4451 lines
124 KiB
Scheme
4451 lines
124 KiB
Scheme
; CRIS CPU description. -*- Scheme -*-
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;
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; Copyright 2003, 2004 Free Software Foundation, Inc.
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;
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; Contributed by Axis Communications AB.
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;
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; This file is part of the GNU Binutils.
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;
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; This program is free software; you can redistribute it and/or modify
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; it under the terms of the GNU General Public License as published by
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; the Free Software Foundation; either version 2 of the License, or
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; (at your option) any later version.
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;
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; This program is distributed in the hope that it will be useful,
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; but WITHOUT ANY WARRANTY; without even the implied warranty of
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; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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; GNU General Public License for more details.
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;
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; You should have received a copy of the GNU General Public License
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; along with this program; if not, write to the Free Software
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; Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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(include "simplify.inc")
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;;;;;;;;;;;;;;;;;; -pmacro (generic ones)
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(define-pmacro (.car2 l) (.apply (.pmacro (a b) a) l))
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(define-pmacro (.cadr2 l) (.apply (.pmacro (a b) b) l))
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(define-pmacro (SI-ext x) "How to sign-extend a dword to dword (a nop)" x)
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(define-pmacro (HI-ext x) "How to sign-extend a word to dword" (ext SI x))
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(define-pmacro (QI-ext x) "How to sign-extend a byte to dword" (ext SI x))
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(define-pmacro (SI-zext x) "How to zero-extend a dword to dword (a nop)" x)
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(define-pmacro (HI-zext x) "How to zero-extend a word to dword" (zext SI x))
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(define-pmacro (QI-zext x) "How to zero-extend a byte to dword" (zext SI x))
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(define-pmacro
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(define-pmacro-map x)
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"On a list ((x0 y0) .. (xN yN)), 0 <= m <= N, (define-pmacro xm ym)"
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(.splice
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begin
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(.unsplice
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(.map
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(.pmacro (l) (.apply (.pmacro (xm ym) (define-pmacro xm ym)) l)) x)))
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)
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;;;;;;;;;;;;;;;;;; -arch -isa -cpu -model
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(define-arch
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(name cris)
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(comment "Axis Communications CRIS")
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(default-alignment unaligned)
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(insn-lsb0? #t)
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(machs crisv0 crisv3 crisv8 crisv10 crisv32)
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(isas cris)
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)
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(define-isa
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(name cris)
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(base-insn-bitsize 16)
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(liw-insns 1)
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(parallel-insns 1)
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)
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(define-pmacro
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(define-cpu-cris x-suffix x-comment)
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"Define a CRIS CPU family"
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(define-cpu
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(name (.sym cris x-suffix f))
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(comment x-comment)
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(endian little)
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; CGEN-FIXME: Should be deduced from the default?
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(word-bitsize 32)
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(file-transform (.str x-suffix))
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)
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)
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; Useful when there's a need to iterate over all models.
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(define-pmacro (cris-cpu-model-numbers)
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"List of CRIS CPU model numbers (version register contents)"
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(0 3 8 10 32)
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)
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(define-pmacro (cris-cpu-models)
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"List of CRIS CPU model names"
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(.map (.pmacro (n) (.sym v n)) (cris-cpu-model-numbers))
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)
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; Mapping from model name to number.
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(define-pmacro-map
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(.map (.pmacro (n) ((.sym v n -number) n))
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(cris-cpu-model-numbers)))
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; FIXME: Rationalize these rules.
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; CPU names must be distinct from the architecture name and machine names.
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; The "b" suffix stands for "base" and is the convention.
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; The "f" suffix stands for "family" and is the convention.
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; We ignore the "b" convention, partly because v0 isn't really a "base", at
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; least not for some aspects of v32.
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(define-cpu-cris v0 "CRIS base family")
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(define-cpu-cris v3 "CRIS v3 family")
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(define-cpu-cris v8 "CRIS v8 family")
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(define-cpu-cris v10 "CRIS v10 family")
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(define-cpu-cris v32 "CRIS v32 family")
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(define-pmacro MACH-PRE-V32 (MACH crisv0,crisv3,crisv8,crisv10))
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(define-pmacro MACH-V3-UP (MACH crisv3,crisv8,crisv10,crisv32))
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(define-pmacro MACH-V32 (MACH crisv32))
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(define-pmacro MACH-PC MACH-PRE-V32)
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(define-pmacro MACH-ACR MACH-V32)
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(define-pmacro MACH-BRANCH-OFFSET-AT-INSN MACH-V32)
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(define-pmacro MACH-BRANCH-OFFSET-AFTER-INSN MACH-PRE-V32)
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(define-pmacro
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current-mach-is-v32
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"Whether the generated code is for V32. See comment at h-v32."
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(reg h-v32)
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)
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(define-pmacro (define-mach-cris x-suffix x-comment x-name)
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"Define a CRIS mach"
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(define-mach
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(name (.sym cris x-suffix))
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; They're all called "cris" in bfd. Watch out for breakages for some
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; uses.
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(bfd-name x-name)
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(comment x-comment)
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(cpu (.sym cris x-suffix f)))
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)
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(define-mach-cris v0 "Generic CRIS v0 CPU, ETRAX 1 .. 3" "cris")
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(define-mach-cris v3 "Generic CRIS v3 CPU, ETRAX 4" "cris")
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(define-mach-cris v8 "Generic CRIS v8 CPU, ETRAX 100" "cris")
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(define-mach-cris v10 "Generic CRIS v10 CPU, ETRAX 100 LX" "cris")
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(define-mach-cris v32 "Generic CRIS v32 CPU, ETRAX FS" "crisv32")
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(define-pmacro (define-model-simplecris x-name x-comment)
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"Define a simple CRIS model"
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(define-model
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(name (.sym cris x-name))
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(comment x-comment)
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(mach (.sym cris x-name))
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(unit u-exec "Execution Unit" () 1 1 () () () ())
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(unit u-mem "Memory Unit" () 1 1 () () () ())
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(unit u-const16 "Fetch 16-bit operand" () 1 1 () () () ())
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(unit u-const32 "Fetch 32-bit operand" () 1 1
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() () () ())
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; Used in special-case insn, for example arithmetic with PC destination.
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(unit u-stall "Stall unit" () 1 1 () () () ())
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(unit u-skip4 "Skip 4 bytes" () 1 1 () () () ())
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(unit u-multiply "Multiply Unit" () 1 1 ((MACH crisv10)) () () ())
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(unit u-movem "Movem Unit" () 1 1 ()
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((Rd INT -1))
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() ()))
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)
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(define-model-simplecris v0 "Model of CRIS v0, ETRAX 1 .. 3")
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(define-model-simplecris v3 "Model of CRIS v3, ETRAX 4")
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(define-model-simplecris v8 "Model of CRIS v8, ETRAX 100")
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(define-model-simplecris v10 "Model of CRIS v10, ETRAX 100 LX")
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; For some reason, we get an error:
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; Generating arch.h ...
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; ERROR: In procedure vector-ref:
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; ERROR: Wrong type argument in position 1: ()
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; if we include timings for machs that we don't generate sims for.
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; Last checked: CVS as of 2004-11-18.
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; CGEN-FIXME: Looks like another CGEN bug. When it's fixed (or when
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; generating sims for v0, v3 or v8), add 0, 3 and 8 to
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; simplecris-timing-models. But before that, simplecris-timing-x has to
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; be rewritten to work on a multiple-element-list, not assume a single
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; element. (A change which seems likely to depend on lexical scoping for
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; macros to be introduced: try the obvious implementation.)
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(define-pmacro simplecris-timing-models (10))
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(define-pmacro (simplecris-common-timing x-units)
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"Make timing models, using x-units for all simplecris-timing-models"
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; CGEN-FIXME: Another CGEN bug: the part (.unsplice (10)) will remain
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; unexpanded in (.sym crisv (.unsplice (10)) if we write this as
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; ((.splice (.sym crisv (.unsplice simplecris-timing-models))
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; (.unsplice x-units)))
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((.splice (.sym crisv (.apply (.pmacro (x) x) simplecris-timing-models))
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(.unsplice x-units)))
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)
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(define-pmacro-map
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(
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; Timing for memory instructions running on a simple cris model.
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((simplecris-mem-timing) (simplecris-common-timing
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((unit u-mem) (unit u-exec))))
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; Timing for movem instructions running on a simple cris model.
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((simplecris-movem-timing) (simplecris-common-timing
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((unit u-movem) (unit u-exec))))
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; Similar, for an 8- or 16-bit constant ([PC+]) operand.
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((simplecris-const-timing-HI)
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(simplecris-common-timing
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((unit u-const16) (unit u-exec))))
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; Similar, for a 32-bit constant ([PC+]) operand.
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((simplecris-const-timing-SI)
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(simplecris-common-timing
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((unit u-const32) (unit u-exec))))
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; Similar, no particular operand.
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((simplecris-timing) (simplecris-common-timing
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((unit u-exec)))))
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)
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(define-model
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(name crisv32)
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(comment "Model of CRISv32")
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(mach crisv32)
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(state
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; Bitmask of h-gr register (0..15) and h-sr register (17..31)
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; modified by 3rd previous insn, updated by the u-exec unit.
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; Because there's no need to mark writes to special registers BZ and
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; WZ, bit 16 is for jump mark and bit 20 for memory-write mark.
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(prev-prev-prev-modf-regs UINT)
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; Ditto for the 2nd previous insn.
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(prev-prev-modf-regs UINT)
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; Ditto for the previous insn.
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(prev-modf-regs UINT)
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; Bit-mask for regs modified by the current insn, propagated to
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; prev-modf-regs.
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(modf-regs UINT)
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; Registers loaded by movem are not forwarded to the execution
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; stage, so we need to insert stall-cycles for ordinary insns
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; accessing such registers. In addition to the *modf-regs
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; above, these are set to tell *ordinary* insns which registers
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; are inaccessible.
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(prev-prev-prev-movem-dest-regs UINT)
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; Ditto for the 2nd previous insn.
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(prev-prev-movem-dest-regs UINT)
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; Ditto for the previous insn.
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(prev-movem-dest-regs UINT)
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; Bit-mask for regs modified by the current insn, propagated to
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; prev-movem-dest-regs.
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(movem-dest-regs UINT))
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; It seems this pipeline description isn't used at all; this is just
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; for show.
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; Noteworthy is the placement of the memory stage before the execute stage.
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(pipeline all "" () ((fetch) (decode) (memory) (execute) (writeback)))
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; Units that contribute only a constant pipeline delay are not included.
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(unit u-mem "Memory Unit" () 1 1 ()
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((Rs INT -1))
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() ())
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; Artificial units for read/write-related hazard accounting.
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(unit u-mem-r "Memory Unit Read" () 1 1 () () () ())
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(unit u-mem-w "Memory Unit Write" () 1 1 () () () ())
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(unit u-movem-rtom "Movem-to-memory Unit" () 1 1 ()
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((Rs INT -1) (Rd INT -1))
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() ())
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(unit u-movem-mtor "Movem-to-register Unit" () 1 1 ()
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((Rs INT -1) (Rd INT -1))
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() ())
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(unit u-multiply "Multiply Unit" () 1 1 ()
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((Rs INT -1) (Rd INT -1))
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() ())
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(unit u-branch "Branch Unit" () 1 1 ()
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()
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() ())
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(unit u-jump-r "Jump-to-register Unit" () 1 1 ()
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((Rs INT -1))
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() ())
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(unit u-jump-sr "Jump-to-special-register Unit" () 1 1 ()
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((Ps INT -1))
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() ())
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(unit u-jump "JAS/BAS Unit, saving PC" () 1 1 ()
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()
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((Pd INT -1)) ())
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; To keep track of PC; not really functional units.
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(unit u-const16 "Fetch 16-bit operand" () 1 1 () () () ())
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(unit u-const32 "Fetch 32-bit operand" () 1 1 () () () ())
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(unit u-skip4 "Skip 4 bytes" () 1 1 () () () ())
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; For v32, we need to keep track of inputs (for movem destination
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; cycle penalties) and output (for e.g. memory source and jump
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; source cycle penalties).
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(unit u-exec "Execution Unit" () 1 1 ()
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((Rd INT -1) (Rs INT -1))
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((Rd INT -1))
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())
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; Special case of u-exec for movem: don't treat Rd as an incoming
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; parameter.
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(unit u-exec-movem "Execution Unit" () 1 1 ()
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((Rs INT -1))
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((Rd INT -1))
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())
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; Special case of u-exec when the destination is a special
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; register.
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(unit u-exec-to-sr "Execution Unit" () 1 1 ()
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((Rs INT -1))
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((Pd INT -1)) ())
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)
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(define-pmacro (crisv32-timing-destreg d)
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"Timing for instructions running on a crisv32 model"
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((crisv32
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(.splice unit u-exec (.unsplice d))))
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)
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(define-pmacro (crisv32-timing) (crisv32-timing-destreg ()))
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(define-pmacro (cris-timing-Rd-sfield)
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(crisv32-timing-destreg ((out Rd Rd-sfield)))
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)
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(define-pmacro (crisv32-timing-c-HI)
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((crisv32 (unit u-const16) (unit u-exec)))
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)
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(define-pmacro-map
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((crisv32-timing-c-QI crisv32-timing-c-HI)
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((crisv32-timing-c-SI) ((crisv32 (unit u-const32) (unit u-exec))))
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((crisv32-timing-c-sr-SI) ((crisv32 (unit u-const32) (unit u-exec-to-sr))))
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((crisv32-reg-sr-timing) ((crisv32 (unit u-exec-to-sr))))
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((crisv32-mem-sr-timing)
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((crisv32 (unit u-mem) (unit u-mem-r) (unit u-exec-to-sr))))
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((crisv32-mem-timing) ((crisv32 (unit u-mem) (unit u-mem-r) (unit u-exec))))
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((crisv32-mem-write-timing) ((crisv32 (unit u-mem) (unit u-exec) (unit u-mem-w)))))
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)
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(define-pmacro-map
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(
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; Timing for instructions using memory operands.
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((cris-mem-timing) (.splice (.unsplice (simplecris-mem-timing))
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(.unsplice (crisv32-mem-timing))))
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; Timing for instructions using memory operands.
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((cris-mem-write-timing) (.splice
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(.unsplice (simplecris-mem-timing))
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(.unsplice (crisv32-mem-write-timing))))
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; Timing for moves from general register to special register.
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((cris-reg-sr-timing) (.splice (.unsplice (simplecris-timing))
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(.unsplice (crisv32-reg-sr-timing))))
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; Timing for moves from memory to special register.
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((cris-mem-sr-timing) (.splice (.unsplice (simplecris-mem-timing))
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(.unsplice (crisv32-mem-sr-timing))))
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; Timing for non-mul, non-memory, non-special-register, 16-bit instructions.
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((cris-timing) (.splice (.unsplice (simplecris-timing))
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(.unsplice (crisv32-timing))))
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; Timing for instructions with 8- or 16-bit constant operand ([PC+]).
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((cris-timing-const-HI) (.splice
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(.unsplice (simplecris-const-timing-HI))
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(.unsplice (crisv32-timing-c-HI))))
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; Timing for instructions with a 32-bit constant operand ([PC+]).
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((cris-timing-const-SI) (.splice
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(.unsplice (simplecris-const-timing-SI))
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(.unsplice (crisv32-timing-c-SI))))
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; Like cris-timing-const-SI, but destination special register.
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((cris-timing-const-sr-SI) (.splice
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(.unsplice (simplecris-const-timing-SI))
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(.unsplice (crisv32-timing-c-sr-SI))))
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; Like cris-timing-const-HI, but destination special register.
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((cris-timing-const-sr-HI) (.splice
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(.unsplice (simplecris-const-timing-HI))
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(.unsplice (crisv32-timing-c-sr-SI)))))
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)
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(define-pmacro cris-timing-const-QI cris-timing-const-HI)
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(define-pmacro cris-timing-const-sr-QI cris-timing-const-sr-HI)
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(define-pmacro (simplecris-common-specregs)
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"The common special registers in pre-v32 models."
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((QI 0) (QI 1) (HI 4) (HI 5)
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(SI 8) (SI 9) (SI 10) (SI 11) (SI 12) (SI 13))
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)
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(define-pmacro (cris-implemented-specregs-v0)
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"Special registers in v0 and their sizes"
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(.splice (.unsplice (simplecris-common-specregs)) (HI 6) (HI 7))
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)
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(define-pmacro
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cris-implemented-specregs-const-v0
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cris-implemented-specregs-v0
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)
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(define-pmacro (cris-implemented-specregs-v3)
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"Special registers in v3 and their sizes"
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(.splice (.unsplice (cris-implemented-specregs-v0)) (SI 14))
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)
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(define-pmacro
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cris-implemented-specregs-const-v3
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cris-implemented-specregs-v3
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)
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(define-pmacro (cris-implemented-specregs-v8)
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"Special registers in v8 and their sizes"
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(.splice (.unsplice (simplecris-common-specregs)) (SI 14))
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)
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(define-pmacro
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cris-implemented-specregs-const-v8
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cris-implemented-specregs-v8
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)
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(define-pmacro (cris-implemented-specregs-v10)
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"Special registers in v10 and their sizes"
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(.splice (.unsplice (simplecris-common-specregs)) (SI 7) (SI 14) (SI 15))
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)
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(define-pmacro
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cris-implemented-specregs-const-v10
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cris-implemented-specregs-v10
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)
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(define-pmacro (cris-implemented-specregs-v32)
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"Special registers in v32 and their sizes"
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((QI 0) (QI 1) (QI 2) (QI 3) (HI 4)
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(SI 5) (SI 6) (SI 7) (SI 8) (SI 9)
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(SI 10) (SI 11) (SI 12) (SI 13) (SI 14) (SI 15))
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)
|
|
; For v32, all special register operations on constants (that is,
|
|
; move) take 32-bit operands, not the real size of the register, as in
|
|
; other move operations.
|
|
(define-pmacro (cris-implemented-specregs-const-v32)
|
|
(.map (.pmacro (regno) (SI regno)) (.iota 16))
|
|
)
|
|
|
|
(define-pmacro cris-swap-codes
|
|
"CRIS Swap codes in numeric order (no zero)"
|
|
( r b br w wr wb wbr
|
|
n nr nb nbr nw nwr nwb nwbr)
|
|
)
|
|
|
|
(define-pmacro cris-flagnames
|
|
"CRIS flag field values, dest and src fields concatenated"
|
|
(c v z n x i u p) ; ... b m for pre-v32
|
|
)
|
|
|
|
(define-pmacro-map
|
|
; Bitnumber for each respective flag.
|
|
(.map (.pmacro (x num) ((.sym x -bitnumber) num))
|
|
cris-flagnames (.iota 8))
|
|
)
|
|
|
|
; I give up. Here's a perl-script to get the values I want for this macro
|
|
; (not working along list principles, though). You can run this region.
|
|
; perl -e '$x = "cvznxiup"; for ($i = 0; $i < 256; $i++) { $s = "";
|
|
; for ($j = 0; $j < 8; $j++) { if ($i & (1 << $j)) {
|
|
; $s .= substr ($x, $j, 1);}}
|
|
; printf ("%s%s", $s eq "" ? "_" : $s, (($i + 1) % 8) == 0 ? "\n " : " "); }'
|
|
(define-pmacro cris-flag-combinations
|
|
"Combinations of flags in numeric order"
|
|
(_ c v cv z cz vz cvz
|
|
n cn vn cvn zn czn vzn cvzn
|
|
x cx vx cvx zx czx vzx cvzx
|
|
nx cnx vnx cvnx znx cznx vznx cvznx
|
|
i ci vi cvi zi czi vzi cvzi
|
|
ni cni vni cvni zni czni vzni cvzni
|
|
xi cxi vxi cvxi zxi czxi vzxi cvzxi
|
|
nxi cnxi vnxi cvnxi znxi cznxi vznxi cvznxi
|
|
u cu vu cvu zu czu vzu cvzu
|
|
nu cnu vnu cvnu znu cznu vznu cvznu
|
|
xu cxu vxu cvxu zxu czxu vzxu cvzxu
|
|
nxu cnxu vnxu cvnxu znxu cznxu vznxu cvznxu
|
|
iu ciu viu cviu ziu cziu vziu cvziu
|
|
niu cniu vniu cvniu zniu czniu vzniu cvzniu
|
|
xiu cxiu vxiu cvxiu zxiu czxiu vzxiu cvzxiu
|
|
nxiu cnxiu vnxiu cvnxiu znxiu cznxiu vznxiu cvznxiu
|
|
p cp vp cvp zp czp vzp cvzp
|
|
np cnp vnp cvnp znp cznp vznp cvznp
|
|
xp cxp vxp cvxp zxp czxp vzxp cvzxp
|
|
nxp cnxp vnxp cvnxp znxp cznxp vznxp cvznxp
|
|
ip cip vip cvip zip czip vzip cvzip
|
|
nip cnip vnip cvnip znip cznip vznip cvznip
|
|
xip cxip vxip cvxip zxip czxip vzxip cvzxip
|
|
nxip cnxip vnxip cvnxip znxip cznxip vznxip cvznxip
|
|
up cup vup cvup zup czup vzup cvzup
|
|
nup cnup vnup cvnup znup cznup vznup cvznup
|
|
xup cxup vxup cvxup zxup czxup vzxup cvzxup
|
|
nxup cnxup vnxup cvnxup znxup cznxup vznxup cvznxup
|
|
iup ciup viup cviup ziup cziup vziup cvziup
|
|
niup cniup vniup cvniup zniup czniup vzniup cvzniup
|
|
xiup cxiup vxiup cvxiup zxiup czxiup vzxiup cvzxiup
|
|
nxiup cnxiup vnxiup cvnxiup znxiup cznxiup vznxiup cvznxiup
|
|
)
|
|
)
|
|
|
|
(define-pmacro cc-condition (not cbit))
|
|
(define-pmacro cs-condition cbit)
|
|
(define-pmacro ne-condition (not zbit))
|
|
(define-pmacro eq-condition zbit)
|
|
(define-pmacro vc-condition (not vbit))
|
|
(define-pmacro vs-condition vbit)
|
|
(define-pmacro pl-condition (not nbit))
|
|
(define-pmacro mi-condition nbit)
|
|
(define-pmacro ls-condition (or cbit zbit))
|
|
(define-pmacro hi-condition (not (or cbit zbit)))
|
|
(define-pmacro ge-condition (not (xor vbit nbit)))
|
|
(define-pmacro lt-condition (xor vbit nbit))
|
|
(define-pmacro gt-condition (not (or (xor vbit nbit) zbit)))
|
|
(define-pmacro le-condition (or (xor vbit nbit) zbit))
|
|
(define-pmacro a-condition 1)
|
|
|
|
; FIXME: define this properly for v10 and pre-v10.
|
|
(define-pmacro wf-condition pbit)
|
|
|
|
(define-pmacro (cris-condition condno)
|
|
"Return condition state for condition number CONDNO"
|
|
(sequence
|
|
BI
|
|
((SI tmpcond) (BI condres))
|
|
(set tmpcond condno)
|
|
(.splice
|
|
cond
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro
|
|
(condn condc)
|
|
((eq tmpcond condn) (set condres (.sym condc -condition))))
|
|
(.iota 16)
|
|
cris-condition-codes)))
|
|
condres)
|
|
)
|
|
|
|
;;;;;;;;;;;;;;;;;; -keyword
|
|
|
|
; General registers.
|
|
(define-pmacro (cris-general-gregs)
|
|
(.splice (SP 14) (.unsplice (.map (.pmacro (n) ((.sym R n) n)) (.iota 15))))
|
|
)
|
|
|
|
; Can't keep more than one gr-names definition at the same time;
|
|
; generated enum declarations in sim/cris/cris-desc.h will collide.
|
|
; FIXME: (include "different-mach-parts")
|
|
|
|
(define-keyword
|
|
(name gr-names-pcreg)
|
|
(attrs MACH-PC)
|
|
(print-name h-gr-real-pc)
|
|
; Put PC first so it is preferred over r15.
|
|
(.splice values (PC 15) (.unsplice (cris-general-gregs)))
|
|
)
|
|
|
|
(define-keyword
|
|
(name gr-names-acr)
|
|
(attrs MACH-ACR)
|
|
; The print-name directive will control the enum prefix. With the
|
|
; arguably more appropriate h-gr-v32 or h-gr-acr, we'd get names like
|
|
; H_GR_ACR_R0 instead of H_GR_R0. Since we have to choose something for
|
|
; unprefixed names, we use the CRISv32 names. FIXME: All users should
|
|
; change to use H_GR_V32_R0 (etc.), then change this to h-gr-v32.
