From 554fd8c5195424bdbcabf5de30fdc183aba391bd Mon Sep 17 00:00:00 2001 From: upstream source tree Date: Sun, 15 Mar 2015 20:14:05 -0400 Subject: obtained gcc-4.6.4.tar.bz2 from upstream website; verified gcc-4.6.4.tar.bz2.sig; imported gcc-4.6.4 source tree from verified upstream tarball. downloading a git-generated archive based on the 'upstream' tag should provide you with a source tree that is binary identical to the one extracted from the above tarball. if you have obtained the source via the command 'git clone', however, do note that line-endings of files in your working directory might differ from line-endings of the respective files in the upstream repository. --- gcc/config/mep/mep-core.cpu | 3081 +++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 3081 insertions(+) create mode 100644 gcc/config/mep/mep-core.cpu (limited to 'gcc/config/mep/mep-core.cpu') diff --git a/gcc/config/mep/mep-core.cpu b/gcc/config/mep/mep-core.cpu new file mode 100644 index 000000000..cfcdd42da --- /dev/null +++ b/gcc/config/mep/mep-core.cpu @@ -0,0 +1,3081 @@ +; Toshiba MeP Media Engine architecture description. -*- Scheme -*- +; Copyright (C) 2001, 2002, 2003, 2004, 2005, 2009 +; Free Software Foundation, Inc. +; Contributed by Red Hat, Inc. +; +; This file is part of GCC. +; +; GCC is free software; you can redistribute it and/or modify it under +; the terms of the GNU General Public License as published by the Free +; Software Foundation; either version 3, or (at your option) any later +; version. +; +; GCC is distributed in the hope that it will be useful, but WITHOUT ANY +; WARRANTY; without even the implied warranty of MERCHANTABILITY or +; FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License +; for more details. +; +; You should have received a copy of the GNU General Public License +; along with GCC; see the file COPYING3. If not see +; . + +(include "simplify.inc") + +(define-pmacro isa-enum () + (isas mep +; begin-isa-enum + ext_core1 ext_cop1_16 ext_cop1_32 ext_cop1_48 ext_cop1_64 +; end-isa-enum + ) +) + +(define-arch + (name mep) + (comment "Toshiba MeP Media Engine") + (insn-lsb0? #f) ;; work around cgen limitation + (machs mep h1 c5) + isa-enum +) + +(define-isa + (name mep) + (comment "MeP core instruction set") + (default-insn-word-bitsize 32) + (default-insn-bitsize 32) + (base-insn-bitsize 32) +) + +; begin-isas +(define-isa + (name ext_core1) + (comment "MeP core extension instruction set") + (default-insn-word-bitsize 32) + (default-insn-bitsize 32) + (base-insn-bitsize 32) +) + +(define-isa + (name ext_cop1_16) + (comment "MeP coprocessor instruction set") + (default-insn-word-bitsize 32) + (default-insn-bitsize 32) + (base-insn-bitsize 32) +) + +(define-isa + (name ext_cop1_32) + (comment "MeP coprocessor instruction set") + (default-insn-word-bitsize 32) + (default-insn-bitsize 32) + (base-insn-bitsize 32) +) + +(define-isa + (name ext_cop1_48) + (comment "MeP coprocessor instruction set") + (default-insn-word-bitsize 32) + (default-insn-bitsize 32) + (base-insn-bitsize 32) +) + +(define-isa + (name ext_cop1_64) + (comment "MeP coprocessor instruction set") + (default-insn-word-bitsize 32) + (default-insn-bitsize 32) + (base-insn-bitsize 32) +) + +(define-pmacro all-mep-isas () (ISA mep,ext_core1,ext_cop1_16,ext_cop1_32,ext_cop1_48,ext_cop1_64)) + +(define-pmacro all-mep-core-isas () (ISA mep,ext_core1,ext_cop1_32)) + +(define-pmacro all-core-isa-list () mep,ext_core1) +; end-isas + +(define-cpu + (name mepf) + (comment "MeP family") + (endian either) + (insn-chunk-bitsize 16) + (word-bitsize 32) +) + +(define-mach + (name mep) + (comment "MeP media engine") + (cpu mepf) + isa-enum +) + +(define-mach + (name h1) + (comment "H1 media engine") + (cpu mepf) + isa-enum +) + +(define-mach + (name c5) + (comment "C5 media engine") + (cpu mepf) + isa-enum +) + +(define-model + (name mep) + (comment "MeP media engine processor") + (mach c5) ; mach gets changed by MeP-Integrator + + (unit u-exec "execution unit" () + 1 1 ; issue done + () () () ()) + + ; Branch unit + (unit u-branch "Branch Unit" () + 0 0 ; issue done + () ; state + () ; inputs + ((pc)) ; outputs + () ; profile action (default) + ) + + ; Multiply unit + (unit u-multiply "Multiply Unit" () + 0 0 ; issue done + () ; state + () ; inputs + () ; outputs + () ; profile action (default) + ) + + ; Divide unit + (unit u-divide "Divide Unit" () + 0 0 ; issue done + () ; state + () ; inputs + () ; outputs + () ; profile action (default) + ) + + ; Stcb unit + (unit u-stcb "stcb Unit" () + 0 0 ; issue done + () ; state + () ; inputs + () ; outputs + () ; profile action (default) + ) + + ; Ldcb unit + (unit u-ldcb "ldcb Unit" () + 0 0 ; issue done + () ; state + () ; inputs + () ; outputs + () ; profile action (default) + ) + + ; Load gpr unit + (unit u-load-gpr "Load into GPR Unit" () + 0 0 ; issue done + () ; state + () ; inputs + ((loadreg INT -1)) ; outputs + () ; profile action (default) + ) + + (unit u-ldcb-gpr "Ldcb into GPR Unit" () + 0 0 ; issue done + () ; state + () ; inputs + ((loadreg INT -1)) ; outputs + () ; profile action (default) + ) + + ; Multiply into GPR unit + (unit u-mul-gpr "Multiply into GPR Unit" () + 0 0 ; issue done + () ; state + () ; inputs + ((resultreg INT -1)) ; outputs + () ; profile action (default) + ) + + ; Use gpr unit -- stalls if GPR not ready + (unit u-use-gpr "Use GPR Unit" () + 0 0 ; issue done + () ; state + ((usereg INT -1)) ; inputs + () ; outputs + () ; profile action (default) + ) + + ; Use ctrl-reg unit -- stalls if CTRL-REG not ready + (unit u-use-ctrl-reg "Use CTRL-REG Unit" () + 0 0 ; issue done + () ; state + ((usereg INT -1)) ; inputs + () ; outputs + () ; profile action (default) + ) + + ; Store ctrl-reg unit -- stalls if CTRL-REG not ready + (unit u-store-ctrl-reg "Store CTRL-REG Unit" () + 0 0 ; issue done + () ; state + () ; inputs + ((storereg INT -1)) ; outputs + () ; profile action (default) + ) +) + +; Hardware elements. + +(dnh h-pc "program counter" (PC PROFILE all-mep-isas) (pc) () () ()) + +(define-hardware + (name h-gpr) + (comment "General purpose registers") + (attrs all-mep-isas CACHE-ADDR PROFILE) + (type register SI (16)) + (indices keyword "$" + (("0" 0) ("1" 1) ("2" 2) ("3" 3) ("4" 4) ("5" 5) + ("6" 6) ("7" 7) ("8" 8) ("9" 9) ("10" 10) ("11" 11) + ; "$8" is the preferred name for register 8, but "$tp", "$gp" + ; and "$sp" are preferred for their respective registers. + (fp 8) (tp 13) (gp 14) (sp 15) + ("12" 12) ("13" 13) ("14" 14) ("15" 15))) +) + +(define-hardware + (name h-csr) + (comment "Control/special registers") + (attrs all-mep-isas PROFILE) + (type register SI (32)) + (indices keyword "$" + ((pc 0) (lp 1) (sar 2) (rpb 4) (rpe 5) (rpc 6) + (hi 7) (lo 8) (mb0 12) (me0 13) (mb1 14) (me1 15) + (psw 16) (id 17) (tmp 18) (epc 19) (exc 20) (cfg 21) + (npc 23) (dbg 24) (depc 25) (opt 26) (rcfg 27) (ccfg 28) +; begin-extra-csr-registers + (vid 22) +; end-extra-csr-registers + )) + (get (index) (c-call SI "cgen_get_csr_value" index)) + (set (index newval) (c-call VOID "cgen_set_csr_value" index newval)) +) + +(define-pmacro (-reg-pair n) ((.sym n) n)) +(define-hardware + (name h-cr64) + (comment "64-bit coprocessor registers") + (attrs all-mep-isas) + ; This assumes that the data path of the co-pro is 64 bits. + (type register DI (32)) + (indices keyword "$c" (.map -reg-pair (.iota 32))) + (set (index newval) (c-call VOID "h_cr64_queue_set" index newval)) +) +(define-hardware + (name h-cr64-w) + (comment "64-bit coprocessor registers, pending writes") + (attrs all-mep-isas) + ; This assumes that the data path of the co-pro is 64 bits. + (type register DI (32)) +) + +(define-hardware + (name h-cr) + (comment "32-bit coprocessor registers") + (attrs all-mep-isas VIRTUAL) + (type register SI (32)) + (indices keyword "$c" (.map -reg-pair (.iota 32))) + (set (index newval) (c-call VOID "h_cr64_set" index (ext DI newval))) + (get (index) (trunc SI (c-call DI "h_cr64_get" index))) +) + +;; Given a coprocessor control register number N, expand to a +;; name/index pair: ($ccrN N) +(define-pmacro (-ccr-reg-pair n) ((.sym "$ccr" n) n)) + +(define-hardware + (name h-ccr) + (comment "Coprocessor control registers") + (attrs all-mep-isas) + (type register SI (64)) + (indices keyword "" (.map -ccr-reg-pair (.iota 64))) + (set (index newval) (c-call VOID "h_ccr_queue_set" index newval)) +) +(define-hardware + (name h-ccr-w) + (comment "Coprocessor control registers, pending writes") + (attrs all-mep-isas) + (type register SI (64)) +) + + +; Instruction fields. Bit numbering reversed. + +; Conventions: +; +; N = number of bits in value +; A = alignment (2 or 4, omit for 1) +; B = leftmost (i.e. closest to zero) bit position +; +; -- Generic Fields (f-*) -- +; N number of bits in *value* (1-24) +; [us] signed vs unsigned +; B position of left-most bit (4-16) +; aA opt. alignment (2=drop 1 lsb, 4=drop 2 lsbs, etc) +; n opt. for noncontiguous fields +; f-foo-{hi,lo} msb/lsb parts of field f-foo +; +; -- Operands -- +; pcrelNaA PC-relative branch target (signed) +; pcabsNaA Absolute branch target (unsigned) +; +; [us]dispNaA [un]signed displacement +; [us]immN [un]signed immediate value +; addrNaA absolute address (unsigned) +; +; Additional prefixes may be used for special cases. + +(dnf f-major "major opcode" (all-mep-core-isas) 0 4) + +(dnf f-rn "register n" (all-mep-core-isas) 4 4) +(dnf f-rn3 "register 0-7" (all-mep-core-isas) 5 3) +(dnf f-rm "register m" (all-mep-core-isas) 8 4) +(dnf f-rl "register l" (all-mep-core-isas) 12 4) +(dnf f-sub2 "sub opcode (2 bits)" (all-mep-core-isas) 14 2) +(dnf f-sub3 "sub opcode (3 bits)" (all-mep-core-isas) 13 3) +(dnf f-sub4 "sub opcode (4 bits)" (all-mep-core-isas) 12 4) +(dnf f-ext "extended field" (all-mep-core-isas) 16 8) +(dnf f-ext4 "extended field 16:4" (all-mep-core-isas) 16 4) +(dnf f-ext62 "extended field 20:2" (all-mep-core-isas) 20 2) +(dnf f-crn "copro register n" (all-mep-core-isas) 4 4) + +(df f-csrn-hi "cr hi 1u15" (all-mep-core-isas) 15 1 UINT #f #f) +(df f-csrn-lo "cr lo 4u8" (all-mep-core-isas) 8 4 UINT #f #f) +(define-multi-ifield + (name f-csrn) + (comment "control reg") + (attrs all-mep-core-isas) + (mode UINT) + (subfields f-csrn-hi f-csrn-lo) + (insert (sequence () + (set (ifield f-csrn-lo) (and (ifield f-csrn) #xf)) + (set (ifield f-csrn-hi) (srl (ifield f-csrn) 4)))) + (extract (set (ifield f-csrn) + (or (sll (ifield f-csrn-hi) 4) (ifield f-csrn-lo)))) + ) + +(df f-crnx-hi "crx hi 1u28" (all-mep-core-isas) 28 1 UINT #f #f) +(df f-crnx-lo "crx lo 4u4" (all-mep-core-isas) 4 4 UINT #f #f) +(define-multi-ifield + (name f-crnx) + (comment "copro register n (0-31)") + (attrs all-mep-core-isas) + (mode UINT) + (subfields f-crnx-hi f-crnx-lo) + (insert (sequence () + (set (ifield f-crnx-lo) (and (ifield f-crnx) #xf)) + (set (ifield f-crnx-hi) (srl (ifield f-crnx) 4)))) + (extract (set (ifield f-crnx) + (or (sll (ifield f-crnx-hi) 4) (ifield f-crnx-lo)))) + ) + +; Miscellaneous fields. + +(define-pmacro (dnfb n) + (dnf (.sym f- n) (.str "bit " n) (all-mep-isas) n 1)) + +; Define small fields used throughout the instruction set description. +; Each field (eg. `f-N') is at single bit field at position N. + +(dnfb 0) +(dnfb 1) +(dnfb 2) +(dnfb 3) +(dnfb 4) +(dnfb 5) +(dnfb 6) +(dnfb 7) +(dnfb 8) +(dnfb 9) +(dnfb 10) +(dnfb 11) +(dnfb 12) +(dnfb 13) +(dnfb 14) +(dnfb 15) +(dnfb 16) +(dnfb 17) +(dnfb 18) +(dnfb 19) +(dnfb 20) +(dnfb 21) +(dnfb 22) +(dnfb 