1 //===-- lib/Evaluate/shape.cpp --------------------------------------------===// 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 #include "flang/Evaluate/shape.h" 10 #include "flang/Common/idioms.h" 11 #include "flang/Common/template.h" 12 #include "flang/Evaluate/characteristics.h" 13 #include "flang/Evaluate/check-expression.h" 14 #include "flang/Evaluate/fold.h" 15 #include "flang/Evaluate/intrinsics.h" 16 #include "flang/Evaluate/tools.h" 17 #include "flang/Evaluate/type.h" 18 #include "flang/Parser/message.h" 19 #include "flang/Semantics/symbol.h" 20 #include <functional> 21 22 using namespace std::placeholders; // _1, _2, &c. for std::bind() 23 24 namespace Fortran::evaluate { 25 26 bool IsImpliedShape(const Symbol &original) { 27 const Symbol &symbol{ResolveAssociations(original)}; 28 const auto *details{symbol.detailsIf<semantics::ObjectEntityDetails>()}; 29 return details && symbol.attrs().test(semantics::Attr::PARAMETER) && 30 details->shape().CanBeImpliedShape(); 31 } 32 33 bool IsExplicitShape(const Symbol &original) { 34 const Symbol &symbol{ResolveAssociations(original)}; 35 if (const auto *details{symbol.detailsIf<semantics::ObjectEntityDetails>()}) { 36 const auto &shape{details->shape()}; 37 return shape.Rank() == 0 || 38 shape.IsExplicitShape(); // true when scalar, too 39 } else { 40 return symbol 41 .has<semantics::AssocEntityDetails>(); // exprs have explicit shape 42 } 43 } 44 45 Shape GetShapeHelper::ConstantShape(const Constant<ExtentType> &arrayConstant) { 46 CHECK(arrayConstant.Rank() == 1); 47 Shape result; 48 std::size_t dimensions{arrayConstant.size()}; 49 for (std::size_t j{0}; j < dimensions; ++j) { 50 Scalar<ExtentType> extent{arrayConstant.values().at(j)}; 51 result.emplace_back(MaybeExtentExpr{ExtentExpr{std::move(extent)}}); 52 } 53 return result; 54 } 55 56 auto GetShapeHelper::AsShapeResult(ExtentExpr &&arrayExpr) const -> Result { 57 if (context_) { 58 arrayExpr = Fold(*context_, std::move(arrayExpr)); 59 } 60 if (const auto *constArray{UnwrapConstantValue<ExtentType>(arrayExpr)}) { 61 return ConstantShape(*constArray); 62 } 63 if (auto *constructor{UnwrapExpr<ArrayConstructor<ExtentType>>(arrayExpr)}) { 64 Shape result; 65 for (auto &value : *constructor) { 66 auto *expr{std::get_if<ExtentExpr>(&value.u)}; 67 if (expr && expr->Rank() == 0) { 68 result.emplace_back(std::move(*expr)); 69 } else { 70 return std::nullopt; 71 } 72 } 73 return result; 74 } else { 75 return std::nullopt; 76 } 77 } 78 79 Shape GetShapeHelper::CreateShape(int rank, NamedEntity &base) { 80 Shape shape; 81 for (int dimension{0}; dimension < rank; ++dimension) { 82 shape.emplace_back(GetExtent(base, dimension)); 83 } 84 return shape; 85 } 86 87 std::optional<ExtentExpr> AsExtentArrayExpr(const Shape &shape) { 88 ArrayConstructorValues<ExtentType> values; 89 for (const auto &dim : shape) { 90 if (dim) { 91 values.Push(common::Clone(*dim)); 92 } else { 93 return std::nullopt; 94 } 95 } 96 return ExtentExpr{ArrayConstructor<ExtentType>{std::move(values)}}; 97 } 98 99 std::optional<Constant<ExtentType>> AsConstantShape( 100 FoldingContext &context, const Shape &shape) { 101 if (auto shapeArray{AsExtentArrayExpr(shape)}) { 102 auto folded{Fold(context, std::move(*shapeArray))}; 103 if (auto *p{UnwrapConstantValue<ExtentType>(folded)}) { 104 return std::move(*p); 105 } 106 } 107 return std::nullopt; 108 } 109 110 Constant<SubscriptInteger> AsConstantShape(const ConstantSubscripts &shape) { 111 using IntType = Scalar<SubscriptInteger>; 112 std::vector<IntType> result; 113 for (auto dim : shape) { 114 result.emplace_back(dim); 115 } 116 return {std::move(result), ConstantSubscripts{GetRank(shape)}}; 117 } 118 119 ConstantSubscripts AsConstantExtents(const Constant<ExtentType> &shape) { 120 ConstantSubscripts result; 121 for (const auto &extent : shape.values()) { 122 result.push_back(extent.ToInt64()); 123 } 124 return result; 125 } 126 127 std::optional<ConstantSubscripts> AsConstantExtents( 128 FoldingContext &context, const Shape &shape) { 129 if (auto shapeConstant{AsConstantShape(context, shape)}) { 130 return AsConstantExtents(*shapeConstant); 131 } else { 132 return std::nullopt; 133 } 134 } 135 136 Shape AsShape(const ConstantSubscripts &shape) { 137 Shape result; 138 for (const auto &extent : shape) { 139 