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526 lines
16 KiB
526 lines
16 KiB
#ifndef XTENSA_COREASM_H
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#define XTENSA_COREASM_H
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/*
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* THIS FILE IS GENERATED -- DO NOT MODIFY BY HAND
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*
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* include/asm-xtensa/xtensa/coreasm.h -- assembler-specific
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* definitions that depend on CORE configuration.
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*
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* Source for configuration-independent binaries (which link in a
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* configuration-specific HAL library) must NEVER include this file.
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* It is perfectly normal, however, for the HAL itself to include this
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* file.
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*
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* This file must NOT include xtensa/config/system.h. Any assembler
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* header file that depends on system information should likely go in
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* a new systemasm.h (or sysasm.h) header file.
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*
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* NOTE: macro beqi32 is NOT configuration-dependent, and is placed
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* here til we will have configuration-independent header file.
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*
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* This file is subject to the terms and conditions of the GNU General
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* Public License. See the file "COPYING" in the main directory of
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* this archive for more details.
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*
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* Copyright (C) 2002 Tensilica Inc.
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*/
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#include <xtensa/config/core.h>
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#include <xtensa/config/specreg.h>
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/*
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* Assembly-language specific definitions (assembly macros, etc.).
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*/
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/*----------------------------------------------------------------------
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* find_ms_setbit
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*
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* This macro finds the most significant bit that is set in <as>
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* and return its index + <base> in <ad>, or <base> - 1 if <as> is zero.
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* The index counts starting at zero for the lsbit, so the return
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* value ranges from <base>-1 (no bit set) to <base>+31 (msbit set).
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*
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* Parameters:
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* <ad> destination address register (any register)
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* <as> source address register
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* <at> temporary address register (must be different than <as>)
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* <base> constant value added to result (usually 0 or 1)
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* On entry:
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* <ad> = undefined if different than <as>
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* <as> = value whose most significant set bit is to be found
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* <at> = undefined
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* no other registers are used by this macro.
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* On exit:
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* <ad> = <base> + index of msbit set in original <as>,
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* = <base> - 1 if original <as> was zero.
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* <as> clobbered (if not <ad>)
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* <at> clobbered (if not <ad>)
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* Example:
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* find_ms_setbit a0, a4, a0, 0 -- return in a0 index of msbit set in a4
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*/
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.macro find_ms_setbit ad, as, at, base
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#if XCHAL_HAVE_NSA
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movi \at, 31+\base
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nsau \as, \as // get index of \as, numbered from msbit (32 if absent)
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sub \ad, \at, \as // get numbering from lsbit (0..31, -1 if absent)
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#else /* XCHAL_HAVE_NSA */
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movi \at, \base // start with result of 0 (point to lsbit of 32)
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beqz \as, 2f // special case for zero argument: return -1
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bltui \as, 0x10000, 1f // is it one of the 16 lsbits? (if so, check lower 16 bits)
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addi \at, \at, 16 // no, increment result to upper 16 bits (of 32)
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//srli \as, \as, 16 // check upper half (shift right 16 bits)
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extui \as, \as, 16, 16 // check upper half (shift right 16 bits)
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1: bltui \as, 0x100, 1f // is it one of the 8 lsbits? (if so, check lower 8 bits)
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addi \at, \at, 8 // no, increment result to upper 8 bits (of 16)
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srli \as, \as, 8 // shift right to check upper 8 bits
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1: bltui \as, 0x10, 1f // is it one of the 4 lsbits? (if so, check lower 4 bits)
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addi \at, \at, 4 // no, increment result to upper 4 bits (of 8)
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srli \as, \as, 4 // shift right 4 bits to check upper half
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1: bltui \as, 0x4, 1f // is it one of the 2 lsbits? (if so, check lower 2 bits)
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addi \at, \at, 2 // no, increment result to upper 2 bits (of 4)
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srli \as, \as, 2 // shift right 2 bits to check upper half
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1: bltui \as, 0x2, 1f // is it the lsbit?
