diff --git a/flang/include/flang/Optimizer/Builder/Character.h b/flang/include/flang/Optimizer/Builder/Character.h new file mode 100644 --- /dev/null +++ b/flang/include/flang/Optimizer/Builder/Character.h @@ -0,0 +1,192 @@ +//===-- Character.h -- lowering of characters -------------------*- C++ -*-===// +// +// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. +// See https://llvm.org/LICENSE.txt for license information. +// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception +// +//===----------------------------------------------------------------------===// +// +// Coding style: https://mlir.llvm.org/getting_started/DeveloperGuide/ +// +//===----------------------------------------------------------------------===// + +#ifndef FORTRAN_OPTIMIZER_BUILDER_CHARACTER_H +#define FORTRAN_OPTIMIZER_BUILDER_CHARACTER_H + +#include "flang/Optimizer/Builder/BoxValue.h" +#include "flang/Optimizer/Builder/FIRBuilder.h" + +namespace fir::factory { + +/// Helper to facilitate lowering of CHARACTER in FIR. +class CharacterExprHelper { +public: + /// Constructor. + explicit CharacterExprHelper(FirOpBuilder &builder, mlir::Location loc) + : builder{builder}, loc{loc} {} + CharacterExprHelper(const CharacterExprHelper &) = delete; + + /// Copy the \p count first characters of \p src into \p dest. + /// \p count can have any integer type. + void createCopy(const fir::CharBoxValue &dest, const fir::CharBoxValue &src, + mlir::Value count); + + /// Set characters of \p str at position [\p lower, \p upper) to blanks. + /// \p lower and \upper bounds are zero based. + /// If \p upper <= \p lower, no padding is done. + /// \p upper and \p lower can have any integer type. + void createPadding(const fir::CharBoxValue &str, mlir::Value lower, + mlir::Value upper); + + /// Create str(lb:ub), lower bounds must always be specified, upper + /// bound is optional. + fir::CharBoxValue createSubstring(const fir::CharBoxValue &str, + llvm::ArrayRef bounds); + + /// Return blank character of given \p type !fir.char + mlir::Value createBlankConstant(fir::CharacterType type); + + /// Lower \p lhs = \p rhs where \p lhs and \p rhs are scalar characters. + /// It handles cases where \p lhs and \p rhs may overlap. + void createAssign(const fir::ExtendedValue &lhs, + const fir::ExtendedValue &rhs); + + /// Create lhs // rhs in temp obtained with fir.alloca + fir::CharBoxValue createConcatenate(const fir::CharBoxValue &lhs, + const fir::CharBoxValue &rhs); + + /// LEN_TRIM intrinsic. + mlir::Value createLenTrim(const fir::CharBoxValue &str); + + /// Embox \p addr and \p len and return fir.boxchar. + /// Take care of type conversions before emboxing. + /// \p len is converted to the integer type for character lengths if needed. + mlir::Value createEmboxChar(mlir::Value addr, mlir::Value len); + /// Create a fir.boxchar for \p str. If \p str is not in memory, a temp is + /// allocated to create the fir.boxchar. + mlir::Value createEmbox(const fir::CharBoxValue &str); + /// Embox a string array. Note that the size/shape of the array is not + /// retrievable from the resulting mlir::Value. + mlir::Value createEmbox(const fir::CharArrayBoxValue &str); + + /// Convert character array to a scalar by reducing the extents into the + /// length. Will fail if call on non reference like base. + fir::CharBoxValue toScalarCharacter(const fir::CharArrayBoxValue &); + + /// Unbox \p boxchar into (fir.ref>, character length type). + std::pair createUnboxChar(mlir::Value boxChar); + + /// Allocate a temp of fir::CharacterType type and length len. + /// Returns related fir.ref>>. + fir::CharBoxValue createCharacterTemp(mlir::Type type, mlir::Value len); + + /// Allocate a temp of compile time constant length. + /// Returns related fir.ref>>. + fir::CharBoxValue createCharacterTemp(mlir::Type