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model_cache.cc
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model_cache.cc
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// Copyright 2010-2024 Google LLC
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include <cstdint>
#include <string>
#include <vector>
#include "ortools/base/commandlineflags.h"
#include "ortools/base/logging.h"
#include "ortools/base/stl_util.h"
#include "ortools/base/types.h"
#include "ortools/constraint_solver/constraint_solver.h"
#include "ortools/constraint_solver/constraint_solveri.h"
ABSL_DECLARE_FLAG(int, cache_initial_size);
ABSL_FLAG(bool, cp_disable_cache, false, "Disable caching of model objects");
namespace operations_research {
// ----- ModelCache -----
ModelCache::ModelCache(Solver* const solver) : solver_(solver) {}
ModelCache::~ModelCache() {}
Solver* ModelCache::solver() const { return solver_; }
namespace {
// ----- Helpers -----
template <class T>
bool IsEqual(const T& a1, const T& a2) {
return a1 == a2;
}
template <class T>
bool IsEqual(const std::vector<T*>& a1, const std::vector<T*>& a2) {
if (a1.size() != a2.size()) {
return false;
}
for (int i = 0; i < a1.size(); ++i) {
if (a1[i] != a2[i]) {
return false;
}
}
return true;
}
template <class A1, class A2>
uint64_t Hash2(const A1& a1, const A2& a2) {
uint64_t a = Hash1(a1);
uint64_t b = uint64_t{0xe08c1d668b756f82}; // more of the golden ratio
uint64_t c = Hash1(a2);
mix(a, b, c);
return c;
}
template <class A1, class A2, class A3>
uint64_t Hash3(const A1& a1, const A2& a2, const A3& a3) {
uint64_t a = Hash1(a1);
uint64_t b = Hash1(a2);
uint64_t c = Hash1(a3);
mix(a, b, c);
return c;
}
template <class A1, class A2, class A3, class A4>
uint64_t Hash4(const A1& a1, const A2& a2, const A3& a3, const A4& a4) {
uint64_t a = Hash1(a1);
uint64_t b = Hash1(a2);
uint64_t c = Hash2(a3, a4);
mix(a, b, c);
return c;
}
template <class C>
void Double(C*** array_ptr, int* size_ptr) {
DCHECK(array_ptr != nullptr);
DCHECK(size_ptr != nullptr);
C** const old_cell_array = *array_ptr;
const int old_size = *size_ptr;
(*size_ptr) *= 2;
(*array_ptr) = new C*[(*size_ptr)];
memset(*array_ptr, 0, (*size_ptr) * sizeof(**array_ptr));
for (int i = 0; i < old_size; ++i) {
C* tmp = old_cell_array[i];
while (tmp != nullptr) {
C* const to_reinsert = tmp;
tmp = tmp->next();
const uint64_t position = to_reinsert->Hash() % (*size_ptr);
to_reinsert->set_next((*array_ptr)[position]);
(*array_ptr)[position] = to_reinsert;
}
}
delete[] (old_cell_array);
}
// ----- Cache objects built with 1 object -----
template <class C, class A1>
class Cache1 {
public:
Cache1()
: array_(new Cell*[absl::GetFlag(FLAGS_cache_initial_size)]),
size_(absl::GetFlag(FLAGS_cache_initial_size)),
num_items_(0) {
memset(array_, 0, sizeof(*array_) * size_);
}
~Cache1() {
for (int i = 0; i < size_; ++i) {
Cell* tmp = array_[i];
while (tmp != nullptr) {
Cell* const to_delete = tmp;
tmp = tmp->next();
delete to_delete;
}
}
delete[] array_;
}
void Clear() {
for (int i = 0; i < size_; ++i) {
Cell* tmp = array_[i];
while (tmp != nullptr) {
Cell* const to_delete = tmp;
tmp = tmp->next();
delete to_delete;
}
array_[i] = nullptr;
}
}
C* Find(const A1& a1) const {
uint64_t code = Hash1(a1) % size_;
