Blame - utils/TableGen/InstrSelectorEmitter.cpp - fp2-dev/platform/external/llvm

2003-08-06 05:42:05 +0000

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//===- InstrInfoEmitter.cpp - Generate a Instruction Set Desc. ------------===//

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//

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// This tablegen backend is responsible for emitting a description of the target

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// instruction set for the code generator.

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//

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//===----------------------------------------------------------------------===//

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#include "InstrSelectorEmitter.h"

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#include "CodeGenWrappers.h"

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#include "Record.h"

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#include "Support/Debug.h"

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#include "Support/StringExtras.h"

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#include <set>

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NodeType::ArgResultTypes NodeType::Translate(Record *R) {

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const std::string &Name = R->getName();

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if (Name == "DNVT_void") return Void;

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if (Name == "DNVT_val" ) return Val;

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if (Name == "DNVT_arg0") return Arg0;

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if (Name == "DNVT_ptr" ) return Ptr;

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throw "Unknown DagNodeValType '" + Name + "'!";

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}

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//===----------------------------------------------------------------------===//

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// TreePatternNode implementation

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//

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/// getValueRecord - Returns the value of this tree node as a record. For now

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/// we only allow DefInit's as our leaf values, so this is used.

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Record *TreePatternNode::getValueRecord() const {

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DefInit *DI = dynamic_cast<DefInit*>(getValue());

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assert(DI && "Instruction Selector does not yet support non-def leaves!");

return DI->getDef();

}

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// updateNodeType - Set the node type of N to VT if VT contains information. If

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// N already contains a conflicting type, then throw an exception

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//

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bool TreePatternNode::updateNodeType(MVT::ValueType VT,

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const std::string &RecName) {

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if (VT == MVT::Other || getType() == VT) return false;

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if (getType() == MVT::Other) {

setType(VT);

return true;

}

throw "Type inferfence contradiction found for pattern " + RecName;

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}

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/// InstantiateNonterminals - If this pattern refers to any nonterminals which

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/// are not themselves completely resolved, clone the nonterminal and resolve it

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/// with the using context we provide.

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///

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void TreePatternNode::InstantiateNonterminals(InstrSelectorEmitter &ISE) {

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if (!isLeaf()) {

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for (unsigned i = 0, e = getNumChildren(); i != e; ++i)

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getChild(i)->InstantiateNonterminals(ISE);

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return;

}

// If this is a leaf, it might be a reference to a nonterminal! Check now.

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Record *R = getValueRecord();

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if (R->isSubClassOf("Nonterminal")) {

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Pattern *NT = ISE.getPattern(R);

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if (!NT->isResolved()) {

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// We found an unresolved nonterminal reference. Ask the ISE to clone

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// it for us, then update our reference to the fresh, new, resolved,

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// nonterminal.

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Value = new DefInit(ISE.InstantiateNonterminal(NT, getType()));

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}

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}

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}

/// clone - Make a copy of this tree and all of its children.

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///

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TreePatternNode *TreePatternNode::clone() const {

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TreePatternNode *New;

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if (isLeaf()) {

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New = new TreePatternNode(Value);

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} else {

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std::vector<std::pair<TreePatternNode*, std::string> > CChildren;

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CChildren.reserve(Children.size());

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for (unsigned i = 0, e = getNumChildren(); i != e; ++i)

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CChildren.push_back(std::make_pair(getChild(i)->clone(),getChildName(i)));

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New = new TreePatternNode(Operator, CChildren);

}

New->setType(Type);

return New;

}

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std::ostream &operator<<(std::ostream &OS, const TreePatternNode &N) {

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if (N.isLeaf())

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return OS << N.getType() << ":" << *N.getValue();

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OS << "(" << N.getType() << ":";

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OS << N.getOperator()->getName();

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if (N.getNumChildren() != 0) {

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OS << " " << *N.getChild(0);

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for (unsigned i = 1, e = N.getNumChildren(); i != e; ++i)

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OS << ", " << *N.getChild(i);

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}

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return OS << ")";

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}

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void TreePatternNode::dump() const { std::cerr << *this; }

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//===----------------------------------------------------------------------===//

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// Pattern implementation

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//

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// Parse the specified DagInit into a TreePattern which we can use.

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//

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Pattern::Pattern(PatternType pty, DagInit *RawPat, Record *TheRec,

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InstrSelectorEmitter &ise)

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: PTy(pty), TheRecord(TheRec), ISE(ise) {

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// First, parse the pattern...

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Tree = ParseTreePattern(RawPat);

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// Run the type-inference engine...

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InferAllTypes();

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if (PTy == Instruction || PTy == Expander) {

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// Check to make sure there is not any unset types in the tree pattern...

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if (!isResolved()) {

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std::cerr << "In pattern: " << *Tree << "\n";

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error("Could not infer all types!");

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}

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// Check to see if we have a top-level (set) of a register.

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if (Tree->getOperator()->getName() == "set") {

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assert(Tree->getNumChildren() == 2 && "Set with != 2 arguments?");

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if (!Tree->getChild(0)->isLeaf())

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error("Arg #0 of set should be a register or register class!");

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Result = Tree->getChild(0)->getValueRecord();

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Tree = Tree->getChild(1);

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}

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}

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calculateArgs(Tree, "");

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}

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void Pattern::error(const std::string &Msg) const {

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std::string M = "In ";

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switch (PTy) {

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case Nonterminal: M += "nonterminal "; break;

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case Instruction: M += "instruction "; break;

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case Expander : M += "expander "; break;

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}

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throw M + TheRecord->getName() + ": " + Msg;

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}

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/// calculateArgs - Compute the list of all of the arguments to this pattern,

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/// which are the non-void leaf nodes in this pattern.

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///

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void Pattern::calculateArgs(TreePatternNode *N, const std::string &Name) {

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if (N->isLeaf() || N->getNumChildren() == 0) {

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if (N->getType() != MVT::isVoid)

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Args.push_back(std::make_pair(N, Name));

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} else {

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for (unsigned i = 0, e = N->getNumChildren(); i != e; ++i)

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calculateArgs(N->getChild(i), N->getChildName(i));

}

}

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/// getIntrinsicType - Check to see if the specified record has an intrinsic

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/// type which should be applied to it. This infer the type of register

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/// references from the register file information, for example.

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///

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MVT::ValueType Pattern::getIntrinsicType(Record *R) const {

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// Check to see if this is a register or a register class...

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if (R->isSubClassOf("RegisterClass"))

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return getValueType(R->getValueAsDef("RegType"));

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else if (R->isSubClassOf("Nonterminal"))

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return ISE.ReadNonterminal(R)->getTree()->getType();

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else if (R->isSubClassOf("Register")) {

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std::cerr << "WARNING: Explicit registers not handled yet!\n";

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return MVT::Other;

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}

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error("Unknown value used: " + R->getName());

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return MVT::Other;

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}

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TreePatternNode *Pattern::ParseTreePattern(DagInit *Dag) {

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Record *Operator = Dag->getNodeType();

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if (Operator->isSubClassOf("ValueType")) {

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// If the operator is a ValueType, then this must be "type cast" of a leaf

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// node.

