203 lines
4.4 KiB
Plaintext
203 lines
4.4 KiB
Plaintext
; This test covers the behavior of 40-bit mode with various instructions.
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incdir "tests"
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include "dsp_base.inc"
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positive_value: EQU #0x1234
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negative_value: EQU #0x9876
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negative_imem_value_addr:
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CW negative_value
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; DSPSpy doesn't pre-populating DMEM currently, so instead use these addresses to store values.
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positive_dmem_value_addr: EQU #0x100
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negative_dmem_value_addr: EQU #0x101
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readback_dmem_addr: EQU #0x102
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test_main:
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LRI $ar0, #positive_dmem_value_addr
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LRI $ar1, #negative_dmem_value_addr
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LRI $ar2, #negative_imem_value_addr
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LRI $ar3, #readback_dmem_addr
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LRI $ix0, #0
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LRI $ix1, #0
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LRI $ix2, #0
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LRI $ix3, #0
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LRI $ax0.h, #positive_value
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LRI $ax1.h, #negative_value
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SR @positive_dmem_value_addr, $ax0.h
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SR @negative_dmem_value_addr, $ax1.h
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LRI $cr, #(positive_dmem_value_addr / 256)
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SET40
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; Instructions that perform sign-extension
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; $acc0 should alternate between being positive and negative here
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; (though none of these instructions update $sr)
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; [1] ILRR (also ILRRD/ILRRI/ILRRN, not covered)
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ILRR $ac0.m, @$ar2 ; -
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CALL send_back
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; [2] LR
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LR $ac0.m, @positive_dmem_value_addr ; +
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CALL send_back
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; [3] LRI
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LRI $ac0.m, #negative_value ; -
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CALL send_back
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; [4] LRIS
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LRIS $ac0.m, #42 ; +
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CALL send_back
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; [5] LRR (also LRRD/LRRI/LRRN)
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LRR $ac0.m, @$ar1 ; -
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CALL send_back
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; [6] LRS
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LRS $ac0.m, @(positive_dmem_value_addr & 0xff) ; +
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CALL send_back
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; [7] MRR
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MRR $ac0.m, $ax1.h ; -
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CALL send_back
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; [8] 'LN (and 'L, but 'LN lets us set $ix0 to not increment $ar0)
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NX'LN : $ac0.m, @$ar0 ; +
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CALL send_back
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; Instructions that experience saturation
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; $ax1.l should alternate between 0x8000 and 0x7fff.
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LRI $ac0.m, #0x4231
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LRI $ac0.h, #0x12 ; positive
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LRI $ac1.m, #0x2816
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LRI $ac1.h, #0x99 ; negative
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; [9] MRR (again)
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MRR $ax1.l, $ac1.m ; -
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CALL send_back
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; [10] SR
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SR @readback_dmem_addr, $ac0.m
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LR $ax1.l, @readback_dmem_addr ; +
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CALL send_back
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; [11] SRRN (also SRR/SRRD/SRRI)
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SRRN @$ar3, $ac1.m
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LR $ax1.l, @readback_dmem_addr ; -
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CALL send_back
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; [12] SRS
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SRS @(readback_dmem_addr & 0xff), $ac0.m
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LR $ax1.l, @readback_dmem_addr ; +
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CALL send_back
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; [13] 'LSNM (also 'LS/'LSM/'LSN) - the $ax0.l read is not relevant
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NX'LSNM : $ax0.l, $ac1.m
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LR $ax1.l, @readback_dmem_addr ; -
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CALL send_back
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; [14] 'MV
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NX'MV : $ax1.l, $ac0.m ; +
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CALL send_back
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; [15] 'SLNM (also 'SL/'SLM/'SLN) - the $ax0.l read is not relevant
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; Note that 'SL stores to @$ar0, while 'LS stores to @$ar3
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LRI $ar0, #readback_dmem_addr
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NX'SLNM : $ac1.m, $ax0.l
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LR $ax1.l, @readback_dmem_addr ; -
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CALL send_back
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LRI $ar0, #positive_dmem_value_addr
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; [16] 'SN (also 'S)
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NX'SN : @$ar3, $ac0.m
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LR $ax1.l, @readback_dmem_addr ; +
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CALL send_back
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; Instructions that are not affected
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; [17] ADDI
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ADDI $ac0.m, #8
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CALL send_back
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; [18] ADDIS
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ADDIS $ac0.m, #-8
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CALL send_back
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; [19] ANDC
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ANDC $ac1.m, $ac0.m
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CALL send_back
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; [20] ANDI
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ANDI $ac0.m, #0x6666
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CALL send_back
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; [21] ANDR
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ANDR $ac0.m, $ax0.h
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CALL send_back
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; [22] ORC
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ORC $ac0.m, $ac1.m
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CALL send_back
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; [23] ORI
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ORI $ac0.m, #0xfeed
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CALL send_back
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; [24] ORR
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ORR $ac1.m, $ax0.h
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CALL send_back
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; [25] NOT
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NOT $ac1.m
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CALL send_back
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; [26] XORC
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XORC $ac0.m, $ac1.m
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CALL send_back
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; [27] XORI
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XORI $ac0.m, #0x5555
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CALL send_back
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; [28] XORR
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XORR $ac1.m, $ax1.h
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CALL send_back
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; [29] MOVR always sign extends...
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MOVR $acc1, $ax0.h
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CALL send_back
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; [30] ... even in SET16 mode
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SET16
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MOVR $acc1, $ax1.h
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CALL send_back
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SET40
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; Shift instructions - do these see saturated $ac1.m?
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LRI $ac0.m, #positive_value
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LRI $ac1.m, #2
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LRI $ac1.h, #1
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; [31] - for diffs only
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CALL send_back
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; [32]
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LSRNR $acc0, $ac1.m
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CALL send_back
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; [33] Shifts $acc0 by $ac1.m (in the other direction)
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LSRN
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CALL send_back
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; Does LOOP experience saturation?
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CLR $acc0
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LRI $ac1.m, #0x1234
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LRI $ac1.h, #1
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; [34] - for diffs only
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CALL send_back
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; [35] LOOP
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LOOP $ac1.m
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INC $acc0
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CALL send_back
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LRI $ac1.h, #0x99
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; [36] BLOOP
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BLOOP $ac1.m, bloop_last_ins
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INCM $ac0.m
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bloop_last_ins:
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NOP
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CALL send_back
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; For the sake of clarity, the same LOOP/BLOOP calls in SET16 mode don't have saturation:
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SET16
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CLR $acc0
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LRI $ac1.m, #0x1234
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LRI $ac1.h, #1
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; [37] - for diffs only
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CALL send_back
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; [38] LOOP
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LOOP $ac1.m
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INC $acc0
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CALL send_back
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LRI $ac1.h, #0x99
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; [39] BLOOP
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BLOOP $ac1.m, bloop2_last_ins
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INCM $ac0.m
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bloop2_last_ins:
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NOP
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CALL send_back
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; We're done, DO NOT DELETE THIS LINE
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JMP end_of_test
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