1cd4edf94SFlorian Hahn //===- ConstraintSytem.cpp - A system of linear constraints. ----*- C++ -*-===//
2cd4edf94SFlorian Hahn //
3cd4edf94SFlorian Hahn // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4cd4edf94SFlorian Hahn // See https://llvm.org/LICENSE.txt for license information.
5cd4edf94SFlorian Hahn // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6cd4edf94SFlorian Hahn //
7cd4edf94SFlorian Hahn //===----------------------------------------------------------------------===//
8cd4edf94SFlorian Hahn 
9cd4edf94SFlorian Hahn #include "llvm/Analysis/ConstraintSystem.h"
10cd4edf94SFlorian Hahn #include "llvm/ADT/SmallVector.h"
11cd4edf94SFlorian Hahn #include "llvm/Support/MathExtras.h"
12cd4edf94SFlorian Hahn #include "llvm/ADT/StringExtras.h"
13cd4edf94SFlorian Hahn #include "llvm/Support/Debug.h"
14cd4edf94SFlorian Hahn 
15cd4edf94SFlorian Hahn #include <string>
16cd4edf94SFlorian Hahn 
17cd4edf94SFlorian Hahn using namespace llvm;
18cd4edf94SFlorian Hahn 
19cd4edf94SFlorian Hahn #define DEBUG_TYPE "constraint-system"
20cd4edf94SFlorian Hahn 
eliminateUsingFM()21cd4edf94SFlorian Hahn bool ConstraintSystem::eliminateUsingFM() {
22cd4edf94SFlorian Hahn   // Implementation of Fourier–Motzkin elimination, with some tricks from the
23cd4edf94SFlorian Hahn   // paper Pugh, William. "The Omega test: a fast and practical integer
24cd4edf94SFlorian Hahn   // programming algorithm for dependence
25cd4edf94SFlorian Hahn   //  analysis."
26cd4edf94SFlorian Hahn   // Supercomputing'91: Proceedings of the 1991 ACM/
27cd4edf94SFlorian Hahn   // IEEE conference on Supercomputing. IEEE, 1991.
28cd4edf94SFlorian Hahn   assert(!Constraints.empty() &&
29cd4edf94SFlorian Hahn          "should only be called for non-empty constraint systems");
30cd4edf94SFlorian Hahn   unsigned NumVariables = Constraints[0].size();
31cd4edf94SFlorian Hahn   SmallVector<SmallVector<int64_t, 8>, 4> NewSystem;
32cd4edf94SFlorian Hahn 
33cd4edf94SFlorian Hahn   unsigned NumConstraints = Constraints.size();
34cd4edf94SFlorian Hahn   uint32_t NewGCD = 1;
35cd4edf94SFlorian Hahn   // FIXME do not use copy
36cd4edf94SFlorian Hahn   for (unsigned R1 = 0; R1 < NumConstraints; R1++) {
37cd4edf94SFlorian Hahn     if (Constraints[R1][1] == 0) {
38cd4edf94SFlorian Hahn       SmallVector<int64_t, 8> NR;
39cd4edf94SFlorian Hahn       NR.push_back(Constraints[R1][0]);
40cd4edf94SFlorian Hahn       for (unsigned i = 2; i < NumVariables; i++) {
41cd4edf94SFlorian Hahn         NR.push_back(Constraints[R1][i]);
42cd4edf94SFlorian Hahn       }
43cd4edf94SFlorian Hahn       NewSystem.push_back(std::move(NR));
44cd4edf94SFlorian Hahn       continue;
45cd4edf94SFlorian Hahn     }
46cd4edf94SFlorian Hahn 
47cd4edf94SFlorian Hahn     // FIXME do not use copy
48cd4edf94SFlorian Hahn     for (unsigned R2 = R1 + 1; R2 < NumConstraints; R2++) {
49cd4edf94SFlorian Hahn       if (R1 == R2)
50cd4edf94SFlorian Hahn         continue;
51cd4edf94SFlorian Hahn 
52cd4edf94SFlorian Hahn       // FIXME: can we do better than just dropping things here?
