1 //===-- llvm/CodeGen/SelectionDAGNodes.h - SelectionDAG Nodes ---*- C++ -*-===//
3 // The LLVM Compiler Infrastructure
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
8 //===----------------------------------------------------------------------===//
10 // This file declares the SDNode class and derived classes, which are used to
11 // represent the nodes and operations present in a SelectionDAG. These nodes
12 // and operations are machine code level operations, with some similarities to
13 // the GCC RTL representation.
15 // Clients should include the SelectionDAG.h file instead of this file directly.
17 //===----------------------------------------------------------------------===//
19 #ifndef LLVM_CODEGEN_SELECTIONDAGNODES_H
20 #define LLVM_CODEGEN_SELECTIONDAGNODES_H
22 #include "llvm/Constants.h"
23 #include "llvm/ADT/FoldingSet.h"
24 #include "llvm/ADT/GraphTraits.h"
25 #include "llvm/ADT/ilist_node.h"
26 #include "llvm/ADT/SmallVector.h"
27 #include "llvm/ADT/STLExtras.h"
28 #include "llvm/CodeGen/ISDOpcodes.h"
29 #include "llvm/CodeGen/ValueTypes.h"
30 #include "llvm/CodeGen/MachineMemOperand.h"
31 #include "llvm/Support/MathExtras.h"
32 #include "llvm/System/DataTypes.h"
33 #include "llvm/Support/DebugLoc.h"
40 class MachineBasicBlock;
41 class MachineConstantPoolValue;
45 template <typename T> struct DenseMapInfo;
46 template <typename T> struct simplify_type;
47 template <typename T> struct ilist_traits;
49 void checkForCycles(const SDNode *N);
51 /// SDVTList - This represents a list of ValueType's that has been intern'd by
52 /// a SelectionDAG. Instances of this simple value class are returned by
53 /// SelectionDAG::getVTList(...).
63 /// isBuildVectorAllOnes - Return true if the specified node is a
64 /// BUILD_VECTOR where all of the elements are ~0 or undef.
65 bool isBuildVectorAllOnes(const SDNode *N);
67 /// isBuildVectorAllZeros - Return true if the specified node is a
68 /// BUILD_VECTOR where all of the elements are 0 or undef.
69 bool isBuildVectorAllZeros(const SDNode *N);
71 /// isScalarToVector - Return true if the specified node is a
72 /// ISD::SCALAR_TO_VECTOR node or a BUILD_VECTOR node where only the low
73 /// element is not an undef.
74 bool isScalarToVector(const SDNode *N);
75 } // end llvm:ISD namespace
77 //===----------------------------------------------------------------------===//
78 /// SDValue - Unlike LLVM values, Selection DAG nodes may return multiple
79 /// values as the result of a computation. Many nodes return multiple values,
80 /// from loads (which define a token and a return value) to ADDC (which returns
81 /// a result and a carry value), to calls (which may return an arbitrary number
84 /// As such, each use of a SelectionDAG computation must indicate the node that
85 /// computes it as well as which return value to use from that node. This pair
86 /// of information is represented with the SDValue value type.
89 SDNode *Node; // The node defining the value we are using.
90 unsigned ResNo; // Which return value of the node we are using.
92 SDValue() : Node(0), ResNo(0) {}
93 SDValue(SDNode *node, unsigned resno) : Node(node), ResNo(resno) {}
95 /// get the index which selects a specific result in the SDNode
96 unsigned getResNo() const { return ResNo; }
98 /// get the SDNode which holds the desired result
99 SDNode *getNode() const { return Node; }
102 void setNode(SDNode *N) { Node = N; }
104 inline SDNode *operator->() const { return Node; }
106 bool operator==(const SDValue &O) const {
107 return Node == O.Node && ResNo == O.ResNo;
109 bool operator!=(const SDValue &O) const {
110 return !operator==(O);
112 bool operator<(const SDValue &O) const {
113 return Node < O.Node || (Node == O.Node && ResNo < O.ResNo);
116 SDValue getValue(unsigned R) const {
117 return SDValue(Node, R);
120 // isOperandOf - Return true if this node is an operand of N.
121 bool isOperandOf(SDNode *N) const;
123 /// getValueType - Return the ValueType of the referenced return value.
125 inline EVT getValueType() const;
127 /// getValueSizeInBits - Returns the size of the value in bits.
129 unsigned getValueSizeInBits() const {
130 return getValueType().getSizeInBits();
133 // Forwarding methods - These forward to the corresponding methods in SDNode.
134 inline unsigned getOpcode() const;
135 inline unsigned getNumOperands() const;
136 inline const SDValue &getOperand(unsigned i) const;
137 inline uint64_t getConstantOperandVal(unsigned i) const;
138 inline bool isTargetMemoryOpcode() const;
139 inline bool isTargetOpcode() const;
140 inline bool isMachineOpcode() const;
141 inline unsigned getMachineOpcode() const;
142 inline const DebugLoc getDebugLoc() const;
145 /// reachesChainWithoutSideEffects - Return true if this operand (which must
146 /// be a chain) reaches the specified operand without crossing any
147 /// side-effecting instructions. In practice, this looks through token
148 /// factors and non-volatile loads. In order to remain efficient, this only
149 /// looks a couple of nodes in, it does not do an exhaustive search.
150 bool reachesChainWithoutSideEffects(SDValue Dest,
151 unsigned Depth = 2) const;
153 /// use_empty - Return true if there are no nodes using value ResNo
156 inline bool use_empty() const;
158 /// hasOneUse - Return true if there is exactly one node using value
161 inline bool hasOneUse() const;
165 template<> struct DenseMapInfo<SDValue> {
166 static inline SDValue getEmptyKey() {
167 return SDValue((SDNode*)-1, -1U);
169 static inline SDValue getTombstoneKey() {
170 return SDValue((SDNode*)-1, 0);
172 static unsigned getHashValue(const SDValue &Val) {
173 return ((unsigned)((uintptr_t)Val.getNode() >> 4) ^
174 (unsigned)((uintptr_t)Val.getNode() >> 9)) + Val.getResNo();
176 static bool isEqual(const SDValue &LHS, const SDValue &RHS) {
180 template <> struct isPodLike<SDValue> { static const bool value = true; };
183 /// simplify_type specializations - Allow casting operators to work directly on
184 /// SDValues as if they were SDNode*'s.
185 template<> struct simplify_type<SDValue> {
186 typedef SDNode* SimpleType;
187 static SimpleType getSimplifiedValue(const SDValue &Val) {
188 return static_cast<SimpleType>(Val.getNode());
191 template<> struct simplify_type<const SDValue> {
192 typedef SDNode* SimpleType;
193 static SimpleType getSimplifiedValue(const SDValue &Val) {
194 return static_cast<SimpleType>(Val.getNode());
198 /// SDUse - Represents a use of a SDNode. This class holds an SDValue,
199 /// which records the SDNode being used and the result number, a
200 /// pointer to the SDNode using the value, and Next and Prev pointers,
201 /// which link together all the uses of an SDNode.
204 /// Val - The value being used.
206 /// User - The user of this value.
208 /// Prev, Next - Pointers to the uses list of the SDNode referred by
212 SDUse(const SDUse &U); // Do not implement
213 void operator=(const SDUse &U); // Do not implement
216 SDUse() : Val(), User(NULL), Prev(NULL), Next(NULL) {}
218 /// Normally SDUse will just implicitly convert to an SDValue that it holds.
219 operator const SDValue&() const { return Val; }
221 /// If implicit conversion to SDValue doesn't work, the get() method returns
223 const SDValue &get() const { return Val; }
225 /// getUser - This returns the SDNode that contains this Use.
226 SDNode *getUser() { return User; }
228 /// getNext - Get the next SDUse in the use list.
229 SDUse *getNext() const { return Next; }
231 /// getNode - Convenience function for get().getNode().
232 SDNode *getNode() const { return Val.getNode(); }
233 /// getResNo - Convenience function for get().getResNo().
234 unsigned getResNo() const { return Val.getResNo(); }
235 /// getValueType - Convenience function for get().getValueType().
236 EVT getValueType() const { return Val.getValueType(); }
238 /// operator== - Convenience function for get().operator==
239 bool operator==(const SDValue &V) const {
243 /// operator!= - Convenience function for get().operator!=
244 bool operator!=(const SDValue &V) const {
248 /// operator< - Convenience function for get().operator<
249 bool operator<(const SDValue &V) const {
254 friend class SelectionDAG;
257 void setUser(SDNode *p) { User = p; }
259 /// set - Remove this use from its existing use list, assign it the
260 /// given value, and add it to the new value's node's use list.