result.emplace_back(ExtentExpr{extent}); 140 } 141 return result; 142 } 143 144 std::optional<Shape> AsShape(const std::optional<ConstantSubscripts> &shape) { 145 if (shape) { 146 return AsShape(*shape); 147 } else { 148 return std::nullopt; 149 } 150 } 151 152 Shape Fold(FoldingContext &context, Shape &&shape) { 153 for (auto &dim : shape) { 154 dim = Fold(context, std::move(dim)); 155 } 156 return std::move(shape); 157 } 158 159 std::optional<Shape> Fold( 160 FoldingContext &context, std::optional<Shape> &&shape) { 161 if (shape) { 162 return Fold(context, std::move(*shape)); 163 } else { 164 return std::nullopt; 165 } 166 } 167 168 static ExtentExpr ComputeTripCount( 169 ExtentExpr &&lower, ExtentExpr &&upper, ExtentExpr &&stride) { 170 ExtentExpr strideCopy{common::Clone(stride)}; 171 ExtentExpr span{ 172 (std::move(upper) - std::move(lower) + std::move(strideCopy)) / 173 std::move(stride)}; 174 return ExtentExpr{ 175 Extremum<ExtentType>{Ordering::Greater, std::move(span), ExtentExpr{0}}}; 176 } 177 178 ExtentExpr CountTrips( 179 ExtentExpr &&lower, ExtentExpr &&upper, ExtentExpr &&stride) { 180 return ComputeTripCount( 181 std::move(lower), std::move(upper), std::move(stride)); 182 } 183 184 ExtentExpr CountTrips(const ExtentExpr &lower, const ExtentExpr &upper, 185 const ExtentExpr &stride) { 186 return ComputeTripCount( 187 common::Clone(lower), common::Clone(upper), common::Clone(stride)); 188 } 189 190 MaybeExtentExpr CountTrips(MaybeExtentExpr &&lower, MaybeExtentExpr &&upper, 191 MaybeExtentExpr &&stride) { 192 std::function<ExtentExpr(ExtentExpr &&, ExtentExpr &&, ExtentExpr &&)> bound{ 193 std::bind(ComputeTripCount, _1, _2, _3)}; 194 return common::MapOptional( 195 std::move(bound), std::move(lower), std::move(upper), std::move(stride)); 196 } 197 198 MaybeExtentExpr GetSize(Shape &&shape) { 199 ExtentExpr extent{1}; 200 for (auto &&dim : std::move(shape)) { 201 if (dim) { 202 extent = std::move(extent) * std::move(*dim); 203 } else { 204 return std::nullopt; 205 } 206 } 207 return extent; 208 } 209 210 ConstantSubscript GetSize(const ConstantSubscripts &shape) { 211 ConstantSubscript size{1}; 212 for (auto dim : shape) { 213 CHECK(dim >= 0); 214 size *= dim; 215 } 216 return size; 217 } 218 219 bool ContainsAnyImpliedDoIndex(const ExtentExpr &expr) { 220 struct MyVisitor : public AnyTraverse<MyVisitor> { 221 using Base = AnyTraverse<MyVisitor>; 222 MyVisitor() : Base{*this} {} 223 using Base::operator(); 224 bool operator()(const ImpliedDoIndex &) { return true; } 225 }; 226 return MyVisitor{}(expr); 227 } 228 229 // Determines lower bound on a dimension. This can be other than 1 only 230 // for a reference to a whole array object or component. (See LBOUND, 16.9.109). 231 // ASSOCIATE construct entities may require traversal of their referents. 232 template <typename RESULT, bool LBOUND_SEMANTICS> 233 class GetLowerBoundHelper 234 : public Traverse<GetLowerBoundHelper<RESULT, LBOUND_SEMANTICS>, RESULT> { 235 public: 236 using Result = RESULT; 237 using Base = Traverse<GetLowerBoundHelper, RESULT>; 238 using Base::operator(); 239 explicit GetLowerBoundHelper(int d, FoldingContext *context) 240 : Base{*this}, dimension_{d}, context_{context} {} 241 static Result Default() { return Result{1}; } 242 static Result Combine(Result &&, Result &&) { 243 // Operator results and array references always have lower bounds == 1 244 return Result{1}; 245 } 246 247 Result GetLowerBound(const Symbol &symbol0, NamedEntity &&base) const { 248 const Symbol &symbol{symbol0.GetUltimate()}; 249 if (const auto *details{ 250 symbol.detailsIf<semantics::ObjectEntityDetails>()}) { 251 int rank{details->shape().Rank()}; 252 if (dimension_ < rank) { 253 const semantics::ShapeSpec &shapeSpec{details->shape()[dimension_]}; 254 if (shapeSpec.lbound().isExplicit()) { 255 if (const auto &lbound{shapeSpec.lbound().GetExplicit()}) { 256 if constexpr (LBOUND_SEMANTICS) { 257 bool ok{false}; 258 auto lbValue{ToInt64(*lbound)}; 259 if (dimension_ == rank - 1 && details->IsAssumedSize()) { 260 // last dimension of assumed-size dummy array: don't worry 261 // about handling an empty dimension 262 ok = IsScopeInvariantExpr(*lbound); 263 } else if (lbValue.value_or(0) == 1) { 264 // Lower bound is 1, regardless of extent 265 ok = true; 266 } else if (const auto &ubound{shapeSpec.ubound().GetExplicit()}) { 267 // If we can't prove that the dimension is nonempty, 268 // we must be conservative. 