Cell* tmp = array_[code];
while (tmp) {
C* const result = tmp->ReturnsIfEqual(a1);
if (result != nullptr) {
return result;
}
tmp = tmp->next();
}
return nullptr;
}
void UnsafeInsert(const A1& a1, C* const c) {
const int position = Hash1(a1) % size_;
Cell* const cell = new Cell(a1, c, array_[position]);
array_[position] = cell;
if (++num_items_ > 2 * size_) {
Double(&array_, &size_);
}
}
private:
class Cell {
public:
Cell(const A1& a1, C* const container, Cell* const next)
: a1_(a1), container_(container), next_(next) {}
C* ReturnsIfEqual(const A1& a1) const {
if (IsEqual(a1_, a1)) {
return container_;
}
return nullptr;
}
uint64_t Hash() const { return Hash1(a1_); }
void set_next(Cell* const next) { next_ = next; }
Cell* next() const { return next_; }
private:
const A1 a1_;
C* const container_;
Cell* next_;
};
Cell** array_;
int size_;
int num_items_;
};
// ----- Cache objects built with 2 objects -----
template <class C, class A1, class A2>
class Cache2 {
public:
Cache2()
: array_(new Cell*[absl::GetFlag(FLAGS_cache_initial_size)]),
size_(absl::GetFlag(FLAGS_cache_initial_size)),
num_items_(0) {
memset(array_, 0, sizeof(*array_) * size_);
}
~Cache2() {
for (int i = 0; i < size_; ++i) {
Cell* tmp = array_[i];
while (tmp != nullptr) {
Cell* const to_delete = tmp;
tmp = tmp->next();
delete to_delete;
}
}
delete[] array_;
}
void Clear() {
for (int i = 0; i < size_; ++i) {
Cell* tmp = array_[i];
while (tmp != nullptr) {
Cell* const to_delete = tmp;
tmp = tmp->next();
delete to_delete;
}
array_[i] = nullptr;
}
}
C* Find(const A1& a1, const A2& a2) const {
uint64_t code = Hash2(a1, a2) % size_;
Cell* tmp = array_[code];
while (tmp) {
C* const result = tmp->ReturnsIfEqual(a1, a2);
if (result != nullptr) {
return result;
}
tmp = tmp->next();
}
return nullptr;
}
void UnsafeInsert(const A1& a1, const A2& a2, C* const c) {
const int position = Hash2(a1, a2) % size_;
Cell* const cell = new Cell(a1, a2, c, array_[position]);
array_[position] = cell;
if (++num_items_ > 2 * size_) {
Double(&array_, &size_);
}
}
private:
class Cell {
public:
Cell(const A1& a1, const A2& a2, C* const container, Cell* const next)
: a1_(a1), a2_(a2), container_(container), next_(next) {}
C* ReturnsIfEqual(const A1& a1, const A2& a2) const {
if (IsEqual(a1_, a1) && IsEqual(a2_, a2)) {
return container_;
}
return nullptr;
}
uint64_t Hash() const { return Hash2(a1_, a2_); }
void set_next(Cell* const next) { next_ = next; }
Cell* next() const { return next_; }
private:
const A1 a1_;
const A2 a2_;
C* const container_;
Cell* next_;
};
Cell** array_;
int size_;
int num_items_;
};
// ----- Cache objects built with 2 objects -----
template <class C, class A1, class A2, class A3>
class Cache3 {
public:
Cache3()
: array_(new Cell*[absl::GetFlag(FLAGS_cache_initial_size)]),
size_(absl::GetFlag(FLAGS_cache_initial_size)),
num_items_(0) {
memset(array_, 0, sizeof(*array_) * size_);
}
~Cache3() {
for (int i = 0; i < size_; ++i) {
Cell* tmp = array_[i];
while (tmp != nullptr) {
Cell* const to_delete = tmp;
tmp = tmp->next();
delete to_delete;
}
}
delete[] array_;
}
void Clear() {
for (int i = 0; i < size_; ++i) {
Cell* tmp = array_[i];
while (tmp != nullptr) {
Cell* const to_delete = tmp;
tmp = tmp->next();
