+/// Translate TRI register number to an index into our smaller tables of
+/// interesting registers. Return -1 for boring registers.
+int SSEDomainFixPass::RegIndex(unsigned reg) {
+ assert(X86::XMM15 == X86::XMM0+NumRegs-1 && "Unexpected sort");
+ reg -= X86::XMM0;
+ return reg < NumRegs ? (int) reg : -1;
+}
+
+DomainValue *SSEDomainFixPass::Alloc(int domain) {
+ DomainValue *dv = Avail.empty() ?
+ new(Allocator.Allocate()) DomainValue :
+ Avail.pop_back_val();
+ dv->Dist = Distance;
+ if (domain >= 0)
+ dv->addDomain(domain);
+ return dv;
+}
+
+void SSEDomainFixPass::Recycle(DomainValue *dv) {
+ assert(dv && "Cannot recycle NULL");
+ dv->clear();
+ Avail.push_back(dv);
+}
+
+/// Set LiveRegs[rx] = dv, updating reference counts.
+void SSEDomainFixPass::SetLiveReg(int rx, DomainValue *dv) {
+ assert(unsigned(rx) < NumRegs && "Invalid index");
+ if (!LiveRegs) {
+ LiveRegs = new DomainValue*[NumRegs];
+ std::fill(LiveRegs, LiveRegs+NumRegs, (DomainValue*)0);
+ }
+
+ if (LiveRegs[rx] == dv)
+ return;
+ if (LiveRegs[rx]) {
+ assert(LiveRegs[rx]->Refs && "Bad refcount");
+ if (--LiveRegs[rx]->Refs == 0) Recycle(LiveRegs[rx]);
+ }
+ LiveRegs[rx] = dv;
+ if (dv) ++dv->Refs;
+}
+
+// Kill register rx, recycle or collapse any DomainValue.
+void SSEDomainFixPass::Kill(int rx) {
+ assert(unsigned(rx) < NumRegs && "Invalid index");
+ if (!LiveRegs || !LiveRegs[rx]) return;
+
+ // Before killing the last reference to an open DomainValue, collapse it to
+ // the first available domain.
+ if (LiveRegs[rx]->Refs == 1 && !LiveRegs[rx]->isCollapsed())
+ Collapse(LiveRegs[rx], LiveRegs[rx]->getFirstDomain());
+ else
+ SetLiveReg(rx, 0);
+}
+
+/// Force register rx into domain.
+void SSEDomainFixPass::Force(int rx, unsigned domain) {
+ assert(unsigned(rx) < NumRegs && "Invalid index");
+ DomainValue *dv;
+ if (LiveRegs && (dv = LiveRegs[rx])) {
+ if (dv->isCollapsed())
+ dv->addDomain(domain);
+ else if (dv->hasDomain(domain))
+ Collapse(dv, domain);
+ else {
+ // This is an incompatible open DomainValue. Collapse it to whatever and force
+ // the new value into domain. This costs a domain crossing.
+ Collapse(dv, dv->getFirstDomain());
+ assert(LiveRegs[rx] && "Not live after collapse?");
+ LiveRegs[rx]->addDomain(domain);
+ }
+ } else {
+ // Set up basic collapsed DomainValue.
+ SetLiveReg(rx, Alloc(domain));
+ }
+}
+
+/// Collapse open DomainValue into given domain. If there are multiple
+/// registers using dv, they each get a unique collapsed DomainValue.
+void SSEDomainFixPass::Collapse(DomainValue *dv, unsigned domain) {
+ assert(dv->hasDomain(domain) && "Cannot collapse");
+
+ // Collapse all the instructions.
+ while (!dv->Instrs.empty())
+ TII->SetSSEDomain(dv->Instrs.pop_back_val(), domain);
+ dv->setSingleDomain(domain);
+
+ // If there are multiple users, give them new, unique DomainValues.
+ if (LiveRegs && dv->Refs > 1)
+ for (unsigned rx = 0; rx != NumRegs; ++rx)
+ if (LiveRegs[rx] == dv)
+ SetLiveReg(rx, Alloc(domain));
+}
+
+/// Merge - All instructions and registers in B are moved to A, and B is
+/// released.
