# fr30 testcase for mulh $Rj,$Ri
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# fr30 testcase for mulh $Rj,$Ri
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# mach(): fr30
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# mach(): fr30
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.include "testutils.inc"
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.include "testutils.inc"
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START
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START
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.text
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.text
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.global mulh
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.global mulh
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mulh:
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mulh:
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; Test mulh $Rj,$Ri
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; Test mulh $Rj,$Ri
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; Positive operands
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; Positive operands
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mvi_h_gr 0xdead0003,r7 ; multiply small numbers
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mvi_h_gr 0xdead0003,r7 ; multiply small numbers
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mvi_h_gr 0xbeef0002,r8
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mvi_h_gr 0xbeef0002,r8
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set_cc 0x09 ; Set mask opposite of expected
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set_cc 0x09 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 0 1
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test_cc 0 1 0 1
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test_h_dr 6,mdl
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test_h_dr 6,mdl
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mvi_h_gr 0xdead0001,r7 ; multiply by 1
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mvi_h_gr 0xdead0001,r7 ; multiply by 1
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mvi_h_gr 0xbeef0002,r8
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mvi_h_gr 0xbeef0002,r8
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set_cc 0x08 ; Set mask opposite of expected
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set_cc 0x08 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 0 0
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test_cc 0 1 0 0
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test_h_dr 2,mdl
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test_h_dr 2,mdl
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mvi_h_gr 0xdead0002,r7 ; multiply by 1
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mvi_h_gr 0xdead0002,r7 ; multiply by 1
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mvi_h_gr 0xbeef0001,r8
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mvi_h_gr 0xbeef0001,r8
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set_cc 0x09 ; Set mask opposite of expected
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set_cc 0x09 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 0 1
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test_cc 0 1 0 1
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test_h_dr 2,mdl
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test_h_dr 2,mdl
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mvi_h_gr 0xdead0000,r7 ; multiply by 0
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mvi_h_gr 0xdead0000,r7 ; multiply by 0
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mvi_h_gr 0xbeef0002,r8
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mvi_h_gr 0xbeef0002,r8
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set_cc 0x09 ; Set mask opposite of expected
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set_cc 0x09 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 0 1
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test_cc 0 1 0 1
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test_h_dr 0,mdl
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test_h_dr 0,mdl
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mvi_h_gr 0xdead0002,r7 ; multiply by 0
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mvi_h_gr 0xdead0002,r7 ; multiply by 0
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mvi_h_gr 0xbeef0000,r8
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mvi_h_gr 0xbeef0000,r8
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set_cc 0x08 ; Set mask opposite of expected
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set_cc 0x08 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 0 0
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test_cc 0 1 0 0
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test_h_dr 0,mdl
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test_h_dr 0,mdl
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mvi_h_gr 0xdead3fff,r7 ; 15 bit result
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mvi_h_gr 0xdead3fff,r7 ; 15 bit result
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mvi_h_gr 0xbeef0002,r8
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mvi_h_gr 0xbeef0002,r8
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set_cc 0x09 ; Set mask opposite of expected
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set_cc 0x09 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 0 1
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test_cc 0 1 0 1
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test_h_dr 0x00007ffe,mdl
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test_h_dr 0x00007ffe,mdl
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mvi_h_gr 0xdead4000,r7 ; 16 bit result
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mvi_h_gr 0xdead4000,r7 ; 16 bit result
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mvi_h_gr 0xbeef0002,r8
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mvi_h_gr 0xbeef0002,r8
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set_cc 0x0a ; Set mask opposite of expected
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set_cc 0x0a ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 1 0
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test_cc 0 1 1 0
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test_h_dr 0x00008000,mdl
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test_h_dr 0x00008000,mdl
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mvi_h_gr 0xdead4000,r7 ; 17 bit result
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mvi_h_gr 0xdead4000,r7 ; 17 bit result
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mvi_h_gr 0xbeef0004,r8
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mvi_h_gr 0xbeef0004,r8
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set_cc 0x0b ; Set mask opposite of expected
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set_cc 0x0b ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 1 1
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test_cc 0 1 1 1
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test_h_dr 0x00010000,mdl
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test_h_dr 0x00010000,mdl
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mvi_h_gr 0xdead7fff,r7 ; max positive result
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mvi_h_gr 0xdead7fff,r7 ; max positive result
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mvi_h_gr 0xbeef7fff,r8
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mvi_h_gr 0xbeef7fff,r8