delete to_delete;
}
array_[i] = nullptr;
}
}
C* Find(const A1& a1, const A2& a2, const A3& a3) const {
uint64_t code = Hash3(a1, a2, a3) % size_;
Cell* tmp = array_[code];
while (tmp) {
C* const result = tmp->ReturnsIfEqual(a1, a2, a3);
if (result != nullptr) {
return result;
}
tmp = tmp->next();
}
return nullptr;
}
void UnsafeInsert(const A1& a1, const A2& a2, const A3& a3, C* const c) {
const int position = Hash3(a1, a2, a3) % size_;
Cell* const cell = new Cell(a1, a2, a3, c, array_[position]);
array_[position] = cell;
if (++num_items_ > 2 * size_) {
Double(&array_, &size_);
}
}
private:
class Cell {
public:
Cell(const A1& a1, const A2& a2, const A3& a3, C* const container,
Cell* const next)
: a1_(a1), a2_(a2), a3_(a3), container_(container), next_(next) {}
C* ReturnsIfEqual(const A1& a1, const A2& a2, const A3& a3) const {
if (IsEqual(a1_, a1) && IsEqual(a2_, a2) && IsEqual(a3_, a3)) {
return container_;
}
return nullptr;
}
uint64_t Hash() const { return Hash3(a1_, a2_, a3_); }
void set_next(Cell* const next) { next_ = next; }
Cell* next() const { return next_; }
private:
const A1 a1_;
const A2 a2_;
const A3 a3_;
C* const container_;
Cell* next_;
};
Cell** array_;
int size_;
int num_items_;
};
// ----- Model Cache -----
class NonReversibleCache : public ModelCache {
public:
typedef Cache1<IntExpr, IntExpr*> ExprIntExprCache;
typedef Cache1<IntExpr, std::vector<IntVar*> > VarArrayIntExprCache;
typedef Cache2<Constraint, IntVar*, int64_t> VarConstantConstraintCache;
typedef Cache2<Constraint, IntExpr*, IntExpr*> ExprExprConstraintCache;
typedef Cache2<IntExpr, IntVar*, int64_t> VarConstantIntExprCache;
typedef Cache2<IntExpr, IntExpr*, int64_t> ExprConstantIntExprCache;
typedef Cache2<IntExpr, IntExpr*, IntExpr*> ExprExprIntExprCache;
typedef Cache2<IntExpr, IntVar*, const std::vector<int64_t>&>
VarConstantArrayIntExprCache;
typedef Cache2<IntExpr, std::vector<IntVar*>, const std::vector<int64_t>&>
VarArrayConstantArrayIntExprCache;
typedef Cache2<IntExpr, std::vector<IntVar*>, int64_t>
VarArrayConstantIntExprCache;
typedef Cache3<IntExpr, IntVar*, int64_t, int64_t>
VarConstantConstantIntExprCache;
typedef Cache3<Constraint, IntVar*, int64_t, int64_t>
VarConstantConstantConstraintCache;
typedef Cache3<IntExpr, IntExpr*, IntExpr*, int64_t>
ExprExprConstantIntExprCache;
explicit NonReversibleCache(Solver* const solver)
: ModelCache(solver), void_constraints_(VOID_CONSTRAINT_MAX, nullptr) {
for (int i = 0; i < VAR_CONSTANT_CONSTRAINT_MAX; ++i) {
var_constant_constraints_.push_back(new VarConstantConstraintCache);
}
for (int i = 0; i < EXPR_EXPR_CONSTRAINT_MAX; ++i) {
expr_expr_constraints_.push_back(new ExprExprConstraintCache);
}
for (int i = 0; i < VAR_CONSTANT_CONSTANT_CONSTRAINT_MAX; ++i) {
var_constant_constant_constraints_.push_back(
new VarConstantConstantConstraintCache);
}
for (int i = 0; i < EXPR_EXPRESSION_MAX; ++i) {
expr_expressions_.push_back(new ExprIntExprCache);
}
for (int i = 0; i < EXPR_CONSTANT_EXPRESSION_MAX; ++i) {
expr_constant_expressions_.push_back(new ExprConstantIntExprCache);
}
for (int i = 0; i < EXPR_EXPR_EXPRESSION_MAX; ++i) {
expr_expr_expressions_.push_back(new ExprExprIntExprCache);
}
for (int i = 0; i < VAR_CONSTANT_CONSTANT_EXPRESSION_MAX; ++i) {
