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replaced Lists with Vecs

This commit is contained in:
Henry Cook 2014-04-16 18:14:12 -07:00
parent bf2ff7804e
commit 5613dc7d1b

View File

@ -52,8 +52,6 @@ abstract class CoherencePolicy {
def requiresAckForGrant(g_type: UInt): Bool def requiresAckForGrant(g_type: UInt): Bool
def requiresAckForRelease(r_type: UInt): Bool def requiresAckForRelease(r_type: UInt): Bool
def pendingVoluntaryReleaseIsSufficient(r_type: UInt, p_type: UInt): Bool def pendingVoluntaryReleaseIsSufficient(r_type: UInt, p_type: UInt): Bool
def uIntListContains(list: List[UInt], elem: UInt): Bool = list.map(elem === _).reduceLeft(_||_)
} }
trait UncachedTransactions { trait UncachedTransactions {
@ -96,10 +94,9 @@ class ThreeStateIncoherence extends IncoherentPolicy {
val acquireReadClean :: acquireReadDirty :: acquireWriteback :: Nil = Enum(UInt(), nAcquireTypes) val acquireReadClean :: acquireReadDirty :: acquireWriteback :: Nil = Enum(UInt(), nAcquireTypes)
val releaseVoluntaryInvalidateData :: releaseInvalidateAck :: Nil = Enum(UInt(), nReleaseTypes) val releaseVoluntaryInvalidateData :: releaseInvalidateAck :: Nil = Enum(UInt(), nReleaseTypes)
val grantVoluntaryAck :: grantData :: grantAck :: Nil = Enum(UInt(), nGrantTypes) val grantVoluntaryAck :: grantData :: grantAck :: Nil = Enum(UInt(), nGrantTypes)
val uncachedAcquireTypeList = List() val hasDataAcquireTypeVec = Vec(acquireWriteback)
val hasDataAcquireTypeList = List(acquireWriteback) val hasDataReleaseTypeVec = Vec(acquireWriteback)
val hasDataReleaseTypeList = List(acquireWriteback) val hasDataGrantTypeVec = Vec(grantData)
val hasDataGrantTypeList = List(grantData)
def isHit ( cmd: UInt, state: UInt): Bool = (state === tileClean || state === tileDirty) def isHit ( cmd: UInt, state: UInt): Bool = (state === tileClean || state === tileDirty)
def isValid (state: UInt): Bool = state != tileInvalid def isValid (state: UInt): Bool = state != tileInvalid
@ -135,13 +132,13 @@ class ThreeStateIncoherence extends IncoherentPolicy {
def getReleaseTypeOnVoluntaryWriteback(): UInt = releaseVoluntaryInvalidateData def getReleaseTypeOnVoluntaryWriteback(): UInt = releaseVoluntaryInvalidateData
def messageHasData( msg: SourcedMessage ) = msg match { def messageHasData( msg: SourcedMessage ) = msg match {
case acq: Acquire => uIntListContains(hasDataAcquireTypeList, acq.a_type) case acq: Acquire => hasDataAcquireTypeVec.contains(acq.a_type)
case grant: Grant => uIntListContains(hasDataGrantTypeList, grant.g_type) case grant: Grant => hasDataGrantTypeVec.contains(grant.g_type)
case rel: Release => Bool(false) case rel: Release => Bool(false)
case _ => Bool(false) case _ => Bool(false)
} }
def messageUpdatesDataArray (reply: Grant) = (reply.g_type === grantData) def messageUpdatesDataArray (reply: Grant) = (reply.g_type === grantData)
def messageIsUncached(acq: Acquire): Bool = uIntListContains(uncachedAcquireTypeList, acq.a_type) def messageIsUncached(acq: Acquire): Bool = Bool(false)
} }
class MICoherence extends CoherencePolicyWithUncached { class MICoherence extends CoherencePolicyWithUncached {
@ -160,10 +157,10 @@ class MICoherence extends CoherencePolicyWithUncached {
