xref: /freebsd/contrib/llvm-project/llvm/lib/Transforms/Vectorize/VPlanValue.h (revision 5fb307d29b364982acbde82cbf77db3cae486f8c)
1 //===- VPlanValue.h - Represent Values in Vectorizer Plan -----------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 ///
9 /// \file
10 /// This file contains the declarations of the entities induced by Vectorization
11 /// Plans, e.g. the instructions the VPlan intends to generate if executed.
12 /// VPlan models the following entities:
13 /// VPValue   VPUser   VPDef
14 ///    |        |
15 ///   VPInstruction
16 /// These are documented in docs/VectorizationPlan.rst.
17 ///
18 //===----------------------------------------------------------------------===//
19 
20 #ifndef LLVM_TRANSFORMS_VECTORIZE_VPLAN_VALUE_H
21 #define LLVM_TRANSFORMS_VECTORIZE_VPLAN_VALUE_H
22 
23 #include "llvm/ADT/DenseMap.h"
24 #include "llvm/ADT/STLExtras.h"
25 #include "llvm/ADT/SmallVector.h"
26 #include "llvm/ADT/TinyPtrVector.h"
27 #include "llvm/ADT/iterator_range.h"
28 
29 namespace llvm {
30 
31 // Forward declarations.
32 class raw_ostream;
33 class Value;
34 class VPDef;
35 class VPSlotTracker;
36 class VPUser;
37 class VPRecipeBase;
38 class VPWidenMemoryInstructionRecipe;
39 
40 // This is the base class of the VPlan Def/Use graph, used for modeling the data
41 // flow into, within and out of the VPlan. VPValues can stand for live-ins
42 // coming from the input IR, instructions which VPlan will generate if executed
43 // and live-outs which the VPlan will need to fix accordingly.
44 class VPValue {
45   friend class VPBuilder;
46   friend class VPDef;
47   friend class VPInstruction;
48   friend struct VPlanTransforms;
49   friend class VPBasicBlock;
50   friend class VPInterleavedAccessInfo;
51   friend class VPSlotTracker;
52   friend class VPRecipeBase;
53   friend class VPWidenMemoryInstructionRecipe;
54 
55   const unsigned char SubclassID; ///< Subclass identifier (for isa/dyn_cast).
56 
57   SmallVector<VPUser *, 1> Users;
58 
59 protected:
60   // Hold the underlying Value, if any, attached to this VPValue.
61   Value *UnderlyingVal;
62 
63   /// Pointer to the VPDef that defines this VPValue. If it is nullptr, the
64   /// VPValue is not defined by any recipe modeled in VPlan.
65   VPDef *Def;
66 
67   VPValue(const unsigned char SC, Value *UV = nullptr, VPDef *Def = nullptr);
68 
69   // DESIGN PRINCIPLE: Access to the underlying IR must be strictly limited to
70   // the front-end and back-end of VPlan so that the middle-end is as
71   // independent as possible of the underlying IR. We grant access to the
72   // underlying IR using friendship. In that way, we should be able to use VPlan
73   // for multiple underlying IRs (Polly?) by providing a new VPlan front-end,
74   // back-end and analysis information for the new IR.
75 
76   // Set \p Val as the underlying Value of this VPValue.
77   void setUnderlyingValue(Value *Val) {
78     assert(!UnderlyingVal && "Underlying Value is already set.");
79     UnderlyingVal = Val;
80   }
81 
82 public:
83   /// Return the underlying Value attached to this VPValue.
84   Value *getUnderlyingValue() { return UnderlyingVal; }
85   const Value *getUnderlyingValue() const { return UnderlyingVal; }
86 
87   /// An enumeration for keeping track of the concrete subclass of VPValue that
88   /// are actually instantiated.
89   enum {
90     VPValueSC, /// A generic VPValue, like live-in values or defined by a recipe
91                /// that defines multiple values.
92     VPVRecipeSC /// A VPValue sub-class that is a VPRecipeBase.
93   };
94 
95   /// Create a live-in VPValue.
96   VPValue(Value *UV = nullptr) : VPValue(VPValueSC, UV, nullptr) {}
97   /// Create a VPValue for a \p Def which is a subclass of VPValue.
98   VPValue(VPDef *Def, Value *UV = nullptr) : VPValue(VPVRecipeSC, UV, Def) {}
99   /// Create a VPValue for a \p Def which defines multiple values.
100   VPValue(Value *UV, VPDef *Def) : VPValue(VPValueSC, UV, Def) {}
101   VPValue(const VPValue &) = delete;
102   VPValue &operator=(const VPValue &) = delete;
103 
104   virtual ~VPValue();
105 
106   /// \return an ID for the concrete type of this object.