var_constant_constant_expressions_.push_back(
new VarConstantConstantIntExprCache);
}
for (int i = 0; i < VAR_CONSTANT_ARRAY_EXPRESSION_MAX; ++i) {
var_constant_array_expressions_.push_back(
new VarConstantArrayIntExprCache);
}
for (int i = 0; i < VAR_ARRAY_EXPRESSION_MAX; ++i) {
var_array_expressions_.push_back(new VarArrayIntExprCache);
}
for (int i = 0; i < VAR_ARRAY_CONSTANT_ARRAY_EXPRESSION_MAX; ++i) {
var_array_constant_array_expressions_.push_back(
new VarArrayConstantArrayIntExprCache);
}
for (int i = 0; i < VAR_ARRAY_CONSTANT_EXPRESSION_MAX; ++i) {
var_array_constant_expressions_.push_back(
new VarArrayConstantIntExprCache);
}
for (int i = 0; i < EXPR_EXPR_CONSTANT_EXPRESSION_MAX; ++i) {
expr_expr_constant_expressions_.push_back(
new ExprExprConstantIntExprCache);
}
}
~NonReversibleCache() override {
gtl::STLDeleteElements(&var_constant_constraints_);
gtl::STLDeleteElements(&expr_expr_constraints_);
gtl::STLDeleteElements(&var_constant_constant_constraints_);
gtl::STLDeleteElements(&expr_expressions_);
gtl::STLDeleteElements(&expr_constant_expressions_);
gtl::STLDeleteElements(&expr_expr_expressions_);
gtl::STLDeleteElements(&var_constant_constant_expressions_);
gtl::STLDeleteElements(&var_constant_array_expressions_);
gtl::STLDeleteElements(&var_array_expressions_);
gtl::STLDeleteElements(&var_array_constant_array_expressions_);
gtl::STLDeleteElements(&var_array_constant_expressions_);
gtl::STLDeleteElements(&expr_expr_constant_expressions_);
}
void Clear() override {
for (int i = 0; i < VAR_CONSTANT_CONSTRAINT_MAX; ++i) {
var_constant_constraints_[i]->Clear();
}
for (int i = 0; i < EXPR_EXPR_CONSTRAINT_MAX; ++i) {
expr_expr_constraints_[i]->Clear();
}
for (int i = 0; i < VAR_CONSTANT_CONSTANT_CONSTRAINT_MAX; ++i) {
var_constant_constant_constraints_[i]->Clear();
}
for (int i = 0; i < EXPR_EXPRESSION_MAX; ++i) {
expr_expressions_[i]->Clear();
}
for (int i = 0; i < EXPR_CONSTANT_EXPRESSION_MAX; ++i) {
expr_constant_expressions_[i]->Clear();
}
for (int i = 0; i < EXPR_EXPR_EXPRESSION_MAX; ++i) {
expr_expr_expressions_[i]->Clear();
}
for (int i = 0; i < VAR_CONSTANT_CONSTANT_EXPRESSION_MAX; ++i) {
var_constant_constant_expressions_[i]->Clear();
}
for (int i = 0; i < VAR_CONSTANT_ARRAY_EXPRESSION_MAX; ++i) {
var_constant_array_expressions_[i]->Clear();
}
for (int i = 0; i < VAR_ARRAY_EXPRESSION_MAX; ++i) {
var_array_expressions_[i]->Clear();
}
for (int i = 0; i < VAR_ARRAY_CONSTANT_ARRAY_EXPRESSION_MAX; ++i) {
var_array_constant_array_expressions_[i]->Clear();
}
for (int i = 0; i < VAR_ARRAY_CONSTANT_EXPRESSION_MAX; ++i) {
var_array_constant_expressions_[i]->Clear();
}
for (int i = 0; i < EXPR_EXPR_CONSTANT_EXPRESSION_MAX; ++i) {
expr_expr_constant_expressions_[i]->Clear();
}
}
// Void Constraint.-
Constraint* FindVoidConstraint(VoidConstraintType type) const override {
DCHECK_GE(type, 0);
DCHECK_LT(type, VOID_CONSTRAINT_MAX);
return void_constraints_[type];
}
void InsertVoidConstraint(Constraint* const ct,
VoidConstraintType type) override {
DCHECK_GE(type, 0);
DCHECK_LT(type, VOID_CONSTRAINT_MAX);
DCHECK(ct != nullptr);
if (solver()->state() == Solver::OUTSIDE_SEARCH &&
!absl::GetFlag(FLAGS_cp_disable_cache)) {
void_constraints_[type] = ct;
}
}
// VarConstantConstraint.