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if (Dag->getNumArgs() != 1)

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error("Type cast only valid for a leaf node!");

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Init *Arg = Dag->getArg(0);

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TreePatternNode *New;

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if (DefInit *DI = dynamic_cast<DefInit*>(Arg)) {

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New = new TreePatternNode(DI);

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// If it's a regclass or something else known, set the type.

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New->setType(getIntrinsicType(DI->getDef()));

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} else {

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Arg->dump();

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error("Unknown leaf value for tree pattern!");

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}

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// Apply the type cast...

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New->updateNodeType(getValueType(Operator), TheRecord->getName());

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return New;

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}

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if (!ISE.getNodeTypes().count(Operator))

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error("Unrecognized node '" + Operator->getName() + "'!");

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std::vector<std::pair<TreePatternNode*, std::string> > Children;

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for (unsigned i = 0, e = Dag->getNumArgs(); i != e; ++i) {

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Init *Arg = Dag->getArg(i);

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if (DagInit *DI = dynamic_cast<DagInit*>(Arg)) {

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Children.push_back(std::make_pair(ParseTreePattern(DI),

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Dag->getArgName(i)));

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} else if (DefInit *DefI = dynamic_cast<DefInit*>(Arg)) {

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Record *R = DefI->getDef();

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// Direct reference to a leaf DagNode? Turn it into a DagNode if its own.

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if (R->isSubClassOf("DagNode")) {

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Dag->setArg(i, new DagInit(R,

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std::vector<std::pair<Init*, std::string> >()));

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--i; // Revisit this node...

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} else {

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Children.push_back(std::make_pair(new TreePatternNode(DefI),

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Dag->getArgName(i)));

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// If it's a regclass or something else known, set the type.

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Children.back().first->setType(getIntrinsicType(R));

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}

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} else {

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Arg->dump();

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error("Unknown leaf value for tree pattern!");

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}

}

return new TreePatternNode(Operator, Children);

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}

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void Pattern::InferAllTypes() {

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bool MadeChange, AnyUnset;

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do {

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MadeChange = false;

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AnyUnset = InferTypes(Tree, MadeChange);

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} while ((AnyUnset || MadeChange) && !(AnyUnset && !MadeChange));

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Resolved = !AnyUnset;

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}

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// InferTypes - Perform type inference on the tree, returning true if there

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// are any remaining untyped nodes and setting MadeChange if any changes were

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// made.

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bool Pattern::InferTypes(TreePatternNode *N, bool &MadeChange) {

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if (N->isLeaf()) return N->getType() == MVT::Other;

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bool AnyUnset = false;

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Record *Operator = N->getOperator();

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const NodeType &NT = ISE.getNodeType(Operator);

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// Check to see if we can infer anything about the argument types from the

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// return types...

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if (N->getNumChildren() != NT.ArgTypes.size())

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error("Incorrect number of children for " + Operator->getName() + " node!");

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for (unsigned i = 0, e = N->getNumChildren(); i != e; ++i) {

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TreePatternNode *Child = N->getChild(i);

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AnyUnset |= InferTypes(Child, MadeChange);

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switch (NT.ArgTypes[i]) {

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case NodeType::Arg0:

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MadeChange |= Child->updateNodeType(N->getChild(0)->getType(),

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TheRecord->getName());

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break;

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case NodeType::Val:

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if (Child->getType() == MVT::isVoid)

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error("Inferred a void node in an illegal place!");

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break;

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case NodeType::Ptr:

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MadeChange |= Child->updateNodeType(ISE.getTarget().getPointerType(),

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TheRecord->getName());

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break;

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default: assert(0 && "Invalid argument ArgType!");

}

}

// See if we can infer anything about the return type now...

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switch (NT.ResultType) {

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case NodeType::Void:

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MadeChange |= N->updateNodeType(MVT::isVoid, TheRecord->getName());

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break;

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case NodeType::Arg0:

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MadeChange |= N->updateNodeType(N->getChild(0)->getType(),

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TheRecord->getName());

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break;

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case NodeType::Ptr:

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MadeChange |= N->updateNodeType(ISE.getTarget().getPointerType(),

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TheRecord->getName());

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break;

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case NodeType::Val:

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if (N->getType() == MVT::isVoid)

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error("Inferred a void node in an illegal place!");

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break;

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default:

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assert(0 && "Unhandled type constraint!");

break;

}

return AnyUnset | N->getType() == MVT::Other;

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}

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/// clone - This method is used to make an exact copy of the current pattern,

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/// then change the "TheRecord" instance variable to the specified record.

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///

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Pattern *Pattern::clone(Record *R) const {

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assert(PTy == Nonterminal && "Can only clone nonterminals");

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return new Pattern(Tree->clone(), R, Resolved, ISE);

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}

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std::ostream &operator<<(std::ostream &OS, const Pattern &P) {

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switch (P.getPatternType()) {

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case Pattern::Nonterminal: OS << "Nonterminal pattern "; break;

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case Pattern::Instruction: OS << "Instruction pattern "; break;

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case Pattern::Expander: OS << "Expander pattern "; break;

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}

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OS << P.getRecord()->getName() << ":\t";

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if (Record *Result = P.getResult())

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OS << Result->getName() << " = ";

OS << *P.getTree();

if (!P.isResolved())

OS << " [not completely resolved]";

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return OS;

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}

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void Pattern::dump() const { std::cerr << *this; }

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/// getSlotName - If this is a leaf node, return the slot name that the operand

351

/// will update.

352

std::string Pattern::getSlotName() const {

353

if (getPatternType() == Pattern::Nonterminal) {

354

// Just use the nonterminal name, which will already include the type if

355

// it has been cloned.

356

return getRecord()->getName();

357

} else {

358

std::string SlotName;

359

if (getResult())

360

SlotName = getResult()->getName()+"_";

361

else

362

SlotName = "Void_";

363

return SlotName + getName(getTree()->getType());

}

}

/// getSlotName - If this is a leaf node, return the slot name that the

368

/// operand will update.

369

std::string Pattern::getSlotName(Record *R) {

370

if (R->isSubClassOf("Nonterminal")) {

371

// Just use the nonterminal name, which will already include the type if

372

// it has been cloned.

373

return R->getName();

374

} else if (R->isSubClassOf("RegisterClass")) {

375

MVT::ValueType Ty = getValueType(R->getValueAsDef("RegType"));

376

return R->getName() + "_" + getName(Ty);

377

} else {

378

assert(0 && "Don't know how to get a slot name for this!");

}

}

Chris Lattner

2003-08-07 19:28:55 +0000

[diff] [blame]

382

//===----------------------------------------------------------------------===//

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

383

// PatternOrganizer implementation

384

//

385

386

/// addPattern - Add the specified pattern to the appropriate location in the

387

/// collection.

388

void PatternOrganizer::addPattern(Pattern *P) {

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

389

NodesForSlot &Nodes = AllPatterns[P->getSlotName()];

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

390

if (!P->getTree()->isLeaf())

391

Nodes[P->getTree()->getOperator()].push_back(P);

392

else {

393

// Right now we only support DefInit's with node types...

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

394

Nodes[P->getTree()->getValueRecord()].push_back(P);

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

}

}

//===----------------------------------------------------------------------===//

Chris Lattner

2003-08-07 19:28:55 +0000

[diff] [blame]

401

// InstrSelectorEmitter implementation

402

//

403

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

404

/// ReadNodeTypes - Read in all of the node types in the current RecordKeeper,

405

/// turning them into the more accessible NodeTypes data structure.

