #xD #x0 #x5 btsts-sem)
;-------------------------------------------------------------
; bxor
;-------------------------------------------------------------
(define-pmacro (bxor-sem src)
(set cbit (xor src cbit))
)
(bitsrc-insn bxor (f-0-4 7) (f-4-4 #xE) (f-8-4 #xC) #xD #x0 #x5 bxor-sem)
;-------------------------------------------------------------
; clip
;-------------------------------------------------------------
(define-pmacro (clip-sem mode imm1 imm2 dest)
(sequence ()
(if (gt mode imm1 dest)
(set dest imm1))
(if (lt mode imm2 dest)
(set dest imm2)))
)
(insn-imm1-imm2-dst-Prefixed clip #x8 #x3 #xE clip-sem)
;-------------------------------------------------------------
; cmp - binary compare
;-------------------------------------------------------------
(define-pmacro (cmp-sem mode src1 dst)
(sequence ((mode result))
(set result (sub mode dst src1))
(set obit (sub-oflag mode dst src1 0))
(set cbit (not (sub-cflag mode dst src1 0)))
(set-z-and-s result))
)
; cmp.L:G #imm32,dst (m32 #2)
(binary-arith32-imm-dst-defn SI SI .l 0 cmp G #xA #x3 #x1 cmp-sem)
; cmp.size:G #imm,dst (m16 #1 m32 #1)
(binary-arith-imm-dst cmp G (f-0-4 7) (f-4-3 3) (f-8-4 8) #x9 #x2 #xE cmp-sem)
; cmp.size:Q #imm4,dst (m16 #2 m32 #3)
(binary-arith-imm4-dst cmp (f-0-4 #xD) (f-4-3 0) #x7 #x1 cmp-sem)
; cmp.b:S #imm8,dst3 (m16 #3)
(binary-arith16-b-S-imm8-dst3 cmp ".b" (f-0-4 #xE) (f-4-1 0) cmp-sem)
; cmp.BW:G src,dst (m16 #4 m32 #5)
(binary-arith-src-dst cmp G (f-0-4 #xC) (f-4-3 0) #x1 #x6 cmp-sem)
; cmp.B.S src2,r0l/r0h (m16 #5)
(binary-arith16-b-S-src2 cmp (f-0-4 3) (f-4-1 1) cmp-sem)
; cmp.L:G src,dst (m32 #6)
(binary-arith32-src-dst-defn SI SI .l 1 cmp G #x1 #x1 cmp-sem)
; cmp.BW:S #imm,dst2 (m32 #4)
(binary-arith32-s-imm-dst QI .b 0 cmp #x1 #x3 cmp-sem)
(binary-arith32-s-imm-dst HI .w 1 cmp #x1 #x3 cmp-sem)
; cmp.BW:s src2,r0[l] (m32 #7)
(binary-arith32-S-src2 cmp QI .b 0 (f-0-2 1) (f-4-3 0) cmp-sem)
(binary-arith32-S-src2 cmp HI .w 1 (f-0-2 1) (f-4-3 0) cmp-sem)
;-------------------------------------------------------------
; cmpx - binary compare extend sign
;-------------------------------------------------------------
(define-pmacro (cmpx-sem mode src1 dst)
(sequence ((mode result))
(set result (sub mode dst (ext mode src1)))
(set obit (sub-oflag mode dst (ext mode src1) 0))
(set cbit (sub-cflag mode dst (ext mode src1) 0))
(set-z-and-s result))
)
(binary-arith32-imm-dst-defn QI SI "" 0 cmpx X #xA #x1 #x1 cmpx-sem)
;-------------------------------------------------------------
; dec - decrement
;-------------------------------------------------------------
(define-pmacro (dec-sem mode dest)
(sequence ((mode result))
(set result (sub mode dest 1))
(set-z-and-s result)
(set dest result))
)
(dni dec16.b
"dec.b Dst16-3-S-8"
((machine 16))
"dec.b ${Dst16-3-S-8}"
(+ (f-0-4 #xA) (f-4-1 #x1) Dst16-3-S-8)
(dec-sem QI Dst16-3-S-8)
())
(dni dec16.w
"dec.w Dst16An-S"
((machine 16))
"dec.w ${Dst16An-S}"
(+ (f-0-4 #xF) (f-5-3 #x2) Dst16An-S)
(dec-sem HI Dst16An-S)
())
(unary32-defn QI .b 0 dec #xB #x0 #xE dec-sem)
(unary32-defn HI .w 1 dec #xB #x0 #xE dec-sem)
;-------------------------------------------------------------
; div - divide
; divu - divide unsigned
; divx - divide extension
;-------------------------------------------------------------
; div.BW #imm
(div-imm div div mod SI 127 -128 32767 -32768 (f-0-4 #x7) (f-4-3 6) (f-8-4 #xE) (f-12-4 #x1) #xB #x0 #x2 #x3 div-sem)
(div-imm divu udiv umod USI 255 0 65535 0 (f-0-4 #x7) (f-4-3 6) (f-8-4 #xE) (f-12-4 #x0) #xB #x0 #x0 #x3 div-sem)
(div-imm divx div mod SI 127 -128 32767 -32768 (f-0-4 #x7) (f-4-3 6) (f-8-4 #xE) (f-12-4 #x3) #xB #x2 #x2 #x3 div-sem)
; div.BW src
(div-src div div mod SI 127 -128 32767 -32768 (f-0-4 #x7) (f-4-3 3) (f-8-4 #xD) #x8 #x1 #xE div-sem)
(div-src divu udiv umod USI 255 0 65535 0 (f-0-4 #x7) (f-4-3 3) (f-8-4 #xC) #x8 #x0 #xE div-sem)
(div-src divx div mod SI 127 -128 32767 -32768 (f-0-4 #x7) (f-4-3 3) (f-8-4 #x9) #x9 #x1 #xE div-sem)
(div-src-defn 32 .l div dst32-24-Prefixed-SI
(+ (f-0-4 0) (f-4-4 1) (f-8-4 #xA) (f-15-1 1) (f-18-2 #x1) (f-20-4 #xf) dst32-24-Prefixed-SI)
div mod SI R2R0 R2R0 NoRemainder #x7fffffff (neg SI #x80000000)
div-sem)
(div-src-defn 32 .l divu dst32-24-Prefixed-SI
(+ (f-0-4 0) (f-4-4 1) (f-8-4 #xA) (f-15-1 1) (f-18-2 #x0) (f-20-4 #xf) dst32-24-Prefixed-SI)
udiv umod USI R2R0 R2R0 NoRemainder #x80000000 0
div-sem)
(div-src-defn 32 .l divx dst32-24-Prefixed-SI
(+ (f-0-4 0) (f-4-4 1) (f-8-4 #xA) (f-15-1 1) (f-18-2 #x2) (f-20-4 #xf) dst32-24-Prefixed-SI)
div mod SI R2R0 R2R0 NoRemainder #x7fffffff (neg SI #x80000000)
div-sem)
;-------------------------------------------------------------
; dsbb - decimal subtraction with borrow
; dsub - decimal subtraction
;-------------------------------------------------------------
(define-pmacro (dsbb-sem mode src dst)
(sequence ((mode result))
(set result (subc mode dst src (not cbit)))
(set cbit (sub-cflag mode dst src (not cbit)))
(set-z-and-s result)
(set dst result))
)
; dsbb for m16c
(decimal-subtraction16-insn dsbb #xF #x7)
; dsbb.size #imm,dst
(binary-arith32-imm-dst-Prefixed QI QI .b 0 dsbb X #x9 #x0 #xE dsbb-sem)
(binary-arith32-imm-dst-Prefixed HI HI .w 1 dsbb X #x9 #x0 #xE dsbb-sem)
; dsbb.BW src,dst
(binary-arith32-src-dst-Prefixed QI QI .b 0 dsbb X #x1 #xA dsbb-sem)
(binary-arith32-src-dst-Prefixed HI HI .w 1 dsbb X #x1 #xA dsbb-sem)
(define-pmacro (dsub-sem mode src dst)
(sequence ((mode result))
(set result (subc mode dst src 0))
(set cbit (sub-cflag mode dst src 0))
(set-z-and-s result)
(set dst result))
)
; dsub for m16c
(decimal-subtraction16-insn dsub #xD #x5)
; dsub.size #imm,dst
(binary-arith32-imm-dst-Prefixed QI QI .b 0 dsub X #x9 #x1 #xE dsub-sem)
(binary-arith32-imm-dst-Prefixed HI HI .w 1 dsub X #x9 #x1 #xE dsub-sem)
; dsub.BW src,dst
(binary-arith32-src-dst-Prefixed QI QI .b 0 dsub X #x1 #x2 dsub-sem)
(binary-arith32-src-dst-Prefixed HI HI .w 1 dsub X #x1 #x2 dsub-sem)
;-------------------------------------------------------------
; sub - binary subtraction
;-------------------------------------------------------------
(define-pmacro (sub-sem mode src1 dst)
(sequence ((mode result))
(set result (sub mode dst src1))
(set obit (sub-oflag mode dst src1 0))
(set cbit (sub-cflag mode dst src1 0))
(set dst result)
(set-z-and-s result)))
; sub.size:G #imm,dst (m16 #1 m32 #1)
(binary-arith-imm-dst sub G (f-0-4 7) (f-4-3 3) (f-8-4 5) #x8 #x3 #xE sub-sem)
; sub.b:S #imm8,dst3 (m16 #2)
(binary-arith16-b-S-imm8-dst3 sub ".b" (f-0-4 8) (f-4-1 1) sub-sem)
; sub.BW:G src,dst (m16 #3 m32 #4)
(binary-arith-src-dst sub G (f-0-4 #xA) (f-4-3 4) #x1 #xA sub-sem)
; sub.B.S src2,r0l/r0h (m16 #4)
(binary-arith16-b-S-src2 sub (f-0-4 2) (f-4-1 1) sub-sem)
; sub.L:G #imm32,dst (m32 #2)
(binary-arith32-imm-dst-defn SI SI .l 0 sub G #x9 #x3 #x1 sub-sem)
; sub.BW:S #imm,dst2 (m32 #3)
(binary-arith32-s-imm-dst QI .b 0 sub #x0 #x7 sub-sem)
(binary-arith32-s-imm-dst HI .w 1 sub #x0 #x7 sub-sem)
; sub.L:G src,dst (m32 #5)
(binary-arith32-src-dst-defn SI SI .l 1 sub G #x1 #x0 sub-sem)
;-------------------------------------------------------------
; enter - enter function
; exitd - exit and deallocate stack frame
;-------------------------------------------------------------
(define-pmacro (enter16-sem mach amt)
(sequence ()
(set (reg h-sp) (sub (reg h-sp) 2))
(set (mem16 HI (reg h-sp)) (reg h-fb))
(set (reg h-fb) (reg h-sp))
(set (reg h-sp) (sub (reg h-sp) amt))))
(define-pmacro (exit16-sem mach)
(sequence ((SI newpc))
(set (reg h-sp) (reg h-fb))
(set (reg h-fb) (mem16 HI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) 2))
(set newpc (mem16 HI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) 2))
(set newpc (or newpc (sll (mem16 QI (reg h-sp)) (const 16))))
(set (reg h-sp) (add (reg h-sp) 1))
(set pc newpc)))
(define-pmacro (enter32-sem mach amt)
(sequence ()
(set (reg h-sp) (sub (reg h-sp) 4))
(set (mem32 SI (reg h-sp)) (reg h-fb))
(set (reg h-fb) (reg h-sp))
(set (reg h-sp) (sub (reg h-sp) amt))))
(define-pmacro (exit32-sem mach)
(sequence ((SI newpc))
(set (reg h-sp) (reg h-fb))
(set (reg h-fb) (mem32 SI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) 4))
(set newpc (mem32 SI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) 4))
(set pc newpc)))
(dni enter16 "enter #Imm-16-QI" ((machine 16))
("enter #${Dsp-16-u8}")
(+ (f-0-4 7) (f-4-4 #xC) (f-8-4 #xF) (f-12-4 2) Dsp-16-u8)
(enter16-sem 16 Dsp-16-u8)
())
(dni exitd16 "exitd" ((machine 16))
("exitd")
(+ (f-0-4 7) (f-4-4 #xD) (f-8-4 #xF) (f-12-4 2))
(exit16-sem 16)
())
(dni enter32 "enter #Imm-8-QI" ((machine 32))
("enter #${Dsp-8-u8}")
(+ (f-0-4 #xE) (f-4-4 #xC) Dsp-8-u8)
(enter32-sem 32 Dsp-8-u8)
())
(dni exitd32 "exitd" ((machine 32))
("exitd")
(+ (f-0-4 #xF) (f-4-4 #xC))
(exit32-sem 32)
())
;-------------------------------------------------------------
; fclr - flag register clear
; fset - flag register set
;-------------------------------------------------------------
(define-pmacro (set-flags-sem flag)
(sequence ((SI tmp))
(case DFLT flag
((#x0) (set cbit 1))
((#x1) (set dbit 1))
((#x2) (set zbit 1))
((#x3) (set sbit 1))
((#x4) (set bbit 1))
((#x5) (set obit 1))
((#x6) (set ibit 1))
((#x7) (set ubit 1)))
)
)
(define-pmacro (clear-flags-sem flag)
(sequence ((SI tmp))
(case DFLT flag
((#x0) (set cbit 0))
((#x1) (set dbit 0))
((#x2) (set zbit 0))
((#x3) (set sbit 0))
((#x4) (set bbit 0))
((#x5) (set obit 0))
((#x6) (set ibit 0))
((#x7) (set ubit 0)))
)
)
(dni fclr16 "fclr flag" ((machine 16))
("fclr ${flags16}")
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-1 0) flags16 (f-12-4 5))
(clear-flags-sem flags16)
())
(dni fset16 "fset flag" ((machine 16))
("fset ${flags16}")
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-1 0) flags16 (f-12-4 4))
(set-flags-sem flags16)
())
(dni fclr "fclr" ((machine 32))
("fclr ${flags32}")
(+ (f-0-4 #xD) (f-4-4 3) (f-8-4 #xE) (f-12-1 1) flags32)
(clear-flags-sem flags32)
())
(dni fset "fset" ((machine 32))
("fset ${flags32}")
(+ (f-0-4 #xD) (f-4-4 1) (f-8-4 #xE) (f-12-1 1) flags32)
(set-flags-sem flags32)
())
;-------------------------------------------------------------
; inc - increment
;-------------------------------------------------------------
(define-pmacro (inc-sem mode dest)
(sequence ((mode result))
(set result (add mode dest 1))
(set-z-and-s result)
(set dest result))
)
(dni inc16.b
"inc.b Dst16-3-S-8"
((machine 16))
"inc.b ${Dst16-3-S-8}"
(+ (f-0-4 #xA) (f-4-1 #x0) Dst16-3-S-8)
(inc-sem QI Dst16-3-S-8)
())
(dni inc16.w
"inc.w Dst16An-S"
((machine 16))
"inc.w ${Dst16An-S}"
(+ (f-0-4 #xB) (f-5-3 #x2) Dst16An-S)
(inc-sem HI Dst16An-S)
())
(unary32-defn QI .b 0 inc #xA #x0 #xE inc-sem)
(unary32-defn HI .w 1 inc #xA #x0 #xE inc-sem)
;-------------------------------------------------------------
; freit - fast return from interrupt (m32)
; int - interrupt
; into - interrupt on overflow
;-------------------------------------------------------------
; ??? semantics
(dni freit32 "FREIT" ((machine 32))
("freit")
(+ (f-0-4 9) (f-4-4 #xF))
(nop)
())
(dni int16 "int Dsp-10-u6" ((machine 16))
("int #${Dsp-10-u6}")
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-2 3) Dsp-10-u6)
(c-call VOID "do_int" pc Dsp-10-u6)
())
(dni into16 "into" ((machine 16))
("into")
(+ (f-0-4 #xF) (f-4-4 6))
(nop)
())
(dni int32 "int Dsp-8-u6" ((machine 32))
("int #${Dsp-8-u6}")
(+ (f-0-4 #xB) (f-4-4 #xE) Dsp-8-u6 (f-14-2 0))
(c-call VOID "do_int" pc Dsp-8-u6)
())
(dni into32 "into" ((machine 32))
("into")
(+ (f-0-4 #xB) (f-4-4 #xF))
(nop)
())
;-------------------------------------------------------------
; index (m32c)
;-------------------------------------------------------------
; TODO add support to insns allowing index
(define-pmacro (indexb-sem mode d) (set SrcIndex d) (set DstIndex d))
(define-pmacro (indexbd-sem mode d) (set SrcIndex (const 0)) (set DstIndex d))
(define-pmacro (indexbs-sem mode d) (set SrcIndex d) (set DstIndex (const 0)))
(define-pmacro (indexw-sem mode d)
(set SrcIndex (sll d (const 2))) (set DstIndex (sll d (const 2))))
(define-pmacro (indexwd-sem mode d)
(set SrcIndex (const 0)) (set DstIndex (sll d (const 2))))
(define-pmacro (indexws-sem mode d)
(set SrcIndex (sll d (const 2))) (set DstIndex (const 0)))
(define-pmacro (indexl-sem mode d)
(set SrcIndex d) (set DstIndex (sll d (const 2))))
(define-pmacro (indexld-sem mode d)
(set SrcIndex (const 0)) (set DstIndex (sll d (const 2))))
(define-pmacro (indexls-sem mode d)
(set SrcIndex (sll d (const 2))) (set DstIndex (const 0)))
; Note that "wbit" not where the size bit goes here, hence, it's
; always 0 in these calls but op2 differs instead.