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addi \at, \at, 2 // no, increment result to upper bit (of 2)
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2: addi \at, \at, -1 // (from just above: add 1; from beqz: return -1)
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//srli \as, \as, 1
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1: // done! \at contains index of msbit set (or -1 if none set)
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.if 0x\ad - 0x\at // destination different than \at ? (works because regs are a0-a15)
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mov \ad, \at // then move result to \ad
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.endif
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#endif /* XCHAL_HAVE_NSA */
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.endm // find_ms_setbit
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/*----------------------------------------------------------------------
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* find_ls_setbit
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*
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* This macro finds the least significant bit that is set in <as>,
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* and return its index in <ad>.
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* Usage is the same as for the find_ms_setbit macro.
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* Example:
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* find_ls_setbit a0, a4, a0, 0 -- return in a0 index of lsbit set in a4
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*/
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.macro find_ls_setbit ad, as, at, base
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neg \at, \as // keep only the least-significant bit that is set...
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and \as, \at, \as // ... in \as
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find_ms_setbit \ad, \as, \at, \base
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.endm // find_ls_setbit
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/*----------------------------------------------------------------------
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* find_ls_one
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*
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* Same as find_ls_setbit with base zero.
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* Source (as) and destination (ad) registers must be different.
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* Provided for backward compatibility.
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*/
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.macro find_ls_one ad, as
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find_ls_setbit \ad, \as, \ad, 0
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.endm // find_ls_one
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/*----------------------------------------------------------------------
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* floop, floopnez, floopgtz, floopend
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*
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* These macros are used for fast inner loops that
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* work whether or not the Loops options is configured.
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* If the Loops option is configured, they simply use
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* the zero-overhead LOOP instructions; otherwise
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* they use explicit decrement and branch instructions.
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*
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* They are used in pairs, with floop, floopnez or floopgtz
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* at the beginning of the loop, and floopend at the end.
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*
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* Each pair of loop macro calls must be given the loop count
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* address register and a unique label for that loop.
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*
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* Example:
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*
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* movi a3, 16 // loop 16 times
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* floop a3, myloop1
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* :
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* bnez a7, end1 // exit loop if a7 != 0
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* :
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* floopend a3, myloop1
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* end1:
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*
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* Like the LOOP instructions, these macros cannot be
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* nested, must include at least one instruction,
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* cannot call functions inside the loop, etc.
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* The loop can be exited by jumping to the instruction
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* following floopend (or elsewhere outside the loop),
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* or continued by jumping to a NOP instruction placed
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* immediately before floopend.
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*
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* Unlike LOOP instructions, the register passed to floop*
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* cannot be used inside the loop, because it is used as
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* the loop counter if the Loops option is not configured.
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* And its value is undefined after exiting the loop.
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* And because the loop counter register is active inside
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* the loop, you can't easily use this construct to loop
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* across a register file using ROTW as you might with LOOP
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* instructions, unless you copy the loop register along.