Constraint* FindVarConstantConstraint(
IntVar* const var, int64_t value,
VarConstantConstraintType type) const override {
DCHECK(var != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_CONSTANT_CONSTRAINT_MAX);
return var_constant_constraints_[type]->Find(var, value);
}
void InsertVarConstantConstraint(Constraint* const ct, IntVar* const var,
int64_t value,
VarConstantConstraintType type) override {
DCHECK(ct != nullptr);
DCHECK(var != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_CONSTANT_CONSTRAINT_MAX);
if (solver()->state() == Solver::OUTSIDE_SEARCH &&
!absl::GetFlag(FLAGS_cp_disable_cache) &&
var_constant_constraints_[type]->Find(var, value) == nullptr) {
var_constant_constraints_[type]->UnsafeInsert(var, value, ct);
}
}
// Var Constant Constant Constraint.
Constraint* FindVarConstantConstantConstraint(
IntVar* const var, int64_t value1, int64_t value2,
VarConstantConstantConstraintType type) const override {
DCHECK(var != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_CONSTANT_CONSTANT_CONSTRAINT_MAX);
return var_constant_constant_constraints_[type]->Find(var, value1, value2);
}
void InsertVarConstantConstantConstraint(
Constraint* const ct, IntVar* const var, int64_t value1, int64_t value2,
VarConstantConstantConstraintType type) override {
DCHECK(ct != nullptr);
DCHECK(var != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_CONSTANT_CONSTANT_CONSTRAINT_MAX);
if (solver()->state() == Solver::OUTSIDE_SEARCH &&
!absl::GetFlag(FLAGS_cp_disable_cache) &&
var_constant_constant_constraints_[type]->Find(var, value1, value2) ==
nullptr) {
var_constant_constant_constraints_[type]->UnsafeInsert(var, value1,
value2, ct);
}
}
// Var Var Constraint.
Constraint* FindExprExprConstraint(
IntExpr* const var1, IntExpr* const var2,
ExprExprConstraintType type) const override {
DCHECK(var1 != nullptr);
DCHECK(var2 != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, EXPR_EXPR_CONSTRAINT_MAX);
return expr_expr_constraints_[type]->Find(var1, var2);
}
void InsertExprExprConstraint(Constraint* const ct, IntExpr* const var1,
IntExpr* const var2,
ExprExprConstraintType type) override {
DCHECK(ct != nullptr);
DCHECK(var1 != nullptr);
DCHECK(var2 != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, EXPR_EXPR_CONSTRAINT_MAX);
if (solver()->state() == Solver::OUTSIDE_SEARCH &&
!absl::GetFlag(FLAGS_cp_disable_cache) &&
expr_expr_constraints_[type]->Find(var1, var2) == nullptr) {
expr_expr_constraints_[type]->UnsafeInsert(var1, var2, ct);
}
}
// Expr Expression.
IntExpr* FindExprExpression(IntExpr* const expr,
ExprExpressionType type) const override {
DCHECK(expr != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, EXPR_EXPRESSION_MAX);
return expr_expressions_[type]->Find(expr);
}
void InsertExprExpression(IntExpr* const expression, IntExpr* const expr,
ExprExpressionType type) override {
DCHECK(expression != nullptr);
DCHECK(expr != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, EXPR_EXPRESSION_MAX);
if (solver()->state() == Solver::OUTSIDE_SEARCH &&
!absl::GetFlag(FLAGS_cp_disable_cache) &&
expr_expressions_[type]->Find(expr) == nullptr) {
expr_expressions_[type]->UnsafeInsert(expr, expression);
}
}
// Expr Constant Expressions.