261 inline void set(const SDValue &V);
262 /// setInitial - like set, but only supports initializing a newly-allocated
263 /// SDUse with a non-null value.
264 inline void setInitial(const SDValue &V);
265 /// setNode - like set, but only sets the Node portion of the value,
266 /// leaving the ResNo portion unmodified.
267 inline void setNode(SDNode *N);
269 void addToList(SDUse **List) {
271 if (Next) Next->Prev = &Next;
276 void removeFromList() {
278 if (Next) Next->Prev = Prev;
282 /// simplify_type specializations - Allow casting operators to work directly on
283 /// SDValues as if they were SDNode*'s.
284 template<> struct simplify_type<SDUse> {
285 typedef SDNode* SimpleType;
286 static SimpleType getSimplifiedValue(const SDUse &Val) {
287 return static_cast<SimpleType>(Val.getNode());
290 template<> struct simplify_type<const SDUse> {
291 typedef SDNode* SimpleType;
292 static SimpleType getSimplifiedValue(const SDUse &Val) {
293 return static_cast<SimpleType>(Val.getNode());
298 /// SDNode - Represents one node in the SelectionDAG.
300 class SDNode : public FoldingSetNode, public ilist_node<SDNode> {
302 /// NodeType - The operation that this node performs.
306 /// OperandsNeedDelete - This is true if OperandList was new[]'d. If true,
307 /// then they will be delete[]'d when the node is destroyed.
308 uint16_t OperandsNeedDelete : 1;
310 /// HasDebugValue - This tracks whether this node has one or more dbg_value
311 /// nodes corresponding to it.
312 uint16_t HasDebugValue : 1;
315 /// SubclassData - This member is defined by this class, but is not used for
316 /// anything. Subclasses can use it to hold whatever state they find useful.
317 /// This field is initialized to zero by the ctor.
318 uint16_t SubclassData : 14;
321 /// NodeId - Unique id per SDNode in the DAG.
324 /// OperandList - The values that are used by this operation.
328 /// ValueList - The types of the values this node defines. SDNode's may
329 /// define multiple values simultaneously.
330 const EVT *ValueList;
332 /// UseList - List of uses for this SDNode.
335 /// NumOperands/NumValues - The number of entries in the Operand/Value list.
336 unsigned short NumOperands, NumValues;
338 /// debugLoc - source line information.
341 /// getValueTypeList - Return a pointer to the specified value type.
342 static const EVT *getValueTypeList(EVT VT);
344 friend class SelectionDAG;
345 friend struct ilist_traits<SDNode>;
348 //===--------------------------------------------------------------------===//
352 /// getOpcode - Return the SelectionDAG opcode value for this node. For
353 /// pre-isel nodes (those for which isMachineOpcode returns false), these
354 /// are the opcode values in the ISD and <target>ISD namespaces. For
355 /// post-isel opcodes, see getMachineOpcode.
356 unsigned getOpcode() const { return (unsigned short)NodeType; }
358 /// isTargetOpcode - Test if this node has a target-specific opcode (in the
359 /// \<target\>ISD namespace).
360 bool isTargetOpcode() const { return NodeType >= ISD::BUILTIN_OP_END; }
362 /// isTargetMemoryOpcode - Test if this node has a target-specific
363 /// memory-referencing opcode (in the \<target\>ISD namespace and
364 /// greater than FIRST_TARGET_MEMORY_OPCODE).
365 bool isTargetMemoryOpcode() const {
366 return NodeType >= ISD::FIRST_TARGET_MEMORY_OPCODE;
369 /// isMachineOpcode - Test if this node has a post-isel opcode, directly
370 /// corresponding to a MachineInstr opcode.
371 bool isMachineOpcode() const { return NodeType < 0; }
373 /// getMachineOpcode - This may only be called if isMachineOpcode returns
374 /// true. It returns the MachineInstr opcode value that the node's opcode
376 unsigned getMachineOpcode() const {
377 assert(isMachineOpcode() && "Not a MachineInstr opcode!");
381 /// getHasDebugValue - get this bit.
382 bool getHasDebugValue() const { return HasDebugValue; }
384 /// setHasDebugValue - set this bit.
385 void setHasDebugValue(bool b) { HasDebugValue = b; }
387 /// use_empty - Return true if there are no uses of this node.
389 bool use_empty() const { return UseList == NULL; }
391 /// hasOneUse - Return true if there is exactly one use of this node.
393 bool hasOneUse() const {
394 return !use_empty() && llvm::next(use_begin()) == use_end();
397 /// use_size - Return the number of uses of this node. This method takes
398 /// time proportional to the number of uses.
400 size_t use_size() const { return std::distance(use_begin(), use_end()); }
402 /// getNodeId - Return the unique node id.
404 int getNodeId() const { return NodeId; }
406 /// setNodeId - Set unique node id.
407 void setNodeId(int Id) { NodeId = Id; }
409 /// getDebugLoc - Return the source location info.
410 const DebugLoc getDebugLoc() const { return debugLoc; }
412 /// setDebugLoc - Set source location info. Try to avoid this, putting
413 /// it in the constructor is preferable.
414 void setDebugLoc(const DebugLoc dl) { debugLoc = dl; }
416 /// use_iterator - This class provides iterator support for SDUse
417 /// operands that use a specific SDNode.
419 : public std::iterator<std::forward_iterator_tag, SDUse, ptrdiff_t> {
421 explicit use_iterator(SDUse *op) : Op(op) {
425 typedef std::iterator<std::forward_iterator_tag,
426 SDUse, ptrdiff_t>::reference reference;
427 typedef std::iterator<std::forward_iterator_tag,
428 SDUse, ptrdiff_t>::pointer pointer;
430 use_iterator(const use_iterator &I) : Op(I.Op) {}
431 use_iterator() : Op(0) {}
433 bool operator==(const use_iterator &x) const {
436 bool operator!=(const use_iterator &x) const {
437 return !operator==(x);
440 /// atEnd - return true if this iterator is at the end of uses list.
441 bool atEnd() const { return Op == 0; }
443 // Iterator traversal: forward iteration only.
444 use_iterator &operator++() { // Preincrement
445 assert(Op && "Cannot increment end iterator!");
450 use_iterator operator++(int) { // Postincrement
451 use_iterator tmp = *this; ++*this; return tmp;
454 /// Retrieve a pointer to the current user node.
455 SDNode *operator*() const {
456 assert(Op && "Cannot dereference end iterator!");
457 return Op->getUser();
460 SDNode *operator->() const { return operator*(); }
462 SDUse &getUse() const { return *Op; }
464 /// getOperandNo - Retrieve the operand # of this use in its user.
466 unsigned getOperandNo() const {
467 assert(Op && "Cannot dereference end iterator!");
468 return (unsigned)(Op - Op->getUser()->OperandList);
472 /// use_begin/use_end - Provide iteration support to walk over all uses
475 use_iterator use_begin() const {
476 return use_iterator(UseList);
479 static use_iterator use_end() { return use_iterator(0); }
482 /// hasNUsesOfValue - Return true if there are exactly NUSES uses of the
483 /// indicated value. This method ignores uses of other values defined by this
485 bool hasNUsesOfValue(unsigned NUses, unsigned Value) const;
487 /// hasAnyUseOfValue - Return true if there are any use of the indicated
488 /// value. This method ignores uses of other values defined by this operation.
489 bool hasAnyUseOfValue(unsigned Value) const;
491 /// isOnlyUserOf - Return true if this node is the only use of N.
493 bool isOnlyUserOf(SDNode *N) const;
495 /// isOperandOf - Return true if this node is an operand of N.
497 bool isOperandOf(SDNode *N) const;
499 /// isPredecessorOf - Return true if this node is a predecessor of N. This
500 /// node is either an operand of N or it can be reached by recursively
501 /// traversing up the operands.
502 /// NOTE: this is an expensive method. Use it carefully.
503 bool isPredecessorOf(SDNode *N) const;
505 /// getNumOperands - Return the number of values used by this operation.
507 unsigned getNumOperands() const { return NumOperands; }
509 /// getConstantOperandVal - Helper method returns the integer value of a
510 /// ConstantSDNode operand.
