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[/] [openrisc/] [trunk/] [gnu-old/] [gdb-7.1/] [sim/] [testsuite/] [sim/] [frv/] [testutils.inc] - Rev 227

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# gr28-gr31, fr31, icc3, fcc3 are used as tmps.
# consider them call clobbered by these macros.

        .macro start
        .data
failmsg:
        .ascii "fail\n"
passmsg:
        .ascii "pass\n"
        .text
        .global _start
_start:
        ; enable data and insn caches in copy-back mode
        ; Also enable all registers
        or_spr_immed    0xc80003c0,hsr0
        and_spr_immed   0xfffff3ff,hsr0

        ; turn on psr.nem, psr.cm, psr.ef, psr.em, psr.esr,
        ; disable external interrupts
        or_spr_immed    0x69f8,psr

        ; If fsr exists, enable all fp_exceptions except inexact
        movsg           psr,gr28
        srli            gr28,28,gr28
        subicc          gr28,0x2,gr0,icc3 ; is fr400?
        beq             icc3,0,nofsr0
        or_spr_immed    0x3d000000,fsr0
nofsr0:

        ; Set the stack pointer
        sethi.p         0x7,sp
        setlo           0xfffc,sp       ; TODO -- what's a good value for this?

        ; Set the TBR address
        sethi.p         0xf,gr28
        setlo           0xf000,gr28
        movgs           gr28,tbr        ; TODO -- what's a good value for this?

        ; Go to user mode -- causes too many problems
        ;and_spr_immed  0xfffffffb,psr
        .endm

; Set GR with another GR
        .macro set_gr_gr src targ
        addi    \src,0,\targ
        .endm

; Set GR with immediate value
        .macro set_gr_immed val reg
        .if (\val >= -32768) && (\val <= 23767)
        setlos  \val,\reg
        .else
        setlo.p %lo(\val),\reg
        sethi   %hi(\val),\reg
        .endif
        .endm

        .macro set_gr_limmed valh vall reg
        sethi.p \valh,\reg
        setlo   \vall,\reg
        .endm

; Set GR with address value
        .macro set_gr_addr addr reg
        sethi.p %hi(\addr),\reg
        setlo   %lo(\addr),\reg
        .endm

; Set GR with SPR
        .macro set_gr_spr src targ
        movsg   \src,\targ
        .endm

; Set GR with a value from memory
        .macro set_gr_mem addr reg
        set_gr_addr     \addr,gr28
        ldi             @(gr28,0),\reg
        .endm

; Increment GR with immediate value
        .macro inc_gr_immed val reg
        .if (\val >= -2048) && (\val <= 2047)
        addi \reg,\val,\reg
        .else
        set_gr_immed \val,gr28
        add \reg,gr28,\reg
        .endif
        .endm

; AND GR with immediate value
        .macro and_gr_immed val reg
        .if (\val >= -2048) && (\val <= 2047)
        andi \reg,\val,\reg
        .else
        set_gr_immed \val,gr28
        and \reg,gr28,\reg
        .endif
        .endm

; OR GR with immediate value
        .macro or_gr_immed val reg
        .if (\val >= -2048) && (\val <= 2047)
        ori \reg,\val,\reg
        .else
        set_gr_immed \val,gr28
        or \reg,gr28,\reg
        .endif
        .endm

; Set FR with another FR
        .macro set_fr_fr src targ
        fmovs   \src,\targ
        .endm

; Set FR with integer immediate value
        .macro set_fr_iimmed valh vall reg
        set_gr_limmed   \valh,\vall,gr28
        movgf           gr28,\reg
        .endm

; Set FR with integer immediate value
        .macro set_fr_immed val reg
        set_gr_immed    \val,gr28
        movgf           gr28,\reg
        .endm

; Set FR with a value from memory
        .macro set_fr_mem addr reg
        set_gr_addr     \addr,gr28
        ldfi            @(gr28,0),\reg
        .endm