IntExpr* FindExprConstantExpression(
IntExpr* const expr, int64_t value,
ExprConstantExpressionType type) const override {
DCHECK(expr != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, EXPR_CONSTANT_EXPRESSION_MAX);
return expr_constant_expressions_[type]->Find(expr, value);
}
void InsertExprConstantExpression(IntExpr* const expression,
IntExpr* const expr, int64_t value,
ExprConstantExpressionType type) override {
DCHECK(expression != nullptr);
DCHECK(expr != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, EXPR_CONSTANT_EXPRESSION_MAX);
if (solver()->state() == Solver::OUTSIDE_SEARCH &&
!absl::GetFlag(FLAGS_cp_disable_cache) &&
expr_constant_expressions_[type]->Find(expr, value) == nullptr) {
expr_constant_expressions_[type]->UnsafeInsert(expr, value, expression);
}
}
// Expr Expr Expression.
IntExpr* FindExprExprExpression(IntExpr* const var1, IntExpr* const var2,
ExprExprExpressionType type) const override {
DCHECK(var1 != nullptr);
DCHECK(var2 != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, EXPR_EXPR_EXPRESSION_MAX);
return expr_expr_expressions_[type]->Find(var1, var2);
}
void InsertExprExprExpression(IntExpr* const expression, IntExpr* const var1,
IntExpr* const var2,
ExprExprExpressionType type) override {
DCHECK(expression != nullptr);
DCHECK(var1 != nullptr);
DCHECK(var2 != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, EXPR_EXPR_EXPRESSION_MAX);
if (solver()->state() == Solver::OUTSIDE_SEARCH &&
!absl::GetFlag(FLAGS_cp_disable_cache) &&
expr_expr_expressions_[type]->Find(var1, var2) == nullptr) {
expr_expr_expressions_[type]->UnsafeInsert(var1, var2, expression);
}
}
// Expr Expr Constant Expression.
IntExpr* FindExprExprConstantExpression(
IntExpr* const var1, IntExpr* const var2, int64_t constant,
ExprExprConstantExpressionType type) const override {
DCHECK(var1 != nullptr);
DCHECK(var2 != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, EXPR_EXPR_CONSTANT_EXPRESSION_MAX);
return expr_expr_constant_expressions_[type]->Find(var1, var2, constant);
}
void InsertExprExprConstantExpression(
IntExpr* const expression, IntExpr* const var1, IntExpr* const var2,
int64_t constant, ExprExprConstantExpressionType type) override {
DCHECK(expression != nullptr);
DCHECK(var1 != nullptr);
DCHECK(var2 != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, EXPR_EXPR_CONSTANT_EXPRESSION_MAX);
if (solver()->state() == Solver::OUTSIDE_SEARCH &&
!absl::GetFlag(FLAGS_cp_disable_cache) &&
expr_expr_constant_expressions_[type]->Find(var1, var2, constant) ==
nullptr) {
expr_expr_constant_expressions_[type]->UnsafeInsert(var1, var2, constant,
expression);
}
}
// Var Constant Constant Expression.
IntExpr* FindVarConstantConstantExpression(
IntVar* const var, int64_t value1, int64_t value2,
VarConstantConstantExpressionType type) const override {
DCHECK(var != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_CONSTANT_CONSTANT_EXPRESSION_MAX);
return var_constant_constant_expressions_[type]->Find(var, value1, value2);
}
void InsertVarConstantConstantExpression(
IntExpr* const expression, IntVar* const var, int64_t value1,
int64_t value2, VarConstantConstantExpressionType type) override {
DCHECK(expression != nullptr);
DCHECK(var != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_CONSTANT_CONSTANT_EXPRESSION_MAX);
if (solver()->state() == Solver::OUTSIDE_SEARCH &&
!absl::GetFlag(FLAGS_cp_disable_cache) &&
var_constant_constant_expressions_[type]->Find(var, value1, value2) ==
nullptr) {
var_constant_constant_expressions_[type]->UnsafeInsert(
var, value1, value2, expression);
}
}
// Var Constant Array Expression.
IntExpr* FindVarConstantArrayExpression(
IntVar* const var, const std::vector<int64_t>& values,
VarConstantArrayExpressionType type) const override {
DCHECK(var != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_CONSTANT_ARRAY_EXPRESSION_MAX);
return var_constant_array_expressions_[type]->Find(var, values);
}
void InsertVarConstantArrayExpression(
IntExpr* const expression, IntVar* const var,
const std::vector<int64_t>& values,
VarConstantArrayExpressionType type) override {
DCHECK(expression != nullptr);
DCHECK(var != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_CONSTANT_ARRAY_EXPRESSION_MAX);
if (solver()->state() == Solver::OUTSIDE_SEARCH &&
!absl::GetFlag(FLAGS_cp_disable_cache) &&
var_constant_array_expressions_[type]->Find(var, values) == nullptr) {
var_constant_array_expressions_[type]->UnsafeInsert(var, values,
expression);
}
}
// Var Array Expression.