val releaseVoluntaryInvalidateData :: releaseInvalidateData :: releaseCopyData :: releaseInvalidateAck :: releaseCopyAck :: Nil = Enum(UInt(), nReleaseTypes) val releaseVoluntaryInvalidateData :: releaseInvalidateData :: releaseCopyData :: releaseInvalidateAck :: releaseCopyAck :: Nil = Enum(UInt(), nReleaseTypes)
val grantVoluntaryAck :: grantReadExclusive :: grantReadUncached :: grantWriteUncached :: grantReadWordUncached :: grantWriteWordUncached :: grantAtomicUncached :: Nil = Enum(UInt(), nGrantTypes) val grantVoluntaryAck :: grantReadExclusive :: grantReadUncached :: grantWriteUncached :: grantReadWordUncached :: grantWriteWordUncached :: grantAtomicUncached :: Nil = Enum(UInt(), nGrantTypes)
val uncachedAcquireTypeList = List(acquireReadUncached, acquireWriteUncached, acquireReadWordUncached, acquireWriteWordUncached, acquireAtomicUncached) val uncachedAcquireTypeVec = Vec(acquireReadUncached, acquireWriteUncached, acquireReadWordUncached, acquireWriteWordUncached, acquireAtomicUncached)
val hasDataAcquireTypeList = List(acquireWriteUncached, acquireWriteWordUncached, acquireAtomicUncached) val hasDataAcquireTypeVec = Vec(acquireWriteUncached, acquireWriteWordUncached, acquireAtomicUncached)
val hasDataReleaseTypeList = List(releaseVoluntaryInvalidateData, releaseInvalidateData, releaseCopyData) val hasDataReleaseTypeVec = Vec(releaseVoluntaryInvalidateData, releaseInvalidateData, releaseCopyData)
val hasDataGrantTypeList = List(grantReadExclusive, grantReadUncached, grantReadWordUncached, grantAtomicUncached) val hasDataGrantTypeVec = Vec(grantReadExclusive, grantReadUncached, grantReadWordUncached, grantAtomicUncached)
def isHit (cmd: UInt, state: UInt): Bool = state != tileInvalid def isHit (cmd: UInt, state: UInt): Bool = state != tileInvalid
def isValid (state: UInt): Bool = state != tileInvalid def isValid (state: UInt): Bool = state != tileInvalid
@ -231,15 +228,15 @@ class MICoherence extends CoherencePolicyWithUncached {
} }
def messageHasData(msg: SourcedMessage) = msg match { def messageHasData(msg: SourcedMessage) = msg match {
case acq: Acquire => uIntListContains(hasDataAcquireTypeList, acq.a_type) case acq: Acquire => hasDataAcquireTypeVec.contains(acq.a_type)
case grant: Grant => uIntListContains(hasDataGrantTypeList, grant.g_type) case grant: Grant => hasDataGrantTypeVec.contains(grant.g_type)
case rel: Release => uIntListContains(hasDataReleaseTypeList, rel.r_type) case rel: Release => hasDataReleaseTypeVec.contains(rel.r_type)
case _ => Bool(false) case _ => Bool(false)
} }
def messageUpdatesDataArray (reply: Grant): Bool = { def messageUpdatesDataArray (reply: Grant): Bool = {
(reply.g_type === grantReadExclusive) (reply.g_type === grantReadExclusive)
} }
def messageIsUncached(acq: Acquire): Bool = uIntListContains(uncachedAcquireTypeList, acq.a_type) def messageIsUncached(acq: Acquire): Bool = uncachedAcquireTypeVec.contains(acq.a_type)
def isCoherenceConflict(addr1: UInt, addr2: UInt): Bool = (addr1 === addr2) def isCoherenceConflict(addr1: UInt, addr2: UInt): Bool = (addr1 === addr2)
@ -302,10 +299,10 @@ class MEICoherence extends CoherencePolicyWithUncached {