; indexb src (index byte)
(unary32-defn QI .b 0 indexb #x8 0 #x3 indexb-sem)
(unary32-defn HI .w 0 indexb #x8 1 #x3 indexb-sem)
; indexbd src (index byte dest)
(unary32-defn QI .b 0 indexbd #xA 0 3 indexbd-sem)
(unary32-defn HI .w 0 indexbd #xA 1 3 indexbd-sem)
; indexbs src (index byte src)
(unary32-defn QI .b 0 indexbs #xC 0 3 indexbs-sem)
(unary32-defn HI .w 0 indexbs #xC 1 3 indexbs-sem)
; indexl src (index long)
(unary32-defn QI .b 0 indexl 9 2 3 indexl-sem)
(unary32-defn HI .w 0 indexl 9 3 3 indexl-sem)
; indexld src (index long dest)
(unary32-defn QI .b 0 indexld #xB 2 3 indexld-sem)
(unary32-defn HI .w 0 indexld #xB 3 3 indexld-sem)
; indexls src (index long src)
(unary32-defn QI .b 0 indexls 9 0 3 indexls-sem)
(unary32-defn HI .w 0 indexls 9 1 3 indexls-sem)
; indexw src (index word)
(unary32-defn QI .b 0 indexw 8 2 3 indexw-sem)
(unary32-defn HI .w 0 indexw 8 3 3 indexw-sem)
; indexwd src (index word dest)
(unary32-defn QI .b 0 indexwd #xA 2 3 indexwd-sem)
(unary32-defn HI .w 0 indexwd #xA 3 3 indexwd-sem)
; indexws (index word src)
(unary32-defn QI .b 0 indexws #xC 2 3 indexws-sem)
(unary32-defn HI .w 0 indexws #xC 3 3 indexws-sem)
;-------------------------------------------------------------
; jcc - jump on condition
;-------------------------------------------------------------
(define-pmacro (jcnd32-sem cnd label)
(sequence ()
(case DFLT cnd
((#x00) (if (not cbit) (set pc label))) ;ltu nc
((#x01) (if (not (and cbit (not zbit))) (set pc label))) ;leu
((#x02) (if (not zbit) (set pc label))) ;ne nz
((#x03) (if (not sbit) (set pc label))) ;pz
((#x04) (if (not obit) (set pc label))) ;no
((#x05) (if (not (or zbit (xor sbit obit))) (set pc label))) ;gt
((#x06) (if (not (xor sbit obit)) (set pc label))) ;ge
((#x08) (if (trunc BI cbit) (set pc label))) ;geu c
((#x09) (if (and cbit (not zbit)) (set pc label))) ;gtu
((#x0a) (if (trunc BI zbit) (set pc label))) ;eq z
((#x0b) (if (trunc BI sbit) (set pc label))) ;n
((#x0c) (if (trunc BI obit) (set pc label))) ;o
((#x0d) (if (or zbit (xor sbit obit)) (set pc label))) ;le
((#x0e) (if (xor sbit obit) (set pc label))) ;lt
)
)
)
(define-pmacro (jcnd16-sem cnd label)
(sequence ()
(case DFLT cnd
((#x00) (if (trunc BI cbit) (set pc label))) ;geu c
((#x01) (if (and cbit (not zbit)) (set pc label))) ;gtu
((#x02) (if (trunc BI zbit) (set pc label))) ;eq z
((#x03) (if (trunc BI sbit) (set pc label))) ;n
((#x04) (if (not cbit) (set pc label))) ;ltu nc
((#x05) (if (not (and cbit (not zbit))) (set pc label))) ;leu
((#x06) (if (not zbit) (set pc label))) ;ne nz
((#x07) (if (not sbit) (set pc label))) ;pz
((#x08) (if (or zbit (xor sbit obit)) (set pc label))) ;le
((#x09) (if (trunc BI obit) (set pc label))) ;o
((#x0a) (if (not (xor sbit obit)) (set pc label))) ;ge
((#x0c) (if (not (or zbit (xor sbit obit))) (set pc label))) ;gt
((#x0d) (if (not obit) (set pc label))) ;no
((#x0e) (if (xor sbit obit) (set pc label))) ;lt
)
)
)
(dni jcnd16-5
"jCnd label"
(RL_JUMP RELAXABLE (machine 16))
"j$cond16j5 ${Lab-8-8}"
(+ (f-0-4 #x6) (f-4-1 1) cond16j5 Lab-8-8)
(jcnd16-sem cond16j5 Lab-8-8)
()
)
(dni jcnd16
"jCnd label"
(RL_JUMP RELAXABLE (machine 16))
"j$cond16j ${Lab-16-8}"
(+ (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #xC) cond16j Lab-16-8)
(jcnd16-sem cond16j Lab-16-8)
()
)
(dni jcnd32
"jCnd label"
(RL_JUMP RELAXABLE (machine 32))
"j$cond32j ${Lab-8-8}"
(+ (f-0-1 1) (f-4-3 5) cond32j Lab-8-8)
(jcnd32-sem cond32j Lab-8-8)
()
)
;-------------------------------------------------------------
; jmp - jump
;-------------------------------------------------------------
; jmp.s label3 (m16 #1)
(dni jmp16.s "jmp.s Lab-5-3" (RL_JUMP RELAXABLE (machine 16))
("jmp.s ${Lab-5-3}")
(+ (f-0-4 6) (f-4-1 0) Lab-5-3)
(sequence () (set pc Lab-5-3))
())
; jmp.b label8 (m16 #2)
(dni jmp16.b "jmp.b Lab-8-8" (RL_JUMP RELAXABLE (machine 16))
("jmp.b ${Lab-8-8}")
(+ (f-0-4 #xF) (f-4-4 #xE) Lab-8-8)
(sequence () (set pc Lab-8-8))
())
; jmp.w label16 (m16 #3)
(dni jmp16.w "jmp.w Lab-8-16" (RL_JUMP RELAXABLE (machine 16))
("jmp.w ${Lab-8-16}")
(+ (f-0-4 #xF) (f-4-4 4) Lab-8-16)
(sequence () (set pc Lab-8-16))
())
; jmp.a label24 (m16 #4)
(dni jmp16.a "jmp.a Lab-8-24" (RL_JUMP RELAXABLE (machine 16))
("jmp.a ${Lab-8-24}")
(+ (f-0-4 #xF) (f-4-4 #xC) Lab-8-24)
(sequence () (set pc Lab-8-24))
())
(define-pmacro (jmp16-sem mode dst)
(set pc (and dst #xfffff))
)
(define-pmacro (jmp32-sem mode dst)
(set pc dst)
)
; jmpi.w dst (m16 #1 m32 #2)
(unary-insn-defn 16 16 HI .w jmpi (+ (f-0-4 7) (f-4-4 #xD) (f-8-4 2) dst16-16-HI) jmp16-sem)
(unary-insn-defn 32 16-Unprefixed HI .w jmpi (+ (f-0-4 #xC) (f-7-1 1) dst32-16-Unprefixed-HI (f-10-2 #x0) (f-12-4 #xF)) jmp32-sem)
; jmpi.a dst (m16 #2 m32 #2)
(unary-insn-defn 16 16 SI .a jmpi (+ (f-0-4 7) (f-4-4 #xD) (f-8-4 0) dst16-16-SI) jmp16-sem)
(unary-insn-defn 32 16-Unprefixed SI .a jmpi (+ (f-0-4 #x8) (f-7-1 0) dst32-16-Unprefixed-SI (f-10-2 #x0) (f-12-4 1)) jmp32-sem)
; jmps imm8 (m16 #1)
(dni jmps16 "jmps Imm-8-QI" ((machine 16))
("jmps #${Imm-8-QI}")
(+ (f-0-4 #xE) (f-4-4 #xE) Imm-8-QI)
(sequence () (set pc Imm-8-QI))
())
; jmp.s label3 (m32 #1)
(dni jmp32.s
"jmp.s label"
(RL_JUMP RELAXABLE (machine 32))
"jmp.s ${Lab32-jmp-s}"
(+ (f-0-2 1) (f-4-3 5) Lab32-jmp-s)
(set pc Lab32-jmp-s)
()
)
; jmp.b label8 (m32 #2)
(dni jmp32.b "jmp.b Lab-8-8" (RL_JUMP RELAXABLE (machine 32))
("jmp.b ${Lab-8-8}")
(+ (f-0-4 #xB) (f-4-4 #xB) Lab-8-8)
(set pc Lab-8-8)
())
; jmp.w label16 (m32 #3)
(dni jmp32.w "jmp.w Lab-8-16" (RL_JUMP RELAXABLE (machine 32))
("jmp.w ${Lab-8-16}")
(+ (f-0-4 #xC) (f-4-4 #xE) Lab-8-16)
(set pc Lab-8-16)
())
; jmp.a label24 (m32 #4)
(dni jmp32.a "jmp.a Lab-8-24" (RL_JUMP RELAXABLE (machine 32))
("jmp.a ${Lab-8-24}")
(+ (f-0-4 #xC) (f-4-4 #xC) Lab-8-24)
(set pc Lab-8-24)
())
; jmp.s imm8 (m32 #1)
(dni jmps32 "jmps Imm-8-QI" (RL_JUMP (machine 32))
("jmps #${Imm-8-QI}")
(+ (f-0-4 #xD) (f-4-4 #xC) Imm-8-QI)
(set pc Imm-8-QI)
())
;-------------------------------------------------------------
; jsr jump subroutine
;-------------------------------------------------------------
(define-pmacro (jsr16-sem length dst)
(sequence ((SI tpc))
(set tpc (add pc length))
(set (reg h-sp) (sub (reg h-sp) 2))
(set (mem16 HI (reg h-sp)) (srl (and tpc #xffff00) 8))
(set (reg h-sp) (sub (reg h-sp) 1))
(set (mem16 QI (reg h-sp)) (and tpc #xff))
(set pc dst)
)
)
(define-pmacro (jsr32-sem length dst)
(sequence ((SI tpc))
(set tpc (add pc length))
(set (reg h-sp) (sub (reg h-sp) 2))
(set (mem32 HI (reg h-sp)) (srl (and tpc #xffff0000) 16))
(set (reg h-sp) (sub (reg h-sp) 2))
(set (mem32 HI (reg h-sp)) (and tpc #xffff))
(set pc dst)
)
)
; jsr.w label16 (m16 #1)
(dni jsr16.w "jsr.w Lab-8-16" (RL_JUMP RELAXABLE (machine 16))
("jsr.w ${Lab-8-16}")
(+ (f-0-4 #xF) (f-4-4 5) Lab-8-16)
(jsr16-sem 3 Lab-8-16)
())
; jsr.a label24 (m16 #2)
(dni jsr16.a "jsr.a Lab-8-24" (RL_JUMP RELAXABLE (machine 16))
("jsr.a ${Lab-8-24}")
(+ (f-0-4 #xF) (f-4-4 #xD) Lab-8-24)
(jsr16-sem 4 Lab-8-24)
())
(define-pmacro (jsri-defn mode op16 op16-1 op16-2 op16-3 op16-sem
op32 op32-1 op32-2 op32-3 op32-4 op32-sem len)
(begin
(dni (.sym jsri16 mode - op16)
(.str "jsri." mode " " op16)
(RL_1ADDR (machine 16))
(.str "jsri." mode " ${" op16 "}")
(+ op16-1 op16-2 op16-3 op16)
(op16-sem len op16)
())
(dni (.sym jsri32 mode - op32)
(.str "jsri." mode " " op32)
(RL_1ADDR (machine 32))
(.str "jsri." mode " ${" op32 "}")
(+ op32-1 op32-2 op32-3 op32-4 op32)
(op32-sem len op32)
())
)
)
; jsri.w dst (m16 #1 m32 #1))
(jsri-defn w dst16-16-20ar-HI (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #x3) jsr16-sem
dst32-16-24-Unprefixed-HI (f-0-4 #xC) (f-7-1 1) (f-10-2 #x1) (f-12-4 #xF) jsr32-sem 4)
(jsri-defn w dst16-16-16sa-HI (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #x3) jsr16-sem
dst32-16-16sa-Unprefixed-HI (f-0-4 #xC) (f-7-1 1) (f-10-2 #x1) (f-12-4 #xF) jsr32-sem 4)
(jsri-defn w dst16-16-8-HI (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #x3) jsr16-sem
dst32-16-8-Unprefixed-HI (f-0-4 #xC) (f-7-1 1) (f-10-2 #x1) (f-12-4 #xF) jsr32-sem 3)
(jsri-defn w dst16-basic-HI (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #x3) jsr16-sem
dst32-basic-Unprefixed-HI (f-0-4 #xC) (f-7-1 1) (f-10-2 #x1) (f-12-4 #xF) jsr32-sem 2)
; jsri.a (m16 #2 m32 #2)
(jsri-defn a dst16-16-20ar-SI (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #x1) jsr16-sem
dst32-16-24-Unprefixed-SI (f-0-4 #x9) (f-7-1 0) (f-10-2 #x0) (f-12-4 #x1) jsr32-sem 4)
(jsri-defn a dst16-16-8-SI (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #x1) jsr16-sem
dst32-16-8-Unprefixed-SI (f-0-4 #x9) (f-7-1 0) (f-10-2 #x0) (f-12-4 #x1) jsr32-sem 3)
(jsri-defn a dst16-16-16sa-SI (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #x1) jsr16-sem
dst32-16-16sa-Unprefixed-SI (f-0-4 #x9) (f-7-1 0) (f-10-2 #x0) (f-12-4 #x1) jsr32-sem 4)
(jsri-defn a dst16-basic-SI (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #x1) jsr16-sem
dst32-basic-Unprefixed-SI (f-0-4 #x9) (f-7-1 0) (f-10-2 #x0) (f-12-4 #x1) jsr32-sem 2)
(dni jsri32.a "jsr.w dst32-16-24-Unprefixed-HI" (RL_1ADDR (machine 32))
("jsri.a ${dst32-16-24-Unprefixed-SI}")
(+ (f-0-4 #x9) (f-7-1 0) dst32-16-24-Unprefixed-SI (f-10-2 #x0) (f-12-4 #x1))
(jsr32-sem 6 dst32-16-24-Unprefixed-SI)
())
; jsr.w label16 (m32 #1)
(dni jsr32.w "jsr.w label" (RL_JUMP RELAXABLE (machine 32))
("jsr.w ${Lab-8-16}")
(+ (f-0-4 #xC) (f-4-4 #xF) Lab-8-16)
(jsr32-sem 3 Lab-8-16)
())
; jsr.a label16 (m32 #2)
(dni jsr32.a "jsr.a label" (RL_JUMP (machine 32))
("jsr.a ${Lab-8-24}")
(+ (f-0-4 #xC) (f-4-4 #xD) Lab-8-24)
(jsr32-sem 4 Lab-8-24)
())
; jsrs imm8 (m16 #1)
(dni jsrs16 "jsrs Imm-8-QI" ((machine 16))
("jsrs #${Imm-8-QI}")
(+ (f-0-4 #xE) (f-4-4 #xF) Imm-8-QI)
(jsr16-sem 2 Imm-8-QI)
())
; jsrs imm8 (m32 #1)
(dni jsrs "jsrs #Imm-8-QI" ((machine 32))
("jsrs #${Imm-8-QI}")
(+ (f-0-4 #xD) (f-4-4 #xD) Imm-8-QI)
(jsr32-sem 2 Imm-8-QI)
())
;-------------------------------------------------------------
; ldc - load control register
; stc - store control register
;-------------------------------------------------------------
(define-pmacro (ldc32-cr1-sem src dst)
(sequence ()
(case DFLT dst
((#x0) (set (reg h-dct0) src))
((#x1) (set (reg h-dct1) src))
((#x2) (sequence ((HI tflag))
(set tflag src)
(if (and tflag #x1) (set cbit 1))
(if (and tflag #x2) (set dbit 1))
(if (and tflag #x4) (set zbit 1))
(if (and tflag #x8) (set sbit 1))
(if (and tflag #x10) (set bbit 1))
(if (and tflag #x20) (set obit 1))
(if (and tflag #x40) (set ibit 1))
(if (and tflag #x80) (set ubit 1))))
((#x3) (set (reg h-svf) src))
((#x4) (set (reg h-drc0) src))
((#x5) (set (reg h-drc1) src))
((#x6) (set (reg h-dmd0) src))
((#x7) (set (reg h-dmd1) src))
)
)
)
(define-pmacro (ldc32-cr2-sem src dst)
(sequence ()
(case DFLT dst
((#x0) (set (reg h-intb) src))
((#x1) (set (reg h-sp) src))