; Set double FR with another double FR
        .macro set_dfr_dfr src targ
        fmovd   \src,\targ
        .endm

; Set double FR with a value from memory
        .macro set_dfr_mem addr reg
        set_gr_addr     \addr,gr28
        lddfi           @(gr28,0),\reg
        .endm

; Set CPR with immediate value
        .macro set_cpr_immed val reg
        addi            sp,-4,gr28
        set_gr_immed    \val,gr29
        st              gr29,@(gr28,gr0)
        ldc             @(gr28,gr0),\reg
        .endm

        .macro set_cpr_limmed valh vall reg
        addi            sp,-4,gr28
        set_gr_limmed   \valh,\vall,gr29
        st              gr29,@(gr28,gr0)
        ldc             @(gr28,gr0),\reg
        .endm

; Set SPR with immediate value
        .macro set_spr_immed val reg
        set_gr_immed    \val,gr28
        movgs           gr28,\reg
        .endm

        .macro set_spr_limmed valh vall reg
        set_gr_limmed   \valh,\vall,gr28
        movgs           gr28,\reg
        .endm

        .macro set_spr_addr addr reg
        set_gr_addr     \addr,gr28
        movgs           gr28,\reg
        .endm

; increment SPR with immediate value
        .macro inc_spr_immed val reg
        movsg           \reg,gr28
        inc_gr_immed    \val,gr28
        movgs           gr28,\reg
        .endm

; OR spr with immediate value
        .macro or_spr_immed val reg
        movsg           \reg,gr28
        set_gr_immed    \val,gr29
        or              gr28,gr29,gr28
        movgs           gr28,\reg
        .endm

; AND spr with immediate value
        .macro and_spr_immed val reg
        movsg           \reg,gr28
        set_gr_immed    \val,gr29
        and             gr28,gr29,gr28
        movgs           gr28,\reg
        .endm

; Set accumulator with immediate value
        .macro set_acc_immed val reg
        set_fr_immed    \val,fr31
        mwtacc          fr31,\reg
        .endm

; Set accumulator guard with immediate value
        .macro set_accg_immed val reg
        set_fr_immed    \val,fr31
        mwtaccg         fr31,\reg
        .endm

; Set memory with immediate value
        .macro set_mem_immed val base
        set_gr_immed    \val,gr28
        sti             gr28,@(\base,0)
        .endm

        .macro set_mem_limmed valh vall base
        set_gr_limmed   \valh,\vall,gr28
        sti             gr28,@(\base,0)
        .endm

; Set memory with GR value
        .macro set_mem_gr reg addr
        set_gr_addr     \addr,gr28
        sti             \reg,@(gr28,0)
        .endm

; Test the value of a general register against another general register
        .macro test_gr_gr reg1 reg2
        subcc \reg1,\reg2,gr0,icc3
        beq icc3,0,test_gr\@
        fail
test_gr\@:
        .endm

; Test the value of an immediate against a general register
        .macro test_gr_immed val reg
        .if (\val >= -512) && (\val <= 511)
        subicc \reg,\val,gr0,icc3
        .else
        set_gr_immed \val,gr28
        subcc \reg,gr28,gr0,icc3
        .endif
        beq icc3,0,test_gr\@
        fail
test_gr\@:
        .endm

        .macro test_gr_limmed valh vall reg
        set_gr_limmed \valh,\vall,gr28
        subcc \reg,gr28,gr0,icc3
        beq icc3,0,test_gr\@
        fail
test_gr\@:
        .endm

; Test the value of an floating register against an integer immediate
        .macro test_fr_limmed valh vall reg
        movfg           \reg,gr29
        set_gr_limmed   \valh,\vall,gr28
        subcc           gr29,gr28,gr0,icc3
        beq icc3,0,test_gr\@
        fail
test_gr\@:
        .endm

        .macro test_fr_iimmed val reg
        movfg           \reg,gr29
        set_gr_immed    \val,gr28
        subcc           gr29,gr28,gr0,icc3
        beq icc3,0,test_gr\@
        fail
test_gr\@:
        .endm