val releaseVoluntaryInvalidateData :: releaseInvalidateData :: releaseDowngradeData :: releaseCopyData :: releaseInvalidateAck :: releaseDowngradeAck :: releaseCopyAck :: Nil = Enum(UInt(), nReleaseTypes) val releaseVoluntaryInvalidateData :: releaseInvalidateData :: releaseDowngradeData :: releaseCopyData :: releaseInvalidateAck :: releaseDowngradeAck :: releaseCopyAck :: Nil = Enum(UInt(), nReleaseTypes)
val grantVoluntaryAck :: grantReadExclusive :: grantReadUncached :: grantWriteUncached :: grantReadExclusiveAck :: grantReadWordUncached :: grantWriteWordUncached :: grantAtomicUncached :: Nil = Enum(UInt(), nGrantTypes) val grantVoluntaryAck :: grantReadExclusive :: grantReadUncached :: grantWriteUncached :: grantReadExclusiveAck :: grantReadWordUncached :: grantWriteWordUncached :: grantAtomicUncached :: Nil = Enum(UInt(), nGrantTypes)
val uncachedAcquireTypeList = List(acquireReadUncached, acquireWriteUncached, acquireReadWordUncached, acquireWriteWordUncached, acquireAtomicUncached) val uncachedAcquireTypeVec = Vec(acquireReadUncached, acquireWriteUncached, acquireReadWordUncached, acquireWriteWordUncached, acquireAtomicUncached)
val hasDataAcquireTypeList = List(acquireWriteUncached, acquireWriteWordUncached, acquireAtomicUncached) val hasDataAcquireTypeVec = Vec(acquireWriteUncached, acquireWriteWordUncached, acquireAtomicUncached)
val hasDataReleaseTypeList = List(releaseVoluntaryInvalidateData, releaseInvalidateData, releaseDowngradeData, releaseCopyData) val hasDataReleaseTypeVec = Vec(releaseVoluntaryInvalidateData, releaseInvalidateData, releaseDowngradeData, releaseCopyData)
val hasDataGrantTypeList = List(grantReadExclusive, grantReadUncached, grantReadWordUncached, grantAtomicUncached) val hasDataGrantTypeVec = Vec(grantReadExclusive, grantReadUncached, grantReadWordUncached, grantAtomicUncached)
def isHit (cmd: UInt, state: UInt): Bool = state != tileInvalid def isHit (cmd: UInt, state: UInt): Bool = state != tileInvalid
def isValid (state: UInt): Bool = state != tileInvalid def isValid (state: UInt): Bool = state != tileInvalid
@ -386,15 +383,15 @@ class MEICoherence extends CoherencePolicyWithUncached {
} }
def messageHasData(msg: SourcedMessage) = msg match { def messageHasData(msg: SourcedMessage) = msg match {
case acq: Acquire => uIntListContains(hasDataAcquireTypeList, acq.a_type) case acq: Acquire => hasDataAcquireTypeVec.contains(acq.a_type)
case grant: Grant => uIntListContains(hasDataGrantTypeList, grant.g_type) case grant: Grant => hasDataGrantTypeVec.contains(grant.g_type)
case rel: Release => uIntListContains(hasDataReleaseTypeList, rel.r_type) case rel: Release => hasDataReleaseTypeVec.contains(rel.r_type)
case _ => Bool(false) case _ => Bool(false)
} }
def messageUpdatesDataArray (reply: Grant): Bool = { def messageUpdatesDataArray (reply: Grant): Bool = {
(reply.g_type === grantReadExclusive) (reply.g_type === grantReadExclusive)
} }
def messageIsUncached(acq: Acquire): Bool = uIntListContains(uncachedAcquireTypeList, acq.a_type) def messageIsUncached(acq: Acquire): Bool = uncachedAcquireTypeVec.contains(acq.a_type)
def isCoherenceConflict(addr1: UInt, addr2: UInt): Bool = (addr1 === addr2) def isCoherenceConflict(addr1: UInt, addr2: UInt): Bool = (addr1 === addr2)
@ -460,10 +457,10 @@ class MSICoherence extends CoherencePolicyWithUncached {