|
|
(print-name h-gr)
|
|
; Put ACR first so it is preferred over r15.
|
|
(.splice values (ACR 15) (.unsplice (cris-general-gregs)))
|
|
)
|
|
|
|
(define-keyword
|
|
(name gr-names-v32)
|
|
(attrs MACH-V32)
|
|
; In preparation for implementing the FIXME above.
|
|
(print-name h-gr-v32)
|
|
; Put ACR first so it is preferred over r15.
|
|
(.splice values (ACR 15) (.unsplice (cris-general-gregs)))
|
|
)
|
|
|
|
; Special registers with names common to all.
|
|
(define-pmacro (cris-general-pregs)
|
|
(.splice
|
|
(VR 1)
|
|
(SRP 11)
|
|
(.unsplice (.map (.pmacro (n) ((.sym P n) n)) (.iota 15))))
|
|
)
|
|
|
|
(define-keyword
|
|
(name p-names-v10)
|
|
(attrs MACH-PRE-V32)
|
|
(print-name h-sr-pre-v32)
|
|
(.splice
|
|
values
|
|
(CCR 5)
|
|
(MOF 7)
|
|
(IBR 9)
|
|
(IRP 10)
|
|
(BAR 12)
|
|
(DCCR 13)
|
|
(BRP 14)
|
|
(USP 15)
|
|
(.unsplice (cris-general-pregs)))
|
|
)
|
|
|
|
(define-keyword
|
|
(name p-names-v32)
|
|
(attrs MACH-V32)
|
|
; See comment for gr-names-acr.
|
|
(print-name h-sr)
|
|
(.splice
|
|
values
|
|
(BZ 0)
|
|
(PID 2)
|
|
(SRS 3)
|
|
(WZ 4)
|
|
(EXS 5)
|
|
(EDA 6)
|
|
(MOF 7)
|
|
(DZ 8)
|
|
(EBP 9)
|
|
(ERP 10)
|
|
(NRP 12)
|
|
(CCS 13)
|
|
(USP 14)
|
|
(SPC 15)
|
|
(.unsplice (cris-general-pregs)))
|
|
)
|
|
|
|
; Similarly as for h-gr-v32, in preparation.
|
|
(define-keyword
|
|
(name p-names-v32-x)
|
|
(attrs MACH-V32)
|
|
; See comment for gr-names-acr.
|
|
(print-name h-sr-v32)
|
|
(.splice
|
|
values
|
|
(BZ 0)
|
|
(PID 2)
|
|
(SRS 3)
|
|
(WZ 4)
|
|
(EXS 5)
|
|
(EDA 6)
|
|
(MOF 7)
|
|
(DZ 8)
|
|
(EBP 9)
|
|
(ERP 10)
|
|
(NRP 12)
|
|
(CCS 13)
|
|
(USP 14)
|
|
(SPC 15)
|
|
(.unsplice (cris-general-pregs)))
|
|
)
|
|
|
|
(define-pmacro p0 (reg h-sr 0))
|
|
(define-pmacro vr (reg h-sr 1))
|
|
(define-pmacro pid (reg h-sr 2))
|
|
(define-pmacro srs (reg h-sr 3))
|
|
(define-pmacro p4 (reg h-sr 4))
|
|
(define-pmacro ccr (reg h-sr 5))
|
|
(define-pmacro mof (reg h-sr 7))
|
|
(define-pmacro p8 (reg h-sr 8))
|
|
(define-pmacro ibr (reg h-sr 9))
|
|
(define-pmacro ebp (reg h-sr 9))
|
|
(define-pmacro erp (reg h-sr 10))
|
|
(define-pmacro srp (reg h-sr 11))
|
|
(define-pmacro ccs (reg h-sr 13))
|
|
(define-pmacro dccr (reg h-sr 13))
|
|
(define-pmacro usp (reg h-sr 14))
|
|
(define-pmacro spc (reg h-sr 15))
|
|
|
|
(define-pmacro sp (reg h-gr 14))
|
|
(define-pmacro acr (reg h-gr 15))
|
|
|
|
(define-pmacro cris-condition-codes
|
|
"CRIS condition codes in numeric order"
|
|
(cc cs ne eq vc vs pl mi ls hi ge lt gt le a wf)
|
|
)
|
|
|
|
; No use having different lists; this is the only CC that
|
|
; differs between v10 and v32, and mostly in the name.
|
|
(define-pmacro sb wf)
|
|
|
|
|
|
;;;;;;;;;;;;;;;;;; -hardware
|
|
|
|
;; Various constant generators.
|
|
|
|
(define-hardware
|
|
(name h-inc)
|
|
(comment "autoincrement-bit syntax specifier")
|
|
(type immediate (UINT 1))
|
|
(values keyword "" (("" 0) ("+" 1)))
|
|
)
|
|
|
|
(define-hardware
|
|
(name h-ccode)
|
|
(comment "Condition code specifier")
|
|
(type immediate (UINT 4))
|
|
(values keyword ""
|
|
(.map (.pmacro (x y) ((.str x) y))
|
|
cris-condition-codes (.iota 16)))
|
|
)
|
|
|
|
(define-hardware
|
|
(name h-swap)
|
|
(comment "Swap option specifier")
|
|
(type immediate (UINT 4))
|
|
(values
|
|
keyword ""
|
|
(.splice
|
|
(" " 0)
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro (x y) ((.str x) y)) cris-swap-codes (.iota 15 1)))))
|
|
)
|
|
|
|
(define-hardware
|
|
(name h-flagbits)
|
|
(comment "Flag bits specifier")
|
|
(type immediate (UINT 8))
|
|
(values
|
|
keyword ""
|
|
(.map (.pmacro (x y) ((.str x) y)) cris-flag-combinations (.iota 256)))
|
|
)
|
|
|
|
; Apparently, the semantic-name isn't used for accessors, so external
|
|
; users like the sim glue and SID sees the -v32 and -pre-v32 munged names.
|
|
; Defining "dispatchers"; virtual registers whose getter and setter works
|
|
; on the "real" mach variants, seems to help. CGEN-FIXME: Make
|
|
; semantic-name set the generated names.
|
|
(define-pmacro (cris-d-hwreg x-name x-type)
|
|
(define-hardware
|
|
(name x-name)
|
|
(comment (.str "Dispatcher for " x-name))
|
|
(attrs VIRTUAL)
|
|
(type register x-type)
|
|
(get () (reg (.sym x-name -x)))
|
|
(set (val) (set (reg (.sym x-name -x)) val)))
|
|
)
|
|
(define-pmacro (cris-d-hwregf-a x-name x-type x-n x-attrs)
|
|
(define-hardware
|
|
(name x-name)
|
|
(comment (.str "Dispatcher for " x-name))
|
|
(.splice attrs VIRTUAL (.unsplice x-attrs))
|
|
(type register x-type (x-n))
|
|
(get (index) (reg (.sym x-name -x) index))
|
|
(set (index val) (set-quiet (reg (.sym x-name -x) index) val)))
|
|
)
|
|
(define-pmacro (cris-d-hwregf x-name x-type x-n)
|
|
(cris-d-hwregf-a x-name x-type x-n ())
|
|
)
|
|
(define-pmacro (cris-d-hwregf-p x-name x-type x-n)
|
|
(cris-d-hwregf-a x-name x-type x-n (PROFILE))
|
|
)
|
|
|
|
; At first glance we could use (eq-attr (current-mach) ...) for
|
|
; everything, but that seems sometimes (always?) to yield false. For
|
|
; ifields, it causes noncompilable C-code. For the insn semantics code,
|
|
; it causes tests movei.ms and mulv32.ms to fail, apparently because the
|
|
; current-mach-is-v32 usage in flags setting is miscompiled as 0 (or
|
|
; rather, misgenerated). Instead we use different definitions of a
|
|
; MACH-tagged virtual register yielding a constant, together with a
|
|
; pmacro. CGEN-FIXME: If eq-attr is someday fixed, we could just remove
|
|
; these h-v32 virtual register definitions and change the pmacro
|
|
; definition for current-mach-is-v32.
|
|
(define-hardware
|
|
(semantic-name h-v32)
|
|
(name h-v32-v32)
|
|
(attrs MACH-V32 VIRTUAL)
|
|
(type register BI)
|
|
(get () (const BI 1))
|
|
(set (val) (error "Can't set h-v32"))
|
|
)
|
|
(define-hardware
|
|
(semantic-name h-v32)
|
|
(name h-v32-non-v32)
|
|
(attrs MACH-PRE-V32 VIRTUAL)
|
|
(type register BI)
|
|
(get () (const BI 0))
|
|
(set (val) (error "Can't set h-v32"))
|
|
)
|
|
|
|
;; "Real" hardware.
|
|
|
|
(define-hardware
|
|
(name h-pc)
|
|
(comment "program counter")
|
|
(attrs PC PROFILE)
|
|
(type pc)
|
|
; There's no bit 0 in PC, so just ignore it when jumping etc.
|
|
(set (val) (set (raw-reg h-pc) (and val (inv 1))))
|
|
)
|
|
|
|
; Note that setting register 15 isn't handled here, but in each insn, so
|
|
; the proper "jump" attributes and other special stuff for speedy
|
|
; execution can be present.
|
|
(cris-d-hwregf-p h-gr SI 16)
|
|
(define-hardware
|
|
(semantic-name h-gr-x)
|
|
(name h-gr-pc)
|
|
(attrs MACH-PC VIRTUAL)
|
|
(comment "General purpose registers, aborting on PC access")
|
|
(type register SI (16))
|
|
(indices extern-keyword gr-names-pcreg)
|
|
(get
|
|
(index)
|
|
(if SI (eq index 15)
|
|
(error SI "General register read of PC is not implemented.")
|
|
(reg SI h-gr-real-pc index)))
|
|
(set
|
|
(index val)
|
|
(sequence
|
|
()
|
|
(if (eq index 15)
|
|
(error "General register write to PC is not implemented."))
|
|
(set (reg SI h-gr-real-pc index) val)))
|
|
)
|
|
(define-hardware
|
|
(name h-gr-real-pc)
|
|
(attrs MACH-PC)
|
|
(comment "General purpose registers")
|
|
(type register SI (16))
|
|
(indices extern-keyword gr-names-pcreg)
|
|
)
|
|
|
|
; We have to use a virtual register trick to get the "raw", unaccounted
|
|
; contents of the global register; the raw-reg RTX only works for
|
|
; non-virtual register files.
|
|
(define-hardware
|
|
(semantic-name h-raw-gr)
|
|
(name h-raw-gr-pc)
|
|
(attrs MACH-PC VIRTUAL)
|
|
(comment "Unaccounted version of general purpose registers")
|
|
(type register SI (16))
|
|
(get (index) (raw-reg h-gr-real-pc index))
|
|
(set (index val) (set-quiet (raw-reg h-gr-real-pc index) val))
|
|
)
|
|
(define-hardware
|
|
(semantic-name h-gr-x)
|
|
(name h-gr-acr)
|
|
(attrs MACH-ACR)
|
|
(comment "General purpose registers")
|
|
(type register SI (16))
|
|
(indices extern-keyword gr-names-acr)
|
|
)
|
|
(define-hardware
|
|
(semantic-name h-raw-gr)
|
|
(name h-raw-gr-acr)
|
|
(attrs MACH-ACR VIRTUAL)
|
|
(comment "Unaccounted version of general purpose registers")
|
|
(type register SI (16))
|
|
(get (index) (raw-reg h-gr-x index))
|
|
(set (index val) (set-quiet (raw-reg h-gr-x index) val))
|
|
)
|
|
|
|
; FIXME: get and set semantics? Unknown how to split semantics best; with
|
|
; get/set semantics or within the insn specification. Doing the former for
|
|
; now. Should use different names for pre-v10.
|
|
; FIXME: No dccr for v0 and v3. Different high flag bits.
|
|
(cris-d-hwregf-p h-sr SI 16)
|
|
(define-pmacro
|
|
(cris-h-sr machver)
|
|
(define-hardware
|
|
(semantic-name h-sr-x)
|
|
(name (.sym h-sr-v machver))
|
|
(attrs (MACH (.sym crisv machver)))
|
|
(comment (.str "Special registers for v" machver))
|
|
(type register SI (16))
|
|
(indices extern-keyword p-names-v10)
|
|
(get
|
|
(index)
|
|
(cond
|
|
SI
|
|
((orif (orif (eq index (regno p0)) (eq index (regno p4)))
|
|
(eq index (regno p8))) 0)
|
|
((eq index (regno vr)) machver)
|
|
((orif (eq index (regno ccr))
|
|
(eq index (regno dccr)))
|
|
; Return "P U I X N Z V C" for the low 8 bits.
|
|
; FIXME: More bits.
|
|
(or SI
|
|
(and SI (raw-reg SI h-sr-x (regno ccr)) #xffffff00)
|
|
(or
|
|
(zext SI (reg BI h-cbit))
|
|
(or
|
|
(sll (zext SI (reg BI h-vbit)) 1)
|
|
(or
|
|
(sll (zext SI (reg BI h-zbit)) 2)
|
|
(or
|
|
(sll (zext SI (reg BI h-nbit)) 3)
|
|
(or
|
|
(sll (zext SI (reg BI h-xbit)) 4)
|
|
(or
|
|
(sll (zext SI (reg BI h-ibit)) 5)
|
|
(or
|
|
(sll (zext SI (reg BI h-ubit)) 6)
|
|
(or
|
|
(sll (zext SI (reg BI h-pbit)) 7)
|
|
0))))))))))
|
|
(else (raw-reg SI h-sr-x index))))
|
|
(set
|
|
(index val)
|
|
(cond
|
|
((orif (orif (eq index (regno p0)) (eq index (regno p4)))
|
|
(orif (eq index (regno p8)) (eq index (regno vr))))
|
|
(nop))
|
|
((orif (eq index (regno ccr)) (eq index (regno dccr)))
|
|
(sequence
|
|
()
|
|
(set (reg BI h-cbit) (if BI (ne SI (and val (sll 1 0)) 0) 1 0))
|
|
(set (reg BI h-vbit) (if BI (ne SI (and val (sll 1 1)) 0) 1 0))
|
|
(set (reg BI h-zbit) (if BI (ne SI (and val (sll 1 2)) 0) 1 0))
|
|
(set (reg BI h-nbit) (if BI (ne SI (and val (sll 1 3)) 0) 1 0))
|
|
(set (reg BI h-xbit) (if BI (ne SI (and val (sll 1 4)) 0) 1 0))
|
|
(set (reg BI h-ibit) (if BI (ne SI (and val (sll 1 5)) 0) 1 0))
|
|
(set (reg BI h-ubit) (if BI (ne SI (and val (sll 1 6)) 0) 1 0))
|
|
(set (reg BI h-pbit) (if BI (ne SI (and val (sll 1 7)) 0) 1 0))
|
|
(set-quiet (raw-reg SI h-sr-x (regno ccr)) val)
|
|
(set-quiet (raw-reg SI h-sr-x (regno dccr)) val)))
|
|
(else (set-quiet (raw-reg SI h-sr-x index) val)))))
|
|
)
|
|
|
|
(cris-h-sr 0)
|
|
(cris-h-sr 3)
|
|
(cris-h-sr 8)
|
|
(cris-h-sr 10)
|
|
|
|
(define-hardware
|
|
(semantic-name h-sr-x)
|
|
(name h-sr-v32)
|
|
(attrs MACH-V32)
|
|
(comment "Special registers for v32")
|
|
(type register SI (16))
|
|
(indices extern-keyword p-names-v32)
|
|
|
|
(get
|
|
(index)
|
|
(cond
|
|
SI
|
|
((orif (orif (eq index (regno p0)) (eq index (regno p4)))
|
|
(eq index (regno p8))) 0)
|
|
((eq index (regno vr)) 32)
|
|
((eq index (regno ccs))
|
|
; Return "S R P U I X N Z V C" for the low 10 bits.
|
|
(or SI
|
|
(and SI (raw-reg SI h-sr-x (regno ccs)) #x3ffffc00)
|
|
(or
|
|
(zext SI (reg BI h-cbit))
|
|
(or
|
|
(sll (zext SI (reg BI h-vbit)) 1)
|
|
(or
|
|
(sll (zext SI (reg BI h-zbit)) 2)
|
|
(or
|
|
(sll (zext SI (reg BI h-nbit)) 3)
|
|
(or
|
|
(sll (zext SI (reg BI h-xbit)) 4)
|
|
(or
|
|
(sll (zext SI (reg BI h-ibit)) 5)
|
|
(or
|
|
(sll (zext SI (reg BI h-ubit)) 6)
|
|
(or
|
|
(sll (zext SI (reg BI h-pbit)) 7)
|
|
(or
|
|
(sll (zext SI (reg BI h-rbit)) 8)
|
|
(or
|
|
(sll (zext SI (reg BI h-sbit)) 9)
|
|
(or
|
|
(sll (zext SI (reg BI h-mbit)) 30)
|
|
(or
|
|
(sll (zext SI (reg BI h-qbit)) 31)
|
|
0))))))))))))))
|
|
((eq index (regno usp))
|
|
; In user mode, return general stack pointer.
|
|
(if BI (reg BI h-ubit)
|
|
(raw-reg SI h-gr-x (regno sp))
|
|
(raw-reg SI h-sr-x (regno usp))))
|
|
(else (raw-reg SI h-sr-x index))))
|
|
|
|
(set
|
|
(index val)
|
|
(cond
|
|
((orif (orif (eq index (regno p0)) (eq index (regno p4)))
|
|
(orif (eq index (regno p8)) (eq index (regno vr))))
|
|
(nop))
|
|
((eq index (regno ccs))
|
|
(sequence
|
|
()
|
|
; Protected bits are handled as such in the respective setter function.
|
|
(set (reg BI h-cbit) (if BI (ne SI (and val (sll 1 0)) 0) 1 0))
|
|
(set (reg BI h-vbit) (if BI (ne SI (and val (sll 1 1)) 0) 1 0))
|
|
(set (reg BI h-zbit) (if BI (ne SI (and val (sll 1 2)) 0) 1 0))
|
|
(set (reg BI h-nbit) (if BI (ne SI (and val (sll 1 3)) 0) 1 0))
|
|
(set (reg BI h-xbit) (if BI (ne SI (and val (sll 1 4)) 0) 1 0))
|
|
(set (reg BI h-ibit) (if BI (ne SI (and val (sll 1 5)) 0) 1 0))
|
|
(set (reg BI h-sbit) (if BI (ne SI (and val (sll 1 9)) 0) 1 0))
|
|
(set (reg BI h-mbit) (if BI (ne SI (and val (sll 1 30)) 0) 1 0))
|
|
(set (reg BI h-pbit) (if BI (ne SI (and val (sll 1 7)) 0) 1 0))
|
|
(set (reg BI h-rbit) (if BI (ne SI (and val (sll 1 8)) 0) 1 0))
|
|
(set (reg BI h-qbit) (if BI (ne SI (and val (sll 1 31)) 0) 1 0))
|
|
; Set the U bit last, so the setter functions for the other bits
|
|
; don't see it as set from this operation. It is not cleared from
|
|
; this operation, so we don't have to handle that; it's only
|
|
; cleared "manually" from within simulator-specific context-switch
|
|
; machinery.
|
|
(set (reg BI h-ubit) (if BI (ne SI (and val (sll 1 6)) 0) 1 0))
|
|
(set-quiet (raw-reg SI h-sr-x index) val)))
|
|
((eq index (regno usp))
|
|
; In user mode, set general register 14 too, whenever setting USP.
|
|
(sequence
|
|
()
|
|
(if (reg BI h-ubit) (set (raw-reg SI h-gr-x (regno sp)) val))
|
|
(set (raw-reg SI h-sr-x (regno usp)) val)))
|
|
((eq index (regno srs))
|
|
(if (not (reg BI h-ubit)) (set (raw-reg h-sr-x (regno srs)) val)))
|
|
((eq index (regno ebp))
|
|
(if (not (reg BI h-ubit)) (set (raw-reg h-sr-x (regno ebp)) val)))
|
|
((eq index (regno pid))
|
|
(if (not (reg BI h-ubit))
|
|
(sequence
|
|
()
|
|
(c-call VOID "@cpu@_write_pid_handler" val)
|
|
(set (raw-reg h-sr-x (regno pid)) val))))
|
|
((eq index (regno spc))
|
|
(if (not (reg BI h-ubit)) (set (raw-reg h-sr-x (regno spc)) val)))
|
|
(else (set-quiet (raw-reg SI h-sr-x index) val))))
|
|
)
|
|
|
|
(define-hardware
|
|
(name h-supr)
|
|
(attrs MACH-V32 VIRTUAL)
|
|
(comment "Support registers")
|
|
(type register SI (16))
|
|
(values keyword "" (.map (.pmacro (y) ((.str S y) y)) (.iota 16)))
|
|
(get (index) (c-call SI "@cpu@_read_supr" index))
|
|
(set (index val) (c-call VOID "@cpu@_write_supr" index val))
|
|
)
|
|
|
|
(define-pmacro (cris-dsh semantic-name name comment attrs type)
|
|
"Like dsh, but the semantic-name is separate"
|
|
(define-full-hardware
|
|
name comment attrs semantic-name type () () () () () ())
|
|
)
|
|
|
|
; We define the condition codes that hold arithmetic flags separately
|
|
; and "or" them in, in the get and set methods of the special
|
|
; registers. We define arithmetic flags as any of C V Z N X. They
|
|
; thankfully have that order (zero-based) in all processor versions.
|
|
|
|
; To avoid having two variants of most move-type instructions because V32
|
|
; doesn't set C and V (and N and Z), we fake the setting to virtual
|
|
; registers which have two different implementations.
|
|
(define-pmacro (cris-move-flag f f-name f-whence)
|
|
"Flag set differently in pre-v32 and v32 in some cases"
|
|
(begin
|
|
(dsh (.sym h- f bit) (.str f-name " bit") () (register BI))
|
|
(cris-d-hwreg (.sym h- f bit-move) BI)
|
|
(define-hardware
|
|
(semantic-name (.sym h- f bit-move-x))
|
|
(name (.sym h- f bit-move-v32))
|
|
(comment (.str f-name " bit set in " f-whence " instructions, ignored"))
|
|
(attrs MACH-V32 VIRTUAL)
|
|
(type register BI)
|
|
(get
|
|
()
|
|
(sequence BI ()
|
|
(error (.str "Can't get h-" f "bit-move on CRISv32")) 0))
|
|
(set (val) (nop)))
|
|
(define-hardware
|
|
(semantic-name (.sym h- f bit-move-x))
|
|
(name (.sym h- f bit-move-pre-v32))
|
|
(comment
|
|
(.str
|
|
f-name " bit set in " f-whence " instructions, same as " f "bit"))
|
|
(attrs MACH-PRE-V32 VIRTUAL)
|
|
(type register BI)
|
|
(get () (reg (.sym h- f bit)))
|
|
(set (val) (set (reg (.sym h- f bit)) val))))
|
|
)
|
|
|
|
(cris-move-flag c "carry" "move-type")
|
|
(cris-move-flag v "overflow" "move-type")
|
|
(cris-move-flag z "zero" "moveq")
|
|
(cris-move-flag n "sign" "moveq")
|
|
|
|
(dsh h-xbit "extended-arithmetic bit" () (register BI))
|
|
(cris-d-hwreg h-ibit BI)
|
|
(cris-dsh h-ibit-x h-ibit-pre-v32
|
|
"interrupt-enable bit" (MACH-PRE-V32) (register BI))
|
|
(dsh h-pbit "sequence-broken bit" ((MACH crisv10,crisv32)) (register BI))
|
|
(dsh h-rbit "carry bit for MCP+restore-p bit" (MACH-V32) (register BI))
|
|
(cris-d-hwreg h-ubit BI)
|
|
(cris-dsh h-ubit-x h-ubit-pre-v32
|
|
"user mode bit" ((MACH crisv10)) (register BI))
|
|
(dsh h-gbit "guru mode bit" (MACH-V32) (register BI))
|
|
|
|
; When doing a transition from kernel to user mode on V32, we save the
|
|
; stack pointer in an internal register and copy USP to R14, so we don't
|
|
; need non-trivial handlers for general registers.