107   /// This is used to implement the classof checks. This should not be used
108   /// for any other purpose, as the values may change as LLVM evolves.
109   unsigned getVPValueID() const { return SubclassID; }
110 
111 #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
112   void printAsOperand(raw_ostream &OS, VPSlotTracker &Tracker) const;
113   void print(raw_ostream &OS, VPSlotTracker &Tracker) const;
114 
115   /// Dump the value to stderr (for debugging).
116   void dump() const;
117 #endif
118 
119   unsigned getNumUsers() const { return Users.size(); }
120   void addUser(VPUser &User) { Users.push_back(&User); }
121 
122   /// Remove a single \p User from the list of users.
123   void removeUser(VPUser &User) {
124     bool Found = false;
125     // The same user can be added multiple times, e.g. because the same VPValue
126     // is used twice by the same VPUser. Remove a single one.
127     erase_if(Users, [&User, &Found](VPUser *Other) {
128       if (Found)
129         return false;
130       if (Other == &User) {
131         Found = true;
132         return true;
133       }
134       return false;
135     });
136   }
137 
138   typedef SmallVectorImpl<VPUser *>::iterator user_iterator;
139   typedef SmallVectorImpl<VPUser *>::const_iterator const_user_iterator;
140   typedef iterator_range<user_iterator> user_range;
141   typedef iterator_range<const_user_iterator> const_user_range;
142 
143   user_iterator user_begin() { return Users.begin(); }
144   const_user_iterator user_begin() const { return Users.begin(); }
145   user_iterator user_end() { return Users.end(); }
146   const_user_iterator user_end() const { return Users.end(); }
147   user_range users() { return user_range(user_begin(), user_end()); }
148   const_user_range users() const {
149     return const_user_range(user_begin(), user_end());
150   }
151 
152   /// Returns true if the value has more than one unique user.
153   bool hasMoreThanOneUniqueUser() {
154     if (getNumUsers() == 0)
155       return false;
156 
157     // Check if all users match the first user.
158     auto Current = std::next(user_begin());
159     while (Current != user_end() && *user_begin() == *Current)
160       Current++;
161     return Current != user_end();
162   }
163 
164   void replaceAllUsesWith(VPValue *New);
165 
166   /// Returns the recipe defining this VPValue or nullptr if it is not defined
167   /// by a recipe, i.e. is a live-in.
168   VPRecipeBase *getDefiningRecipe();
169   const VPRecipeBase *getDefiningRecipe() const;
170 
171   /// Returns true if this VPValue is defined by a recipe.
172   bool hasDefiningRecipe() const { return getDefiningRecipe(); }
173 
174   /// Returns true if this VPValue is a live-in, i.e. defined outside the VPlan.
175   bool isLiveIn() const { return !hasDefiningRecipe(); }
176 
177   /// Returns the underlying IR value, if this VPValue is defined outside the
178   /// scope of VPlan. Returns nullptr if the VPValue is defined by a VPDef
179   /// inside a VPlan.
180   Value *getLiveInIRValue() {
181     assert(isLiveIn() &&
182            "VPValue is not a live-in; it is defined by a VPDef inside a VPlan");
183     return getUnderlyingValue();
184   }
185   const Value *getLiveInIRValue() const {
186     assert(isLiveIn() &&
187            "VPValue is not a live-in; it is defined by a VPDef inside a VPlan");
188     return getUnderlyingValue();
189   }
190 
191   /// Returns true if the VPValue is defined outside any vector regions, i.e. it
192   /// is a live-in value.
193   /// TODO: Also handle recipes defined in pre-header blocks.
194   bool isDefinedOutsideVectorRegions() const { return !hasDefiningRecipe(); }
195 };
196 
197 typedef DenseMap<Value *, VPValue *> Value2VPValueTy;
198 typedef DenseMap<VPValue *, Value *> VPValue2ValueTy;
199 
200 raw_ostream &operator<<(raw_ostream &OS, const VPValue &V);
201 
202 /// This class augments VPValue with operands which provide the inverse def-use
203 /// edges from VPValue's users to their defs.
204 class VPUser {
205 public:
206   /// Subclass identifier (for isa/dyn_cast).
207   enum class VPUserID {
208     Recipe,
209     LiveOut,
210   };
211 
212 private:
213   SmallVector<VPValue *, 2> Operands;
214 
215   VPUserID ID;
216 
217 protected:
218 #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
219   /// Print the operands to \p O.
