binutils-gdb/sim/testsuite/frv/mqxmachs.cgs
Mike Frysinger 1368b914e9 sim: testsuite: flatten tree
Now that all port tests live under testsuite/sim/*/, and none live
in testsuite/ directly, flatten the structure by moving all of the
dirs under testsuite/sim/ to testsuite/ directly.

We need to stop passing --tool to dejagnu so that it searches all
dirs and not just ones that start with "sim".  Since we have no
other dirs in this tree, and no plans to add any, should be fine.
2021-01-15 19:18:34 -05:00

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# frv testcase for mqxmachs $GRi,$GRj,$ACCk
# mach: fr400
.include "testutils.inc"
start
.global mqxmachs
mqxmachs:
; Positive operands
set_fr_iimmed 2,3,fr8 ; multiply small numbers
set_fr_iimmed 3,2,fr10
set_fr_iimmed 0,1,fr9 ; multiply by 0
set_fr_iimmed 2,0,fr11
mqxmachs fr8,fr10,acc0
test_spr_bits 0x3c,2,0,msr0 ; msr0.sie is clear
test_spr_bits 2,1,0,msr0 ; msr0.ovf not set
test_spr_bits 1,0,0,msr0 ; msr0.aovf not set
test_spr_bits 0x7000,12,0,msr0 ; msr0.mtt not set
test_accg_immed 0,accg0
test_acc_immed 0,acc0
test_accg_immed 0,accg1
test_acc_immed 0,acc1
test_accg_immed 0,accg2
test_acc_immed 6,acc2
test_accg_immed 0,accg3
test_acc_immed 6,acc3
set_fr_iimmed 2,1,fr8 ; multiply by 1
set_fr_iimmed 1,2,fr10
set_fr_iimmed 0x3fff,2,fr9 ; 15 bit result
set_fr_iimmed 2,0x3fff,fr11
mqxmachs fr8,fr10,acc0
test_spr_bits 0x3c,2,0,msr0 ; msr0.sie is clear
test_spr_bits 2,1,0,msr0 ; msr0.ovf not set
test_spr_bits 1,0,0,msr0 ; msr0.aovf not set
test_spr_bits 0x7000,12,0,msr0 ; msr0.mtt not set
test_accg_immed 0,accg2
test_acc_immed 8,acc2
test_accg_immed 0,accg3
test_acc_immed 8,acc3
test_accg_immed 0,accg0
test_acc_limmed 0,0x7ffe,acc0
test_accg_immed 0,accg1
test_acc_limmed 0,0x7ffe,acc1
set_fr_iimmed 0x4000,2,fr8 ; 16 bit result
set_fr_iimmed 2,0x4000,fr10
set_fr_iimmed 0x7fff,0x7fff,fr9 ; max positive result
set_fr_iimmed 0x7fff,0x7fff,fr11
mqxmachs fr8,fr10,acc0
test_spr_bits 0x3c,2,0,msr0 ; msr0.sie is clear
test_spr_bits 2,1,0,msr0 ; msr0.ovf not set
test_spr_bits 1,0,0,msr0 ; msr0.aovf not set
test_spr_bits 0x7000,12,0,msr0 ; msr0.mtt not set
test_accg_immed 0,accg2
test_acc_limmed 0x0000,0x8008,acc2
test_accg_immed 0,accg3
test_acc_limmed 0x0000,0x8008,acc3
test_accg_immed 0,accg0
test_acc_limmed 0x3fff,0x7fff,acc0
test_accg_immed 0,accg1
test_acc_limmed 0x3fff,0x7fff,acc1
; Mixed operands
set_fr_iimmed 2,0xfffd,fr8 ; multiply small numbers
set_fr_iimmed 0xfffd,2,fr10
set_fr_iimmed 0xfffe,1,fr9 ; multiply by 1
set_fr_iimmed 1,0xfffe,fr11
mqxmachs fr8,fr10,acc0
test_spr_bits 0x3c,2,0,msr0 ; msr0.sie is clear
test_spr_bits 2,1,0,msr0 ; msr0.ovf not set
test_spr_bits 1,0,0,msr0 ; msr0.aovf not set
test_spr_bits 0x7000,12,0,msr0 ; msr0.mtt not set
test_accg_immed 0,accg2
test_acc_limmed 0x0000,0x8002,acc2
test_accg_immed 0,accg3
test_acc_limmed 0x0000,0x8002,acc3
test_accg_immed 0,accg0
test_acc_limmed 0x3fff,0x7ffd,acc0
test_accg_immed 0,accg1
test_acc_limmed 0x3fff,0x7ffd,acc1
set_fr_iimmed 0xfffe,0,fr8 ; multiply by 0
set_fr_iimmed 0,0xfffe,fr10
set_fr_iimmed 0x2001,0xfffe,fr9 ; 15 bit result
set_fr_iimmed 0xfffe,0x2001,fr11
mqxmachs fr8,fr10,acc0
test_spr_bits 0x3c,2,0,msr0 ; msr0.sie is clear
test_spr_bits 2,1,0,msr0 ; msr0.ovf not set
test_spr_bits 1,0,0,msr0 ; msr0.aovf not set
test_spr_bits 0x7000,12,0,msr0 ; msr0.mtt not set
test_accg_immed 0,accg2
test_acc_limmed 0x0000,0x8002,acc2
test_accg_immed 0,accg3
test_acc_limmed 0x0000,0x8002,acc3
test_accg_immed 0,accg0
test_acc_limmed 0x3fff,0x3ffb,acc0