|
|
(dsh
|
|
h-kernel-sp
|
|
"Kernel stack pointer during user mode"
|
|
(MACH-V32)
|
|
(register SI)
|
|
)
|
|
|
|
(define-hardware
|
|
(semantic-name h-ubit-x)
|
|
(name h-ubit-v32)
|
|
(comment "User mode bit")
|
|
(attrs MACH-V32)
|
|
(type register BI)
|
|
(set
|
|
(val)
|
|
(sequence
|
|
()
|
|
(if (andif val (not (raw-reg BI h-ubit-x)))
|
|
(sequence
|
|
()
|
|
(set (reg SI h-kernel-sp) (raw-reg h-gr-x (regno sp)))
|
|
(set (raw-reg h-gr-x (regno sp)) (raw-reg h-sr-x (regno usp)))
|
|
(set (raw-reg BI h-ubit-x) val)
|
|
(c-call VOID "@cpu@_usermode_enabled")))))
|
|
)
|
|
|
|
(define-hardware
|
|
(semantic-name h-ibit-x)
|
|
(name h-ibit-v32)
|
|
(comment "Interrupt-enable bit")
|
|
(attrs MACH-V32)
|
|
(type register BI)
|
|
(set
|
|
(val)
|
|
(sequence
|
|
()
|
|
(if (not (reg BI h-ubit))
|
|
(sequence
|
|
((BI enabled))
|
|
(set enabled (andif val (not (raw-reg BI h-ibit-x))))
|
|
(set (raw-reg BI h-ibit-x) val)
|
|
; Call handler when enabling.
|
|
(if enabled (c-call VOID "@cpu@_interrupts_enabled"))))))
|
|
)
|
|
|
|
(define-hardware
|
|
(name h-mbit)
|
|
(comment "NMI enable bit")
|
|
(attrs MACH-V32)
|
|
(type register BI)
|
|
(set
|
|
(val)
|
|
(sequence
|
|
()
|
|
; Don't allow clearing (through this handler) when once set.
|
|
(if (andif val (andif (not (raw-reg BI h-mbit)) (not (reg BI h-ubit))))
|
|
(sequence
|
|
()
|
|
(set (raw-reg BI h-mbit) 1)
|
|
; Call handler when enabling.
|
|
(c-call VOID "@cpu@_nmi_enabled")))))
|
|
)
|
|
|
|
(define-pmacro
|
|
(dsh-cond-bit-v32 x-name x-comment x-cond)
|
|
"dsh bit for MACH-V32, with bit only changeable when X-COND"
|
|
(define-hardware
|
|
(name x-name)
|
|
(comment x-comment)
|
|
(attrs MACH-V32)
|
|
(type register BI)
|
|
(set (val) (sequence () (if x-cond (set (raw-reg BI x-name) val)))))
|
|
)
|
|
(define-pmacro
|
|
(dsh-protected-bit-v32 x-name x-comment)
|
|
"dsh bit for MACH-V32, with bit only changeable in kernel mode"
|
|
(dsh-cond-bit-v32 x-name x-comment (not (reg BI h-ubit)))
|
|
)
|
|
(dsh-protected-bit-v32 h-qbit "Pending single-step bit")
|
|
|
|
(define-hardware
|
|
(name h-sbit)
|
|
(comment "Cause single step exception on ... [see CRISv32 ref] bit")
|
|
(attrs MACH-V32)
|
|
(type register BI)
|
|
(set
|
|
(val)
|
|
(sequence
|
|
()
|
|
(if (not (reg BI h-ubit))
|
|
(sequence
|
|
((BI enabled))
|
|
(set enabled (andif val (not (raw-reg BI h-sbit))))
|
|
(set (raw-reg BI h-sbit) val)
|
|
; Call handler when enabling.
|
|
(if enabled (c-call VOID "@cpu@_single_step_enabled"))))))
|
|
)
|
|
|
|
(dnop cbit "" (SEM-ONLY) h-cbit f-nil)
|
|
(dnop cbit-move
|
|
"cbit for pre-V32, nothing for newer" (SEM-ONLY) h-cbit-move f-nil)
|
|
(dnop vbit "" (SEM-ONLY) h-vbit f-nil)
|
|
(dnop vbit-move
|
|
"vbit for pre-V32, nothing for newer" (SEM-ONLY) h-vbit-move f-nil)
|
|
(dnop zbit "" (SEM-ONLY) h-zbit f-nil)
|
|
(dnop zbit-move
|
|
"zbit for pre-V32, nothing for newer" (SEM-ONLY) h-zbit-move f-nil)
|
|
(dnop nbit "" (SEM-ONLY) h-nbit f-nil)
|
|
(dnop nbit-move
|
|
"nbit for pre-V32, nothing for newer" (SEM-ONLY) h-nbit-move f-nil)
|
|
(dnop xbit "" (SEM-ONLY) h-xbit f-nil)
|
|
(dnop ibit "" (SEM-ONLY) h-ibit f-nil)
|
|
(dnop ubit "" (SEM-ONLY (MACH crisv10,crisv32)) h-ubit f-nil)
|
|
(dnop pbit "" (SEM-ONLY (MACH crisv10,crisv32)) h-pbit f-nil)
|
|
(dnop
|
|
rbit "carry bit for MCP+restore-P flag bit" (SEM-ONLY MACH-V32) h-rbit f-nil)
|
|
(dnop sbit "" (SEM-ONLY MACH-V32) h-sbit f-nil)
|
|
(dnop mbit "" (SEM-ONLY MACH-V32) h-mbit f-nil)
|
|
(dnop qbit "" (SEM-ONLY MACH-V32) h-qbit f-nil)
|
|
|
|
(cris-d-hwreg h-insn-prefixed-p BI)
|
|
(cris-dsh
|
|
h-insn-prefixed-p-x
|
|
h-insn-prefixed-p-pre-v32
|
|
"instruction-is-prefixed bit"
|
|
(MACH-PRE-V32)
|
|
(register BI)
|
|
)
|
|
|
|
; CRISv32 has no prefixing on memory accesses. CGEN-FIXME: [Once (eq-attr
|
|
; (current-mach) ...) works]: can we change andif and/or orif so it
|
|
; doesn't look too close at short-circuited operands and avoid defining an
|
|
; operand that doesn't apply to a certain mach?
|
|
(define-hardware
|
|
(semantic-name h-insn-prefixed-p-x)
|
|
(name h-insn-prefixed-p-v32)
|
|
(attrs MACH-V32 VIRTUAL)
|
|
(comment "instruction-is-prefixed bit")
|
|
(type register BI)
|
|
(get () (const BI 0))
|
|
(set (val) (nop))
|
|
)
|
|
(dnop
|
|
prefix-set
|
|
"Instruction-prefixed flag"
|
|
(SEM-ONLY)
|
|
h-insn-prefixed-p
|
|
f-nil
|
|
)
|
|
|
|
(cris-dsh
|
|
h-prefixreg h-prefixreg-pre-v32
|
|
"Prefix-address register" (MACH-PRE-V32) (register SI))
|
|
(define-hardware
|
|
(semantic-name h-prefixreg)
|
|
(name h-prefixreg-v32)
|
|
(comment "Prefix-address register, redirecting to ACR")
|
|
(attrs MACH-V32 VIRTUAL)
|
|
(type register SI)
|
|
; Why can't we have just a "acr" a.k.a "(reg h-gr 15)" here?
|
|
(get () acr)
|
|
(set (value) (set acr value))
|
|
)
|
|
|
|
(dnop
|
|
prefixreg
|
|
"Prefix address"
|
|
(SEM-ONLY)
|
|
h-prefixreg
|
|
f-nil
|
|
)
|
|
|
|
;;;;;;;;;;;;;;;;;; -ifield
|
|
|
|
; 15 0
|
|
; +-----------+-----+-----------+-----+-----------+
|
|
; | Operand2 | Mode| Opcode | Size| Operand1 |
|
|
; +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
|
|
;
|
|
; Figure 5. General instruction format.
|
|
;
|
|
; Some deviations from this format exist, [see below].
|
|
|
|
; Field specifiers in CGEN specify the highest numbered bit followed by
|
|
; the number of bits.
|
|
|
|
(dnf f-operand1 "Operand1" () 3 4)
|
|
(dnf f-size "Size" () 5 2)
|
|
(dnf f-opcode "Opcode" () 9 4)
|
|
(dnf f-mode "Mode" () 11 2)
|
|
(dnf f-operand2 "Operand2" () 15 4)
|
|
|
|
; Subfields. FIXME: unfortunately there's some limitation in CGEN so we
|
|
; can't (as would be somewhat intuitive) make f-mode a multi-ifield
|
|
; consisting of these two, concatenated.
|
|
(dnf f-memmode "Indirect of autoincrement" () 10 1)
|
|
(dnf f-membit "Memory specifier" () 11 1)
|
|
|
|
(dnf f-b5 "Bit 5 (zero for some quick operands)" () 5 1)
|
|
|
|
; When the addressing mode is quick immediate, the low bits are
|
|
; part of the operand.
|
|
(dnf f-opcode-hi "Opcode field, high bits" () 9 2)
|
|
|
|
; Common synonyms for those fields.
|
|
(define-pmacro f-source f-operand1)
|
|
(define-pmacro f-dest f-operand2)
|
|
|
|
(dnmf
|
|
f-dstsrc "Dest and source fields concatenated" () UINT
|
|
(f-dest f-source)
|
|
; Insert-code.
|
|
(sequence
|
|
((SI tmpval))
|
|
(set tmpval (ifield f-dstsrc))
|
|
(set (ifield f-dest) (and (srl tmpval 4) #xf))
|
|
(set (ifield f-source) (and tmpval #xf)))
|
|
; Extract-code.
|
|
(set
|
|
(ifield f-dstsrc)
|
|
(and (or (ifield f-source) (sll (ifield f-dest) 4)) #xff))
|
|
)
|
|
|
|
;The 6-bit value may be sign or zero extended depending on the instruction.
|
|
;
|
|
; 15 0
|
|
; +-----------+-----+-----------+-----+-----------+
|
|
; | Operand2 | Mode| Opcode | Immediate value |
|
|
; +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
|
|
;
|
|
; Figure 6. Quick immediate addressing mode instruction format.
|
|
|
|
(dnf f-u6 "Quick immediate unsigned 6-bit" () 5 6)
|
|
(df f-s6 "Quick signed 6-bit" () 5 6 INT #f #f)
|
|
|
|
; There's also a variant used with shift insns, with one bit larger opcode
|
|
; and one bit smaller immediate value, though it doesn't have a general
|
|
; graphic description.
|
|
(dnf f-u5 "Quick unsigned 5-bit" () 4 5)
|
|
|
|
; Similarly, a four-bit immediate field.
|
|
(dnf f-u4 "Quick unsigned 4-bit" () 3 4)
|
|
|
|
; An 8-bit signed value, which doesn't have a general graphic description.
|
|
(df f-s8 "Source signed byte" () 7 8 INT #f #f)
|
|
|
|
; The 9-bit branch offset, with bit 0 in the field being bit 8 in the
|
|
; offset, and bit 0 in the offset always 0.
|
|
(df f-disp9-hi "PC-relative 9-bit offset, sign bit" () 0 1 INT #f #f)
|
|
(dnf f-disp9-lo "PC-relative 9-bit offset, low bits" () 7 7)
|
|
|
|
; It would work to have this in two mach-specific variants, but
|
|
; considering that current-mach-is-v32 is a compile-time constant, we
|
|
; don't win any simulator performance.
|
|
(dnmf
|
|
f-disp9 "PC-relative 9-bit offset"
|
|
(PCREL-ADDR)
|
|
INT
|
|
(f-disp9-hi f-disp9-lo)
|
|
; Insert-code.
|
|
(sequence
|
|
((SI absval))
|
|
(set absval (srl (sub (sub SI (ifield f-disp9) pc)
|
|
(if SI current-mach-is-v32 0 2)) 1))
|
|
(set (ifield f-disp9-hi) (if (lt absval 0) 1 0))
|
|
(set (ifield f-disp9-lo) (and absval) #x7f))
|
|
; Extract-code.
|
|
(sequence
|
|
((SI abslo) (SI absval))
|
|
(set abslo (sll (ifield f-disp9-lo) 1))
|
|
(set absval
|
|
(or (if SI (ne (ifield f-disp9-hi) 0)
|
|
(inv SI #xff)
|
|
0)
|
|
abslo))
|
|
(set (ifield f-disp9)
|
|
(add SI (add SI pc absval) (if SI current-mach-is-v32 0 2))))
|
|
)
|
|
|
|
; The operand of LAPCQ is PC-relative, similar to f-disp9 but unsigned,
|
|
; and only four bits.
|
|
(df
|
|
f-qo
|
|
"PC-relative 4-bit unsigned offset, counted from start of insn"
|
|
(MACH-V32 PCREL-ADDR)
|
|
3 4
|
|
UINT
|
|
; Insert-code.
|
|
((value pc) (srl SI (sub SI value pc) 1))
|
|
; Extract-code.
|
|
((value pc) (add SI pc (sll SI value 1)))
|
|
)
|
|
|
|
; 8-bit, 16-bit and 32-bit immediates. The 8-bit values are constructed
|
|
; through encoding/decoding functions, since the PC increment is by a
|
|
; word.
|
|
(define-pmacro (dcrisf x-name x-comment x-attrs x-word-offset x-word-length
|
|
x-start x-length x-mode x-encode x-decode)
|
|
(define-ifield
|
|
(name x-name)
|
|
(comment x-comment)
|
|
(.splice attrs (.unsplice x-attrs))
|
|
(word-offset x-word-offset)
|
|
(word-length x-word-length)
|
|
(start x-start)
|
|
(length x-length)
|
|
(mode x-mode)
|
|
(.splice encode (.unsplice x-encode))
|
|
(.splice decode (.unsplice x-decode))
|
|
)
|
|
)
|
|
|
|
(dcrisf
|
|
f-indir-pc+-byte "[PC+] 8-bit field" (SIGN-OPT)
|
|
16 16
|
|
15 16 ; CGEN-FIXME: Should be 7 8
|
|
INT (#f) (#f)
|
|
)
|
|
|
|
(dcrisf
|
|
f-indir-pc+-word "[PC+] 16-bit field" (SIGN-OPT)
|
|
16 16 15 16 INT (#f) (#f)
|
|
)
|
|
|
|
; CGEN-FIXME: I shouldn't have to use trunc here, should I?
|
|
; Sign-extension should be implicit through use of SI (as opposed to USI)
|
|
; and additionally through SIGN-OPT. The ext isn't actually needed, but
|
|
; having it there rather than implicit makes more sense than to just have
|
|
; the trunc.
|
|
(dcrisf
|
|
f-indir-pc+-word-pcrel "[PC+] PC-relative 16-bit field"
|
|
(PCREL-ADDR SIGN-OPT)
|
|
16 16 15 16 SI
|
|
((value pc) (sub SI value (add SI pc (if SI current-mach-is-v32 0 4))))
|
|
((value pc) (add SI (ext SI (trunc HI value)) (add SI pc (if SI current-mach-is-v32 0 4))))
|
|
)
|
|
|
|
(dcrisf
|
|
f-indir-pc+-dword "PC autoincrement - 32-bit field" (SIGN-OPT)
|
|
16 32 31 32 INT (#f) (#f)
|
|
)
|
|
|
|
(dcrisf
|
|
f-indir-pc+-dword-pcrel
|
|
"[PC+] PC-relative 32-bit field, counted from start of insn"
|
|
(SIGN-OPT MACH-V32 PCREL-ADDR)
|
|
16 32 31 32 INT
|
|
((value pc) (sub SI value pc))
|
|
((value pc) (add SI pc value))
|
|
)
|
|
|
|
;;;;;;;;;;;;;;;;;; -insn-enum -normal-operand -normal-derived-operand
|
|
|
|
;; How different fields are transformed into something we put in insns.
|
|
|
|
; m := size modifier, byte (00), word (01) or dword (10)
|
|
; z := size modifier, byte (0) or word (1)
|
|
; (For the latter, the "higher" bit is always 0, mapping trivially on m.)
|
|
|
|
(define-normal-insn-enum
|
|
insn-size
|
|
"Standard instruction operand size"
|
|
()
|
|
SIZE_
|
|
f-size
|
|
("BYTE" "WORD" "DWORD" "FIXED")
|
|
)
|
|
|
|
; The mode field for insns with "s" operand (perhaps with a partial set of
|
|
; operand types).
|
|
(define-normal-insn-enum
|
|
insn-mode
|
|
"Standard instruction addressing modes"
|
|
()
|
|
MODE_
|
|
f-mode
|
|
("QUICK_IMMEDIATE" "REGISTER" "INDIRECT" "AUTOINCREMENT")
|
|
)
|
|
|
|
(define-normal-insn-enum
|
|
insn-memoryness-mode
|
|
"Whether the operand is indirect"
|
|
()
|
|
MODEMEMP_
|
|
f-membit
|
|
("NO" "YES")
|
|
)
|
|
|
|
; FIXME: Needed?
|
|
(define-normal-insn-enum
|
|
insn-memincness-mode
|
|
"Whether the indirect operand is autoincrement"
|
|
()
|
|
MODEINCP_
|
|
f-memmode
|
|
("NO" "YES")
|
|
)
|
|
|
|
; Special semantics for multiply.
|
|
(define-pmacro MODE_MULU MODE_INDIRECT)
|
|
(define-pmacro MODE_MULS MODE_AUTOINCREMENT)
|
|
|
|
(define-normal-insn-enum
|
|
insn-signed-size
|
|
"Signed instruction operand size"
|
|
()
|
|
SIGNED_
|
|
f-size
|
|
("UNDEF_SIZE_0" "UNDEF_SIZE_1" "BYTE" "WORD")
|
|
)
|
|
|
|
(define-normal-insn-enum
|
|
insn-unsigned-size
|
|
"Unsigned instruction operand size"
|
|
()
|
|
UNSIGNED_
|
|
f-size
|
|
("BYTE" "WORD" "UNDEF_SIZE_2" "UNDEF_SIZE_3")
|
|
)
|
|
|
|
; Rs := source operand, register addressing mode
|
|
(dnop Rs "Source general register" () h-gr f-source)
|
|
|
|
; [Rs] := source operand, indirect addressing mode
|
|
; = MODE_INDIRECT Rs
|
|
|
|
; [Rs+] := source operand, autoincrement addressing mode (see note!)
|
|
; = MODE_AUTOINCREMENT Rs
|
|
|
|
; The union of [Rs] and [Rs(+)]
|
|
; = MODEMEMP_YES Rs
|
|
|
|
; Whether an indirect operand is increment can be obtained as an operand by
|
|
; = inc
|
|
(dnop inc "Incrementness of indirect operand" () h-inc f-memmode)
|
|
|
|
; or as an affirmative specifier
|
|
; = MODEINCP_YES
|
|
; (or MODEINCP_NO)
|
|
|
|
; s := source operand, any of the modes Rs, [Rs] or [Rs+]
|
|
; No common operand; each are handled separately, using the above definitions.
|
|
|
|
; Ps := source operand, special register
|
|
; It's in the field usually used for the destination.
|
|
(dnop Ps "Source special register" () h-sr f-dest)
|
|
|
|
; Ss := source operand, support register
|
|
; It's in the field usually used for the destination.
|
|
(dnop Ss "Source support register" (MACH-V32) h-supr f-dest)
|
|
|
|
; Sd := source operand, support register
|
|
(dnop Sd "Destination support register" (MACH-V32) h-supr f-dest)
|
|
|
|
; i := 6-bit signed immediate operand
|
|
(dnop i "Quick signed 6-bit" () h-sint f-s6)
|
|
|
|
; j := 6-bit unsigned immediate operand
|
|
(dnop j "Quick unsigned 6-bit" () h-uint f-u6)
|
|
|
|
; c := 5-bit immediate shift value
|
|
(dnop c "Quick unsigned 5-bit" () h-uint f-u5)
|
|
|
|
; qo := 4-bit unsigned immediate operand
|
|
(dnop qo "Quick unsigned 4-bit, PC-relative" (MACH-V32) h-addr f-qo)
|
|
|
|
; Rd := destination operand, register addressing mode
|
|
(dnop Rd "Destination general register" () h-gr f-dest)
|
|
(define-pmacro Rd-sfield Rs)
|
|
(define-pmacro Rs-dfield Rd)
|
|
|
|
; [Rd] := destination operand, indirect addressing mode
|
|
; = MODE_INDIRECT Rd
|
|
|
|
; [Rd+] := destination operand, autoincrement addressing mode
|
|
; = MODE_AUTOINCREMENT Rd
|
|
|
|
; [PC+] := destination operand PC, autoincrement addressing mode
|
|
; = MODE_AUTOINCREMENT (f-dest 15) X
|
|
; where X is one of sconst8, uconst8, sconst16, uconst16 or const32.
|
|
(dnop sconst8 "Signed byte [PC+]" () h-sint f-indir-pc+-byte)
|
|
(dnop uconst8 "Unsigned byte [PC+]" () h-uint f-indir-pc+-byte)
|
|
(dnop sconst16 "Signed word [PC+]" () h-sint f-indir-pc+-word)
|
|
(dnop uconst16 "Unsigned word [PC+]" () h-uint f-indir-pc+-word)
|
|
(dnop const32 "Dword [PC+]" () h-uint f-indir-pc+-dword)
|
|
(dnop const32-pcrel "Dword [PC+]" () h-addr f-indir-pc+-dword-pcrel)
|
|
|
|
; d := destination operand, any of the modes Rd, [Rd] or [Rd+]
|
|
; No common operand; each are handled separately, using the above definitions.
|
|
|
|
; Pd := destination operand, special register
|
|
(dnop Pd "Destination special register" () h-sr f-dest)
|
|
|
|
; o := 8-bit immediate offset value
|
|
(dnop o "Signed 8-bit" () h-sint f-s8)
|
|
|
|
; The division of operand semantics and insn fields in the CRIS
|
|
; instruction set reference doesn't permit a simple mapping to a
|
|
; simulator description, and the division of insn fields and
|
|
; semantics in CGEN is not between the define-normal-ifield
|
|
; vs. define-normal-operand. For example, the "o" operand is
|
|
; PC-relative for branch insns, as described by the CGEN f-disp9
|
|
; field.
|
|
; See comment at f-disp9; thankfully the mach
|
|
; attribute works here to have two different definitions by the
|
|
; same name.
|
|
(dnop o-pcrel "9-bit signed immediate PC-rel"
|
|
()
|
|
h-iaddr f-disp9)
|
|
|
|
(dnop o-word-pcrel "16-bit signed immediate PC-rel"
|
|
()
|
|
h-iaddr f-indir-pc+-word-pcrel)
|
|
|
|
; cc := condition code
|
|
(dnop cc "Condition codes" () h-ccode f-dest)
|
|
|
|
; n := 4 bit breakpoint exception vector index
|
|
(dnop n "Quick unsigned 4-bit" () h-uint f-u4)
|
|
|
|
; The "option" in the SWAP insn.
|
|
(dnop swapoption "Swap option" () h-swap f-dest)
|
|
|
|
(dnop list-of-flags "Flag bits as operand" () h-flagbits f-dstsrc)
|
|
|
|
; Enumerations for insn codes, for use in insn definitions
|
|
; instead of raw numbers. See it as operand definitions for the
|
|
; opcode field.