23) +(dnfb 24) +(dnfb 25) +(dnfb 26) +(dnfb 27) +(dnfb 28) +(dnfb 29) +(dnfb 30) +(dnfb 31) + +; Branch/Jump target addresses + +(df f-8s8a2 "pc-rel addr (8 bits)" (all-mep-core-isas PCREL-ADDR) 8 7 INT + ((value pc) (sra SI (sub SI value pc) 1)) + ((value pc) (add SI (sll SI value 1) pc))) + +(df f-12s4a2 "pc-rel addr (12 bits)" (all-mep-core-isas PCREL-ADDR) 4 11 INT + ((value pc) (sra SI (sub SI value pc) 1)) + ((value pc) (add SI (sll SI value 1) pc))) + +(df f-17s16a2 "pc-rel addr (17 bits)" (all-mep-core-isas PCREL-ADDR) 16 16 INT + ((value pc) (sra SI (sub SI value pc) 1)) + ((value pc) (add SI (sll SI value 1) pc))) + +(df f-24s5a2n-hi "24s5a2n hi 16s16" (all-mep-core-isas PCREL-ADDR) 16 16 INT #f #f) +(df f-24s5a2n-lo "24s5a2n lo 7s5a2" (all-mep-core-isas PCREL-ADDR) 5 7 UINT #f #f) +(define-multi-ifield + (name f-24s5a2n) + (comment "pc-rel addr (24 bits align 2)") + (attrs all-mep-core-isas PCREL-ADDR) + (mode INT) + (subfields f-24s5a2n-hi f-24s5a2n-lo) + (insert (sequence () + (set (ifield f-24s5a2n) + (sub (ifield f-24s5a2n) pc)) + (set (ifield f-24s5a2n-lo) + (srl (and (ifield f-24s5a2n) #xfe) 1)) + (set (ifield f-24s5a2n-hi) + (sra INT (ifield f-24s5a2n) 8)))) + (extract (set (ifield f-24s5a2n) + (add SI (or (sll (ifield f-24s5a2n-hi) 8) + (sll (ifield f-24s5a2n-lo) 1)) + pc))) + ) + +(df f-24u5a2n-hi "24u5a2n hi 16u16" (all-mep-core-isas) 16 16 UINT #f #f) +(df f-24u5a2n-lo "24u5a2n lo 7u5a2" (all-mep-core-isas) 5 7 UINT #f #f) +(define-multi-ifield + (name f-24u5a2n) + (comment "abs jump target (24 bits, alignment 2)") + (attrs all-mep-core-isas ABS-ADDR) + (mode UINT) + (subfields f-24u5a2n-hi f-24u5a2n-lo) + (insert (sequence () + (set (ifield f-24u5a2n-lo) + (srl (and (ifield f-24u5a2n) #xff) 1)) + (set (ifield f-24u5a2n-hi) + (srl (ifield f-24u5a2n) 8)) + )) + (extract (set (ifield f-24u5a2n) + (or (sll (ifield f-24u5a2n-hi) 8) + (sll (ifield f-24u5a2n-lo) 1)))) + ) + +; Displacement fields. + +(df f-2u6 "SAR offset (2 bits)" (all-mep-core-isas) 6 2 UINT #f #f) +(df f-7u9 "tp-rel b (7 bits)" (all-mep-core-isas) 9 7 UINT #f #f) +(df f-7u9a2 "tp-rel h (7 bits)" (all-mep-core-isas) 9 6 UINT + ((value pc) (srl SI value 1)) + ((value pc) (sll SI value 1))) +(df f-7u9a4 "tp/sp-rel w (7 bits)" (all-mep-core-isas) 9 5 UINT + ((value pc) (srl SI value 2)) + ((value pc) (sll SI value 2))) +(df f-16s16 "general 16-bit s-val" (all-mep-core-isas) 16 16 INT #f #f) + +; Immediate fields. + +(df f-2u10 "swi level (2 bits)" (all-mep-core-isas) 10 2 UINT #f #f) +(df f-3u5 "bit offset (3 bits)" (all-mep-core-isas) 5 3 UINT #f #f) +(df f-4u8 "bCC const (4 bits)" (all-mep-core-isas) 8 4 UINT #f #f) +(df f-5u8 "slt & shifts (5 bits)" (all-mep-core-isas) 8 5 UINT #f #f) +(df f-5u24 "clip immediate (5 bits)" (all-mep-core-isas) 24 5 UINT #f #f) +(df f-6s8 "add immediate (6 bits)" (all-mep-core-isas) 8 6 INT #f #f) +(df f-8s8 "add imm (8 bits)" (all-mep-core-isas) 8 8 INT #f #f) +(df f-16u16 "general 16-bit u-val" (all-mep-core-isas) 16 16 UINT #f #f) +(df f-12u16 "cmov fixed 1" (all-mep-core-isas) 16 12 UINT #f #f) +(df f-3u29 "cmov fixed 2" (all-mep-core-isas) 29 3 UINT #f #f) + + +; These are all for the coprocessor opcodes + +; The field is like IJKiiiiiii where I and J are toggled if K is set, +; for compatibility with older cores. +(define-pmacro (compute-cdisp10 val) + (cond SI + ((and SI (cond SI ((and SI val #x80) (xor SI val #x300)) (else val)) #x200) + (sub (cond SI ((and SI val #x80) (xor SI val #x300)) (else val)) #x400)) + (else + (cond SI ((and SI val #x80) (xor SI val #x300)) (else val))) + ) + ) +(define-pmacro (extend-cdisp10 val) + (cond SI + ((and SI (compute-cdisp10 val) #x200) + (sub (and SI (compute-cdisp10 val) #x3ff) #x400)) + (else + (and SI (compute-cdisp10 val) #x3ff)) + ) + ) + +(df f-cdisp10 "cop imm10" (all-mep-core-isas) 22 10 INT + ((value pc) (extend-cdisp10 value)) + ((value pc) (extend-cdisp10 value)) + ) + +; Non-contiguous fields. + +(df f-24u8a4n-hi "24u8a4n hi 16u16" (all-mep-core-isas) 16 16 UINT #f #f) +(df f-24u8a4n-lo "24u8a4n lo 8u8a4" (all-mep-core-isas) 8 6 UINT #f #f) +(define-multi-ifield + (name f-24u8a4n) + (comment "absolute 24-bit address") + (attrs all-mep-core-isas) + (mode UINT) + (subfields f-24u8a4n-hi f-24u8a4n-lo) + (insert (sequence () + (set (ifield f-24u8a4n-hi) (srl (ifield f-24u8a4n) 8)) + (set (ifield f-24u8a4n-lo) (srl (and (ifield f-24u8a4n) #xfc) 2)))) + (extract (set (ifield f-24u8a4n) + (or (sll (ifield f-24u8a4n-hi) 8) + (sll (ifield f-24u8a4n-lo) 2)))) + ) + +(df f-24u8n-hi "24u8n hi 16u16" (all-mep-core-isas) 16 16 UINT #f #f) +(df f-24u8n-lo "24u8n lo 8u8" (all-mep-core-isas) 8 8 UINT #f #f) +(define-multi-ifield + (name f-24u8n) + (comment "24-bit constant") + (attrs all-mep-core-isas) + (mode UINT) + (subfields f-24u8n-hi f-24u8n-lo) + (insert (sequence () + (set (ifield f-24u8n-hi) (srl (ifield f-24u8n) 8)) + (set (ifield f-24u8n-lo) (and (ifield f-24u8n) #xff)))) + (extract (set (ifield f-24u8n) + (or (sll (ifield f-24u8n-hi) 8) + (ifield f-24u8n-lo)))) + ) + +(df f-24u4n-hi "24u4n hi 8u4" (all-mep-core-isas) 4 8 UINT #f #f) +(df f-24u4n-lo "24u4n lo 16u16" (all-mep-core-isas) 16 16 UINT #f #f) +(define-multi-ifield + (name f-24u4n) + (comment "coprocessor code") + (attrs all-mep-core-isas) + (mode UINT) + (subfields f-24u4n-hi f-24u4n-lo) + (insert (sequence () + (set (ifield f-24u4n-hi) (srl (ifield f-24u4n) 16)) + (set (ifield f-24u4n-lo) (and (ifield f-24u4n) #xffff)))) + (extract (set (ifield f-24u4n) + (or (sll (ifield f-24u4n-hi) 16) + (ifield f-24u4n-lo)))) + ) + +(define-multi-ifield + (name f-callnum) + (comment "system call number field") + (attrs all-mep-core-isas) + (mode UINT) + (subfields f-5 f-6 f-7 f-11) + (insert (sequence () + (set (ifield f-5) (and (srl (ifield f-callnum) 3) 1)) + (set (ifield f-6) (and (srl (ifield f-callnum) 2) 1)) + (set (ifield f-7) (and (srl (ifield f-callnum) 1) 1)) + (set (ifield f-11) (and (ifield f-callnum) 1)))) + (extract (set (ifield f-callnum) + (or (sll (ifield f-5) 3) + (or (sll (ifield f-6) 2) + (or (sll (ifield f-7) 1) + (ifield f-11)))))) + ) + +(df f-ccrn-hi "ccrn hi 2u28" (all-mep-core-isas) 28 2 UINT #f #f) +(df f-ccrn-lo "ccrn lo 4u4" (all-mep-core-isas) 4 4 UINT #f #f) +(define-multi-ifield + (name f-ccrn) + (comment "Coprocessor register number field") + (attrs all-mep-core-isas) + (mode UINT) + (subfields f-ccrn-hi f-ccrn-lo) + (insert (sequence () + (set (ifield f-ccrn-hi) (and (srl (ifield f-ccrn) 4) #x3)) + (set (ifield f-ccrn-lo) (and (ifield f-ccrn) #xf)))) + (extract (set (ifield f-ccrn) + (or (sll (ifield f-ccrn-hi) 4) + (ifield f-ccrn-lo)))) + ) + +; Operands. + +;; Only LABEL, REGNUM, FMAX_FLOAT and FMAX_INT are now relevant for correct +;; operation. The others are mostly kept for backwards compatibility, +;; although they do affect the dummy prototypes in +;; gcc/config/mep/intrinsics.h. +(define-attr + (type enum) + (for operand) + (name CDATA) + (comment "datatype to use for C intrinsics mapping") + (values LABEL REGNUM FMAX_FLOAT FMAX_INT + POINTER LONG ULONG SHORT USHORT CHAR UCHAR CP_DATA_BUS_INT) + (default LONG)) + +(define-attr + (type enum) + (for insn) + (name CPTYPE) + (comment "datatype to use for coprocessor values") + (values CP_DATA_BUS_INT VECT V2SI V4HI V8QI V2USI V4UHI V8UQI) + (default CP_DATA_BUS_INT)) + +(define-attr + (type enum) + (for insn) + (name CRET) + ;; VOID - all arguments are passed as parameters; if any are written, pointers to them are passed. + ;; FIRST - the first argument is the return value. + ;; FIRSTCOPY - the first argument is the return value, but a copy is also the first parameter. + (values VOID FIRST FIRSTCOPY) + (default VOID) + (comment "Insn's intrinsic returns void, or the first argument rather than (or in addition to) passing it.")) + +(define-attr + (type integer) + (for operand) + (name ALIGN) + (comment "alignment of immediate operands") + (default 1)) + +(define-attr + (for operand) + (type boolean) + (name RELOC_IMPLIES_OVERFLOW) + (comment "Operand should not be considered as a candidate for relocs")) + +(define-attr + (for hardware) + (type boolean) + (name IS_FLOAT) + (comment "Register contains a floating point value")) + +(define-pmacro (dpop name commment attrib hwr field func) + (define-full-operand name comment attrib + hwr DFLT field ((parse func)) () ())) +(define-pmacro (dprp name commment attrib hwr field pafunc prfunc) + (define-full-operand name comment attrib + hwr DFLT field ((parse pafunc) (print prfunc)) () ())) + +(dnop r0 "register 0" (all-mep-core-isas) h-gpr 0) +(dnop rn "register Rn" (all-mep-core-isas) h-gpr f-rn) +(dnop rm "register Rm" (all-mep-core-isas) h-gpr f-rm) +(dnop rl "register Rl" (all-mep-core-isas) h-gpr f-rl) +(dnop rn3 "register 0-7" (all-mep-core-isas) h-gpr f-rn3) + +;; Variants of RM/RN with different CDATA attributes. See comment above +;; CDATA for more details. + +(dnop rma "register Rm holding pointer" (all-mep-core-isas (CDATA POINTER)) h-gpr f-rm) + +(dnop rnc "register Rn holding char" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn) +(dnop rnuc "register Rn holding unsigned char" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn) +(dnop rns "register Rn holding short" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn) +(dnop rnus "register Rn holding unsigned short" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn) +(dnop rnl "register Rn holding long" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn) +(dnop rnul "register Rn holding unsigned long" (all-mep-core-isas (CDATA ULONG)) h-gpr f-rn) + +(dnop rn3c "register 0-7 holding unsigned char" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn3) +(dnop rn3uc "register 0-7 holding byte" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn3) +(dnop rn3s "register 0-7 holding unsigned short" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn3) +(dnop rn3us "register 0-7 holding short" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn3) +(dnop rn3l "register 0-7 holding unsigned long" (all-mep-core-isas (CDATA LONG)) h-gpr f-rn3) +(dnop rn3ul "register 0-7 holding long" (all-mep-core-isas (CDATA ULONG)) h-gpr f-rn3) + + +(dnop lp "link pointer" (all-mep-core-isas) h-csr 1) +(dnop sar "shift amount register" (all-mep-core-isas) h-csr 2) +(dnop hi "high result" (all-mep-core-isas) h-csr 7) +(dnop lo "low result" (all-mep-core-isas) h-csr 8) +(dnop mb0 "modulo begin register 0" (all-mep-core-isas) h-csr 12) +(dnop me0 "modulo end register 0" (all-mep-core-isas) h-csr 13) +(dnop mb1 "modulo begin register 1" (all-mep-core-isas) h-csr 14) +(dnop me1 "modulo end register 1" (all-mep-core-isas) h-csr 15) +(dnop psw "program status word" (all-mep-core-isas) h-csr 16) +(dnop epc "exception prog counter" (all-mep-core-isas) h-csr 19) +(dnop exc "exception cause" (all-mep-core-isas) h-csr 20) +(dnop npc "nmi program counter" (all-mep-core-isas) h-csr 23) +(dnop dbg "debug register" (all-mep-core-isas) h-csr 24) +(dnop depc "debug exception pc" (all-mep-core-isas) h-csr 25) +(dnop opt "option register" (all-mep-core-isas) h-csr 26) +(dnop r1 "register 1" (all-mep-core-isas) h-gpr 1) +(dnop tp "tiny data area pointer" (all-mep-core-isas) h-gpr 13) +(dnop sp "stack pointer" (all-mep-core-isas) h-gpr 15) +(dprp tpr "TP register" (all-mep-core-isas) h-gpr 13 "tpreg" "tpreg") +(dprp spr "SP register" (all-mep-core-isas) h-gpr 15 "spreg" "spreg") + +(define-full-operand + csrn "control/special register" (all-mep-core-isas (CDATA REGNUM)) h-csr + DFLT f-csrn ((parse "csrn")) () () +) + +(dnop csrn-idx "control/special reg idx" (all-mep-core-isas) h-uint f-csrn) +(dnop crn64 "copro Rn (64-bit)" (all-mep-core-isas (CDATA CP_DATA_BUS_INT)) h-cr64 f-crn) +(dnop crn "copro Rn (32-bit)" (all-mep-core-isas (CDATA CP_DATA_BUS_INT)) h-cr f-crn) +(dnop crnx64 "copro Rn (0-31, 64-bit)" (all-mep-core-isas (CDATA CP_DATA_BUS_INT)) h-cr64 f-crnx) +(dnop crnx "copro Rn (0-31, 32-bit)" (all-mep-core-isas (CDATA CP_DATA_BUS_INT)) h-cr f-crnx) +(dnop ccrn "copro control reg CCRn" (all-mep-core-isas (CDATA REGNUM)) h-ccr f-ccrn) +(dnop cccc "copro flags" (all-mep-core-isas) h-uint f-rm) + +(dprp pcrel8a2 "pc-rel addr (8 bits)" (all-mep-core-isas (CDATA LABEL) RELAX) h-sint f-8s8a2 "mep_align" "address") +(dprp pcrel12a2 "pc-rel addr (12 bits)" (all-mep-core-isas (CDATA LABEL) RELAX) h-sint f-12s4a2 "mep_align" "address") +(dprp pcrel17a2 "pc-rel addr (17 bits)" (all-mep-core-isas (CDATA LABEL) RELAX) h-sint f-17s16a2 "mep_align" "address") +(dprp pcrel24a2 "pc-rel addr (24 bits)" (all-mep-core-isas (CDATA LABEL)) h-sint f-24s5a2n "mep_align" "address") +(dprp pcabs24a2 "pc-abs addr (24 bits)" (all-mep-core-isas (CDATA LABEL)) h-uint f-24u5a2n "mep_alignu" "address") + +(dpop sdisp16 "displacement (16 bits)" (all-mep-core-isas) h-sint f-16s16 "signed16") +(dpop simm16 "signed imm (16 bits)" (all-mep-core-isas) h-sint f-16s16 "signed16") +(dpop uimm16 "unsigned imm (16 bits)" (all-mep-core-isas) h-uint f-16u16 "unsigned16") +(dnop code16 "uci/dsp code (16 bits)" (all-mep-core-isas) h-uint f-16u16) + +(dnop udisp2 "SSARB addend (2 bits)" (all-mep-core-isas) h-sint f-2u6) +(dnop uimm2 "interrupt (2 bits)" (all-mep-core-isas) h-uint f-2u10) + +(dnop simm6 "add const (6 bits)" (all-mep-core-isas) h-sint f-6s8) +(dnop simm8 "mov const (8 bits)" (all-mep-core-isas RELOC_IMPLIES_OVERFLOW) + h-sint f-8s8) + +(dpop addr24a4 "sw/lw addr (24 bits)" (all-mep-core-isas (ALIGN 4)) h-uint f-24u8a4n "mep_alignu") +(dnop code24 "coprocessor code" (all-mep-core-isas) h-uint f-24u4n) + +(dnop callnum "system call number" (all-mep-core-isas) h-uint f-callnum) +(dnop uimm3 "bit immediate (3 bits)" (all-mep-core-isas) h-uint f-3u5) +(dnop uimm4 "bCC const (4 bits)" (all-mep-core-isas) h-uint f-4u8) +(dnop uimm5 "bit/shift val (5 bits)" (all-mep-core-isas) h-uint f-5u8) + +(dpop udisp7 "tp-rel b (7 bits)" (all-mep-core-isas) h-uint f-7u9 "unsigned7") +(dpop udisp7a2 "tp-rel h (7 bits)" (all-mep-core-isas (ALIGN 2)) h-uint f-7u9a2 "unsigned7") +(dpop udisp7a4 "tp/sp-rel w (7 bits)" (all-mep-core-isas (ALIGN 4)) h-uint f-7u9a4 "unsigned7") +(dpop uimm7a4 "sp w-addend (7 bits)" (all-mep-core-isas (ALIGN 4)) h-uint f-7u9a4 "mep_alignu") + +(dnop uimm24 "immediate (24 bits)" (all-mep-core-isas) h-uint f-24u8n) + +(dnop cimm4 "cache immed'te (4 bits)" (all-mep-core-isas) h-uint f-rn) +(dnop cimm5 "clip immediate (5 bits)" (all-mep-core-isas) h-uint f-5u24) + +(dpop cdisp10 "copro addend (8/10 bits)" (all-mep-core-isas) h-sint f-cdisp10 "cdisp10") +(dpop cdisp10a2 "copro addend (8/10 bits)" (all-mep-core-isas) h-sint f-cdisp10 "cdisp10") +(dpop cdisp10a4 "copro addend (8/10 bits)" (all-mep-core-isas) h-sint f-cdisp10 "cdisp10") +(dpop cdisp10a8 "copro addend (8/10 bits)" (all-mep-core-isas) h-sint f-cdisp10 "cdisp10") + +; Special operand representing the various ways that the literal zero can be +; specified. +(define-full-operand + zero "Zero operand" (all-mep-core-isas) h-sint DFLT f-nil + ((parse "zero")) () () +) + +; Attributes. + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_BIT_INSN) + (comment "optional bit manipulation instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_MUL_INSN) + (comment "optional 32-bit multiply instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_DIV_INSN) + (comment "optional 32-bit divide instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_DEBUG_INSN) + (comment "optional debug instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_LDZ_INSN) + (comment "optional leading zeroes instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_ABS_INSN) + (comment "optional absolute difference instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_AVE_INSN) + (comment "optional average instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_MINMAX_INSN) + (comment "optional min/max instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_CLIP_INSN) + (comment "optional clipping instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_SAT_INSN) + (comment "optional saturation instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_UCI_INSN) + (comment "optional UCI instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_DSP_INSN) + (comment "optional DSP instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_CP_INSN) + (comment "optional coprocessor-related instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_CP64_INSN) + (comment "optional coprocessor-related 64 data bit instruction")) + +(define-attr + (for insn) + (type boolean) + (name OPTIONAL_VLIW64) + (comment "optional vliw64 mode (vliw32 is default)")) + +(define-attr + (for insn) + (type enum) + (name STALL) + (attrs META) + (values NONE SHIFTI INT2 LOAD STORE LDC STC LDCB STCB SSARB FSFT RET + ADVCK MUL MULR DIV) + (default NONE) + (comment "gcc stall attribute")) + +(define-attr + (for insn) + (type string) + (name INTRINSIC) + (attrs META) + (comment "gcc intrinsic name")) + +(define-attr + (for insn) + (type enum) + (name SLOT) + (attrs META) + (values NONE C3 V1 V3 P0S P0 P1) + (default NONE) + (comment "coprocessor slot type")) + +(define-attr + (for insn) + (type boolean) + (name MAY_TRAP) + (comment "instruction may generate an exception")) + +; Attributes for scheduling restrictions in vliw mode + +(define-attr + (for insn) + (type boolean) + (name VLIW_ALONE) + (comment "instruction can be scheduled alone in vliw mode")) + +(define-attr + (for insn) + (type boolean) + (name VLIW_NO_CORE_NOP) + (comment "there is no corresponding nop core instruction")) + +(define-attr + (for insn) + (type boolean) + (name VLIW_NO_COP_NOP) + (comment "there is no corresponding nop coprocessor instruction")) + +(define-attr + (for insn) + (type boolean) + (name VLIW64_NO_MATCHING_NOP) + (comment "there is no corresponding nop coprocessor instruction")) +(define-attr + (for insn) + (type boolean) + (name VLIW32_NO_MATCHING_NOP) + (comment "there is no corresponding nop coprocessor instruction")) + +(define-attr + (for insn) + (type boolean) + (name VOLATILE) + (comment "Insn is volatile.")) + +(define-attr + (for insn) + (type integer) + (name LATENCY) + (comment "The latency of this insn, used for scheduling as an intrinsic in gcc") + (default 0)) + +; The MeP config tool will edit this. +(define-attr + (type enum) + (for insn) + (name CONFIG) + (values NONE ; config-attr-start + default + ) ; config-attr-end +) + + +; Enumerations. + +(define-normal-insn-enum major "major opcodes" (all-mep-core-isas) MAJ_ + f-major + (.map .str (.iota 16)) +) + + +(define-pmacro (dni-isa xname xcomment xattrs xsyntax xformat xsemantics xtiming isa) + (define-insn + (name xname) + (comment xcomment) + (.splice attrs (.unsplice xattrs) (ISA isa)) + (syntax xsyntax) + (format xformat) + (semantics xsemantics) + (.splice timing (.unsplice xtiming)) + ) +) + +(define-pmacro (dnmi-isa xname xcomment xattrs xsyntax xemit isa) + (dnmi xname xcomment (.splice (.unsplice xattrs) (ISA isa)) xsyntax xemit) +) + +; For making profiling calls and dynamic configuration +(define-pmacro (cg-profile caller callee) + (c-call "cg_profile" caller callee) +) +; For dynamic configuration only +(define-pmacro (cg-profile-jump caller callee) + (c-call "cg_profile_jump" caller callee) +) + +; For defining Core Instructions +(define-pmacro (dnci xname xcomment xattrs xsyntax xformat xsemantics xtiming) + (dni-isa xname xcomment xattrs xsyntax xformat xsemantics xtiming all-core-isa-list) +) +(define-pmacro (dncmi xname xcomment xattrs xsyntax xemit) + (dnmi-isa xname xcomment xattrs xsyntax xemit all-core-isa-list) +) + +; For defining Coprocessor Instructions +;(define-pmacro (dncpi xname xcomment xattrs xsyntax xformat xsemantics xtiming) (dni-isa xname xcomment xattrs xsyntax xformat xsemantics xtiming cop) +;) + +;; flag setting macro +(define-pmacro (set-bit xop xbitnum xval) + (set xop (or + (and xop (inv (sll 1 xbitnum))) + (and (sll 1 xbitnum) (sll xval xbitnum))))) + +;; some flags we commonly use in vliw reasoning / mode-switching etc. +(define-pmacro (get-opt.vliw64) (and (srl opt 6) 1)) +(define-pmacro (get-opt.vliw32) (and (srl opt 5) 1)) +(define-pmacro (get-rm.lsb) (and rm 1)) +(define-pmacro (get-psw.om) (and (srl psw 12) 1)) +(define-pmacro (get-psw.nmi) (and (srl psw 9) 1)) +(define-pmacro (get-psw.iep) (and (srl psw 1) 1)) +(define-pmacro (get-psw.ump) (and (srl psw 3) 1)) +(define-pmacro (get-epc.etom) (and epc 1)) +(define-pmacro (get-npc.ntom) (and npc 1)) +(define-pmacro (get-lp.ltom) (and lp 1)) + +(define-pmacro (set-psw.om zval) (set-bit (raw-reg h-csr 16) 12 zval)) +(define-pmacro (set-psw.nmi zval) (set-bit (raw-reg h-csr 16) 9 zval)) +(define-pmacro (set-psw.umc zval) (set-bit (raw-reg h-csr 16) 2 zval)) +(define-pmacro (set-psw.iec zval) (set-bit (raw-reg h-csr 16) 0 zval)) +(define-pmacro (set-rpe.elr zval) (set-bit (raw-reg h-csr 5) 0 zval)) + + +;; the "3 way switch" depending on our current operating mode and vliw status flags +(define-pmacro (core-vliw-switch core-rtl vliw32-rtl vliw64-rtl) + (cond + ((andif (get-psw.om) (get-opt.vliw64)) vliw64-rtl) + ((andif (get-psw.om) (get-opt.vliw32)) vliw32-rtl) + (else core-rtl))) + +;; the varying-pcrel idiom +(define-pmacro (set-vliw-modified-pcrel-offset xtarg xa xb xc) + (core-vliw-switch (set xtarg (add pc xa)) + (set xtarg (add pc xb)) + (set xtarg (add pc xc)))) + +;; the increasing-alignment idiom in branch displacements +(define-pmacro (set-vliw-alignment-modified xtarg zaddr) + (core-vliw-switch (set xtarg (and zaddr (inv 1))) + (set xtarg (and zaddr (inv 3))) + (set xtarg (and zaddr (inv 7))))) + +;; the increasing-alignment idiom in option-only form +(define-pmacro (set-vliw-aliignment-modified-by-option xtarg zaddr) + (if (get-opt.vliw32) + (set xtarg (and zaddr (inv 3))) + (set xtarg (and zaddr (inv 7))))) + + + +; pmacros needed for coprocessor modulo addressing. + +; Taken from supplement ``The operation of the modulo addressing'' in +; Toshiba documentation rev 2.2, p. 34. + +(define-pmacro (compute-mask0) + (sequence SI ((SI temp)) + (set temp (or mb0 me0)) + (srl (const SI -1) (c-call SI "do_ldz" temp)))) + +(define-pmacro (mod0 immed) + (sequence SI ((SI modulo-mask)) + (set modulo-mask (compute-mask0)) + (if SI (eq (and rma modulo-mask) me0) + (or (and rma (inv modulo-mask)) mb0) + (add rma (ext SI immed))))) + +(define-pmacro (compute-mask1) + (sequence SI ((SI temp)) + (set temp (or mb1 me1)) + (srl (const SI -1) (c-call SI "do_ldz" temp)))) + +(define-pmacro (mod1 immed) + (sequence SI ((SI modulo-mask)) + (set modulo-mask (compute-mask1)) + (if SI (eq (and rma modulo-mask) me1) + (or (and rma (inv modulo-mask)) mb1) + (add rma (ext SI immed))))) + + +; Instructions. + +; A pmacro for use in semantic bodies of unimplemented insns. +(define-pmacro (unimp mnemonic) (nop)) + +; Core specific instructions +; (include "mep-h1.cpu") ; -- exposed by MeP-Integrator +(include "mep-c5.cpu") ; -- exposed by MeP-Integrator + +; Load/store