((#x2) (set (reg h-sb) src))
((#x3) (set (reg h-fb) src))
((#x4) (set (reg h-svp) src))
((#x5) (set (reg h-vct) src))
((#x7) (set (reg h-isp) src))
)
)
)
(define-pmacro (ldc32-cr3-sem src dst)
(sequence ()
(case DFLT dst
((#x2) (set (reg h-dma0) src))
((#x3) (set (reg h-dma1) src))
((#x4) (set (reg h-dra0) src))
((#x5) (set (reg h-dra1) src))
((#x6) (set (reg h-dsa0) src))
((#x7) (set (reg h-dsa1) src))
)
)
)
(define-pmacro (ldc16-sem src dst)
(sequence ()
(case DFLT dst
((#x1) (set (reg h-intb) src))
((#x2) (set (reg h-intb) (or (reg h-intb) (sll src (const 16)))))
((#x3) (sequence ((HI tflag))
(set tflag src)
(if (and tflag #x1) (set cbit 1))
(if (and tflag #x2) (set dbit 1))
(if (and tflag #x4) (set zbit 1))
(if (and tflag #x8) (set sbit 1))
(if (and tflag #x10) (set bbit 1))
(if (and tflag #x20) (set obit 1))
(if (and tflag #x40) (set ibit 1))
(if (and tflag #x80) (set ubit 1))))
((#x4) (set (reg h-isp) src))
((#x5) (set (reg h-sp) src))
((#x6) (set (reg h-sb) src))
((#x7) (set (reg h-fb) src))
)
)
)
(define-pmacro (stc32-cr1-sem src dst)
(sequence ()
(case DFLT src
((#x0) (set dst (reg h-dct0)))
((#x1) (set dst (reg h-dct1)))
((#x2) (sequence ((HI tflag))
(set tflag 0)
(if (eq cbit 1) (set tflag (or tflag #x1)))
(if (eq dbit 1) (set tflag (or tflag #x2)))
(if (eq zbit 1) (set tflag (or tflag #x4)))
(if (eq sbit 1) (set tflag (or tflag #x8)))
(if (eq bbit 1) (set tflag (or tflag #x10)))
(if (eq obit 1) (set tflag (or tflag #x20)))
(if (eq ibit 1) (set tflag (or tflag #x40)))
(if (eq ubit 1) (set tflag (or tflag #x80)))
(set dst tflag)))
((#x3) (set dst (reg h-svf)))
((#x4) (set dst (reg h-drc0)))
((#x5) (set dst (reg h-drc1)))
((#x6) (set dst (reg h-dmd0)))
((#x7) (set dst (reg h-dmd1)))
)
)
)
(define-pmacro (stc32-cr2-sem src dst)
(sequence ()
(case DFLT src
((#x0) (set dst (reg h-intb)))
((#x1) (set dst (reg h-sp)))
((#x2) (set dst (reg h-sb)))
((#x3) (set dst (reg h-fb)))
((#x4) (set dst (reg h-svp)))
((#x5) (set dst (reg h-vct)))
((#x7) (set dst (reg h-isp)))
)
)
)
(define-pmacro (stc32-cr3-sem src dst)
(sequence ()
(case DFLT src
((#x2) (set dst (reg h-dma0)))
((#x3) (set dst (reg h-dma1)))
((#x4) (set dst (reg h-dra0)))
((#x5) (set dst (reg h-dra1)))
((#x6) (set dst (reg h-dsa0)))
((#x7) (set dst (reg h-dsa1)))
)
)
)
(define-pmacro (stc16-sem src dst)
(sequence ()
(case DFLT src
((#x1) (set dst (and (reg h-intb) (const #xffff))))
((#x2) (set dst (srl (reg h-intb) (const 16))))
((#x3) (sequence ((HI tflag))
(set tflag 0)
(if (eq cbit 1) (set tflag (or tflag #x1)))
(if (eq dbit 1) (set tflag (or tflag #x2)))
(if (eq zbit 1) (set tflag (or tflag #x4)))
(if (eq sbit 1) (set tflag (or tflag #x8)))
(if (eq bbit 1) (set tflag (or tflag #x10)))
(if (eq obit 1) (set tflag (or tflag #x20)))
(if (eq ibit 1) (set tflag (or tflag #x40)))
(if (eq ubit 1) (set tflag (or tflag #x80)))
(set dst tflag)))
((#x4) (set dst (reg h-isp)))
((#x5) (set dst (reg h-sp)))
((#x6) (set dst (reg h-sb)))
((#x7) (set dst (reg h-fb)))
)
)
)
(dni ldc16.imm16 "ldc #imm,dst" ((machine 16))
("ldc #${Imm-16-HI},${cr16}")
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-1 0) (f-12-4 0) cr16 Imm-16-HI)
(ldc16-sem Imm-16-HI cr16)
())
(dni ldc16.dst "ldc src,dest" ((machine 16))
("ldc ${dst16-16-HI},${cr16}")
(+ (f-0-4 7) (f-4-4 #xA) (f-8-1 1) cr16 dst16-16-HI)
(ldc16-sem dst16-16-HI cr16)
())
; ldc src,dest (m32c #4)
(dni ldc32.src-cr1 "ldc src,dst" ((machine 32))
("ldc ${dst32-24-Prefixed-HI},${cr1-Prefixed-32}")
(+ (f-0-4 0) (f-4-4 1) (f-8-4 #xD) dst32-24-Prefixed-HI (f-15-1 1) (f-18-2 0) (f-20-1 1) cr1-Prefixed-32)
(ldc32-cr1-sem dst32-24-Prefixed-HI cr1-Prefixed-32)
())
; ldc src,dest (m32c #5)
(dni ldc32.src-cr2 "ldc src,dest" ((machine 32))
("ldc ${dst32-16-Unprefixed-SI},${cr2-32}")
(+ (f-0-4 #xD) dst32-16-Unprefixed-SI (f-7-1 1) (f-10-2 0) (f-12-1 0) cr2-32)
(ldc32-cr2-sem dst32-16-Unprefixed-SI cr2-32)
())
; ldc src,dest (m32c #6)
(dni ldc32.src-cr3 "ldc src,dst" ((machine 32))
("ldc ${dst32-24-Prefixed-SI},${cr3-Prefixed-32}")
(+ (f-0-4 0) (f-4-4 1) (f-8-4 #xD) dst32-24-Prefixed-SI (f-15-1 1) (f-18-2 0) (f-20-1 0) cr3-Prefixed-32)
(ldc32-cr3-sem dst32-24-Prefixed-SI cr3-Prefixed-32)
())
; ldc src,dest (m32c #1)
(dni ldc32.imm16-cr1 "ldc #imm,dst" ((machine 32))
("ldc #${Imm-16-HI},${cr1-Unprefixed-32}")
(+ (f-0-4 #xD) (f-4-4 5) (f-8-4 #xA) (f-12-1 1) cr1-Unprefixed-32 Imm-16-HI)
(ldc32-cr1-sem Imm-16-HI cr1-Unprefixed-32)
())
; ldc src,dest (m32c #2)
(dni ldc32.imm16-cr2 "ldc #imm,dst" ((machine 32))
("ldc #${Dsp-16-u24},${cr2-32}")
(+ (f-0-4 #xD) (f-4-4 5) (f-8-4 2) (f-12-1 1) cr2-32 Dsp-16-u24)
(ldc32-cr2-sem Dsp-16-u24 cr2-32)
())
; ldc src,dest (m32c #3)
(dni ldc32.imm16-cr3 "ldc #imm,dst" ((machine 32))
("ldc #${Dsp-16-u24},${cr3-Unprefixed-32}")
(+ (f-0-4 #xD) (f-4-4 5) (f-8-4 6) (f-12-1 1) cr3-Unprefixed-32 Dsp-16-u24)
(ldc32-cr3-sem Dsp-16-u24 cr3-Unprefixed-32)
())
(dni stc16.src "stc src,dest" ((machine 16))
("stc ${cr16},${dst16-16-HI}")
(+ (f-0-4 7) (f-4-4 #xB) (f-8-1 1) cr16 dst16-16-HI)
(stc16-sem cr16 dst16-16-HI )
())
(dni stc16.pc "stc pc,dest" ((machine 16))
("stc pc,${dst16-16-HI}")
(+ (f-0-4 7) (f-4-4 #xC) (f-8-4 #xC) dst16-16-HI)
(sequence () (set dst16-16-HI (reg h-pc)))
())
(dni stc32.src-cr1 "stc src,dst" ((machine 32))
("stc ${cr1-Prefixed-32},${dst32-24-Prefixed-HI}")
(+ (f-0-4 0) (f-4-4 1) (f-8-4 #xD) dst32-24-Prefixed-HI (f-15-1 1) (f-18-2 1) (f-20-1 1) cr1-Prefixed-32)
(stc32-cr1-sem cr1-Prefixed-32 dst32-24-Prefixed-HI )
())
(dni stc32.src-cr2 "stc src,dest" ((machine 32))
("stc ${cr2-32},${dst32-16-Unprefixed-SI}")
(+ (f-0-4 #xD) dst32-16-Unprefixed-SI (f-7-1 1) (f-10-2 0) (f-12-1 2) cr2-32)
(stc32-cr2-sem cr2-32 dst32-16-Unprefixed-SI )
())
(dni stc32.src-cr3 "stc src,dst" ((machine 32))
("stc ${cr3-Prefixed-32},${dst32-24-Prefixed-SI}")
(+ (f-0-4 0) (f-4-4 1) (f-8-4 #xD) dst32-24-Prefixed-SI (f-15-1 1) (f-18-2 1) (f-20-1 0) cr3-Prefixed-32)
(stc32-cr3-sem cr3-Prefixed-32 dst32-24-Prefixed-SI )
())
;-------------------------------------------------------------
; ldctx - load context
; stctx - store context
;-------------------------------------------------------------
; ??? semantics
(dni ldctx16 "ldctx abs16,abs24" ((machine 16))
("ldctx ${Dsp-16-u16},${Dsp-32-u24}")
(+ (f-0-4 #x7) (f-4-4 #xC) (f-8-4 #xF) (f-12-4 #x0) Dsp-16-u16 Dsp-32-u24)
(nop)
())
(dni ldctx32 "ldctx abs16,abs24" ((machine 32))
("ldctx ${Dsp-16-u16},${Dsp-32-u24}")
(+ (f-0-4 #xB) (f-4-4 #x6) (f-8-4 #xC) (f-12-4 #x3) Dsp-16-u16 Dsp-32-u24)
(nop)
())
(dni stctx16 "stctx abs16,abs24" ((machine 16))
("stctx ${Dsp-16-u16},${Dsp-32-u24}")
(+ (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #xF) (f-12-4 #x0) Dsp-16-u16 Dsp-32-u24)
(nop)
())
(dni stctx32 "stctx abs16,abs24" ((machine 32))
("stctx ${Dsp-16-u16},${Dsp-32-u24}")
(+ (f-0-4 #xB) (f-4-4 #x6) (f-8-4 #xD) (f-12-4 #x3) Dsp-16-u16 Dsp-32-u24)
(nop)
())
;-------------------------------------------------------------
; lde - load from extra far data area (m16)
; ste - store to extra far data area (m16)
;-------------------------------------------------------------
(lde-dst QI .b 0)
(lde-dst HI .w 1)
(ste-dst QI .b 0)
(ste-dst HI .w 1)
;-------------------------------------------------------------
; ldipl - load interrupt permission level
;-------------------------------------------------------------
; ??? semantics
; ldintb <==> ldc #imm,intbh ; ldc #imm,intbl
(dni ldipl16.imm "ldipl #imm" ((machine 16))
("ldipl #${Imm-13-u3}")
(+ (f-0-4 #x7) (f-4-4 #xD) (f-8-4 #xA) (f-12-1 0) Imm-13-u3)
(nop)
())
(dni ldipl32.imm "ldipl #imm" ((machine 32))
("ldipl #${Imm-13-u3}")
(+ (f-0-4 #xD) (f-4-4 5) (f-8-4 #xE) (f-12-1 1) Imm-13-u3)
(nop)
())
;-------------------------------------------------------------
; max - maximum value
;-------------------------------------------------------------
; TODO check semantics for min -1,0
(define-pmacro (max-sem mode src dst)
(sequence ()
(if (gt mode src dst)
(set mode dst src)))
)
; max.size:G #imm,dst
(binary-arith32-imm-dst-Prefixed QI QI .b 0 max X #x8 #x3 #xF max-sem)
(binary-arith32-imm-dst-Prefixed HI HI .w 1 max X #x8 #x3 #xF max-sem)
; max.BW:G src,dst
(binary-arith32-src-dst-Prefixed QI QI .b 0 max X #x1 #xD max-sem)
(binary-arith32-src-dst-Prefixed HI HI .w 1 max X #x1 #xD max-sem)
;-------------------------------------------------------------
; min - minimum value
;-------------------------------------------------------------
(define-pmacro (min-sem mode src dst)
(sequence ()
(if (lt mode src dst)
(set mode dst src)))
)
; min.size:G #imm,dst
(binary-arith32-imm-dst-Prefixed QI QI .b 0 min X #x8 #x2 #xF min-sem)
(binary-arith32-imm-dst-Prefixed HI HI .w 1 min X #x8 #x2 #xF min-sem)
; min.BW:G src,dst
(binary-arith32-src-dst-Prefixed QI QI .b 0 min X #x1 #xC min-sem)
(binary-arith32-src-dst-Prefixed HI HI .w 1 min X #x1 #xC min-sem)
;-------------------------------------------------------------
; mov - move
;-------------------------------------------------------------
(define-pmacro (mov-sem mode src1 dst)
(sequence ((mode result))
(set result src1)
(set-z-and-s result)
(set mode dst src1))
)
(define-pmacro (mov-dspsp-dst-sem mach mode src1 dst)
(set dst (mem-mach mach mode (add sp src1)))
)
(define-pmacro (mov-src-dspsp-sem mach mode src dst1)
(set (mem-mach mach mode (add sp dst1)) src)
)
(define-pmacro (mov16-imm-an-defn size mode imm regn op1 op2)
(dni (.sym mov16. size .S-imm- regn)
(.str "mov." size ":S " imm "," regn)
((machine 16))
(.str "mov." size "$S #${" imm "}," regn)
(+ op1 op2 imm)
(mov-sem mode imm (reg (.sym h- regn)))
())
)
; mov.size:G #imm,dst (m16 #1 m32 #1)
(binary-arith-imm-dst mov G (f-0-4 7) (f-4-3 2) (f-8-4 #xC) #x9 #x2 #xF mov-sem)
; mov.L:G #imm32,dst (m32 #2)
(binary-arith32-imm-dst-defn SI SI .l 0 mov G #xB #x3 #x1 mov-sem)
; mov.BW:S #imm,dst2 (m32 #4)
(binary-arith32-s-imm-dst QI .b 0 mov #x0 #x2 mov-sem)
(binary-arith32-s-imm-dst HI .w 1 mov #x0 #x2 mov-sem)
; mov.b:S #imm8,dst3 (m16 #3)
(binary-arith16-b-S-imm8-dst3 mov ".b" (f-0-4 #xC) (f-4-1 0) mov-sem)
; mov.b:S #imm8,aN (m16 #4)
(mov16-imm-an-defn b QI Imm-8-QI a0 (f-0-4 #xE) (f-4-4 2))
(mov16-imm-an-defn b QI Imm-8-QI a1 (f-0-4 #xE) (f-4-4 #xA))
(mov16-imm-an-defn w HI Imm-8-HI a0 (f-0-4 #xA) (f-4-4 2))
(mov16-imm-an-defn w HI Imm-8-HI a1 (f-0-4 #xA) (f-4-4 #xA))
; mov.WL:S #imm,A0/A1 (m32 #5)
(define-pmacro (mov32-wl-s-defn mode sz op1 imm regn op2)
(dni (.sym mov32- sz - regn)
(.str "mov." sz ":s" imm "," regn)
((machine 32))
(.str "mov." sz "$S #${" imm "}," regn)
(+ (f-0-4 op1) (f-4-4 op2) imm)
(mov-sem mode imm (reg (.sym h- regn)))
())
)
(mov32-wl-s-defn HI w #x9 Imm-8-HI a0 #xC)
(mov32-wl-s-defn HI w #x9 Imm-8-HI a1 #xD)
(mov32-wl-s-defn SI l #xB Dsp-8-s24 a0 #xC)
(mov32-wl-s-defn SI l #xB Dsp-8-s24 a1 #xD)
; mov.size:Q #imm4,dst (m16 #2 m32 #3)