|
|
|
|
(define-normal-insn-enum
|
|
insn-qi-opc
|
|
"Insns for MODE_QUICK_IMMEDIATE"
|
|
()
|
|
Q_
|
|
f-opcode
|
|
("BCC_0" "BCC_1" "BCC_2" "BCC_3"
|
|
"BDAP_0" "BDAP_1" "BDAP_2" "BDAP_3"
|
|
"ADDQ" "MOVEQ" "SUBQ" "CMPQ"
|
|
"ANDQ" "ORQ" "ASHQ" "LSHQ")
|
|
)
|
|
|
|
(define-normal-insn-enum
|
|
insn-qihi-opc
|
|
"Same as insn-qi-opc, though using only the high two bits of the opcode"
|
|
()
|
|
QHI_
|
|
f-opcode-hi
|
|
("BCC" "BDAP" "OTHER2" "OTHER3")
|
|
)
|
|
(define-pmacro QHI_ADDOQ QHI_BDAP)
|
|
|
|
(define-normal-insn-enum
|
|
insn-r-opc
|
|
"Insns for MODE_REGISTER and either SIZE_BYTE, SIZE_WORD or SIZE_DWORD"
|
|
()
|
|
R_
|
|
f-opcode
|
|
("ADDX" "MOVX" "SUBX" "LSL"
|
|
"ADDI" "BIAP" "NEG" "BOUND"
|
|
"ADD" "MOVE" "SUB" "CMP"
|
|
"AND" "OR" "ASR" "LSR")
|
|
)
|
|
(define-pmacro R_ADDI_ACR R_BIAP)
|
|
|
|
(define-normal-insn-enum
|
|
insn-rfix-opc
|
|
"Insns for MODE_REGISTER and SIZE_FIXED"
|
|
()
|
|
RFIX_
|
|
f-opcode
|
|
("ADDX" "MOVX" "SUBX" "BTST"
|
|
"SCC" "ADDC" "SETF" "CLEARF"
|
|
"MOVE_R_S" "MOVE_S_R" "ABS" "DSTEP"
|
|
"LZ" "SWAP" "XOR" "MSTEP")
|
|
)
|
|
(define-pmacro RFIX_MCP RFIX_MSTEP)
|
|
|
|
(define-normal-insn-enum
|
|
insn-indir-opc
|
|
"Insns for (MODE_INDIRECT or MODE_AUTOINCREMENT) and either SIZE_BYTE, SIZE_WORD or SIZE_DWORD"
|
|
()
|
|
INDIR_
|
|
f-opcode
|
|
("ADDX" "MOVX" "SUBX" "CMPX"
|
|
"MUL" "BDAP_M" "ADDC" "BOUND"
|
|
"ADD" "MOVE_M_R" "SUB" "CMP"
|
|
"AND" "OR" "TEST" "MOVE_R_M")
|
|
)
|
|
(define-pmacro INDIR_ADDO INDIR_BDAP_M)
|
|
|
|
(define-normal-insn-enum
|
|
insn-infix-opc
|
|
"Insns for (MODE_INDIRECT or MODE_AUTOINCREMENT) and SIZE_FIXED"
|
|
()
|
|
INFIX_
|
|
f-opcode
|
|
("ADDX" "MOVX" "SUBX" "CMPX"
|
|
"JUMP_M" "DIP" "JUMP_R" "BCC_M"
|
|
"MOVE_M_S" "MOVE_S_M" "BMOD" "BSTORE"
|
|
"RBF" "SBFS" "MOVEM_M_R" "MOVEM_R_M")
|
|
)
|
|
|
|
(define-pmacro INFIX_MOVE_SS INFIX_SBFS)
|
|
(define-pmacro INFIX_LAPC INFIX_DIP)
|
|
(define-pmacro INFIX_RFE INFIX_JUMP_M)
|
|
(define-pmacro INFIX_RFN INFIX_JUMP_M)
|
|
(define-pmacro INFIX_HALT INFIX_JUMP_M)
|
|
(define-pmacro INFIX_SFE INFIX_JUMP_M)
|
|
(define-pmacro INFIX_RFG INFIX_JUMP_M)
|
|
(define-pmacro INFIX_JAS_R INFIX_JUMP_R)
|
|
(define-pmacro INFIX_JAS_M INFIX_JUMP_R)
|
|
(define-pmacro INFIX_JASC INFIX_RBF)
|
|
(define-pmacro INFIX_JUMP_P INFIX_BCC_M)
|
|
(define-pmacro INFIX_BAS INFIX_BMOD)
|
|
(define-pmacro INFIX_BASC INFIX_BSTORE)
|
|
(define-pmacro INFIX_BREAK INFIX_JUMP_M)
|
|
(define-pmacro INFIX_FIDXI INFIX_JUMP_M)
|
|
(define-pmacro INFIX_FIDXD INFIX_BAS)
|
|
(define-pmacro INFIX_FTAGI INFIX_JUMP_M)
|
|
(define-pmacro INFIX_FTAGD INFIX_BAS)
|
|
|
|
; Classes of insns:
|
|
; Move-to-register, move-to-memory, move-to/from-other-register,
|
|
; logical, arithmetic, branch.
|
|
; Classes of operands:
|
|
; quick, register, memory-indirect, memory-postinc.
|
|
|
|
|
|
;;;;;;;;;;;;;;;;;; -normal-insn
|
|
|
|
(define-pmacro (dni-bwd-attr name comment attr syntax fmt fsem timing)
|
|
(begin
|
|
(dni (.sym name .b) (.str "byte " comment) attr (.str name ".b " syntax)
|
|
(.splice (.unsplice fmt) SIZE_BYTE)
|
|
(fsem QI)
|
|
timing)
|
|
(dni (.sym name .w) (.str "word " comment) attr (.str name ".w " syntax)
|
|
(.splice (.unsplice fmt) SIZE_WORD)
|
|
(fsem HI)
|
|
timing)
|
|
(dni (.sym name .d) (.str "dword " comment) attr (.str name ".d " syntax)
|
|
(.splice (.unsplice fmt) SIZE_DWORD)
|
|
(fsem SI)
|
|
timing))
|
|
)
|
|
|
|
(define-pmacro (dni-cdt-attr name comment attr syntax fmt semantics)
|
|
"dni without specifying timing"
|
|
(dni name comment attr syntax fmt semantics (cris-timing))
|
|
)
|
|
|
|
(define-pmacro (dni-cdt-bwd-attr name comment attr syntax fmt fsem)
|
|
(begin
|
|
(dni-cdt-attr (.sym name .b-r) (.str "byte " comment) attr (.str name ".b " syntax)
|
|
(.splice (.unsplice fmt) SIZE_BYTE)
|
|
(fsem QI))
|
|
(dni-cdt-attr (.sym name .w-r) (.str "word " comment) attr (.str name ".w " syntax)
|
|
(.splice (.unsplice fmt) SIZE_WORD)
|
|
(fsem HI))
|
|
(dni-cdt-attr (.sym name .d-r) (.str "dword " comment) attr (.str name ".d " syntax)
|
|
(.splice (.unsplice fmt) SIZE_DWORD)
|
|
(fsem SI)))
|
|
)
|
|
|
|
; Some convenience macros based on the above ones.
|
|
(define-pmacro (dni-cdt-bwd name comment syntax fmt fsem)
|
|
(dni-cdt-bwd-attr name comment () syntax fmt fsem)
|
|
)
|
|
|
|
(define-pmacro (dni-bwd name comment syntax fmt fsem timing)
|
|
(dni-bwd-attr comment () syntax fmt fsem timing)
|
|
)
|
|
|
|
(define-pmacro-map
|
|
(((dni-cdt name comment syntax fmt semantics)
|
|
(dni-cdt-attr name comment () syntax fmt semantics))
|
|
((dni-c-QI-attr name comment attr syntax fmt fsem)
|
|
(dni name comment attr syntax fmt fsem (cris-timing-const-QI)))
|
|
((dni-c-HI-attr name comment attr syntax fmt fsem)
|
|
(dni name comment attr syntax fmt fsem (cris-timing-const-HI)))
|
|
((dni-c-SI-attr name comment attr syntax fmt fsem)
|
|
(dni name comment attr syntax fmt fsem (cris-timing-const-SI))))
|
|
)
|
|
|
|
(define-pmacro-map
|
|
(((dni-c-QI name comment syntax fmt fsem)
|
|
(dni-c-QI-attr name comment () syntax fmt fsem))
|
|
((dni-c-HI name comment syntax fmt fsem)
|
|
(dni-c-HI-attr name comment () syntax fmt fsem))
|
|
((dni-c-SI name comment syntax fmt fsem)
|
|
(dni-c-SI-attr name comment () syntax fmt fsem)))
|
|
)
|
|
|
|
; These flags are both cleared by all insns except prefixes (before
|
|
; CRISv32) and "setf x", so we put them in a handy macro.
|
|
(define-pmacro
|
|
(reset-x-p)
|
|
(sequence
|
|
()
|
|
(set xbit 0)
|
|
(set prefix-set 0))
|
|
)
|
|
|
|
; NOP | 0 0 0 0| 0 1| 0 1 0 0| 0 0| 1 1 1 1|
|
|
; (For V32, "SETF" (no flags) is used.)
|
|
(dni-cdt-attr
|
|
nop "nop" (MACH-PC) "nop"
|
|
(+ (f-operand2 0) R_ADDI MODE_REGISTER SIZE_BYTE (f-operand1 15))
|
|
(reset-x-p)
|
|
)
|
|
|
|
; Pre- and v32+ variants MOVE insns set flags differently. These two
|
|
; macros for flag settings are meant to be used in all MOVE insns.
|
|
(define-pmacro (setf-moveq value)
|
|
(sequence
|
|
()
|
|
(set-quiet nbit-move (lt SI value 0))
|
|
(set-quiet zbit-move (andif BI (eq SI value 0) (if BI xbit zbit 1)))
|
|
(set-quiet cbit-move 0)
|
|
(set-quiet vbit-move 0)
|
|
(reset-x-p))
|
|
)
|
|
|
|
(define-pmacro (setf-move size value)
|
|
(sequence
|
|
()
|
|
(set nbit (lt size value 0))
|
|
(set zbit (andif BI (eq size value 0) (if BI xbit zbit 1)))
|
|
(set-quiet cbit-move 0)
|
|
(set-quiet vbit-move 0)
|
|
(reset-x-p))
|
|
)
|
|
; The CGEN binop-with-bit operations are not documented well enough that I
|
|
; trust their semantics to remain stable. Better define local ones: the
|
|
; semantics become explicit.
|
|
(define-pmacro-map
|
|
(((add-overflow size R D S carry)
|
|
(orif BI (andif BI (andif BI (lt size S 0) (lt size D 0)) (ge size R 0))
|
|
(andif BI (andif BI (ge size S 0) (ge size D 0)) (lt size R 0))))
|
|
((add-carry size R D S carry)
|
|
(orif BI (andif BI (lt size S 0) (lt size D 0))
|
|
(orif BI (andif BI (lt size D 0) (ge size R 0))
|
|
(andif BI (lt size S 0) (ge size R 0)))))
|
|
((sub-overflow size R D S carry)
|
|
(orif BI (andif BI (andif BI (ge size S 0) (lt size D 0)) (ge size R 0))
|
|
(andif BI (andif BI (lt size S 0) (ge size D 0)) (lt size R 0))))
|
|
((sub-carry size R D S carry)
|
|
(orif BI (andif BI (lt size S 0) (ge size D 0))
|
|
(orif BI (andif BI (ge size D 0) (lt size R 0))
|
|
(andif BI (lt size S 0) (lt size R 0)))))
|
|
; Only valid for size := DI
|
|
((mulu-overflow size R D S carry)
|
|
(ne DI R (zext DI (trunc SI R))))
|
|
((mulu-carry size R D S carry)
|
|
(andif current-mach-is-v32 carry))
|
|
((muls-overflow size R D S carry)
|
|
(ne DI R (ext DI (trunc SI R))))
|
|
((muls-carry size R D S carry)
|
|
(andif current-mach-is-v32 carry)))
|
|
)
|
|
|
|
(define-pmacro (setf-arit2 size op source1 source2 result carryin carryout)
|
|
"Set no-prefix, x=0, carryout, v, z and n according to operation OP in size SIZE"
|
|
(sequence
|
|
()
|
|
(set carryout ((.sym op -carry) size result source1 source2 carryin))
|
|
(set nbit (lt size result 0))
|
|
(set zbit (andif BI (eq size result 0) (orif BI zbit (not BI xbit))))
|
|
(set vbit ((.sym op -overflow) size result source1 source2 carryin))
|
|
(reset-x-p))
|
|
)
|
|
(define-pmacro (setf-arit size op source1 source2 result carry)
|
|
"Set no-prefix, x=0, c, v, z and n according to operation OP in size SIZE"
|
|
(setf-arit2 size op source1 source2 result carry cbit)
|
|
)
|
|
|
|
; Let's have convienence macros for arithmetic, including evaluation of the
|
|
; operation, destination modification, flag setting and carry propagation.
|
|
(define-pmacro
|
|
(cris-arit6-int arit size fdest fdest_op srcop1 srcop2 carryout carryin)
|
|
"Core for performing some three-operand arithmetic with carry as parameter"
|
|
(sequence
|
|
((size tmpopd) (size tmpops) (BI carry) (size newval))
|
|
(set tmpops srcop2)
|
|
(set tmpopd srcop1)
|
|
(set carry carryin)
|
|
(set newval ((.sym arit c) tmpopd tmpops (if BI (eq xbit 0) 0 carry)))
|
|
(fdest size fdest_op newval)
|
|
(setf-arit2 size arit tmpopd tmpops newval carry carryout))
|
|
)
|
|
|
|
(define-pmacro
|
|
(cris-arit5-int arit size destregno srcop1 srcop2 carryout carryin)
|
|
"As cris-arit6-int, but to set a part of a general register"
|
|
(cris-arit6-int
|
|
arit
|
|
size
|
|
(.pmacro (sz regno val) (set-subreg-gr sz regno val))
|
|
destregno
|
|
srcop1
|
|
srcop2
|
|
carryout
|
|
carryin)
|
|
)
|
|
|
|
(define-pmacro (cris-arit5 arit size destreg srcop1 srcop2 carryout carryin)
|
|
"As cris-arit5-int, but takes a register as parameter, not register number"
|
|
(cris-arit5-int arit size (regno destreg) srcop1 srcop2 carryout carryin)
|
|
)
|
|
(define-pmacro (cris-arit3-int arit size destregno srcop1 srcop2)
|
|
"As cris-arit5-int, but with carry-in same as carry-out"
|
|
(cris-arit5-int arit size destregno srcop1 srcop2 cbit cbit)
|
|
)
|
|
(define-pmacro (cris-arit3 arit size destreg srcop1 srcop2)
|
|
"As cris-arit3-int, but takes a register as parameter, not register number"
|
|
(cris-arit3-int arit size (regno destreg) srcop1 srcop2)
|
|
)
|
|
(define-pmacro (cris-arit arit size destreg srcop)
|
|
"As cris-arit3, but with destination same as srcop1"
|
|
(cris-arit3 arit size destreg destreg srcop)
|
|
)
|
|
(define-pmacro (cris-arit-3op arit size destsrcop2 srcop1 dest-3op)
|
|
"Similar to cris-arit3-int, but for prefixed operand only"
|
|
(cris-arit3-int arit size
|
|
(if SI (andif prefix-set (not inc))
|
|
(regno dest-3op)
|
|
(regno destsrcop2))
|
|
destsrcop2 srcop1)
|
|
)
|
|
|
|
; Convenience macros to select a part of a value and its complement, for
|
|
; the <op>.b, <op>.w and <op>.d operations.
|
|
(define-pmacro (QI-part val) (and SI val #xff))
|
|
(define-pmacro (non-QI-part val) (and SI val #xffffff00))
|
|
(define-pmacro (HI-part val) (and SI val #xffff))
|
|
(define-pmacro (non-HI-part val) (and SI val #xffff0000))
|
|
(define-pmacro (SI-part val) val)
|
|
(define-pmacro (non-SI-part val) 0)
|
|
(define-pmacro
|
|
(set-subreg-gr-bw BWD gregno newval)
|
|
"Set a byte or word part or full dword of a general register"
|
|
(sequence
|
|
((SI oldregval))
|
|
(set oldregval (reg h-raw-gr gregno))
|
|
(set (reg h-gr gregno)
|
|
(or SI ((.sym BWD -part) newval) ((.sym non- BWD -part) oldregval))))
|
|
)
|
|
(define-pmacro (set-subreg-gr BWD gregno newval)
|
|
((.sym set-subreg-gr- BWD) BWD gregno newval)
|
|
)
|
|
(define-pmacro (set-subreg-gr-SI SI gregno newval)
|
|
(set (reg h-gr gregno) newval)
|
|
)
|
|
(define-pmacro set-subreg-gr-HI set-subreg-gr-bw)
|
|
(define-pmacro set-subreg-gr-QI set-subreg-gr-bw)
|
|
|
|
; MOVE.m Rs,Rd [ Rd | 011001mm | Rs ]
|
|
(dni-cdt-bwd
|
|
move "move.m r,R"
|
|
"move.m ${Rs},${Rd}"
|
|
(+ Rd MODE_REGISTER R_MOVE Rs)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((BWD newval))
|
|
(set newval Rs)
|
|
(set-subreg-gr BWD (regno Rd) newval)
|
|
(setf-move BWD newval)))
|
|
)
|
|
|
|
; MOVE.D PC,Rd [ Rd | 01100110 | 1111 ]
|
|
; This insn is used in PIC code to find out the code address. It's an
|
|
; exception to the (guarded) non-implementation of PC operands in this
|
|
; file.
|
|
(dni-cdt-attr
|
|
movepcr "move.d PC,R"
|
|
(MACH-PC UNCOND-CTI)
|
|
"move.d PC,${Rd}"
|
|
(+ Rd MODE_REGISTER R_MOVE SIZE_DWORD (f-source 15))
|
|
(sequence
|
|
((SI pcval))
|
|
(set pcval (add SI pc 2))
|
|
(set Rd pcval)
|
|
(setf-move SI pcval))
|
|
)
|
|
|
|
; MOVEQ i,Rd [ Rd | 001001 | i ]
|
|
(dni-cdt
|
|
moveq "moveq"
|
|
"moveq $i,$Rd"
|
|
(+ Rd MODE_QUICK_IMMEDIATE Q_MOVEQ i)
|
|
(sequence
|
|
((SI newval))
|
|
(set newval i)
|
|
(set Rd newval)
|
|
(setf-moveq newval))
|
|
)
|
|
|
|
(define-pmacro (dni-cdt-sbw name comment syntax fmt fsem)
|
|
"Insn generator for insns with signed <op>.b and <op>.w variants"
|
|
(begin
|
|
(dni-cdt
|
|
(.sym name .b-r) (.str "byte " comment) (.str name ".b " syntax)
|
|
(.splice (.unsplice fmt) SIGNED_BYTE)
|
|
(fsem QI))
|
|
(dni-cdt
|
|
(.sym name .w-r) (.str "word " comment) (.str name ".w " syntax)
|
|
(.splice (.unsplice fmt) SIGNED_WORD)
|
|
(fsem HI)))
|
|
)
|
|
|
|
; MOVS.z Rs,Rd [ Rd | 0100011z | Rs ]
|
|
(dni-cdt-sbw
|
|
movs "movs.m r,R"
|
|
"movs.m ${Rs},${Rd}"
|
|
(+ Rd MODE_REGISTER R_MOVX Rs)
|
|
(.pmacro
|
|
(BW)
|
|
(sequence
|
|
((BW newval))
|
|
(set newval Rs)
|
|
(set Rd (ext SI newval))
|
|
(setf-move SI newval)))
|
|
)
|
|
|
|
(define-pmacro (dni-cdt-ubw name comment syntax fmt fsem)
|
|
"Similar to dni-cdt-sbw but for unsigned operations"
|
|
(begin
|
|
(dni-cdt
|
|
(.sym name .b-r) (.str "byte " comment) (.str name ".b " syntax)
|
|
(.splice (.unsplice fmt) UNSIGNED_BYTE)
|
|
(fsem QI))
|
|
(dni-cdt
|
|
(.sym name .w-r) (.str "word " comment) (.str name ".w " syntax)
|
|
(.splice (.unsplice fmt) UNSIGNED_WORD)
|
|
(fsem HI)))
|
|
)
|
|
|
|
; MOVU.z Rs,Rd [ Rd | 0100010z | Rs ]
|
|
(dni-cdt-ubw
|
|
movu "movu.m r,R"
|
|
"movu.m ${Rs},${Rd}"
|
|
(+ Rd MODE_REGISTER R_MOVX Rs)
|
|
(.pmacro
|
|
(BW)
|
|
(sequence
|
|
((BW newval))
|
|
(set newval Rs)
|
|
(set Rd (zext SI newval))
|
|
(setf-move SI newval)))
|
|
)
|
|
|
|
; (MOVE.m [PC+],Rd [ Rd | 111001mm | 1111 ])
|
|
; For the moment, it doesn't seem worthwhile to make a dni-c-bwd macro;
|
|
; too many places to parametrize.
|
|
(dni-c-QI
|
|
movecbr "move.b [PC+],R"
|
|
"move.b ${sconst8},${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_MOVE_M_R SIZE_BYTE (f-source 15) sconst8)
|
|
(sequence
|
|
((QI newval))
|
|
(set newval sconst8)
|
|
(set-subreg-gr QI (regno Rd) newval)
|
|
(setf-move QI newval))
|
|
)
|
|
|
|
(dni-c-HI
|
|
movecwr "move.w [PC+],R"
|
|
"move.w ${sconst16},${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_MOVE_M_R SIZE_WORD (f-source 15) sconst16)
|
|
(sequence
|
|
((HI newval))
|
|
(set newval sconst16)
|
|
(set-subreg-gr HI (regno Rd) newval)
|
|
(setf-move HI newval))
|
|
)
|
|
|
|
(dni-c-SI
|
|
movecdr "move.d [PC+],R"
|
|
"move.d ${const32},${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_MOVE_M_R SIZE_DWORD (f-source 15) const32)
|
|
(sequence
|
|
((SI newval))
|
|
(set newval const32)
|
|
(set Rd newval)
|
|
(setf-move SI newval))
|
|
)
|
|
|
|
; (MOVS.z [PC+],Rd [ Rd | 1100011z | 1111 ])
|
|
; Similarly, no likely net improvement for a dni-c-bw.
|
|
(dni-c-QI
|
|
movscbr "movs.b [PC+],R"
|
|
"movs.b ${sconst8},${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_MOVX SIGNED_BYTE (f-source 15) sconst8)
|
|
(sequence
|
|
((SI newval))
|
|
; FIXME: Make trunc unnecessary.
|
|
(set newval (ext SI (trunc QI sconst8)))
|
|
(set Rd newval)
|
|
(setf-move SI newval))
|
|
)
|
|
|
|
(dni-c-HI
|
|
movscwr "movs.w [PC+],R"
|
|
"movs.w ${sconst16},${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_MOVX SIGNED_WORD (f-source 15) sconst16)
|
|
(sequence
|
|
((SI newval))
|
|
; FIXME: Make trunc unnecessary.
|
|
(set newval (ext SI (trunc HI sconst16)))
|
|
(set Rd newval)
|
|
(setf-move SI newval))
|
|
)
|
|
|
|
; (MOVU.z [PC+],Rd [ Rd | 1100010z | 1111 ])
|
|
(dni-c-QI
|
|
movucbr "movu.b [PC+],R"
|
|
"movu.b ${uconst8},${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_MOVX UNSIGNED_BYTE (f-source 15) uconst8)
|
|
(sequence
|
|
((SI newval))
|
|
; FIXME: Make trunc unnecessary.
|
|
(set newval (zext SI (trunc QI uconst8)))
|
|
(set Rd newval)
|
|
(setf-move SI newval))
|
|
)
|
|
|
|
(dni-c-HI
|
|
movucwr "movu.w [PC+],R"
|
|
"movu.w ${uconst16},${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_MOVX UNSIGNED_WORD (f-source 15) uconst16)
|
|
(sequence
|
|
((SI newval))
|
|
; FIXME: Make trunc unnecessary.
|
|
(set newval (zext SI (trunc HI uconst16)))
|
|
(set Rd newval)
|
|
(setf-move SI newval))
|
|
)
|
|
|
|
; ADDQ j,Rd [ Rd | 001000 | j ]
|
|
(dni-cdt
|
|
addq "addq j,Rd"
|
|
"addq $j,$Rd"
|
|
(+ Rd MODE_QUICK_IMMEDIATE Q_ADDQ j)
|
|
(cris-arit add SI Rd j)
|
|
)
|
|
|
|
; SUBQ j,Rd [ Rd | 001010| j ]
|
|
(dni-cdt
|
|
subq "subq j,Rd"
|
|
"subq $j,$Rd"
|
|
(+ Rd MODE_QUICK_IMMEDIATE Q_SUBQ j)
|
|
(cris-arit sub SI Rd j)
|
|
)
|
|
|
|
; Convenience macros for insns with a memory operand.