instructions. + +(dnci sb "store byte (register indirect)" ((STALL STORE)) + "sb $rnc,($rma)" + (+ MAJ_0 rnc rma (f-sub4 8)) + (sequence () + (c-call VOID "check_write_to_text" rma) + (set (mem UQI rma) (and rnc #xff))) + ((mep (unit u-use-gpr (in usereg rnc)) + (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci sh "store half-word (register indirect)" ((STALL STORE)) + "sh $rns,($rma)" + (+ MAJ_0 rns rma (f-sub4 9)) + (sequence () + (c-call VOID "check_write_to_text" (and rma (inv 1))) + (set (mem UHI (and rma (inv 1))) (and rns #xffff))) + ((mep (unit u-use-gpr (in usereg rns)) + (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci sw "store word (register indirect)" ((STALL STORE)) + "sw $rnl,($rma)" + (+ MAJ_0 rnl rma (f-sub4 10)) + (sequence () + (c-call VOID "check_write_to_text" (and rma (inv 3))) + (set (mem USI (and rma (inv 3))) rnl)) + ((mep (unit u-use-gpr (in usereg rnl)) + (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lb "load byte (register indirect)" ((STALL LOAD) (LATENCY 2)) + "lb $rnc,($rma)" + (+ MAJ_0 rnc rma (f-sub4 12)) + (set rnc (ext SI (mem QI rma))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec) + (unit u-load-gpr (out loadreg rnc))))) + +(dnci lh "load half-word (register indirect)" ((STALL LOAD) (LATENCY 2)) + "lh $rns,($rma)" + (+ MAJ_0 rns rma (f-sub4 13)) + (set rns (ext SI (mem HI (and rma (inv 1))))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec) + (unit u-load-gpr (out loadreg rns))))) + +(dnci lw "load word (register indirect)" ((STALL LOAD) (LATENCY 2)) + "lw $rnl,($rma)" + (+ MAJ_0 rnl rma (f-sub4 14)) + (set rnl (mem SI (and rma (inv 3)))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec) + (unit u-load-gpr (out loadreg rnl))))) + +(dnci lbu "load unsigned byte (register indirect)" ((STALL LOAD) (LATENCY 2)) + "lbu $rnuc,($rma)" + (+ MAJ_0 rnuc rma (f-sub4 11)) + (set rnuc (zext SI (mem UQI rma))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec) + (unit u-load-gpr (out loadreg rnuc))))) + +(dnci lhu "load unsigned half-word (register indirect)" ((STALL LOAD) (LATENCY 2)) + "lhu $rnus,($rma)" + (+ MAJ_0 rnus rma (f-sub4 15)) + (set rnus (zext SI (mem UHI (and rma (inv 1))))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec) + (unit u-load-gpr (out loadreg rnus))))) + +(dnci sw-sp "store word (sp relative)" ((STALL STORE)) + "sw $rnl,$udisp7a4($spr)" + (+ MAJ_4 rnl (f-8 0) udisp7a4 (f-sub2 2)) + (sequence () + (c-call VOID "check_write_to_text" (and (add udisp7a4 sp) (inv 3))) + (set (mem SI (and (add udisp7a4 sp) (inv 3))) rnl)) + ((mep (unit u-use-gpr (in usereg rnl)) + (unit u-use-gpr (in usereg sp)) + (unit u-exec)))) + + +(dnci lw-sp "load word (sp relative)" ((STALL LOAD) (LATENCY 2)) + "lw $rnl,$udisp7a4($spr)" + (+ MAJ_4 rnl (f-8 0) udisp7a4 (f-sub2 3)) + (set rnl (mem SI (and (add udisp7a4 sp) (inv 3)))) + ((mep (unit u-use-gpr (in usereg sp)) + (unit u-exec) + (unit u-load-gpr (out loadreg rnl))))) + +(dnci sb-tp "store byte (tp relative)" ((STALL STORE)) + "sb $rn3c,$udisp7($tpr)" + (+ MAJ_8 (f-4 0) rn3c (f-8 0) udisp7) + (sequence () + (c-call VOID "check_write_to_text" (add (zext SI udisp7) tp)) + (set (mem QI (add (zext SI udisp7) tp)) (and rn3c #xff))) + ((mep (unit u-use-gpr (in usereg rn3c)) + (unit u-use-gpr (in usereg tp)) + (unit u-exec)))) + +(dnci sh-tp "store half-word (tp relative)" ((STALL STORE)) + "sh $rn3s,$udisp7a2($tpr)" + (+ MAJ_8 (f-4 0) rn3s (f-8 1) udisp7a2 (f-15 0)) + (sequence () + (c-call VOID "check_write_to_text" (and (add (zext SI udisp7a2) tp) (inv 1))) + (set (mem HI (and (add (zext SI udisp7a2) tp) (inv 1))) (and rn3s #xffff))) + ((mep (unit u-use-gpr (in usereg rn3s)) + (unit u-use-gpr (in usereg tp)) + (unit u-exec)))) + +(dnci sw-tp "store word (tp relative)" ((STALL STORE)) + "sw $rn3l,$udisp7a4($tpr)" + (+ MAJ_4 (f-4 0) rn3l (f-8 1) udisp7a4 (f-sub2 2)) + (sequence () + (c-call VOID "check_write_to_text" (and (add (zext SI udisp7a4) tp) (inv 3))) + (set (mem SI (and (add (zext SI udisp7a4) tp) (inv 3))) rn3l)) + ((mep (unit u-use-gpr (in usereg rn3l)) + (unit u-use-gpr (in usereg tp)) + (unit u-exec)))) + +(dnci lb-tp "load byte (tp relative)" ((STALL LOAD) (LATENCY 2)) + "lb $rn3c,$udisp7($tpr)" + (+ MAJ_8 (f-4 1) rn3c (f-8 0) udisp7) + (set rn3c (ext SI (mem QI (add (zext SI udisp7) tp)))) + ((mep (unit u-use-gpr (in usereg tp)) + (unit u-exec) + (unit u-load-gpr (out loadreg rn3c))))) + +(dnci lh-tp "load half-word (tp relative)" ((STALL LOAD) (LATENCY 2)) + "lh $rn3s,$udisp7a2($tpr)" + (+ MAJ_8 (f-4 1) rn3s (f-8 1) udisp7a2 (f-15 0)) + (set rn3s (ext SI (mem HI (and (add (zext SI udisp7a2) tp) (inv 1))))) + ((mep (unit u-use-gpr (in usereg tp)) + (unit u-exec) + (unit u-load-gpr (out loadreg rn3s))))) + +(dnci lw-tp "load word (tp relative)" ((STALL LOAD) (LATENCY 2)) + "lw $rn3l,$udisp7a4($tpr)" + (+ MAJ_4 (f-4 0) rn3l (f-8 1) udisp7a4 (f-sub2 3)) + (set rn3l (mem SI (and (add (zext SI udisp7a4) tp) (inv 3)))) + ((mep (unit u-use-gpr (in usereg tp)) + (unit u-exec) + (unit u-load-gpr (out loadreg rn3l))))) + +(dnci lbu-tp "load unsigned byte (tp relative)" ((STALL LOAD) (LATENCY 2)) + "lbu $rn3uc,$udisp7($tpr)" + (+ MAJ_4 (f-4 1) rn3uc (f-8 1) udisp7) + (set rn3uc (zext SI (mem QI (add (zext SI udisp7) tp)))) + ((mep (unit u-use-gpr (in usereg tp)) + (unit u-exec) + (unit u-load-gpr (out loadreg rn3uc))))) + +(dnci lhu-tp "load unsigned half-word (tp relative)" ((STALL LOAD) (LATENCY 2)) + "lhu $rn3us,$udisp7a2($tpr)" + (+ MAJ_8 (f-4 1) rn3us (f-8 1) udisp7a2 (f-15 1)) + (set rn3us (zext SI (mem HI (and (add (zext SI udisp7a2) tp) (inv 1))))) + ((mep (unit u-use-gpr (in usereg tp)) + (unit u-exec) + (unit u-load-gpr (out loadreg rn3us))))) + +(dnci sb16 "store byte (16 bit displacement)" ((STALL STORE)) + "sb $rnc,$sdisp16($rma)" + (+ MAJ_12 rnc rma (f-sub4 8) sdisp16) + (sequence () + (c-call VOID "check_write_to_text" (add rma (ext SI sdisp16))) + (set (mem QI (add rma (ext SI sdisp16))) (and rnc #xff))) + ((mep (unit u-use-gpr (in usereg rnc)) + (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci sh16 "store half-word (16 bit displacement)" ((STALL STORE)) + "sh $rns,$sdisp16($rma)" + (+ MAJ_12 rns rma (f-sub4 9) sdisp16) + (sequence () + (c-call VOID "check_write_to_text" (and (add rma (ext SI sdisp16)) (inv 1))) + (set (mem HI (and (add rma (ext SI sdisp16)) (inv 1))) (and rns #xffff))) + ((mep (unit u-use-gpr (in usereg rns)) + (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci sw16 "store word (16 bit displacement)" ((STALL STORE)) + "sw $rnl,$sdisp16($rma)" + (+ MAJ_12 rnl rma (f-sub4 10) sdisp16) + (sequence () + (c-call "check_write_to_text" (and (add rma (ext SI sdisp16)) (inv 3))) + (set (mem SI (and (add rma (ext SI sdisp16)) (inv 3))) rnl)) + ((mep (unit u-use-gpr (in usereg rnl)) + (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lb16 "load byte (16 bit displacement)" ((STALL LOAD) (LATENCY 2)) + "lb $rnc,$sdisp16($rma)" + (+ MAJ_12 rnc rma (f-sub4 12) sdisp16) + (set rnc (ext SI (mem QI (add rma (ext SI sdisp16))))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec) + (unit u-load-gpr (out loadreg rnc))))) + +(dnci lh16 "load half-word (16 bit displacement)" ((STALL LOAD) (LATENCY 2)) + "lh $rns,$sdisp16($rma)" + (+ MAJ_12 rns rma (f-sub4 13) sdisp16) + (set rns (ext SI (mem HI (and (add rma (ext SI sdisp16)) (inv 1))))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec) + (unit u-load-gpr (out loadreg rns))))) + +(dnci lw16 "load word (16 bit displacement)" ((STALL LOAD) (LATENCY 2)) + "lw $rnl,$sdisp16($rma)" + (+ MAJ_12 rnl rma (f-sub4 14) sdisp16) + (set rnl (mem SI (and (add rma (ext SI sdisp16)) (inv 3)))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec) + (unit u-load-gpr (out loadreg rnl))))) + +(dnci lbu16 "load unsigned byte (16 bit displacement)" ((STALL LOAD) (LATENCY 2)) + "lbu $rnuc,$sdisp16($rma)" + (+ MAJ_12 rnuc rma (f-sub4 11) sdisp16) + (set rnuc (zext SI (mem QI (add rma (ext SI sdisp16))))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec) + (unit u-load-gpr (out loadreg rnuc))))) + +(dnci lhu16 "load unsigned half-word (16 bit displacement)" ((STALL LOAD) (LATENCY 2)) + "lhu $rnus,$sdisp16($rma)" + (+ MAJ_12 rnus rma (f-sub4 15) sdisp16) + (set rnus (zext SI (mem HI (and (add rma (ext SI sdisp16)) (inv 1))))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec) + (unit u-load-gpr (out loadreg rnus))))) + +(dnci sw24 "store word (24 bit absolute addressing)" ((STALL STORE)) + "sw $rnl,($addr24a4)" + (+ MAJ_14 rnl addr24a4 (f-sub2 2)) + (sequence () + (c-call VOID "check_write_to_text" (zext SI addr24a4)) + (set (mem SI (zext SI addr24a4)) rnl)) + ((mep (unit u-use-gpr (in usereg rnl)) + (unit u-exec)))) + +(dnci lw24 "load word (24 bit absolute addressing)" ((STALL LOAD) (LATENCY 2)) + "lw $rnl,($addr24a4)" + (+ MAJ_14 rnl addr24a4 (f-sub2 3)) + (set rnl (mem SI (zext SI addr24a4))) + ((mep (unit u-exec) + (unit u-load-gpr (out loadreg rnl))))) + + +; Extension instructions. + +(dnci extb "sign extend byte" () + "extb $rn" + (+ MAJ_1 rn (f-rm 0) (f-sub4 13)) + (set rn (ext SI (and QI rn #xff))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci exth "sign extend half-word" () + "exth $rn" + (+ MAJ_1 rn (f-rm 2) (f-sub4 13)) + (set rn (ext SI (and HI rn #xffff))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci extub "zero extend byte" () + "extub $rn" + (+ MAJ_1 rn (f-rm 8) (f-sub4 13)) + (set rn (zext SI (and rn #xff))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci extuh "zero extend half-word" () + "extuh $rn" + (+ MAJ_1 rn (f-rm 10) (f-sub4 13)) + (set rn (zext SI (and rn #xffff))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + + +; Shift amount manipulation instructions. + +(dnci ssarb "set sar to bytes" ((STALL SSARB) VOLATILE) + "ssarb $udisp2($rm)" + (+ MAJ_1 (f-4 0) (f-5 0) udisp2 rm (f-sub4 12)) + (if (c-call BI "big_endian_p") + (set sar (zext SI (mul (and (add udisp2 rm) 3) 8))) + (set sar (sub 32 (zext SI (mul (and (add udisp2 rm) 3) 8))))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + + +; Move instructions. + +(dnci mov "move" () + "mov $rn,$rm" + (+ MAJ_0 rn rm (f-sub4 0)) + (set rn rm) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci movi8 "move 8-bit immediate" () + "mov $rn,$simm8" + (+ MAJ_5 rn simm8) + (set rn (ext SI simm8)) + ()) + +(dnci movi16 "move 16-bit immediate" () + "mov $rn,$simm16" + (+ MAJ_12 rn (f-rm 0) (f-sub4 1) simm16) + (set rn (ext SI simm16)) + ()) + +(dnci movu24 "move 24-bit unsigned immediate" () + "movu $rn3,$uimm24" + (+ MAJ_13 (f-4 0) rn3 uimm24) + (set rn3 (zext SI uimm24)) + ()) + +(dnci movu16 "move 16-bit unsigned immediate" () + "movu $rn,$uimm16" + (+ MAJ_12 rn (f-rm 1) (f-sub4 1) uimm16) + (set rn (zext SI uimm16)) + ()) + +(dnci movh "move high 16-bit immediate" () + "movh $rn,$uimm16" + (+ MAJ_12 rn (f-rm 2) (f-sub4 1) uimm16) + (set rn (sll uimm16 16)) + ()) + + +; Arithmetic instructions. + +(dnci add3 "add three registers" () + "add3 $rl,$rn,$rm" + (+ MAJ_9 rn rm rl) + (set rl (add rn rm)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci add "add" () + "add $rn,$simm6" + (+ MAJ_6 rn simm6 (f-sub2 0)) + (set rn (add rn (ext SI simm6))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci add3i "add two registers and immediate" () + "add3 $rn,$spr,$uimm7a4" + (+ MAJ_4 rn (f-8 0) uimm7a4 (f-sub2 0)) + (set rn (add sp (zext SI uimm7a4))) + ((mep (unit u-use-gpr (in usereg sp)) + (unit u-exec)))) + +(dnci advck3 "add