511 uint64_t getConstantOperandVal(unsigned Num) const;
513 const SDValue &getOperand(unsigned Num) const {
514 assert(Num < NumOperands && "Invalid child # of SDNode!");
515 return OperandList[Num];
518 typedef SDUse* op_iterator;
519 op_iterator op_begin() const { return OperandList; }
520 op_iterator op_end() const { return OperandList+NumOperands; }
522 SDVTList getVTList() const {
523 SDVTList X = { ValueList, NumValues };
527 /// getFlaggedNode - If this node has a flag operand, return the node
528 /// to which the flag operand points. Otherwise return NULL.
529 SDNode *getFlaggedNode() const {
530 if (getNumOperands() != 0 &&
531 getOperand(getNumOperands()-1).getValueType().getSimpleVT() == MVT::Flag)
532 return getOperand(getNumOperands()-1).getNode();
536 // If this is a pseudo op, like copyfromreg, look to see if there is a
537 // real target node flagged to it. If so, return the target node.
538 const SDNode *getFlaggedMachineNode() const {
539 const SDNode *FoundNode = this;
541 // Climb up flag edges until a machine-opcode node is found, or the
542 // end of the chain is reached.
543 while (!FoundNode->isMachineOpcode()) {
544 const SDNode *N = FoundNode->getFlaggedNode();
552 /// getFlaggedUser - If this node has a flag value with a user, return
553 /// the user (there is at most one). Otherwise return NULL.
554 SDNode *getFlaggedUser() const {
555 for (use_iterator UI = use_begin(), UE = use_end(); UI != UE; ++UI)
556 if (UI.getUse().get().getValueType() == MVT::Flag)
561 /// getNumValues - Return the number of values defined/returned by this
564 unsigned getNumValues() const { return NumValues; }
566 /// getValueType - Return the type of a specified result.
568 EVT getValueType(unsigned ResNo) const {
569 assert(ResNo < NumValues && "Illegal result number!");
570 return ValueList[ResNo];
573 /// getValueSizeInBits - Returns MVT::getSizeInBits(getValueType(ResNo)).
575 unsigned getValueSizeInBits(unsigned ResNo) const {
576 return getValueType(ResNo).getSizeInBits();
579 typedef const EVT* value_iterator;
580 value_iterator value_begin() const { return ValueList; }
581 value_iterator value_end() const { return ValueList+NumValues; }
583 /// getOperationName - Return the opcode of this operation for printing.
585 std::string getOperationName(const SelectionDAG *G = 0) const;
586 static const char* getIndexedModeName(ISD::MemIndexedMode AM);
587 void print_types(raw_ostream &OS, const SelectionDAG *G) const;
588 void print_details(raw_ostream &OS, const SelectionDAG *G) const;
589 void print(raw_ostream &OS, const SelectionDAG *G = 0) const;
590 void printr(raw_ostream &OS, const SelectionDAG *G = 0) const;
592 /// printrFull - Print a SelectionDAG node and all children down to
593 /// the leaves. The given SelectionDAG allows target-specific nodes
594 /// to be printed in human-readable form. Unlike printr, this will
595 /// print the whole DAG, including children that appear multiple
598 void printrFull(raw_ostream &O, const SelectionDAG *G = 0) const;
600 /// printrWithDepth - Print a SelectionDAG node and children up to
601 /// depth "depth." The given SelectionDAG allows target-specific
602 /// nodes to be printed in human-readable form. Unlike printr, this
603 /// will print children that appear multiple times wherever they are
606 void printrWithDepth(raw_ostream &O, const SelectionDAG *G = 0,
607 unsigned depth = 100) const;
610 /// dump - Dump this node, for debugging.
613 /// dumpr - Dump (recursively) this node and its use-def subgraph.
616 /// dump - Dump this node, for debugging.
617 /// The given SelectionDAG allows target-specific nodes to be printed
618 /// in human-readable form.
619 void dump(const SelectionDAG *G) const;
621 /// dumpr - Dump (recursively) this node and its use-def subgraph.
622 /// The given SelectionDAG allows target-specific nodes to be printed
623 /// in human-readable form.
624 void dumpr(const SelectionDAG *G) const;
626 /// dumprFull - printrFull to dbgs(). The given SelectionDAG allows
627 /// target-specific nodes to be printed in human-readable form.
628 /// Unlike dumpr, this will print the whole DAG, including children
629 /// that appear multiple times.
631 void dumprFull(const SelectionDAG *G = 0) const;
633 /// dumprWithDepth - printrWithDepth to dbgs(). The given
634 /// SelectionDAG allows target-specific nodes to be printed in
635 /// human-readable form. Unlike dumpr, this will print children
636 /// that appear multiple times wherever they are used.
638 void dumprWithDepth(const SelectionDAG *G = 0, unsigned depth = 100) const;
641 static bool classof(const SDNode *) { return true; }
643 /// Profile - Gather unique data for the node.
645 void Profile(FoldingSetNodeID &ID) const;
647 /// addUse - This method should only be used by the SDUse class.
649 void addUse(SDUse &U) { U.addToList(&UseList); }
652 static SDVTList getSDVTList(EVT VT) {
653 SDVTList Ret = { getValueTypeList(VT), 1 };
657 SDNode(unsigned Opc, const DebugLoc dl, SDVTList VTs, const SDValue *Ops,
659 : NodeType(Opc), OperandsNeedDelete(true), HasDebugValue(false),
660 SubclassData(0), NodeId(-1),
661 OperandList(NumOps ? new SDUse[NumOps] : 0),
662 ValueList(VTs.VTs), UseList(NULL),
663 NumOperands(NumOps), NumValues(VTs.NumVTs),
665 for (unsigned i = 0; i != NumOps; ++i) {
666 OperandList[i].setUser(this);
667 OperandList[i].setInitial(Ops[i]);
669 checkForCycles(this);
672 /// This constructor adds no operands itself; operands can be
673 /// set later with InitOperands.
674 SDNode(unsigned Opc, const DebugLoc dl, SDVTList VTs)
675 : NodeType(Opc), OperandsNeedDelete(false), HasDebugValue(false),
676 SubclassData(0), NodeId(-1), OperandList(0), ValueList(VTs.VTs),
677 UseList(NULL), NumOperands(0), NumValues(VTs.NumVTs),
680 /// InitOperands - Initialize the operands list of this with 1 operand.
681 void InitOperands(SDUse *Ops, const SDValue &Op0) {
682 Ops[0].setUser(this);
683 Ops[0].setInitial(Op0);
686 checkForCycles(this);
689 /// InitOperands - Initialize the operands list of this with 2 operands.
690 void InitOperands(SDUse *Ops, const SDValue &Op0, const SDValue &Op1) {
691 Ops[0].setUser(this);
692 Ops[0].setInitial(Op0);
693 Ops[1].setUser(this);
694 Ops[1].setInitial(Op1);
697 checkForCycles(this);
700 /// InitOperands - Initialize the operands list of this with 3 operands.
701 void InitOperands(SDUse *Ops, const SDValue &Op0, const SDValue &Op1,
702 const SDValue &Op2) {
703 Ops[0].setUser(this);
704 Ops[0].setInitial(Op0);
705 Ops[1].setUser(this);
706 Ops[1].setInitial(Op1);
707 Ops[2].setUser(this);
708 Ops[2].setInitial(Op2);
711 checkForCycles(this);
714 /// InitOperands - Initialize the operands list of this with 4 operands.
715 void InitOperands(SDUse *Ops, const SDValue &Op0, const SDValue &Op1,
716 const SDValue &Op2, const SDValue &Op3) {
717 Ops[0].setUser(this);
718 Ops[0].setInitial(Op0);
719 Ops[1].setUser(this);
720 Ops[1].setInitial(Op1);
721 Ops[2].setUser(this);
722 Ops[2].setInitial(Op2);
723 Ops[3].setUser(this);
724 Ops[3].setInitial(Op3);
727 checkForCycles(this);
730 /// InitOperands - Initialize the operands list of this with N operands.
731 void InitOperands(SDUse *Ops, const SDValue *Vals, unsigned N) {
732 for (unsigned i = 0; i != N; ++i) {
733 Ops[i].setUser(this);
734 Ops[i].setInitial(Vals[i]);
738 checkForCycles(this);
741 /// DropOperands - Release the operands and set this node to have
747 // Define inline functions from the SDValue class.