type, int len); + + /// Create a temporary with the same kind, length, and value as source. + fir::CharBoxValue createTempFrom(const fir::ExtendedValue &source); + + /// Return true if \p type is a character literal type (is + /// `fir.array>`).; + static bool isCharacterLiteral(mlir::Type type); + + /// Return true if \p type is one of the following type + /// - fir.boxchar + /// - fir.ref> + /// - fir.char + static bool isCharacterScalar(mlir::Type type); + + /// Does this extended value base type is fir.char + /// where len is not the unknown extent ? + static bool hasConstantLengthInType(const fir::ExtendedValue &); + + /// Extract the kind of a character type + static fir::KindTy getCharacterKind(mlir::Type type); + + /// Extract the kind of a character or array of character type. + static fir::KindTy getCharacterOrSequenceKind(mlir::Type type); + + /// Determine the base character type + static fir::CharacterType getCharacterType(mlir::Type type); + static fir::CharacterType getCharacterType(const fir::CharBoxValue &box); + static fir::CharacterType getCharacterType(mlir::Value str); + + /// Create an extended value from a value of type: + /// - fir.boxchar + /// - fir.ref> + /// - fir.char + /// or the array versions: + /// - fir.ref>> + /// - fir.array> + /// + /// Does the heavy lifting of converting the value \p character (along with an + /// optional \p len value) to an extended value. If \p len is null, a length + /// value is extracted from \p character (or its type). This will produce an + /// error if it's not possible. The returned value is a CharBoxValue if \p + /// character is a scalar, otherwise it is a CharArrayBoxValue. + fir::ExtendedValue toExtendedValue(mlir::Value character, + mlir::Value len = {}); + + /// Is `type` a sequence (array) of CHARACTER type? Return true for any of the + /// following cases: + /// - !fir.array> + /// - !fir.ref where T is either of the first case + /// - !fir.box where T is either of the first case + /// + /// In certain contexts, Fortran allows an array of CHARACTERs to be treated + /// as if it were one longer CHARACTER scalar, each element append to the + /// previous. + static bool isArray(mlir::Type type); + + /// Temporary helper to help migrating towards properties of + /// ExtendedValue containing characters. + /// Mainly, this ensure that characters are always CharArrayBoxValue, + /// CharBoxValue, or BoxValue and that the base address is not a boxchar. + /// Return the argument if this is not a character. + /// TODO: Create and propagate ExtendedValue according to properties listed + /// above instead of fixing it when needed. + fir::ExtendedValue cleanUpCharacterExtendedValue(const fir::ExtendedValue &); + + /// Create fir.char singleton from \p code integer value. + mlir::Value createSingletonFromCode(mlir::Value code, int kind); + /// Returns integer value held in a character singleton. + mlir::Value extractCodeFromSingleton(mlir::Value singleton); + + /// Create a value for the length of a character based on its memory reference + /// that may be a boxchar, box or !fir.[ptr|ref|heap]>. If + /// the memref is a simple address and the length is not constant in type, the + /// returned length will be empty. + mlir::Value getLength(mlir::Value memref); + + /// Compute length given a fir.box describing a character entity. + /// It adjusts the length from the number of bytes per the descriptor + /// to the number of characters per the Fortran KIND. + mlir::Value readLengthFromBox(mlir::Value box); + +private: + /// FIXME: the implementation also needs a clean-up now that + /// CharBoxValue are better propagated. + fir::CharBoxValue materializeValue(mlir::Value str); + mlir::Value getCharBoxBuffer(const fir::CharBoxValue &box); + mlir::Value createElementAddr(mlir::Value