val releaseVoluntaryInvalidateData :: releaseInvalidateData :: releaseDowngradeData :: releaseCopyData :: releaseInvalidateAck :: releaseDowngradeAck :: releaseCopyAck :: Nil = Enum(UInt(), nReleaseTypes) val releaseVoluntaryInvalidateData :: releaseInvalidateData :: releaseDowngradeData :: releaseCopyData :: releaseInvalidateAck :: releaseDowngradeAck :: releaseCopyAck :: Nil = Enum(UInt(), nReleaseTypes)
val grantVoluntaryAck :: grantReadShared :: grantReadExclusive :: grantReadUncached :: grantWriteUncached :: grantReadExclusiveAck :: grantReadWordUncached :: grantWriteWordUncached :: grantAtomicUncached :: Nil = Enum(UInt(), nGrantTypes) val grantVoluntaryAck :: grantReadShared :: grantReadExclusive :: grantReadUncached :: grantWriteUncached :: grantReadExclusiveAck :: grantReadWordUncached :: grantWriteWordUncached :: grantAtomicUncached :: Nil = Enum(UInt(), nGrantTypes)
val uncachedAcquireTypeList = List(acquireReadUncached, acquireWriteUncached, acquireReadWordUncached, acquireWriteWordUncached, acquireAtomicUncached) val uncachedAcquireTypeVec = Vec(acquireReadUncached, acquireWriteUncached, acquireReadWordUncached, acquireWriteWordUncached, acquireAtomicUncached)
val hasDataAcquireTypeList = List(acquireWriteUncached, acquireWriteWordUncached, acquireAtomicUncached) val hasDataAcquireTypeVec = Vec(acquireWriteUncached, acquireWriteWordUncached, acquireAtomicUncached)
val hasDataReleaseTypeList = List(releaseVoluntaryInvalidateData, releaseInvalidateData, releaseDowngradeData, releaseCopyData) val hasDataReleaseTypeVec = Vec(releaseVoluntaryInvalidateData, releaseInvalidateData, releaseDowngradeData, releaseCopyData)
val hasDataGrantTypeList = List(grantReadShared, grantReadExclusive, grantReadUncached, grantReadWordUncached, grantAtomicUncached) val hasDataGrantTypeVec = Vec(grantReadShared, grantReadExclusive, grantReadUncached, grantReadWordUncached, grantAtomicUncached)
def isHit (cmd: UInt, state: UInt): Bool = { def isHit (cmd: UInt, state: UInt): Bool = {
Mux(isWriteIntent(cmd), (state === tileExclusiveDirty), Mux(isWriteIntent(cmd), (state === tileExclusiveDirty),
@ -550,15 +547,15 @@ class MSICoherence extends CoherencePolicyWithUncached {
} }
def messageHasData(msg: SourcedMessage) = msg match { def messageHasData(msg: SourcedMessage) = msg match {
case acq: Acquire => uIntListContains(hasDataAcquireTypeList, acq.a_type) case acq: Acquire => hasDataAcquireTypeVec.contains(acq.a_type)
case grant: Grant => uIntListContains(hasDataGrantTypeList, grant.g_type) case grant: Grant => hasDataGrantTypeVec.contains(grant.g_type)
case rel: Release => uIntListContains(hasDataReleaseTypeList, rel.r_type) case rel: Release => hasDataReleaseTypeVec.contains(rel.r_type)
case _ => Bool(false) case _ => Bool(false)
} }
def messageUpdatesDataArray (reply: Grant): Bool = { def messageUpdatesDataArray (reply: Grant): Bool = {
(reply.g_type === grantReadShared || reply.g_type === grantReadExclusive) (reply.g_type === grantReadShared || reply.g_type === grantReadExclusive)
} }
def messageIsUncached(acq: Acquire): Bool = uIntListContains(uncachedAcquireTypeList, acq.a_type) def messageIsUncached(acq: Acquire): Bool = uncachedAcquireTypeVec.contains(acq.a_type)