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set_cc 0x0b ; Set mask opposite of expected
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set_cc 0x0b ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 1 1
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test_cc 0 1 1 1
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test_h_dr 0x3fff0001,mdl
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test_h_dr 0x3fff0001,mdl
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; Mixed operands
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; Mixed operands
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mvi_h_gr -3,r7 ; multiply small numbers
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mvi_h_gr -3,r7 ; multiply small numbers
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mvi_h_gr 2,r8
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mvi_h_gr 2,r8
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set_cc 0x05 ; Set mask opposite of expected
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set_cc 0x05 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 1 0 0 1
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test_cc 1 0 0 1
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test_h_dr -6,mdl
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test_h_dr -6,mdl
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mvi_h_gr 3,r7 ; multiply small numbers
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mvi_h_gr 3,r7 ; multiply small numbers
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mvi_h_gr -2,r8
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mvi_h_gr -2,r8
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set_cc 0x05 ; Set mask opposite of expected
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set_cc 0x05 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 1 0 0 1
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test_cc 1 0 0 1
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test_h_dr -6,mdl
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test_h_dr -6,mdl
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mvi_h_gr 1,r7 ; multiply by 1
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mvi_h_gr 1,r7 ; multiply by 1
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mvi_h_gr -2,r8
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mvi_h_gr -2,r8
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set_cc 0x04 ; Set mask opposite of expected
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set_cc 0x04 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 1 0 0 0
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test_cc 1 0 0 0
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test_h_dr -2,mdl
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test_h_dr -2,mdl
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mvi_h_gr -2,r7 ; multiply by 1
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mvi_h_gr -2,r7 ; multiply by 1
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mvi_h_gr 1,r8
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mvi_h_gr 1,r8
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set_cc 0x05 ; Set mask opposite of expected
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set_cc 0x05 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 1 0 0 1
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test_cc 1 0 0 1
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test_h_dr -2,mdl
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test_h_dr -2,mdl
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mvi_h_gr 0,r7 ; multiply by 0
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mvi_h_gr 0,r7 ; multiply by 0
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mvi_h_gr -2,r8
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mvi_h_gr -2,r8
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set_cc 0x09 ; Set mask opposite of expected
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set_cc 0x09 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 0 1
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test_cc 0 1 0 1
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test_h_dr 0,mdl
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test_h_dr 0,mdl
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mvi_h_gr -2,r7 ; multiply by 0
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mvi_h_gr -2,r7 ; multiply by 0
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mvi_h_gr 0,r8
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mvi_h_gr 0,r8
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set_cc 0x08 ; Set mask opposite of expected
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set_cc 0x08 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 0 0
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test_cc 0 1 0 0
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test_h_dr 0,mdl
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test_h_dr 0,mdl
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mvi_h_gr 0xdead2001,r7 ; 15 bit result
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mvi_h_gr 0xdead2001,r7 ; 15 bit result
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mvi_h_gr -2,r8
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mvi_h_gr -2,r8
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set_cc 0x05 ; Set mask opposite of expected
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set_cc 0x05 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 1 0 0 1
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test_cc 1 0 0 1
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test_h_dr 0xffffbffe,mdl
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test_h_dr 0xffffbffe,mdl
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mvi_h_gr 0xdead4000,r7 ; 16 bit result
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mvi_h_gr 0xdead4000,r7 ; 16 bit result
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mvi_h_gr -2,r8
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mvi_h_gr -2,r8
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set_cc 0x04 ; Set mask opposite of expected
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set_cc 0x04 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 1 0 0 0
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test_cc 1 0 0 0
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test_h_dr 0xffff8000,mdl
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test_h_dr 0xffff8000,mdl
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mvi_h_gr 0xdead4001,r7 ; 16 bit result
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mvi_h_gr 0xdead4001,r7 ; 16 bit result
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mvi_h_gr -2,r8
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mvi_h_gr -2,r8
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set_cc 0x06 ; Set mask opposite of expected
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set_cc 0x06 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 1 0 1 0
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test_cc 1 0 1 0
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test_h_dr 0xffff7ffe,mdl
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test_h_dr 0xffff7ffe,mdl
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mvi_h_gr 0xdead4000,r7 ; 17 bit result
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mvi_h_gr 0xdead4000,r7 ; 17 bit result
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mvi_h_gr -4,r8
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mvi_h_gr -4,r8
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set_cc 0x07 ; Set mask opposite of expected