749 inline unsigned SDValue::getOpcode() const {
750 return Node->getOpcode();
752 inline EVT SDValue::getValueType() const {
753 return Node->getValueType(ResNo);
755 inline unsigned SDValue::getNumOperands() const {
756 return Node->getNumOperands();
758 inline const SDValue &SDValue::getOperand(unsigned i) const {
759 return Node->getOperand(i);
761 inline uint64_t SDValue::getConstantOperandVal(unsigned i) const {
762 return Node->getConstantOperandVal(i);
764 inline bool SDValue::isTargetOpcode() const {
765 return Node->isTargetOpcode();
767 inline bool SDValue::isTargetMemoryOpcode() const {
768 return Node->isTargetMemoryOpcode();
770 inline bool SDValue::isMachineOpcode() const {
771 return Node->isMachineOpcode();
773 inline unsigned SDValue::getMachineOpcode() const {
774 return Node->getMachineOpcode();
776 inline bool SDValue::use_empty() const {
777 return !Node->hasAnyUseOfValue(ResNo);
779 inline bool SDValue::hasOneUse() const {
780 return Node->hasNUsesOfValue(1, ResNo);
782 inline const DebugLoc SDValue::getDebugLoc() const {
783 return Node->getDebugLoc();
786 // Define inline functions from the SDUse class.
788 inline void SDUse::set(const SDValue &V) {
789 if (Val.getNode()) removeFromList();
791 if (V.getNode()) V.getNode()->addUse(*this);
794 inline void SDUse::setInitial(const SDValue &V) {
796 V.getNode()->addUse(*this);
799 inline void SDUse::setNode(SDNode *N) {
800 if (Val.getNode()) removeFromList();
802 if (N) N->addUse(*this);
805 /// UnarySDNode - This class is used for single-operand SDNodes. This is solely
806 /// to allow co-allocation of node operands with the node itself.
807 class UnarySDNode : public SDNode {
810 UnarySDNode(unsigned Opc, DebugLoc dl, SDVTList VTs, SDValue X)
811 : SDNode(Opc, dl, VTs) {
812 InitOperands(&Op, X);
816 /// BinarySDNode - This class is used for two-operand SDNodes. This is solely
817 /// to allow co-allocation of node operands with the node itself.
818 class BinarySDNode : public SDNode {
821 BinarySDNode(unsigned Opc, DebugLoc dl, SDVTList VTs, SDValue X, SDValue Y)
822 : SDNode(Opc, dl, VTs) {
823 InitOperands(Ops, X, Y);
827 /// TernarySDNode - This class is used for three-operand SDNodes. This is solely
828 /// to allow co-allocation of node operands with the node itself.
829 class TernarySDNode : public SDNode {
832 TernarySDNode(unsigned Opc, DebugLoc dl, SDVTList VTs, SDValue X, SDValue Y,
834 : SDNode(Opc, dl, VTs) {
835 InitOperands(Ops, X, Y, Z);
840 /// HandleSDNode - This class is used to form a handle around another node that
841 /// is persistant and is updated across invocations of replaceAllUsesWith on its
842 /// operand. This node should be directly created by end-users and not added to
843 /// the AllNodes list.
844 class HandleSDNode : public SDNode {
847 // FIXME: Remove the "noinline" attribute once <rdar://problem/5852746> is
849 #if __GNUC__==4 && __GNUC_MINOR__==2 && defined(__APPLE__) && !defined(__llvm__)
850 explicit __attribute__((__noinline__)) HandleSDNode(SDValue X)
852 explicit HandleSDNode(SDValue X)
854 : SDNode(ISD::HANDLENODE, DebugLoc(), getSDVTList(MVT::Other)) {
855 InitOperands(&Op, X);
858 const SDValue &getValue() const { return Op; }
861 /// Abstact virtual class for operations for memory operations
862 class MemSDNode : public SDNode {
864 // MemoryVT - VT of in-memory value.
868 /// MMO - Memory reference information.
869 MachineMemOperand *MMO;
872 MemSDNode(unsigned Opc, DebugLoc dl, SDVTList VTs, EVT MemoryVT,
873 MachineMemOperand *MMO);
875 MemSDNode(unsigned Opc, DebugLoc dl, SDVTList VTs, const SDValue *Ops,
876 unsigned NumOps, EVT MemoryVT, MachineMemOperand *MMO);
878 bool readMem() const { return MMO->isLoad(); }
879 bool writeMem() const { return MMO->isStore(); }
881 /// Returns alignment and volatility of the memory access
882 unsigned getOriginalAlignment() const {
883 return MMO->getBaseAlignment();
885 unsigned getAlignment() const {
886 return MMO->getAlignment();
889 /// getRawSubclassData - Return the SubclassData value, which contains an
890 /// encoding of the volatile flag, as well as bits used by subclasses. This
891 /// function should only be used to compute a FoldingSetNodeID value.
892 unsigned getRawSubclassData() const {
896 // We access subclass data here so that we can check consistency
897 // with MachineMemOperand information.
898 bool isVolatile() const { return (SubclassData >> 5) & 1; }
899 bool isNonTemporal() const { return (SubclassData >> 6) & 1; }
901 /// Returns the SrcValue and offset that describes the location of the access
902 const Value *getSrcValue() const { return MMO->getValue(); }
903 int64_t getSrcValueOffset() const { return MMO->getOffset(); }
905 /// Returns the TBAAInfo that describes the dereference.
906 const MDNode *getTBAAInfo() const { return MMO->getTBAAInfo(); }
908 /// getMemoryVT - Return the type of the in-memory value.
909 EVT getMemoryVT() const { return MemoryVT; }
911 /// getMemOperand - Return a MachineMemOperand object describing the memory
912 /// reference performed by operation.
913 MachineMemOperand *getMemOperand() const { return MMO; }
915 const MachinePointerInfo &getPointerInfo() const {
916 return MMO->getPointerInfo();
919 /// refineAlignment - Update this MemSDNode's MachineMemOperand information
920 /// to reflect the alignment of NewMMO, if it has a greater alignment.
921 /// This must only be used when the new alignment applies to all users of
922 /// this MachineMemOperand.
923 void refineAlignment(const MachineMemOperand *NewMMO) {
924 MMO->refineAlignment(NewMMO);
927 const SDValue &getChain() const { return getOperand(0); }
928 const SDValue &getBasePtr() const {
929 return getOperand(getOpcode() == ISD::STORE ? 2 : 1);
932 // Methods to support isa and dyn_cast
933 static bool classof(const MemSDNode *) { return true; }
934 static bool classof(const SDNode *N) {
935 // For some targets, we lower some target intrinsics to a MemIntrinsicNode
936 // with either an intrinsic or a target opcode.
937 return N->getOpcode() == ISD::LOAD ||
938 N->getOpcode() == ISD::STORE ||
939 N->getOpcode() == ISD::ATOMIC_CMP_SWAP ||
940 N->getOpcode() == ISD::ATOMIC_SWAP ||
941 N->getOpcode() == ISD::ATOMIC_LOAD_ADD ||
942 N->getOpcode() == ISD::ATOMIC_LOAD_SUB ||
943 N->getOpcode() == ISD::ATOMIC_LOAD_AND ||
944 N->getOpcode() == ISD::ATOMIC_LOAD_OR ||
945 N->getOpcode() == ISD::ATOMIC_LOAD_XOR ||
946 N->getOpcode() == ISD::ATOMIC_LOAD_NAND ||
947 N->getOpcode() == ISD::ATOMIC_LOAD_MIN ||
948 N->getOpcode() == ISD::ATOMIC_LOAD_MAX ||
949 N->getOpcode() == ISD::ATOMIC_LOAD_UMIN ||
950 N->getOpcode() == ISD::ATOMIC_LOAD_UMAX ||
951 N->isTargetMemoryOpcode();
955 /// AtomicSDNode - A SDNode reprenting atomic operations.