269 // TODO: simple symbolic math in expression rewriting to 270 // cope with cases like A(J:J) 271 if (context_) { 272 auto extent{ToInt64(Fold(*context_, 273 ExtentExpr{*ubound} - ExtentExpr{*lbound} + 274 ExtentExpr{1}))}; 275 if (extent) { 276 if (extent <= 0) { 277 return Result{1}; 278 } 279 ok = true; 280 } else { 281 ok = false; 282 } 283 } else { 284 auto ubValue{ToInt64(*ubound)}; 285 if (lbValue && ubValue) { 286 if (*lbValue > *ubValue) { 287 return Result{1}; 288 } 289 ok = true; 290 } else { 291 ok = false; 292 } 293 } 294 } 295 return ok ? *lbound : Result{}; 296 } else { 297 return *lbound; 298 } 299 } else { 300 return Result{1}; 301 } 302 } 303 if (IsDescriptor(symbol)) { 304 return ExtentExpr{DescriptorInquiry{std::move(base), 305 DescriptorInquiry::Field::LowerBound, dimension_}}; 306 } 307 } 308 } else if (const auto *assoc{ 309 symbol.detailsIf<semantics::AssocEntityDetails>()}) { 310 if (assoc->rank()) { // SELECT RANK case 311 const Symbol &resolved{ResolveAssociations(symbol)}; 312 if (IsDescriptor(resolved) && dimension_ < *assoc->rank()) { 313 return ExtentExpr{DescriptorInquiry{std::move(base), 314 DescriptorInquiry::Field::LowerBound, dimension_}}; 315 } 316 } else { 317 return (*this)(assoc->expr()); 318 } 319 } 320 if constexpr (LBOUND_SEMANTICS) { 321 return Result{}; 322 } else { 323 return Result{1}; 324 } 325 } 326 327 Result operator()(const Symbol &symbol0) const { 328 return GetLowerBound(symbol0, NamedEntity{symbol0}); 329 } 330 331 Result operator()(const Component &component) const { 332 if (component.base().Rank() == 0) { 333 return GetLowerBound( 334 component.GetLastSymbol(), NamedEntity{common::Clone(component)}); 335 } 336 return Result{1}; 337 } 338 339 private: 340 int dimension_; 341 FoldingContext *context_{nullptr}; 342 }; 343 344 ExtentExpr GetRawLowerBound(const NamedEntity &base, int dimension) { 345 return GetLowerBoundHelper<ExtentExpr, false>{dimension, nullptr}(base); 346 } 347 348 ExtentExpr GetRawLowerBound( 349 FoldingContext &context, const NamedEntity &base, int dimension) { 350 return Fold(context, 351 GetLowerBoundHelper<ExtentExpr, false>{dimension, &context}(base)); 352 } 353 354 MaybeExtentExpr GetLBOUND(const NamedEntity &base, int dimension) { 355 return GetLowerBoundHelper<MaybeExtentExpr, true>{dimension, nullptr}(base); 356 } 357 358 MaybeExtentExpr GetLBOUND( 359 FoldingContext &context, const NamedEntity &base, int dimension) { 360 return Fold(context, 361 GetLowerBoundHelper<MaybeExtentExpr, true>{dimension, &context}(base)); 362 } 363 364 Shape GetRawLowerBounds(const NamedEntity &base) { 365 Shape result; 366 int rank{base.Rank()}; 367 for (int dim{0}; dim < rank; ++dim) { 368 result.emplace_back(GetRawLowerBound(base, dim)); 369 } 370 return result; 371 } 372 373 Shape GetRawLowerBounds(FoldingContext &context, const NamedEntity &base) { 374 Shape result; 375 int rank{base.Rank()}; 376 for (int dim{0}; dim < rank; ++dim) { 377 result.emplace_back(GetRawLowerBound(context, base, dim)); 378 } 379 return result; 380 } 381 382 Shape GetLBOUNDs(const NamedEntity &base) { 383 Shape result; 384 int rank{base.Rank()}; 385 for (int dim{0}; dim < rank; ++dim) { 386 result.emplace_back(GetLBOUND(base, dim)); 387 } 388 return result; 389 } 390 391 Shape GetLBOUNDs(FoldingContext &context, const NamedEntity &base) { 392 Shape result; 393 int rank{base.Rank()}; 394 for (int dim{0}; dim < rank; ++dim) { 395 result.emplace_back(GetLBOUND(context, base, dim)); 396 } 397 return result; 398 } 399 400 // If the upper and lower bounds are constant, return a constant expression for 401 // the extent. In particular, if the upper bound is less than the lower bound, 402 // return zero. 403 static MaybeExtentExpr GetNonNegativeExtent( 404 const semantics::ShapeSpec &shapeSpec) { 405 const auto &ubound{shapeSpec.ubound().GetExplicit()}; 406 const auto &lbound{shapeSpec.lbound().GetExplicit()}; 407 std::optional<ConstantSubscript> uval{ToInt64(ubound)}; 408 std::optional<ConstantSubscript> lval{ToInt64(lbound)}; 409 if (uval && lval) { 410 if (*uval < *lval) { 411 return ExtentExpr{0}; 412 } else { 413 return ExtentExpr{*uval - *lval + 1}; 414 } 415 } else if (lbound && ubound && IsScopeInvariantExpr(*lbound) && 416 IsScopeInvariantExpr(*ubound)) { 417 // Apply effective IDIM (MAX calculation with 0) so thet the 418 // result is never negative 419 if (lval.value_or(0) == 1) { 420 return ExtentExpr{Extremum<SubscriptInteger>{ 421 Ordering::Greater, ExtentExpr{0}, common::Clone(*ubound)}}; 422 } else { 423 return ExtentExpr{ 424 Extremum<SubscriptInteger>{Ordering::Greater, ExtentExpr{0}, 425 common::Clone(*ubound) - common::Clone(*lbound) + ExtentExpr{1}}}; 426 } 427 } else { 428 return std::nullopt; 429 } 430 } 431 432 MaybeExtentExpr GetExtent(const NamedEntity &base, int dimension) { 433 CHECK(dimension >= 0); 434 const Symbol &last{base.GetLastSymbol()}; 435 const Symbol &symbol{ResolveAssociations(last)}; 436 if (const auto *assoc{last.detailsIf<semantics::AssocEntityDetails>()}) { 437 if (assoc->rank()) { // SELECT RANK case 438 if (semantics::IsDescriptor(symbol) && dimension < *assoc->rank()) { 439 return ExtentExpr{DescriptorInquiry{ 440 NamedEntity{base}, DescriptorInquiry::Field::Extent, dimension}}; 441 } 442 } else if (auto shape{GetShape(assoc->expr())}) { 443 if (dimension < static_cast<int>(shape->size())) { 444 return std::move(shape->at(dimension)); 445 } 446 } 447 } 448 if (const auto *details{symbol.detailsIf<semantics::ObjectEntityDetails>()}) { 449 if (IsImpliedShape(symbol) && details->init()) { 450 if (auto shape{GetShape(symbol)}) { 451 if (dimension < static_cast<int>(shape->size())) { 452 return std::move(shape->at(dimension)); 453 } 454 } 455 } else { 456 int j{0}; 457 for (const auto &shapeSpec : details->shape()) { 458 if (j++ == dimension) { 459 if (auto extent{GetNonNegativeExtent(shapeSpec)}) { 460 return extent; 461 } else if (details->IsAssumedSize() && j == symbol.Rank()) { 462 return std::nullopt; 463 } else if (semantics::IsDescriptor(symbol)) { 464 return ExtentExpr{DescriptorInquiry{NamedEntity{base}, 465 DescriptorInquiry::Field::Extent, dimension}}; 466 } else { 467 break; 468 } 469 } 470 } 471 } 472 } 473 return std::nullopt; 474 } 475 476 MaybeExtentExpr GetExtent( 477 FoldingContext &context, const NamedEntity &base, int dimension) { 478 return Fold(context, GetExtent(base, dimension)); 479 } 480 481 MaybeExtentExpr GetExtent( 482 const Subscript &subscript, const NamedEntity &base, int dimension) { 483 return std::visit( 484 common::visitors{ 485 [&](const Triplet &triplet) -> MaybeExtentExpr { 486 MaybeExtentExpr upper{triplet.upper()}; 487 if (!upper) { 488 upper = GetUBOUND(base, dimension); 489 } 490 MaybeExtentExpr lower{triplet.lower()}; 491 if (!lower) { 492 lower = GetLBOUND(base, dimension); 493 } 494 return CountTrips(std::move(lower), std::move(upper), 495 MaybeExtentExpr{triplet.stride()}); 496 }, 497 [&](const IndirectSubscriptIntegerExpr &subs) -> MaybeExtentExpr { 498 if (auto shape{GetShape(subs.value())}) { 499 if (GetRank(*shape) > 0) { 500 CHECK(GetRank(*shape) == 1); // vector-valued subscript 501 return std::move(shape->at(0)); 502 } 503 } 504 return std::nullopt; 505 }, 506 }, 507 subscript.u); 508 } 509 510 MaybeExtentExpr GetExtent(FoldingContext &context, const Subscript &subscript, 511 const NamedEntity &base, int dimension) { 512 return Fold(context, GetExtent(subscript, base, dimension)); 513 } 514 515 MaybeExtentExpr ComputeUpperBound( 516 ExtentExpr &&lower, MaybeExtentExpr &&extent) { 517 if (extent) { 518 if (ToInt64(lower).value_or(0) == 1) { 519 return std::move(*extent); 520 } else { 521 return std::move(*extent) + std::move(lower) - ExtentExpr{1}; 522 } 523 } else { 524 return std::nullopt; 525 } 526 } 527 528 MaybeExtentExpr ComputeUpperBound( 529 FoldingContext &context, ExtentExpr &&lower, MaybeExtentExpr &&extent) { 530 return Fold(context, ComputeUpperBound(std::move(lower), std::move(extent))); 531 } 532 533 MaybeExtentExpr GetRawUpperBound(const NamedEntity &base, int dimension) { 534 const Symbol &symbol{ResolveAssociations(base.GetLastSymbol())}; 535 if (const auto *details{symbol.detailsIf<semantics::ObjectEntityDetails>()}) { 536 int rank{details->shape().Rank()}; 537 if (dimension < rank) { 538 const auto &bound{details->shape()[dimension].ubound().GetExplicit()}; 539 if (bound && IsScopeInvariantExpr(*bound)) { 540 return *bound; 541 } else if (details->IsAssumedSize() && dimension + 1 == symbol.Rank()) { 542 return std::nullopt; 543 } else { 544 return ComputeUpperBound( 545 GetRawLowerBound(base, dimension), GetExtent(base, dimension)); 546 } 547 } 548 } else if (const auto *assoc{ 549 symbol.detailsIf<semantics::AssocEntityDetails>()}) { 550 if (auto shape{GetShape(assoc->expr())}) { 551 if (dimension < static_cast<int>(shape->size())) { 552 return ComputeUpperBound( 553 GetRawLowerBound(base, dimension), std::move(shape->at(dimension))); 554 } 555 } 556 } 557 return std::nullopt; 558 } 559 560 MaybeExtentExpr GetRawUpperBound( 561 FoldingContext &context, const NamedEntity &base, int dimension) { 562 return Fold(context, GetRawUpperBound(base, dimension)); 563 } 564 565 static MaybeExtentExpr GetExplicitUBOUND( 566 FoldingContext *context, const semantics::ShapeSpec &shapeSpec) { 567 const auto &ubound{shapeSpec.ubound().GetExplicit()}; 568 if (ubound && IsScopeInvariantExpr(*ubound)) { 569 if (auto extent{GetNonNegativeExtent(shapeSpec)}) { 570 if (auto cstExtent{ToInt64( 571 context ? Fold(*context, std::move(*extent)) : *extent)}) { 572 if (cstExtent > 0) { 573 return *ubound; 574 } else if (cstExtent == 0) { 575 return ExtentExpr{0}; 576 } 577 } 578 } 579 } 580 return std::nullopt; 581 } 582 583 static MaybeExtentExpr GetUBOUND( 584 FoldingContext *context, const NamedEntity &base, int dimension) { 585 const Symbol &symbol{ResolveAssociations(base.GetLastSymbol())}; 586 if (const auto *details{symbol.detailsIf<semantics::ObjectEntityDetails>()}) { 587 int rank{details->shape().Rank()}; 588 if (dimension < rank) { 589 const semantics::ShapeSpec &shapeSpec{details->shape()[dimension]}; 590 if (auto ubound{GetExplicitUBOUND(context, shapeSpec)}) { 591 return *ubound; 592 } else if (details->IsAssumedSize() && dimension + 1 == symbol.Rank()) { 593 return std::nullopt; 594 } else if (auto lb{GetLBOUND(base, dimension)}) { 595 return ComputeUpperBound(std::move(*lb), GetExtent(base, dimension)); 596 } 597 } 598 } else if (const auto *assoc{ 599 symbol.detailsIf<semantics::AssocEntityDetails>()}) { 600 if (auto shape{GetShape(assoc->expr())}) { 601 if (dimension < static_cast<int>(shape->size())) { 602 if (auto lb{GetLBOUND(base, dimension)}) { 603 return ComputeUpperBound( 604 std::move(*lb), std::move(shape->at(dimension))); 605 } 606 } 607 } 608 } 609 return std::nullopt; 610 } 611 612 MaybeExtentExpr GetUBOUND(const NamedEntity &base, int dimension) { 613 return GetUBOUND(nullptr, base, dimension); 614 } 615 616 MaybeExtentExpr GetUBOUND( 617 FoldingContext &context, const NamedEntity &base, int dimension) { 618 return Fold(context, GetUBOUND(&context, base, dimension)); 619 } 620 621 static Shape GetUBOUNDs(FoldingContext *context, const NamedEntity &base) { 622 const Symbol &symbol{ResolveAssociations(base.GetLastSymbol())}; 623 if (const auto *details{symbol.detailsIf<semantics::ObjectEntityDetails>()}) { 624 Shape result; 625 int dim{0}; 626 for (const auto &shapeSpec : details->shape()) { 627 if (auto ubound{GetExplicitUBOUND(context, shapeSpec)}) { 628 result.emplace_back(*ubound); 629 } else if (details->IsAssumedSize() && dim + 1 == base.Rank()) { 630 result.emplace_back(std::nullopt); // UBOUND folding replaces with -1 631 } else if (auto lb{GetLBOUND(base, dim)}) { 632 result.emplace_back( 633 ComputeUpperBound(std::move(*lb), GetExtent(base, dim))); 634 } else { 635 result.emplace_back(); // unknown 636 } 637 ++dim; 638 } 639 CHECK(GetRank(result) == symbol.Rank()); 640 return result; 641 } else { 642 return std::move(GetShape(symbol).value()); 643 } 644 } 645 646 Shape GetUBOUNDs(FoldingContext &context, const NamedEntity &base) { 647 return Fold(context, GetUBOUNDs(&context, base)); 648 } 649 650 Shape GetUBOUNDs(const NamedEntity &base) { return GetUBOUNDs(nullptr, base); } 651 652 auto GetShapeHelper::operator()(const Symbol &symbol) const -> Result { 653 return std::visit( 654 common::visitors{ 655 [&](const semantics::ObjectEntityDetails &object) { 656 if (IsImpliedShape(symbol) && object.init()) { 657 return (*this)(object.init()); 658 } else if (IsAssumedRank(symbol)) { 659 return Result{}; 660 } else { 661 int n{object.shape().Rank()}; 662 NamedEntity base{symbol}; 663 return Result{CreateShape(n, base)}; 664 } 665 }, 666 [](const semantics::EntityDetails &) { 667 return ScalarShape(); // no dimensions seen 668 }, 669 [&](const semantics::ProcEntityDetails &proc) { 670 if (const Symbol * interface{proc.interface().symbol()}) { 671 return (*this)(*interface); 672 } else { 673 return ScalarShape(); 674 } 675 }, 676 [&](const semantics::AssocEntityDetails &assoc) { 677 if (assoc.rank()) { // SELECT RANK case 678 int n{assoc.rank().value()}; 679 NamedEntity base{symbol}; 680 return Result{CreateShape(n, base)}; 681 } else { 682 return (*this)(assoc.expr()); 683 } 684 }, 685 [&](const semantics::SubprogramDetails &subp) -> Result { 686 if (subp.isFunction()) { 687 auto resultShape{(*this)(subp.result())}; 688 if (resultShape && !useResultSymbolShape_) { 689 // Ensure the shape is constant. Otherwise, it may be referring 690 // to symbols that belong to the subroutine scope and are 691 // meaningless on the caller side without the related call 692 // expression. 693 for (auto &extent : *resultShape) { 694 if (extent && !IsActuallyConstant(*extent)) { 695 extent.reset(); 696 } 697 } 698 } 699 return resultShape; 700 } else { 701 return Result{}; 702 } 703 }, 704 [&](const semantics::ProcBindingDetails &binding) { 705 return (*this)(binding.symbol()); 706 }, 707 [](const semantics::TypeParamDetails &) { return ScalarShape(); }, 708 [](const auto &) { return Result{}; }, 709 }, 710 symbol.GetUltimate().details()); 711 } 712 713 auto GetShapeHelper::operator()(const Component &component) const -> Result { 714 const Symbol &symbol{component.GetLastSymbol()}; 715 int rank{symbol.Rank()}; 716 if (rank == 0) { 717 return (*this)(component.base()); 718 } else if (symbol.has<semantics::ObjectEntityDetails>()) { 719 NamedEntity base{Component{component}}; 720 return CreateShape(rank, base); 721 } else if (symbol.has<semantics::AssocEntityDetails>()) { 722 NamedEntity base{Component{component}}; 723 return Result{CreateShape(rank, base)}; 724 } else { 725 return (*this)(symbol); 726 } 727 } 728 729 auto GetShapeHelper::operator()(const ArrayRef &arrayRef) const -> Result { 730 Shape shape; 731 int dimension{0}; 732 const NamedEntity &base{arrayRef.base()}; 733 for (const Subscript &ss : arrayRef.subscript()) { 734 if (ss.Rank() > 0) { 735 shape.emplace_back(GetExtent(ss, base, dimension)); 736 } 737 ++dimension; 738 } 739 if (shape.empty()) { 740 if (const Component * component{base.UnwrapComponent()}) { 741 return (*this)(component->base()); 742 } 743 } 744 return shape; 745 } 746 747 auto GetShapeHelper::operator()(const CoarrayRef &coarrayRef) const -> Result { 748 NamedEntity base{coarrayRef.GetBase()}; 749 if (coarrayRef.subscript().empty()) { 750 return (*this)(base); 751 } else { 752 Shape shape; 753 int dimension{0}; 754 for (const Subscript &ss : coarrayRef.subscript()) { 755 if (ss.Rank() > 0) { 756 shape.emplace_back(GetExtent(ss, base, dimension)); 757 } 758 ++dimension; 759 } 760 return shape; 761 } 762 } 763 764 auto GetShapeHelper::operator()(const Substring &substring) const -> Result { 765 return (*this)(substring.parent()); 766 } 767 768 auto GetShapeHelper::operator()(const ProcedureRef &call) const -> Result { 769 if (call.Rank() == 0) { 770 return ScalarShape(); 771 } else if (call.IsElemental()) { 772 for (const auto &arg : call.arguments()) { 773 if (arg && arg->Rank() > 0) { 774 return (*this)(*arg); 775 } 776 } 777 return ScalarShape(); 778 } else if (const Symbol * symbol{call.proc().GetSymbol()}) { 779 return (*this)(*symbol); 780 } else if (const auto *intrinsic{call.proc().GetSpecificIntrinsic()}) { 781 if (intrinsic->name == "shape" || intrinsic->name == "lbound" || 782 intrinsic->name == "ubound") { 783 // For LBOUND/UBOUND, these are the array-valued cases (no DIM=) 784 if (!call.arguments().empty() && call.arguments().front()) { 785 return Shape{ 786 MaybeExtentExpr{ExtentExpr{call.arguments().front()->Rank()}}}; 787 } 788 } else if (intrinsic->name == "all" || intrinsic->name == "any" || 789 intrinsic->name == "count" || intrinsic->name == "iall" || 790 intrinsic->name == "iany" || intrinsic->name == "iparity" || 791 intrinsic->name == "maxval" || intrinsic->name == "minval" || 792 intrinsic->name == "norm2" || intrinsic->name == "parity" || 793 intrinsic->name == "product" || intrinsic->name == "sum") { 794 // Reduction with DIM= 795 if (call.arguments().size() >= 2) { 796 auto arrayShape{ 797 (*this)(UnwrapExpr<Expr<SomeType>>(call.arguments().at(0)))}; 798 const auto *dimArg{UnwrapExpr<Expr<SomeType>>(call.arguments().at(1))}; 799 if (arrayShape && dimArg) { 800 if (auto dim{ToInt64(*dimArg)}) { 801 if (*dim >= 1 && 802 static_cast<std::size_t>(*dim) <= arrayShape->size()) { 803 arrayShape->erase(arrayShape->begin() + (*dim - 1)); 804 return std::move(*arrayShape); 805 } 806 } 807 } 808 } 809 } else if (intrinsic->name == "findloc" || intrinsic->name == "maxloc" || 810 intrinsic->name == "minloc") { 811 std::size_t dimIndex{intrinsic->name == "findloc" ? 