Chris Lattner

2003-08-07 19:28:55 +0000

[diff] [blame]

406

///

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

407

void InstrSelectorEmitter::ReadNodeTypes() {

Chris Lattner

2003-08-07 19:28:55 +0000

[diff] [blame]

408

std::vector<Record*> Nodes = Records.getAllDerivedDefinitions("DagNode");

409

DEBUG(std::cerr << "Getting node types: ");

410

for (unsigned i = 0, e = Nodes.size(); i != e; ++i) {

411

Record *Node = Nodes[i];

412

413

// Translate the return type...

414

NodeType::ArgResultTypes RetTy =

415

NodeType::Translate(Node->getValueAsDef("RetType"));

416

417

// Translate the arguments...

418

ListInit *Args = Node->getValueAsListInit("ArgTypes");

419

std::vector<NodeType::ArgResultTypes> ArgTypes;

420

421

for (unsigned a = 0, e = Args->getSize(); a != e; ++a) {

422

if (DefInit *DI = dynamic_cast<DefInit*>(Args->getElement(a)))

423

ArgTypes.push_back(NodeType::Translate(DI->getDef()));

424

else

425

throw "In node " + Node->getName() + ", argument is not a Def!";

426

427

if (a == 0 && ArgTypes.back() == NodeType::Arg0)

428

throw "In node " + Node->getName() + ", arg 0 cannot have type 'arg0'!";

429

if (ArgTypes.back() == NodeType::Void)

430

throw "In node " + Node->getName() + ", args cannot be void type!";

431

}

432

if (RetTy == NodeType::Arg0 && Args->getSize() == 0)

433

throw "In node " + Node->getName() +

434

", invalid return type for nullary node!";

435

436

// Add the node type mapping now...

437

NodeTypes[Node] = NodeType(RetTy, ArgTypes);

438

DEBUG(std::cerr << Node->getName() << ", ");

439

}

440

DEBUG(std::cerr << "DONE!\n");

441

}

442

Chris Lattner

2003-08-07 21:02:56 +0000

[diff] [blame]

443

Pattern *InstrSelectorEmitter::ReadNonterminal(Record *R) {

444

Pattern *&P = Patterns[R];

445

if (P) return P; // Don't reread it!

446

447

DagInit *DI = R->getValueAsDag("Pattern");

448

P = new Pattern(Pattern::Nonterminal, DI, R, *this);

449

DEBUG(std::cerr << "Parsed " << *P << "\n");

return P;

}

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

454

// ReadNonTerminals - Read in all nonterminals and incorporate them into our

455

// pattern database.

456

void InstrSelectorEmitter::ReadNonterminals() {

Chris Lattner

2003-08-07 06:02:15 +0000

[diff] [blame]

457

std::vector<Record*> NTs = Records.getAllDerivedDefinitions("Nonterminal");

Chris Lattner

2003-08-07 21:02:56 +0000

[diff] [blame]

458

for (unsigned i = 0, e = NTs.size(); i != e; ++i)

459

ReadNonterminal(NTs[i]);

Chris Lattner

2003-08-07 06:02:15 +0000

[diff] [blame]

460

}

Chris Lattner

2003-08-07 05:40:14 +0000

[diff] [blame]

461

462

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

463

/// ReadInstructionPatterns - Read in all subclasses of Instruction, and process

464

/// those with a useful Pattern field.

Chris Lattner

2003-08-06 06:16:35 +0000

[diff] [blame]

465

///

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

466

void InstrSelectorEmitter::ReadInstructionPatterns() {

Chris Lattner

2003-08-06 06:16:35 +0000

[diff] [blame]

467

std::vector<Record*> Insts = Records.getAllDerivedDefinitions("Instruction");

468

for (unsigned i = 0, e = Insts.size(); i != e; ++i) {

469

Record *Inst = Insts[i];

Chris Lattner

2003-08-07 05:40:14 +0000

[diff] [blame]

470

if (DagInit *DI = dynamic_cast<DagInit*>(Inst->getValueInit("Pattern"))) {

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

471

Patterns[Inst] = new Pattern(Pattern::Instruction, DI, Inst, *this);

472

DEBUG(std::cerr << "Parsed " << *Patterns[Inst] << "\n");

Chris Lattner

2003-08-06 06:16:35 +0000

[diff] [blame]

}

}

}

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

477

/// ReadExpanderPatterns - Read in all expander patterns...

Chris Lattner

2003-08-07 19:21:10 +0000

[diff] [blame]

478

///

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

479

void InstrSelectorEmitter::ReadExpanderPatterns() {

Chris Lattner

2003-08-07 19:21:10 +0000

[diff] [blame]

480

std::vector<Record*> Expanders = Records.getAllDerivedDefinitions("Expander");

481

for (unsigned i = 0, e = Expanders.size(); i != e; ++i) {

482

Record *Expander = Expanders[i];

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

483

DagInit *DI = Expander->getValueAsDag("Pattern");

484

Patterns[Expander] = new Pattern(Pattern::Expander, DI, Expander, *this);

485

DEBUG(std::cerr << "Parsed " << *Patterns[Expander] << "\n");

486

}

487

}

Chris Lattner

2003-08-07 19:21:10 +0000

[diff] [blame]

488

Chris Lattner

2003-08-07 19:21:10 +0000

[diff] [blame]

489

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

490

// InstantiateNonterminals - Instantiate any unresolved nonterminals with

491

// information from the context that they are used in.

Chris Lattner

2003-08-07 21:02:56 +0000

[diff] [blame]

492

//

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

493

void InstrSelectorEmitter::InstantiateNonterminals() {

Chris Lattner

2003-08-07 23:16:20 +0000

[diff] [blame]

494

DEBUG(std::cerr << "Instantiating nonterminals:\n");

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

495

for (std::map<Record*, Pattern*>::iterator I = Patterns.begin(),

Chris Lattner

2003-08-07 21:02:56 +0000

[diff] [blame]

496

E = Patterns.end(); I != E; ++I)

497

if (I->second->isResolved())

Chris Lattner

2003-08-07 23:16:20 +0000

[diff] [blame]

498

I->second->InstantiateNonterminals();

499

}

500

501

/// InstantiateNonterminal - This method takes the nonterminal specified by

502

/// NT, which should not be completely resolved, clones it, applies ResultTy

503

/// to its root, then runs the type inference stuff on it. This should

504

/// produce a newly resolved nonterminal, which we make a record for and

505

/// return. To be extra fancy and efficient, this only makes one clone for

506

/// each type it is instantiated with.

507

Record *InstrSelectorEmitter::InstantiateNonterminal(Pattern *NT,

508

MVT::ValueType ResultTy) {

509

assert(!NT->isResolved() && "Nonterminal is already resolved!");

510

511

// Check to see if we have already instantiated this pair...

512

Record* &Slot = InstantiatedNTs[std::make_pair(NT, ResultTy)];

513

if (Slot) return Slot;

514

Chris Lattner

2003-08-07 23:16:20 +0000

[diff] [blame]

515

Record *New = new Record(NT->getRecord()->getName()+"_"+getName(ResultTy));

516

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

517

// Copy over the superclasses...