957 class AtomicSDNode : public MemSDNode {
961 // Opc: opcode for atomic
962 // VTL: value type list
963 // Chain: memory chain for operaand
964 // Ptr: address to update as a SDValue
965 // Cmp: compare value
967 // SrcVal: address to update as a Value (used for MemOperand)
968 // Align: alignment of memory
969 AtomicSDNode(unsigned Opc, DebugLoc dl, SDVTList VTL, EVT MemVT,
970 SDValue Chain, SDValue Ptr,
971 SDValue Cmp, SDValue Swp, MachineMemOperand *MMO)
972 : MemSDNode(Opc, dl, VTL, MemVT, MMO) {
973 assert(readMem() && "Atomic MachineMemOperand is not a load!");
974 assert(writeMem() && "Atomic MachineMemOperand is not a store!");
975 InitOperands(Ops, Chain, Ptr, Cmp, Swp);
977 AtomicSDNode(unsigned Opc, DebugLoc dl, SDVTList VTL, EVT MemVT,
978 SDValue Chain, SDValue Ptr,
979 SDValue Val, MachineMemOperand *MMO)
980 : MemSDNode(Opc, dl, VTL, MemVT, MMO) {
981 assert(readMem() && "Atomic MachineMemOperand is not a load!");
982 assert(writeMem() && "Atomic MachineMemOperand is not a store!");
983 InitOperands(Ops, Chain, Ptr, Val);
986 const SDValue &getBasePtr() const { return getOperand(1); }
987 const SDValue &getVal() const { return getOperand(2); }
989 bool isCompareAndSwap() const {
990 unsigned Op = getOpcode();
991 return Op == ISD::ATOMIC_CMP_SWAP;
994 // Methods to support isa and dyn_cast
995 static bool classof(const AtomicSDNode *) { return true; }
996 static bool classof(const SDNode *N) {
997 return N->getOpcode() == ISD::ATOMIC_CMP_SWAP ||
998 N->getOpcode() == ISD::ATOMIC_SWAP ||
999 N->getOpcode() == ISD::ATOMIC_LOAD_ADD ||
1000 N->getOpcode() == ISD::ATOMIC_LOAD_SUB ||
1001 N->getOpcode() == ISD::ATOMIC_LOAD_AND ||
1002 N->getOpcode() == ISD::ATOMIC_LOAD_OR ||
1003 N->getOpcode() == ISD::ATOMIC_LOAD_XOR ||
1004 N->getOpcode() == ISD::ATOMIC_LOAD_NAND ||
1005 N->getOpcode() == ISD::ATOMIC_LOAD_MIN ||
1006 N->getOpcode() == ISD::ATOMIC_LOAD_MAX ||
1007 N->getOpcode() == ISD::ATOMIC_LOAD_UMIN ||
1008 N->getOpcode() == ISD::ATOMIC_LOAD_UMAX;
1012 /// MemIntrinsicSDNode - This SDNode is used for target intrinsics that touch
1013 /// memory and need an associated MachineMemOperand. Its opcode may be
1014 /// INTRINSIC_VOID, INTRINSIC_W_CHAIN, or a target-specific opcode with a
1015 /// value not less than FIRST_TARGET_MEMORY_OPCODE.
1016 class MemIntrinsicSDNode : public MemSDNode {
1018 MemIntrinsicSDNode(unsigned Opc, DebugLoc dl, SDVTList VTs,
1019 const SDValue *Ops, unsigned NumOps,
1020 EVT MemoryVT, MachineMemOperand *MMO)
1021 : MemSDNode(Opc, dl, VTs, Ops, NumOps, MemoryVT, MMO) {
1024 // Methods to support isa and dyn_cast
1025 static bool classof(const MemIntrinsicSDNode *) { return true; }
1026 static bool classof(const SDNode *N) {
1027 // We lower some target intrinsics to their target opcode
1028 // early a node with a target opcode can be of this class
1029 return N->getOpcode() == ISD::INTRINSIC_W_CHAIN ||
1030 N->getOpcode() == ISD::INTRINSIC_VOID ||
1031 N->isTargetMemoryOpcode();
1035 /// ShuffleVectorSDNode - This SDNode is used to implement the code generator
1036 /// support for the llvm IR shufflevector instruction. It combines elements
1037 /// from two input vectors into a new input vector, with the selection and
1038 /// ordering of elements determined by an array of integers, referred to as
1039 /// the shuffle mask. For input vectors of width N, mask indices of 0..N-1
1040 /// refer to elements from the LHS input, and indices from N to 2N-1 the RHS.
1041 /// An index of -1 is treated as undef, such that the code generator may put
1042 /// any value in the corresponding element of the result.
1043 class ShuffleVectorSDNode : public SDNode {
1046 // The memory for Mask is owned by the SelectionDAG's OperandAllocator, and
1047 // is freed when the SelectionDAG object is destroyed.
1050 friend class SelectionDAG;
1051 ShuffleVectorSDNode(EVT VT, DebugLoc dl, SDValue N1, SDValue N2,
1053 : SDNode(ISD::VECTOR_SHUFFLE, dl, getSDVTList(VT)), Mask(M) {
1054 InitOperands(Ops, N1, N2);
1058 void getMask(SmallVectorImpl<int> &M) const {
1059 EVT VT = getValueType(0);
1061 for (unsigned i = 0, e = VT.getVectorNumElements(); i != e; ++i)
1062 M.push_back(Mask[i]);
1064 int getMaskElt(unsigned Idx) const {
1065 assert(Idx < getValueType(0).getVectorNumElements() && "Idx out of range!");
1069 bool isSplat() const { return isSplatMask(Mask, getValueType(0)); }
1070 int getSplatIndex() const {
1071 assert(isSplat() && "Cannot get splat index for non-splat!");
1072 EVT VT = getValueType(0);
1073 for (unsigned i = 0, e = VT.getVectorNumElements(); i != e; ++i) {
1079 static bool isSplatMask(const int *Mask, EVT VT);
1081 static bool classof(const ShuffleVectorSDNode *) { return true; }
1082 static bool classof(const SDNode *N) {
1083 return N->getOpcode() == ISD::VECTOR_SHUFFLE;
1087 class ConstantSDNode : public SDNode {
1088 const ConstantInt *Value;
1089 friend class SelectionDAG;
1090 ConstantSDNode(bool isTarget, const ConstantInt *val, EVT VT)
1091 : SDNode(isTarget ? ISD::TargetConstant : ISD::Constant,
1092 DebugLoc(), getSDVTList(VT)), Value(val) {
1096 const ConstantInt *getConstantIntValue() const { return Value; }
1097 const APInt &getAPIntValue() const { return Value->getValue(); }
1098 uint64_t getZExtValue() const { return Value->getZExtValue(); }
1099 int64_t getSExtValue() const { return Value->getSExtValue(); }
1101 bool isOne() const { return Value->isOne(); }
1102 bool isNullValue() const { return Value->isNullValue(); }
1103 bool isAllOnesValue() const { return Value->isAllOnesValue(); }
1105 static bool classof(const ConstantSDNode *) { return true; }
1106 static bool classof(const SDNode *N) {
1107 return N->getOpcode() == ISD::Constant ||
1108 N->getOpcode() == ISD::TargetConstant;
1112 class ConstantFPSDNode : public SDNode {
1113 const ConstantFP *Value;
1114 friend class SelectionDAG;
1115 ConstantFPSDNode(bool isTarget, const ConstantFP *val, EVT VT)
1116 : SDNode(isTarget ? ISD::TargetConstantFP : ISD::ConstantFP,
1117 DebugLoc(), getSDVTList(VT)), Value(val) {
1121 const APFloat& getValueAPF() const { return Value->getValueAPF(); }
1122 const ConstantFP *getConstantFPValue() const { return Value; }
1124 /// isZero - Return true if the value is positive or negative zero.
1125 bool isZero() const { return Value->isZero(); }
1127 /// isNaN - Return true if the value is a NaN.
1128 bool isNaN() const { return Value->isNaN(); }
1130 /// isExactlyValue - We don't rely on operator== working on double values, as
1131 /// it returns true for things that are clearly not equal, like -0.0 and 0.0.
1132 /// As such, this method can be used to do an exact bit-for-bit comparison of
1133 /// two floating point values.
1135 /// We leave the version with the double argument here because it's just so
1136 /// convenient to write "2.0" and the like. Without this function we'd
1137 /// have to duplicate its logic everywhere it's called.