(binary-arith16-imm4-dst-defn QI .b 0 0 mov (f-0-4 #xD) (f-4-3 4) mov-sem)
(binary-arith16-imm4-dst-defn HI .w 0 1 mov (f-0-4 #xD) (f-4-3 4) mov-sem)
(binary-arith32-imm4-dst-defn QI .b 1 0 mov #x7 #x2 mov-sem)
(binary-arith32-imm4-dst-defn HI .w 1 1 mov #x7 #x2 mov-sem)
; mov.BW:Z #0,dst (m16 #5 m32 #6)
(dni mov16.b-Z-imm8-dst3
"mov.b:Z #0,Dst16-3-S-8"
((machine 16))
"mov.b$Z #0,${Dst16-3-S-8}"
(+ (f-0-4 #xB) (f-4-1 #x0) Dst16-3-S-8)
(mov-sem QI (const 0) Dst16-3-S-8)
())
; (binary-arith16-b-Z-imm8-dst3 mov ".b" (f-0-4 #xB) (f-4-1 0) mov-sem)
(binary-arith32-z-imm-dst QI .b 0 mov #x0 #x1 mov-sem)
(binary-arith32-z-imm-dst HI .w 1 mov #x0 #x1 mov-sem)
; mov.BW:G src,dst (m16 #6 m32 #7)
(binary-arith-src-dst mov G (f-0-4 #x7) (f-4-3 1) #x1 #xB mov-sem)
; mov.B:S src2,a0/a1 (m16 #7)
(dni (.sym mov 16 .b.S-An)
(.str mov ".b:S src2,a[01]")
((machine 16))
(.str mov ".b$S ${src16-2-S},${Dst16AnQI-S}")
(+ (f-0-4 #x3) (f-4-1 0) Dst16AnQI-S src16-2-S)
(mov-sem QI src16-2-S Dst16AnQI-S)
())
(define-pmacro (mov16-b-s-an-defn op1 op2 op2c)
(dni (.sym mov16.b.S- op1 - op2)
(.str mov ".b:S " op1 "," op2)
((machine 16))
(.str mov ".b$S " op1 "," op2)
(+ (f-0-4 #x3) op2c)
(mov-sem QI (reg (.sym h- op1)) (reg (.sym h- op2)))
())
)
(mov16-b-s-an-defn r0l a1 (f-4-4 #x4))
(mov16-b-s-an-defn r0h a0 (f-4-4 #x0))
; mov.L:G src,dst (m32 #8)
(binary-arith32-src-dst-defn SI SI .l 1 mov G #x1 #x3 mov-sem)
; mov.B:S r0l/r0h,dst2 (m16 #8)
(dni (.sym mov 16 .b.S-Rn-An)
(.str mov ".b:S r0[lh],src2")
((machine 16))
(.str mov ".b$S ${Dst16RnQI-S},${src16-2-S}")
(+ (f-0-4 #x0) (f-4-1 0) Dst16RnQI-S src16-2-S)
(mov-sem QI src16-2-S Dst16RnQI-S)
())
; mov.B.S src2,r0l/r0h (m16 #9)
(binary-arith16-b-S-src2 mov (f-0-4 0) (f-4-1 1) mov-sem)
; mov.BW:S src2,r0l/r0 (m32 #9)
; mov.BW:S src2,r1l/r1 (m32 #10)
(define-pmacro (mov32-src-r sz szcode mode src dst opc1 opc2)
(begin
(dni (.sym mov32. sz - src - dst)
(.str "mov." sz "src," dst)
((machine 32))
(.str "mov." sz "$S ${" (.sym src - mode) "}," dst)
(+ (f-0-2 opc1) (.sym src - mode) (f-4-3 opc2) (f-7-1 szcode))
(mov-sem mode (.sym src - mode) (reg (.sym h- dst)))
())
)
)
(mov32-src-r b 0 QI dst32-2-S-16 r0l 0 4)
(mov32-src-r w 1 HI dst32-2-S-16 r0 0 4)
(mov32-src-r b 0 QI dst32-2-S-8 r0l 0 4)
(mov32-src-r w 1 HI dst32-2-S-8 r0 0 4)
(mov32-src-r b 0 QI dst32-2-S-basic r1l 1 7)
(mov32-src-r w 1 HI dst32-2-S-basic r1 1 7)
(mov32-src-r b 0 QI dst32-2-S-16 r1l 1 7)
(mov32-src-r w 1 HI dst32-2-S-16 r1 1 7)
(mov32-src-r b 0 QI dst32-2-S-8 r1l 1 7)
(mov32-src-r w 1 HI dst32-2-S-8 r1 1 7)
; mov.BW:S r0l/r0,dst2 (m32 #11)
(define-pmacro (mov32-r-dest sz szcode mode src dst opc1 opc2)
(begin
(dni (.sym mov32. sz - src - dst)
(.str "mov." sz "src," dst)
((machine 32))
(.str "mov." sz "$S " src ",${" (.sym dst - mode) "}")
(+ (f-0-2 opc1) (.sym dst - mode) (f-4-3 opc2) (f-7-1 szcode))
(mov-sem mode (reg (.sym h- src)) (.sym dst - mode))
())
)
)
(mov32-r-dest b 0 QI r0l dst32-2-S-16 0 0)
(mov32-r-dest w 1 HI r0 dst32-2-S-16 0 0)
(mov32-r-dest b 0 QI r0l dst32-2-S-8 0 0)
(mov32-r-dest w 1 HI r0 dst32-2-S-8 0 0)
; mov.L:S src,A0/A1 (m32 #12)
(define-pmacro (mov32-src-a src dst dstcode opc1 opc2)
(begin
(dni (.sym mov32. sz - src - dst)
(.str "mov." sz "src," dst)
((machine 32))
(.str "mov.l" "$S ${" (.sym src - SI) "}," dst)
(+ (f-0-2 opc1) (.sym src - SI) (f-4-3 opc2) (f-7-1 dstcode))
(mov-sem SI (.sym src - SI) (reg (.sym h- dst)))
())
)
)
(mov32-src-a dst32-2-S-16 a0 0 1 4)
(mov32-src-a dst32-2-S-16 a1 1 1 4)
(mov32-src-a dst32-2-S-8 a0 0 1 4)
(mov32-src-a dst32-2-S-8 a1 1 1 4)
; mov.BW:G dsp8[sp],dst (m16 #10 m32 #13)
; mov.BW:G src,dsp8[sp] (m16 #11 m32 #14)
(mov-dspsp-dst mov (f-0-4 #x7) (f-4-3 2) (f-8-4 #xB) #xB #x0 #xF mov-dspsp-dst-sem)
(mov-src-dspsp mov (f-0-4 #x7) (f-4-3 2) (f-8-4 #x3) #xA #x0 #xF mov-src-dspsp-sem)
;-------------------------------------------------------------
; mova - move effective address
;-------------------------------------------------------------
(define-pmacro (mov16a-defn dst dstop dstcode)
(dni (.sym mova16. src - dst)
(.str "mova src," dst)
((machine 16))
(.str "mova ${dst16-16-Mova-HI}," dst)
(+ (f-0-4 #xE) (f-4-4 #xB) dst16-16-Mova-HI (f-8-4 dstcode))
(sequence () (set HI (reg dstop) dst16-16-Mova-HI))
())
)
(mov16a-defn r0 h-r0 0)
(mov16a-defn r1 h-r1 1)
(mov16a-defn r2 h-r2 2)
(mov16a-defn r3 h-r3 3)
(mov16a-defn a0 h-a0 4)
(mov16a-defn a1 h-a1 5)
(define-pmacro (mov32a-defn dst dstop dstcode)
(dni (.sym mova32. src - dst)
(.str "mova src," dst)
((machine 32))
(.str "mova ${dst32-16-Unprefixed-Mova-SI}," dst)
(+ (f-0-4 #xD) dst32-16-Unprefixed-Mova-SI (f-7-1 1) (f-10-2 1) (f-12-1 1) (f-13-3 dstcode))
(sequence () (set SI (reg dstop) dst32-16-Unprefixed-Mova-SI))
())
)
(mov32a-defn r2r0 h-r2r0 0)
(mov32a-defn r3r1 h-r3r1 1)
(mov32a-defn a0 h-a0 2)
(mov32a-defn a1 h-a1 3)
;-------------------------------------------------------------
; movDir - move nibble
;-------------------------------------------------------------
(define-pmacro (movdir-sem nib src dst)
(sequence ((SI tmp))
(case DFLT nib
((0) (set dst (or (and dst #xf0) (and src #xf))))
((1) (set dst (or (and dst #x0f) (sll (and src #xf) 4))))
((2) (set dst (or (and dst #xf0) (srl (and src #xf0) 4))))
((3) (set dst (or (and dst #x0f) (and src #xf0))))
)
)
)
; movDir src,dst
(define-pmacro (mov16dir-1-defn nib dircode dir)
(dni (.sym mov nib 16 ".r0l-dst")
(.str "mov" nib " r0l,dst")
((machine 16))
(.str "mov" nib " r0l,${dst16-16-QI}")
(+ (f-0-4 7) (f-4-4 #xC) (f-8-4 dir) dst16-16-QI)
(movdir-sem dircode (reg h-r0l) dst16-16-QI)
())
)
(mov16dir-1-defn ll 0 8)
(mov16dir-1-defn lh 1 #xA)
(mov16dir-1-defn hl 2 9)
(mov16dir-1-defn hh 3 #xB)
(define-pmacro (mov16dir-2-defn nib dircode dir)
(dni (.sym mov nib 16 ".src-r0l")
(.str "mov" nib " src,r0l")
((machine 16))
(.str "mov" nib " ${dst16-16-QI},r0l")
(+ (f-0-4 7) (f-4-4 #xC) (f-8-4 dir) dst16-16-QI)
(movdir-sem dircode dst16-16-QI (reg h-r0l))
())
)
(mov16dir-2-defn ll 0 0)
(mov16dir-2-defn lh 1 2)
(mov16dir-2-defn hl 2 1)
(mov16dir-2-defn hh 3 3)
(define-pmacro (mov32dir-1-defn nib o1o0)
(dni (.sym mov nib 32 ".r0l-dst")
(.str "mov" nib " r0l,dst")
((machine 32))
(.str "mov" nib " r0l,${dst32-24-Prefixed-QI}")
(+ (f-0-4 #x0) (f-4-4 #x1) (f-8-4 #xB) dst32-24-Prefixed-QI (f-15-1 0) (f-18-2 o1o0) (f-20-4 #xE))
(movdir-sem o1o0 (reg h-r0l) dst32-24-Prefixed-QI)
())
)
(mov32dir-1-defn ll 0)
(mov32dir-1-defn lh 1)
(mov32dir-1-defn hl 2)
(mov32dir-1-defn hh 3)
(define-pmacro (mov32dir-2-defn nib o1o0)
(dni (.sym mov nib 32 ".src-r0l")
(.str "mov" nib " src,r0l")
((machine 32))
(.str "mov" nib " ${dst32-24-Prefixed-QI},r0l")
(+ (f-0-4 #x0) (f-4-4 #x1) (f-8-4 #xA) dst32-24-Prefixed-QI (f-15-1 0) (f-18-2 o1o0) (f-20-4 #xE))
(movdir-sem o1o0 dst32-24-Prefixed-QI (reg h-r0l))
())
)
(mov32dir-2-defn ll 0)
(mov32dir-2-defn lh 1)
(mov32dir-2-defn hl 2)
(mov32dir-2-defn hh 3)
;-------------------------------------------------------------
; movx - move extend sign (m32)
;-------------------------------------------------------------
(define-pmacro (movx-sem mode src dst)
(sequence ((SI source) (SI result))
(set SI result src)
(set-z-and-s result)
(set dst result))
)
; movx #imm,dst
(binary-arith32-imm-dst-defn QI SI "" 0 movx X #xB #x1 #x1 movx-sem)
;-------------------------------------------------------------
; mul - multiply
;-------------------------------------------------------------
(define-pmacro (mul-sem mode src1 dst)
(sequence ((mode result))
(set obit (add-oflag mode src1 dst 0))
(set result (mul mode src1 dst))
(set dst result))
)
; mul.BW #imm,dst
(binary-arith-imm-dst mul G (f-0-4 7) (f-4-3 6) (f-8-4 5) #x8 #x1 #xF mul-sem)
; mul.BW src,dst
(binary-arith-src-dst mul G (f-0-4 #x7) (f-4-3 4) #x1 #xC mul-sem)
(dni mul_l "mul.l src,r2r0" ((machine 32))
("mul.l ${dst32-24-Prefixed-SI},r2r0")
(+ (f-0-4 #x0) (f-4-4 #x1) (f-8-4 #x8) (f-15-1 #x1) (f-18-2 #x1) (f-20-4 #xf)
dst32-24-Prefixed-SI)
() ())
(dni mulu_l "mulu.l src,r2r0" ((machine 32))
("mulu.l ${dst32-24-Prefixed-SI},r2r0")
(+ (f-0-4 #x0) (f-4-4 #x1) (f-8-4 #x8) (f-15-1 #x1) (f-18-2 #x0) (f-20-4 #xf)
dst32-24-Prefixed-SI)
() ())
;-------------------------------------------------------------
; mulex - multiple extend sign (m32)
;-------------------------------------------------------------
; mulex src,dst
; (dni mulex-absolute-indirect "mulex [src]" ((machine 32))
; ("mulex ${dst32-24-absolute-indirect-HI}")
; (+ (f-0-4 0) (f-4-4 9) (f-8-4 #xC) dst32-24-absolute-indirect-HI (f-15-1 1) (f-18-2 3) (f-20-4 #xE))
; (set R1R2R0 (mul DI (ext DI R2R0) (ext DI dst32-24-absolute-indirect-HI)))
; ())
(dni mulex "mulex src" ((machine 32))
("mulex ${dst32-16-Unprefixed-Mulex-HI}")
(+ (f-0-4 #xC) dst32-16-Unprefixed-Mulex-HI (f-7-1 1) (f-10-2 3) (f-12-4 #xE))
(set R1R2R0 (mul DI (ext DI R2R0) (ext DI dst32-16-Unprefixed-Mulex-HI)))
())
; (dni mulex-indirect "mulex [src]" ((machine 32))
; ("mulex ${dst32-24-indirect-HI}")
; (+ (f-0-4 0) (f-4-4 9) (f-8-4 #xC) dst32-24-indirect-HI (f-15-1 1) (f-18-2 3) (f-20-4 #xE))
; (set R1R2R0 (mul DI (ext DI R2R0) (ext DI dst32-24-indirect-HI)))
; ())
;-------------------------------------------------------------
; mulu - multiply unsigned
;-------------------------------------------------------------
(define-pmacro (mulu-sem mode src1 dst)
(sequence ((mode result))
(set obit (add-oflag mode src1 dst 0))
(set result (mul mode src1 dst))
(set dst result))
)
; mulu.BW #imm,dst
(binary-arith-imm-dst mulu G (f-0-4 7) (f-4-3 6) (f-8-4 4) #x8 #x0 #xF mulu-sem)
; mulu.BW src,dst
(binary-arith-src-dst mulu G (f-0-4 #x7) (f-4-3 0) #x1 #x4 mulu-sem)
;-------------------------------------------------------------
; neg - twos complement
;-------------------------------------------------------------
(define-pmacro (neg-sem mode dst)
(sequence ((mode result))
(set result (neg mode dst))
(set-z-and-s result)
(set dst result))
)
; neg.BW:G
(unary-insn neg (f-0-4 7) (f-4-3 2) (f-8-4 #x5) #xA #x2 #xF neg-sem)
;-------------------------------------------------------------
; not - twos complement
;-------------------------------------------------------------
(define-pmacro (not-sem mode dst)
(sequence ((mode result))
(set result (not mode dst))
(set-z-and-s result)
(set dst result))
)
; not.BW:G
(unary-insn-g not (f-0-4 7) (f-4-3 2) (f-8-4 #x7) #xA #x1 #xE not-sem)
(dni not16.b.s
"not.b:s Dst16-3-S-8"
((machine 16))
"not.b:s ${Dst16-3-S-8}"
(+ (f-0-4 #xb) (f-4-1 #x1) Dst16-3-S-8)
(not-sem QI Dst16-3-S-8)
())
;-------------------------------------------------------------
; nop
;-------------------------------------------------------------
(dni nop16
"nop"
((machine 16))
"nop"
(+ (f-0-4 #x0) (f-4-4 #x4))
(nop)
())
(dni nop32
"nop"
((machine 32))
"nop"
(+ (f-0-4 #xD) (f-4-4 #xE))
(nop)
())
;-------------------------------------------------------------