518

const std::vector<Record*> &SCs = NT->getRecord()->getSuperClasses();

519

for (unsigned i = 0, e = SCs.size(); i != e; ++i)

520

New->addSuperClass(SCs[i]);

521

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

522

DEBUG(std::cerr << " Nonterminal '" << NT->getRecord()->getName()

523

<< "' for type '" << getName(ResultTy) << "', producing '"

524

<< New->getName() << "'\n");

525

Chris Lattner

2003-08-07 23:16:20 +0000

[diff] [blame]

526

// Copy the pattern...

527

Pattern *NewPat = NT->clone(New);

528

529

// Apply the type to the root...

530

NewPat->getTree()->updateNodeType(ResultTy, New->getName());

531

532

// Infer types...

533

NewPat->InferAllTypes();

534

535

// Make sure everything is good to go now...

536

if (!NewPat->isResolved())

537

NewPat->error("Instantiating nonterminal did not resolve all types!");

538

539

// Add the pattern to the patterns map, add the record to the RecordKeeper,

540

// return the new record.

541

Patterns[New] = NewPat;

542

Records.addDef(New);

543

return Slot = New;

Chris Lattner

2003-08-07 19:21:10 +0000

[diff] [blame]

544

}

545

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

546

// CalculateComputableValues - Fill in the ComputableValues map through

547

// analysis of the patterns we are playing with.

548

void InstrSelectorEmitter::CalculateComputableValues() {

549

// Loop over all of the patterns, adding them to the ComputableValues map

550

for (std::map<Record*, Pattern*>::iterator I = Patterns.begin(),

551

E = Patterns.end(); I != E; ++I)

Chris Lattner

2003-08-10 22:38:36 +0000

[diff] [blame]

552

if (I->second->isResolved()) {

553

// We don't want to add patterns like R32 = R32. This is a hack working

554

// around a special case of a general problem, but for now we explicitly

555

// forbid these patterns. They can never match anyway.

556

Pattern *P = I->second;

557

if (!P->getResult() || !P->getTree()->isLeaf() ||

558

P->getResult() != P->getTree()->getValueRecord())

559

ComputableValues.addPattern(P);

560

}

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

561

}

Chris Lattner

2003-08-06 06:16:35 +0000

[diff] [blame]

562

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

563

#if 0

564

// MoveIdenticalPatterns - Given a tree pattern 'P', move all of the tree

565

// patterns which have the same top-level structure as P from the 'From' list to

566

// the 'To' list.

567

static void MoveIdenticalPatterns(TreePatternNode *P,

568

std::vector<std::pair<Pattern*, TreePatternNode*> > &From,

569

std::vector<std::pair<Pattern*, TreePatternNode*> > &To) {

570

assert(!P->isLeaf() && "All leaves are identical!");

571

572

const std::vector<TreePatternNode*> &PChildren = P->getChildren();

573

for (unsigned i = 0; i != From.size(); ++i) {

574

TreePatternNode *N = From[i].second;

575

assert(P->getOperator() == N->getOperator() &&"Differing operators?");

576

assert(PChildren.size() == N->getChildren().size() &&

577

"Nodes with different arity??");

578

bool isDifferent = false;

579

for (unsigned c = 0, e = PChildren.size(); c != e; ++c) {

580

TreePatternNode *PC = PChildren[c];

581

TreePatternNode *NC = N->getChild(c);

582

if (PC->isLeaf() != NC->isLeaf()) {

isDifferent = true;

break;

}

if (!PC->isLeaf()) {

if (PC->getOperator() != NC->getOperator()) {

isDifferent = true;

break;

}

} else { // It's a leaf!

593

if (PC->getValueRecord() != NC->getValueRecord()) {

isDifferent = true;

break;

}

}

}

// If it's the same as the reference one, move it over now...

600

if (!isDifferent) {

601

To.push_back(std::make_pair(From[i].first, N));

602

From.erase(From.begin()+i);

603

--i; // Don't skip an entry...

}

}

}

#endif

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

609

static std::string getNodeName(Record *R) {

610

RecordVal *RV = R->getValue("EnumName");

611

if (RV)

612

if (Init *I = RV->getValue())

613

if (StringInit *SI = dynamic_cast<StringInit*>(I))

614

return SI->getValue();

return R->getName();

}

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

619

static void EmitPatternPredicates(TreePatternNode *Tree,

620

const std::string &VarName, std::ostream &OS){

621

OS << " && " << VarName << "->getNodeType() == ISD::"

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

622

<< getNodeName(Tree->getOperator());

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

623

624

for (unsigned c = 0, e = Tree->getNumChildren(); c != e; ++c)

625

if (!Tree->getChild(c)->isLeaf())

626

EmitPatternPredicates(Tree->getChild(c),

627

VarName + "->getUse(" + utostr(c)+")", OS);

628

}

629

630

static void EmitPatternCosts(TreePatternNode *Tree, const std::string &VarName,

631

std::ostream &OS) {

632

for (unsigned c = 0, e = Tree->getNumChildren(); c != e; ++c)

633

if (Tree->getChild(c)->isLeaf()) {

634

OS << " + Match_"

635

<< Pattern::getSlotName(Tree->getChild(c)->getValueRecord()) << "("

636

<< VarName << "->getUse(" << c << "))";

637

} else {

638

EmitPatternCosts(Tree->getChild(c),

639

VarName + "->getUse(" + utostr(c) + ")", OS);

}

}

// EmitMatchCosters - Given a list of patterns, which all have the same root

645

// pattern operator, emit an efficient decision tree to decide which one to

646

// pick. This is structured this way to avoid reevaluations of non-obvious

647

// subexpressions.

648

void InstrSelectorEmitter::EmitMatchCosters(std::ostream &OS,

649

const std::vector<std::pair<Pattern*, TreePatternNode*> > &Patterns,

650

const std::string &VarPrefix,

651

unsigned IndentAmt) {

652

assert(!Patterns.empty() && "No patterns to emit matchers for!");

653

std::string Indent(IndentAmt, ' ');

654

655

// Load all of the operands of the root node into scalars for fast access

656

const NodeType &ONT = getNodeType(Patterns[0].second->getOperator());

657

for (unsigned i = 0, e = ONT.ArgTypes.size(); i != e; ++i)

658

OS << Indent << "SelectionDAGNode *" << VarPrefix << "_Op" << i

659

<< " = N->getUse(" << i << ");\n";

660

661

// Compute the costs of computing the various nonterminals/registers, which

662

// are directly used at this level.

663

OS << "\n" << Indent << "// Operand matching costs...\n";

664

std::set<std::string> ComputedValues; // Avoid duplicate computations...

665

for (unsigned i = 0, e = Patterns.size(); i != e; ++i) {

Chris Lattner

2003-08-10 23:51:52 +0000

[diff] [blame]

666

TreePatternNode *NParent = Patterns[i].second;

667

for (unsigned c = 0, e = NParent->getNumChildren(); c != e; ++c) {

668

TreePatternNode *N = NParent->getChild(c);

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

669

if (N->isLeaf()) {

670

Record *VR = N->getValueRecord();

671

const std::string &LeafName = VR->getName();

672

std::string OpName = VarPrefix + "_Op" + utostr(c);

673

std::string ValName = OpName + "_" + LeafName + "_Cost";

674

if (!ComputedValues.count(ValName)) {

675

OS << Indent << "unsigned " << ValName << " = Match_"

676

<< Pattern::getSlotName(VR) << "(" << OpName << ");\n";

677

ComputedValues.insert(ValName);

}

}

}

}

OS << "\n";

std::string LocCostName = VarPrefix + "_Cost";

686

OS << Indent << "unsigned " << LocCostName << "Min = ~0U >> 1;\n"

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

687

<< Indent << "unsigned " << VarPrefix << "_PatternMin = NoMatchPattern;\n";

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

688

689

#if 0

690

// Separate out all of the patterns into groups based on what their top-level

691

// signature looks like...