overflow check" ((STALL ADVCK)) + "advck3 \\$0,$rn,$rm" + (+ MAJ_0 rn rm (f-sub4 7)) + (if (add-oflag rn rm 0) + (set r0 1) + (set r0 0)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci sub "subtract" () + "sub $rn,$rm" + (+ MAJ_0 rn rm (f-sub4 4)) + (set rn (sub rn rm)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm))))) + +(dnci sbvck3 "subtraction overflow check" ((STALL ADVCK)) + "sbvck3 \\$0,$rn,$rm" + (+ MAJ_0 rn rm (f-sub4 5)) + (if (sub-oflag rn rm 0) + (set r0 1) + (set r0 0)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci neg "negate" () + "neg $rn,$rm" + (+ MAJ_0 rn rm (f-sub4 1)) + (set rn (neg rm)) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci slt3 "set if less than" () + "slt3 \\$0,$rn,$rm" + (+ MAJ_0 rn rm (f-sub4 2)) + (if (lt rn rm) + (set r0 1) + (set r0 0)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci sltu3 "set less than unsigned" () + "sltu3 \\$0,$rn,$rm" + (+ MAJ_0 rn rm (f-sub4 3)) + (if (ltu rn rm) + (set r0 1) + (set r0 0)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci slt3i "set if less than immediate" () + "slt3 \\$0,$rn,$uimm5" + (+ MAJ_6 rn uimm5 (f-sub3 1)) + (if (lt rn (zext SI uimm5)) + (set r0 1) + (set r0 0)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci sltu3i "set if less than unsigned immediate" () + "sltu3 \\$0,$rn,$uimm5" + (+ MAJ_6 rn uimm5 (f-sub3 5)) + (if (ltu rn (zext SI uimm5)) + (set r0 1) + (set r0 0)) + ()) + +(dnci sl1ad3 "shift left one and add" ((STALL INT2)) + "sl1ad3 \\$0,$rn,$rm" + (+ MAJ_2 rn rm (f-sub4 6)) + (set r0 (add (sll rn 1) rm)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci sl2ad3 "shift left two and add" ((STALL INT2)) + "sl2ad3 \\$0,$rn,$rm" + (+ MAJ_2 rn rm (f-sub4 7)) + (set r0 (add (sll rn 2) rm)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci add3x "three operand add (extended)" () + "add3 $rn,$rm,$simm16" + (+ MAJ_12 rn rm (f-sub4 0) simm16) + (set rn (add rm (ext SI simm16))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci slt3x "set if less than (extended)" () + "slt3 $rn,$rm,$simm16" + (+ MAJ_12 rn rm (f-sub4 2) simm16) + (if (lt rm (ext SI simm16)) + (set rn 1) + (set rn 0)) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci sltu3x "set if less than unsigned (extended)" () + "sltu3 $rn,$rm,$uimm16" + (+ MAJ_12 rn rm (f-sub4 3) uimm16) + (if (ltu rm (zext SI uimm16)) + (set rn 1) + (set rn 0)) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + + +; Logical instructions. + +(dnci or "bitwise or" () + "or $rn,$rm" + (+ MAJ_1 rn rm (f-sub4 0)) + (set rn (or rn rm)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci and "bitwise and" () + "and $rn,$rm" + (+ MAJ_1 rn rm (f-sub4 1)) + (set rn (and rn rm)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci xor "bitwise exclusive or" () + "xor $rn,$rm" + (+ MAJ_1 rn rm (f-sub4 2)) + (set rn (xor rn rm)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci nor "bitwise negated or" () + "nor $rn,$rm" + (+ MAJ_1 rn rm (f-sub4 3)) + (set rn (inv (or rn rm))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci or3 "or three operand" () + "or3 $rn,$rm,$uimm16" + (+ MAJ_12 rn rm (f-sub4 4) uimm16) + (set rn (or rm (zext SI uimm16))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci and3 "and three operand" () + "and3 $rn,$rm,$uimm16" + (+ MAJ_12 rn rm (f-sub4 5) uimm16) + (set rn (and rm (zext SI uimm16))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci xor3 "exclusive or three operand" () + "xor3 $rn,$rm,$uimm16" + (+ MAJ_12 rn rm (f-sub4 6) uimm16) + (set rn (xor rm (zext SI uimm16))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + + +; Shift instructions. + +(dnci sra "shift right arithmetic" ((STALL INT2)) + "sra $rn,$rm" + (+ MAJ_2 rn rm (f-sub4 13)) + (set rn (sra rn (and rm #x1f))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci srl "shift right logical" ((STALL INT2)) + "srl $rn,$rm" + (+ MAJ_2 rn rm (f-sub4 12)) + (set rn (srl rn (and rm #x1f))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci sll "shift left logical" ((STALL INT2)) + "sll $rn,$rm" + (+ MAJ_2 rn rm (f-sub4 14)) + (set rn (sll rn (and rm #x1f))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + +(dnci srai "shift right arithmetic (immediate)" ((STALL SHIFTI)) + "sra $rn,$uimm5" + (+ MAJ_6 rn uimm5 (f-sub3 3)) + (set rn (sra rn uimm5)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci srli "shift right logical (immediate)" ((STALL SHIFTI)) + "srl $rn,$uimm5" + (+ MAJ_6 rn uimm5 (f-sub3 2)) + (set rn (srl rn uimm5)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci slli "shift left logical (immediate)" ((STALL SHIFTI)) + "sll $rn,$uimm5" + (+ MAJ_6 rn uimm5 (f-sub3 6)) + (set rn (sll rn uimm5)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci sll3 "three-register shift left logical" ((STALL INT2)) + "sll3 \\$0,$rn,$uimm5" + (+ MAJ_6 rn uimm5 (f-sub3 7)) + (set r0 (sll rn uimm5)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci fsft "field shift" ((STALL FSFT) VOLATILE) + "fsft $rn,$rm" + (+ MAJ_2 rn rm (f-sub4 15)) + (sequence ((DI temp) (QI shamt)) + (set shamt (and sar #x3f)) + (set temp (sll (or (sll (zext DI rn) 32) (zext DI rm)) shamt)) + (set rn (subword SI (srl temp 32) 1))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + + +; Branch/jump instructions. + +(dnci bra "branch" (RELAXABLE) + "bra $pcrel12a2" + (+ MAJ_11 pcrel12a2 (f-15 0)) + (set-vliw-alignment-modified pc pcrel12a2) + ((mep (unit u-branch) + (unit u-exec)))) + +(dnci beqz "branch if equal zero" (RELAXABLE) + "beqz $rn,$pcrel8a2" + (+ MAJ_10 rn pcrel8a2 (f-15 0)) + (if (eq rn 0) + (set-vliw-alignment-modified pc pcrel8a2)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec) + (unit u-branch)))) + +(dnci bnez "branch if not equal zero" (RELAXABLE) + "bnez $rn,$pcrel8a2" + (+ MAJ_10 rn pcrel8a2 (f-15 1)) + (if (ne rn 0) + (set-vliw-alignment-modified pc pcrel8a2)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec) + (unit u-branch)))) + +(dnci beqi "branch equal immediate" (RELAXABLE) + "beqi $rn,$uimm4,$pcrel17a2" + (+ MAJ_14 rn uimm4 (f-sub4 0) pcrel17a2) + (if (eq rn (zext SI uimm4)) + (set-vliw-alignment-modified pc pcrel17a2)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec) + (unit u-branch)))) + +(dnci bnei "branch not equal immediate" (RELAXABLE) + "bnei $rn,$uimm4,$pcrel17a2" + (+ MAJ_14 rn uimm4 (f-sub4 4) pcrel17a2) + (if (ne rn (zext SI uimm4)) + (set-vliw-alignment-modified pc pcrel17a2)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec) + (unit u-branch)))) + +(dnci blti "branch less than immediate" (RELAXABLE) + "blti $rn,$uimm4,$pcrel17a2" + (+ MAJ_14 rn uimm4 (f-sub4 12) pcrel17a2) + (if (lt rn (zext SI uimm4)) + (set-vliw-alignment-modified pc pcrel17a2)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec) + (unit u-branch)))) + +(dnci bgei "branch greater than immediate" (RELAXABLE) + "bgei $rn,$uimm4,$pcrel17a2" + (+ MAJ_14 rn uimm4 (f-sub4 8) pcrel17a2) + (if (ge rn (zext SI uimm4)) + (set-vliw-alignment-modified pc pcrel17a2)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec) + (unit u-branch)))) + +(dnci beq "branch equal" () + "beq $rn,$rm,$pcrel17a2" + (+ MAJ_14 rn rm (f-sub4 1) pcrel17a2) + (if (eq rn rm) + (set-vliw-alignment-modified pc pcrel17a2)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-branch)))) + +(dnci bne "branch not equal" () + "bne $rn,$rm,$pcrel17a2" + (+ MAJ_14 rn rm (f-sub4 5) pcrel17a2) + (if (ne rn rm) + (set-vliw-alignment-modified pc pcrel17a2)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-branch)))) + +(dnci bsr12 "branch to subroutine (12 bit displacement)" (RELAXABLE) + "bsr $pcrel12a2" + (+ MAJ_11 pcrel12a2 (f-15 1)) + (sequence () + (cg-profile pc pcrel12a2) + (set-vliw-modified-pcrel-offset lp 2 4 8) + (set-vliw-alignment-modified pc pcrel12a2)) + ((mep (unit u-exec) + (unit u-branch)))) + +(dnci bsr24 "branch to subroutine (24 bit displacement)" () + "bsr $pcrel24a2" + (+ MAJ_13 (f-4 1) (f-sub4 9) pcrel24a2) + (sequence () + (cg-profile pc pcrel24a2) + (set-vliw-modified-pcrel-offset lp 4 4 8) + (set-vliw-alignment-modified pc pcrel24a2)) + ((mep (unit u-exec) + (unit u-branch)))) + +(dnci jmp "jump" () + "jmp $rm" + (+ MAJ_1 (f-rn 0) rm (f-sub4 14)) + (sequence () + (if (eq (get-psw.om) 0) + ;; core mode + (if (get-rm.lsb) + (sequence () + (set-psw.om 1) ;; enter VLIW mode + (set-vliw-aliignment-modified-by-option pc rm)) + (set pc (and rm (inv 1)))) + ;; VLIW mode + (if (get-rm.lsb) + (sequence () + (set-psw.om 0) ;; enter core mode + (set pc (and rm (inv 1)))) + (set-vliw-aliignment-modified-by-option pc rm))) + (cg-profile-jump pc rm)) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-branch)))) + +(dnci jmp24 "jump (24 bit target)" () + "jmp $pcabs24a2" + (+ MAJ_13 (f-4 1) (f-sub4 8) pcabs24a2) + (sequence () + (set-vliw-alignment-modified pc (or (and pc #xf0000000) pcabs24a2)) + (cg-profile-jump pc pcabs24a2)) + ((mep (unit u-exec) + (unit u-branch)))) + +(dnci jsr "jump to subroutine" () + "jsr $rm" + (+ MAJ_1 (f-rn 0) rm (f-sub4 15)) + (sequence () + (cg-profile pc rm) + (set-vliw-modified-pcrel-offset lp 2 4 8) + (set-vliw-alignment-modified pc rm)) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-branch)))) + +(dnci ret "return from subroutine" ((STALL RET)) + "ret" + (+ MAJ_7 (f-rn 0) (f-rm 0) (f-sub4 2)) + (sequence () + (if (eq (get-psw.om) 0) + ;; core mode + (if (get-lp.ltom) ;; link-pointer "toggle mode" bit + (sequence () + (set-psw.om 1) ;; enter VLIW mode + (set-vliw-aliignment-modified-by-option pc lp)) + (set pc (and lp (inv 1)))) + ;; VLIW mode + (if (get-lp.ltom) ;; link-pointer "toggle mode" bit + (sequence () + (set-psw.om 0) ;; enter VLIW mode + (set pc (and lp (inv 1)))) + (set-vliw-aliignment-modified-by-option pc lp))) + (c-call VOID "notify_ret" pc)) + ((mep (unit u-exec) + (unit u-branch)))) + + +; Repeat instructions. + +(dnci repeat "repeat specified repeat block" () + "repeat $rn,$pcrel17a2" + (+ MAJ_14 rn (f-rm 0) (f-sub4 9) pcrel17a2) + (sequence () + (set-vliw-modified-pcrel-offset (reg h-csr 4) 4 4 8) + (set-vliw-alignment-modified (reg h-csr 5) pcrel17a2) + (set (reg h-csr 6) rn)) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci erepeat "endless repeat" () + "erepeat $pcrel17a2" + (+ MAJ_14 (f-rn 0) (f-rm 1) (f-sub4 9) pcrel17a2) + (sequence () + (set-vliw-modified-pcrel-offset (reg h-csr 4) 4 4 8) + (set-vliw-alignment-modified (reg h-csr 5) pcrel17a2) + (set-rpe.elr 1) + ; rpc may be undefined for erepeat + ; use 1 to trigger repeat logic in the sim's main loop + (set (reg h-csr 6) 1)) + ()) + + +; Control instructions. + +;; special store variants + +(dnci stc_lp "store to control register lp" ((STALL STC)) + "stc $rn,\\$lp" + (+ MAJ_7 rn (f-csrn-lo 1) (f-csrn-hi 0) (f-12 1) (f-13 0) (f-14 0)) + (set lp rn) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-store-ctrl-reg (out storereg lp)) + (unit u-exec)))) + +(dnci stc_hi "store to control register hi" ((STALL STC)) + "stc $rn,\\$hi" + (+ MAJ_7 rn (f-csrn-lo 7) (f-csrn-hi 0) (f-12 1) (f-13 0) (f-14 0)) + (set hi rn) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-store-ctrl-reg (out storereg hi)) + (unit u-exec)))) + +(dnci stc_lo "store to control register lo" ((STALL STC)) + "stc $rn,\\$lo" + (+ MAJ_7 rn (f-csrn-lo 8) (f-csrn-hi 0) (f-12 1) (f-13 0) (f-14 0)) + (set lo rn) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-store-ctrl-reg (out storereg lo)) + (unit u-exec)))) + +;; general store + +(dnci stc "store to control register" (VOLATILE (STALL STC)) + "stc $rn,$csrn" + (+ MAJ_7 rn csrn (f-12 1) (f-13 0) (f-14 0)) + (set csrn rn) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-store-ctrl-reg (out storereg csrn)) + (unit u-exec)))) + +;; special load variants + +(dnci ldc_lp "load from control register lp" ((STALL LDC)) + "ldc $rn,\\$lp" + (+ MAJ_7 rn (f-csrn-lo 1) (f-csrn-hi 0) (f-12 1) (f-13 0) (f-14 1)) + (set rn lp) + ((mep (unit u-use-ctrl-reg (in usereg lp)) + (unit u-exec) + (unit u-load-gpr (out loadreg rn))))) + + +(dnci ldc_hi "load from control register hi" ((STALL LDC)) + "ldc $rn,\\$hi" + (+ MAJ_7 rn (f-csrn-lo 7) (f-csrn-hi 0) (f-12 1) (f-13 0) (f-14 1)) + (set rn hi) + ((mep (unit u-use-ctrl-reg (in usereg hi)) + (unit u-exec) + (unit u-load-gpr (out loadreg rn))))) + +(dnci ldc_lo "load from control register lo" ((STALL LDC)) + "ldc $rn,\\$lo" + (+ MAJ_7 rn (f-csrn-lo 8) (f-csrn-hi 0) (f-12 1) (f-13 0) (f-14 1)) + (set rn lo) + ((mep (unit u-use-ctrl-reg (in usereg lo)) + (unit u-exec) + (unit u-load-gpr (out loadreg rn))))) + +;; general load + +(dnci ldc "load from control register" (VOLATILE (STALL LDC) (LATENCY 2)) + "ldc $rn,$csrn" + (+ MAJ_7 rn csrn (f-12 1) (f-13 0) (f-14 1)) + (if (eq (ifield f-csrn) 0) + ;; loading from the pc + (set-vliw-modified-pcrel-offset rn 2 4 8) + ;; loading from something else + (set rn csrn)) + ((mep (unit u-use-ctrl-reg (in usereg csrn)) + (unit u-exec) + (unit u-load-gpr (out loadreg rn))))) + +(dnci di "disable interrupt" (VOLATILE) + "di" + (+ MAJ_7 (f-rn 0) (f-rm 0) (f-sub4 0)) + ; clear psw.iec + (set psw (sll (srl psw 1) 1)) + ()) + +(dnci ei "enable interrupt" (VOLATILE) + "ei" + (+ MAJ_7 (f-rn 0) (f-rm 1) (f-sub4 0)) + ; set psw.iec + (set psw (or psw 1)) + ()) + +(dnci reti "return from interrupt" ((STALL RET)) + "reti" + (+ MAJ_7 (f-rn 0) (f-rm 1) (f-sub4 2)) + (if (eq (get-psw.om) 0) + ;; core operation mode + (if (get-psw.nmi) + ;; return from NMI + (if (get-npc.ntom) + ;; return in VLIW operation mode + (sequence () + (set-psw.om 1) + (set-vliw-aliignment-modified-by-option pc npc) + (set-psw.nmi 0)) + ;; return in core mode + (sequence () + (set pc (and npc (inv 1))) + (set-psw.nmi 0))) + ;; return from non-NMI + (if (get-epc.etom) + ;; return in VLIW mode + (sequence () + (set-psw.om 1) + (set-vliw-aliignment-modified-by-option pc epc) + (set-psw.umc (get-psw.ump)) + (set-psw.iec (get-psw.iep))) + ;; return in core mode + (sequence () + (set pc (and epc (inv 1))) + (set-psw.umc (get-psw.ump)) + (set-psw.iec (get-psw.iep))))) + ;; VLIW operation mode + ;; xxx undefined + (nop)) + ((mep (unit u-exec) + (unit u-branch)))) + +(dnci halt "halt pipeline" (VOLATILE) + "halt" + (+ MAJ_7 (f-rn 0) (f-rm 2) (f-sub4 2)) + ; set psw.halt + (set (raw-reg h-csr 16) (or psw (sll 1 11))) + ()) + +(dnci sleep "sleep pipeline" (VOLATILE) + "sleep" + (+ MAJ_7 (f-rn 0) (f-rm 6) (f-sub4 2)) + (c-call VOID "do_sleep") + ()) + +(dnci swi "software interrupt" (MAY_TRAP VOLATILE) + "swi $uimm2" + (+ MAJ_7 (f-rn 0) (f-8 0) (f-9 0) uimm2 (f-sub4 6)) + (cond + ((eq uimm2 0) (set exc (or exc (sll 1 4)))) + ((eq uimm2 1) (set exc (or exc (sll 1 5)))) + ((eq uimm2 2) (set exc (or exc (sll 1 6)))) + ((eq uimm2 3) (set exc (or exc (sll 1 7))))) + ()) + +(dnci break "break exception" (MAY_TRAP VOLATILE) + "break" + (+ MAJ_7 (f-rn 0) (f-rm 3) (f-sub4 2)) + (set pc (c-call USI "break_exception" pc)) + ((mep (unit u-exec) + (unit u-branch)))) + +(dnci syncm "synchronise with memory" (VOLATILE) + "syncm" + (+ MAJ_7 (f-rn 0) (f-rm 1) (f-sub4 1)) + (unimp "syncm") + ()) + +(dnci stcb "store in control bus space" (VOLATILE (STALL STCB)) + "stcb $rn,$uimm16" + (+ MAJ_15 rn (f-rm 0) (f-sub4 4) uimm16) + (c-call VOID "do_stcb" rn uimm16) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec) + (unit u-stcb)))) + +(dnci ldcb "load from control bus space" (VOLATILE (STALL LDCB) (LATENCY 3)) + "ldcb $rn,$uimm16" + (+ MAJ_15 rn (f-rm 1) (f-sub4 4) uimm16) + (set rn (c-call SI "do_ldcb" uimm16)) + ((mep (unit u-ldcb) + (unit u-exec) + (unit u-ldcb-gpr (out loadreg rn))))) + + +; Bit manipulation instructions. +; The following instructions become the reserved instruction when the +; bit manipulation option is off. + +(dnci bsetm "set bit in memory" (OPTIONAL_BIT_INSN) + "bsetm ($rma),$uimm3" + (+ MAJ_2 (f-4 0) uimm3 rma (f-sub4 0)) + (sequence () + (c-call "check_option_bit" pc) + (set (mem UQI rma) (or (mem UQI rma) (sll 1 uimm3)))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci bclrm "clear bit in memory" (OPTIONAL_BIT_INSN) + "bclrm ($rma),$uimm3" + (+ MAJ_2 (f-4 0) uimm3 rma (f-sub4 1)) + (sequence () + (c-call "check_option_bit" pc) + (set (mem UQI rma) (and (mem UQI rma) (inv (sll 1 uimm3))))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci bnotm "toggle bit in memory" (OPTIONAL_BIT_INSN) + "bnotm ($rma),$uimm3" + (+ MAJ_2 (f-4 0) uimm3 rma (f-sub4 2)) + (sequence () + (c-call "check_option_bit" pc) + (set (mem UQI rma) (xor (mem UQI rma) (sll 1 uimm3)))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci btstm "test bit in memory" (OPTIONAL_BIT_INSN) + "btstm \\$0,($rma),$uimm3" + (+ MAJ_2 (f-4 0) uimm3 rma (f-sub4 3)) + (sequence () + (c-call "check_option_bit" pc) + (set r0 (zext SI (and UQI (mem UQI rma) (sll 1 uimm3))))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci tas "test and set" (OPTIONAL_BIT_INSN) + "tas $rn,($rma)" + (+ MAJ_2 rn rma (f-sub4 4)) + (sequence ((SI result)) + (c-call "check_option_bit" pc) + (set result (zext SI (mem UQI rma))) + (set (mem UQI rma) 1) + (set rn result)) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + + +; Data cache instruction. + +(dnci cache "cache operations" (VOLATILE) + "cache $cimm4,($rma)" + (+ MAJ_7 cimm4 rma (f-sub4 4)) + (c-call VOID "do_cache" cimm4 rma pc) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + + +; Multiply instructions. +; These instructions become the RI when the 32-bit multiply +; instruction option is off. + +(dnci mul "multiply" (OPTIONAL_MUL_INSN (STALL MUL)) + "mul $rn,$rm" + (+ MAJ_1 rn rm (f-sub4 4)) + (sequence ((DI result)) + (c-call "check_option_mul" pc) + (set result (mul (ext DI rn) (ext DI rm))) + (set hi (subword SI result 0)) + (set lo (subword SI result 1))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-multiply)))) + +(dnci mulu "multiply unsigned" (OPTIONAL_MUL_INSN (STALL MUL)) + "mulu $rn,$rm" + (+ MAJ_1 rn rm (f-sub4 5)) + (sequence ((DI result)) + (c-call "check_option_mul" pc) + (set result (mul (zext UDI rn) (zext UDI rm))) + (set hi (subword SI result 0)) + (set lo (subword SI result 1))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-multiply)))) + +(dnci mulr "multiply, lo -> reg" (OPTIONAL_MUL_INSN (STALL MULR) (LATENCY 3)) + "mulr $rn,$rm" + (+ MAJ_1 rn rm (f-sub4 6)) + (sequence ((DI result)) + (c-call "check_option_mul" pc) + (set result (mul (ext DI rn) (ext DI rm))) + (set hi (subword SI result 0)) + (set lo (subword SI result 1)) + (set rn (subword SI result 1))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-multiply) + (unit u-mul-gpr (out resultreg rn))))) + +(dnci mulru "multiply unsigned, lo -> reg" (OPTIONAL_MUL_INSN (STALL MULR) (LATENCY 3)) + "mulru $rn,$rm" + (+ MAJ_1 rn rm (f-sub4 7)) + (sequence ((DI result)) + (c-call "check_option_mul" pc) + (set result (mul (zext UDI rn) (zext UDI rm))) + (set hi (subword SI result 0)) + (set lo (subword SI result 1)) + (set rn (subword SI result 1))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-multiply) + (unit u-mul-gpr (out resultreg rn))))) + +(dnci madd "multiply accumulate" (OPTIONAL_MUL_INSN (STALL MUL)) + "madd $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 #x3004)) + (sequence ((DI result)) + (c-call "check_option_mul" pc) + (set result (or (sll (zext DI hi) 32) (zext DI lo))) + (set result (add result (mul (ext DI rn) (ext DI rm)))) + (set hi (subword SI result 0)) + (set lo (subword SI result 1))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-multiply)))) + +(dnci maddu "multiply accumulate unsigned" (OPTIONAL_MUL_INSN (STALL MUL)) + "maddu $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 #x3005)) + (sequence ((DI result)) + (c-call "check_option_mul" pc) + (set result (or (sll (zext DI hi) 32) (zext DI lo))) + (set result (add result (mul (zext UDI rn) (zext UDI rm)))) + (set hi (subword SI result 0)) + (set lo (subword SI result 1))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-multiply)))) + + +(dnci maddr "multiply accumulate, lo -> reg" (OPTIONAL_MUL_INSN (STALL MULR) (LATENCY 3)) + "maddr $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 #x3006)) + (sequence ((DI result)) + (c-call "check_option_mul" pc) + (set result (or (sll (zext DI hi) 32) (zext DI lo))) + (set result (add result (mul (ext DI rn) (ext DI rm)))) + (set hi (subword SI result 0)) + (set lo (subword SI result 1)) + (set rn (subword SI result 1))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-multiply) + (unit u-mul-gpr (out resultreg rn))))) + +(dnci maddru "multiple accumulate unsigned, lo -> reg" (OPTIONAL_MUL_INSN (STALL MULR) (LATENCY 3)) + "maddru $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 #x3007)) + (sequence ((DI result)) + (c-call "check_option_mul" pc) + (set result (or (sll (zext DI hi) 32) (zext DI lo))) + (set result (add result (mul (zext UDI rn) (zext UDI rm)))) + (set hi (subword SI result 0)) + (set lo (subword SI result 1)) + (set rn (subword SI result 1))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-multiply) + (unit u-mul-gpr (out resultreg rn))))) + + +; Divide instructions. +; These instructions become the RI when the 32-bit divide instruction +; option is off. + +(dnci div "divide" (OPTIONAL_DIV_INSN (STALL DIV) (LATENCY 34) MAY_TRAP) + "div $rn,$rm" + (+ MAJ_1 rn rm (f-sub4 8)) + (sequence () + (c-call "check_option_div" pc) + (if (eq rm 0) + (set pc (c-call USI "zdiv_exception" pc)) + ; Special case described on p. 76. + (if (and (eq rn #x80000000) + (eq rm #xffffffff)) + (sequence () + (set lo #x80000000) + (set hi 0)) + (sequence () + (set lo (div rn rm)) + (set hi (mod rn rm)))))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-divide) + (unit u-branch)))) + +(dnci divu "divide unsigned" (OPTIONAL_DIV_INSN (STALL DIV) (LATENCY 34) MAY_TRAP) + "divu $rn,$rm" + (+ MAJ_1 rn rm (f-sub4 9)) + (sequence () + (c-call "check_option_div" pc) + (if (eq rm 0) + (set pc (c-call USI "zdiv_exception" pc)) + (sequence () + (set lo (udiv rn rm)) + (set hi (umod rn rm))))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-divide) + (unit u-branch)))) + + +; Debug functions. +; These instructions become the RI when the debug function option is +; off. + +(dnci dret "return from debug exception" (OPTIONAL_DEBUG_INSN) + "dret" + (+ MAJ_7 (f-rn 0) (f-rm 1) (f-sub4 3)) + (sequence () + (c-call "check_option_debug" pc) + ; set DBG.DM. + (set dbg (and dbg (inv (sll SI 1 15)))) + (set pc depc)) + ((mep (unit u-exec) + (unit u-branch)))) + +(dnci dbreak "generate debug exception" (OPTIONAL_DEBUG_INSN MAY_TRAP VOLATILE) + "dbreak" + (+ MAJ_7 (f-rn 0) (f-rm 3) (f-sub4 3)) + (sequence () + (c-call "check_option_debug" pc) + ; set DBG.DPB. + (set dbg (or dbg 1))) + ()) + + +; Leading zero instruction. + +(dnci ldz "leading zeroes" (OPTIONAL_LDZ_INSN (STALL INT2)) + "ldz $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 0)) + (sequence () + (c-call "check_option_ldz" pc) + (set rn (c-call SI "do_ldz" rm))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-exec)))) + + +; Absolute