; or - logical or
;-------------------------------------------------------------
(define-pmacro (or-sem mode src1 dst)
(sequence ((mode result))
(set result (or mode src1 dst))
(set-z-and-s result)
(set dst result))
)
; or.BW #imm,dst (m16 #1 m32 #1)
(binary-arith-imm-dst or G (f-0-4 7) (f-4-3 3) (f-8-4 3) #x8 #x2 #xF or-sem)
; or.b:S #imm8,dst3 (m16 #2 m32 #2)
(binary-arith16-b-S-imm8-dst3 or ".b" (f-0-4 9) (f-4-1 1) or-sem)
(binary-arith32-s-imm-dst QI .b 0 or #x1 #x2 or-sem)
(binary-arith32-s-imm-dst HI .w 1 or #x1 #x2 or-sem)
; or.BW src,dst (m16 #3 m32 #3)
(binary-arith-src-dst or G (f-0-4 #x9) (f-4-3 4) #x1 #x5 or-sem)
; or.b:S src,r0[lh] (m16)
(binary-arith16-b-S-src2 or (f-0-4 1) (f-4-1 1) or-sem)
;-------------------------------------------------------------
; pop - restore register/memory
;-------------------------------------------------------------
; TODO future: split this into .b and .w semantics
(define-pmacro (pop-sem-mach mach mode dst)
(sequence ((mode b_or_w) (SI length))
(set b_or_w -1)
(set b_or_w (srl b_or_w #x8))
(if (eq b_or_w #x0)
(set length 1) ; .b
(set length 2)) ; .w
(case DFLT length
((1) (set dst (mem-mach mach QI (reg h-sp))))
((2) (set dst (mem-mach mach HI (reg h-sp)))))
(set (reg h-sp) (add (reg h-sp) length))
)
)
(define-pmacro (pop-sem16 mode dest) (pop-sem-mach 16 mode dest))
(define-pmacro (pop-sem32 mode dest) (pop-sem-mach 32 mode dest))
; pop.BW:G (m16 #1)
(unary-insn-mach-g 16 pop (f-0-4 7) (f-4-3 2) (f-8-4 #xD) pop-sem16 $G)
; pop.BW:G (m32 #1)
(unary-insn-mach 32 pop #xB #x2 #xF pop-sem32)
; pop.b:S r0l/r0h
(dni pop16.b-s-rn "pop.b:S r0[lh]" ((machine 16))
"pop.b$S ${Rn16-push-S-anyof}"
(+ (f-0-4 #x9) Rn16-push-S-anyof (f-5-3 #x2))
(pop-sem16 QI Rn16-push-S-anyof)
())
; pop.w:S a0/a1
(dni pop16.b-s-an "pop.w:S a[01]" ((machine 16))
"pop.w$S ${An16-push-S-anyof}"
(+ (f-0-4 #xD) An16-push-S-anyof (f-5-3 #x2))
(pop-sem16 HI An16-push-S-anyof)
())
;-------------------------------------------------------------
; popc - pop control register
; pushc - push control register
;-------------------------------------------------------------
(define-pmacro (popc32-cr1-sem mode dst)
(sequence ()
(case DFLT dst
((#x0) (set (reg h-dct0) (mem32 mode (reg h-sp))))
((#x1) (set (reg h-dct1) (mem32 mode (reg h-sp))))
((#x2) (sequence ((HI tflag))
(set tflag (mem32 mode (reg h-sp)))
(if (and tflag #x1) (set cbit 1))
(if (and tflag #x2) (set dbit 1))
(if (and tflag #x4) (set zbit 1))
(if (and tflag #x8) (set sbit 1))
(if (and tflag #x10) (set bbit 1))
(if (and tflag #x20) (set obit 1))
(if (and tflag #x40) (set ibit 1))
(if (and tflag #x80) (set ubit 1))))
((#x3) (set (reg h-svf) (mem32 mode (reg h-sp))))
((#x4) (set (reg h-drc0) (mem32 mode (reg h-sp))))
((#x5) (set (reg h-drc1) (mem32 mode (reg h-sp))))
((#x6) (set (reg h-dmd0) (mem32 mode (reg h-sp))))
((#x7) (set (reg h-dmd1) (mem32 mode (reg h-sp))))
)
(set (reg h-sp) (add (reg h-sp) 2))
)
)
(define-pmacro (popc32-cr2-sem mode dst)
(sequence ()
(case DFLT dst
((#x0) (set (reg h-intb) (mem32 mode (reg h-sp))))
((#x1) (set (reg h-sp) (mem32 mode (reg h-sp))))
((#x2) (set (reg h-sb) (mem32 mode (reg h-sp))))
((#x3) (set (reg h-fb) (mem32 mode (reg h-sp))))
((#x7) (set (reg h-isp) (mem32 mode (reg h-sp))))
)
(set (reg h-sp) (add (reg h-sp) 4))
)
)
(define-pmacro (popc16-sem mode dst)
(sequence ()
(case DFLT dst
((#x1) (set (reg h-intb) (or (and (reg h-intb) #x0000)
(mem16 mode (reg h-sp)))))
((#x2) (set (reg h-intb) (or (and (reg h-intb) #xffff0000)
(mem16 mode (reg h-sp)))))
((#x3) (sequence ((HI tflag))
(set tflag (mem16 mode (reg h-sp)))
(if (and tflag #x1) (set cbit 1))
(if (and tflag #x2) (set dbit 1))
(if (and tflag #x4) (set zbit 1))
(if (and tflag #x8) (set sbit 1))
(if (and tflag #x10) (set bbit 1))
(if (and tflag #x20) (set obit 1))
(if (and tflag #x40) (set ibit 1))
(if (and tflag #x80) (set ubit 1))))
((#x4) (set (reg h-isp) (mem16 mode (reg h-sp))))
((#x5) (set (reg h-sp) (mem16 mode (reg h-sp))))
((#x6) (set (reg h-sb) (mem16 mode (reg h-sp))))
((#x7) (set (reg h-fb) (mem16 mode (reg h-sp))))
)
(set (reg h-sp) (add (reg h-sp) 2))
)
)
; popc dest (m16c #1)
(dni popc16.imm16 "popc dst" ((machine 16))
("popc ${cr16}")
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-1 0) (f-12-4 3) cr16)
(popc16-sem HI cr16)
())
; popc dest (m32c #1)
(dni popc32.imm16-cr1 "popc dst" ((machine 32))
("popc ${cr1-Unprefixed-32}")
(+ (f-0-4 #xD) (f-4-4 3) (f-8-4 #xA) (f-12-1 1) cr1-Unprefixed-32)
(popc32-cr1-sem HI cr1-Unprefixed-32)
())
; popc dest (m32c #2)
(dni popc32.imm16-cr2 "popc dst" ((machine 32))
("popc ${cr2-32}")
(+ (f-0-4 #xD) (f-4-4 3) (f-8-4 2) (f-12-1 1) cr2-32)
(popc32-cr2-sem SI cr2-32)
())
(define-pmacro (pushc32-cr1-sem mode dst)
(sequence ()
(set (reg h-sp) (sub (reg h-sp) 2))
(case DFLT dst
((#x0) (set (mem32 mode (reg h-sp)) (reg h-dct0)))
((#x1) (set (mem32 mode (reg h-sp)) (reg h-dct1)))
((#x2) (sequence ((HI tflag))
(set tflag 0)
(if (eq cbit 1) (set tflag (or tflag #x1)))
(if (eq dbit 1) (set tflag (or tflag #x2)))
(if (eq zbit 1) (set tflag (or tflag #x4)))
(if (eq sbit 1) (set tflag (or tflag #x8)))
(if (eq bbit 1) (set tflag (or tflag #x10)))
(if (eq obit 1) (set tflag (or tflag #x20)))
(if (eq ibit 1) (set tflag (or tflag #x40)))
(if (eq ubit 1) (set tflag (or tflag #x80)))
(set (mem32 mode (reg h-sp)) tflag)))
((#x3) (set (mem32 mode (reg h-sp)) (reg h-svf)))
((#x4) (set (mem32 mode (reg h-sp)) (reg h-drc0)))
((#x5) (set (mem32 mode (reg h-sp)) (reg h-drc1)))
((#x6) (set (mem32 mode (reg h-sp)) (reg h-dmd0)))
((#x7) (set (mem32 mode (reg h-sp)) (reg h-dmd1)))
)
)
)
(define-pmacro (pushc32-cr2-sem mode dst)
(sequence ()
(set (reg h-sp) (sub (reg h-sp) 4))
(case DFLT dst
((#x0) (set (mem32 mode (reg h-sp)) (reg h-intb)))
((#x1) (set (mem32 mode (reg h-sp)) (reg h-sp)))
((#x2) (set (mem32 mode (reg h-sp)) (reg h-sb)))
((#x3) (set (mem32 mode (reg h-sp)) (reg h-fb)))
((#x7) (set (mem32 mode (reg h-sp)) (reg h-isp)))
)
)
)
(define-pmacro (pushc16-sem mode dst)
(sequence ()
(set (reg h-sp) (sub (reg h-sp) 2))
(case DFLT dst
((#x1) (set (mem16 mode (reg h-sp)) (and (reg h-intb) #xffff)))
((#x2) (set (mem16 mode (reg h-sp)) (and (reg h-intb) #xffff0000)))
((#x3) (sequence ((HI tflag))
(if (eq cbit 1) (set tflag (or tflag #x1)))
(if (eq dbit 1) (set tflag (or tflag #x2)))
(if (eq zbit 1) (set tflag (or tflag #x4)))
(if (eq sbit 1) (set tflag (or tflag #x8)))
(if (eq bbit 1) (set tflag (or tflag #x10)))
(if (eq obit 1) (set tflag (or tflag #x20)))
(if (eq ibit 1) (set tflag (or tflag #x40)))
(if (eq ubit 1) (set tflag (or tflag #x80)))
(set (mem16 mode (reg h-sp)) tflag)))
((#x4) (set (mem16 mode (reg h-sp)) (reg h-isp)))
((#x5) (set (mem16 mode (reg h-sp)) (reg h-sp)))
((#x6) (set (mem16 mode (reg h-sp)) (reg h-sb)))
((#x7) (set (mem16 mode (reg h-sp)) (reg h-fb)))
)
)
)
; pushc src (m16c)
(dni pushc16.imm16 "pushc dst" ((machine 16))
("pushc ${cr16}")
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-1 0) (f-12-4 2) cr16)
(pushc16-sem HI cr16)
())
; pushc src (m32c #1)
(dni pushc32.imm16-cr1 "pushc dst" ((machine 32))
("pushc ${cr1-Unprefixed-32}")
(+ (f-0-4 #xD) (f-4-4 1) (f-8-4 #xA) (f-12-1 1) cr1-Unprefixed-32)
(pushc32-cr1-sem HI cr1-Unprefixed-32)
())
; pushc src (m32c #2)
(dni pushc32.imm16-cr2 "pushc dst" ((machine 32))
("pushc ${cr2-32}")
(+ (f-0-4 #xD) (f-4-4 1) (f-8-4 2) (f-12-1 1) cr2-32)
(pushc32-cr2-sem SI cr2-32)
())
;-------------------------------------------------------------
; popm - pop multiple
; pushm - push multiple
;-------------------------------------------------------------
(define-pmacro (popm-sem machine dst)
(sequence ((SI addrlen))
(if (eq machine 16)
(set addrlen 2)
(set addrlen 4))
(if (and dst 1)
(sequence () (set R0 (mem-mach machine HI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) 2))))
(if (and dst 2)
(sequence () (set R1 (mem-mach machine HI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) 2))))
(if (and dst 4)
(sequence () (set R2 (mem-mach machine HI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) 2))))
(if (and dst 8)
(sequence () (set R3 (mem-mach machine HI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) 2))))
(if (and dst 16)
(sequence () (set A0 (mem-mach machine HI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) addrlen))))
(if (and dst 32)
(sequence () (set A1 (mem-mach machine HI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) addrlen))))
(if (and dst 64)
(sequence () (set (reg h-sb) (mem-mach machine HI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) addrlen))))
(if (eq dst 128)
(sequence () (set (reg h-fb) (mem-mach machine HI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) addrlen))))
)
)
(define-pmacro (pushm-sem machine dst)
(sequence ((SI count) (SI addrlen))
(if (eq machine 16)
(set addrlen 2)
(set addrlen 4))
(if (eq dst 1)
(sequence () (set (reg h-sp) (sub (reg h-sp) addrlen))
(set (mem-mach machine HI (reg h-sp)) (reg h-fb))))
(if (and dst 2)
(sequence () (set (reg h-sp) (sub (reg h-sp) addrlen))
(set (mem-mach machine HI (reg h-sp)) (reg h-sb))))
(if (and dst 4)
(sequence () (set (reg h-sp) (sub (reg h-sp) addrlen))
(set (mem-mach machine HI (reg h-sp)) A1)))
(if (and dst 8)
(sequence () (set (reg h-sp) (sub (reg h-sp) addrlen))
(set (mem-mach machine HI (reg h-sp)) A0)))
(if (and dst 16)
(sequence () (set (reg h-sp) (sub (reg h-sp) 2))
(set (mem-mach machine HI (reg h-sp)) R3)))
(if (and dst 32)
(sequence () (set (reg h-sp) (sub (reg h-sp) 2))
(set (mem-mach machine HI (reg h-sp)) R2)))
(if (and dst 64)
(sequence () (set (reg h-sp) (sub (reg h-sp) 2))
(set (mem-mach machine HI (reg h-sp)) R1)))
(if (and dst 128)
(sequence () (set (reg h-sp) (sub (reg h-sp) 2))
(set (mem-mach machine HI (reg h-sp)) R0)))
)
)
(dni popm16 "popm regs" ((machine 16))
("popm ${Regsetpop}")
(+ (f-0-4 #xE) (f-4-4 #xD) Regsetpop)
(popm-sem 16 Regsetpop)
())
(dni pushm16 "pushm regs" ((machine 16))
("pushm ${Regsetpush}")
(+ (f-0-4 #xE) (f-4-4 #xC) Regsetpush)
(pushm-sem 16 Regsetpush)
())
(dni popm "popm regs" ((machine 32))
("popm ${Regsetpop}")
(+ (f-0-4 #x8) (f-4-4 #xE) Regsetpop)
(popm-sem 32 Regsetpop)
())
(dni pushm "pushm regs" ((machine 32))
("pushm ${Regsetpush}")
(+ (f-0-4 #x8) (f-4-4 #xF) Regsetpush)
(pushm-sem 32 Regsetpush)
())
;-------------------------------------------------------------
; push - Save register/memory/immediate data
;-------------------------------------------------------------
; TODO future: split this into .b and .w semantics
(define-pmacro (push-sem-mach mach mode dst)
(sequence ((mode b_or_w) (SI length))
(set b_or_w -1)
(set b_or_w (srl b_or_w #x8))
(if (eq b_or_w #x0)
(set length 1) ; .b
(if (eq b_or_w #xff)
(set length 2) ; .w
(set length 4))) ; .l
(set (reg h-sp) (sub (reg h-sp) length))
(case DFLT length