692

std::vector<std::pair<Pattern*, TreePatternNode*> > PatternsLeft(Patterns);

693

while (!PatternsLeft.empty()) {

694

// Process all of the patterns that have the same signature as the last

695

// element...

696

std::vector<std::pair<Pattern*, TreePatternNode*> > Group;

697

MoveIdenticalPatterns(PatternsLeft.back().second, PatternsLeft, Group);

698

assert(!Group.empty() && "Didn't at least pick the source pattern?");

699

700

#if 0

701

OS << "PROCESSING GROUP:\n";

702

for (unsigned i = 0, e = Group.size(); i != e; ++i)

703

OS << " " << *Group[i].first << "\n";

OS << "\n\n";

#endif

OS << Indent << "{ // ";

708

709

if (Group.size() != 1) {

710

OS << Group.size() << " size group...\n";

711

OS << Indent << " unsigned " << VarPrefix << "_Pattern = NoMatch;\n";

712

} else {

713

OS << *Group[0].first << "\n";

714

OS << Indent << " unsigned " << VarPrefix << "_Pattern = "

715

<< Group[0].first->getRecord()->getName() << "_Pattern;\n";

716

}

717

718

OS << Indent << " unsigned " << LocCostName << " = ";

719

if (Group.size() == 1)

720

OS << "1;\n"; // Add inst cost if at individual rec

else

OS << "0;\n";

// Loop over all of the operands, adding in their costs...

725

TreePatternNode *N = Group[0].second;

726

const std::vector<TreePatternNode*> &Children = N->getChildren();

727

728

// If necessary, emit conditionals to check for the appropriate tree

729

// structure here...

730

for (unsigned i = 0, e = Children.size(); i != e; ++i) {

731

TreePatternNode *C = Children[i];

732

if (C->isLeaf()) {

733

// We already calculated the cost for this leaf, add it in now...

734

OS << Indent << " " << LocCostName << " += "

735

<< VarPrefix << "_Op" << utostr(i) << "_"

736

<< C->getValueRecord()->getName() << "_Cost;\n";

737

} else {

738

// If it's not a leaf, we have to check to make sure that the current

739

// node has the appropriate structure, then recurse into it...

740

OS << Indent << " if (" << VarPrefix << "_Op" << i

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

741

<< "->getNodeType() == ISD::" << getNodeName(C->getOperator())

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

742

<< ") {\n";

743

std::vector<std::pair<Pattern*, TreePatternNode*> > SubPatterns;

744

for (unsigned n = 0, e = Group.size(); n != e; ++n)

745

SubPatterns.push_back(std::make_pair(Group[n].first,

746

Group[n].second->getChild(i)));

747

EmitMatchCosters(OS, SubPatterns, VarPrefix+"_Op"+utostr(i),

748

IndentAmt + 4);

749

OS << Indent << " }\n";

}

}

// If the cost for this match is less than the minimum computed cost so far,

754

// update the minimum cost and selected pattern.

755

OS << Indent << " if (" << LocCostName << " < " << LocCostName << "Min) { "

756

<< LocCostName << "Min = " << LocCostName << "; " << VarPrefix

757

<< "_PatternMin = " << VarPrefix << "_Pattern; }\n";

758

759

OS << Indent << "}\n";

}

#endif

for (unsigned i = 0, e = Patterns.size(); i != e; ++i) {

764

Pattern *P = Patterns[i].first;

765

TreePatternNode *PTree = P->getTree();

766

unsigned PatternCost = 1;

767

768

// Check to see if there are any non-leaf elements in the pattern. If so,

769

// we need to emit a predicate for this match.

770

bool AnyNonLeaf = false;

771

for (unsigned c = 0, e = PTree->getNumChildren(); c != e; ++c)

772

if (!PTree->getChild(c)->isLeaf()) {

AnyNonLeaf = true;

break;

}

if (!AnyNonLeaf) { // No predicate necessary, just output a scope...

778

OS << " {// " << *P << "\n";

779

} else {

780

// We need to emit a predicate to make sure the tree pattern matches, do

781

// so now...

782

OS << " if (1";

783

for (unsigned c = 0, e = PTree->getNumChildren(); c != e; ++c)

784

if (!PTree->getChild(c)->isLeaf())

785

EmitPatternPredicates(PTree->getChild(c),

786

VarPrefix + "_Op" + utostr(c), OS);

787

788

OS << ") {\n // " << *P << "\n";

789

}

790

791

OS << " unsigned PatCost = " << PatternCost;

792

793

for (unsigned c = 0, e = PTree->getNumChildren(); c != e; ++c)

794

if (PTree->getChild(c)->isLeaf()) {

795

OS << " + " << VarPrefix << "_Op" << c << "_"

796

<< PTree->getChild(c)->getValueRecord()->getName() << "_Cost";

797

} else {

798

EmitPatternCosts(PTree->getChild(c), VarPrefix + "_Op" + utostr(c), OS);

799

}

800

OS << ";\n";

801

OS << " if (PatCost < MinCost) { MinCost = PatCost; Pattern = "

802

<< P->getRecord()->getName() << "_Pattern; }\n"

<< " }\n";

}

}

Chris Lattner

2003-08-10 20:34:13 +0000

[diff] [blame]

807

static void ReduceAllOperands(TreePatternNode *N, const std::string &Name,

808

std::vector<std::pair<TreePatternNode*, std::string> > &Operands,

809

std::ostream &OS) {

Chris Lattner

2003-08-10 21:54:43 +0000

[diff] [blame]

810

if (N->isLeaf()) {

811

// If this is a leaf, register or nonterminal reference...

812

std::string SlotName = Pattern::getSlotName(N->getValueRecord());

813

OS << " ReducedValue_" << SlotName << " *" << Name << "Val = Reduce_"

814

<< SlotName << "(" << Name << ", MBB);\n";

815

Operands.push_back(std::make_pair(N, Name+"Val"));

816

} else if (N->getNumChildren() == 0) {

817

// This is a reference to a leaf tree node, like an immediate or frame

818

// index.

819

if (N->getType() != MVT::isVoid) {

820

std::string SlotName =

821

getNodeName(N->getOperator()) + "_" + getName(N->getType());

822

OS << " ReducedValue_" << SlotName << " *" << Name << "Val = "

823

<< Name << "->getValue<ReducedValue_" << SlotName << ">(ISD::"

824

<< SlotName << "_Slot);\n";

825

Operands.push_back(std::make_pair(N, Name+"Val"));

826

}

827

} else {

828

// Otherwise this is an interior node...