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*/
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/* Named label version of the macros: */
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.macro floop ar, endlabel
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floop_ \ar, .Lfloopstart_\endlabel, .Lfloopend_\endlabel
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.endm
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.macro floopnez ar, endlabel
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floopnez_ \ar, .Lfloopstart_\endlabel, .Lfloopend_\endlabel
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.endm
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.macro floopgtz ar, endlabel
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floopgtz_ \ar, .Lfloopstart_\endlabel, .Lfloopend_\endlabel
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.endm
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.macro floopend ar, endlabel
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floopend_ \ar, .Lfloopstart_\endlabel, .Lfloopend_\endlabel
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.endm
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/* Numbered local label version of the macros: */
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#if 0 /*UNTESTED*/
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.macro floop89 ar
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floop_ \ar, 8, 9f
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.endm
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.macro floopnez89 ar
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floopnez_ \ar, 8, 9f
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.endm
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.macro floopgtz89 ar
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floopgtz_ \ar, 8, 9f
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.endm
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.macro floopend89 ar
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floopend_ \ar, 8b, 9
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.endm
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#endif /*0*/
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/* Underlying version of the macros: */
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.macro floop_ ar, startlabel, endlabelref
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.ifdef _infloop_
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.if _infloop_
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.err // Error: floop cannot be nested
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.endif
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.endif
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.set _infloop_, 1
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#if XCHAL_HAVE_LOOPS
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loop \ar, \endlabelref
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#else /* XCHAL_HAVE_LOOPS */
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\startlabel:
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addi \ar, \ar, -1
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#endif /* XCHAL_HAVE_LOOPS */
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.endm // floop_
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.macro floopnez_ ar, startlabel, endlabelref
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.ifdef _infloop_
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.if _infloop_
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.err // Error: floopnez cannot be nested
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.endif
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.endif
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.set _infloop_, 1
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#if XCHAL_HAVE_LOOPS
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loopnez \ar, \endlabelref
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#else /* XCHAL_HAVE_LOOPS */
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beqz \ar, \endlabelref
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\startlabel:
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addi \ar, \ar, -1
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#endif /* XCHAL_HAVE_LOOPS */
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.endm // floopnez_
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.macro floopgtz_ ar, startlabel, endlabelref
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.ifdef _infloop_
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.if _infloop_
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.err // Error: floopgtz cannot be nested
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.endif
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.endif
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.set _infloop_, 1
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#if XCHAL_HAVE_LOOPS
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loopgtz \ar, \endlabelref
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#else /* XCHAL_HAVE_LOOPS */
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bltz \ar, \endlabelref
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beqz \ar, \endlabelref
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\startlabel:
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addi \ar, \ar, -1
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#endif /* XCHAL_HAVE_LOOPS */
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.endm // floopgtz_
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.macro floopend_ ar, startlabelref, endlabel
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.ifndef _infloop_
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.err // Error: floopend without matching floopXXX
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.endif
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.ifeq _infloop_
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.err // Error: floopend without matching floopXXX
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.endif
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.set _infloop_, 0
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#if ! XCHAL_HAVE_LOOPS
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bnez \ar, \startlabelref
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#endif /* XCHAL_HAVE_LOOPS */
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\endlabel:
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.endm // floopend_
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/*----------------------------------------------------------------------
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* crsil -- conditional RSIL (read/set interrupt level)
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*
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* Executes the RSIL instruction if it exists, else just reads PS.
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* The RSIL instruction does not exist in the new exception architecture
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* if the interrupt option is not selected.
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*/
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.macro crsil ar, newlevel
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#if XCHAL_HAVE_OLD_EXC_ARCH || XCHAL_HAVE_INTERRUPTS
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rsil \ar, \newlevel
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#else
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rsr \ar, PS
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#endif
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.endm // crsil
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/*----------------------------------------------------------------------
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* window_spill{4,8,12}
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*
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* These macros spill callers' register windows to the stack.
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* They work for both privileged and non-privileged tasks.
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* Must be called from a windowed ABI context, eg. within
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* a windowed ABI function (ie. valid stack frame, window
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* exceptions enabled, not in exception mode, etc).
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*
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* This macro requires a single invocation of the window_spill_common
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* macro in the same assembly unit and section.
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*
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* Note that using window_spill{4,8,12} macros is more efficient
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* than calling a function implemented using window_spill_function,
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* because the latter needs extra code to figure out the size of
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* the call to the spilling function.
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*
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* Example usage:
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*
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* .text
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* .align 4
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* .global some_function
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* .type some_function,@function
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* some_function:
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* entry a1, 16
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* :
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* :
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*
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* window_spill4 // spill windows of some_function's callers; preserves a0..a3 only;
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* // to use window_spill{8,12} in this example function we'd have
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* // to increase space allocated by the entry instruction, because
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* // 16 bytes only allows call4; 32 or 48 bytes (+locals) are needed
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* // for call8/window_spill8 or call12/window_spill12 respectively.