difference instruction. + +(dnci abs "absolute difference" (OPTIONAL_ABS_INSN (STALL INT2)) + "abs $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 3)) + (sequence () + (c-call "check_option_abs" pc) + (set rn (abs (sub rn rm)))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + + +; Average instruction. + +(dnci ave "average" (OPTIONAL_AVE_INSN (STALL INT2)) + "ave $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 2)) + (sequence () + (c-call "check_option_ave" pc) + (set rn (sra (add (add rn rm) 1) 1))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + + +; MIN/MAX instructions. + +(dnci min "minimum" (OPTIONAL_MINMAX_INSN (STALL INT2)) + "min $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 4)) + (sequence () + (c-call "check_option_minmax" pc) + (if (gt rn rm) + (set rn rm))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci max "maximum" (OPTIONAL_MINMAX_INSN (STALL INT2)) + "max $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 5)) + (sequence () + (c-call "check_option_minmax" pc) + (if (lt rn rm) + (set rn rm))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci minu "minimum unsigned" (OPTIONAL_MINMAX_INSN (STALL INT2)) + "minu $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 6)) + (sequence () + (c-call "check_option_minmax" pc) + (if (gtu rn rm) + (set rn rm))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci maxu "maximum unsigned" (OPTIONAL_MINMAX_INSN (STALL INT2)) + "maxu $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 7)) + (sequence () + (c-call "check_option_minmax" pc) + (if (ltu rn rm) + (set rn rm))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + + +; Clipping instruction. + +(dnci clip "clip" (OPTIONAL_CLIP_INSN (STALL INT2)) + "clip $rn,$cimm5" + (+ MAJ_15 rn (f-rm 0) (f-sub4 1) (f-ext #x10) cimm5 (f-29 0) (f-30 0) (f-31 0)) + (sequence ((SI min) (SI max)) + (c-call "check_option_clip" pc) + (set max (sub (sll 1 (sub cimm5 1)) 1)) + (set min (neg (sll 1 (sub cimm5 1)))) + (cond + ((eq cimm5 0) (set rn 0)) + ((gt rn max) (set rn max)) + ((lt rn min) (set rn min)))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci clipu "clip unsigned" (OPTIONAL_CLIP_INSN (STALL INT2)) + "clipu $rn,$cimm5" + (+ MAJ_15 rn (f-rm 0) (f-sub4 1) (f-ext #x10) cimm5 (f-29 0) (f-30 0) (f-31 1)) + (sequence ((SI max)) + (c-call "check_option_clip" pc) + (set max (sub (sll 1 cimm5) 1)) + (cond + ((eq cimm5 0) (set rn 0)) + ((gt rn max) (set rn max)) + ((lt rn 0) (set rn 0)))) + ((mep (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + + +; Saturation instructions. + +(dnci sadd "saturating addition" (OPTIONAL_SAT_INSN (STALL INT2)) + "sadd $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 8)) + (sequence () + (c-call "check_option_sat" pc) + (if (add-oflag rn rm 0) + (if (nflag rn) + ; underflow + (set rn (neg (sll 1 31))) + ; overflow + (set rn (sub (sll 1 31) 1))) + (set rn (add rn rm)))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci ssub "saturating subtraction" (OPTIONAL_SAT_INSN (STALL INT2)) + "ssub $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 10)) + (sequence () + (c-call "check_option_sat" pc) + (if (sub-oflag rn rm 0) + (if (nflag rn) + ; underflow + (set rn (neg (sll 1 31))) + ; overflow + (set rn (sub (sll 1 31) 1))) + (set rn (sub rn rm)))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci saddu "saturating unsigned addition" (OPTIONAL_SAT_INSN (STALL INT2)) + "saddu $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 9)) + (sequence () + (c-call "check_option_sat" pc) + (if (add-cflag rn rm 0) + (set rn (inv 0)) + (set rn (add rn rm)))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + +(dnci ssubu "saturating unsigned subtraction" (OPTIONAL_SAT_INSN (STALL INT2)) + "ssubu $rn,$rm" + (+ MAJ_15 rn rm (f-sub4 1) (f-16u16 11)) + (sequence () + (c-call "check_option_sat" pc) + (if (sub-cflag rn rm 0) + (set rn 0) + (set rn (sub rn rm)))) + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-use-gpr (in usereg rn)) + (unit u-exec)))) + + +; UCI and DSP options are defined in an external file. +; See `mep-sample-ucidsp.cpu' for a sample. + + +; Coprocessor instructions. + +(dnci swcp "store word coprocessor" (OPTIONAL_CP_INSN (STALL STORE)) + "swcp $crn,($rma)" + (+ MAJ_3 crn rma (f-sub4 8)) + (sequence () + (c-call "check_option_cp" pc) + (c-call VOID "check_write_to_text" (and rma (inv SI 3))) + (set (mem SI (and rma (inv SI 3))) crn)) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lwcp "load word coprocessor" (OPTIONAL_CP_INSN (STALL LOAD)) + "lwcp $crn,($rma)" + (+ MAJ_3 crn rma (f-sub4 9)) + (sequence () + (c-call "check_option_cp" pc) + (set crn (mem SI (and rma (inv SI 3))))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci smcp "smcp" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL STORE)) + "smcp $crn64,($rma)" + (+ MAJ_3 crn64 rma (f-sub4 10)) + (sequence () + (c-call "check_option_cp" pc) + (c-call "check_option_cp64" pc) + (c-call VOID "check_write_to_text" rma) + (c-call "do_smcp" rma crn64 pc)) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lmcp "lmcp" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL LOAD)) + "lmcp $crn64,($rma)" + (+ MAJ_3 crn64 rma (f-sub4 11)) + (sequence () + (c-call "check_option_cp" pc) + (c-call "check_option_cp64" pc) + (set crn64 (c-call DI "do_lmcp" rma pc))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci swcpi "swcp (post-increment)" (OPTIONAL_CP_INSN (STALL STORE)) + "swcpi $crn,($rma+)" + (+ MAJ_3 crn rma (f-sub4 0)) + (sequence () + (c-call "check_option_cp" pc) + (c-call VOID "check_write_to_text" (and rma (inv SI 3))) + (set (mem SI (and rma (inv SI 3))) crn) + (set rma (add rma 4))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lwcpi "lwcp (post-increment)" (OPTIONAL_CP_INSN (STALL LOAD)) + "lwcpi $crn,($rma+)" + (+ MAJ_3 crn rma (f-sub4 1)) + (sequence () + (c-call "check_option_cp" pc) + (set crn (mem SI (and rma (inv SI 3)))) + (set rma (add rma 4))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci smcpi "smcp (post-increment)" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL STORE)) + "smcpi $crn64,($rma+)" + (+ MAJ_3 crn64 rma (f-sub4 2)) + (sequence () + (c-call "check_option_cp" pc) + (c-call "check_option_cp64" pc) + (c-call VOID "check_write_to_text" rma) + (c-call "do_smcpi" (index-of rma) crn64 pc) + (set rma rma)) ; reference as output for intrinsic generation + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lmcpi "lmcp (post-increment)" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL LOAD)) + "lmcpi $crn64,($rma+)" + (+ MAJ_3 crn64 rma (f-sub4 3)) + (sequence () + (c-call "check_option_cp" pc) + (c-call "check_option_cp64" pc) + (set crn64 (c-call DI "do_lmcpi" (index-of rma) pc)) + (set rma rma)) ; reference as output for intrinsic generation + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci swcp16 "swcp (16-bit displacement)" (OPTIONAL_CP_INSN (STALL STORE)) + "swcp $crn,$sdisp16($rma)" + (+ MAJ_15 crn rma (f-sub4 12) sdisp16) + (sequence () + (c-call "check_option_cp" pc) + (set (mem SI (and (add rma sdisp16) (inv SI 3))) crn)) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lwcp16 "lwcp (16-bit displacement)" (OPTIONAL_CP_INSN (STALL LOAD)) + "lwcp $crn,$sdisp16($rma)" + (+ MAJ_15 crn rma (f-sub4 13) sdisp16) + (sequence () + (c-call "check_option_cp" pc) + (set crn (mem SI (and (add rma sdisp16) (inv SI 3))))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci smcp16 "smcp (16-bit displacement)" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL STORE)) + "smcp $crn64,$sdisp16($rma)" + (+ MAJ_15 crn64 rma (f-sub4 14) sdisp16) + (sequence () + (c-call "check_option_cp" pc) + (c-call "check_option_cp64" pc) + (c-call "do_smcp16" rma sdisp16 crn64 pc)) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lmcp16 "lmcp (16-bit displacement)" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL LOAD)) + "lmcp $crn64,$sdisp16($rma)" + (+ MAJ_15 crn64 rma (f-sub4 15) sdisp16) + (sequence () + (c-call "check_option_cp" pc) + (c-call "check_option_cp64" pc) + (set crn64 (c-call DI "do_lmcp16" rma sdisp16 pc))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci sbcpa "store byte coprocessor" (OPTIONAL_CP_INSN (STALL STORE)) + "sbcpa $crn,($rma+),$cdisp10" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 0) (f-ext62 0) cdisp10) + (sequence () + (c-call "check_option_cp" pc) + (c-call VOID "check_write_to_text" rma) + (set (mem QI rma) (and crn #xff)) + (set rma (add rma (ext SI cdisp10)))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lbcpa "load byte coprocessor" (OPTIONAL_CP_INSN (STALL LOAD)) + "lbcpa $crn,($rma+),$cdisp10" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x4) (f-ext62 #x0) cdisp10) + (sequence () + (c-call "check_option_cp" pc) + (set crn (ext SI (mem QI rma))) + (set rma (add rma (ext SI cdisp10)))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci shcpa "store half-word coprocessor" (OPTIONAL_CP_INSN (STALL STORE)) + "shcpa $crn,($rma+),$cdisp10a2" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x1) (f-ext62 #x0) cdisp10a2) + (sequence () + (c-call "check_option_cp" pc) + (c-call VOID "check_write_to_text" (and rma (inv SI 1))) + (set (mem HI (and rma (inv SI 1))) (and crn #xffff)) + (set rma (add rma (ext SI cdisp10a2)))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lhcpa "load half-word coprocessor" (OPTIONAL_CP_INSN (STALL LOAD)) + "lhcpa $crn,($rma+),$cdisp10a2" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x5) (f-ext62 #x0) cdisp10a2) + (sequence () + (c-call "check_option_cp" pc) + (set crn (ext SI (mem HI (and rma (inv SI 1))))) + (set rma (add rma (ext SI cdisp10a2)))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci swcpa "store word coprocessor" (OPTIONAL_CP_INSN (STALL STORE)) + "swcpa $crn,($rma+),$cdisp10a4" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x2) (f-ext62 #x0) cdisp10a4) + (sequence () + (c-call "check_option_cp" pc) + (c-call VOID "check_write_to_text" (and rma (inv SI 3))) + (set (mem SI (and rma (inv SI 3))) crn) + (set rma (add rma (ext SI cdisp10a4)))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lwcpa "load word coprocessor" (OPTIONAL_CP_INSN (STALL LOAD)) + "lwcpa $crn,($rma+),$cdisp10a4" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x6) (f-ext62 #x0) cdisp10a4) + (sequence () + (c-call "check_option_cp" pc) + (set crn (mem SI (and rma (inv SI 3)))) + (set rma (add rma (ext SI cdisp10a4)))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci smcpa "smcpa" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL STORE)) + "smcpa $crn64,($rma+),$cdisp10a8" + (+ MAJ_15 crn64 rma (f-sub4 5) (f-ext4 #x3) (f-ext62 #x0) cdisp10a8) + (sequence () + (c-call "check_option_cp" pc) + (c-call "check_option_cp64" pc) + (c-call VOID "check_write_to_text" rma) + (c-call "do_smcpa" (index-of rma) cdisp10a8 crn64 pc) + (set rma rma)) ; reference as output for intrinsic generation + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lmcpa "lmcpa" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN (STALL LOAD)) + "lmcpa $crn64,($rma+),$cdisp10a8" + (+ MAJ_15 crn64 rma (f-sub4 5) (f-ext4 #x7) (f-ext62 #x0) cdisp10a8) + (sequence () + (c-call "check_option_cp" pc) + (c-call "check_option_cp64" pc) + (set crn64 (c-call DI "do_lmcpa" (index-of rma) cdisp10a8 pc)) + (set rma rma)) ; reference as output for intrinsic generation + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + + +(dnci sbcpm0 "sbcpm0" (OPTIONAL_CP_INSN) + "sbcpm0 $crn,($rma+),$cdisp10" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x0) (f-ext62 #x2) cdisp10) + (sequence () + (c-call "check_option_cp" pc) + (c-call VOID "check_write_to_text" rma) + (set (mem QI rma) (and crn #xff)) + (set rma (mod0 cdisp10))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lbcpm0 "lbcpm0" (OPTIONAL_CP_INSN) + "lbcpm0 $crn,($rma+),$cdisp10" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x4) (f-ext62 #x2) cdisp10) + (sequence () + (c-call "check_option_cp" pc) + (set crn (ext SI (mem QI rma))) + (set rma (mod0 cdisp10))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci shcpm0 "shcpm0" (OPTIONAL_CP_INSN) + "shcpm0 $crn,($rma+),$cdisp10a2" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x1) (f-ext62 #x2) cdisp10a2) + (sequence () + (c-call "check_option_cp" pc) + (c-call VOID "check_write_to_text" (and rma (inv SI 1))) + (set (mem HI (and rma (inv SI 1))) (and crn #xffff)) + (set rma (mod0 cdisp10a2))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lhcpm0 "lhcpm0" (OPTIONAL_CP_INSN) + "lhcpm0 $crn,($rma+),$cdisp10a2" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x5) (f-ext62 #x2) cdisp10a2) + (sequence () + (c-call "check_option_cp" pc) + (set crn (ext SI (mem HI (and rma (inv SI 1))))) + (set rma (mod0 cdisp10a2))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci swcpm0 "swcpm0" (OPTIONAL_CP_INSN) + "swcpm0 $crn,($rma+),$cdisp10a4" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x2) (f-ext62 #x2) cdisp10a4) + (sequence () + (c-call "check_option_cp" pc) + (c-call VOID "check_write_to_text" (and rma (inv SI 3))) + (set (mem SI (and rma (inv SI 3))) crn) + (set rma (mod0 cdisp10a4))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lwcpm0 "lwcpm0" (OPTIONAL_CP_INSN) + "lwcpm0 $crn,($rma+),$cdisp10a4" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x6) (f-ext62 #x2) cdisp10a4) + (sequence () + (c-call "check_option_cp" pc) + (set crn (mem SI (and rma (inv SI 3)))) + (set rma (mod0 cdisp10a4))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci smcpm0 "smcpm0" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN) + "smcpm0 $crn64,($rma+),$cdisp10a8" + (+ MAJ_15 crn64 rma (f-sub4 5) (f-ext4 #x3) (f-ext62 #x2) cdisp10a8) + (sequence () + (c-call "check_option_cp" pc) + (c-call "check_option_cp64" pc) + (c-call VOID "check_write_to_text" rma) + (c-call "do_smcp" rma crn64 pc) + (set rma (mod0 cdisp10a8))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lmcpm0 "lmcpm0" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN) + "lmcpm0 $crn64,($rma+),$cdisp10a8" + (+ MAJ_15 crn64 rma (f-sub4 5) (f-ext4 #x7) (f-ext62 #x2) cdisp10a8) + (sequence () + (c-call "check_option_cp" pc) + (c-call "check_option_cp64" pc) + (set crn64 (c-call DI "do_lmcp" rma pc)) + (set rma (mod0 cdisp10a8))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci sbcpm1 "sbcpm1" (OPTIONAL_CP_INSN) + "sbcpm1 $crn,($rma+),$cdisp10" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x0) (f-ext62 #x3) cdisp10) + (sequence () + (c-call "check_option_cp" pc) + (c-call VOID "check_write_to_text" rma) + (set (mem QI rma) (and crn #xff)) + (set rma (mod1 cdisp10))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lbcpm1 "lbcpm1" (OPTIONAL_CP_INSN) + "lbcpm1 $crn,($rma+),$cdisp10" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x4) (f-ext62 #x3) cdisp10) + (sequence () + (c-call "check_option_cp" pc) + (set crn (ext SI (mem QI rma))) + (set rma (mod1 cdisp10))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci shcpm1 "shcpm1" (OPTIONAL_CP_INSN) + "shcpm1 $crn,($rma+),$cdisp10a2" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x1) (f-ext62 #x3) cdisp10a2) + (sequence () + (c-call "check_option_cp" pc) + (c-call VOID "check_write_to_text" (and rma (inv SI 1))) + (set (mem HI (and rma (inv SI 1))) (and crn #xffff)) + (set rma (mod1 cdisp10a2))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lhcpm1 "lhcpm1" (OPTIONAL_CP_INSN) + "lhcpm1 $crn,($rma+),$cdisp10a2" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x5) (f-ext62 #x3) cdisp10a2) + (sequence () + (c-call "check_option_cp" pc) + (set crn (ext SI (mem HI (and rma (inv SI 1))))) + (set rma (mod1 cdisp10a2))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci swcpm1 "swcpm1" (OPTIONAL_CP_INSN) + "swcpm1 $crn,($rma+),$cdisp10a4" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x2) (f-ext62 #x3) cdisp10a4) + (sequence () + (c-call "check_option_cp" pc) + (c-call VOID "check_write_to_text" (and rma (inv SI 3))) + (set (mem SI (and rma (inv SI 3))) crn) + (set rma (mod1 cdisp10a4))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lwcpm1 "lwcpm1" (OPTIONAL_CP_INSN) + "lwcpm1 $crn,($rma+),$cdisp10a4" + (+ MAJ_15 crn rma (f-sub4 5) (f-ext4 #x6) (f-ext62 #x3) cdisp10a4) + (sequence () + (c-call "check_option_cp" pc) + (set crn (ext SI (mem SI (and rma (inv SI 3))))) + (set rma (mod1 cdisp10a4))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci smcpm1 "smcpm1" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN) + "smcpm1 $crn64,($rma+),$cdisp10a8" + (+ MAJ_15 crn64 rma (f-sub4 5) (f-ext4 #x3) (f-ext62 #x3) cdisp10a8) + (sequence () + (c-call "check_option_cp" pc) + (c-call "check_option_cp64" pc) + (c-call "do_smcp" rma crn64 pc) + (c-call VOID "check_write_to_text" rma) + (set rma (mod1 cdisp10a8))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnci lmcpm1 "lmcpm1" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN) + "lmcpm1 $crn64,($rma+),$cdisp10a8" + (+ MAJ_15 crn64 rma (f-sub4 5) (f-ext4 #x7) (f-ext62 #x3) cdisp10a8) + (sequence () + (c-call "check_option_cp" pc) + (c-call "check_option_cp64" pc) + (set crn64 (c-call DI "do_lmcp" rma pc)) + (set rma (mod1 cdisp10a8))) + ((mep (unit u-use-gpr (in usereg rma)) + (unit u-exec)))) + +(dnop cp_flag "branch condition register" (all-mep-isas) h-ccr 1) + +(dnci bcpeq "branch coprocessor equal" (OPTIONAL_CP_INSN RELAXABLE) + "bcpeq $cccc,$pcrel17a2" + (+ MAJ_13 (f-rn 8) cccc (f-sub4 4) pcrel17a2) + (sequence () + (c-call "check_option_cp" pc) + (if (eq (xor cccc cp_flag) 0) + (set-vliw-alignment-modified pc pcrel17a2))) + ()) + +(dnci bcpne "branch coprocessor not equal" (OPTIONAL_CP_INSN RELAXABLE) + "bcpne $cccc,$pcrel17a2" + (+ MAJ_13 (f-rn 8) cccc (f-sub4 5) pcrel17a2) + (sequence () + (c-call "check_option_cp" pc) + (if (ne (xor cccc cp_flag) 0) + (set-vliw-alignment-modified pc pcrel17a2))) + ()) + +(dnci bcpat "branch coprocessor and true" (OPTIONAL_CP_INSN RELAXABLE) + "bcpat $cccc,$pcrel17a2" + (+ MAJ_13 (f-rn 8) cccc (f-sub4 6) pcrel17a2) + (sequence () + (c-call "check_option_cp" pc) + (if (ne (and cccc cp_flag) 0) + (set-vliw-alignment-modified pc pcrel17a2))) + ()) + +(dnci bcpaf "branch coprocessor and false" (OPTIONAL_CP_INSN RELAXABLE) + "bcpaf $cccc,$pcrel17a2" + (+ MAJ_13 (f-rn 8) cccc (f-sub4 7) pcrel17a2) + (sequence () + (c-call "check_option_cp" pc) + (if (eq (and cccc cp_flag) 0) + (set-vliw-alignment-modified pc pcrel17a2))) + ()) + +(dnci synccp "synchronise with coprocessor" (OPTIONAL_CP_INSN) + "synccp" + (+ MAJ_7 (f-rn 0) (f-rm 2) (f-sub4 1)) + (sequence () + (c-call "check_option_cp" pc) + (unimp "synccp")) + ()) + +(dnci jsrv "jump to vliw subroutine " (OPTIONAL_CP_INSN) + "jsrv $rm" + (+ MAJ_1 (f-rn 8) rm (f-sub4 15)) + (sequence () + (cg-profile pc rm) + (c-call "check_option_cp" pc) + (core-vliw-switch + + ;; in core operating mode + (sequence () + (set lp (or (add pc 2) 1)) + (set-vliw-aliignment-modified-by-option pc rm) + (set-psw.om 1)) ;; to VLIW operation mode + + ;; in VLIW32 operating mode + (sequence () + (set lp (or (add pc 4) 1)) + (set pc (and rm (inv 1))) + (set-psw.om 0)) ;; to core operation mode + + ;; in VLIW64 operating mode + (sequence () + (set lp (or (add pc 8) 1)) + (set pc (and rm (inv 1))) + (set-psw.om 0)))) ;; to core operation mode + ((mep (unit u-use-gpr (in usereg rm)) + (unit u-exec) + (unit u-branch)))) + +(dnci bsrv "branch to vliw subroutine" (OPTIONAL_CP_INSN) + "bsrv $pcrel24a2" + (+ MAJ_13 (f-4 1) (f-sub4 11) pcrel24a2) + (sequence () + (cg-profile pc pcrel24a2) + (c-call "check_option_cp" pc) + (core-vliw-switch + + ;; in core operating mode + (sequence () + (set lp (or (add pc 4) 1)) + (set-vliw-aliignment-modified-by-option pc pcrel24a2) + (set-psw.om 1)) ;; to VLIW operation mode + + ;; in VLIW32 operating mode + (sequence () + (set lp (or (add pc 4) 1)) + (set pc (and pcrel24a2 (inv 1))) + (set-psw.om 0)) ;; to core operation mode + + ;; in VLIW64 operating mode + (sequence () + (set lp (or (add pc 8) 1)) + (set pc (and pcrel24a2 (inv 1))) + (set-psw.om 0)))) ;; to core operation mode + ((mep (unit u-exec) + (unit u-branch)))) + + +; An instruction for test instrumentation. +; Using a reserved opcode. + +(dnci sim-syscall "simulator system call" () + "--syscall--" + (+ MAJ_7 (f-4 1) callnum (f-8 0) (f-9 0) (f-10 0) (f-sub4 0)) + (c-call "do_syscall" pc callnum) + ()) + +(define-pmacro (dnri n major minor) + (dnci (.sym ri- n) "reserved instruction" () + "--reserved--" + (+ major rn rm (f-sub4 minor)) + (set pc (c-call USI "ri_exception" pc)) + ((mep (unit u-exec) + (unit u-branch))))) + +(dnri 0 MAJ_0 6) +(dnri 1 MAJ_1 10) +(dnri 2 MAJ_1 11) +(dnri 3 MAJ_2 5) +(dnri 4 MAJ_2 8) +(dnri 5 MAJ_2 9) +(dnri 6 MAJ_2 10) +(dnri 7 MAJ_2 11) +(dnri 8 MAJ_3 4) +(dnri 9 MAJ_3 5) +(dnri 10 MAJ_3 6) +(dnri 11 MAJ_3 7) +(dnri 12 MAJ_3 12) +(dnri 13 MAJ_3 13) +(dnri 14 MAJ_3 14) +(dnri 15 MAJ_3 15) +(dnri 17 MAJ_7 7) +(dnri 20 MAJ_7 14) +(dnri 21 MAJ_7 15) +(dnri 22 MAJ_12 7) +(dnri 23 MAJ_14 13) +;(dnri 24 MAJ_15 3) +(dnri 26 MAJ_15 8) +; begin core-specific reserved insns +; end core-specific reserved insns + + +; Macro instructions. + +(dnmi nop "nop" + () + "nop" + (emit mov (rn 0) (rm 0))) + +; Emit the 16 bit form of these 32 bit insns when the displacement is zero. +; +(dncmi sb16-0 "store byte (explicit 16 bit displacement of zero)" (NO-DIS) + "sb $rnc,$zero($rma)" + (emit sb rnc rma)) + +(dncmi sh16-0 "store half (explicit 16 bit displacement of zero)" (NO-DIS) + "sh $rns,$zero($rma)" + (emit sh rns rma)) + +(dncmi sw16-0 "store word (explicit 16 bit displacement of zero)" (NO-DIS) + "sw $rnl,$zero($rma)" + (emit sw rnl rma)) + +(dncmi lb16-0 "load byte (explicit 16 bit displacement of zero)" (NO-DIS) + "lb $rnc,$zero($rma)" + (emit lb rnc rma)) + +(dncmi lh16-0 "load half (explicit 16 bit displacement of zero)" (NO-DIS) + "lh $rns,$zero($rma)" + (emit lh rns rma)) + +(dncmi lw16-0 "load word (explicit 16 bit displacement of zero)" (NO-DIS) + "lw $rnl,$zero($rma)" + (emit lw rnl rma)) + +(dncmi lbu16-0 "load unsigned byte (explicit 16 bit displacement of zero)" (NO-DIS) + "lbu $rnuc,$zero($rma)" + (emit lbu rnuc rma)) + +(dncmi lhu16-0 "load unsigned half (explicit 16 bit displacement of zero)" (NO-DIS) + "lhu $rnus,$zero($rma)" + (emit lhu rnus rma)) + +(dncmi swcp16-0 "swcp (explicit 16-bit displacement of zero)" (OPTIONAL_CP_INSN NO-DIS) + "swcp $crn,$zero($rma)" + (emit swcp crn rma)) + +(dncmi lwcp16-0 "lwcp (explicit 16-bit displacement of zero)" (OPTIONAL_CP_INSN NO-DIS) + "lwcp $crn,$zero($rma)" + (emit lwcp crn rma)) + +(dncmi smcp16-0 "smcp (explicit 16-bit displacement of zero)" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN NO-DIS) + "smcp $crn64,$zero($rma)" + (emit smcp crn64 rma)) + +(dncmi lmcp16-0 "lmcp (explicit 16-bit displacement of zero)" (OPTIONAL_CP_INSN OPTIONAL_CP64_INSN NO-DIS) + "lmcp $crn64,$zero($rma)" + (emit lmcp crn64 rma)) -- cgit v1.2.3