test_accg_immed 0,accg1
test_acc_limmed 0x3fff,0x3ffb,acc1
set_fr_iimmed 0x4000,0xfffe,fr8 ; 16 bit result
set_fr_iimmed 0xfffe,0x4000,fr10
set_fr_iimmed 0x7fff,0x8000,fr9 ; max negative result
set_fr_iimmed 0x8000,0x7fff,fr11
mqxmachs fr8,fr10,acc0
test_spr_bits 0x3c,2,0,msr0 ; msr0.sie is clear
test_spr_bits 2,1,0,msr0 ; msr0.ovf not set
test_spr_bits 1,0,0,msr0 ; msr0.aovf not set
test_spr_bits 0x7000,12,0,msr0 ; msr0.mtt not set
test_accg_immed 0,accg2
test_acc_limmed 0x0000,0x0002,acc2
test_accg_immed 0,accg3
test_acc_limmed 0x0000,0x0002,acc3
test_accg_immed 0xff,accg0
test_acc_limmed 0xffff,0xbffb,acc0
test_accg_immed 0xff,accg1
test_acc_limmed 0xffff,0xbffb,acc1
; Negative operands
set_fr_iimmed 0xfffe,0xfffd,fr8 ; multiply small numbers
set_fr_iimmed 0xfffd,0xfffe,fr10
set_fr_iimmed 0xffff,0xfffe,fr9 ; multiply by -1
set_fr_iimmed 0xfffe,0xffff,fr11
mqxmachs fr8,fr10,acc0
test_spr_bits 0x3c,2,0,msr0 ; msr0.sie is clear
test_spr_bits 2,1,0,msr0 ; msr0.ovf not set
test_spr_bits 1,0,0,msr0 ; msr0.aovf not set
test_spr_bits 0x7000,12,0,msr0 ; msr0.mtt not set
test_accg_immed 0,accg2
test_acc_limmed 0x0000,0x0008,acc2
test_accg_immed 0,accg3
test_acc_limmed 0x0000,0x0008,acc3
test_accg_immed 0xff,accg0
test_acc_limmed 0xffff,0xbffd,acc0
test_accg_immed 0xff,accg1
test_acc_limmed 0xffff,0xbffd,acc1
set_fr_iimmed 0x8001,0x8001,fr8 ; almost max positive result
set_fr_iimmed 0x8001,0x8001,fr10
set_fr_iimmed 0x8000,0x8000,fr9 ; max positive result
set_fr_iimmed 0x8000,0x8000,fr11
mqxmachs fr8,fr10,acc0
test_spr_bits 0x3c,2,0,msr0 ; msr0.sie is clear
test_spr_bits 2,1,0,msr0 ; msr0.ovf not set
test_spr_bits 1,0,0,msr0 ; msr0.aovf not set
test_spr_bits 0x7000,12,0,msr0 ; msr0.mtt not set
test_accg_immed 0,accg2
test_acc_immed 0x3fff0009,acc2
test_accg_immed 0,accg3
test_acc_immed 0x3fff0009,acc3
test_accg_immed 0,accg0
test_acc_immed 0x3fffbffd,acc0
test_accg_immed 0,accg1
test_acc_immed 0x3fffbffd,acc1
set_accg_immed 0x7f,accg2 ; saturation
set_acc_immed 0xffffffff,acc2
set_accg_immed 0x7f,accg3
set_acc_immed 0xffffffff,acc3
set_accg_immed 0x7f,accg0 ; saturation
set_acc_immed 0xffffffff,acc0
set_accg_immed 0x7f,accg1
set_acc_immed 0xffffffff,acc1
set_fr_iimmed 1,1,fr8
set_fr_iimmed 1,1,fr10
set_fr_iimmed 0x7fff,0x7fff,fr9 ; saturation
set_fr_iimmed 0x7fff,0x7fff,fr11
mqxmachs fr8,fr10,acc0
test_spr_bits 0x3c,2,0xf,msr0 ; msr0.sie is set
test_spr_bits 2,1,1,msr0 ; msr0.ovf is set
test_spr_bits 1,0,1,msr0 ; msr0.aovf is set
test_spr_bits 0x7000,12,1,msr0 ; msr0.mtt is set
test_accg_immed 0x7f,accg2
test_acc_limmed 0xffff,0xffff,acc2
test_accg_immed 0x7f,accg3
test_acc_limmed 0xffff,0xffff,acc3
test_accg_immed 0x7f,accg0
test_acc_limmed 0xffff,0xffff,acc0
test_accg_immed 0x7f,accg1
test_acc_limmed 0xffff,0xffff,acc1
set_accg_immed 0x80,accg2 ; saturation
set_acc_immed 0,acc2
set_accg_immed 0x80,accg3
set_acc_immed 0,acc3
set_accg_immed 0x80,accg0 ; saturation
set_acc_immed 0,acc0
set_accg_immed 0x80,accg1
set_acc_immed 0,acc1
set_fr_iimmed 0xffff,0,fr8
set_fr_iimmed 1,0xffff,fr10
set_fr_iimmed 0x0000,0x8000,fr9 ; saturation
set_fr_iimmed 0x7fff,0x7fff,fr11
mqxmachs fr8,fr10,acc0
test_spr_bits 0x3c,2,0x6,msr0 ; msr0.sie is set
test_spr_bits 2,1,1,msr0 ; msr0.ovf is set
test_spr_bits 1,0,1,msr0 ; msr0.aovf is set
test_spr_bits 0x7000,12,1,msr0 ; msr0.mtt is set
test_accg_immed 0x80,accg2
test_acc_immed 0,acc2
test_accg_immed 0x80,accg3
test_acc_immed 0,acc3
test_accg_immed 0x80,accg0
test_acc_immed 0,acc0
test_accg_immed 0x80,accg1
test_acc_immed 0,acc1
pass