|
|
(define-pmacro
|
|
(dni-cmt-attr-tim name comment attr syntax fmt semantics timing)
|
|
"dni with memory-access"
|
|
(dni name comment attr syntax
|
|
; Specifying MODE_INDIRECT and MODE_AUTOINCREMENT in this
|
|
; manner makes the autoincrementness handily available.
|
|
; It also effectively excludes non-memory use of dni-cmt.
|
|
(.splice (.unsplice fmt) MODEMEMP_YES inc)
|
|
semantics
|
|
timing)
|
|
)
|
|
|
|
(define-pmacro (dni-cmt-attr name comment attr syntax fmt semantics)
|
|
"dni with read memory-access timing"
|
|
(dni-cmt-attr-tim name comment attr syntax fmt semantics
|
|
(cris-mem-timing))
|
|
)
|
|
|
|
(define-pmacro (dni-cmwt-attr name comment attr syntax fmt semantics)
|
|
"dni with write memory-access timing"
|
|
(dni-cmt-attr-tim name comment attr syntax fmt semantics
|
|
(cris-mem-write-timing))
|
|
)
|
|
|
|
(define-pmacro QI-size 1)
|
|
(define-pmacro HI-size 2)
|
|
(define-pmacro SI-size 4)
|
|
|
|
(define-pmacro (cris-get-mem size regop)
|
|
"Handle reading memory in <size>, with source address register\
|
|
(read once, maybe set once) in <regop> or prefixed"
|
|
(sequence
|
|
size
|
|
((SI addr) (size tmp-mem) (BI postinc))
|
|
|
|
; Cache the incrementness of the operand.
|
|
(set postinc inc)
|
|
|
|
; Get the address from somewhere.
|
|
(set addr
|
|
(if SI (eq prefix-set 0)
|
|
; If the insn was prefixed, it's in the prefix-register.
|
|
regop
|
|
prefixreg))
|
|
|
|
; Get the memory contents.
|
|
(set tmp-mem (mem size addr))
|
|
|
|
; For non-prefixed post-increment, we increment the address by the
|
|
; size of the memory access.
|
|
(if (ne postinc 0)
|
|
(sequence
|
|
()
|
|
(if (eq prefix-set 0)
|
|
(set addr (add addr (.sym size -size))))
|
|
; Update the source-register for post-increments.
|
|
(set regop addr)))
|
|
|
|
; Don't forget the return-value.
|
|
tmp-mem)
|
|
)
|
|
|
|
(define-pmacro (cris-set-mem size regop value)
|
|
"Handle writing <value> of <size> to memory, with memory address register\
|
|
(read once, maybe set once) in <regop> or prefixed."
|
|
(sequence
|
|
((SI addr) (BI postinc))
|
|
|
|
; Cache the incrementness of the operand.
|
|
(set postinc inc)
|
|
|
|
; Get the address from somewhere.
|
|
(set addr
|
|
(if SI (eq prefix-set 0)
|
|
; If the insn was prefixed, it's in the prefix-register.
|
|
regop
|
|
prefixreg))
|
|
|
|
; Set the memory contents. Integral-write semantics apply.
|
|
; FIXME: currently v32 only; when proper semantics needed, fix v10.
|
|
(if (andif current-mach-is-v32 (ne xbit 0))
|
|
(if (eq pbit 0)
|
|
(sequence
|
|
()
|
|
(set (mem size addr) value)
|
|
(set cbit 0))
|
|
(set cbit 1))
|
|
(set (mem size addr) value))
|
|
|
|
; For non-prefixed post-increment, we increment the address by the
|
|
; size of the memory access. As for the integral-write, this needs to
|
|
; be tweaked for pre-v32: increment should have been performed if
|
|
; there's a fault at the memory access above.
|
|
(if (ne postinc 0)
|
|
(sequence
|
|
()
|
|
(if (eq prefix-set 0)
|
|
(set addr (add addr (.sym size -size))))
|
|
; Update the source-register for post-increments.
|
|
(set regop addr))))
|
|
)
|
|
|
|
(define-pmacro
|
|
(dni-cmt-bwd-attr-tim name comment attr syntax fmt fsem timing)
|
|
"Core generator macro for insns with <op>.b, <op>.w and <op>.d variants\
|
|
and a memory operand."
|
|
(begin
|
|
(dni-cmt-attr-tim
|
|
(.sym name .b-m)
|
|
(.str "byte mem " comment)
|
|
attr
|
|
(.str name ".b " syntax)
|
|
(.splice (.unsplice fmt) SIZE_BYTE)
|
|
(fsem QI)
|
|
timing)
|
|
(dni-cmt-attr-tim
|
|
(.sym name .w-m)
|
|
(.str "word mem " comment)
|
|
attr
|
|
(.str name ".w " syntax)
|
|
(.splice (.unsplice fmt) SIZE_WORD)
|
|
(fsem HI)
|
|
timing)
|
|
(dni-cmt-attr-tim
|
|
(.sym name .d-m)
|
|
(.str "dword mem " comment)
|
|
attr
|
|
(.str name ".d " syntax)
|
|
(.splice (.unsplice fmt) SIZE_DWORD)
|
|
(fsem SI)
|
|
timing))
|
|
)
|
|
|
|
; Further refinement macros.
|
|
(define-pmacro (dni-cmt-bwd-attr name comment attr syntax fmt fsem)
|
|
(dni-cmt-bwd-attr-tim name comment attr syntax fmt fsem
|
|
(cris-mem-timing))
|
|
)
|
|
|
|
(define-pmacro (dni-cmwt-bwd name comment syntax fmt fsem)
|
|
(dni-cmt-bwd-attr-tim name comment () syntax fmt fsem
|
|
(cris-mem-write-timing))
|
|
)
|
|
|
|
(define-pmacro (dni-cmt-bwd name comment syntax fmt fsem)
|
|
(dni-cmt-bwd-attr name comment () syntax fmt fsem)
|
|
)
|
|
|
|
(define-pmacro (dni-cmt-sbw name comment syntax fmt fsem)
|
|
"Core generator macro for insns with <op>.b and <op>.w variants\
|
|
and a signed memory operand."
|
|
(begin
|
|
(dni-cmt-attr
|
|
(.sym name .b-m) (.str "byte mem " comment)
|
|
()
|
|
(.str name ".b " syntax)
|
|
(.splice (.unsplice fmt) SIGNED_BYTE)
|
|
(fsem QI))
|
|
(dni-cmt-attr
|
|
(.sym name .w-m) (.str "word mem " comment)
|
|
()
|
|
(.str name ".w " syntax)
|
|
(.splice (.unsplice fmt) SIGNED_WORD)
|
|
(fsem HI)))
|
|
)
|
|
|
|
(define-pmacro (dni-cmt-ubw name comment syntax fmt fsem)
|
|
"Core generator macro for insns with <op>.b and <op>.w variants\
|
|
and an unsigned memory operand."
|
|
(begin
|
|
(dni-cmt-attr
|
|
(.sym name .b-m) (.str "byte mem " comment)
|
|
()
|
|
(.str name ".b " syntax)
|
|
(.splice (.unsplice fmt) UNSIGNED_BYTE)
|
|
(fsem QI))
|
|
(dni-cmt-attr
|
|
(.sym name .w-m) (.str "word mem " comment)
|
|
()
|
|
(.str name ".w " syntax)
|
|
(.splice (.unsplice fmt) UNSIGNED_WORD)
|
|
(fsem HI)))
|
|
)
|
|
|
|
; CMP.m Rs,Rd [ Rd | 011011mm | Rs ]
|
|
(dni-cdt-bwd
|
|
cmp-r "compare register to register"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER R_CMP Rs)
|
|
(.pmacro
|
|
(BWD)
|
|
(cris-arit6-int
|
|
sub BWD (.pmacro (sz regno val) (nop)) 0
|
|
Rd Rs cbit cbit))
|
|
)
|
|
|
|
; CMP.m [Rs],Rd [ Rd | 101011mm | Rs ]
|
|
; CMP.m [Rs+],Rd [ Rd | 111011mm | Rs ]
|
|
(dni-cmt-bwd
|
|
cmp-m "compare memory to register"
|
|
"[${Rs}${inc}],${Rd}"
|
|
(+ INDIR_CMP Rs Rd)
|
|
(.pmacro
|
|
(BWD)
|
|
(cris-arit6-int
|
|
sub BWD (.pmacro (sz regno val) (nop)) 0
|
|
Rd (cris-get-mem BWD Rs) cbit cbit))
|
|
)
|
|
|
|
; (CMP.m [PC+],Rd [ Rd | 111011mm | 1111 ])
|
|
(dni-c-QI
|
|
cmpcbr "cmp constant byte to register"
|
|
"cmp.b $sconst8,$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_CMP SIZE_BYTE (f-source 15) sconst8)
|
|
(cris-arit6-int
|
|
sub QI (.pmacro (sz regno val) (nop)) 0
|
|
Rd (trunc QI sconst8) cbit cbit)
|
|
)
|
|
|
|
(dni-c-HI
|
|
cmpcwr "cmp constant word to register"
|
|
"cmp.w $sconst16,$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_CMP SIZE_WORD (f-source 15) sconst16)
|
|
(cris-arit6-int
|
|
sub HI (.pmacro (sz regno val) (nop)) 0
|
|
Rd (trunc HI sconst16) cbit cbit)
|
|
)
|
|
|
|
(dni-c-SI
|
|
cmpcdr "cmp constant dword to register"
|
|
"cmp.d $const32,$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_CMP SIZE_DWORD (f-source 15) const32)
|
|
(cris-arit6-int
|
|
sub SI (.pmacro (sz regno val) (nop)) 0
|
|
Rd const32 cbit cbit)
|
|
)
|
|
|
|
; CMPQ i,Rd [ Rd | 001011 | i ]
|
|
(dni-cdt
|
|
cmpq "cmpq i,Rd"
|
|
"cmpq $i,$Rd"
|
|
(+ Rd MODE_QUICK_IMMEDIATE Q_CMPQ i)
|
|
(cris-arit6-int
|
|
sub SI (.pmacro (sz regno val) (nop)) 0
|
|
Rd i cbit cbit)
|
|
)
|
|
|
|
; CMPS.z [Rs],Rd [ Rd | 1000111z | Rs ]
|
|
; CMPS.z [Rs+],Rd [ Rd | 1100111z | Rs ]
|
|
(dni-cmt-sbw
|
|
cmps-m "cmp sign-extended from memory to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd INDIR_CMPX Rs)
|
|
(.pmacro
|
|
(BW)
|
|
(cris-arit6-int
|
|
sub SI (.pmacro (sz regno val) (nop)) 0
|
|
Rd ((.sym BW -ext) (cris-get-mem BW Rs)) cbit cbit))
|
|
)
|
|
|
|
; (CMPS.z [PC+],Rd [ Rd | 1100111z | 1111 ])
|
|
(dni-c-QI
|
|
cmpscbr "cmp sign-extended constant byte to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_CMPX SIGNED_BYTE (f-source 15) sconst8)
|
|
(cris-arit6-int
|
|
sub SI (.pmacro (sz regno val) (nop)) 0
|
|
Rd (ext SI (trunc QI sconst8)) cbit cbit)
|
|
)
|
|
(dni-c-HI
|
|
cmpscwr "cmp sign-extended constant word to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_CMPX SIGNED_WORD (f-source 15) sconst16)
|
|
(cris-arit6-int
|
|
sub SI (.pmacro (sz regno val) (nop)) 0
|
|
Rd (ext SI (trunc HI sconst16)) cbit cbit)
|
|
)
|
|
|
|
; CMPU.z [Rs],Rd [ Rd | 1000110z | Rs ]
|
|
; CMPU.z [Rs+],Rd [ Rd | 1100110z | Rs ]
|
|
(dni-cmt-ubw
|
|
cmpu-m "cmp zero-extended from memory to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd INDIR_CMPX Rs)
|
|
(.pmacro
|
|
(BW)
|
|
(cris-arit6-int
|
|
sub SI (.pmacro (sz regno val) (nop)) 0
|
|
Rd ((.sym BW -zext) (cris-get-mem BW Rs)) cbit cbit))
|
|
)
|
|
|
|
; (CMPU.z [PC+],Rd [ Rd | 1100110z | 1111 ])
|
|
(dni-c-QI
|
|
cmpucbr "cmp zero-extended constant byte to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_CMPX UNSIGNED_BYTE (f-source 15) uconst8)
|
|
(cris-arit6-int
|
|
sub SI (.pmacro (sz regno val) (nop)) 0
|
|
Rd (zext SI (trunc QI uconst8)) cbit cbit)
|
|
)
|
|
(dni-c-HI
|
|
cmpucwr "cmp zero-extended constant word to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_CMPX UNSIGNED_WORD (f-source 15) uconst16)
|
|
(cris-arit6-int
|
|
sub SI (.pmacro (sz regno val) (nop)) 0
|
|
Rd (zext SI (trunc HI uconst16)) cbit cbit)
|
|
)
|
|
|
|
; MOVE.m [Rs],Rd [ Rd | 101001mm | Rs ]
|
|
; MOVE.m [Rs+],Rd [ Rd | 111001mm | Rs ]
|
|
(dni-cmt-bwd
|
|
move-m "move from memory to register"
|
|
"[${Rs}${inc}],${Rd}"
|
|
(+ INDIR_MOVE_M_R Rs Rd)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((SI tmp))
|
|
(set tmp (cris-get-mem BWD Rs))
|
|
(set-subreg-gr
|
|
BWD
|
|
(if SI (andif prefix-set (not inc)) (regno Rs) (regno Rd))
|
|
tmp)
|
|
(setf-move BWD tmp)))
|
|
)
|
|
|
|
; MOVS.z [Rs],Rd [ Rd | 1000011z | Rs ]
|
|
; MOVS.z [Rs+],Rd [ Rd | 1100011z | Rs ]
|
|
(dni-cmt-sbw
|
|
movs-m "movs from memory to register"
|
|
"[${Rs}${inc}],${Rd}"
|
|
(+ INDIR_MOVX Rs Rd)
|
|
(.pmacro
|
|
(BW)
|
|
(sequence
|
|
((SI tmp))
|
|
(set tmp (ext SI (cris-get-mem BW Rs)))
|
|
(if (andif prefix-set (not inc))
|
|
(set Rs tmp)
|
|
(set Rd tmp))
|
|
(setf-move SI tmp)))
|
|
)
|
|
|
|
; MOVU.z [Rs],Rd [ Rd | 1000010z | Rs ]
|
|
; MOVU.z [Rs+],Rd [ Rd | 1100010z | Rs ]
|
|
(dni-cmt-ubw
|
|
movu-m "movu from memory to register"
|
|
"[${Rs}${inc}],${Rd}"
|
|
(+ INDIR_MOVX Rs Rd)
|
|
(.pmacro
|
|
(BW)
|
|
(sequence
|
|
((SI tmp))
|
|
(set tmp (zext SI (cris-get-mem BW Rs)))
|
|
(if (andif prefix-set (not inc))
|
|
(set Rs tmp)
|
|
(set Rd tmp))
|
|
(setf-move SI tmp)))
|
|
)
|
|
|
|
; MOVE Rs,Pd [ Pd | 01100011 | Rs ]
|
|
(.splice
|
|
begin
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro
|
|
(VER)
|
|
(dni
|
|
(.sym move-r-spr VER)
|
|
"Move from general register to special register"
|
|
((MACH (.sym cris VER)))
|
|
"move ${Rs},${Pd}"
|
|
(+ RFIX_MOVE_R_S MODE_REGISTER SIZE_FIXED Rs Pd)
|
|
(sequence
|
|
((SI tmp) (SI rno))
|
|
(set tmp Rs)
|
|
(set rno (regno Pd))
|
|
(cond
|
|
; See reg-sr setter for most of the special-register semantics.
|
|
; The sanity check for known read-only registers is for program
|
|
; debug help; the real insn would be harmless and have no effect.
|
|
; CGEN-FIXME: regno of symbolic h-sr names doesn't work here.
|
|
((orif (orif (eq rno 0) (eq rno 1)) (orif (eq rno 4) (eq rno 8)))
|
|
(error "move-r-spr: trying to set a read-only special register"))
|
|
(else (set Pd tmp)))
|
|
(reset-x-p))
|
|
(cris-reg-sr-timing)))
|
|
(cris-cpu-models)))
|
|
)
|
|
|
|
(define-pmacro (dni-cdt-ver-attr name comment fattr syntax fmt fsem)
|
|
"Generator for each MACH, using default timing."
|
|
(.splice
|
|
begin
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro (v) (dni-cdt-attr name comment (fattr v) syntax fmt (fsem v)))
|
|
(cris-cpu-models))))
|
|
)
|
|
|
|
; MOVE Ps,Rd [ Ps | 01100111 | Rd ]
|
|
; Note that in the insn format, the Rd operand is in the Rs field (the
|
|
; Rd field by the definition used everywhere else is the Ps position in
|
|
; this insn).
|
|
; It gets a little weird here because we can't get this insn into a
|
|
; define-pmacro unless we make named pmacros for e.g. a separate attr
|
|
; function and a semantics function: a .pmacro can't refer to the
|
|
; parameters of the outer define-pmacro. (The manual refers to this as
|
|
; not implementing "lexical scoping").
|
|
(.splice
|
|
begin
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro
|
|
(VER)
|
|
(dni-cdt-attr
|
|
(.sym move-spr-r VER)
|
|
"Move from special register to general register"
|
|
((MACH (.sym cris VER)))
|
|
"move ${Ps},${Rd-sfield}"
|
|
(+ Ps RFIX_MOVE_S_R MODE_REGISTER SIZE_FIXED Rd-sfield)
|
|
(sequence
|
|
((SI grno) (SI prno) (SI newval))
|
|
(set prno (regno Ps))
|
|
; CGEN-FIXME: Can't use the following and then "grno" below because
|
|
; CGEN will emit a "tmp_grno" *also* in decodev32.c:crisv32f_decode
|
|
; (set grno (regno Rd-sfield))
|
|
(set newval Ps)
|
|
(.splice
|
|
cond
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro
|
|
(r)
|
|
((eq prno (.cadr2 r))
|
|
(set-subreg-gr (.car2 r) (regno Rd-sfield) newval)))
|
|
((.sym cris-implemented-specregs- VER))))
|
|
(else (error "move-spr-r from unimplemented register")))
|
|
(reset-x-p))))
|
|
(cris-cpu-models)))
|
|
)
|
|
|
|
; MOVE Ps,PC [ Ps | 01100111 | 1111 ]
|
|
; The move-special-register-to-pc insns are return-type instructions and
|
|
; have to be special-cased to get the delay-slot and avoid being indicated
|
|
; as invalid.
|
|
(dni-cdt-attr
|
|
ret-type
|
|
"ret-type"
|
|
(MACH-PC)
|
|
"ret/reti/retb"
|
|
(+ Ps MODE_REGISTER RFIX_MOVE_S_R SIZE_FIXED (f-source 15))
|
|
(sequence
|
|
((SI retaddr))
|
|
(set retaddr Ps)
|
|
(reset-x-p)
|
|
(delay 1 (set pc retaddr)))
|
|
)
|
|
|
|
; MOVE [Rs],Pd [ Pd | 10100011 | Rs ]
|
|
; MOVE [Rs+],Pd [ Pd | 11100011 | Rs ]
|
|
; We make variants that loads constants or memory for each MACH version,
|
|
; since each consider some subset of the "special registers" to have
|
|
; different sizes. FIXME: Should be able to simplify this.
|
|
(.splice
|
|
begin
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro
|
|
(VER)
|
|
(dni
|
|
(.sym move-m-spr VER)
|
|
"Move from memory to special register"
|
|
((MACH (.sym cris VER)))
|
|
"move [${Rs}${inc}],${Pd}"
|
|
(+ Pd INFIX_MOVE_M_S MODEMEMP_YES inc SIZE_FIXED Rs)
|
|
(sequence
|
|
((SI rno) (SI newval))
|
|
(set rno (regno Pd))
|
|
(.splice
|
|
cond
|
|
; No sanity check for constant special register here, since the
|
|
; memory read side-effect or post-increment may be the goal, or
|
|
; for pre-v32 a prefix assignment side-effect.
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro
|
|
(r)
|
|
((eq rno (.cadr2 r))
|
|
(set newval ((.sym (.car2 r) -ext) (cris-get-mem (.car2 r) Rs)))))
|
|
((.sym cris-implemented-specregs- VER))))
|
|
(else (error "Trying to set unimplemented special register")))
|
|
(set Pd newval)
|
|
(reset-x-p))
|
|
(cris-mem-sr-timing)))
|
|
(cris-cpu-models)))
|
|
)
|
|
|
|
(define-pmacro QI-operand sconst8)
|
|
(define-pmacro HI-operand sconst16)
|
|
(define-pmacro SI-operand const32)
|
|
|
|
(define-pmacro
|
|
(cris-move-c-spr VER VERFN)
|
|
"Generator for loading constant into special register"
|
|
(.splice
|
|
begin
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro
|
|
(srdef v)
|
|
(dni
|
|
(.sym move-c-spr v -p (.cadr2 srdef))
|
|
(.str "Move constant to special register p" (.cadr2 srdef))
|
|
((MACH (.sym cris v)))
|
|
(.str "move ${" (.sym (.car2 srdef) -operand) "},${Pd}")
|
|
; We use Pd in semantics without naming it in the format (which
|
|
; would CGEN-FIXME: cause a CGEN error for some reason, likely
|
|
; related to specifying an insn field multiple times). This
|
|
; currently works and is guarded with test-cases (specifically
|
|
; wrt. the timing model) but may need to be tweaked in the future.
|
|
; Note that using instead (ifield f-dest) causes incorrect timing
|
|
; model to be generated; the timing model requires that Pd is set.
|
|
(+ (f-dest (.cadr2 srdef)) MODE_AUTOINCREMENT INFIX_MOVE_M_S SIZE_FIXED
|
|
(f-source 15) (.sym (.car2 srdef) -operand))
|
|
(sequence
|
|
()
|
|
(set Pd (.sym (.car2 srdef) -operand)) ; (reg h-sr (.cadr2 srdef))
|
|
(reset-x-p))
|
|
((.sym cris-timing-const-sr- (.car2 srdef)))))
|
|
((.sym cris-implemented-specregs-const- VER))
|
|
(.map VERFN ((.sym cris-implemented-specregs-const- VER))))))
|
|
)
|
|
|
|
; CGEN-FIXME:
|
|
; Unfortunately we can't iterate over the list of models due to the
|
|
; problem with referring to the parameters of a surrounding pmacro from
|
|
; within an enclosed .pmacro (perhaps related to "lexical scoping").