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* :
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*
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* retw
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*
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* window_spill_common // instantiates code used by window_spill4
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*
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*
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* On entry:
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* none (if window_spill4)
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* stack frame has enough space allocated for call8 (if window_spill8)
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* stack frame has enough space allocated for call12 (if window_spill12)
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* On exit:
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* a4..a15 clobbered (if window_spill4)
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* a8..a15 clobbered (if window_spill8)
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* a12..a15 clobbered (if window_spill12)
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* no caller windows are in live registers
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*/
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.macro window_spill4
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#if XCHAL_HAVE_WINDOWED
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# if XCHAL_NUM_AREGS == 16
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movi a15, 0 // for 16-register files, no need to call to reach the end
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# elif XCHAL_NUM_AREGS == 32
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call4 .L__wdwspill_assist28 // call deep enough to clear out any live callers
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# elif XCHAL_NUM_AREGS == 64
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call4 .L__wdwspill_assist60 // call deep enough to clear out any live callers
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# endif
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#endif
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.endm // window_spill4
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.macro window_spill8
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#if XCHAL_HAVE_WINDOWED
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# if XCHAL_NUM_AREGS == 16
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movi a15, 0 // for 16-register files, no need to call to reach the end
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# elif XCHAL_NUM_AREGS == 32
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call8 .L__wdwspill_assist24 // call deep enough to clear out any live callers
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# elif XCHAL_NUM_AREGS == 64
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call8 .L__wdwspill_assist56 // call deep enough to clear out any live callers
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# endif
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#endif
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.endm // window_spill8
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.macro window_spill12
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#if XCHAL_HAVE_WINDOWED
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# if XCHAL_NUM_AREGS == 16
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movi a15, 0 // for 16-register files, no need to call to reach the end
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# elif XCHAL_NUM_AREGS == 32
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call12 .L__wdwspill_assist20 // call deep enough to clear out any live callers
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# elif XCHAL_NUM_AREGS == 64
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call12 .L__wdwspill_assist52 // call deep enough to clear out any live callers
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# endif
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#endif
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.endm // window_spill12
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/*----------------------------------------------------------------------
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* window_spill_function
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*
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* This macro outputs a function that will spill its caller's callers'
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* register windows to the stack. Eg. it could be used to implement
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* a version of xthal_window_spill() that works in non-privileged tasks.
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* This works for both privileged and non-privileged tasks.
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*
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* Typical usage:
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*
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* .text
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* .align 4
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* .global my_spill_function
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* .type my_spill_function,@function
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* my_spill_function:
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* window_spill_function
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*
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* On entry to resulting function:
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* none
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* On exit from resulting function:
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* none (no caller windows are in live registers)
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*/
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.macro window_spill_function
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#if XCHAL_HAVE_WINDOWED
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# if XCHAL_NUM_AREGS == 32
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entry sp, 48
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bbci.l a0, 31, 1f // branch if called with call4
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bbsi.l a0, 30, 2f // branch if called with call12
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call8 .L__wdwspill_assist16 // called with call8, only need another 8
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retw
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1: call12 .L__wdwspill_assist16 // called with call4, only need another 12
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retw
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2: call4 .L__wdwspill_assist16 // called with call12, only need another 4
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retw
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# elif XCHAL_NUM_AREGS == 64
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entry sp, 48
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bbci.l a0, 31, 1f // branch if called with call4
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bbsi.l a0, 30, 2f // branch if called with call12
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call4 .L__wdwspill_assist52 // called with call8, only need a call4
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retw
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1: call8 .L__wdwspill_assist52 // called with call4, only need a call8
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retw
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2: call12 .L__wdwspill_assist40 // called with call12, can skip a call12
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retw
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# elif XCHAL_NUM_AREGS == 16
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entry sp, 16
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bbci.l a0, 31, 1f // branch if called with call4
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bbsi.l a0, 30, 2f // branch if called with call12
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movi a7, 0 // called with call8
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retw
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1: movi a11, 0 // called with call4
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2: retw // if called with call12, everything already spilled
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// movi a15, 0 // trick to spill all but the direct caller
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// j 1f
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// // The entry instruction is magical in the assembler (gets auto-aligned)
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// // so we have to jump to it to avoid falling through the padding.