1138 bool isExactlyValue(double V) const {
1140 // convert is not supported on this type
1141 if (&Value->getValueAPF().getSemantics() == &APFloat::PPCDoubleDouble)
1144 Tmp.convert(Value->getValueAPF().getSemantics(),
1145 APFloat::rmNearestTiesToEven, &ignored);
1146 return isExactlyValue(Tmp);
1148 bool isExactlyValue(const APFloat& V) const;
1150 static bool isValueValidForType(EVT VT, const APFloat& Val);
1152 static bool classof(const ConstantFPSDNode *) { return true; }
1153 static bool classof(const SDNode *N) {
1154 return N->getOpcode() == ISD::ConstantFP ||
1155 N->getOpcode() == ISD::TargetConstantFP;
1159 class GlobalAddressSDNode : public SDNode {
1160 const GlobalValue *TheGlobal;
1162 unsigned char TargetFlags;
1163 friend class SelectionDAG;
1164 GlobalAddressSDNode(unsigned Opc, DebugLoc DL, const GlobalValue *GA, EVT VT,
1165 int64_t o, unsigned char TargetFlags);
1168 const GlobalValue *getGlobal() const { return TheGlobal; }
1169 int64_t getOffset() const { return Offset; }
1170 unsigned char getTargetFlags() const { return TargetFlags; }
1171 // Return the address space this GlobalAddress belongs to.
1172 unsigned getAddressSpace() const;
1174 static bool classof(const GlobalAddressSDNode *) { return true; }
1175 static bool classof(const SDNode *N) {
1176 return N->getOpcode() == ISD::GlobalAddress ||
1177 N->getOpcode() == ISD::TargetGlobalAddress ||
1178 N->getOpcode() == ISD::GlobalTLSAddress ||
1179 N->getOpcode() == ISD::TargetGlobalTLSAddress;
1183 class FrameIndexSDNode : public SDNode {
1185 friend class SelectionDAG;
1186 FrameIndexSDNode(int fi, EVT VT, bool isTarg)
1187 : SDNode(isTarg ? ISD::TargetFrameIndex : ISD::FrameIndex,
1188 DebugLoc(), getSDVTList(VT)), FI(fi) {
1192 int getIndex() const { return FI; }
1194 static bool classof(const FrameIndexSDNode *) { return true; }
1195 static bool classof(const SDNode *N) {
1196 return N->getOpcode() == ISD::FrameIndex ||
1197 N->getOpcode() == ISD::TargetFrameIndex;
1201 class JumpTableSDNode : public SDNode {
1203 unsigned char TargetFlags;
1204 friend class SelectionDAG;
1205 JumpTableSDNode(int jti, EVT VT, bool isTarg, unsigned char TF)
1206 : SDNode(isTarg ? ISD::TargetJumpTable : ISD::JumpTable,
1207 DebugLoc(), getSDVTList(VT)), JTI(jti), TargetFlags(TF) {
1211 int getIndex() const { return JTI; }
1212 unsigned char getTargetFlags() const { return TargetFlags; }
1214 static bool classof(const JumpTableSDNode *) { return true; }
1215 static bool classof(const SDNode *N) {
1216 return N->getOpcode() == ISD::JumpTable ||
1217 N->getOpcode() == ISD::TargetJumpTable;
1221 class ConstantPoolSDNode : public SDNode {
1223 const Constant *ConstVal;
1224 MachineConstantPoolValue *MachineCPVal;
1226 int Offset; // It's a MachineConstantPoolValue if top bit is set.
1227 unsigned Alignment; // Minimum alignment requirement of CP (not log2 value).
1228 unsigned char TargetFlags;
1229 friend class SelectionDAG;
1230 ConstantPoolSDNode(bool isTarget, const Constant *c, EVT VT, int o,
1231 unsigned Align, unsigned char TF)
1232 : SDNode(isTarget ? ISD::TargetConstantPool : ISD::ConstantPool,
1234 getSDVTList(VT)), Offset(o), Alignment(Align), TargetFlags(TF) {
1235 assert((int)Offset >= 0 && "Offset is too large");
1238 ConstantPoolSDNode(bool isTarget, MachineConstantPoolValue *v,
1239 EVT VT, int o, unsigned Align, unsigned char TF)
1240 : SDNode(isTarget ? ISD::TargetConstantPool : ISD::ConstantPool,
1242 getSDVTList(VT)), Offset(o), Alignment(Align), TargetFlags(TF) {
1243 assert((int)Offset >= 0 && "Offset is too large");
1244 Val.MachineCPVal = v;
1245 Offset |= 1 << (sizeof(unsigned)*CHAR_BIT-1);
1250 bool isMachineConstantPoolEntry() const {
1251 return (int)Offset < 0;
1254 const Constant *getConstVal() const {
1255 assert(!isMachineConstantPoolEntry() && "Wrong constantpool type");
1256 return Val.ConstVal;
1259 MachineConstantPoolValue *getMachineCPVal() const {
1260 assert(isMachineConstantPoolEntry() && "Wrong constantpool type");
1261 return Val.MachineCPVal;
1264 int getOffset() const {
1265 return Offset & ~(1 << (sizeof(unsigned)*CHAR_BIT-1));
1268 // Return the alignment of this constant pool object, which is either 0 (for
1269 // default alignment) or the desired value.
1270 unsigned getAlignment() const { return Alignment; }
1271 unsigned char getTargetFlags() const { return TargetFlags; }
1273 const Type *getType() const;
1275 static bool classof(const ConstantPoolSDNode *) { return true; }
1276 static bool classof(const SDNode *N) {
1277 return N->getOpcode() == ISD::ConstantPool ||
1278 N->getOpcode() == ISD::TargetConstantPool;
1282 class BasicBlockSDNode : public SDNode {
1283 MachineBasicBlock *MBB;
1284 friend class SelectionDAG;
1285 /// Debug info is meaningful and potentially useful here, but we create
1286 /// blocks out of order when they're jumped to, which makes it a bit
1287 /// harder. Let's see if we need it first.
1288 explicit BasicBlockSDNode(MachineBasicBlock *mbb)
1289 : SDNode(ISD::BasicBlock, DebugLoc(), getSDVTList(MVT::Other)), MBB(mbb) {
1293 MachineBasicBlock *getBasicBlock() const { return MBB; }
1295 static bool classof(const BasicBlockSDNode *) { return true; }
1296 static bool classof(const SDNode *N) {
1297 return N->getOpcode() == ISD::BasicBlock;
1301 /// BuildVectorSDNode - A "pseudo-class" with methods for operating on
1303 class BuildVectorSDNode : public SDNode {
1304 // These are constructed as SDNodes and then cast to BuildVectorSDNodes.
1305 explicit BuildVectorSDNode(); // Do not implement
1307 /// isConstantSplat - Check if this is a constant splat, and if so, find the
1308 /// smallest element size that splats the vector. If MinSplatBits is
1309 /// nonzero, the element size must be at least that large. Note that the
1310 /// splat element may be the entire vector (i.e., a one element vector).
1311 /// Returns the splat element value in SplatValue. Any undefined bits in
1312 /// that value are zero, and the corresponding bits in the SplatUndef mask
1313 /// are set. The SplatBitSize value is set to the splat element size in
1314 /// bits. HasAnyUndefs is set to true if any bits in the vector are
1315 /// undefined. isBigEndian describes the endianness of the target.
1316 bool isConstantSplat(APInt &SplatValue, APInt &SplatUndef,
1317 unsigned &SplatBitSize, bool &HasAnyUndefs,
1318 unsigned MinSplatBits = 0, bool isBigEndian = false);
1320 static inline bool classof(const BuildVectorSDNode *) { return true; }
1321 static inline bool classof(const SDNode *N) {
1322 return N->getOpcode() == ISD::BUILD_VECTOR;
1326 /// SrcValueSDNode - An SDNode that holds an arbitrary LLVM IR Value. This is
1327 /// used when the SelectionDAG needs to make a simple reference to something
1328 /// in the LLVM IR representation.
1330 class SrcValueSDNode : public SDNode {
1332 friend class SelectionDAG;
1333 /// Create a SrcValue for a general value.
1334 explicit SrcValueSDNode(const Value *v)
1335 : SDNode(ISD::SRCVALUE, DebugLoc(), getSDVTList(MVT::Other)), V(v) {}
1338 /// getValue - return the contained Value.