|
|
; We get e.g. 'insn already defined:: (move-c-sprvn-p0)' with this:
|
|
;(.splice
|
|
; begin (.unsplice (.map (.pmacro (vn) (cris-move-c-spr vn (.pmacro (x) vn)))
|
|
; (cris-cpu-models)))
|
|
;)
|
|
(cris-move-c-spr v0 (.pmacro (x) v0))
|
|
(cris-move-c-spr v3 (.pmacro (x) v3))
|
|
(cris-move-c-spr v8 (.pmacro (x) v8))
|
|
(cris-move-c-spr v10 (.pmacro (x) v10))
|
|
(cris-move-c-spr v32 (.pmacro (x) v32))
|
|
|
|
; MOVE Ps,[Rd] [ Ps | 10100111 | Rd ]
|
|
; MOVE Ps,[Rd+] [ Ps | 11100111 | Rd ]
|
|
(.splice
|
|
begin
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro
|
|
(VER)
|
|
(dni-cmwt-attr
|
|
(.sym move-spr-m VER)
|
|
"Move from special register to memory"
|
|
((MACH (.sym cris VER)))
|
|
"move ${Ps},[${Rd-sfield}${inc}]"
|
|
(+ INFIX_MOVE_S_M SIZE_FIXED Rd-sfield Ps)
|
|
(sequence
|
|
((SI rno))
|
|
(set rno (regno Ps))
|
|
(.splice
|
|
cond
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro
|
|
(r)
|
|
((eq rno (.cadr2 r))
|
|
(cris-set-mem (.car2 r) Rd-sfield Ps)))
|
|
((.sym cris-implemented-specregs- VER))))
|
|
(else (error "write from unimplemented special register")))
|
|
(reset-x-p))))
|
|
(cris-cpu-models)))
|
|
)
|
|
|
|
; SBFS [Rs(+)]
|
|
; Instruction format: |0 0 1 1 1 m 1 1 0 1 1 1| Dest. |
|
|
(dni-cdt-attr
|
|
sbfs
|
|
"sbfs"
|
|
((MACH crisv10))
|
|
"sbfs [${Rd-sfield}${inc}]"
|
|
(+ (f-dest 3) INFIX_SBFS SIZE_FIXED MODEMEMP_YES inc Rd-sfield)
|
|
(error "SBFS isn't implemented")
|
|
)
|
|
|
|
; MOVE Ss,Rd [ Ss | 11110111 | Rd ]
|
|
(dni-cdt-attr
|
|
move-ss-r
|
|
"move from support register to general register"
|
|
(MACH-V32)
|
|
"move ${Ss},${Rd-sfield}"
|
|
(+ Ss INFIX_MOVE_SS SIZE_FIXED (f-mode 3) Rd-sfield)
|
|
(sequence
|
|
()
|
|
(set Rd-sfield Ss)
|
|
(reset-x-p))
|
|
)
|
|
|
|
; MOVE Rs,Sd [ Sd | 10110111 | Rs ]
|
|
(dni-cdt-attr
|
|
move-r-ss
|
|
"move from general register to support register"
|
|
(MACH-V32)
|
|
"move ${Rs},${Sd}"
|
|
(+ Sd INFIX_MOVE_SS SIZE_FIXED (f-mode 2) Rs)
|
|
(sequence
|
|
()
|
|
(set Sd Rs)
|
|
(reset-x-p))
|
|
)
|
|
|
|
; MOVEM Rs,[Rd] [ Rs | 10111111 | Rd ]
|
|
; MOVEM Rs,[Rd+] [ Rs | 11111111 | Rd ]
|
|
|
|
(define-pmacro (movem-to-mem-step regn)
|
|
; Without the SI attribute, UINT is generated, which isn't supported by
|
|
; the sim framework.
|
|
(if (ge SI (regno Rs-dfield) regn)
|
|
(sequence
|
|
((SI tmp))
|
|
(set tmp (reg h-gr regn))
|
|
(set (mem SI addr) tmp)
|
|
(set addr (add addr 4))))
|
|
)
|
|
|
|
(dni
|
|
movem-r-m
|
|
"movem to memory"
|
|
(MACH-PRE-V32)
|
|
"movem ${Rs-dfield},[${Rd-sfield}${inc}]"
|
|
(+ INFIX_MOVEM_R_M MODEMEMP_YES inc SIZE_FIXED Rs-dfield Rd-sfield)
|
|
(sequence
|
|
((SI addr) (BI postinc))
|
|
; FIXME: A copy of what's in cris-get-mem.
|
|
|
|
; Cache the incrementness of the operand.
|
|
(set postinc inc)
|
|
|
|
; CGEN-FIXME: Kludge to work around a CGEN bug: it doesn't see that
|
|
; Rs-dfield is used as an input, causing the timing model to be wrong.
|
|
(sequence ((SI dummy)) (set dummy Rs-dfield))
|
|
|
|
; Get the address from somewhere. If the insn was prefixed, it's in
|
|
; the prefix-register.
|
|
(set addr
|
|
(if SI (eq prefix-set 0)
|
|
Rd-sfield
|
|
prefixreg))
|
|
|
|
(.splice
|
|
sequence ()
|
|
(.unsplice (.map movem-to-mem-step (.iota 16 15 -1))))
|
|
|
|
; Update the source-register for post-increments.
|
|
(if (ne postinc 0)
|
|
(set Rd-sfield
|
|
(if SI (eq prefix-set 0) addr prefixreg)))
|
|
(reset-x-p))
|
|
(simplecris-movem-timing)
|
|
)
|
|
|
|
(dni
|
|
movem-r-m-v32
|
|
"movem to memory"
|
|
(MACH-V32)
|
|
"movem ${Rs-dfield},[${Rd-sfield}${inc}]"
|
|
(+ INFIX_MOVEM_R_M MODEMEMP_YES inc SIZE_FIXED Rs-dfield Rd-sfield)
|
|
(sequence
|
|
((SI addr) (BI postinc))
|
|
; FIXME: Mostly a copy of what's in cris-get-mem.
|
|
|
|
; Cache the incrementness of the operand.
|
|
(set postinc inc)
|
|
|
|
; CGEN-FIXME: See movem-r-m.
|
|
(sequence ((SI dummy)) (set dummy Rs-dfield))
|
|
|
|
(set addr Rd-sfield)
|
|
|
|
(.splice
|
|
sequence ()
|
|
(.unsplice (.map movem-to-mem-step (.iota 16))))
|
|
|
|
; Update the source-register for post-increments.
|
|
(if (ne postinc 0)
|
|
(set Rd-sfield addr))
|
|
(reset-x-p))
|
|
; Unit u-mem must be specified before the u-movem-* for memory address
|
|
; register stall count to be right.
|
|
((crisv32 (unit u-mem) (unit u-movem-rtom) (unit u-exec-movem)
|
|
(unit u-mem-w)))
|
|
)
|
|
|
|
; MOVEM [Rs],Rd [ Rd | 10111011 | Rs ]
|
|
; MOVEM [Rs+],Rd [ Rd | 11111011 | Rs ]
|
|
|
|
(define-pmacro
|
|
(movem-to-reg-step regn)
|
|
; Without the SI attribute, UINT is generated, which isn't supported by
|
|
; the sim framework.
|
|
(if (ge SI (regno Rd) regn)
|
|
(sequence
|
|
((SI tmp))
|
|
(set tmp (mem SI addr))
|
|
(set (reg h-gr regn) tmp)
|
|
(set addr (add addr 4))))
|
|
)
|
|
|
|
(dni
|
|
movem-m-r
|
|
"movem to register"
|
|
(MACH-PRE-V32)
|
|
"movem [${Rs}${inc}],${Rd}"
|
|
(+ Rd INFIX_MOVEM_M_R MODEMEMP_YES inc SIZE_FIXED Rs)
|
|
(sequence
|
|
((SI addr) (BI postinc))
|
|
; FIXME: Mostly a copy of what's in cris-get-mem.
|
|
|
|
; Cache the incrementness of the operand.
|
|
(set postinc inc)
|
|
|
|
; Get the address from somewhere. If the insn was prefixed, it's in
|
|
; the prefix-register.
|
|
(set addr
|
|
(if SI (eq prefix-set 0)
|
|
Rs
|
|
prefixreg))
|
|
|
|
; CGEN-FIXME: See movem-r-m.
|
|
(sequence ((SI dummy)) (set dummy Rd))
|
|
|
|
(.splice
|
|
sequence ()
|
|
; The first movem step is left out because it can't happen; it's for
|
|
; PC destination. See the pattern below.
|
|
(.unsplice (.map movem-to-reg-step (.iota 15 14 -1))))
|
|
|
|
; Update the source-register for post-increments.
|
|
; FIXME: No postinc-prefixed for v0 IIRC.
|
|
(if (ne postinc 0)
|
|
(set Rs (if SI (eq prefix-set 0) addr prefixreg)))
|
|
(reset-x-p))
|
|
(simplecris-movem-timing)
|
|
)
|
|
|
|
; (MOVEM [Rs],PC [ 1111 | 10111011 | Rs ])
|
|
; (MOVEM [Rs+],PC [ 1111 | 11111011 | Rs ])
|
|
; We have to special-case it for PC destination; used in longjump.
|
|
; We shouldn't *have* to special-case it; the main reason is (FIXME:)
|
|
; misgeneration of the simulator when the PC case is folded into the
|
|
; generic PRE-V32 movem; possibly related to then being a COND-CTI rather
|
|
; than an UNCOND-CTI.
|
|
(dni-cmt-attr
|
|
movem-m-pc
|
|
"movem to register, ending with PC"
|
|
(MACH-PRE-V32)
|
|
"movem [${Rs}${inc}],${Rd}"
|
|
(+ (f-dest 15) INFIX_MOVEM_M_R SIZE_FIXED Rs)
|
|
(sequence
|
|
((SI addr) (BI postinc))
|
|
; FIXME: Mostly a copy of what's in cris-get-mem.
|
|
|
|
; Cache the incrementness of the operand.
|
|
(set postinc inc)
|
|
|
|
; Get the address from somewhere. If the insn was prefixed, it's in
|
|
; the prefix-register.
|
|
(set addr
|
|
(if SI (eq prefix-set 0)
|
|
Rs
|
|
prefixreg))
|
|
|
|
; FIXME: Add kludge here too *and* a test-case.
|
|
|
|
(.splice
|
|
sequence ()
|
|
; The first movem step is for PC destination, used in longjmp.
|
|
(set pc (mem SI addr))
|
|
(set addr (add addr 4))
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro
|
|
(regn)
|
|
(sequence
|
|
((SI tmp))
|
|
(set tmp (mem SI addr))
|
|
(set (reg h-gr regn) tmp)
|
|
(set addr (add addr 4))))
|
|
(.iota 15 14 -1))))
|
|
|
|
; Update the source-register for post-increments.
|
|
; FIXME: No postinc-prefixed for v0.
|
|
(if (ne postinc 0)
|
|
(set Rs (if SI (eq prefix-set 0) addr prefixreg)))
|
|
(reset-x-p))
|
|
)
|
|
|
|
(dni
|
|
movem-m-r-v32
|
|
"movem to register"
|
|
(MACH-V32)
|
|
"movem [${Rs}${inc}],${Rd}"
|
|
(+ INFIX_MOVEM_M_R MODEMEMP_YES inc SIZE_FIXED Rs Rd)
|
|
(sequence
|
|
((SI addr) (BI postinc))
|
|
; FIXME: A copy of what's in cris-get-mem
|
|
|
|
; Cache the incrementness of the operand.
|
|
(set postinc inc)
|
|
|
|
; Get the address from somewhere.
|
|
(set addr Rs)
|
|
|
|
; CGEN-FIXME: See movem-r-m.
|
|
(sequence ((SI dummy)) (set dummy Rd))
|
|
|
|
(.splice
|
|
sequence ()
|
|
(.unsplice (.map movem-to-reg-step (.iota 16))))
|
|
|
|
; Update the source-register for post-increments.
|
|
; FIXME: No postinc-prefixed for v0 IIRC.
|
|
(if (ne postinc 0)
|
|
(set Rs addr))
|
|
(reset-x-p))
|
|
; u-mem must be specified before the u-movem-* for memory source
|
|
; register stall count to be right.
|
|
((crisv32 (unit u-mem) (unit u-mem-r) (unit u-movem-mtor)
|
|
(unit u-exec-movem)))
|
|
)
|
|
|
|
; ADD.m Rs,Rd [ Rd | 011000mm | Rs ]
|
|
(dni-cdt-bwd
|
|
add "add from register to register"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER R_ADD Rs)
|
|
(.pmacro (BWD) (cris-arit add BWD Rd Rs))
|
|
)
|
|
|
|
; ADD.m [Rs],Rd [ Rd | 101000mm | Rs ]
|
|
; ADD.m [Rs+],Rd [ Rd | 111000mm | Rs ]
|
|
(dni-cmt-bwd
|
|
add-m "add from memory to register"
|
|
"[${Rs}${inc}],${Rd}"
|
|
(+ INDIR_ADD Rs Rd)
|
|
(.pmacro (BWD) (cris-arit-3op add BWD Rd (cris-get-mem BWD Rs) Rs))
|
|
)
|
|
; (ADD.m [PC+],Rd [ Rd | 111000mm | 1111 ])
|
|
(dni-c-QI
|
|
addcbr "add constant byte to register"
|
|
"add.b ${sconst8}],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_ADD SIZE_BYTE (f-source 15) sconst8)
|
|
(cris-arit add QI Rd sconst8)
|
|
)
|
|
|
|
(dni-c-HI
|
|
addcwr "add constant word to register"
|
|
"add.w ${sconst16}],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_ADD SIZE_WORD (f-source 15) sconst16)
|
|
(cris-arit add HI Rd sconst16)
|
|
)
|
|
|
|
(dni-c-SI
|
|
addcdr "add constant dword to register"
|
|
"add.d ${const32}],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_ADD SIZE_DWORD (f-source 15) const32)
|
|
(cris-arit add SI Rd const32)
|
|
)
|
|
|
|
; (ADD.D [PC+],PC [ 1111 | 11100010 | 1111 ])
|
|
; This insn is used for DSO-local jumps in PIC code.
|
|
(dni
|
|
addcpc "Relative jump by adding constant to PC"
|
|
(MACH-PC)
|
|
"add.d ${sconst32},PC"
|
|
(+ (f-dest 15) MODE_AUTOINCREMENT INDIR_ADD SIZE_DWORD (f-source 15) const32)
|
|
(sequence
|
|
((SI newpc) (SI oldpc) (SI offs))
|
|
(set offs const32)
|
|
(set oldpc (add SI pc 6))
|
|
(set newpc (add SI oldpc offs))
|
|
(set pc newpc)
|
|
(setf-arit SI add oldpc offs newpc cbit))
|
|
(simplecris-common-timing ((unit u-const32) (unit u-stall) (unit u-exec)))
|
|
)
|
|
|
|
; ADDS.z Rs,Rd [ Rd | 0100001z | Rs ]
|
|
(dni-cdt-sbw
|
|
adds "add sign-extended from register to register"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER R_ADDX Rs)
|
|
(.pmacro (BW) (cris-arit add SI Rd ((.sym BW -ext) (trunc BW Rs))))
|
|
)
|
|
|
|
; ADDS.z [Rs],Rd [ Rd | 1000001z | Rs ]
|
|
; ADDS.z [Rs+],Rd [ Rd | 1100001z | Rs ]
|
|
(dni-cmt-sbw
|
|
adds-m "add sign-extended from memory to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd INDIR_ADDX Rs)
|
|
(.pmacro (BW) (cris-arit-3op add SI Rd ((.sym BW -ext) (cris-get-mem BW Rs)) Rs))
|
|
)
|
|
|
|
; (ADDS.z [PC+],Rd [ Rd | 1100001z | 1111 ])
|
|
(dni-c-QI
|
|
addscbr "add sign-extended constant byte to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_ADDX SIGNED_BYTE (f-source 15) sconst8)
|
|
(cris-arit add SI Rd (ext SI (trunc QI sconst8)))
|
|
)
|
|
(dni-c-HI
|
|
addscwr "add sign-extended constant word to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_ADDX SIGNED_WORD (f-source 15) sconst16)
|
|
(cris-arit add SI Rd (ext SI (trunc HI sconst16)))
|
|
)
|
|
|
|
; (ADDS.w [],PC [ 1111 | 10000011 | 1111 ])
|
|
; For a PC destination, we support only the two-operand case
|
|
; (dest == src), which is used in switch/case statements.
|
|
; FIXME: Should implement ADD.D [PC],PC and ADDS.B [PC],PC for use if/when
|
|
; implementing CASE_VECTOR_SHORTEN_MODE.
|
|
(dni
|
|
addspcpc "add sign-extended prefixed arg to PC"
|
|
(MACH-PC)
|
|
"adds.w [PC],PC"
|
|
(+ (f-dest 15) MODE_INDIRECT INDIR_ADDX SIGNED_WORD (f-source 15))
|
|
(sequence
|
|
((SI newpc) (SI oldpc) (HI offs))
|
|
(if (not prefix-set)
|
|
(error "Unexpected adds.w [PC],PC without prefix"))
|
|
; We don't use cris-get-mem but instead special-case this one, since we
|
|
; have most instruction fields fixed where cris-get-mem expects
|
|
; field-parametrization by certain names.
|
|
(set offs (mem HI prefixreg))
|
|
(set oldpc (add SI pc 2))
|
|
(set newpc (add SI oldpc offs))
|
|
(set pc newpc)
|
|
(setf-arit SI add oldpc (ext SI offs) newpc cbit))
|
|
(simplecris-common-timing ((unit u-mem) (unit u-stall) (unit u-exec)))
|
|
)
|
|
|
|
; ADDU.z Rs,Rd [ Rd | 0100000z | Rs ]
|
|
(dni-cdt-ubw
|
|
addu "add zero-extended from register to register"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER R_ADDX Rs)
|
|
(.pmacro (BW) (cris-arit add SI Rd ((.sym BW -zext) (trunc BW Rs))))
|
|
)
|
|
|
|
; ADDU.z [Rs],Rd [ Rd | 1000000z | Rs ]
|
|
; ADDU.z [Rs+],Rd [ Rd | 1100000z | Rs ]
|
|
(dni-cmt-ubw
|
|
addu-m "add zero-extended from memory to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd INDIR_ADDX Rs)
|
|
(.pmacro (BW)
|
|
(cris-arit-3op add SI Rd ((.sym BW -zext) (cris-get-mem BW Rs)) Rs))
|
|
)
|
|
|
|
; (ADDU.z [PC+],Rd [ Rd | 1100000z | 1111 ])
|
|
(dni-c-QI
|
|
adducbr "add zero-extended constant byte to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_ADDX UNSIGNED_BYTE (f-source 15) sconst8)
|
|
(cris-arit add SI Rd (zext SI (trunc QI sconst8)))
|
|
)
|
|
(dni-c-HI
|
|
adducwr "add zero-extended constant word to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_ADDX UNSIGNED_WORD (f-source 15) sconst16)
|
|
(cris-arit add SI Rd (zext SI (trunc HI sconst16)))
|
|
)
|
|
|
|
; SUB.m Rs,Rd [ Rd | 011010mm | Rs ]
|
|
(dni-cdt-bwd
|
|
sub "subtract from register to register"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER R_SUB Rs)
|
|
(.pmacro (BWD) (cris-arit sub BWD Rd Rs))
|
|
)
|
|
|
|
; SUB.m [Rs],Rd [ Rd | 101010mm | Rs ]
|
|
; SUB.m [Rs+],Rd [ Rd | 111010mm | Rs ]
|
|
(dni-cmt-bwd
|
|
sub-m "subtract from memory to register"
|
|
"[${Rs}${inc}],${Rd}"
|
|
(+ INDIR_SUB Rs Rd)
|
|
(.pmacro (BWD) (cris-arit-3op sub BWD Rd (cris-get-mem BWD Rs) Rs))
|
|
)
|
|
|
|
; (SUB.m [PC+],Rd [ Rd | 111010mm | 1111 ]
|
|
(dni-c-QI
|
|
subcbr "subtract constant byte from register"
|
|
"sub.b ${sconst8}],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_SUB SIZE_BYTE (f-source 15) sconst8)
|
|
(cris-arit sub QI Rd sconst8)
|
|
)
|
|
|
|
(dni-c-HI
|
|
subcwr "subtract constant word from register"
|
|
"sub.w ${sconst16}],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_SUB SIZE_WORD (f-source 15) sconst16)
|
|
(cris-arit sub HI Rd sconst16)
|
|
)
|
|
|
|
(dni-c-SI
|
|
subcdr "subtract constant dword from register"
|
|
"sub.d ${const32}],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_SUB SIZE_DWORD (f-source 15) const32)
|
|
(cris-arit sub SI Rd const32)
|
|
)
|
|
|
|
; SUBS.z Rs,Rd [ Rd | 0100101z | Rs ]
|
|
(dni-cdt-sbw
|
|
subs "sub sign-extended from register to register"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER R_SUBX Rs)
|
|
(.pmacro (BW) (cris-arit sub SI Rd ((.sym BW -ext) (trunc BW Rs))))
|
|
)
|
|
|
|
; SUBS.z [Rs],Rd [ Rd | 1000101z | Rs ]
|
|
; SUBS.z [Rs+],Rd [ Rd | 1100101z | Rs ]
|
|
(dni-cmt-sbw
|
|
subs-m "sub sign-extended from memory to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd INDIR_SUBX Rs)
|
|
(.pmacro (BW)
|
|
(cris-arit-3op sub SI Rd ((.sym BW -ext) (cris-get-mem BW Rs)) Rs))
|
|
)
|
|
|
|
; (SUBS.z [PC+],Rd [ Rd | 1100101z | 1111 ])
|
|
(dni-c-QI
|
|
subscbr "sub sign-extended constant byte to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_SUBX SIGNED_BYTE (f-source 15) sconst8)
|
|
(cris-arit sub SI Rd (ext SI (trunc QI sconst8)))
|
|
)
|
|
(dni-c-HI
|
|
subscwr "sub sign-extended constant word to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_SUBX SIGNED_WORD (f-source 15) sconst16)
|
|
(cris-arit sub SI Rd (ext SI (trunc HI sconst16)))
|
|
)
|
|
|
|
; SUBU.z Rs,Rd [ Rd | 0100100z | Rs ]
|
|
(dni-cdt-ubw
|
|
subu "sub zero-extended from register to register"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER R_SUBX Rs)
|
|
(.pmacro (BW) (cris-arit sub SI Rd ((.sym BW -zext) (trunc BW Rs))))
|
|
)
|
|
|
|
; SUBU.z [Rs],Rd [ Rd | 1000100z | Rs ]
|
|
; SUBU.z [Rs+],Rd [ Rd | 1100100z | Rs ]
|
|
(dni-cmt-ubw
|
|
subu-m "sub zero-extended from memory to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd INDIR_SUBX Rs)
|
|
(.pmacro (BW)
|
|
(cris-arit-3op sub SI Rd ((.sym BW -zext) (cris-get-mem BW Rs)) Rs))
|
|
)
|
|
|
|
; (SUBU.z [PC+],Rd [ Rd | 1100100z | 1111 ])
|
|
(dni-c-QI
|
|
subucbr "sub zero-extended constant byte to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_SUBX UNSIGNED_BYTE (f-source 15) sconst8)
|
|
(cris-arit sub SI Rd (zext SI (trunc QI sconst8)))
|
|
)
|
|
(dni-c-HI
|
|
subucwr "sub zero-extended constant word to register"
|
|
"[${Rs}${inc}],$Rd"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_SUBX UNSIGNED_WORD (f-source 15) sconst16)
|
|
(cris-arit sub SI Rd (zext SI (trunc HI sconst16)))
|
|
)
|
|
|
|
; ADDC Rs,Rd [ Rd | 01010111 | Rs ]
|
|
(dni-cdt-attr
|
|
addc-r "addc from register to register"
|
|
(MACH-V32)
|
|
"addc $Rs,$Rd"
|
|
(+ Rd MODE_REGISTER RFIX_ADDC SIZE_FIXED Rs)
|
|
; Since this is equivalent to "ax" plus "add.d Rs,Rd", we'll just do
|
|
; that, semantically.
|
|
(sequence
|
|
()
|
|
(set-quiet xbit 1)
|
|
(cris-arit add SI Rd Rs))
|
|
)
|
|
|
|
; ADDC [Rs],Rd [ Rd | 10011010 | Rs ]
|
|
; ADDC [Rs+],Rd [ Rd | 11011010 | Rs ]
|
|
(dni-cmt-attr
|
|
addc-m "addc from memory to register"
|
|
(MACH-V32)
|
|
"addc [${Rs}${inc}],${Rd}"
|
|
(+ Rd INDIR_ADDC SIZE_DWORD Rs)
|
|
(sequence
|
|
()
|
|
(set-quiet xbit 1)
|
|
(cris-arit add SI Rd (cris-get-mem SI Rs)))
|
|
)
|
|
|
|
; (ADDC [Rs+],Rd [ Rd | 11011010 | 1111 ])
|
|
(dni-c-SI-attr
|
|
addc-c "addc constant to register"
|
|
(MACH-V32)
|
|
"addc ${const32},${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_ADDC SIZE_DWORD (f-source 15) const32)
|
|
(sequence
|
|
()
|
|
(set-quiet xbit 1)
|
|
(cris-arit add SI Rd const32))
|
|
)
|
|
|
|
; LAPC [PC+],Rd [ Rd | 11010111 1111 ]
|
|
(dni-c-SI-attr
|
|
lapc-d "lapc.d"
|
|
(MACH-V32)
|
|
"lapc.d ${const32-pcrel},${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INFIX_LAPC SIZE_FIXED (f-source 15) const32-pcrel)
|
|
(sequence
|
|
()
|
|
(set Rd const32-pcrel)
|
|
(reset-x-p))
|
|
)
|
|
|
|
; LAPCQ qo,Rd [ Rd | 10010111 | qo ]
|
|
(dni-cdt-attr
|
|
lapcq "lapcq"
|
|
(MACH-V32)
|
|
"lapcq ${qo},${Rd}"
|
|
(+ Rd MODE_INDIRECT INFIX_LAPC SIZE_FIXED qo)
|
|
(sequence
|
|
()
|
|
(set Rd qo)
|
|
(reset-x-p))
|
|
)
|
|
|
|
; ADDI Rs.m,Rd [ Rs | 010100mm | Rd ]
|
|
(dni-cdt-bwd
|
|
addi "addi"
|
|
"${Rs-dfield}.m,${Rd-sfield}"
|
|
(+ Rd-sfield MODE_REGISTER R_ADDI Rs-dfield)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
()
|
|
(set Rd-sfield (add SI Rd-sfield (mul Rs-dfield (.sym BWD -size))))
|
|
(reset-x-p)))
|
|
)
|
|
|
|
; NEG.m Rs,Rd [ Rd | 010110mm | Rs ]
|
|
(dni-cdt-bwd
|
|
neg "neg.m Rs,Rd"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER R_NEG Rs)
|
|
(.pmacro (BWD) (cris-arit3 sub BWD Rd 0 Rs))
|
|
)
|
|
|
|
; TEST.m [Rs] [ 0000101110mm | Rs ]
|
|
; TEST.m [Rs+] [ 0000111110mm | Rs ]
|
|
(dni-cmt-bwd
|
|
test-m "test.m [Rs(+)]"
|
|
"[${Rs}${inc}]"
|
|
(+ (f-dest 0) INDIR_TEST Rs)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((BWD tmpd))
|
|
(set tmpd (cris-get-mem BWD Rs))
|
|
; This is supposed to be the same result as for cmpq 0,X, hence same code.