; Test the value of a floating register against another floating point register
        .macro test_fr_fr reg1 reg2
        fcmps   \reg1,\reg2,fcc3
        fbeq    fcc3,0,test_gr\@
        fail
test_gr\@:
        .endm

; Test the value of a double floating register against another
; double floating point register
        .macro test_dfr_dfr reg1 reg2
        fcmpd   \reg1,\reg2,fcc3
        fbeq    fcc3,0,test_gr\@
        fail
test_gr\@:
        .endm

; Test the value of a special purpose register against an integer immediate
        .macro test_spr_immed val reg
        movsg           \reg,gr29
        set_gr_immed    \val,gr28
        subcc           gr29,gr28,gr0,icc3
        beq icc3,0,test_gr\@
        fail
test_gr\@:
        .endm

        .macro test_spr_limmed valh vall reg
        movsg           \reg,gr29
        set_gr_limmed   \valh,\vall,gr28
        subcc           gr29,gr28,gr0,icc3
        beq icc3,0,test_gr\@
        fail
test_gr\@:
        .endm

        .macro test_spr_gr spr gr
        movsg           \spr,gr28
        test_gr_gr      \gr,gr28
        .endm

        .macro test_spr_addr addr reg
        movsg           \reg,gr29
        set_gr_addr     \addr,gr28
        test_gr_gr      gr28,gr29
        .endm

; Test spr bits masked and shifted against the given value
        .macro test_spr_bits    mask,shift,val,reg
        movsg           \reg,gr28
        set_gr_immed    \mask,gr29
        and             gr28,gr29,gr28
        srli            gr28,\shift,gr29
        test_gr_immed   \val,gr29
        .endm
        

; Test the value of an accumulator against an integer immediate
        .macro test_acc_immed val reg
        mrdacc          \reg,fr31
        test_fr_iimmed  \val,fr31
        .endm

; Test the value of an accumulator against an integer immediate
        .macro test_acc_limmed valh vall reg
        mrdacc          \reg,fr31
        test_fr_limmed  \valh,\vall,fr31
        .endm

; Test the value of an accumulator guard against an integer immediate
        .macro test_accg_immed val reg
        mrdaccg         \reg,fr31
        test_fr_iimmed  \val,fr31
        .endm

; Test CPR agains an immediate value
        .macro test_cpr_limmed valh vall reg
        addi            sp,-4,gr31
        stc             \reg,@(gr31,gr0)
        test_mem_limmed \valh,\vall,gr31
        .endm

; Test the value of an immediate against memory
        .macro test_mem_immed val base
        ldi             @(\base,0),gr29
        .if (\val >= -512) && (\val <= 511)
        subicc gr29,\val,gr0,icc3
        .else
        set_gr_immed \val,gr28
        subcc gr29,gr28,gr0,icc3
        .endif
        beq icc3,0,test_gr\@
        fail
test_gr\@:
        .endm

        .macro test_mem_limmed valh vall base
        ldi             @(\base,0),gr29
        set_gr_limmed \valh,\vall,gr28
        subcc gr29,gr28,gr0,icc3
        beq icc3,0,test_gr\@
        fail
test_gr\@:
        .endm

; Set an integer condition code
        .macro set_icc mask iccno
        set_gr_immed    4,gr29
        smuli           gr29,\iccno,gr30
        addi            gr31,16,gr31
        set_gr_immed    0xf,gr28
        sll             gr28,gr31,gr28
        not             gr28,gr28
        movsg           ccr,gr29
        and             gr28,gr29,gr29
        set_gr_immed    \mask,gr28
        sll             gr28,gr31,gr28
        or              gr28,gr29,gr29
        movgs           gr29,ccr
        .endm
; started here
; Test the condition codes
        .macro test_icc N Z V C iccno
        .if (\N == 1)
        bp   \iccno,0,fail\@
        .else
        bn   \iccno,0,fail\@
        .endif
        .if (\Z == 1)
        bne  \iccno,0,fail\@
        .else
        beq   \iccno,0,fail\@
        .endif
        .if (\V == 1)
        bnv \iccno,0,fail\@
        .else
        bv   \iccno,0,fail\@
        .endif
        .if (\C == 1)
        bnc   \iccno,0,fail\@
        .else
        bc   \iccno,0,fail\@
        .endif
        bra test_cc\@
fail\@:
        fail
test_cc\@:
        .endm