((1) (set (mem-mach mach QI (reg h-sp)) dst))
((2) (set (mem-mach mach HI (reg h-sp)) dst))
((4) (set (mem-mach mach SI (reg h-sp)) dst)))
)
)
(define-pmacro (push-sem16 mode dst) (push-sem-mach 16 mode dst))
(define-pmacro (push-sem32 mode dst) (push-sem-mach 32 mode dst))
; push.BW:G imm (m16 #1 m32 #1)
(dni push16.b.G-imm "push.b:G #Imm-16-QI" ((machine 16))
("push.b$G #${Imm-16-QI}")
(+ (f-0-4 7) (f-4-4 #xC) (f-8-4 #xE) (f-12-4 2) Imm-16-QI)
(push-sem16 QI Imm-16-QI)
())
(dni push16.w.G-imm "push.w:G #Imm-16-HI" ((machine 16))
("push.w$G #${Imm-16-HI}")
(+ (f-0-4 7) (f-4-4 #xD) (f-8-4 #xE) (f-12-4 2) Imm-16-HI)
(push-sem16 HI Imm-16-HI)
())
(dni push32.b.imm "push.b #Imm-8-QI" ((machine 32))
("push.b #${Imm-8-QI}")
(+ (f-0-4 #xA) (f-4-4 #xE) Imm-8-QI)
(push-sem32 QI Imm-8-QI)
())
(dni push32.w.imm "push.w #Imm-8-HI" ((machine 32))
("push.w #${Imm-8-HI}")
(+ (f-0-4 #xA) (f-4-4 #xF) Imm-8-HI)
(push-sem32 HI Imm-8-HI)
())
; push.BW:G src (m16 #2)
(unary-insn-mach-g 16 push (f-0-4 7) (f-4-3 2) (f-8-4 #x4) push-sem16 $G)
; push.BW:G src (m32 #2)
(unary-insn-mach 32 push #xC #x0 #xE push-sem32)
; push.b:S r0l/r0h (m16 #3)
(dni push16.b-s-rn "push.b:S r0[lh]" ((machine 16))
"push.b$S ${Rn16-push-S-anyof}"
(+ (f-0-4 #x8) Rn16-push-S-anyof (f-5-3 #x2))
(push-sem16 QI Rn16-push-S-anyof)
())
; push.w:S a0/a1 (m16 #4)
(dni push16.b-s-an "push.w:S a[01]" ((machine 16))
"push.w$S ${An16-push-S-anyof}"
(+ (f-0-4 #xC) An16-push-S-anyof (f-5-3 #x2))
(push-sem16 HI An16-push-S-anyof)
())
; push.l imm32 (m32 #3)
(dni push32.l.imm "push.l #Imm-16-SI" ((machine 32))
("push.l #${Imm-16-SI}")
(+ (f-0-4 #xB) (f-4-4 6) (f-8-4 5) (f-12-4 3) Imm-16-SI)
(push-sem32 SI Imm-16-SI)
())
; push.l src (m32 #4)
(unary-insn-defn 32 16-Unprefixed SI .l push (+ (f-0-4 #xA) (f-7-1 0) dst32-16-Unprefixed-SI (f-10-2 0) (f-12-4 1)) push-sem32)
;-------------------------------------------------------------
; pusha - push effective address
;------------------------------------------------------------
(define-pmacro (push16a-sem mode dst)
(sequence ()
(set (reg h-sp) (sub (reg h-sp) 2))
(set (mem16 HI (reg h-sp)) dst))
)
(define-pmacro (push32a-sem mode dst)
(sequence ()
(set (reg h-sp) (sub (reg h-sp) 4))
(set (mem32 SI (reg h-sp)) dst))
)
(unary-insn-defn 16 16-Mova HI "" pusha (+ (f-0-4 7) (f-4-4 #xD) (f-8-4 9) dst16-16-Mova-HI) push16a-sem)
(unary-insn-defn 32 16-Unprefixed-Mova SI "" pusha (+ (f-0-4 #xB) (f-7-1 0) dst32-16-Unprefixed-Mova-SI (f-10-2 0) (f-12-4 1)) push32a-sem)
;-------------------------------------------------------------
; reit - return from interrupt
;-------------------------------------------------------------
; ??? semantics
(dni reit16 "REIT" ((machine 16))
("reit")
(+ (f-0-4 #xF) (f-4-4 #xB))
(nop)
())
(dni reit32 "REIT" ((machine 32))
("reit")
(+ (f-0-4 9) (f-4-4 #xE))
(nop)
())
;-------------------------------------------------------------
; rmpa - repeat multiple and addition
;-------------------------------------------------------------
; TODO semantics
(dni rmpa16.b "rmpa.size" ((machine 16))
("rmpa.b")
(+ (f-0-4 7) (f-4-4 #xC) (f-8-4 #xF) (f-12-4 1))
(nop)
())
(dni rmpa16.w "rmpa.size" ((machine 16))
("rmpa.w")
(+ (f-0-4 7) (f-4-4 #xD) (f-8-4 #xF) (f-12-4 1))
(nop)
())
(dni rmpa32.b "rmpa.size" ((machine 32))
("rmpa.b")
(+ (f-0-4 #xB) (f-4-4 8) (f-8-4 4) (f-12-4 3))
(nop)
())
(dni rmpa32.w "rmpa.size" ((machine 32))
("rmpa.w")
(+ (f-0-4 #xB) (f-4-4 8) (f-8-4 5) (f-12-4 3))
(nop)
())
;-------------------------------------------------------------
; rolc - rotate left with carry
;-------------------------------------------------------------
; TODO check semantics
; TODO future: split this into .b and .w semantics
(define-pmacro (rolc-sem mode dst)
(sequence ((mode result) (SI ocbit) (mode b_or_w) (USI mask))
(set b_or_w -1)
(set b_or_w (srl b_or_w #x8))
(if (eq b_or_w #x0)
(set mask #x8000) ; .b
(set mask #x80000000)) ; .w
(set ocbit cbit)
(set cbit (and dst mask))
(set result (sll mode dst 1))
(set result (or result ocbit))
(set-z-and-s result)
(set dst result))
)
; rolc.BW src,dst
(unary-insn rolc (f-0-4 7) (f-4-3 3) (f-8-4 #xA) #xB #x2 #xE rolc-sem)
;-------------------------------------------------------------
; rorc - rotate right with carry
;-------------------------------------------------------------
; TODO check semantics
; TODO future: split this into .b and .w semantics
(define-pmacro (rorc-sem mode dst)
(sequence ((mode result) (SI ocbit) (mode b_or_w) (USI mask) (SI shamt))
(set b_or_w -1)
(set b_or_w (srl b_or_w #x8))
(if (eq b_or_w #x0)
(sequence () (set mask #x7fff) (set shamt 15)) ; .b
(sequence () (set mask #x7fffffff) (set shamt 31))) ; .w
(set ocbit cbit)
(set cbit (and dst #x1))
(set result (srl mode dst (const 1)))
(set result (or (and result mask) (sll ocbit shamt)))
(set-z-and-s result)
(set dst result))
)
; rorc.BW src,dst
(unary-insn rorc (f-0-4 7) (f-4-3 3) (f-8-4 #xB) #xA #x2 #xE rorc-sem)
;-------------------------------------------------------------
; rot - rotate
;-------------------------------------------------------------
; TODO future: split this into .b and .w semantics
(define-pmacro (rot-1-sem mode src1 dst)
(sequence ((mode tmp) (mode b_or_w) (USI mask) (SI shift))
(case DFLT src1
((#x0) (set shift 1))
((#x1) (set shift 2))
((#x2) (set shift 3))
((#x3) (set shift 4))
((#x4) (set shift 5))
((#x5) (set shift 6))
((#x6) (set shift 7))
((#x7) (set shift 8))
((-8) (set shift -1))
((-7) (set shift -2))
((-6) (set shift -3))
((-5) (set shift -4))
((-4) (set shift -5))
((-3) (set shift -6))
((-2) (set shift -7))
((-1) (set shift -8))
(else (set shift 0))
)
(set b_or_w -1)
(set b_or_w (srl b_or_w #x8))
(if (eq b_or_w #x0)
(set mask #x7fff) ; .b
(set mask #x7fffffff)) ; .w
(set tmp dst)
(if (gt mode shift 0)
(sequence ()
(set tmp (rol mode tmp shift))
(set cbit (and tmp #x1)))
(sequence ()
(set tmp (ror mode tmp (mul shift -1)))
(set cbit (and tmp mask))))
(set-z-and-s tmp)
(set dst tmp))
)
(define-pmacro (rot-2-sem mode dst)
(sequence ((mode tmp) (mode b_or_w) (USI mask))
(set b_or_w -1)
(set b_or_w (srl b_or_w #x8))
(if (eq b_or_w #x0)
(set mask #x7fff) ; .b
(set mask #x7fffffff)) ; .w
(set tmp dst)
(if (gt mode (reg h-r1h) 0)
(sequence ()
(set tmp (rol mode tmp (reg h-r1h)))
(set cbit (and tmp #x1)))
(sequence ()
(set tmp (ror mode tmp (reg h-r1h)))
(set cbit (and tmp mask))))
(set-z-and-s tmp)
(set dst tmp))
)
; rot.BW #imm4,dst
(binary-arith16-shimm4-dst-defn QI .b 0 0 rot (f-0-4 #xE) (f-4-3 0) rot-1-sem)
(binary-arith16-shimm4-dst-defn HI .w 0 1 rot (f-0-4 #xE) (f-4-3 0) rot-1-sem)
(binary-arith32-shimm4-dst-defn QI .b 0 0 rot #x7 #x2 rot-1-sem)
(binary-arith32-shimm4-dst-defn HI .w 0 1 rot #x7 #x2 rot-1-sem)
; rot.BW src,dst
(dni rot16.b-dst "rot r1h,dest" ((machine 16))
("rot.b r1h,${dst16-16-QI}")
(+ (f-0-4 7) (f-4-4 #x4) (f-8-4 #x6) dst16-16-QI)
(rot-2-sem QI dst16-16-QI)
())
(dni rot16.w-dst "rot r1h,dest" ((machine 16))
("rot.w r1h,${dst16-16-HI}")
(+ (f-0-4 7) (f-4-4 #x5) (f-8-4 #x6) dst16-16-HI)
(rot-2-sem HI dst16-16-HI)
())
(dni rot32.b-dst "rot r1h,dest" ((machine 32))
("rot.b r1h,${dst32-16-Unprefixed-QI}")
(+ (f-0-4 #xA) dst32-16-Unprefixed-QI (f-7-1 0) (f-10-2 3) (f-12-4 #xF))
(rot-2-sem QI dst32-16-Unprefixed-QI)
())
(dni rot32.w-dst "rot r1h,dest" ((machine 32))
("rot.w r1h,${dst32-16-Unprefixed-HI}")
(+ (f-0-4 #xA) dst32-16-Unprefixed-HI (f-7-1 1) (f-10-2 3) (f-12-4 #xF))
(rot-2-sem HI dst32-16-Unprefixed-HI)
())
;-------------------------------------------------------------
; rts - return from subroutine
;-------------------------------------------------------------
(define-pmacro (rts16-sem)
(sequence ((SI tpc))
(set tpc (mem16 HI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) 2))
(set tpc (or tpc (sll (mem16 QI (reg h-sp)) 16)))
(set (reg h-sp) (add (reg h-sp) 1))
(set pc tpc)
)
)
(define-pmacro (rts32-sem)
(sequence ((SI tpc))
(set tpc (mem32 HI (reg h-sp)))
(set (reg h-sp) (add (reg h-sp) 2))
(set tpc (or tpc (sll (mem32 HI (reg h-sp)) 16)))
(set (reg h-sp) (add (reg h-sp) 2))
(set pc tpc)
)
)
(dni rts16 "rts" ((machine 16))
("rts")
(+ (f-0-4 #xF) (f-4-4 3))
(rts16-sem)
())
(dni rts32 "rts" ((machine 32))
("rts")
(+ (f-0-4 #xD) (f-4-4 #xF))
(rts32-sem)
())
;-------------------------------------------------------------
; sbb - subtract with borrow
;-------------------------------------------------------------
(define-pmacro (sbb-sem mode src dst)
(sequence ((mode result))
(set result (subc mode dst src cbit))
(set obit (add-oflag mode dst src cbit))
(set cbit (add-oflag mode dst src cbit))
(set-z-and-s result)
(set dst result))
)
; sbb.size:G #imm,dst
(binary-arith16-imm-dst-defn QI QI .b 0 sbb X (f-0-4 7) (f-4-3 3) (f-8-4 7) sbb-sem)
(binary-arith16-imm-dst-defn HI HI .w 1 sbb X (f-0-4 7) (f-4-3 3) (f-8-4 7) sbb-sem)
(binary-arith32-imm-dst-Prefixed QI QI .b 0 sbb X #x9 #x2 #xE sbb-sem)
(binary-arith32-imm-dst-Prefixed HI HI .w 1 sbb X #x9 #x2 #xE sbb-sem)
; sbb.BW:G src,dst
(binary-arith16-src-dst-defn QI QI .b 0 sbb X (f-0-4 #xB) (f-4-3 4) sbb-sem)
(binary-arith16-src-dst-defn HI HI .w 1 sbb X (f-0-4 #xB) (f-4-3 4) sbb-sem)
(binary-arith32-src-dst-Prefixed QI QI .b 0 sbb X #x1 #x6 sbb-sem)
(binary-arith32-src-dst-Prefixed HI HI .w 1 sbb X #x1 #x6 sbb-sem)
;-------------------------------------------------------------
; sbjnz - subtract then jump on not zero
;-------------------------------------------------------------
(define-pmacro (sub-jnz-sem mode src dst label)
(sequence ((mode result))
(set result (sub mode dst src))
(set dst result)
(if (ne result 0)
(set pc label)))
)
; sbjnz.size #imm4,dst,label
(arith-jnz-imm4-dst sbjnz s4n (f-0-4 #xF) (f-4-3 4) #xf #x1 sub-jnz-sem)
;-------------------------------------------------------------
; sccnd - store condition on condition (m32)
;-------------------------------------------------------------
(define-pmacro (sccnd-sem cnd dst)
(sequence ()
(set dst 0)
(case DFLT cnd
((#x00) (if (not cbit) (set dst 1))) ;ltu nc
((#x01) (if (or cbit zbit) (set dst 1))) ;leu
((#x02) (if (not zbit) (set dst 1))) ;ne nz
((#x03) (if (not sbit) (set dst 1))) ;pz
((#x04) (if (not obit) (set dst 1))) ;no
((#x05) (if (not (or zbit (xor sbit obit))) (set dst 1))) ;gt
((#x06) (if (xor sbit obit) (set dst 1))) ;ge
((#x08) (if (trunc BI cbit) (set dst 1))) ;geu c
((#x09) (if (not (or cbit zbit)) (set dst 1))) ;gtu
((#x0a) (if (trunc BI zbit) (set dst 1))) ;eq z
((#x0b) (if (trunc BI sbit) (set dst 1))) ;n
((#x0c) (if (trunc BI obit) (set dst 1))) ;o
((#x0d) (if (or zbit (xor sbit obit)) (set dst 1))) ;le
((#x0e) (if (xor sbit obit) (set dst 1))) ;lt
)
)
)
; scCND dst
(dni sccnd
"sccnd dst"
((machine 32))
"sc$sccond32 ${dst32-16-Unprefixed-HI}"
(+ (f-0-4 #xD) dst32-16-Unprefixed-HI (f-7-1 1) (f-10-2 3) sccond32)
(sccnd-sem sccond32 dst32-16-Unprefixed-HI)
())