|
|
(cris-arit6-int
|
|
sub BWD (.pmacro (sz regno val) (nop)) 0 tmpd 0 cbit cbit)))
|
|
)
|
|
|
|
; MOVE.m Rs,[Rd] [ Rs | 101111mm | Rd ]
|
|
; MOVE.m Rs,[Rd+] [ Rs | 111111mm | Rd ]
|
|
|
|
(dni-cmwt-bwd
|
|
move-r-m "move.m R,[]"
|
|
"${Rs-dfield},[${Rd-sfield}${inc}]"
|
|
(+ Rs-dfield INDIR_MOVE_R_M Rd-sfield)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((BWD tmpd))
|
|
(set tmpd Rs-dfield)
|
|
(cris-set-mem BWD Rd-sfield tmpd)
|
|
(reset-x-p)))
|
|
)
|
|
|
|
; MULS.m Rs,Rd [ Rd | 110100mm | Rs ]
|
|
(dni-bwd-attr
|
|
muls "muls.m Rs,Rd"
|
|
((MACH crisv10,crisv32))
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_MULS INDIR_MUL Rs)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((DI src1) (DI src2) (DI tmpr))
|
|
(set src1 (ext DI (trunc BWD Rs)))
|
|
(set src2 (ext DI (trunc BWD Rd)))
|
|
(set tmpr (mul src1 src2))
|
|
(set Rd (trunc SI tmpr))
|
|
(set mof (trunc SI (srl tmpr 32)))
|
|
(setf-arit DI muls src1 src2 tmpr cbit)))
|
|
((crisv10 (unit u-multiply) (unit u-exec))
|
|
(crisv32 (unit u-multiply) (unit u-exec)))
|
|
)
|
|
|
|
; MULU.m Rs,Rd [ Rd | 100100mm | Rs ]
|
|
(dni-bwd-attr
|
|
mulu "mulu.m Rs,Rd"
|
|
((MACH crisv10,crisv32))
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_MULU INDIR_MUL Rs)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((DI src1) (DI src2) (DI tmpr))
|
|
(set src1 (zext DI (trunc BWD Rs)))
|
|
(set src2 (zext DI (trunc BWD Rd)))
|
|
(set tmpr (mul src1 src2))
|
|
(set Rd (trunc SI tmpr))
|
|
(set mof (trunc SI (srl tmpr 32)))
|
|
(setf-arit DI mulu src1 src2 tmpr cbit)))
|
|
((crisv10 (unit u-multiply) (unit u-exec))
|
|
(crisv32 (unit u-multiply) (unit u-exec)))
|
|
)
|
|
|
|
; MCP Ps,Rd [ Ps | 01111111 | Rd ]
|
|
(dni-cdt-attr
|
|
mcp "Multiply Carry Propagation"
|
|
(MACH-V32)
|
|
"mcp $Ps,$Rd"
|
|
(+ Ps MODE_REGISTER RFIX_MCP SIZE_FIXED Rd-sfield)
|
|
(sequence
|
|
()
|
|
(set-quiet xbit 1)
|
|
(set-quiet zbit 1)
|
|
(cris-arit5 add SI Rd-sfield Rd-sfield Ps rbit rbit))
|
|
)
|
|
|
|
; DSTEP Rs,Rd [ Rd | 01101111 | Rs ]
|
|
(dni-cdt
|
|
dstep "Division step"
|
|
"dstep $Rs,$Rd"
|
|
(+ Rd MODE_REGISTER RFIX_DSTEP SIZE_FIXED Rs)
|
|
(sequence
|
|
((SI tmp) (SI tmps) (SI tmpd))
|
|
(set tmps Rs)
|
|
(set tmp (sll Rd 1))
|
|
(set tmpd (if SI (geu tmp tmps) (sub tmp tmps) tmp))
|
|
(set Rd tmpd)
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; ABS Rs,Rd [ Rd | 01101011 | Rs ]
|
|
(dni-cdt
|
|
abs "Absolut Instruction"
|
|
"abs $Rs,$Rd"
|
|
(+ Rd MODE_REGISTER RFIX_ABS SIZE_FIXED Rs)
|
|
(sequence
|
|
((SI tmpd))
|
|
(set tmpd (abs Rs))
|
|
(set Rd tmpd)
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; AND.m Rs,Rd [ Rd | 011100mm | Rs ]
|
|
(dni-cdt-bwd
|
|
and "And from register to register"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER R_AND Rs)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((BWD tmpd))
|
|
(set tmpd (and BWD Rd Rs))
|
|
(set-subreg-gr BWD (regno Rd) tmpd)
|
|
(setf-move BWD tmpd)))
|
|
)
|
|
|
|
; AND.m [Rs],Rd [ Rd | 101100mm | Rs ]
|
|
; AND.m [Rs+],Rd [ Rd | 111100mm | Rs ]
|
|
(dni-cmt-bwd
|
|
and-m "And from memory to register"
|
|
"[${Rs}${inc}],${Rd}"
|
|
(+ INDIR_AND Rs Rd)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((BWD tmpd))
|
|
(set tmpd (and BWD Rd (cris-get-mem BWD Rs)))
|
|
(set-subreg-gr
|
|
BWD
|
|
(if SI (andif prefix-set (not inc)) (regno Rs) (regno Rd))
|
|
tmpd)
|
|
(setf-move BWD tmpd)))
|
|
)
|
|
|
|
; (AND.m [PC+],Rd [ Rd | 111100mm | 1111 ])
|
|
(dni-c-QI
|
|
andcbr "And constant byte to register"
|
|
"and.b ${sconst8}],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_AND SIZE_BYTE (f-source 15) sconst8)
|
|
(sequence
|
|
((QI tmpd))
|
|
(set tmpd (and QI Rd sconst8))
|
|
(set-subreg-gr QI (regno Rd) tmpd)
|
|
(setf-move QI tmpd))
|
|
)
|
|
|
|
(dni-c-HI
|
|
andcwr "And constant word to register"
|
|
"and.w ${sconst16}],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_AND SIZE_WORD (f-source 15) sconst16)
|
|
(sequence
|
|
((HI tmpd))
|
|
(set tmpd (and HI Rd sconst16))
|
|
(set-subreg-gr HI (regno Rd) tmpd)
|
|
(setf-move HI tmpd))
|
|
)
|
|
|
|
(dni-c-SI
|
|
andcdr "And constant dword to register"
|
|
"and.d ${const32}],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_AND SIZE_DWORD (f-source 15) const32)
|
|
(sequence
|
|
((SI tmpd))
|
|
(set tmpd (and SI Rd const32))
|
|
(set-subreg-gr SI (regno Rd) tmpd)
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; ANDQ i,Rd [ Rd | 001100 | i ]
|
|
(dni-cdt
|
|
andq "And quick-immediate to register"
|
|
"andq $i,$Rd"
|
|
(+ Rd MODE_QUICK_IMMEDIATE Q_ANDQ i)
|
|
(sequence
|
|
((SI tmpd))
|
|
(set tmpd (and SI Rd i))
|
|
(set-subreg-gr SI (regno Rd) tmpd)
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; OR.m Rs,Rd [ Rd | 011101mm | Rs ]
|
|
(dni-cdt-bwd
|
|
orr "Or from register to register"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER R_OR Rs)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((BWD tmpd))
|
|
(set tmpd (or BWD Rd Rs))
|
|
(set-subreg-gr BWD (regno Rd) tmpd)
|
|
(setf-move BWD tmpd)))
|
|
)
|
|
|
|
; OR.m [Rs],Rd [ Rd | 101101mm | Rs ]
|
|
; OR.m [Rs+],Rd [ Rd | 111101mm | Rs ]
|
|
(dni-cmt-bwd
|
|
or-m "Or from memory to register"
|
|
"[${Rs}${inc}],${Rd}"
|
|
(+ INDIR_OR Rs Rd)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((BWD tmpd))
|
|
(set tmpd (or BWD Rd (cris-get-mem BWD Rs)))
|
|
(set-subreg-gr
|
|
BWD
|
|
(if SI (andif prefix-set (not inc)) (regno Rs) (regno Rd))
|
|
tmpd)
|
|
(setf-move BWD tmpd)))
|
|
)
|
|
|
|
; (OR.m [PC+],Rd [ Rd | 111101mm | 1111 ])
|
|
(dni-c-QI
|
|
orcbr "Or constant byte to register"
|
|
"or.b ${sconst8}],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_OR SIZE_BYTE (f-source 15) sconst8)
|
|
(sequence
|
|
((QI tmpd))
|
|
(set tmpd (or QI Rd sconst8))
|
|
(set-subreg-gr QI (regno Rd) tmpd)
|
|
(setf-move QI tmpd))
|
|
)
|
|
|
|
(dni-c-HI
|
|
orcwr "Or constant word to register"
|
|
"or.w ${sconst16}],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_OR SIZE_WORD (f-source 15) sconst16)
|
|
(sequence
|
|
((HI tmpd))
|
|
(set tmpd (or HI Rd sconst16))
|
|
(set-subreg-gr HI (regno Rd) tmpd)
|
|
(setf-move HI tmpd))
|
|
)
|
|
|
|
(dni-c-SI
|
|
orcdr "Or constant dword to register"
|
|
"or.d ${const32}],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_OR SIZE_DWORD (f-source 15) const32)
|
|
(sequence
|
|
((SI tmpd))
|
|
(set tmpd (or SI Rd const32))
|
|
(set-subreg-gr SI (regno Rd) tmpd)
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; ORQ i,Rd [ Rd | 001101 | i ]
|
|
(dni-cdt
|
|
orq "Or quick-immediate to register"
|
|
"orq $i,$Rd"
|
|
(+ Rd MODE_QUICK_IMMEDIATE Q_ORQ i)
|
|
(sequence
|
|
((SI tmpd))
|
|
(set tmpd (or SI Rd i))
|
|
(set-subreg-gr SI (regno Rd) tmpd)
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; XOR Rs,Rd [ Rd | 01111011 | Rs ]
|
|
(dni-cdt
|
|
xor "Xor from register to register"
|
|
"xor $Rs,$Rd"
|
|
(+ Rd MODE_REGISTER RFIX_XOR SIZE_FIXED Rs)
|
|
(sequence
|
|
((SI tmpd))
|
|
(set tmpd (xor SI Rd Rs))
|
|
(set Rd tmpd)
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
(define-pmacro (swap-r x)
|
|
"Perform bit-wise swap within each byte"
|
|
(sequence
|
|
SI
|
|
((SI tmpr))
|
|
(set tmpr x)
|
|
(or (sll (and tmpr #x1010101) 7)
|
|
(or (sll (and tmpr #x2020202) 5)
|
|
(or (sll (and tmpr #x4040404) 3)
|
|
(or (sll (and tmpr #x8080808) 1)
|
|
(or (srl (and tmpr #x10101010) 1)
|
|
(or (srl (and tmpr #x20202020) 3)
|
|
(or (srl (and tmpr #x40404040) 5)
|
|
(srl (and tmpr #x80808080) 7)))))))))
|
|
)
|
|
|
|
(define-pmacro (swap-b x)
|
|
"Perform byte-wise swap within each word"
|
|
(sequence
|
|
SI
|
|
((SI tmpb))
|
|
(set tmpb x)
|
|
(or (and (sll tmpb 8) #xff00ff00)
|
|
(and (srl tmpb 8) #xff00ff)))
|
|
)
|
|
|
|
(define-pmacro (swap-w x)
|
|
"Perform word-wise swap within each dword"
|
|
(sequence
|
|
SI
|
|
((SI tmpb))
|
|
(set tmpb x)
|
|
(or (and (sll tmpb 16) #xffff0000)
|
|
(and (srl tmpb 16) #xffff)))
|
|
)
|
|
|
|
(define-pmacro (swap-_ x)
|
|
"Do nothing swap-wise"
|
|
(error SI "SWAP without swap modifier isn't implemented")
|
|
)
|
|
|
|
(define-pmacro (swap-n x)
|
|
"Perform bitwise not (that is, perform a not, not not perform)"
|
|
(inv x)
|
|
)
|
|
|
|
(define-pmacro (swap-br x) "Combine swap-r and swap-b" (swap-r (swap-b x)))
|
|
(define-pmacro (swap-wr x) "Combine swap-r and swap-w" (swap-r (swap-w x)))
|
|
(define-pmacro (swap-wb x) "Combine swap-b and swap-w" (swap-b (swap-w x)))
|
|
(define-pmacro (swap-wbr x) "Combine swap-r and swap-wb" (swap-r (swap-wb x)))
|
|
(define-pmacro (swap-nr x) "Combine swap-r and swap-n" (swap-r (swap-n x)))
|
|
(define-pmacro (swap-nb x) "Combine swap-n and swap-b" (swap-b (swap-n x)))
|
|
(define-pmacro (swap-nbr x) "Combine swap-r and swap-nb" (swap-r (swap-nb x)))
|
|
(define-pmacro (swap-nw x) "Combine swap-n and swap-w" (swap-w (swap-n x)))
|
|
(define-pmacro (swap-nwr x) "Combine swap-r and swap-nw" (swap-r (swap-nw x)))
|
|
(define-pmacro (swap-nwb x) "Combine swap-b and swap-nw" (swap-b (swap-nw x)))
|
|
(define-pmacro (swap-nwbr x) "Combine swap-r and swap-nwb" (swap-r (swap-nwb x)))
|
|
|
|
(define-pmacro (cris-swap swapcode val)
|
|
(sequence
|
|
SI
|
|
((SI tmpcode) (SI tmpval) (SI tmpres))
|
|
(set tmpcode swapcode)
|
|
(set tmpval val)
|
|
(.splice
|
|
cond
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro
|
|
(x-swapcode x-swap)
|
|
((eq tmpcode x-swapcode)
|
|
(set tmpres ((.sym swap- x-swap) tmpval))))
|
|
(.iota 16)
|
|
(.splice _ (.unsplice cris-swap-codes)))))
|
|
tmpres)
|
|
)
|
|
|
|
; NOT Rd alias for SWAPN Rd
|
|
(dni-cdt-attr
|
|
not "Not"
|
|
((MACH crisv0,crisv3))
|
|
"not ${Rs}"
|
|
(+ (f-dest 8) RFIX_SWAP MODE_REGISTER SIZE_FIXED Rd-sfield)
|
|
(sequence
|
|
((SI tmp) (SI tmpd))
|
|
(set tmp Rd-sfield)
|
|
(set tmpd (cris-swap 8 tmp))
|
|
(set Rd-sfield tmpd)
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; SWAP<option> Rd [ N W B R | 01110111 | Rd ]
|
|
(dni-cdt-attr
|
|
swap "Swap"
|
|
((MACH crisv8,crisv10,crisv32))
|
|
"swap${swapoption} ${Rs}"
|
|
(+ swapoption RFIX_SWAP MODE_REGISTER SIZE_FIXED Rd-sfield)
|
|
(sequence
|
|
((SI tmps) (SI tmpd))
|
|
(set tmps Rd-sfield)
|
|
(set tmpd (cris-swap swapoption tmps))
|
|
(set Rd-sfield tmpd)
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; ASR.m Rs,Rd [ Rd | 011110mm | Rs ]
|
|
(dni-cdt-bwd
|
|
asrr "Arithmetic shift right register count"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER R_ASR Rs)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((BWD tmpd) (SI cnt1) (SI cnt2))
|
|
(set cnt1 Rs)
|
|
(set cnt2 (if SI (ne (and cnt1 32) 0) 31 (and cnt1 31)))
|
|
(set tmpd (sra SI (ext SI (trunc BWD Rd)) cnt2))
|
|
(set-subreg-gr BWD (regno Rd) tmpd)
|
|
(setf-move BWD tmpd)))
|
|
)
|
|
|
|
; ASRQ c,Rd [ Rd | 0011101 | c ]
|
|
(dni-cdt
|
|
asrq "Arithmetic shift right quick-immediate count"
|
|
"asrq $c,${Rd}"
|
|
(+ Rd Q_ASHQ MODE_QUICK_IMMEDIATE (f-b5 1) c)
|
|
(sequence
|
|
((SI tmpd))
|
|
(set tmpd (sra Rd c))
|
|
(set Rd tmpd)
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; LSR.m Rs,Rd [ Rd | 011111mm | Rs ]
|
|
(dni-cdt-bwd
|
|
lsrr "Logical shift right register count"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER R_LSR Rs)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((SI tmpd) (SI cnt))
|
|
(set cnt (and Rs 63))
|
|
(set
|
|
tmpd
|
|
(if SI (ne (and cnt 32) 0)
|
|
0
|
|
(srl SI (zext SI (trunc BWD Rd)) (and cnt 31))))
|
|
(set-subreg-gr BWD (regno Rd) tmpd)
|
|
(setf-move BWD tmpd)))
|
|
)
|
|
|
|
; LSRQ c,Rd [ Rd | 0011111 | c ]
|
|
(dni-cdt
|
|
lsrq "Logical shift right quick-immediate count"
|
|
"lsrq $c,${Rd}"
|
|
(+ Rd Q_LSHQ MODE_QUICK_IMMEDIATE (f-b5 1) c)
|
|
(sequence
|
|
((SI tmpd))
|
|
(set tmpd (srl Rd c))
|
|
(set Rd tmpd)
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; LSL.m Rs,Rd [ Rd | 010011mm | Rs ]
|
|
(dni-cdt-bwd
|
|
lslr "Logical shift left register count"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER R_LSL Rs)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((SI tmpd) (SI cnt))
|
|
(set cnt (and Rs 63))
|
|
(set
|
|
tmpd
|
|
(if SI (ne (and cnt 32) 0)
|
|
0
|
|
(sll SI (zext SI (trunc BWD Rd)) (and cnt 31))))
|
|
(set-subreg-gr BWD (regno Rd) tmpd)
|
|
(setf-move BWD tmpd)))
|
|
)
|
|
|
|
; LSLQ c,Rd [ Rd | 0011110 | c ]
|
|
(dni-cdt
|
|
lslq "Logical shift left quick-immediate count"
|
|
"lslq $c,${Rd}"
|
|
(+ Rd Q_LSHQ MODE_QUICK_IMMEDIATE (f-b5 0) c)
|
|
(sequence
|
|
((SI tmpd))
|
|
(set tmpd (sll Rd c))
|
|
(set Rd tmpd)
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; BTST Rs,Rd [ Rd | 01001111 | Rs ]
|
|
(dni-cdt
|
|
btst "Bit test register number"
|
|
"$Rs,$Rd"
|
|
(+ Rd MODE_REGISTER RFIX_BTST SIZE_FIXED Rs)
|
|
(sequence
|
|
((SI tmpd) (SI cnt))
|
|
(set tmpd (sll Rd (sub 31 (and Rs 31))))
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; BTSTQ c,Rd [ Rd | 0011100 | c ]
|
|
(dni-cdt
|
|
btstq "Bit test quick-immediate number"
|
|
"btstq $c,${Rd}"
|
|
(+ Rd Q_ASHQ MODE_QUICK_IMMEDIATE (f-b5 0) c)
|
|
(sequence
|
|
((SI tmpd))
|
|
(set tmpd (sll Rd (sub 31 c)))
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; SETF <list of flags> [ P U I X | 01011011 | N Z V C ]
|
|
(dni-cdt
|
|
setf "Set condition code flags explicitly"
|
|
"setf ${list-of-flags}"
|
|
; The zero-flags case gets flag operands wrong; there's a "_"
|
|
; where there should have been nothing. Also, flags are in
|
|
; assembly code allowed to be specified in any order, which
|
|
; doesn't match the "flagbits" settings. Luckily we don't
|
|
; use this field for assembly.
|
|
(+ RFIX_SETF MODE_REGISTER SIZE_FIXED list-of-flags)
|
|
(.splice
|
|
sequence
|
|
((SI tmp))
|
|
(set tmp list-of-flags)
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro (ccbit)
|
|
(if (ne (and tmp (sll 1 (.sym ccbit -bitnumber))) 0)
|
|
(set (.sym ccbit bit) 1)))
|
|
cris-flagnames))
|
|
(set prefix-set 0)
|
|
; Unless x was specified to be set, set it to 0.
|
|
(if (eq (and tmp (sll 1 x-bitnumber)) 0)
|
|
(set xbit 0)))
|
|
)
|
|
|
|
; CLEARF <list of flags> [ P U I X | 01011111 | N Z V C ]
|
|
(dni-cdt
|
|
clearf "Clear condition code flags explicitly"
|
|
"clearf ${list-of-flags}"
|
|
; The zero-flags case gets flag operands wrong; there's a "_"
|
|
; where there should have been nothing. Also, flags are in
|
|
; assembly code allowed to be specified in any order, which
|
|
; doesn't match the "flagbits" settings. Luckily we don't
|
|
; use this field for assembly.
|
|
(+ RFIX_CLEARF MODE_REGISTER SIZE_FIXED list-of-flags)
|
|
(.splice
|
|
sequence
|
|
((SI tmp))
|
|
(set tmp list-of-flags)
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro (ccbit)
|
|
(if (ne (and tmp (sll 1 (.sym ccbit -bitnumber))) 0)
|
|
(set (.sym ccbit bit) 0)))
|
|
cris-flagnames))
|
|
(reset-x-p))
|
|
)
|
|
|
|
(define-pmacro
|
|
(rfe-rfn-guts)
|
|
"Common parts of RFE and RFN"
|
|
(sequence
|
|
((USI oldccs) (USI samebits) (USI shiftbits) (USI keepmask) (BI p1))
|
|
(set oldccs ccs)
|
|
; Keeping U, S and I in user mode is handled by the CCS setter, so we
|
|
; don't have to bother. Actually Q and M are handled too. The reason
|
|
; to mask those out is to not have them shifted down into the second
|
|
; flags level.
|
|
(set keepmask #xc0000000)
|
|
(set samebits (and oldccs keepmask))
|
|
; The P bit has its own equation.