IntExpr* FindVarArrayExpression(const std::vector<IntVar*>& vars,
VarArrayExpressionType type) const override {
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_ARRAY_EXPRESSION_MAX);
return var_array_expressions_[type]->Find(vars);
}
void InsertVarArrayExpression(IntExpr* const expression,
const std::vector<IntVar*>& vars,
VarArrayExpressionType type) override {
DCHECK(expression != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_ARRAY_EXPRESSION_MAX);
if (solver()->state() == Solver::OUTSIDE_SEARCH &&
!absl::GetFlag(FLAGS_cp_disable_cache) &&
var_array_expressions_[type]->Find(vars) == nullptr) {
var_array_expressions_[type]->UnsafeInsert(vars, expression);
}
}
// Var Array Constant Array Expressions.
IntExpr* FindVarArrayConstantArrayExpression(
const std::vector<IntVar*>& vars, const std::vector<int64_t>& values,
VarArrayConstantArrayExpressionType type) const override {
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_ARRAY_CONSTANT_ARRAY_EXPRESSION_MAX);
return var_array_constant_array_expressions_[type]->Find(vars, values);
}
void InsertVarArrayConstantArrayExpression(
IntExpr* const expression, const std::vector<IntVar*>& vars,
const std::vector<int64_t>& values,
VarArrayConstantArrayExpressionType type) override {
DCHECK(expression != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_ARRAY_CONSTANT_ARRAY_EXPRESSION_MAX);
if (solver()->state() != Solver::IN_SEARCH &&
var_array_constant_array_expressions_[type]->Find(vars, values) ==
nullptr) {
var_array_constant_array_expressions_[type]->UnsafeInsert(vars, values,
expression);
}
}
// Var Array Constant Expressions.
IntExpr* FindVarArrayConstantExpression(
const std::vector<IntVar*>& vars, int64_t value,
VarArrayConstantExpressionType type) const override {
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_ARRAY_CONSTANT_EXPRESSION_MAX);
return var_array_constant_expressions_[type]->Find(vars, value);
}
void InsertVarArrayConstantExpression(
IntExpr* const expression, const std::vector<IntVar*>& vars,
int64_t value, VarArrayConstantExpressionType type) override {
DCHECK(expression != nullptr);
DCHECK_GE(type, 0);
DCHECK_LT(type, VAR_ARRAY_CONSTANT_EXPRESSION_MAX);
if (solver()->state() != Solver::IN_SEARCH &&
var_array_constant_expressions_[type]->Find(vars, value) == nullptr) {
var_array_constant_expressions_[type]->UnsafeInsert(vars, value,
expression);
}
}
private:
std::vector<Constraint*> void_constraints_;
std::vector<VarConstantConstraintCache*> var_constant_constraints_;
std::vector<ExprExprConstraintCache*> expr_expr_constraints_;
std::vector<VarConstantConstantConstraintCache*>
var_constant_constant_constraints_;
std::vector<ExprIntExprCache*> expr_expressions_;
std::vector<ExprConstantIntExprCache*> expr_constant_expressions_;
std::vector<ExprExprIntExprCache*> expr_expr_expressions_;
std::vector<VarConstantConstantIntExprCache*>
var_constant_constant_expressions_;
std::vector<VarConstantArrayIntExprCache*> var_constant_array_expressions_;
std::vector<VarArrayIntExprCache*> var_array_expressions_;
std::vector<VarArrayConstantArrayIntExprCache*>
var_array_constant_array_expressions_;
std::vector<VarArrayConstantIntExprCache*> var_array_constant_expressions_;
std::vector<ExprExprConstantIntExprCache*> expr_expr_constant_expressions_;
};
} // namespace
ModelCache* BuildModelCache(Solver* solver) {
return new NonReversibleCache(solver);
}
ModelCache* Solver::Cache() const { return model_cache_.get(); }
} // namespace operations_research