2u : 1u}; 812 if (call.arguments().size() > dimIndex) { 813 if (auto arrayShape{ 814 (*this)(UnwrapExpr<Expr<SomeType>>(call.arguments().at(0)))}) { 815 auto rank{static_cast<int>(arrayShape->size())}; 816 if (const auto *dimArg{ 817 UnwrapExpr<Expr<SomeType>>(call.arguments()[dimIndex])}) { 818 auto dim{ToInt64(*dimArg)}; 819 if (dim && *dim >= 1 && *dim <= rank) { 820 arrayShape->erase(arrayShape->begin() + (*dim - 1)); 821 return std::move(*arrayShape); 822 } 823 } else { 824 // xxxLOC(no DIM=) result is vector(1:RANK(ARRAY=)) 825 return Shape{ExtentExpr{rank}}; 826 } 827 } 828 } 829 } else if (intrinsic->name == "cshift" || intrinsic->name == "eoshift") { 830 if (!call.arguments().empty()) { 831 return (*this)(call.arguments()[0]); 832 } 833 } else if (intrinsic->name == "matmul") { 834 if (call.arguments().size() == 2) { 835 if (auto ashape{(*this)(call.arguments()[0])}) { 836 if (auto bshape{(*this)(call.arguments()[1])}) { 837 if (ashape->size() == 1 && bshape->size() == 2) { 838 bshape->erase(bshape->begin()); 839 return std::move(*bshape); // matmul(vector, matrix) 840 } else if (ashape->size() == 2 && bshape->size() == 1) { 841 ashape->pop_back(); 842 return std::move(*ashape); // matmul(matrix, vector) 843 } else if (ashape->size() == 2 && bshape->size() == 2) { 844 (*ashape)[1] = std::move((*bshape)[1]); 845 return std::move(*ashape); // matmul(matrix, matrix) 846 } 847 } 848 } 849 } 850 } else if (intrinsic->name == "pack") { 851 if (call.arguments().size() >= 3 && call.arguments().at(2)) { 852 // SHAPE(PACK(,,VECTOR=v)) -> SHAPE(v) 853 return (*this)(call.arguments().at(2)); 854 } else if (call.arguments().size() >= 2 && context_) { 855 if (auto maskShape{(*this)(call.arguments().at(1))}) { 856 if (maskShape->size() == 0) { 857 // Scalar MASK= -> [MERGE(SIZE(ARRAY=), 0, mask)] 858 if (auto arrayShape{(*this)(call.arguments().at(0))}) { 859 auto arraySize{GetSize(std::move(*arrayShape))}; 860 CHECK(arraySize); 861 ActualArguments toMerge{ 862 ActualArgument{AsGenericExpr(std::move(*arraySize))}, 863 ActualArgument{AsGenericExpr(ExtentExpr{0})}, 864 common::Clone(call.arguments().at(1))}; 865 auto specific{context_->intrinsics().Probe( 866 CallCharacteristics{"merge"}, toMerge, *context_)}; 867 CHECK(specific); 868 return Shape{ExtentExpr{FunctionRef<ExtentType>{ 869 ProcedureDesignator{std::move(specific->specificIntrinsic)}, 870 std::move(specific->arguments)}}}; 871 } 872 } else { 873 // Non-scalar MASK= -> [COUNT(mask)] 874 ActualArguments toCount{ActualArgument{common::Clone( 875 DEREF(call.arguments().at(1).value().UnwrapExpr()))}}; 876 auto specific{context_->intrinsics().Probe( 877 CallCharacteristics{"count"}, toCount, *context_)}; 878 CHECK(specific); 879 return Shape{ExtentExpr{FunctionRef<ExtentType>{ 880 ProcedureDesignator{std::move(specific->specificIntrinsic)}, 881 std::move(specific->arguments)}}}; 882 } 883 } 884 } 885 } else if (intrinsic->name == "reshape") { 886 if (call.arguments().size() >= 2 && call.arguments().at(1)) { 887 // SHAPE(RESHAPE(array,shape)) -> shape 888 if (const auto *shapeExpr{ 889 call.arguments().at(1).value().UnwrapExpr()}) { 890 auto shapeArg{std::get<Expr<SomeInteger>>(shapeExpr->u)}; 891 if (auto result{AsShapeResult( 892 ConvertToType<ExtentType>(std::move(shapeArg)))}) { 893 return result; 894 } 895 } 896 } 897 } else if (intrinsic->name == "spread") { 898 // SHAPE(SPREAD(ARRAY,DIM,NCOPIES)) = SHAPE(ARRAY) with NCOPIES inserted 899 // at position DIM. 900 if (call.arguments().size() == 3) { 901 auto arrayShape{ 902 (*this)(UnwrapExpr<Expr<SomeType>>(call.arguments().at(0)))}; 903 const auto *dimArg{UnwrapExpr<Expr<SomeType>>(call.arguments().at(1))}; 904 const