220   void printOperands(raw_ostream &O, VPSlotTracker &SlotTracker) const;
221 #endif
222 
223   VPUser(ArrayRef<VPValue *> Operands, VPUserID ID) : ID(ID) {
224     for (VPValue *Operand : Operands)
225       addOperand(Operand);
226   }
227 
228   VPUser(std::initializer_list<VPValue *> Operands, VPUserID ID)
229       : VPUser(ArrayRef<VPValue *>(Operands), ID) {}
230 
231   template <typename IterT>
232   VPUser(iterator_range<IterT> Operands, VPUserID ID) : ID(ID) {
233     for (VPValue *Operand : Operands)
234       addOperand(Operand);
235   }
236 
237 public:
238   VPUser() = delete;
239   VPUser(const VPUser &) = delete;
240   VPUser &operator=(const VPUser &) = delete;
241   virtual ~VPUser() {
242     for (VPValue *Op : operands())
243       Op->removeUser(*this);
244   }
245 
246   VPUserID getVPUserID() const { return ID; }
247 
248   void addOperand(VPValue *Operand) {
249     Operands.push_back(Operand);
250     Operand->addUser(*this);
251   }
252 
253   unsigned getNumOperands() const { return Operands.size(); }
254   inline VPValue *getOperand(unsigned N) const {
255     assert(N < Operands.size() && "Operand index out of bounds");
256     return Operands[N];
257   }
258 
259   void setOperand(unsigned I, VPValue *New) {
260     Operands[I]->removeUser(*this);
261     Operands[I] = New;
262     New->addUser(*this);
263   }
264 
265   void removeLastOperand() {
266     VPValue *Op = Operands.pop_back_val();
267     Op->removeUser(*this);
268   }
269 
270   typedef SmallVectorImpl<VPValue *>::iterator operand_iterator;
271   typedef SmallVectorImpl<VPValue *>::const_iterator const_operand_iterator;
272   typedef iterator_range<operand_iterator> operand_range;
273   typedef iterator_range<const_operand_iterator> const_operand_range;
274 
275   operand_iterator op_begin() { return Operands.begin(); }
276   const_operand_iterator op_begin() const { return Operands.begin(); }
277   operand_iterator op_end() { return Operands.end(); }
278   const_operand_iterator op_end() const { return Operands.end(); }
279   operand_range operands() { return operand_range(op_begin(), op_end()); }
280   const_operand_range operands() const {
281     return const_operand_range(op_begin(), op_end());
282   }
283 
284   /// Returns true if the VPUser uses scalars of operand \p Op. Conservatively
285   /// returns if only first (scalar) lane is used, as default.
286   virtual bool usesScalars(const VPValue *Op) const {
287     assert(is_contained(operands(), Op) &&
288            "Op must be an operand of the recipe");
289     return onlyFirstLaneUsed(Op);
290   }
291 
292   /// Returns true if the VPUser only uses the first lane of operand \p Op.
293   /// Conservatively returns false.
294   virtual bool onlyFirstLaneUsed(const VPValue *Op) const {
295     assert(is_contained(operands(), Op) &&
296            "Op must be an operand of the recipe");
297     return false;
298   }
299 };
300 
301 /// This class augments a recipe with a set of VPValues defined by the recipe.
302 /// It allows recipes to define zero, one or multiple VPValues. A VPDef owns
303 /// the VPValues it defines and is responsible for deleting its defined values.
304 /// Single-value VPDefs that also inherit from VPValue must make sure to inherit
305 /// from VPDef before VPValue.
306 class VPDef {
307   friend class VPValue;
308 
309   /// Subclass identifier (for isa/dyn_cast).
310   const unsigned char SubclassID;
311 
312   /// The VPValues defined by this VPDef.
313   TinyPtrVector<VPValue *> DefinedValues;
314 
315   /// Add \p V as a defined value by this VPDef.
316   void addDefinedValue(VPValue *V) {
317     assert(V->Def == this &&
318            "can only add VPValue already linked with this VPDef");
319     DefinedValues.push_back(V);
320   }
321 
322   /// Remove \p V from the values defined by this VPDef. \p V must be a defined
323   /// value of this VPDef.
324   void removeDefinedValue(VPValue *V) {
325     assert(V->Def == this && "can only remove VPValue linked with this VPDef");
326     assert(is_contained(DefinedValues, V) &&
327            "VPValue to remove must be in DefinedValues");
328     erase_value(DefinedValues, V);
329     V->Def = nullptr;
330   }
331 
332 public:
333   /// An enumeration for keeping track of the concrete subclass of VPRecipeBase
334   /// that is actually instantiated. Values of this enumeration are kept in the
335   /// SubclassID field of the VPRecipeBase objects. They are used for concrete
336   /// type identification.