53cd4edf94SFlorian Hahn       if (Constraints[R2][1] == 0)
54cd4edf94SFlorian Hahn         continue;
55cd4edf94SFlorian Hahn 
56cd4edf94SFlorian Hahn       if ((Constraints[R1][1] < 0 && Constraints[R2][1] < 0) ||
57cd4edf94SFlorian Hahn           (Constraints[R1][1] > 0 && Constraints[R2][1] > 0))
58cd4edf94SFlorian Hahn         continue;
59cd4edf94SFlorian Hahn 
60cd4edf94SFlorian Hahn       unsigned LowerR = R1;
61cd4edf94SFlorian Hahn       unsigned UpperR = R2;
62cd4edf94SFlorian Hahn       if (Constraints[UpperR][1] < 0)
63cd4edf94SFlorian Hahn         std::swap(LowerR, UpperR);
64cd4edf94SFlorian Hahn 
65cd4edf94SFlorian Hahn       SmallVector<int64_t, 8> NR;
66cd4edf94SFlorian Hahn       for (unsigned I = 0; I < NumVariables; I++) {
67cd4edf94SFlorian Hahn         if (I == 1)
68cd4edf94SFlorian Hahn           continue;
69cd4edf94SFlorian Hahn 
70cd4edf94SFlorian Hahn         int64_t M1, M2, N;
71cd4edf94SFlorian Hahn         if (MulOverflow(Constraints[UpperR][I],
72cd4edf94SFlorian Hahn                                    ((-1) * Constraints[LowerR][1] / GCD), M1))
73cd4edf94SFlorian Hahn           return false;
74cd4edf94SFlorian Hahn         if (MulOverflow(Constraints[LowerR][I],
75cd4edf94SFlorian Hahn                                    (Constraints[UpperR][1] / GCD), M2))
76cd4edf94SFlorian Hahn           return false;
77cd4edf94SFlorian Hahn         if (AddOverflow(M1, M2, N))
78cd4edf94SFlorian Hahn           return false;
79cd4edf94SFlorian Hahn         NR.push_back(N);
80cd4edf94SFlorian Hahn 
81cd4edf94SFlorian Hahn         NewGCD = APIntOps::GreatestCommonDivisor({32, (uint32_t)NR.back()},
82cd4edf94SFlorian Hahn                                                  {32, NewGCD})
83cd4edf94SFlorian Hahn                      .getZExtValue();
84cd4edf94SFlorian Hahn       }
85cd4edf94SFlorian Hahn       NewSystem.push_back(std::move(NR));
86f19876c5SFlorian Hahn       // Give up if the new system gets too big.
87f19876c5SFlorian Hahn       if (NewSystem.size() > 500)
88f19876c5SFlorian Hahn         return false;
89cd4edf94SFlorian Hahn     }
90cd4edf94SFlorian Hahn   }
91cd4edf94SFlorian Hahn   Constraints = std::move(NewSystem);
92cd4edf94SFlorian Hahn   GCD = NewGCD;
93cd4edf94SFlorian Hahn 
94cd4edf94SFlorian Hahn   return true;
95cd4edf94SFlorian Hahn }
96cd4edf94SFlorian Hahn 
mayHaveSolutionImpl()97cd4edf94SFlorian Hahn bool ConstraintSystem::mayHaveSolutionImpl() {
98cd4edf94SFlorian Hahn   while (!Constraints.empty() && Constraints[0].size() > 1) {
99cd4edf94SFlorian Hahn     if (!eliminateUsingFM())
100cd4edf94SFlorian Hahn       return true;
101cd4edf94SFlorian Hahn   }
102cd4edf94SFlorian Hahn 
103cd4edf94SFlorian Hahn   if (Constraints.empty() || Constraints[0].size() > 1)
104cd4edf94SFlorian Hahn     return true;
105cd4edf94SFlorian Hahn 
106cd4edf94SFlorian Hahn   return all_of(Constraints, [](auto &R) { return R[0] >= 0; });
107cd4edf94SFlorian Hahn }
108cd4edf94SFlorian Hahn 