+bool SSEDomainFixPass::Merge(DomainValue *A, DomainValue *B) {
+ assert(!A->isCollapsed() && "Cannot merge into collapsed");
+ assert(!B->isCollapsed() && "Cannot merge from collapsed");
+ if (A == B)
+ return true;
+ // Restrict to the domains that A and B have in common.
+ unsigned common = A->getCommonDomains(B->AvailableDomains);
+ if (!common)
+ return false;
+ A->AvailableDomains = common;
+ A->Dist = std::max(A->Dist, B->Dist);
+ A->Instrs.append(B->Instrs.begin(), B->Instrs.end());
+ for (unsigned rx = 0; rx != NumRegs; ++rx)
+ if (LiveRegs[rx] == B)
+ SetLiveReg(rx, A);
+ return true;
+}
+
+void SSEDomainFixPass::enterBasicBlock() {
+ // Try to coalesce live-out registers from predecessors.
+ for (MachineBasicBlock::livein_iterator i = MBB->livein_begin(),
+ e = MBB->livein_end(); i != e; ++i) {
+ int rx = RegIndex(*i);
+ if (rx < 0) continue;
+ for (MachineBasicBlock::const_pred_iterator pi = MBB->pred_begin(),
+ pe = MBB->pred_end(); pi != pe; ++pi) {
+ LiveOutMap::const_iterator fi = LiveOuts.find(*pi);
+ if (fi == LiveOuts.end()) continue;
+ DomainValue *pdv = fi->second[rx];
+ if (!pdv) continue;
+ if (!LiveRegs || !LiveRegs[rx]) {
+ SetLiveReg(rx, pdv);
+ continue;
+ }
+
+ // We have a live DomainValue from more than one predecessor.
+ if (LiveRegs[rx]->isCollapsed()) {
+ // We are already collapsed, but predecessor is not. Force him.
+ unsigned domain = LiveRegs[rx]->getFirstDomain();
+ if (!pdv->isCollapsed() && pdv->hasDomain(domain))
+ Collapse(pdv, domain);
+ continue;
+ }
+
+ // Currently open, merge in predecessor.
+ if (!pdv->isCollapsed())
+ Merge(LiveRegs[rx], pdv);
+ else
+ Force(rx, pdv->getFirstDomain());
+ }
+ }
+}
+
+// A hard instruction only works in one domain. All input registers will be
+// forced into that domain.
+void SSEDomainFixPass::visitHardInstr(MachineInstr *mi, unsigned domain) {
+ // Collapse all uses.
+ for (unsigned i = mi->getDesc().getNumDefs(),
+ e = mi->getDesc().getNumOperands(); i != e; ++i) {
+ MachineOperand &mo = mi->getOperand(i);
+ if (!mo.isReg()) continue;
+ int rx = RegIndex(mo.getReg());
+ if (rx < 0) continue;
+ Force(rx, domain);
+ }
+
+ // Kill all defs and force them.
+ for (unsigned i = 0, e = mi->getDesc().getNumDefs(); i != e; ++i) {
+ MachineOperand &mo = mi->getOperand(i);
+ if (!mo.isReg()) continue;
+ int rx = RegIndex(mo.getReg());
+ if (rx < 0) continue;
+ Kill(rx);
+ Force(rx, domain);
+ }
+}
+
+// A soft instruction can be changed to work in other domains given by mask.
+void SSEDomainFixPass::visitSoftInstr(MachineInstr *mi, unsigned mask) {
+ // Bitmask of available domains for this instruction after taking collapsed
+ // operands into account.
+ unsigned available = mask;
+
+ // Scan the explicit use operands for incoming domains.