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// // We need entry/retw to know where to return.
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//1: entry sp, 16
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// retw
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# else
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# error "unrecognized address register file size"
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# endif
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#endif /* XCHAL_HAVE_WINDOWED */
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window_spill_common
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.endm // window_spill_function
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/*----------------------------------------------------------------------
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* window_spill_common
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*
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* Common code used by any number of invocations of the window_spill##
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* and window_spill_function macros.
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*
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* Must be instantiated exactly once within a given assembly unit,
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* within call/j range of and same section as window_spill##
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* macro invocations for that assembly unit.
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* (Is automatically instantiated by the window_spill_function macro.)
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*/
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.macro window_spill_common
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#if XCHAL_HAVE_WINDOWED && (XCHAL_NUM_AREGS == 32 || XCHAL_NUM_AREGS == 64)
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.ifndef .L__wdwspill_defined
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# if XCHAL_NUM_AREGS >= 64
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.L__wdwspill_assist60:
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entry sp, 32
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call8 .L__wdwspill_assist52
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retw
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.L__wdwspill_assist56:
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entry sp, 16
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call4 .L__wdwspill_assist52
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retw
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.L__wdwspill_assist52:
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entry sp, 48
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call12 .L__wdwspill_assist40
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retw
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.L__wdwspill_assist40:
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entry sp, 48
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call12 .L__wdwspill_assist28
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retw
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|
# endif
|
|
.L__wdwspill_assist28:
|
|
entry sp, 48
|
|
call12 .L__wdwspill_assist16
|
|
retw
|
|
.L__wdwspill_assist24:
|
|
entry sp, 32
|
|
call8 .L__wdwspill_assist16
|
|
retw
|
|
.L__wdwspill_assist20:
|
|
entry sp, 16
|
|
call4 .L__wdwspill_assist16
|
|
retw
|
|
.L__wdwspill_assist16:
|
|
entry sp, 16
|
|
movi a15, 0
|
|
retw
|
|
.set .L__wdwspill_defined, 1
|
|
.endif
|
|
#endif /* XCHAL_HAVE_WINDOWED with 32 or 64 aregs */
|
|
.endm // window_spill_common
|
|
|
|
/*----------------------------------------------------------------------
|
|
* beqi32
|
|
*
|
|
* macro implements version of beqi for arbitrary 32-bit immidiate value
|
|
*
|
|
* beqi32 ax, ay, imm32, label
|
|
*
|
|
* Compares value in register ax with imm32 value and jumps to label if
|
|
* equal. Clobberes register ay if needed
|
|
*
|
|
*/
|
|
.macro beqi32 ax, ay, imm, label
|
|
.ifeq ((\imm-1) & ~7) // 1..8 ?
|
|
beqi \ax, \imm, \label
|
|
.else
|
|
.ifeq (\imm+1) // -1 ?
|
|
beqi \ax, \imm, \label
|
|
.else
|
|
.ifeq (\imm) // 0 ?
|
|
beqz \ax, \label
|
|
.else
|
|
// We could also handle immediates 10,12,16,32,64,128,256
|
|
// but it would be a long macro...
|
|
movi \ay, \imm
|
|
beq \ax, \ay, \label
|
|
.endif
|
|
.endif
|
|
.endif
|
|
.endm // beqi32
|
|
|
|
#endif /*XTENSA_COREASM_H*/
|
|
|
|
|