dump(ArrayRef<std::string> Names) const109cd4edf94SFlorian Hahn void ConstraintSystem::dump(ArrayRef<std::string> Names) const {
110cd4edf94SFlorian Hahn   if (Constraints.empty())
111cd4edf94SFlorian Hahn     return;
112cd4edf94SFlorian Hahn 
113*601b3a13SKazu Hirata   for (const auto &Row : Constraints) {
114cd4edf94SFlorian Hahn     SmallVector<std::string, 16> Parts;
115cd4edf94SFlorian Hahn     for (unsigned I = 1, S = Row.size(); I < S; ++I) {
116cd4edf94SFlorian Hahn       if (Row[I] == 0)
117cd4edf94SFlorian Hahn         continue;
11812fc9ca3SKazu Hirata       std::string Coefficient;
119cd4edf94SFlorian Hahn       if (Row[I] != 1)
120cd4edf94SFlorian Hahn         Coefficient = std::to_string(Row[I]) + " * ";
121cd4edf94SFlorian Hahn       Parts.push_back(Coefficient + Names[I - 1]);
122cd4edf94SFlorian Hahn     }
123cd4edf94SFlorian Hahn     assert(!Parts.empty() && "need to have at least some parts");
124cd4edf94SFlorian Hahn     LLVM_DEBUG(dbgs() << join(Parts, std::string(" + "))
125cd4edf94SFlorian Hahn                       << " <= " << std::to_string(Row[0]) << "\n");
126cd4edf94SFlorian Hahn   }
127cd4edf94SFlorian Hahn }
128cd4edf94SFlorian Hahn 
dump() const129cd4edf94SFlorian Hahn void ConstraintSystem::dump() const {
130cd4edf94SFlorian Hahn   SmallVector<std::string, 16> Names;
131cd4edf94SFlorian Hahn   for (unsigned i = 1; i < Constraints.back().size(); ++i)
132cd4edf94SFlorian Hahn     Names.push_back("x" + std::to_string(i));
133cd4edf94SFlorian Hahn   LLVM_DEBUG(dbgs() << "---\n");
134cd4edf94SFlorian Hahn   dump(Names);
135cd4edf94SFlorian Hahn }
136cd4edf94SFlorian Hahn 
mayHaveSolution()137cd4edf94SFlorian Hahn bool ConstraintSystem::mayHaveSolution() {
1384e5c0c2aSFlorian Hahn   LLVM_DEBUG(dump());
139cd4edf94SFlorian Hahn   bool HasSolution = mayHaveSolutionImpl();
140cd4edf94SFlorian Hahn   LLVM_DEBUG(dbgs() << (HasSolution ? "sat" : "unsat") << "\n");
141cd4edf94SFlorian Hahn   return HasSolution;
142cd4edf94SFlorian Hahn }
143db22e70dSFlorian Hahn 
isConditionImplied(SmallVector<int64_t,8> R) const1441ca02bddSFlorian Hahn bool ConstraintSystem::isConditionImplied(SmallVector<int64_t, 8> R) const {
1454ceecc82SFlorian Hahn   // If all variable coefficients are 0, we have 'C >= 0'. If the constant is >=
1464ceecc82SFlorian Hahn   // 0, R is always true, regardless of the system.
1474ceecc82SFlorian Hahn   if (all_of(makeArrayRef(R).drop_front(1), [](int64_t C) { return C == 0; }))
1484ceecc82SFlorian Hahn     return R[0] >= 0;
1494ceecc82SFlorian Hahn 
150db22e70dSFlorian Hahn   // If there is no solution with the negation of R added to the system, the
151db22e70dSFlorian Hahn   // condition must hold based on the existing constraints.
152db22e70dSFlorian Hahn   R = ConstraintSystem::negate(R);
153db22e70dSFlorian Hahn 
154db22e70dSFlorian Hahn   auto NewSystem = *this;
155db22e70dSFlorian Hahn   NewSystem.addVariableRow(R);
156db22e70dSFlorian Hahn   return !NewSystem.mayHaveSolution();
157db22e70dSFlorian Hahn }
158