;-------------------------------------------------------------
; scmpu - string compare unequal (m32)
;-------------------------------------------------------------
; TODO semantics
(dni scmpu.b "scmpu.b" ((machine 32))
("scmpu.b")
(+ (f-0-4 #xB) (f-4-4 8) (f-8-4 #xC) (f-12-4 3))
(c-call VOID "scmpu_QI_semantics")
())
(dni scmpu.w "scmpu.w" ((machine 32))
("scmpu.w")
(+ (f-0-4 #xB) (f-4-4 8) (f-8-4 #xD) (f-12-4 3))
(c-call VOID "scmpu_HI_semantics")
())
;-------------------------------------------------------------
; sha - shift arithmetic
;-------------------------------------------------------------
; TODO future: split this into .b and .w semantics
(define-pmacro (sha-sem mode src1 dst)
(sequence ((mode result)(mode shift)(mode shmode))
(case DFLT src1
((#x0) (set shift 1))
((#x1) (set shift 2))
((#x2) (set shift 3))
((#x3) (set shift 4))
((#x4) (set shift 5))
((#x5) (set shift 6))
((#x6) (set shift 7))
((#x7) (set shift 8))
((-8) (set shift -1))
((-7) (set shift -2))
((-6) (set shift -3))
((-5) (set shift -4))
((-4) (set shift -5))
((-3) (set shift -6))
((-2) (set shift -7))
((-1) (set shift -8))
(else (set shift 0))
)
(set shmode -1)
(set shmode (srl shmode #x8))
(if (lt mode shift #x0) (set result (sra mode dst (mul shift -1))))
(if (gt mode shift 0) (set result (sll mode dst shift)))
(if (eq shmode #x0) ; QI
(sequence
((mode cbitamt))
(if (lt mode shift #x0)
(set cbitamt (sub #x8 shift)) ; sra
(set cbitamt (sub shift 1))) ; sll
(set cbit (srl (and (sll dst cbitamt) #x80) #x7))
(set obit (ne (and dst #x80) (and result #x80)))
))
(if (eq shmode #xff) ; HI
(sequence
((mode cbitamt))
(if (lt mode shift #x0)
(set cbitamt (sub 16 shift)) ; sra
(set cbitamt (sub shift 1))) ; sll
(set cbit (srl (and (sll dst cbitamt) #x8000) #xf))
(set obit (ne (and dst #x8000) (and result #x8000)))
))
(set-z-and-s result)
(set dst result))
)
(define-pmacro (shar1h-sem mode dst)
(sequence ((mode result)(mode shmode))
(set shmode -1)
(set shmode (srl shmode #x8))
(if (lt mode (reg h-r1h) 0) (set result (sra mode dst (reg h-r1h))))
(if (gt mode (reg h-r1h) 0) (set result (sll mode dst (reg h-r1h))))
(if (eq shmode #x0) ; QI
(sequence
((mode cbitamt))
(if (lt mode (reg h-r1h) #x0)
(set cbitamt (sub #x8 (reg h-r1h))) ; sra
(set cbitamt (sub (reg h-r1h) 1))) ; sll
(set cbit (srl (and (sll dst cbitamt) #x80) #x7))
(set obit (ne (and dst #x80) (and result #x80)))
))
(if (eq shmode #xff) ; HI
(sequence
((mode cbitamt))
(if (lt mode (reg h-r1h) #x0)
(set cbitamt (sub 16 (reg h-r1h))) ; sra
(set cbitamt (sub (reg h-r1h) 1))) ; sll
(set cbit (srl (and (sll dst cbitamt) #x8000) #xf))
(set obit (ne (and dst #x8000) (and result #x8000)))
))
(set-z-and-s result)
(set dst result))
)
; sha.BW #imm4,dst (m16 #1 m32 #1)
(binary-arith16-shimm4-dst-defn QI .b 0 0 sha (f-0-4 #xF) (f-4-3 0) sha-sem)
(binary-arith16-shimm4-dst-defn HI .w 0 1 sha (f-0-4 #xF) (f-4-3 0) sha-sem)
(binary-arith32-shimm4-dst-defn QI .b 1 0 sha #x7 #x0 sha-sem)
(binary-arith32-shimm4-dst-defn HI .w 1 1 sha #x7 #x0 sha-sem)
; sha.BW r1h,dst (m16 #2 m32 #3)
(dni sha16.b-dst "sha.b r1h,dest" ((machine 16))
("sha.b r1h,${dst16-16-QI}")
(+ (f-0-4 7) (f-4-4 4) (f-8-4 #xF) dst16-16-QI)
(shar1h-sem HI dst16-16-QI)
())
(dni sha16.w-dst "sha.w r1h,dest" ((machine 16))
("sha.w r1h,${dst16-16-HI}")
(+ (f-0-4 7) (f-4-4 5) (f-8-4 #xF) dst16-16-HI)
(shar1h-sem HI dst16-16-HI)
())
(dni sha32.b-dst "sha.b r1h,dest" ((machine 32))
("sha.b r1h,${dst32-16-Unprefixed-QI}")
(+ (f-0-4 #xB) dst32-16-Unprefixed-QI (f-7-1 0) (f-10-2 3) (f-12-4 #xE))
(shar1h-sem QI dst32-16-Unprefixed-QI)
())
(dni sha32.w-dst "sha.w r1h,dest" ((machine 32))
("sha.w r1h,${dst32-16-Unprefixed-HI}")
(+ (f-0-4 #xB) dst32-16-Unprefixed-HI (f-7-1 1) (f-10-2 3) (f-12-4 #xE))
(shar1h-sem HI dst32-16-Unprefixed-HI)
())
; sha.L #imm,dst (m16 #3)
(dni sha16-L-imm-r2r0 "sha.L #Imm-sh-12-s4,r2r0" ((machine 16))
"sha.l #${Imm-sh-12-s4},r2r0"
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-4 #xA) Imm-sh-12-s4)
(sha-sem SI Imm-sh-12-s4 (reg h-r2r0))
())
(dni sha16-L-imm-r3r1 "sha.L #Imm-sh-12-s4,r3r1" ((machine 16))
"sha.l #${Imm-sh-12-s4},r3r1"
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-4 #xB) Imm-sh-12-s4)
(sha-sem SI Imm-sh-12-s4 (reg h-r3r1))
())
; sha.L r1h,dst (m16 #4)
(dni sha16-L-r1h-r2r0 "sha.L r1h,r2r0" ((machine 16))
"sha.l r1h,r2r0"
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-4 2) (f-12-4 1))
(sha-sem SI (reg h-r1h) (reg h-r2r0))
())
(dni sha16-L-r1h-r3r1 "sha.L r1h,r3r1" ((machine 16))
"sha.l r1h,r3r1"
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-4 3) (f-12-4 1))
(sha-sem SI (reg h-r1h) (reg h-r3r1))
())
; sha.L #imm8,dst (m32 #2)
(binary-arith32-imm-dst-defn QI SI .l 0 sha X #xA #x2 #x1 sha-sem)
; sha.L r1h,dst (m32 #4)
(dni sha32.l-dst "sha.l r1h,dest" ((machine 32))
("sha.l r1h,${dst32-16-Unprefixed-SI}")
(+ (f-0-4 #xC) dst32-16-Unprefixed-SI (f-7-1 0) (f-10-2 1) (f-12-4 1))
(shar1h-sem QI dst32-16-Unprefixed-SI)
())
;-------------------------------------------------------------
; shanc - shift arithmetic non carry (m32)
;-------------------------------------------------------------
; TODO check semantics
; shanc.L #imm8,dst
(binary-arith32-imm-dst-defn QI SI .l 0 shanc X #xC #x2 #x1 sha-sem)
;-------------------------------------------------------------
; shl - shift logical
;-------------------------------------------------------------
; TODO future: split this into .b and .w semantics
(define-pmacro (shl-sem mode src1 dst)
(sequence ((mode result)(mode shift)(mode shmode))
(case DFLT src1
((#x0) (set shift 1))
((#x1) (set shift 2))
((#x2) (set shift 3))
((#x3) (set shift 4))
((#x4) (set shift 5))
((#x5) (set shift 6))
((#x6) (set shift 7))
((#x7) (set shift 8))
((-8) (set shift -1))
((-7) (set shift -2))
((-6) (set shift -3))
((-5) (set shift -4))
((-4) (set shift -5))
((-3) (set shift -6))
((-2) (set shift -7))
((-1) (set shift -8))
(else (set shift 0))
)
(set shmode -1)
(set shmode (srl shmode #x8))
(if (lt mode shift #x0) (set result (srl mode dst (mul shift -1))))
(if (gt mode shift 0) (set result (sll mode dst shift)))
(if (eq shmode #x0) ; QI
(sequence
((mode cbitamt))
(if (lt mode shift #x0)
(set cbitamt (sub #x8 shift)); srl
(set cbitamt (sub shift 1))) ; sll
(set cbit (srl (and (sll dst cbitamt) #x80) #x7))
(set obit (ne (and dst #x80) (and result #x80)))
))
(if (eq shmode #xff) ; HI
(sequence
((mode cbitamt))
(if (lt mode shift #x0)
(set cbitamt (sub 16 shift)) ; srl
(set cbitamt (sub shift 1))) ; sll
(set cbit (srl (and (sll dst cbitamt) #x8000) #xf))
(set obit (ne (and dst #x8000) (and result #x8000)))
))
(set-z-and-s result)
(set dst result))
)
(define-pmacro (shlr1h-sem mode dst)
(sequence ((mode result)(mode shmode))
(set shmode -1)
(set shmode (srl shmode #x8))
(if (lt mode (reg h-r1h) 0) (set result (srl mode dst (reg h-r1h))))
(if (gt mode (reg h-r1h) 0) (set result (sll mode dst (reg h-r1h))))
(if (eq shmode #x0) ; QI
(sequence
((mode cbitamt))
(if (lt mode (reg h-r1h) #x0)
(set cbitamt (sub #x8 (reg h-r1h))) ; srl
(set cbitamt (sub (reg h-r1h) 1))) ; sll
(set cbit (srl (and (sll dst cbitamt) #x80) #x7))
(set obit (ne (and dst #x80) (and result #x80)))
))
(if (eq shmode #xff) ; HI
(sequence
((mode cbitamt))
(if (lt mode (reg h-r1h) #x0)
(set cbitamt (sub 16 (reg h-r1h))) ; srl
(set cbitamt (sub (reg h-r1h) 1))) ; sll
(set cbit (srl (and (sll dst cbitamt) #x8000) #xf))
(set obit (ne (and dst #x8000) (and result #x8000)))
))
(set-z-and-s result)
(set dst result))
)
; shl.BW #imm4,dst (m16 #1 m32 #1)
(binary-arith16-shimm4-dst-defn QI .b 0 0 shl (f-0-4 #xE) (f-4-3 4) shl-sem)
(binary-arith16-shimm4-dst-defn HI .w 0 1 shl (f-0-4 #xE) (f-4-3 4) shl-sem)
(binary-arith32-shimm4-dst-defn QI .b 0 0 shl #x7 #x0 shl-sem)
(binary-arith32-shimm4-dst-defn HI .w 0 1 shl #x7 #x0 shl-sem)
; shl.BW r1h,dst (m16 #2 m32 #3)
(dni shl16.b-dst "shl.b r1h,dest" ((machine 16))
("shl.b r1h,${dst16-16-QI}")
(+ (f-0-4 7) (f-4-4 4) (f-8-4 #xE) dst16-16-QI)
(shlr1h-sem HI dst16-16-QI)
())
(dni shl16.w-dst "shl.w r1h,dest" ((machine 16))
("shl.w r1h,${dst16-16-HI}")
(+ (f-0-4 7) (f-4-4 5) (f-8-4 #xE) dst16-16-HI)
(shlr1h-sem HI dst16-16-HI)
())
(dni shl32.b-dst "shl.b r1h,dest" ((machine 32))
("shl.b r1h,${dst32-16-Unprefixed-QI}")
(+ (f-0-4 #xA) dst32-16-Unprefixed-QI (f-7-1 0) (f-10-2 3) (f-12-4 #xE))
(shlr1h-sem QI dst32-16-Unprefixed-QI)
())
(dni shl32.w-dst "shl.w r1h,dest" ((machine 32))
("shl.w r1h,${dst32-16-Unprefixed-HI}")
(+ (f-0-4 #xA) dst32-16-Unprefixed-HI (f-7-1 1) (f-10-2 3) (f-12-4 #xE))
(shlr1h-sem HI dst32-16-Unprefixed-HI)
())
; shl.L #imm,dst (m16 #3)
(dni shl16-L-imm-r2r0 "shl.L #Imm-sh-12-s4,r2r0" ((machine 16))
"shl.l #${Imm-sh-12-s4},r2r0"
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-4 #x8) Imm-sh-12-s4)
(shl-sem SI Imm-sh-12-s4 (reg h-r2r0))
())
(dni shl16-L-imm-r3r1 "shl.L #Imm-sh-12-s4,r3r1" ((machine 16))
"shl.l #${Imm-sh-12-s4},r3r1"
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-4 #x9) Imm-sh-12-s4)
(shl-sem SI Imm-sh-12-s4 (reg h-r3r1))
())
; shl.L r1h,dst (m16 #4)
(dni shl16-L-r1h-r2r0 "shl.L r1h,r2r0" ((machine 16))
"shl.l r1h,r2r0"
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-4 0) (f-12-4 1))
(shl-sem SI (reg h-r1h) (reg h-r2r0))
())
(dni shl16-L-r1h-r3r1 "shl.L r1h,r3r1" ((machine 16))
"shl.l r1h,r3r1"
(+ (f-0-4 #xE) (f-4-4 #xB) (f-8-4 1) (f-12-4 1))
(shl-sem SI (reg h-r1h) (reg h-r3r1))
())
; shl.L #imm8,dst (m32 #2)
(binary-arith32-imm-dst-defn QI SI .l 0 shl X #x9 #x2 #x1 shl-sem)
; shl.L r1h,dst (m32 #4)
(dni shl32.l-dst "shl.l r1h,dest" ((machine 32))
("shl.l r1h,${dst32-16-Unprefixed-SI}")
(+ (f-0-4 #xC) dst32-16-Unprefixed-SI (f-7-1 0) (f-10-2 0) (f-12-4 1))
(shlr1h-sem QI dst32-16-Unprefixed-SI)
())
;-------------------------------------------------------------
; shlnc - shift logical non carry
;-------------------------------------------------------------
; TODO check semantics
; shlnc.L #imm8,dst
(binary-arith32-imm-dst-defn QI SI .l 0 shlnc X #x8 #x2 #x1 shl-sem)
;-------------------------------------------------------------
; sin - string input (m32)
;-------------------------------------------------------------
; TODO semantics
(dni sin32.b "sin" ((machine 32))
("sin.b")
(+ (f-0-4 #xB) (f-4-4 2) (f-8-4 8) (f-12-4 3))
(c-call VOID "sin_QI_semantics")
())
(dni sin32.w "sin" ((machine 32))
("sin.w")
(+ (f-0-4 #xB) (f-4-4 2) (f-8-4 9) (f-12-4 3))
(c-call VOID "sin_HI_semantics")
())
;-------------------------------------------------------------
; smovb - string move backward
;-------------------------------------------------------------
; TODO semantics
(dni smovb16.b "smovb.b" ((machine 16))
("smovb.b")
(+ (f-0-4 7) (f-4-4 #xC) (f-8-4 #xE) (f-12-4 9))
(c-call VOID "smovb_QI_semantics")
())
(dni smovb16.w "smovb.w" ((machine 16))
("smovb.w")