Chris Lattner

2003-08-10 20:34:13 +0000

[diff] [blame]

829

for (unsigned i = 0, e = N->getNumChildren(); i != e; ++i) {

830

std::string ChildName = Name + "_Op" + utostr(i);

831

OS << " SelectionDAGNode *" << ChildName << " = " << Name

832

<< "->getUse(" << i << ");\n";

833

ReduceAllOperands(N->getChild(i), ChildName, Operands, OS);

834

}

Chris Lattner

2003-08-10 20:34:13 +0000

[diff] [blame]

}

}

Chris Lattner

2003-08-10 23:51:52 +0000

[diff] [blame]

838

/// PrintExpanderOperand - Print out Arg as part of the instruction emission

839

/// process for the expander pattern P. This argument may be referencing some

840

/// values defined in P, or may just be physical register references or

841

/// something like that. If PrintArg is true, we are printing out arguments to

842

/// the BuildMI call. If it is false, we are printing the result register

843

/// name.

844

void InstrSelectorEmitter::PrintExpanderOperand(Init *Arg,

845

const std::string &NameVar,

846

Record *ArgDecl,

847

Pattern *P, bool PrintArg,

848

std::ostream &OS) {

849

if (DefInit *DI = dynamic_cast<DefInit*>(Arg)) {

850

Record *Arg = DI->getDef();

851

if (Arg->isSubClassOf("Register")) {

852

// This is a physical register reference... make sure that the instruction

853

// requested a register!

854

if (!ArgDecl->isSubClassOf("RegisterClass"))

855

P->error("Argument mismatch for instruction pattern!");

856

857

// FIXME: This should check to see if the register is in the specified

858

// register class!

859

if (PrintArg) OS << ".addReg(";

860

OS << getQualifiedName(Arg);

861

if (PrintArg) OS << ")";

862

return;

863

} else if (Arg->isSubClassOf("RegisterClass")) {

864

// If this is a symbolic register class reference, we must be using a

865

// named value.

866

if (NameVar.empty()) P->error("Did not specify WHICH register to pass!");

867

if (Arg != ArgDecl) P->error("Instruction pattern mismatch!");

868

869

if (PrintArg) OS << ".addReg(";

870

OS << NameVar;

871

if (PrintArg) OS << ")";

872

return;

873

}

874

P->error("Unknown operand type '" + Arg->getName() + "' to expander!");

875

}

876

P->error("Unknown operand type to expander!");

877

}

878

879

static std::string getArgName(Pattern *P, const std::string &ArgName,

880

const std::vector<std::pair<TreePatternNode*, std::string> > &Operands) {

881

assert(P->getNumArgs() == Operands.size() &&"Argument computation mismatch!");

882

if (ArgName.empty()) return "";

883

884

for (unsigned i = 0, e = P->getNumArgs(); i != e; ++i)

885

if (P->getArgName(i) == ArgName)

886

return Operands[i].second + "->Val";

887

P->error("Pattern does not define a value named $" + ArgName + "!");

return "";

}

Chris Lattner

2003-08-06 05:42:05 +0000

[diff] [blame]

892

void InstrSelectorEmitter::run(std::ostream &OS) {

893

// Type-check all of the node types to ensure we "understand" them.

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

894

ReadNodeTypes();

Chris Lattner

2003-08-06 05:42:05 +0000

[diff] [blame]

895

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

896

// Read in all of the nonterminals, instructions, and expanders...

897

ReadNonterminals();

898

ReadInstructionPatterns();

899

ReadExpanderPatterns();

Chris Lattner

2003-08-07 05:40:14 +0000

[diff] [blame]

900

Chris Lattner

2003-08-07 20:42:23 +0000

[diff] [blame]

901

// Instantiate any unresolved nonterminals with information from the context

902

// that they are used in.

903

InstantiateNonterminals();

Chris Lattner

2003-08-07 23:16:20 +0000

[diff] [blame]

904

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

905

// Clear InstantiatedNTs, we don't need it anymore...

906

InstantiatedNTs.clear();

Chris Lattner

2003-08-07 23:16:20 +0000

[diff] [blame]

907

Misha Brukman

91f2e9a

2003-08-11 15:16:12 +0000

[diff] [blame^]

908

DEBUG(std::cerr << "Patterns acquired:\n");

Chris Lattner

2003-08-07 23:16:20 +0000

[diff] [blame]

909

for (std::map<Record*, Pattern*>::iterator I = Patterns.begin(),

910

E = Patterns.end(); I != E; ++I)

911

if (I->second->isResolved())

Misha Brukman

91f2e9a

2003-08-11 15:16:12 +0000

[diff] [blame^]

912

DEBUG(std::cerr << " " << *I->second << "\n");

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

913

914

CalculateComputableValues();

915

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

916

EmitSourceFileHeader("Instruction Selector for the " + Target.getName() +

917

" target", OS);

Chris Lattner

2003-08-10 21:54:43 +0000

[diff] [blame]

918

OS << "#include \"llvm/CodeGen/MachineInstrBuilder.h\"\n";

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

919

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

920

// Output the slot number enums...

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

921

OS << "\nenum { // Slot numbers...\n"

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

922

<< " LastBuiltinSlot = ISD::NumBuiltinSlots-1, // Start numbering here\n";

923

for (PatternOrganizer::iterator I = ComputableValues.begin(),

924

E = ComputableValues.end(); I != E; ++I)

925

OS << " " << I->first << "_Slot,\n";

926

OS << " NumSlots\n};\n\n// Reduction value typedefs...\n";

927

928

// Output the reduction value typedefs...

929

for (PatternOrganizer::iterator I = ComputableValues.begin(),

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

930

E = ComputableValues.end(); I != E; ++I) {

931

932

OS << "typedef ReducedValue<unsigned, " << I->first

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

933

<< "_Slot> ReducedValue_" << I->first << ";\n";

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

934

}

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

935

936

// Output the pattern enums...

937

OS << "\n\n"

938

<< "enum { // Patterns...\n"

939

<< " NotComputed = 0,\n"

940

<< " NoMatchPattern, \n";

941

for (PatternOrganizer::iterator I = ComputableValues.begin(),

942

E = ComputableValues.end(); I != E; ++I) {

943

OS << " // " << I->first << " patterns...\n";

944

for (PatternOrganizer::NodesForSlot::iterator J = I->second.begin(),

945

E = I->second.end(); J != E; ++J)

946

for (unsigned i = 0, e = J->second.size(); i != e; ++i)

947

OS << " " << J->second[i]->getRecord()->getName() << "_Pattern,\n";

}

OS << "};\n\n";

Chris Lattner

2003-08-10 20:34:13 +0000

[diff] [blame]

951

//===--------------------------------------------------------------------===//

952

// Emit the class definition...

953

//

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

954

OS << "namespace {\n"

955

<< " class " << Target.getName() << "ISel {\n"

956

<< " SelectionDAG &DAG;\n"

957

<< " public:\n"

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

958

<< " X86ISel(SelectionDAG &D) : DAG(D) {}\n"

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

959

<< " void generateCode();\n"

960

<< " private:\n"

961

<< " unsigned makeAnotherReg(const TargetRegisterClass *RC) {\n"

962

<< " return DAG.getMachineFunction().getSSARegMap()->createVirt"

963

"ualRegister(RC);\n"

964

<< " }\n\n"

965

<< " // DAG matching methods for classes... all of these methods"

966

" return the cost\n"

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

967

<< " // of producing a value of the specified class and type, which"

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

968

" also gets\n"

969

<< " // added to the DAG node.\n";

970

971

// Output all of the matching prototypes for slots...