; Set an floating point condition code
        .macro set_fcc mask fccno
        set_gr_immed    4,gr29
        smuli           gr29,\fccno,gr30
        set_gr_immed    0xf,gr28
        sll             gr28,gr31,gr28
        not             gr28,gr28
        movsg           ccr,gr29
        and             gr28,gr29,gr29
        set_gr_immed    \mask,gr28
        sll             gr28,gr31,gr28
        or              gr28,gr29,gr29
        movgs           gr29,ccr
        .endm

; Test the condition codes
        .macro test_fcc val fccno
        set_gr_immed    4,gr29
        smuli           gr29,\fccno,gr30
        movsg           ccr,gr29
        srl             gr29,gr31,gr29
        andi            gr29,0xf,gr29
        test_gr_immed   \val,gr29
        .endm

; Set PSR.ET
        .macro set_psr_et val
        movsg           psr,gr28
        .if (\val == 1)
        ori             gr28,1,gr28             ; Turn on SPR.ET
        .else
        andi            gr28,0xfffffffe,gr28    ; Turn off SPR.ET
        .endif
        movgs           gr28,psr
        .endm

; Floating point constants
        .macro float_constants
f0:             .float  0.0
f1:             .float  1.0
f2:             .float  2.0
f3:             .float  3.0
f6:             .float  6.0
f9:             .float  9.0
fn0:            .float  -0.0
fn1:            .float  -1.0
finf:           .long   0x7f800000
fninf:          .long   0xff800000
fmax:           .long   0x7f7fffff
fmin:           .long   0xff7fffff
feps:           .long   0x00400000
fneps:          .long   0x80400000
fnan1:          .long   0x7fc00000
fnan2:          .long   0x7f800001
        .endm

        .macro double_constants
d0:             .double 0.0
d1:             .double 1.0
d2:             .double 2.0
d3:             .double 3.0
d6:             .double 6.0
d9:             .double 9.0
dn0:            .double -0.0
dn1:            .double -1.0
dinf:           .long   0x7ff00000
                .long   0x00000000
dninf:          .long   0xfff00000
                .long   0x00000000
dmax:           .long   0x7fefffff
                .long   0xffffffff
dmin:           .long   0xffefffff
                .long   0xffffffff
deps:           .long   0x00080000
                .long   0x00000000
dneps:          .long   0x80080000
                .long   0x00000000
dnan1:          .long   0x7ff80000
                .long   0x00000000
dnan2:          .long   0x7ff00000
                .long   0x00000001
        .endm

; Load floating point constants
        .macro load_float_constants
        set_fr_mem      fninf,fr0
        set_fr_mem      fmin,fr4
        set_fr_mem      fn1,fr8
        set_fr_mem      fneps,fr12
        set_fr_mem      fn0,fr16
        set_fr_mem      f0,fr20
        set_fr_mem      feps,fr24
        set_fr_mem      f1,fr28
        set_fr_mem      f2,fr32
        set_fr_mem      f3,fr36
        set_fr_mem      f6,fr40
        set_fr_mem      f9,fr44
        set_fr_mem      fmax,fr48
        set_fr_mem      finf,fr52
        set_fr_mem      fnan1,fr56
        set_fr_mem      fnan2,fr60
        .endm