(+ (f-0-4 7) (f-4-4 #xD) (f-8-4 #xE) (f-12-4 9))
(c-call VOID "smovb_HI_semantics")
())
(dni smovb32.b "smovb.b" ((machine 32))
("smovb.b")
(+ (f-0-4 #xB) (f-4-4 6) (f-8-4 8) (f-12-4 3))
(c-call VOID "smovb_QI_semantics")
())
(dni smovb32.w "smovb.w" ((machine 32))
("smovb.w")
(+ (f-0-4 #xB) (f-4-4 6) (f-8-4 9) (f-12-4 3))
(c-call VOID "smovb_HI_semantics")
())
;-------------------------------------------------------------
; smovf - string move forward (m32)
;-------------------------------------------------------------
; TODO semantics
(dni smovf16.b "smovf.b" ((machine 16))
("smovf.b")
(+ (f-0-4 7) (f-4-4 #xC) (f-8-4 #xE) (f-12-4 8))
(c-call VOID "smovf_QI_semantics")
())
(dni smovf16.w "smovf.w" ((machine 16))
("smovf.w")
(+ (f-0-4 7) (f-4-4 #xD) (f-8-4 #xE) (f-12-4 8))
(c-call VOID "smovf_HI_semantics")
())
(dni smovf32.b "smovf.b" ((machine 32))
("smovf.b")
(+ (f-0-4 #xB) (f-4-4 0) (f-8-4 8) (f-12-4 3))
(c-call VOID "smovf_QI_semantics")
())
(dni smovf32.w "smovf.w" ((machine 32))
("smovf.w")
(+ (f-0-4 #xB) (f-4-4 0) (f-8-4 9) (f-12-4 3))
(c-call VOID "smovf_HI_semantics")
())
;-------------------------------------------------------------
; smovu - string move unequal (m32)
;-------------------------------------------------------------
; TODO semantics
(dni smovu.b "smovu.b" ((machine 32))
("smovu.b")
(+ (f-0-4 #xB) (f-4-4 8) (f-8-4 8) (f-12-4 3))
(c-call VOID "smovu_QI_semantics")
())
(dni smovu.w "smovu.w" ((machine 32))
("smovu.w")
(+ (f-0-4 #xB) (f-4-4 8) (f-8-4 9) (f-12-4 3))
(c-call VOID "smovu_HI_semantics")
())
;-------------------------------------------------------------
; sout - string output (m32)
;-------------------------------------------------------------
; TODO semantics
(dni sout.b "sout.b" ((machine 32))
("sout.b")
(+ (f-0-4 #xB) (f-4-4 4) (f-8-4 8) (f-12-4 3))
(c-call VOID "sout_QI_semantics")
())
(dni sout.w "sout" ((machine 32))
("sout.w")
(+ (f-0-4 #xB) (f-4-4 4) (f-8-4 9) (f-12-4 3))
(c-call VOID "sout_HI_semantics")
())
;-------------------------------------------------------------
; sstr - string store
;-------------------------------------------------------------
; TODO semantics
(dni sstr16.b "sstr.b" ((machine 16))
("sstr.b")
(+ (f-0-4 7) (f-4-4 #xC) (f-8-4 #xE) (f-12-4 #xA))
(c-call VOID "sstr_QI_semantics")
())
(dni sstr16.w "sstr.w" ((machine 16))
("sstr.w")
(+ (f-0-4 7) (f-4-4 #xD) (f-8-4 #xE) (f-12-4 #xA))
(c-call VOID "sstr_HI_semantics")
())
(dni sstr.b "sstr" ((machine 32))
("sstr.b")
(+ (f-0-4 #xB) (f-4-4 8) (f-8-4 0) (f-12-4 3))
(c-call VOID "sstr_QI_semantics")
())
(dni sstr.w "sstr" ((machine 32))
("sstr.w")
(+ (f-0-4 #xB) (f-4-4 8) (f-8-4 1) (f-12-4 3))
(c-call VOID "sstr_HI_semantics")
())
;-------------------------------------------------------------
; stnz - store on not zero
;-------------------------------------------------------------
(define-pmacro (stnz-sem mode src dst)
(sequence ()
(if (ne zbit (const 1))
(set dst src)))
)
; stnz #imm8,dst3 (m16)
(binary-arith16-b-S-imm8-dst3 stnz "" (f-0-4 #xD) (f-4-1 0) stnz-sem)
; stnz.BW #imm,dst (m32)
(binary-arith32-imm-dst-defn QI QI .b 0 stnz X #x9 #x1 #xF stnz-sem)
(binary-arith32-imm-dst-defn HI HI .w 1 stnz X #x9 #x1 #xF stnz-sem)
;-------------------------------------------------------------
; stz - store on zero
;-------------------------------------------------------------
(define-pmacro (stz-sem mode src dst)
(sequence ()
(if (eq zbit (const 1))
(set dst src)))
)
; stz #imm8,dst3 (m16)
(binary-arith16-b-S-imm8-dst3 stz "" (f-0-4 #xC) (f-4-1 1) stz-sem)
; stz.BW #imm,dst (m32)
(binary-arith32-imm-dst-defn QI QI .b 0 stz X #x9 #x0 #xF stz-sem)
(binary-arith32-imm-dst-defn HI HI .w 1 stz X #x9 #x0 #xF stz-sem)
;-------------------------------------------------------------
; stzx - store on zero extention
;-------------------------------------------------------------
(define-pmacro (stzx-sem mode src1 src2 dst)
(sequence ()
(if (eq zbit (const 1))
(set dst src1)
(set dst src2)))
)
; stzx #imm8,dst3 (m16)
(dni stzx16-imm8-imm8-r0h "stzx #Imm8,#Imm8,r0h" ((machine 16))
("stzx #${Imm-8-QI},#${Imm-16-QI},r0h")
(+ (f-0-4 #xD) (f-4-4 #xB) Imm-8-QI Imm-16-QI)
(stzx-sem QI Imm-8-QI Imm-16-QI (reg h-r0h))
())
(dni stzx16-imm8-imm8-r0l "stzx #Imm8,#Imm8,r0l" ((machine 16))
("stzx #${Imm-8-QI},#${Imm-16-QI},r0l")
(+ (f-0-4 #xD) (f-4-4 #xC) Imm-8-QI Imm-16-QI)
(stzx-sem QI Imm-8-QI Imm-16-QI (reg h-r0l))
())
(dni stzx16-imm8-imm8-dsp8sb "stzx #Imm8,#Imm8,dsp8[sb]" ((machine 16))
("stzx #${Imm-8-QI},#${Imm-24-QI},${Dsp-16-u8}[sb]")
(+ (f-0-4 #xD) (f-4-4 #xD) Imm-8-QI Dsp-16-u8 Imm-24-QI)
(stzx-sem QI Imm-8-QI Imm-16-QI (mem16 QI (add (reg h-sb) Dsp-24-u8)))
())
(dni stzx16-imm8-imm8-dsp8fb "stzx #Imm8,#Imm8,dsp8[fb]" ((machine 16))
("stzx #${Imm-8-QI},#${Imm-24-QI},${Dsp-16-s8}[fb]")
(+ (f-0-4 #xD) (f-4-4 #xE) Imm-8-QI Dsp-16-s8 Imm-24-QI)
(stzx-sem QI Imm-8-QI Imm-24-QI (mem16 QI (add (reg h-fb) Dsp-16-s8)))
())
(dni stzx16-imm8-imm8-abs16 "stzx #Imm8,#Imm8,abs16" ((machine 16))
("stzx #${Imm-8-QI},#${Imm-32-QI},${Dsp-16-u16}")
(+ (f-0-4 #xD) (f-4-4 #xF) Imm-8-QI Dsp-16-u16 Imm-32-QI)
(stzx-sem QI Imm-8-QI Imm-32-QI (mem16 QI Dsp-16-u16))
())
; stzx.BW #imm,dst (m32)
(insn-imm1-imm2-dst-Unprefixed stzx #x9 #x3 #xF stzx-sem)
;-------------------------------------------------------------
; subx - subtract extend (m32)
;-------------------------------------------------------------
(define-pmacro (subx-sem mode src1 dst)
(sequence ((mode result))
(set result (sub mode dst (ext mode src1)))
(set obit (sub-oflag mode dst (ext mode src1) 0))
(set cbit (sub-cflag mode dst (ext mode src1) 0))
(set dst result)
(set-z-and-s result)))
; subx #imm8,dst
(binary-arith32-imm-dst-defn QI SI "" 0 subx G #x9 #x1 #x1 subx-sem)
; subx src,dst
(binary-arith32-src-dst-defn QI SI "" 0 subx G #x1 #x0 subx-sem)
;-------------------------------------------------------------
; tst - test
;-------------------------------------------------------------
(define-pmacro (tst-sem mode src1 dst)
(sequence ((mode result))
(set result (and mode dst src1))
(set-z-and-s result))
)
; tst.BW #imm,dst (m16 #1 m32 #1)
(binary-arith-imm-dst tst G (f-0-4 7) (f-4-3 3) (f-8-4 0) #x9 #x3 #xE tst-sem)
; tst.BW src,dst (m16 #2 m32 #3)
(binary-arith16-src-dst-defn QI QI .b 0 tst X (f-0-4 #x8) (f-4-3 0) tst-sem)
(binary-arith16-src-dst-defn HI HI .w 1 tst X (f-0-4 #x8) (f-4-3 0) tst-sem)
(binary-arith32-src-dst-Prefixed QI QI .b 0 tst G #x1 #x9 tst-sem)
(binary-arith32-src-dst-Prefixed HI HI .w 1 tst G #x1 #x9 tst-sem)
; tst.BW:S #imm,dst2 (m32 #2)
(binary-arith32-s-imm-dst QI .b 0 tst #x0 #x6 tst-sem)
(binary-arith32-s-imm-dst HI .w 1 tst #x0 #x6 tst-sem)
;-------------------------------------------------------------
; und - undefined
;-------------------------------------------------------------
(dni und16 "und" ((machine 16))
("und")
(+ (f-0-4 #xF) (f-4-4 #xF))
(nop)
())
(dni und32 "und" ((machine 32))
("und")
(+ (f-0-4 #xF) (f-4-4 #xF))
(nop)
())
;-------------------------------------------------------------
; wait
;-------------------------------------------------------------
; ??? semantics
(dni wait16 "wait" ((machine 16))
("wait")
(+ (f-0-4 7) (f-4-4 #xD) (f-8-4 #xF) (f-12-4 3))
(nop)
())
(dni wait "wait" ((machine 32))
("wait")
(+ (f-0-4 #xB) (f-4-4 2) (f-8-4 0) (f-12-4 3))
(nop)
())
;-------------------------------------------------------------
; xchg - exchange
;-------------------------------------------------------------
(define-pmacro (xchg-sem mode src dst)
(sequence ((mode result))
(set result src)
(set src dst)
(set dst result))
)
(define-pmacro (xchg16-defn mode sz szc src srcreg)
(dni (.sym xchg16 sz - srcreg)
(.str "xchg" sz "-" srcreg ",dst16-16-" mode)
((machine 16))
(.str "xchg." sz " " srcreg ",${dst16-16-" mode "}")
(+ (f-0-4 #x7) (f-4-3 #x5) (f-7-1 szc) (f-8-2 0) (f-10-2 src) (.sym dst16-16- mode))
(xchg-sem mode (reg (.sym h- srcreg)) (.sym dst16-16- mode))
())
)
(xchg16-defn QI b 0 0 r0l)
(xchg16-defn QI b 0 1 r0h)
(xchg16-defn QI b 0 2 r1l)
(xchg16-defn QI b 0 3 r1h)
(xchg16-defn HI w 1 0 r0)
(xchg16-defn HI w 1 1 r1)
(xchg16-defn HI w 1 2 r2)
(xchg16-defn HI w 1 3 r3)
(define-pmacro (xchg32-defn mode sz szc src srcreg)
(dni (.sym xchg32 sz - srcreg)
(.str "xchg" sz "-" srcreg ",dst32-16-Unprefixed-" mode)
((machine 32))
(.str "xchg." sz " " srcreg ",${dst32-16-Unprefixed-" mode "}")
(+ (f-0-4 #xD) (.sym dst32-16-Unprefixed- mode) (f-7-1 szc) (f-10-2 0) (f-12-1 1) (f-13-3 src))
(xchg-sem mode (reg (.sym h- srcreg)) (.sym dst32-16-Unprefixed- mode))
())
)
(xchg32-defn QI b 0 0 r0l)
(xchg32-defn QI b 0 1 r1l)
(xchg32-defn QI b 0 2 a0)
(xchg32-defn QI b 0 3 a1)
(xchg32-defn QI b 0 4 r0h)
(xchg32-defn QI b 0 5 r1h)
(xchg32-defn HI w 1 0 r0)
(xchg32-defn HI w 1 1 r1)
(xchg32-defn HI w 1 2 a0)
(xchg32-defn HI w 1 3 a1)
(xchg32-defn HI w 1 4 r2)
(xchg32-defn HI w 1 5 r3)
;-------------------------------------------------------------
; xor - exclusive or
;-------------------------------------------------------------
(define-pmacro (xor-sem mode src1 dst)
(sequence ((mode result))
(set result (xor mode src1 dst))
(set-z-and-s result)
(set dst result))
)
; xor.BW #imm,dst (m16 #1 m32 #1)
(binary-arith-imm-dst xor G (f-0-4 7) (f-4-3 3) (f-8-4 1) #x9 #x0 #xE xor-sem)
; xor.BW src,dst (m16 #3 m32 #3)
(binary-arith-src-dst xor G (f-0-4 #x8) (f-4-3 4) #x1 #x9 xor-sem)
;-------------------------------------------------------------
; Widening
;-------------------------------------------------------------
(define-pmacro (exts-sem smode dmode src dst)
(set dst (ext dmode (trunc smode src)))
)
(define-pmacro (extz-sem smode dmode src dst)
(set dst (zext dmode (trunc smode src)))
)
; exts.b dst for m16c
(ext16-defn QI HI .b 0 exts (f-0-4 7) (f-4-3 6) (f-8-4 6) exts-sem)
; exts.w r0 for m16c
(dni exts16.w-r0
"exts.w r0"
((machine 16))
"exts.w r0"
(+ (f-0-4 #x7) (f-4-4 #xC) (f-8-4 #xF) (f-12-4 3))
(exts-sem HI SI R0 R2R0)
())
; exts.size dst for m32c
(ext32-defn QI HI .b 0 exts (f-0-4 #xC) (f-10-2 1) (f-12-4 #xE) exts-sem)
(ext32-defn HI SI .w 1 exts (f-0-4 #xC) (f-10-2 1) (f-12-4 #xE) exts-sem)
; exts.b src,dst for m32c
(ext32-binary-defn exts .b #x1 #x7 exts-sem)
; extz.b src,dst for m32c
(ext32-binary-defn extz "" #x1 #xB extz-sem)
;-------------------------------------------------------------
; Indirect
;-------------------------------------------------------------
; TODO semantics
(dni srcind "SRC-INDIRECT" ((machine 32))
("src-indirect")
(+ (f-0-4 4) (f-4-4 1))
(set (reg h-src-indirect) 1)
())
(dni destind "DEST-INDIRECT" ((machine 32))
("dest-indirect")
(+ (f-0-4 0) (f-4-4 9))
(set (reg h-dst-indirect) 1)
())
(dni srcdestind "SRC-DEST-INDIRECT" ((machine 32))
("src-dest-indirect")
(+ (f-0-4 4) (f-4-4 9))
(sequence () (set (reg h-src-indirect) 1) (set (reg h-dst-indirect) 1))
())