972

for (PatternOrganizer::iterator I = ComputableValues.begin(),

973

E = ComputableValues.end(); I != E; ++I)

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

974

OS << " unsigned Match_" << I->first << "(SelectionDAGNode *N);\n";

975

OS << "\n // DAG matching methods for DAG nodes...\n";

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

976

977

// Output all of the matching prototypes for slot/node pairs

978

for (PatternOrganizer::iterator I = ComputableValues.begin(),

979

E = ComputableValues.end(); I != E; ++I)

980

for (PatternOrganizer::NodesForSlot::iterator J = I->second.begin(),

981

E = I->second.end(); J != E; ++J)

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

982

OS << " unsigned Match_" << I->first << "_" << getNodeName(J->first)

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

983

<< "(SelectionDAGNode *N);\n";

984

985

// Output all of the dag reduction methods prototypes...

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

986

OS << "\n // DAG reduction methods...\n";

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

987

for (PatternOrganizer::iterator I = ComputableValues.begin(),

988

E = ComputableValues.end(); I != E; ++I)

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

989

OS << " ReducedValue_" << I->first << " *Reduce_" << I->first

990

<< "(SelectionDAGNode *N,\n" << std::string(27+2*I->first.size(), ' ')

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

991

<< "MachineBasicBlock *MBB);\n";

992

OS << " };\n}\n\n";

993

Chris Lattner

2003-08-10 20:34:13 +0000

[diff] [blame]

994

// Emit the generateCode entry-point...

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

995

OS << "void X86ISel::generateCode() {\n"

996

<< " SelectionDAGNode *Root = DAG.getRoot();\n"

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

997

<< " assert(Root->getValueType() == MVT::isVoid && "

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

998

"\"Root of DAG produces value??\");\n\n"

999

<< " std::cerr << \"\\n\";\n"

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

1000

<< " unsigned Cost = Match_Void_void(Root);\n"

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

1001

<< " if (Cost >= ~0U >> 1) {\n"

1002

<< " std::cerr << \"Match failed!\\n\";\n"

1003

<< " Root->dump();\n"

1004

<< " abort();\n"

1005

<< " }\n\n"

1006

<< " std::cerr << \"Total DAG Cost: \" << Cost << \"\\n\\n\";\n\n"

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

1007

<< " Reduce_Void_void(Root, 0);\n"

Chris Lattner

2003-08-08 16:30:10 +0000

[diff] [blame]

1008

<< "}\n\n"

1009

<< "//===" << std::string(70, '-') << "===//\n"

1010

<< "// Matching methods...\n"

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

1011

<< "//\n\n";

1012

Chris Lattner

2003-08-10 20:34:13 +0000

[diff] [blame]

1013

//===--------------------------------------------------------------------===//

1014

// Emit all of the matcher methods...

1015

//

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

1016

for (PatternOrganizer::iterator I = ComputableValues.begin(),

1017

E = ComputableValues.end(); I != E; ++I) {

1018

const std::string &SlotName = I->first;

1019

OS << "unsigned " << Target.getName() << "ISel::Match_" << SlotName

1020

<< "(SelectionDAGNode *N) {\n"

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

1021

<< " assert(N->getValueType() == MVT::"

1022

<< getEnumName((*I->second.begin()).second[0]->getTree()->getType())

1023

<< ");\n" << " // If we already have a cost available for " << SlotName

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

1024

<< " use it!\n"

1025

<< " if (N->getPatternFor(" << SlotName << "_Slot))\n"

1026

<< " return N->getCostFor(" << SlotName << "_Slot);\n\n"

1027

<< " unsigned Cost;\n"

1028

<< " switch (N->getNodeType()) {\n"

1029

<< " default: assert(0 && \"Unhandled node type for " << SlotName

1030

<< "!\");\n";

1031

1032

for (PatternOrganizer::NodesForSlot::iterator J = I->second.begin(),

1033

E = I->second.end(); J != E; ++J)

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

1034

if (!J->first->isSubClassOf("Nonterminal"))

1035

OS << " case ISD::" << getNodeName(J->first) << ":\tCost = Match_"

1036

<< SlotName << "_" << getNodeName(J->first) << "(N); break;\n";

1037

OS << " }\n"; // End of the switch statement

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

1038

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

1039

// Emit any patterns which have a nonterminal leaf as the RHS. These may

1040

// match multiple root nodes, so they cannot be handled with the switch...

1041

for (PatternOrganizer::NodesForSlot::iterator J = I->second.begin(),

1042

E = I->second.end(); J != E; ++J)

1043

if (J->first->isSubClassOf("Nonterminal")) {

1044

OS << " unsigned " << J->first->getName() << "_Cost = Match_"

1045

<< getNodeName(J->first) << "(N);\n"

1046

<< " if (" << getNodeName(J->first) << "_Cost < Cost) Cost = "

1047

<< getNodeName(J->first) << "_Cost;\n";

1048

}

1049

1050

OS << " return Cost;\n}\n\n";

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

1051

1052

for (PatternOrganizer::NodesForSlot::iterator J = I->second.begin(),

1053

E = I->second.end(); J != E; ++J) {

1054

Record *Operator = J->first;

Chris Lattner

2003-08-10 19:50:51 +0000

[diff] [blame]

1055

bool isNonterm = Operator->isSubClassOf("Nonterminal");

1056

if (!isNonterm) {

1057

OS << "unsigned " << Target.getName() << "ISel::Match_";

1058

if (!isNonterm) OS << SlotName << "_";

1059

OS << getNodeName(Operator) << "(SelectionDAGNode *N) {\n"

1060

<< " unsigned Pattern = NoMatchPattern;\n"

1061

<< " unsigned MinCost = ~0U >> 1;\n";

1062

1063

std::vector<std::pair<Pattern*, TreePatternNode*> > Patterns;

1064

for (unsigned i = 0, e = J->second.size(); i != e; ++i)

1065

Patterns.push_back(std::make_pair(J->second[i],

1066

J->second[i]->getTree()));

1067

EmitMatchCosters(OS, Patterns, "N", 2);

1068

1069

OS << "\n N->setPatternCostFor(" << SlotName

1070

<< "_Slot, Pattern, MinCost, NumSlots);\n"

1071

<< " return MinCost;\n"

1072

<< "}\n";

1073

}

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

1074

}

Chris Lattner

2003-08-08 22:29:23 +0000

[diff] [blame]

1075

}

Chris Lattner

2003-08-10 20:34:13 +0000

[diff] [blame]

1076

1077

//===--------------------------------------------------------------------===//

1078

// Emit all of the reducer methods...

1079

//

1080

OS << "\n\n//===" << std::string(70, '-') << "===//\n"

1081

<< "// Reducer methods...\n"

1082

<< "//\n";

1083

1084

for (PatternOrganizer::iterator I = ComputableValues.begin(),

1085

E = ComputableValues.end(); I != E; ++I) {

1086

const std::string &SlotName = I->first;

1087

OS << "ReducedValue_" << SlotName << " *" << Target.getName()

1088

<< "ISel::Reduce_" << SlotName

1089

<< "(SelectionDAGNode *N, MachineBasicBlock *MBB) {\n"

1090

<< " ReducedValue_" << SlotName << " *Val = N->hasValue<ReducedValue_"

1091

<< SlotName << ">(" << SlotName << "_Slot);\n"

1092

<< " if (Val) return Val;\n"

1093

<< " if (N->getBB()) MBB = N->getBB();\n\n"

1094

<< " switch (N->getPatternFor(" << SlotName << "_Slot)) {\n";

1095

1096

// Loop over all of the patterns that can produce a value for this slot...

