//D1Test.bcpl -- machine-dependent part of "Test" overlay
// Last edited: 20 November 1979
manifest [ get "d1dmux.d" ]
manifest [ get "d1regmem.d" ]
manifest [ get "d1instrs.d" ]
external [
// OS
DoubleAdd
// MINIT0
@MBlock
// MASM
WssCS1; SelfRel
// MMENU
PrintActionTime
// MDEBUG
CheckData; ErrorStop; SaveDGen; RestoreDGen; TestAborted; @NDWords
// MPATTERN
NextData
// MTEST
LastVal
// MDATA
@ShouldBe; @BitsChecked; @DataWas
// D1I0
@DMuxTab; DMuxSelect
// D1TABLES
@MEMLEN
// D1ASM
@Xct; @XctL16; @XctR16; @XctLFF; @XctL16T; @SelectTask; ReadDMux
// D1REG
PutRegData; GetRegData
// D1RW
MPutMemData; @SaveMBase; @SaveT
// D1VM
SetVirtP
// D1TESTASM
OtherNAM
// Defined here
ValidateTest
// These procedures are called from the OtherProc table in D1TestAsm.
ShmvLp; WFLp; RFLp; ProcVALp
// These procedures are called from the OtherPrint table in D1TestAsm.
ShmvPrint; WFRFPrint; ProcVAPrint
]
�
//X is RegX, MemX+NREGS, or NREGS+NMEMS+OtherX
let ValidateTest(X) be
[ SetVirtP(false)
LastVal = X; DMuxSelect = DMuxTab
]
and ShmvLp(X) = valof
[ for I = 0 to 49 do
[ NextData()
let lmask = -1 lshift (16-(ShouldBe!0 & 17B))
let rmask = -1 rshift (16-((ShouldBe!0 rshift 4) & 17B))
PutRegData(SHCx,ShouldBe)
let Opx = ShouldBe!0 rshift 14
Xct(table [ SFTN; SFTL; SFTR; SFTB ] ! Opx)
ReadDMux(); DataWas!0 = DMuxTab!dSHMV
SaveDGen()
ShouldBe!0 = selecton Opx into
[
case 0: 0
case 1: lmask
case 2: rmask
case 3: lmask % rmask
]
if CheckData() then ErrorStop("shmv wrong after ",
selecton Opx into
[
case 0: "ShiftNoMask"
case 1: "ShiftLMask"
case 2: "ShiftRMask"
case 3: "ShiftBothMasks"
] )
RestoreDGen()
]
if TestAborted then ErrorStop()
PrintActionTime(); resultis true
]
and ShmvPrint(X) be
[ WssCS1("using ShiftNoMask, ShiftLMask, ShiftRMask, and ShiftBothMasks")
]
and RFILp(P,S,Val) = valof
[ XctL16(LT,Val); Xct(RF); Xct(NOOP)
resultis (Val & 30000B)+(((P+S+1) & 17B) lshift 8)+((15-S) & 17B)
]
and WFILp(P,S,Val) = valof
[ XctL16(LT,Val); Xct(WF); Xct(NOOP)
let Z = (15-P-S) & 17B
resultis (Val & 30000B)+(Z lshift 8)+(Z lshift 4)+P
]
//These two ignore the data pattern, manipulating ShouldBe directly.
and RFLp(X) = WFRFLp(X,lv RFILp)
and WFLp(X) = WFRFLp(X,lv WFILp)
and WFRFLp(X,lvProc) = valof
[ let AVec = vec 1; AVec!0 = 0
for P = 0 to 17B do for S = 0 to 17B do
[ AVec!1 = (P lshift 4)+S
ShouldBe!0 = (rv lvProc)(P,S,AVec!1)
GetRegData(SHCx,DataWas)
if CheckData() then
ErrorStop(SelfRel(OtherNAM+X)," failed for A = ",AVec)
]
if TestAborted then ErrorStop()
PrintActionTime(); resultis true
]
and WFRFPrint(X) be
[ WssCS1("for P = 0 to 17B, for S = 0 to 17B")
]
and ProcVALp(X) = valof
[ let V1,AVec = vec 2,vec 1; AVec!0 = 0; V1!0 = 0
SelectTask(0); PutRegData(MCRx,table [ NoWake+DisHold ] )
for I = 0 to MEMLEN!(BRx+BRx+1)-1 do
[ AVec!1 = I; SaveMBase = I; XctLFF(LMB0,I)
NextData()
MPutMemData(BRx,ShouldBe,AVec)
SaveT = ShouldBe!2; XctL16T(SaveT); V1!1 = SaveT
DoubleAdd(ShouldBe,V1)
Xct(DUMMYFT); Xct(NOOP); ReadDMux()
MBlock(DataWas,DMuxTab+dPVAH,2)
if CheckData() then
ErrorStop(SelfRel(OtherNAM+X)," failed on BR = ",AVec)
]
if TestAborted then ErrorStop()
PrintActionTime(); resultis true
]
and ProcVAPrint(X) be
[ WssCS1("with DUMMYREF←T using BR's 0 to 37")
]