def isCoherenceConflict(addr1: UInt, addr2: UInt): Bool = (addr1 === addr2) def isCoherenceConflict(addr1: UInt, addr2: UInt): Bool = (addr1 === addr2)
@ -621,10 +618,10 @@ class MESICoherence extends CoherencePolicyWithUncached {
val releaseVoluntaryInvalidateData :: releaseInvalidateData :: releaseDowngradeData :: releaseCopyData :: releaseInvalidateAck :: releaseDowngradeAck :: releaseCopyAck :: Nil = Enum(UInt(), nReleaseTypes) val releaseVoluntaryInvalidateData :: releaseInvalidateData :: releaseDowngradeData :: releaseCopyData :: releaseInvalidateAck :: releaseDowngradeAck :: releaseCopyAck :: Nil = Enum(UInt(), nReleaseTypes)
val grantVoluntaryAck :: grantReadShared :: grantReadExclusive :: grantReadUncached :: grantWriteUncached :: grantReadExclusiveAck :: grantReadWordUncached :: grantWriteWordUncached :: grantAtomicUncached :: Nil = Enum(UInt(), nGrantTypes) val grantVoluntaryAck :: grantReadShared :: grantReadExclusive :: grantReadUncached :: grantWriteUncached :: grantReadExclusiveAck :: grantReadWordUncached :: grantWriteWordUncached :: grantAtomicUncached :: Nil = Enum(UInt(), nGrantTypes)
val uncachedAcquireTypeList = List(acquireReadUncached, acquireWriteUncached, acquireReadWordUncached, acquireWriteWordUncached, acquireAtomicUncached) val uncachedAcquireTypeVec = Vec(acquireReadUncached, acquireWriteUncached, acquireReadWordUncached, acquireWriteWordUncached, acquireAtomicUncached)
val hasDataAcquireTypeList = List(acquireWriteUncached, acquireWriteWordUncached, acquireAtomicUncached) val hasDataAcquireTypeVec = Vec(acquireWriteUncached, acquireWriteWordUncached, acquireAtomicUncached)
val hasDataReleaseTypeList = List(releaseVoluntaryInvalidateData, releaseInvalidateData, releaseDowngradeData, releaseCopyData) val hasDataReleaseTypeVec = Vec(releaseVoluntaryInvalidateData, releaseInvalidateData, releaseDowngradeData, releaseCopyData)
val hasDataGrantTypeList = List(grantReadShared, grantReadExclusive, grantReadUncached, grantReadWordUncached, grantAtomicUncached) val hasDataGrantTypeVec = Vec(grantReadShared, grantReadExclusive, grantReadUncached, grantReadWordUncached, grantAtomicUncached)
def isHit (cmd: UInt, state: UInt): Bool = { def isHit (cmd: UInt, state: UInt): Bool = {
Mux(isWriteIntent(cmd), (state === tileExclusiveClean || state === tileExclusiveDirty), Mux(isWriteIntent(cmd), (state === tileExclusiveClean || state === tileExclusiveDirty),
@ -711,15 +708,15 @@ class MESICoherence extends CoherencePolicyWithUncached {
} }
def messageHasData(msg: SourcedMessage) = msg match { def messageHasData(msg: SourcedMessage) = msg match {
case acq: Acquire => uIntListContains(hasDataAcquireTypeList, acq.a_type) case acq: Acquire => hasDataAcquireTypeVec.contains(acq.a_type)
case grant: Grant => uIntListContains(hasDataGrantTypeList, grant.g_type) case grant: Grant => hasDataGrantTypeVec.contains(grant.g_type)
case rel: Release => uIntListContains(hasDataReleaseTypeList, rel.r_type) case rel: Release => hasDataReleaseTypeVec.contains(rel.r_type)
case _ => Bool(false) case _ => Bool(false)
} }
def messageUpdatesDataArray (reply: Grant): Bool = { def messageUpdatesDataArray (reply: Grant): Bool = {
(reply.g_type === grantReadShared || reply.g_type === grantReadExclusive) (reply.g_type === grantReadShared || reply.g_type === grantReadExclusive)