1339 const Value *getValue() const { return V; }
1341 static bool classof(const SrcValueSDNode *) { return true; }
1342 static bool classof(const SDNode *N) {
1343 return N->getOpcode() == ISD::SRCVALUE;
1347 class MDNodeSDNode : public SDNode {
1349 friend class SelectionDAG;
1350 explicit MDNodeSDNode(const MDNode *md)
1351 : SDNode(ISD::MDNODE_SDNODE, DebugLoc(), getSDVTList(MVT::Other)), MD(md) {}
1354 const MDNode *getMD() const { return MD; }
1356 static bool classof(const MDNodeSDNode *) { return true; }
1357 static bool classof(const SDNode *N) {
1358 return N->getOpcode() == ISD::MDNODE_SDNODE;
1363 class RegisterSDNode : public SDNode {
1365 friend class SelectionDAG;
1366 RegisterSDNode(unsigned reg, EVT VT)
1367 : SDNode(ISD::Register, DebugLoc(), getSDVTList(VT)), Reg(reg) {
1371 unsigned getReg() const { return Reg; }
1373 static bool classof(const RegisterSDNode *) { return true; }
1374 static bool classof(const SDNode *N) {
1375 return N->getOpcode() == ISD::Register;
1379 class BlockAddressSDNode : public SDNode {
1380 const BlockAddress *BA;
1381 unsigned char TargetFlags;
1382 friend class SelectionDAG;
1383 BlockAddressSDNode(unsigned NodeTy, EVT VT, const BlockAddress *ba,
1384 unsigned char Flags)
1385 : SDNode(NodeTy, DebugLoc(), getSDVTList(VT)),
1386 BA(ba), TargetFlags(Flags) {
1389 const BlockAddress *getBlockAddress() const { return BA; }
1390 unsigned char getTargetFlags() const { return TargetFlags; }
1392 static bool classof(const BlockAddressSDNode *) { return true; }
1393 static bool classof(const SDNode *N) {
1394 return N->getOpcode() == ISD::BlockAddress ||
1395 N->getOpcode() == ISD::TargetBlockAddress;
1399 class EHLabelSDNode : public SDNode {
1402 friend class SelectionDAG;
1403 EHLabelSDNode(DebugLoc dl, SDValue ch, MCSymbol *L)
1404 : SDNode(ISD::EH_LABEL, dl, getSDVTList(MVT::Other)), Label(L) {
1405 InitOperands(&Chain, ch);
1408 MCSymbol *getLabel() const { return Label; }
1410 static bool classof(const EHLabelSDNode *) { return true; }
1411 static bool classof(const SDNode *N) {
1412 return N->getOpcode() == ISD::EH_LABEL;
1416 class ExternalSymbolSDNode : public SDNode {
1418 unsigned char TargetFlags;
1420 friend class SelectionDAG;
1421 ExternalSymbolSDNode(bool isTarget, const char *Sym, unsigned char TF, EVT VT)
1422 : SDNode(isTarget ? ISD::TargetExternalSymbol : ISD::ExternalSymbol,
1423 DebugLoc(), getSDVTList(VT)), Symbol(Sym), TargetFlags(TF) {
1427 const char *getSymbol() const { return Symbol; }
1428 unsigned char getTargetFlags() const { return TargetFlags; }
1430 static bool classof(const ExternalSymbolSDNode *) { return true; }
1431 static bool classof(const SDNode *N) {
1432 return N->getOpcode() == ISD::ExternalSymbol ||
1433 N->getOpcode() == ISD::TargetExternalSymbol;
1437 class CondCodeSDNode : public SDNode {
1438 ISD::CondCode Condition;
1439 friend class SelectionDAG;
1440 explicit CondCodeSDNode(ISD::CondCode Cond)
1441 : SDNode(ISD::CONDCODE, DebugLoc(), getSDVTList(MVT::Other)),
1446 ISD::CondCode get() const { return Condition; }
1448 static bool classof(const CondCodeSDNode *) { return true; }
1449 static bool classof(const SDNode *N) {
1450 return N->getOpcode() == ISD::CONDCODE;
1454 /// CvtRndSatSDNode - NOTE: avoid using this node as this may disappear in the
1455 /// future and most targets don't support it.
1456 class CvtRndSatSDNode : public SDNode {
1457 ISD::CvtCode CvtCode;
1458 friend class SelectionDAG;
1459 explicit CvtRndSatSDNode(EVT VT, DebugLoc dl, const SDValue *Ops,
1460 unsigned NumOps, ISD::CvtCode Code)
1461 : SDNode(ISD::CONVERT_RNDSAT, dl, getSDVTList(VT), Ops, NumOps),
1463 assert(NumOps == 5 && "wrong number of operations");
1466 ISD::CvtCode getCvtCode() const { return CvtCode; }
1468 static bool classof(const CvtRndSatSDNode *) { return true; }
1469 static bool classof(const SDNode *N) {
1470 return N->getOpcode() == ISD::CONVERT_RNDSAT;
1474 /// VTSDNode - This class is used to represent EVT's, which are used
1475 /// to parameterize some operations.
1476 class VTSDNode : public SDNode {
1478 friend class SelectionDAG;
1479 explicit VTSDNode(EVT VT)
1480 : SDNode(ISD::VALUETYPE, DebugLoc(), getSDVTList(MVT::Other)),
1485 EVT getVT() const { return ValueType; }
1487 static bool classof(const VTSDNode *) { return true; }
1488 static bool classof(const SDNode *N) {
1489 return N->getOpcode() == ISD::VALUETYPE;
1493 /// LSBaseSDNode - Base class for LoadSDNode and StoreSDNode
1495 class LSBaseSDNode : public MemSDNode {
1496 //! Operand array for load and store
1498 \note Moving this array to the base class captures more
1499 common functionality shared between LoadSDNode and
1504 LSBaseSDNode(ISD::NodeType NodeTy, DebugLoc dl, SDValue *Operands,
1505 unsigned numOperands, SDVTList VTs, ISD::MemIndexedMode AM,
1506 EVT MemVT, MachineMemOperand *MMO)
1507 : MemSDNode(NodeTy, dl, VTs, MemVT, MMO) {
1508 SubclassData |= AM << 2;
1509 assert(getAddressingMode() == AM && "MemIndexedMode encoding error!");
1510 InitOperands(Ops, Operands, numOperands);
1511 assert((getOffset().getOpcode() == ISD::UNDEF || isIndexed()) &&
1512 "Only indexed loads and stores have a non-undef offset operand");
1515 const SDValue &getOffset() const {
1516 return getOperand(getOpcode() == ISD::LOAD ? 2 : 3);
1519 /// getAddressingMode - Return the addressing mode for this load or store:
1520 /// unindexed, pre-inc, pre-dec, post-inc, or post-dec.
1521 ISD::MemIndexedMode getAddressingMode() const {
1522 return ISD::MemIndexedMode((SubclassData >> 2) & 7);
1525 /// isIndexed - Return true if this is a pre/post inc/dec load/store.
1526 bool isIndexed() const { return getAddressingMode() != ISD::UNINDEXED; }
1528 /// isUnindexed - Return true if this is NOT a pre/post inc/dec load/store.
1529 bool isUnindexed() const { return getAddressingMode() == ISD::UNINDEXED; }
1531 static bool classof(const LSBaseSDNode *) { return true; }
1532 static bool classof(const SDNode *N) {
1533 return N->getOpcode() == ISD::LOAD ||
1534 N->getOpcode() == ISD::STORE;
1538 /// LoadSDNode - This class is used to represent ISD::LOAD nodes.
1540 class LoadSDNode : public LSBaseSDNode {
1541 friend class SelectionDAG;
1542 LoadSDNode(SDValue *ChainPtrOff, DebugLoc dl, SDVTList VTs,
1543 ISD::MemIndexedMode AM, ISD::LoadExtType ETy, EVT MemVT,
1544 MachineMemOperand *MMO)
1545 : LSBaseSDNode(ISD::LOAD, dl, ChainPtrOff, 3,
1546 VTs, AM, MemVT, MMO) {
1547 SubclassData |= (unsigned short)ETy;
1548 assert(getExtensionType() == ETy && "LoadExtType encoding error!");
1549 assert(readMem() && "Load MachineMemOperand is not a load!");
1550 assert(!writeMem() && "Load MachineMemOperand is a store!");
1554 /// getExtensionType - Return whether this is a plain node,
1555 /// or one of the varieties of value-extending loads.
1556 ISD::LoadExtType getExtensionType() const {
1557 return ISD::LoadExtType(SubclassData & 3);
1560 const SDValue &getBasePtr() const { return getOperand(1); }
1561 const SDValue &getOffset() const { return getOperand(2); }
1563 static bool classof(const LoadSDNode *) { return true; }
1564 static bool classof(const SDNode *N) {
1565 return N->getOpcode() == ISD::LOAD;
1569 /// StoreSDNode - This class is used to represent ISD::STORE nodes.