+ SmallVector<int, 4> used;
+ if (LiveRegs)
+ for (unsigned i = mi->getDesc().getNumDefs(),
+ e = mi->getDesc().getNumOperands(); i != e; ++i) {
+ MachineOperand &mo = mi->getOperand(i);
+ if (!mo.isReg()) continue;
+ int rx = RegIndex(mo.getReg());
+ if (rx < 0) continue;
+ if (DomainValue *dv = LiveRegs[rx]) {
+ // Bitmask of domains that dv and available have in common.
+ unsigned common = dv->getCommonDomains(available);
+ // Is it possible to use this collapsed register for free?
+ if (dv->isCollapsed()) {
+ // Restrict available domains to the ones in common with the operand.
+ // If there are no common domains, we must pay the cross-domain
+ // penalty for this operand.
+ if (common) available = common;
+ } else if (common)
+ // Open DomainValue is compatible, save it for merging.
+ used.push_back(rx);
+ else
+ // Open DomainValue is not compatible with instruction. It is useless
+ // now.
+ Kill(rx);
+ }
+ }
+
+ // If the collapsed operands force a single domain, propagate the collapse.
+ if (isPowerOf2_32(available)) {
+ unsigned domain = CountTrailingZeros_32(available);
+ TII->SetSSEDomain(mi, domain);
+ visitHardInstr(mi, domain);
+ return;
+ }
+
+ // Kill off any remaining uses that don't match available, and build a list of
+ // incoming DomainValues that we want to merge.
+ SmallVector<DomainValue*,4> doms;
+ for (SmallVector<int, 4>::iterator i=used.begin(), e=used.end(); i!=e; ++i) {
+ int rx = *i;
+ DomainValue *dv = LiveRegs[rx];
+ // This useless DomainValue could have been missed above.
+ if (!dv->getCommonDomains(available)) {
+ Kill(*i);
+ continue;
+ }
+ // sorted, uniqued insert.
+ bool inserted = false;
+ for (SmallVector<DomainValue*,4>::iterator i = doms.begin(), e = doms.end();
+ i != e && !inserted; ++i) {
+ if (dv == *i)
+ inserted = true;
+ else if (dv->Dist < (*i)->Dist) {
+ inserted = true;
+ doms.insert(i, dv);
+ }
+ }
+ if (!inserted)
+ doms.push_back(dv);
+ }
+
+ // doms are now sorted in order of appearance. Try to merge them all, giving
+ // priority to the latest ones.
+ DomainValue *dv = 0;
+ while (!doms.empty()) {
+ if (!dv) {
+ dv = doms.pop_back_val();
+ continue;
+ }
+
+ DomainValue *latest = doms.pop_back_val();
+ if (Merge(dv, latest)) continue;
+
+ // If latest didn't merge, it is useless now. Kill all registers using it.
+ for (SmallVector<int,4>::iterator i=used.begin(), e=used.end(); i != e; ++i)
+ if (LiveRegs[*i] == latest)
+ Kill(*i);
+ }
+
+ // dv is the DomainValue we are going to use for this instruction.
+ if (!dv)
+ dv = Alloc();
+ dv->Dist = Distance;
+ dv->AvailableDomains = available;
+ dv->Instrs.push_back(mi);
+
+ // Finally set all defs and non-collapsed uses to dv.
+ for (unsigned i = 0, e = mi->getDesc().getNumOperands(); i != e; ++i) {
+ MachineOperand &mo = mi->getOperand(i);
+ if (!mo.isReg()) continue;
+ int rx = RegIndex(mo.getReg());
+ if (rx < 0) continue;
+ if (!LiveRegs || !LiveRegs[rx] || (mo.isDef() && LiveRegs[rx]!=dv)) {
+ Kill(rx);
+ SetLiveReg(rx, dv);
+ }
+ }
+}
+
+void SSEDomainFixPass::visitGenericInstr(MachineInstr *mi) {
+ // Process explicit defs, kill any XMM registers redefined.
+ for (unsigned i = 0, e = mi->getDesc().getNumDefs(); i != e; ++i) {
+ MachineOperand &mo = mi->getOperand(i);
+ if (!mo.isReg()) continue;
+ int rx = RegIndex(mo.getReg());
+ if (rx < 0) continue;
+ Kill(rx);
+ }