337   using VPRecipeTy = enum {
338     VPBranchOnMaskSC,
339     VPDerivedIVSC,
340     VPExpandSCEVSC,
341     VPInstructionSC,
342     VPInterleaveSC,
343     VPReductionSC,
344     VPReplicateSC,
345     VPScalarIVStepsSC,
346     VPWidenCallSC,
347     VPWidenCanonicalIVSC,
348     VPWidenCastSC,
349     VPWidenGEPSC,
350     VPWidenMemoryInstructionSC,
351     VPWidenSC,
352     VPWidenSelectSC,
353     // START: Phi-like recipes. Need to be kept together.
354     VPBlendSC,
355     VPPredInstPHISC,
356     // START: SubclassID for recipes that inherit VPHeaderPHIRecipe.
357     // VPHeaderPHIRecipe need to be kept together.
358     VPCanonicalIVPHISC,
359     VPActiveLaneMaskPHISC,
360     VPFirstOrderRecurrencePHISC,
361     VPWidenPHISC,
362     VPWidenIntOrFpInductionSC,
363     VPWidenPointerInductionSC,
364     VPReductionPHISC,
365     // END: SubclassID for recipes that inherit VPHeaderPHIRecipe
366     // END: Phi-like recipes
367     VPFirstPHISC = VPBlendSC,
368     VPFirstHeaderPHISC = VPCanonicalIVPHISC,
369     VPLastHeaderPHISC = VPReductionPHISC,
370     VPLastPHISC = VPReductionPHISC,
371   };
372 
373   VPDef(const unsigned char SC) : SubclassID(SC) {}
374 
375   virtual ~VPDef() {
376     for (VPValue *D : make_early_inc_range(DefinedValues)) {
377       assert(D->Def == this &&
378              "all defined VPValues should point to the containing VPDef");
379       assert(D->getNumUsers() == 0 &&
380              "all defined VPValues should have no more users");
381       D->Def = nullptr;
382       delete D;
383     }
384   }
385 
386   /// Returns the only VPValue defined by the VPDef. Can only be called for
387   /// VPDefs with a single defined value.
388   VPValue *getVPSingleValue() {
389     assert(DefinedValues.size() == 1 && "must have exactly one defined value");
390     assert(DefinedValues[0] && "defined value must be non-null");
391     return DefinedValues[0];
392   }
393   const VPValue *getVPSingleValue() const {
394     assert(DefinedValues.size() == 1 && "must have exactly one defined value");
395     assert(DefinedValues[0] && "defined value must be non-null");
396     return DefinedValues[0];
397   }
398 
399   /// Returns the VPValue with index \p I defined by the VPDef.
400   VPValue *getVPValue(unsigned I) {
401     assert(DefinedValues[I] && "defined value must be non-null");
402     return DefinedValues[I];
403   }
404   const VPValue *getVPValue(unsigned I) const {
405     assert(DefinedValues[I] && "defined value must be non-null");
406     return DefinedValues[I];
407   }
408 
409   /// Returns an ArrayRef of the values defined by the VPDef.
410   ArrayRef<VPValue *> definedValues() { return DefinedValues; }
411   /// Returns an ArrayRef of the values defined by the VPDef.
412   ArrayRef<VPValue *> definedValues() const { return DefinedValues; }
413 
414   /// Returns the number of values defined by the VPDef.
415   unsigned getNumDefinedValues() const { return DefinedValues.size(); }
416 
417   /// \return an ID for the concrete type of this object.
418   /// This is used to implement the classof checks. This should not be used
419   /// for any other purpose, as the values may change as LLVM evolves.
420   unsigned getVPDefID() const { return SubclassID; }
421 
422 #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
423   /// Dump the VPDef to stderr (for debugging).
424   void dump() const;
425 
426   /// Each concrete VPDef prints itself.
427   virtual void print(raw_ostream &O, const Twine &Indent,
428                      VPSlotTracker &SlotTracker) const = 0;
429 #endif
430 };
431 
432 class VPlan;
433 class VPBasicBlock;
434 
435 /// This class can be used to assign consecutive numbers to all VPValues in a
436 /// VPlan and allows querying the numbering for printing, similar to the
437 /// ModuleSlotTracker for IR values.
438 class VPSlotTracker {
439   DenseMap<const VPValue *, unsigned> Slots;
440   unsigned NextSlot = 0;
441 
442   void assignSlot(const VPValue *V);
443   void assignSlots(const VPlan &Plan);
444   void assignSlots(const VPBasicBlock *VPBB);
445 
446 public:
447   VPSlotTracker(const VPlan *Plan = nullptr) {
448     if (Plan)
449       assignSlots(*Plan);
450   }
451 
452   unsigned getSlot(const VPValue *V) const {
453     auto I = Slots.find(V);
454     if (I == Slots.end())
455       return -1;
456     return I->second;
457   }
458 };
459 
460 } // namespace llvm
461 
462 #endif // LLVM_TRANSFORMS_VECTORIZE_VPLAN_VALUE_H
463