        .macro load_float_constants1
        set_fr_mem      fninf,fr1
        set_fr_mem      fmin,fr5
        set_fr_mem      fn1,fr9
        set_fr_mem      fneps,fr13
        set_fr_mem      fn0,fr17
        set_fr_mem      f0,fr21
        set_fr_mem      feps,fr25
        set_fr_mem      f1,fr29
        set_fr_mem      f2,fr33
        set_fr_mem      f3,fr37
        set_fr_mem      f6,fr41
        set_fr_mem      f9,fr45
        set_fr_mem      fmax,fr49
        set_fr_mem      finf,fr53
        set_fr_mem      fnan1,fr57
        set_fr_mem      fnan2,fr61
        .endm

        .macro load_float_constants2
        set_fr_mem      fninf,fr2
        set_fr_mem      fmin,fr6
        set_fr_mem      fn1,fr10
        set_fr_mem      fneps,fr14
        set_fr_mem      fn0,fr18
        set_fr_mem      f0,fr22
        set_fr_mem      feps,fr26
        set_fr_mem      f1,fr30
        set_fr_mem      f2,fr34
        set_fr_mem      f3,fr38
        set_fr_mem      f6,fr42
        set_fr_mem      f9,fr46
        set_fr_mem      fmax,fr50
        set_fr_mem      finf,fr54
        set_fr_mem      fnan1,fr58
        set_fr_mem      fnan2,fr62
        .endm

        .macro load_float_constants3
        set_fr_mem      fninf,fr3
        set_fr_mem      fmin,fr7
        set_fr_mem      fn1,fr11
        set_fr_mem      fneps,fr15
        set_fr_mem      fn0,fr19
        set_fr_mem      f0,fr23
        set_fr_mem      feps,fr27
        set_fr_mem      f1,fr31
        set_fr_mem      f2,fr35
        set_fr_mem      f3,fr39
        set_fr_mem      f6,fr43
        set_fr_mem      f9,fr47
        set_fr_mem      fmax,fr51
        set_fr_mem      finf,fr55
        set_fr_mem      fnan1,fr59
        set_fr_mem      fnan2,fr63
        .endm

        .macro load_double_constants
        set_dfr_mem     dninf,fr0
        set_dfr_mem     dmin,fr4
        set_dfr_mem     dn1,fr8
        set_dfr_mem     dneps,fr12
        set_dfr_mem     dn0,fr16
        set_dfr_mem     d0,fr20
        set_dfr_mem     deps,fr24
        set_dfr_mem     d1,fr28
        set_dfr_mem     d2,fr32
        set_dfr_mem     d3,fr36
        set_dfr_mem     d6,fr40
        set_dfr_mem     d9,fr44
        set_dfr_mem     dmax,fr48
        set_dfr_mem     dinf,fr52
        set_dfr_mem     dnan1,fr56
        set_dfr_mem     dnan2,fr60
        .endm

; Lock the insn cache at the given address
        .macro lock_insn_cache address
        icpl            \address,gr0,1
        .endm

; Lock the data cache at the given address
        .macro lock_data_cache address
        dcpl            \address,gr0,1
        .endm

; Invalidate the data cache at the given address
        .macro invalidate_data_cache address
        dci             @(\address,gr0)
        .endm

; Flush the data cache at the given address
        .macro flush_data_cache address
        dcf             @(\address,gr0)
        .endm

; Write a bctrlr 0,0 insn at the address contained in the given register
        .macro set_bctrlr_0_0 address
        set_mem_immed   0x80382000,\address     ; bctrlr 0,0
        flush_data_cache \address
        .endm

; Exit with return code
        .macro exit rc
        setlos          #1,gr7
        set_gr_immed    \rc,gr8
        tira            gr0,#0
        .endm

; Pass the test case
        .macro pass
pass\@:
        setlos.p        #5,gr10
        setlos          #1,gr8
        setlos          #5,gr7
        set_gr_addr     passmsg,gr9
        tira            gr0,#0
        exit            #0
        .endm

; Fail the testcase
        .macro fail
fail\@:
        setlos.p        #5,gr10
        setlos          #1,gr8
        setlos          #5,gr7
        set_gr_addr     failmsg,gr9
        tira            gr0,#0
        exit            #1
        .endm

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