1097

PatternOrganizer::NodesForSlot &NodesForSlot = I->second;

1098

for (PatternOrganizer::NodesForSlot::iterator J = NodesForSlot.begin(),

1099

E = NodesForSlot.end(); J != E; ++J)

1100

for (unsigned i = 0, e = J->second.size(); i != e; ++i) {

1101

Pattern *P = J->second[i];

1102

OS << " case " << P->getRecord()->getName() << "_Pattern: {\n"

1103

<< " // " << *P << "\n";

1104

// Loop over the operands, reducing them...

1105

std::vector<std::pair<TreePatternNode*, std::string> > Operands;

1106

ReduceAllOperands(P->getTree(), "N", Operands, OS);

1107

Chris Lattner

2003-08-10 21:54:43 +0000

[diff] [blame]

1108

// Now that we have reduced all of our operands, and have the values

1109

// that reduction produces, perform the reduction action for this

// pattern.

std::string Result;

// If the pattern produces a register result, generate a new register

1114

// now.

1115

if (Record *R = P->getResult()) {

1116

assert(R->isSubClassOf("RegisterClass") &&

1117

"Only handle register class results so far!");

1118

OS << " unsigned NewReg = makeAnotherReg(" << Target.getName()

1119

<< "::" << R->getName() << "RegisterClass);\n";

1120

Result = "NewReg";

1121

DEBUG(OS << " std::cerr << \"%reg\" << NewReg << \" =\t\";\n");

1122

} else {

1123

DEBUG(OS << " std::cerr << \"\t\t\";\n");

Result = "0";

}

// Print out the pattern that matched...

1128

DEBUG(OS << " std::cerr << \" " << P->getRecord()->getName() <<'"');

1129

DEBUG(for (unsigned i = 0, e = Operands.size(); i != e; ++i)

1130

if (Operands[i].first->isLeaf()) {

1131

Record *RV = Operands[i].first->getValueRecord();

1132

assert(RV->isSubClassOf("RegisterClass") &&

1133

"Only handles registers here so far!");

1134

OS << " << \" %reg\" << " << Operands[i].second

1135

<< "->Val";

1136

} else {

1137

OS << " << ' ' << " << Operands[i].second

1138

<< "->Val";

1139

});

1140

DEBUG(OS << " << \"\\n\";\n");

Chris Lattner

2003-08-10 20:34:13 +0000

[diff] [blame]

1141

Chris Lattner

2003-08-10 21:54:43 +0000

[diff] [blame]

1142

// Generate the reduction code appropriate to the particular type of

1143

// pattern that this is...

1144

switch (P->getPatternType()) {

1145

case Pattern::Instruction:

Chris Lattner

2003-08-10 23:51:52 +0000

[diff] [blame]

1146

// Instruction patterns just emit a single MachineInstr, using BuildMI

Chris Lattner

2003-08-10 21:54:43 +0000

[diff] [blame]

1147

OS << " BuildMI(MBB, " << Target.getName() << "::"

1148

<< P->getRecord()->getName() << ", " << Operands.size();

1149

if (P->getResult()) OS << ", NewReg";

1150

OS << ")";

1151

1152

for (unsigned i = 0, e = Operands.size(); i != e; ++i)

1153

if (Operands[i].first->isLeaf()) {

1154

Record *RV = Operands[i].first->getValueRecord();

1155

assert(RV->isSubClassOf("RegisterClass") &&

1156

"Only handles registers here so far!");

1157

OS << ".addReg(" << Operands[i].second << "->Val)";

1158

} else {

1159

OS << ".addZImm(" << Operands[i].second << "->Val)";

1160

}

1161

OS << ";\n";

Chris Lattner

2003-08-10 23:51:52 +0000

[diff] [blame]

1162

break;

1163

case Pattern::Expander: {

1164

// Expander patterns emit one machine instr for each instruction in

1165

// the list of instructions expanded to.

1166

ListInit *Insts = P->getRecord()->getValueAsListInit("Result");

1167

for (unsigned IN = 0, e = Insts->getSize(); IN != e; ++IN) {

1168

DagInit *DIInst = dynamic_cast<DagInit*>(Insts->getElement(IN));

1169

if (!DIInst) P->error("Result list must contain instructions!");

1170

Pattern *InstPat = getPattern(DIInst->getNodeType());

1171

if (!InstPat || InstPat->getPatternType() != Pattern::Instruction)

1172

P->error("Instruction list must contain Instruction patterns!");

1173

1174

bool hasResult = InstPat->getResult() != 0;

1175

if (InstPat->getNumArgs() != DIInst->getNumArgs()-hasResult) {

1176

P->error("Incorrect number of arguments specified for inst '" +

1177

InstPat->getRecord()->getName() + "' in result list!");

1178

}

Chris Lattner

2003-08-10 21:54:43 +0000

[diff] [blame]

1179

Chris Lattner

2003-08-10 23:51:52 +0000

[diff] [blame]

1180

// Start emission of the instruction...

1181

OS << " BuildMI(MBB, " << Target.getName() << "::"

1182

<< InstPat->getRecord()->getName() << ", "

1183

<< DIInst->getNumArgs()-hasResult;

1184

// Emit register result if necessary..

1185

if (Record *R = InstPat->getResult()) {

1186

std::string ArgNameVal =

1187

getArgName(P, DIInst->getArgName(0), Operands);

1188

PrintExpanderOperand(DIInst->getArg(0), ArgNameVal,

1189

R, P, false, OS << ", ");

}

OS << ")";

for (unsigned i = hasResult, e = DIInst->getNumArgs(); i != e; ++i){

1194

std::string ArgNameVal =

1195

getArgName(P, DIInst->getArgName(i), Operands);

1196

1197

PrintExpanderOperand(DIInst->getArg(i), ArgNameVal,

1198

InstPat->getArgRec(i-hasResult), P, true, OS);

}

OS << ";\n";

}

Chris Lattner

2003-08-10 21:54:43 +0000

[diff] [blame]

1203

break;

Chris Lattner

2003-08-10 23:51:52 +0000

[diff] [blame]

1204

}

Chris Lattner

2003-08-10 21:54:43 +0000

[diff] [blame]

1205

default:

1206

assert(0 && "Reduction of this type of pattern not implemented!");

1207

}

1208

1209

OS << " Val = new ReducedValue_" << SlotName << "(" << Result<<");\n"

Chris Lattner

2003-08-10 20:34:13 +0000

[diff] [blame]

<< " break;\n"

<< " }\n";

}

OS << " default: assert(0 && \"Unknown " << SlotName << " pattern!\");\n"

1216

<< " }\n\n N->addValue(Val); // Do not ever recalculate this\n"

1217

<< " return Val;\n}\n\n";

1218

}

Chris Lattner

2003-08-06 05:42:05 +0000

[diff] [blame]

1219

}

Chris Lattner