1571 class StoreSDNode : public LSBaseSDNode {
1572 friend class SelectionDAG;
1573 StoreSDNode(SDValue *ChainValuePtrOff, DebugLoc dl, SDVTList VTs,
1574 ISD::MemIndexedMode AM, bool isTrunc, EVT MemVT,
1575 MachineMemOperand *MMO)
1576 : LSBaseSDNode(ISD::STORE, dl, ChainValuePtrOff, 4,
1577 VTs, AM, MemVT, MMO) {
1578 SubclassData |= (unsigned short)isTrunc;
1579 assert(isTruncatingStore() == isTrunc && "isTrunc encoding error!");
1580 assert(!readMem() && "Store MachineMemOperand is a load!");
1581 assert(writeMem() && "Store MachineMemOperand is not a store!");
1585 /// isTruncatingStore - Return true if the op does a truncation before store.
1586 /// For integers this is the same as doing a TRUNCATE and storing the result.
1587 /// For floats, it is the same as doing an FP_ROUND and storing the result.
1588 bool isTruncatingStore() const { return SubclassData & 1; }
1590 const SDValue &getValue() const { return getOperand(1); }
1591 const SDValue &getBasePtr() const { return getOperand(2); }
1592 const SDValue &getOffset() const { return getOperand(3); }
1594 static bool classof(const StoreSDNode *) { return true; }
1595 static bool classof(const SDNode *N) {
1596 return N->getOpcode() == ISD::STORE;
1600 /// MachineSDNode - An SDNode that represents everything that will be needed
1601 /// to construct a MachineInstr. These nodes are created during the
1602 /// instruction selection proper phase.
1604 class MachineSDNode : public SDNode {
1606 typedef MachineMemOperand **mmo_iterator;
1609 friend class SelectionDAG;
1610 MachineSDNode(unsigned Opc, const DebugLoc DL, SDVTList VTs)
1611 : SDNode(Opc, DL, VTs), MemRefs(0), MemRefsEnd(0) {}
1613 /// LocalOperands - Operands for this instruction, if they fit here. If
1614 /// they don't, this field is unused.
1615 SDUse LocalOperands[4];
1617 /// MemRefs - Memory reference descriptions for this instruction.
1618 mmo_iterator MemRefs;
1619 mmo_iterator MemRefsEnd;
1622 mmo_iterator memoperands_begin() const { return MemRefs; }
1623 mmo_iterator memoperands_end() const { return MemRefsEnd; }
1624 bool memoperands_empty() const { return MemRefsEnd == MemRefs; }
1626 /// setMemRefs - Assign this MachineSDNodes's memory reference descriptor
1627 /// list. This does not transfer ownership.
1628 void setMemRefs(mmo_iterator NewMemRefs, mmo_iterator NewMemRefsEnd) {
1629 MemRefs = NewMemRefs;
1630 MemRefsEnd = NewMemRefsEnd;
1633 static bool classof(const MachineSDNode *) { return true; }
1634 static bool classof(const SDNode *N) {
1635 return N->isMachineOpcode();
1639 class SDNodeIterator : public std::iterator<std::forward_iterator_tag,
1640 SDNode, ptrdiff_t> {
1644 SDNodeIterator(SDNode *N, unsigned Op) : Node(N), Operand(Op) {}
1646 bool operator==(const SDNodeIterator& x) const {
1647 return Operand == x.Operand;
1649 bool operator!=(const SDNodeIterator& x) const { return !operator==(x); }
1651 const SDNodeIterator &operator=(const SDNodeIterator &I) {
1652 assert(I.Node == Node && "Cannot assign iterators to two different nodes!");
1653 Operand = I.Operand;
1657 pointer operator*() const {
1658 return Node->getOperand(Operand).getNode();
1660 pointer operator->() const { return operator*(); }
1662 SDNodeIterator& operator++() { // Preincrement
1666 SDNodeIterator operator++(int) { // Postincrement
1667 SDNodeIterator tmp = *this; ++*this; return tmp;
1669 size_t operator-(SDNodeIterator Other) const {
1670 assert(Node == Other.Node &&
1671 "Cannot compare iterators of two different nodes!");
1672 return Operand - Other.Operand;
1675 static SDNodeIterator begin(SDNode *N) { return SDNodeIterator(N, 0); }
1676 static SDNodeIterator end (SDNode *N) {
1677 return SDNodeIterator(N, N->getNumOperands());
1680 unsigned getOperand() const { return Operand; }
1681 const SDNode *getNode() const { return Node; }
1684 template <> struct GraphTraits<SDNode*> {
1685 typedef SDNode NodeType;
1686 typedef SDNodeIterator ChildIteratorType;
1687 static inline NodeType *getEntryNode(SDNode *N) { return N; }
1688 static inline ChildIteratorType child_begin(NodeType *N) {
1689 return SDNodeIterator::begin(N);
1691 static inline ChildIteratorType child_end(NodeType *N) {
1692 return SDNodeIterator::end(N);
1696 /// LargestSDNode - The largest SDNode class.
1698 typedef LoadSDNode LargestSDNode;
1700 /// MostAlignedSDNode - The SDNode class with the greatest alignment
1703 typedef GlobalAddressSDNode MostAlignedSDNode;
1706 /// isNormalLoad - Returns true if the specified node is a non-extending
1707 /// and unindexed load.
1708 inline bool isNormalLoad(const SDNode *N) {
1709 const LoadSDNode *Ld = dyn_cast<LoadSDNode>(N);
1710 return Ld && Ld->getExtensionType() == ISD::NON_EXTLOAD &&
1711 Ld->getAddressingMode() == ISD::UNINDEXED;
1714 /// isNON_EXTLoad - Returns true if the specified node is a non-extending
1716 inline bool isNON_EXTLoad(const SDNode *N) {
1717 return isa<LoadSDNode>(N) &&
1718 cast<LoadSDNode>(N)->getExtensionType() == ISD::NON_EXTLOAD;
1721 /// isEXTLoad - Returns true if the specified node is a EXTLOAD.
1723 inline bool isEXTLoad(const SDNode *N) {
1724 return isa<LoadSDNode>(N) &&
1725 cast<LoadSDNode>(N)->getExtensionType() == ISD::EXTLOAD;
1728 /// isSEXTLoad - Returns true if the specified node is a SEXTLOAD.
1730 inline bool isSEXTLoad(const SDNode *N) {
1731 return isa<LoadSDNode>(N) &&
1732 cast<LoadSDNode>(N)->getExtensionType() == ISD::SEXTLOAD;
1735 /// isZEXTLoad - Returns true if the specified node is a ZEXTLOAD.
1737 inline bool isZEXTLoad(const SDNode *N) {
1738 return isa<LoadSDNode>(N) &&
1739 cast<LoadSDNode>(N)->getExtensionType() == ISD::ZEXTLOAD;
1742 /// isUNINDEXEDLoad - Returns true if the specified node is an unindexed load.
1744 inline bool isUNINDEXEDLoad(const SDNode *N) {
1745 return isa<LoadSDNode>(N) &&
1746 cast<LoadSDNode>(N)->getAddressingMode() == ISD::UNINDEXED;
1749 /// isNormalStore - Returns true if the specified node is a non-truncating
1750 /// and unindexed store.
1751 inline bool isNormalStore(const SDNode *N) {
1752 const StoreSDNode *St = dyn_cast<StoreSDNode>(N);
1753 return St && !St->isTruncatingStore() &&
1754 St->getAddressingMode() == ISD::UNINDEXED;
1757 /// isNON_TRUNCStore - Returns true if the specified node is a non-truncating
1759 inline bool isNON_TRUNCStore(const SDNode *N) {
1760 return isa<StoreSDNode>(N) && !cast<StoreSDNode>(N)->isTruncatingStore();
1763 /// isTRUNCStore - Returns true if the specified node is a truncating
1765 inline bool isTRUNCStore(const SDNode *N) {
1766 return isa<StoreSDNode>(N) && cast<StoreSDNode>(N)->isTruncatingStore();
1769 /// isUNINDEXEDStore - Returns true if the specified node is an
1770 /// unindexed store.
1771 inline bool isUNINDEXEDStore(const SDNode *N) {
1772 return isa<StoreSDNode>(N) &&
1773 cast<StoreSDNode>(N)->getAddressingMode() == ISD::UNINDEXED;
1777 } // end llvm namespace