|
|
(set shiftbits (and (srl (and oldccs #x3ffdfc00) 10) (inv keepmask)))
|
|
(set p1 (ne 0 (and oldccs #x20000)))
|
|
(set ccs (or (or samebits shiftbits)
|
|
(if SI (and rbit (not p1)) 0 #x80))))
|
|
)
|
|
|
|
; RFE [ 0010 10010011 0000 ]
|
|
(dni-cdt-attr
|
|
rfe
|
|
"RFE"
|
|
(MACH-V32)
|
|
"rfe"
|
|
(+ (f-dest 2) MODE_INDIRECT INFIX_RFE SIZE_FIXED (f-source 0))
|
|
(rfe-rfn-guts)
|
|
)
|
|
|
|
; SFE [ 0011 10010011 0000 ]
|
|
(dni-cdt-attr
|
|
sfe
|
|
"SFE"
|
|
(MACH-V32)
|
|
"sfe"
|
|
(+ (f-dest 3) MODE_INDIRECT INFIX_SFE SIZE_FIXED (f-source 0))
|
|
(sequence
|
|
((SI oldccs) (SI savemask))
|
|
(set savemask #xc0000000)
|
|
(set oldccs ccs)
|
|
(set ccs
|
|
(or (and savemask oldccs)
|
|
(and (inv savemask) (sll oldccs 10)))))
|
|
)
|
|
|
|
; RFG [ 0100 10010011 0000 ]
|
|
(dni-cdt-attr
|
|
rfg
|
|
"RFG"
|
|
(MACH-V32)
|
|
"rfg"
|
|
(+ (f-dest 4) MODE_INDIRECT INFIX_RFG SIZE_FIXED (f-source 0))
|
|
(c-call VOID "@cpu@_rfg_handler" pc)
|
|
)
|
|
|
|
; RFN [ 0101 10010011 0000 ]
|
|
(dni-cdt-attr
|
|
rfn
|
|
"RFN"
|
|
(MACH-V32)
|
|
"rfn"
|
|
(+ (f-dest 5) MODE_INDIRECT INFIX_RFN SIZE_FIXED (f-source 0))
|
|
(sequence () (rfe-rfn-guts) (set mbit 1))
|
|
)
|
|
|
|
; HALT [ 1111 10010011 0000 ]
|
|
(dni-cdt-attr
|
|
halt
|
|
"HALT"
|
|
(MACH-V32)
|
|
"halt"
|
|
(+ (f-dest 15) MODE_INDIRECT INFIX_HALT SIZE_FIXED (f-source 0))
|
|
(set pc (c-call USI "@cpu@_halt_handler" pc))
|
|
)
|
|
|
|
; Bcc o [ cc | 0000 | o ]
|
|
(dni
|
|
bcc-b "bcc byte operand"
|
|
()
|
|
"b${cc} ${o-pcrel}"
|
|
(+ cc QHI_BCC MODE_QUICK_IMMEDIATE o-pcrel)
|
|
(sequence
|
|
((BI truthval))
|
|
(set truthval (cris-condition cc))
|
|
|
|
; Amazing as it may seem, there's no simpler way to find out
|
|
; whether a branch is taken or not than to mark it through a kludge
|
|
; like this.
|
|
(c-call VOID "@cpu@_branch_taken" pc o-pcrel truthval)
|
|
|
|
(reset-x-p)
|
|
(if truthval
|
|
(delay 1
|
|
(set pc o-pcrel))))
|
|
(.splice (.unsplice (simplecris-timing))
|
|
(crisv32 (unit u-branch) (unit u-exec)))
|
|
)
|
|
(dni
|
|
ba-b "ba byte operand"
|
|
()
|
|
"ba ${o-pcrel}"
|
|
(+ (f-dest 14) QHI_BCC MODE_QUICK_IMMEDIATE o-pcrel)
|
|
(sequence
|
|
()
|
|
(reset-x-p)
|
|
(delay 1
|
|
(set pc o-pcrel)))
|
|
((crisv32 (unit u-jump) (unit u-exec)))
|
|
)
|
|
|
|
; Bcc [PC+] [ cc | 11011111 1111 ]
|
|
; (We don't implement the generic for pre-V32 but unused variant
|
|
; "Bcc [Rn(+)]" where n != 15.)
|
|
(dni
|
|
bcc-w "bcc, word operand"
|
|
()
|
|
"b${cc} ${o-word-pcrel}"
|
|
(+ cc MODE_AUTOINCREMENT INFIX_BCC_M SIZE_FIXED (f-source 15) o-word-pcrel)
|
|
(sequence
|
|
((BI truthval))
|
|
(set truthval (cris-condition cc))
|
|
|
|
; Amazing as it may seem, there's no simpler way to find out
|
|
; whether a branch is taken or not than to mark it through a kludge
|
|
; like this.
|
|
(c-call VOID "@cpu@_branch_taken" pc o-word-pcrel truthval)
|
|
|
|
(reset-x-p)
|
|
(if truthval
|
|
(delay 1
|
|
(set pc o-word-pcrel))))
|
|
(.splice
|
|
(.unsplice (simplecris-common-timing ((unit u-const16) (unit u-exec))))
|
|
(crisv32 (unit u-const16) (unit u-branch) (unit u-exec)))
|
|
)
|
|
(dni
|
|
ba-w "ba word operand"
|
|
()
|
|
"ba ${o-word-pcrel}"
|
|
(+ (f-dest 14) MODE_AUTOINCREMENT INFIX_BCC_M SIZE_FIXED (f-source 15) o-word-pcrel)
|
|
(sequence
|
|
()
|
|
(reset-x-p)
|
|
(delay 1
|
|
(set pc o-word-pcrel)))
|
|
(.splice
|
|
(.unsplice (simplecris-common-timing ((unit u-const16) (unit u-exec))))
|
|
(crisv32 (unit u-const16) (unit u-jump) (unit u-exec)))
|
|
)
|
|
|
|
; JAS Rs,Pd [ Pd | 10011011 | Rs ]
|
|
(dni
|
|
jas-r "JAS register"
|
|
(MACH-V32)
|
|
"jas ${Rs},${Pd}"
|
|
(+ Pd MODE_INDIRECT INFIX_JAS_R SIZE_FIXED Rs)
|
|
(sequence
|
|
()
|
|
(reset-x-p)
|
|
(if (andif (eq (regno Rs) 1) (eq (regno Pd) 11))
|
|
; We use this as a trigger; a normally reasonably rare instruction
|
|
; used in the v32 trampoline. See comment at bdapqpc.
|
|
; CGEN-FIXME: can't use (regno srp) [== (regno (reg h-sr 11))]
|
|
(c-call VOID "cris_flush_simulator_decode_cache" pc))
|
|
(delay 1
|
|
(sequence
|
|
()
|
|
(set Pd (add SI pc 4))
|
|
(set pc Rs))))
|
|
((crisv32 (unit u-jump-r) (unit u-jump) (unit u-exec)))
|
|
)
|
|
; Same semantics in pre-V32, except no delay-slot.
|
|
; FIXME: Missing JIRC/JSRC/JBRC.
|
|
(dni-cdt-attr
|
|
jump-r "JUMP/JSR/JIR register"
|
|
(MACH-PC)
|
|
"jump/jsr/jir ${Rs}"
|
|
(+ Pd MODE_INDIRECT INFIX_JUMP_R SIZE_FIXED Rs)
|
|
(sequence
|
|
()
|
|
(set Pd (add SI pc 2))
|
|
(set pc Rs)
|
|
(reset-x-p))
|
|
)
|
|
|
|
; JAS [PC+],Pd [ Pd | 11011011 1111 ]
|
|
(dni
|
|
jas-c "JAS constant"
|
|
(MACH-V32)
|
|
"jas ${const32},${Pd}"
|
|
(+ Pd MODE_AUTOINCREMENT INFIX_JAS_M SIZE_FIXED (f-source 15) const32)
|
|
(sequence
|
|
()
|
|
(reset-x-p)
|
|
(delay 1
|
|
(sequence
|
|
()
|
|
(set Pd (add SI pc 8))
|
|
(set pc const32))))
|
|
((crisv32 (unit u-const32) (unit u-jump) (unit u-exec)))
|
|
)
|
|
|
|
; JUMP/JSR/JIR | Special r.| 1 m| 0 1 0 0| 1 1| Source |
|
|
(dni-cmt-attr
|
|
jump-m "JUMP/JSR/JIR memory"
|
|
(MACH-PC)
|
|
"jump/jsr/jir [${Rs}${inc}]"
|
|
(+ Pd INFIX_JUMP_M SIZE_FIXED Rs)
|
|
(sequence
|
|
()
|
|
(set Pd (add SI pc 2))
|
|
(set pc (cris-get-mem SI Rs))
|
|
(reset-x-p))
|
|
)
|
|
(dni-c-SI-attr
|
|
jump-c "JUMP/JSR/JIR constant"
|
|
(MACH-PC)
|
|
"jump/jsr/jir ${const32}"
|
|
(+ Pd MODE_AUTOINCREMENT INFIX_JUMP_M SIZE_FIXED (f-source 15) const32)
|
|
(sequence
|
|
()
|
|
(set Pd (add SI pc 6))
|
|
(set pc const32)
|
|
(reset-x-p))
|
|
)
|
|
|
|
; JUMP Ps [ Ps | 10011111 0000 ]
|
|
(dni
|
|
jump-p "JUMP special register"
|
|
(MACH-V32)
|
|
"jump ${Ps}"
|
|
(+ Ps MODE_INDIRECT INFIX_JUMP_P SIZE_FIXED (f-source 0))
|
|
(sequence
|
|
()
|
|
(reset-x-p)
|
|
(delay 1
|
|
(set pc Ps)))
|
|
((crisv32 (unit u-jump-sr)
|
|
(unit u-exec)))
|
|
)
|
|
|
|
; BAS [PC+],Pd [ Pd | 11101011 1111 ]
|
|
(dni
|
|
bas-c "BAS constant"
|
|
(MACH-V32)
|
|
"bas ${const32},${Pd}"
|
|
(+ Pd MODE_AUTOINCREMENT INFIX_BAS SIZE_FIXED (f-source 15) const32-pcrel)
|
|
(sequence
|
|
()
|
|
(reset-x-p)
|
|
(delay 1
|
|
(sequence
|
|
()
|
|
(set Pd (add SI pc 8))
|
|
(set pc const32-pcrel))))
|
|
((crisv32 (unit u-const32) (unit u-jump) (unit u-exec)))
|
|
)
|
|
|
|
; JASC Rs,Pd [ Pd | 10110011 | Rs ]
|
|
(dni
|
|
jasc-r "JASC register"
|
|
(MACH-V32)
|
|
"jasc ${Rs},${Pd}"
|
|
(+ Pd MODE_INDIRECT INFIX_JASC SIZE_FIXED Rs)
|
|
(sequence
|
|
()
|
|
(reset-x-p)
|
|
(delay 1
|
|
(sequence
|
|
()
|
|
(set Pd (add SI pc 8))
|
|
(set pc Rs))))
|
|
((crisv32 (unit u-jump-r) (unit u-skip4) (unit u-jump) (unit u-exec)))
|
|
)
|
|
|
|
; JASC [PC+],Pd [ Pd | 11110011 1111 ]
|
|
(dni
|
|
jasc-c "JASC constant"
|
|
(MACH-V32)
|
|
"jasc ${const32},${Pd}"
|
|
(+ Pd MODE_AUTOINCREMENT INFIX_JASC SIZE_FIXED (f-source 15) const32)
|
|
(sequence
|
|
()
|
|
(reset-x-p)
|
|
(delay 1
|
|
(sequence
|
|
()
|
|
(set Pd (add SI pc 12))
|
|
(set pc const32))))
|
|
((crisv32 (unit u-const32) (unit u-skip4) (unit u-jump) (unit u-exec)))
|
|
)
|
|
|
|
; BASC [PC+],Pd [ Pd | 11101111 1111 ]
|
|
(dni
|
|
basc-c "BASC constant"
|
|
(MACH-V32)
|
|
"basc ${const32},${Pd}"
|
|
(+ Pd MODE_AUTOINCREMENT INFIX_BASC SIZE_FIXED (f-source 15) const32-pcrel)
|
|
(sequence
|
|
()
|
|
(reset-x-p)
|
|
(delay 1
|
|
(sequence
|
|
()
|
|
(set Pd (add SI pc 12))
|
|
(set pc const32-pcrel))))
|
|
((crisv32 (unit u-const32) (unit u-skip4) (unit u-jump) (unit u-exec)))
|
|
)
|
|
|
|
; BREAK n [ 1110 | 10010011 | n ]
|
|
|
|
(dni-cdt
|
|
break "break"
|
|
"break $n"
|
|
(+ (f-operand2 #xe) MODE_INDIRECT INFIX_BREAK SIZE_FIXED n)
|
|
(sequence () (reset-x-p) (set pc (c-call USI "@cpu@_break_handler" n pc)))
|
|
)
|
|
|
|
; BOUND.m Rs,Rd [ Rd | 010111mm | Rs ]
|
|
(dni-cdt-bwd
|
|
bound-r "Bound register"
|
|
"${Rs},${Rd}"
|
|
(+ Rd R_BOUND MODE_REGISTER Rs)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((SI tmpopd) (SI tmpops) (SI newval))
|
|
(set tmpops ((.sym BWD -zext) (trunc BWD Rs)))
|
|
(set tmpopd Rd)
|
|
(set newval (if SI (ltu tmpops tmpopd) tmpops tmpopd))
|
|
(set Rd newval)
|
|
(setf-move SI newval)))
|
|
)
|
|
|
|
; BOUND.m [Rs],Rd [ Rd | 100111mm | Rs ]
|
|
; BOUND.m [Rs+],Rd [ Rd | 110111mm | Rs ]
|
|
(dni-cmt-bwd-attr
|
|
bound-m "Bound memory"
|
|
(MACH-PRE-V32)
|
|
"[${Rs}${inc}],${Rd}"
|
|
(+ Rd INDIR_BOUND Rs)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((SI tmpopd) (SI tmpops) (SI newval))
|
|
(set tmpops ((.sym BWD -zext) (cris-get-mem BWD Rs)))
|
|
(set tmpopd Rd)
|
|
(set newval (if SI (ltu tmpops tmpopd) tmpops tmpopd))
|
|
(if (andif prefix-set (not inc))
|
|
(set Rs newval)
|
|
(set Rd newval))
|
|
(setf-move SI newval)))
|
|
)
|
|
|
|
; (BOUND.m [PC+],Rd [ Rd | 110111mm | 1111 ])
|
|
(dni-c-QI
|
|
bound-cb "Bound constant byte"
|
|
"bound.b [PC+],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_BOUND SIZE_BYTE (f-source 15) uconst8)
|
|
(sequence
|
|
((SI tmpopd) (SI tmpops) (SI newval))
|
|
(set tmpops (zext SI (trunc QI uconst8)))
|
|
(set tmpopd Rd)
|
|
(set newval (if SI (ltu tmpops tmpopd) tmpops tmpopd))
|
|
(set Rd newval)
|
|
(setf-move SI newval))
|
|
)
|
|
(dni-c-HI
|
|
bound-cw "Bound constant word"
|
|
"bound.w [PC+],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_BOUND SIZE_WORD (f-source 15) uconst16)
|
|
(sequence
|
|
((SI tmpopd) (SI tmpops) (SI newval))
|
|
(set tmpops (zext SI uconst16))
|
|
(set tmpopd Rd)
|
|
(set newval (if SI (ltu tmpops tmpopd) tmpops tmpopd))
|
|
(set Rd newval)
|
|
(setf-move SI newval))
|
|
)
|
|
(dni-c-SI
|
|
bound-cd "Bound constant dword"
|
|
"bound.d [PC+],${Rd}"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_BOUND SIZE_DWORD (f-source 15) const32)
|
|
(sequence
|
|
((SI tmpopd) (SI tmpops) (SI newval))
|
|
(set tmpops const32)
|
|
(set tmpopd Rd)
|
|
(set newval (if SI (ltu tmpops tmpopd) tmpops tmpopd))
|
|
(set Rd newval)
|
|
(setf-move SI newval))
|
|
)
|
|
|
|
; Scc Rd [ cc | 01010011 | Rd ]
|
|
(dni-cdt
|
|
scc "scc"
|
|
"s${cc} ${Rd-sfield}"
|
|
(+ cc MODE_REGISTER RFIX_SCC SIZE_FIXED Rd-sfield)
|
|
(sequence
|
|
((BI truthval))
|
|
(set truthval (cris-condition cc))
|
|
(set Rd-sfield (zext SI truthval))
|
|
(reset-x-p))
|
|
)
|
|
|
|
; LZ Rs,Rd [ Rd | 01110011 | Rs ]
|
|
(dni-cdt-attr
|
|
lz "lz"
|
|
(MACH-V3-UP)
|
|
"lz ${Rs},${Rd}"
|
|
(+ Rd MODE_REGISTER RFIX_LZ SIZE_FIXED Rs)
|
|
(sequence
|
|
((SI tmpd) (SI tmp))
|
|
(set tmp Rs)
|
|
(set tmpd 0)
|
|
(.splice
|
|
sequence
|
|
()
|
|
(.unsplice
|
|
(.map
|
|
(.pmacro (n)
|
|
(if (ge tmp 0)
|
|
(sequence
|
|
()
|
|
(set tmp (sll tmp 1))
|
|
(set tmpd (add tmpd 1)))))
|
|
(.iota 32))))
|
|
(set Rd tmpd)
|
|
(setf-move SI tmpd))
|
|
)
|
|
|
|
; ADDOQ o,Rs,ACR [ Rs | 0001 | o ]
|
|
(dni-cdt
|
|
addoq "addoq"
|
|
"addoq $o,$Rs,ACR"
|
|
(+ Rs-dfield MODE_QUICK_IMMEDIATE QHI_ADDOQ o)
|
|
(sequence
|
|
()
|
|
(set prefixreg (add SI Rs-dfield o))
|
|
(set prefix-set 1))
|
|
)
|
|
|
|
; (BDAPQ o,PC [ 1111 | 0001 | o ])
|
|
; This [PC+I] prefix is used in trampolines.
|
|
(dni-cdt-attr
|
|
bdapqpc "bdapq pc operand"
|
|
(MACH-PC UNCOND-CTI)
|
|
"bdapq $o,PC"
|
|
(+ (f-dest 15) MODE_QUICK_IMMEDIATE QHI_BDAP o)
|
|
(sequence
|
|
()
|
|
(set prefixreg (add SI (add SI pc 2) o))
|
|
(set prefix-set 1)
|
|
; When this *rare* instruction is seen, we're may be about to write
|
|
; into code to be executed soon, *probably* covering addresses decoded
|
|
; and executed before. If the simulator does not implement snooping
|
|
; and automatic decoder flush, it will execute old code. This call
|
|
; is a kludge for such simulators, asking it to abandon such cached
|
|
; information. Anyway, it is hopefully enough to make CGEN-sim not
|
|
; hork on gcc trampolines.
|
|
; We mark this insn as UNCOND-CTI so this insn will end a simulator
|
|
; basic block (the atomic unit of translation).
|
|
(c-call VOID "cris_flush_simulator_decode_cache" pc))
|
|
)
|
|
|
|
; ADDO.m [Rs],Rd,ACR [ Rd | 100101mm | Rs ]
|
|
; ADDO.m [Rs+],Rd,ACR [ Rd | 110101mm | Rs ]
|
|
(dni-cmt-bwd
|
|
addo-m "addo.m memory"
|
|
"[${Rs}${inc}],$Rd,ACR"
|
|
(+ Rd INDIR_ADDO Rs)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
((BWD tmps))
|
|
(set tmps (cris-get-mem BWD Rs))
|
|
(set prefixreg (add SI Rd ((.sym BWD -ext) tmps)))
|
|
(set prefix-set 1)))
|
|
)
|
|
|
|
; (ADDO.m [PC+],Rd,ACR [ Rd | 110101mm | 1111 ]
|
|
(dni-c-QI
|
|
addo-cb "addo.b const"
|
|
"addo.b [PC+],$Rd,ACR"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_ADDO SIZE_BYTE (f-source 15) sconst8)
|
|
(sequence
|
|
()
|
|
(set prefixreg (add SI Rd (ext SI (trunc QI sconst8))))
|
|
(set prefix-set 1))
|
|
)
|
|
(dni-c-HI
|
|
addo-cw "addo.w const"
|
|
"addo.w [PC+],$Rd,ACR"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_ADDO SIZE_WORD (f-source 15) sconst16)
|
|
(sequence
|
|
()
|
|
(set prefixreg (add SI Rd (ext SI (trunc HI sconst16))))
|
|
(set prefix-set 1))
|
|
)
|
|
(dni-c-SI
|
|
addo-cd "addo.d const"
|
|
"addo.d [PC+],$Rd,ACR"
|
|
(+ Rd MODE_AUTOINCREMENT INDIR_ADDO SIZE_DWORD (f-source 15) const32)
|
|
(sequence
|
|
()
|
|
(set prefixreg (add SI Rd const32))
|
|
(set prefix-set 1))
|
|
)
|
|
|
|
; DIP [] | 0 0 0 0| 1 m| 0 1 0 1| 1 1| Source |
|
|
|
|
(dni-cmt-attr
|
|
dip-m "dip mem"
|
|
(MACH-PRE-V32)
|
|
"dip [${Rs}${inc}]"
|
|
(+ (f-dest 0) INFIX_DIP SIZE_FIXED Rs)
|
|
(sequence
|
|
((SI tmps))
|
|
(set tmps (cris-get-mem SI Rs))
|
|
(set prefixreg tmps)
|
|
(set prefix-set 1))
|
|
)
|
|
|
|
; (DIP [] | 0 0 0 0| 1 m| 0 1 0 1| 1 1| Source | )
|
|
(dni-c-SI-attr
|
|
dip-c "dip [PC+]"
|
|
(MACH-PC)
|
|
"dip [PC+]"
|
|
(+ (f-dest 0) MODE_AUTOINCREMENT INFIX_DIP SIZE_FIXED (f-source 15) const32)
|
|
(sequence
|
|
()
|
|
(set prefixreg const32)
|
|
(set prefix-set 1))
|
|
)
|
|
|
|
; ADDI Rs.m,Rd,ACR [ Rs | 010101mm | Rd ]
|
|
; a.k.a. biap
|
|
(dni-cdt-bwd
|
|
addi-acr "addi prefix"
|
|
"${Rs-dfield}.m,${Rd-sfield},ACR"
|
|
(+ Rd-sfield MODE_REGISTER R_ADDI_ACR Rs-dfield)
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
()
|
|
(set prefixreg (add SI Rd-sfield (mul Rs-dfield (.sym BWD -size))))
|
|
(set prefix-set 1)))
|
|
)
|
|
|
|
(dni-cdt-bwd-attr
|
|
biap-pc "biap.m ${Rs-dfield},PC"
|
|
(MACH-PC)
|
|
"${Rs-dfield}.m,PC"
|
|
(+ Rs-dfield MODE_REGISTER R_ADDI_ACR (f-source 15))
|
|
(.pmacro
|
|
(BWD)
|
|
(sequence
|
|
()
|
|
(set prefixreg (add SI (add SI pc 4) (mul Rs-dfield (.sym BWD -size))))
|
|
(set prefix-set 1)))
|
|
)
|
|
|
|
; FIDXI [Rs] [ 0000 | 11010011 | Rs ]
|
|
(dni-cdt-attr
|
|
fidxi "fidxi [Rs]"
|
|
(MACH-V32)
|
|
"fidxi [$Rs]"
|
|
(+ (f-dest 0) MODE_AUTOINCREMENT INFIX_FIDXI SIZE_FIXED Rs)
|
|
(set pc (c-call USI "@cpu@_fidxi_handler" pc Rs))
|
|
)
|
|
|
|
; FTAGI [Rs] [ 0001 | 11010011 | Rs ]
|
|
(dni-cdt-attr
|
|
ftagi "ftagi [Rs]"
|
|
(MACH-V32)
|
|
"fidxi [$Rs]"
|
|
(+ (f-dest 1) MODE_AUTOINCREMENT INFIX_FTAGI SIZE_FIXED Rs)
|
|
(set pc (c-call USI "@cpu@_ftagi_handler" pc Rs))
|
|
)
|
|
|
|
; FIDXD [Rs] [ 0000 | 10101011 | Rs ]
|
|
(dni-cdt-attr
|
|
fidxd "fidxd [Rs]"
|
|
(MACH-V32)
|
|
"fidxd [$Rs]"
|
|
(+ (f-dest 0) MODE_INDIRECT INFIX_FIDXD SIZE_FIXED Rs)
|
|
(set pc (c-call USI "@cpu@_fidxd_handler" pc Rs))
|
|
)
|
|
|
|
; FTAGD [Rs] [ 0001 | 10101011 | Rs ]
|
|
(dni-cdt-attr
|
|
ftagd "ftagd [Rs]"
|
|
(MACH-V32)
|
|
"ftagd [$Rs]"
|
|
(+ (f-dest 1) MODE_INDIRECT INFIX_FTAGD SIZE_FIXED Rs)
|
|
(set pc (c-call USI "@cpu@_ftagd_handler" pc Rs))
|
|
)
|