} }
def messageIsUncached(acq: Acquire): Bool = uIntListContains(uncachedAcquireTypeList, acq.a_type) def messageIsUncached(acq: Acquire): Bool = uncachedAcquireTypeVec.contains(acq.a_type)
def isCoherenceConflict(addr1: UInt, addr2: UInt): Bool = (addr1 === addr2) def isCoherenceConflict(addr1: UInt, addr2: UInt): Bool = (addr1 === addr2)
@ -785,13 +782,13 @@ class MigratoryCoherence extends CoherencePolicyWithUncached {
val releaseVoluntaryInvalidateData :: releaseInvalidateData :: releaseDowngradeData :: releaseCopyData :: releaseInvalidateAck :: releaseDowngradeAck :: releaseCopyAck :: releaseDowngradeDataMigratory :: releaseDowngradeAckHasCopy :: releaseInvalidateDataMigratory :: releaseInvalidateAckMigratory :: Nil = Enum(UInt(), nReleaseTypes) val releaseVoluntaryInvalidateData :: releaseInvalidateData :: releaseDowngradeData :: releaseCopyData :: releaseInvalidateAck :: releaseDowngradeAck :: releaseCopyAck :: releaseDowngradeDataMigratory :: releaseDowngradeAckHasCopy :: releaseInvalidateDataMigratory :: releaseInvalidateAckMigratory :: Nil = Enum(UInt(), nReleaseTypes)
val grantVoluntaryAck :: grantReadShared :: grantReadExclusive :: grantReadUncached :: grantWriteUncached :: grantReadExclusiveAck :: grantReadWordUncached :: grantWriteWordUncached :: grantAtomicUncached :: grantReadMigratory :: Nil = Enum(UInt(), nGrantTypes) val grantVoluntaryAck :: grantReadShared :: grantReadExclusive :: grantReadUncached :: grantWriteUncached :: grantReadExclusiveAck :: grantReadWordUncached :: grantWriteWordUncached :: grantAtomicUncached :: grantReadMigratory :: Nil = Enum(UInt(), nGrantTypes)
val uncachedAcquireTypeList = List(acquireReadUncached, acquireWriteUncached, acquireReadWordUncached, acquireWriteWordUncached, acquireAtomicUncached) val uncachedAcquireTypeVec = Vec(acquireReadUncached, acquireWriteUncached, acquireReadWordUncached, acquireWriteWordUncached, acquireAtomicUncached)
val hasDataAcquireTypeList = List(acquireWriteUncached, acquireWriteWordUncached, acquireAtomicUncached) val hasDataAcquireTypeVec = Vec(acquireWriteUncached, acquireWriteWordUncached, acquireAtomicUncached)
val hasDataGrantTypeList = List(grantReadShared, grantReadExclusive, grantReadUncached, grantReadMigratory, grantReadWordUncached, grantAtomicUncached) val hasDataGrantTypeVec = Vec(grantReadShared, grantReadExclusive, grantReadUncached, grantReadMigratory, grantReadWordUncached, grantAtomicUncached)
val hasDataReleaseTypeList = List(releaseVoluntaryInvalidateData, releaseInvalidateData, releaseDowngradeData, releaseCopyData, releaseInvalidateDataMigratory, releaseDowngradeDataMigratory) val hasDataReleaseTypeVec = Vec(releaseVoluntaryInvalidateData, releaseInvalidateData, releaseDowngradeData, releaseCopyData, releaseInvalidateDataMigratory, releaseDowngradeDataMigratory)
def isHit (cmd: UInt, state: UInt): Bool = { def isHit (cmd: UInt, state: UInt): Bool = {
Mux(isWriteIntent(cmd), uIntListContains(List(tileExclusiveClean, tileExclusiveDirty, tileMigratoryClean, tileMigratoryDirty), state), (state != tileInvalid)) Mux(isWriteIntent(cmd), Vec(tileExclusiveClean, tileExclusiveDirty, tileMigratoryClean, tileMigratoryDirty).contains(state), (state != tileInvalid))