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set_cc 0x07 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 1 0 1 1
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test_cc 1 0 1 1
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test_h_dr 0xffff0000,mdl
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test_h_dr 0xffff0000,mdl
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mvi_h_gr 0xdead7fff,r7 ; max negative result
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mvi_h_gr 0xdead7fff,r7 ; max negative result
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mvi_h_gr 0xbeef8000,r8
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mvi_h_gr 0xbeef8000,r8
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set_cc 0x07 ; Set mask opposite of expected
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set_cc 0x07 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 1 0 1 1
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test_cc 1 0 1 1
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test_h_dr 0xc0008000,mdl
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test_h_dr 0xc0008000,mdl
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; Negative operands
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; Negative operands
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mvi_h_gr -3,r7 ; multiply small numbers
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mvi_h_gr -3,r7 ; multiply small numbers
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mvi_h_gr -2,r8
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mvi_h_gr -2,r8
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set_cc 0x09 ; Set mask opposite of expected
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set_cc 0x09 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 0 1
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test_cc 0 1 0 1
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test_h_dr 6,mdl
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test_h_dr 6,mdl
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mvi_h_gr -1,r7 ; multiply by 1
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mvi_h_gr -1,r7 ; multiply by 1
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mvi_h_gr -2,r8
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mvi_h_gr -2,r8
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set_cc 0x08 ; Set mask opposite of expected
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set_cc 0x08 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 0 0
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test_cc 0 1 0 0
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test_h_dr 2,mdl
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test_h_dr 2,mdl
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mvi_h_gr -2,r7 ; multiply by 1
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mvi_h_gr -2,r7 ; multiply by 1
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mvi_h_gr -1,r8
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mvi_h_gr -1,r8
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set_cc 0x09 ; Set mask opposite of expected
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set_cc 0x09 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 0 1
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test_cc 0 1 0 1
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test_h_dr 2,mdl
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test_h_dr 2,mdl
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mvi_h_gr 0xdeadc001,r7 ; 15 bit result
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mvi_h_gr 0xdeadc001,r7 ; 15 bit result
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mvi_h_gr -2,r8
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mvi_h_gr -2,r8
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set_cc 0x09 ; Set mask opposite of expected
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set_cc 0x09 ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 0 1
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test_cc 0 1 0 1
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test_h_dr 0x00007ffe,mdl
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test_h_dr 0x00007ffe,mdl
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mvi_h_gr 0xdeadc000,r7 ; 16 bit result
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mvi_h_gr 0xdeadc000,r7 ; 16 bit result
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mvi_h_gr -2,r8
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mvi_h_gr -2,r8
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set_cc 0x0a ; Set mask opposite of expected
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set_cc 0x0a ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 1 0
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test_cc 0 1 1 0
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test_h_dr 0x00008000,mdl
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test_h_dr 0x00008000,mdl
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mvi_h_gr 0xdeadc000,r7 ; 17 bit result
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mvi_h_gr 0xdeadc000,r7 ; 17 bit result
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mvi_h_gr -4,r8
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mvi_h_gr -4,r8
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set_cc 0x0b ; Set mask opposite of expected
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set_cc 0x0b ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 1 1
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test_cc 0 1 1 1
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test_h_dr 0x00010000,mdl
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test_h_dr 0x00010000,mdl
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mvi_h_gr 0xdead8001,r7 ; almost max positive result
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mvi_h_gr 0xdead8001,r7 ; almost max positive result
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mvi_h_gr 0xbeef8001,r8
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mvi_h_gr 0xbeef8001,r8
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set_cc 0x0b ; Set mask opposite of expected
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set_cc 0x0b ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 1 1
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test_cc 0 1 1 1
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test_h_dr 0x3fff0001,mdl
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test_h_dr 0x3fff0001,mdl
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mvi_h_gr 0xdead8000,r7 ; max positive result
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mvi_h_gr 0xdead8000,r7 ; max positive result
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mvi_h_gr 0xbeef8000,r8
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mvi_h_gr 0xbeef8000,r8
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set_cc 0x0b ; Set mask opposite of expected
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set_cc 0x0b ; Set mask opposite of expected
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mulh r7,r8
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mulh r7,r8
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test_cc 0 1 1 1
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test_cc 0 1 1 1
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test_h_dr 0x40000000,mdl
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test_h_dr 0x40000000,mdl
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pass
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pass
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