auto *nCopies{ 905 UnwrapExpr<Expr<SomeInteger>>(call.arguments().at(2))}; 906 if (arrayShape && dimArg && nCopies) { 907 if (auto dim{ToInt64(*dimArg)}) { 908 if (*dim >= 1 && 909 static_cast<std::size_t>(*dim) <= arrayShape->size() + 1) { 910 arrayShape->emplace(arrayShape->begin() + *dim - 1, 911 ConvertToType<ExtentType>(common::Clone(*nCopies))); 912 return std::move(*arrayShape); 913 } 914 } 915 } 916 } 917 } else if (intrinsic->name == "transfer") { 918 if (call.arguments().size() == 3 && call.arguments().at(2)) { 919 // SIZE= is present; shape is vector [SIZE=] 920 if (const auto *size{ 921 UnwrapExpr<Expr<SomeInteger>>(call.arguments().at(2))}) { 922 return Shape{ 923 MaybeExtentExpr{ConvertToType<ExtentType>(common::Clone(*size))}}; 924 } 925 } else if (context_) { 926 if (auto moldTypeAndShape{characteristics::TypeAndShape::Characterize( 927 call.arguments().at(1), *context_)}) { 928 if (GetRank(moldTypeAndShape->shape()) == 0) { 929 // SIZE= is absent and MOLD= is scalar: result is scalar 930 return ScalarShape(); 931 } else { 932 // SIZE= is absent and MOLD= is array: result is vector whose 933 // length is determined by sizes of types. See 16.9.193p4 case(ii). 934 if (auto sourceTypeAndShape{ 935 characteristics::TypeAndShape::Characterize( 936 call.arguments().at(0), *context_)}) { 937 auto sourceBytes{ 938 sourceTypeAndShape->MeasureSizeInBytes(*context_)}; 939 auto moldElementBytes{ 940 moldTypeAndShape->MeasureElementSizeInBytes(*context_, true)}; 941 if (sourceBytes && moldElementBytes) { 942 ExtentExpr extent{Fold(*context_, 943 (std::move(*sourceBytes) + 944 common::Clone(*moldElementBytes) - ExtentExpr{1}) / 945 common::Clone(*moldElementBytes))}; 946 return Shape{MaybeExtentExpr{std::move(extent)}}; 947 } 948 } 949 } 950 } 951 } 952 } else if (intrinsic->name == "transpose") { 953 if (call.arguments().size() >= 1) { 954 if (auto shape{(*this)(call.arguments().at(0))}) { 955 if (shape->size() == 2) { 956 std::swap((*shape)[0], (*shape)[1]); 957 return shape; 958 } 959 } 960 } 961 } else if (intrinsic->name == "unpack") { 962 if (call.arguments().size() >= 2) { 963 return (*this)(call.arguments()[1]); // MASK= 964 } 965 } else if (intrinsic->characteristics.value().attrs.test(characteristics:: 966 Procedure::Attr::NullPointer)) { // NULL(MOLD=) 967 return (*this)(call.arguments()); 968 } else { 969 // TODO: shapes of other non-elemental intrinsic results 970 } 971 } 972 // The rank is always known even if the extents are not. 973 return Shape(static_cast<std::size_t>(call.Rank()), MaybeExtentExpr{}); 974 } 975 976 // Check conformance of the passed shapes. 977 std::optional<bool> CheckConformance(parser::ContextualMessages &messages, 978 const Shape &left, const Shape &right, CheckConformanceFlags::Flags flags, 979 const char *leftIs, const char *rightIs) { 980 int n{GetRank(left)}; 981 if (n == 0 && (flags & CheckConformanceFlags::LeftScalarExpandable)) { 982 return true; 983 } 984 int rn{GetRank(right)}; 985 if (rn == 0 && (flags & CheckConformanceFlags::RightScalarExpandable)) { 986 return true; 987 } 988 if (n != rn) { 989 messages.Say("Rank of %1$s is %2$d, but %3$s has rank %4$d"_err_en_US, 990 leftIs, n, rightIs, rn); 991 return false; 992 } 993 for (int j{0}; j < n; ++j) { 994 if (auto leftDim{ToInt64(left[j])}) { 995 if (auto rightDim{ToInt64(right[j])}) { 996 if (*leftDim != *rightDim) { 997 messages.Say("Dimension %1$d of %2$s has extent %3$jd, " 998 "but %4$s has extent %5$jd"_err_en_US, 999 j + 1, leftIs, *leftDim, rightIs, *rightDim); 1000 return false; 1001 } 1002 } else if (!(flags & CheckConformanceFlags::RightIsDeferredShape)) { 1003 return std::nullopt; 1004 } 1005 } else if (!(flags & CheckConformanceFlags::LeftIsDeferredShape)) { 1006 return std::nullopt; 1007 } 1008 } 1009 return true; 1010 } 1011 1012 bool IncrementSubscripts( 1013 ConstantSubscripts &indices, const ConstantSubscripts &extents) { 1014 std::size_t rank(indices.size()); 1015 CHECK(rank <= extents.size()); 1016 for (std::size_t j{0}; j < rank; ++j) { 1017 if (extents[j] < 1) { 1018 return false; 1019 } 1020 } 1021 for (std::size_t j{0}; j < rank; ++j) { 1022 if (indices[j]++ < extents[j]) { 1023 return true; 1024 } 1025 indices[j] = 1; 1026 } 1027 return false; 1028 } 1029 1030 } // namespace Fortran::evaluate 1031