} }
def isValid (state: UInt): Bool = { def isValid (state: UInt): Bool = {
state != tileInvalid state != tileInvalid
@ -803,8 +800,8 @@ class MigratoryCoherence extends CoherencePolicyWithUncached {
} }
def needsTransactionOnCacheControl(cmd: UInt, state: UInt): Bool = { def needsTransactionOnCacheControl(cmd: UInt, state: UInt): Bool = {
MuxLookup(cmd, (state === tileExclusiveDirty), Array( MuxLookup(cmd, (state === tileExclusiveDirty), Array(
M_INV -> uIntListContains(List(tileExclusiveDirty,tileMigratoryDirty),state), M_INV -> Vec(tileExclusiveDirty,tileMigratoryDirty).contains(state),
M_CLN -> uIntListContains(List(tileExclusiveDirty,tileMigratoryDirty),state) M_CLN -> Vec(tileExclusiveDirty,tileMigratoryDirty).contains(state)
)) ))
} }
def needsWriteback (state: UInt): Bool = { def needsWriteback (state: UInt): Bool = {
@ -875,7 +872,7 @@ class MigratoryCoherence extends CoherencePolicyWithUncached {
def getReleaseTypeOnVoluntaryWriteback(): UInt = getReleaseTypeOnCacheControl(M_INV) def getReleaseTypeOnVoluntaryWriteback(): UInt = getReleaseTypeOnCacheControl(M_INV)
def getReleaseTypeOnProbe(incoming: Probe, state: UInt): UInt = { def getReleaseTypeOnProbe(incoming: Probe, state: UInt): UInt = {
val with_data = MuxLookup(incoming.p_type, releaseInvalidateData, Array( val with_data = MuxLookup(incoming.p_type, releaseInvalidateData, Array(
probeInvalidate -> Mux(uIntListContains(List(tileExclusiveDirty, tileMigratoryDirty), state), probeInvalidate -> Mux(Vec(tileExclusiveDirty, tileMigratoryDirty).contains(state),
releaseInvalidateDataMigratory, releaseInvalidateData), releaseInvalidateDataMigratory, releaseInvalidateData),
probeDowngrade -> Mux(state === tileMigratoryDirty, releaseDowngradeDataMigratory, releaseDowngradeData), probeDowngrade -> Mux(state === tileMigratoryDirty, releaseDowngradeDataMigratory, releaseDowngradeData),
probeCopy -> releaseCopyData probeCopy -> releaseCopyData
@ -890,15 +887,13 @@ class MigratoryCoherence extends CoherencePolicyWithUncached {
} }
def messageHasData(msg: SourcedMessage) = msg match { def messageHasData(msg: SourcedMessage) = msg match {
case acq: Acquire => uIntListContains(hasDataAcquireTypeList, acq.a_type) case acq: Acquire => hasDataAcquireTypeVec.contains(acq.a_type)
case grant: Grant => uIntListContains(hasDataGrantTypeList, grant.g_type) case grant: Grant => hasDataGrantTypeVec.contains(grant.g_type)
case rel: Release => uIntListContains(hasDataReleaseTypeList, rel.r_type) case rel: Release => hasDataReleaseTypeVec.contains(rel.r_type)
case _ => Bool(false) case _ => Bool(false)
} }
def messageUpdatesDataArray (reply: Grant): Bool = { def messageUpdatesDataArray (reply: Grant): Bool = Vec(grantReadShared, grantReadExclusive, grantReadMigratory).contains(reply.g_type)
uIntListContains(List(grantReadShared, grantReadExclusive, grantReadMigratory), reply.g_type) def messageIsUncached(acq: Acquire): Bool = uncachedAcquireTypeVec.contains(acq.a_type)
}
def messageIsUncached(acq: Acquire): Bool = uIntListContains(uncachedAcquireTypeList, acq.a_type)
def isCoherenceConflict(addr1: UInt, addr2: UInt): Bool = (addr1 === addr2) def isCoherenceConflict(addr1: UInt, addr2: UInt): Bool = (addr1 === addr2)