buffer, mlir::Value index); + mlir::Value createLoadCharAt(mlir::Value buff, mlir::Value index); + void createStoreCharAt(mlir::Value str, mlir::Value index, mlir::Value c); + void createLengthOneAssign(const fir::CharBoxValue &lhs, + const fir::CharBoxValue &rhs); + void createAssign(const fir::CharBoxValue &lhs, const fir::CharBoxValue &rhs); + mlir::Value createBlankConstantCode(fir::CharacterType type); + + FirOpBuilder &builder; + mlir::Location loc; +}; + +// FIXME: Move these to Optimizer +mlir::FuncOp getLlvmMemcpy(FirOpBuilder &builder); +mlir::FuncOp getLlvmMemmove(FirOpBuilder &builder); +mlir::FuncOp getLlvmMemset(FirOpBuilder &builder); +mlir::FuncOp getRealloc(FirOpBuilder &builder); + +} // namespace fir::factory + +#endif // FORTRAN_OPTIMIZER_BUILDER_CHARACTER_H diff --git a/flang/include/flang/Optimizer/Builder/FIRBuilder.h b/flang/include/flang/Optimizer/Builder/FIRBuilder.h --- a/flang/include/flang/Optimizer/Builder/FIRBuilder.h +++ b/flang/include/flang/Optimizer/Builder/FIRBuilder.h @@ -47,9 +47,22 @@ return getRegion().getParentOfType(); } + /// Get the current Function + mlir::FuncOp getFunction() { + return getRegion().getParentOfType(); + } + /// Get a reference to the kind map. const fir::KindMapping &getKindMap() { return kindMap; } + /// Get the entry block of the current Function + mlir::Block *getEntryBlock() { return &getFunction().front(); } + + /// Get the block for adding Allocas. If OpenMP is enabled then get the + /// the alloca block from an Operation which can be Outlined. Otherwise + /// use the entry block of the current Function + mlir::Block *getAllocaBlock(); + /// Safely create a reference type to the type `eleTy`. mlir::Type getRefType(mlir::Type eleTy); @@ -91,6 +104,45 @@ return createRealConstant(loc, realType, 0u); } + /// Create a slot for a local on the stack. Besides the variable's type and + /// shape, it may be given name, pinned, or target attributes. + mlir::Value allocateLocal(mlir::Location loc, mlir::Type ty, + llvm::StringRef uniqName, llvm::StringRef name, + bool pinned, llvm::ArrayRef shape, + llvm::ArrayRef lenParams, + bool asTarget = false); + mlir::Value allocateLocal(mlir::Location loc, mlir::Type ty, + llvm::StringRef uniqName, llvm::StringRef name, + llvm::ArrayRef shape, + llvm::ArrayRef lenParams, + bool asTarget = false); + + /// Create a temporary. A temp is allocated using `fir.alloca` and can be read + /// and written using `fir.load` and `fir.store`, resp. The temporary can be + /// given a name via a front-end `Symbol` or a `StringRef`. + mlir::Value createTemporary(mlir::Location loc, mlir::Type type, + llvm::StringRef name = {}, + mlir::ValueRange shape = {}, + mlir::ValueRange lenParams = {}, + llvm::ArrayRef attrs = {}); + + /// Create an unnamed and untracked temporary on the stack. + mlir::Value createTemporary(mlir::Location loc, mlir::Type type, + mlir::ValueRange shape) { + return createTemporary(loc, type, llvm::StringRef{}, shape); + } + + mlir::Value createTemporary(mlir::Location loc, mlir::Type type, + llvm::ArrayRef attrs) { + return createTemporary(loc, type, llvm::StringRef{}, {}, {}, attrs); + } + + mlir::Value createTemporary(mlir::Location loc, mlir::Type type, + llvm::StringRef name, + llvm::ArrayRef attrs) { + return createTemporary(loc, type, name, {}, {}, attrs); + } + /// Create a global value. fir::GlobalOp createGlobal(mlir::Location loc, mlir::Type type, llvm::StringRef name, diff --git a/flang/include/flang/Optimizer/Dialect/FIROpsSupport.h b/flang/include/flang/Optimizer/Dialect/FIROpsSupport.h --- a/flang/include/flang/Optimizer/Dialect/FIROpsSupport.h +++ b/flang/include/flang/Optimizer/Dialect/FIROpsSupport.h @@ -64,6 +64,9 @@ /// Attribute to mark Fortran entities with the OPTIONAL attribute. constexpr llvm::StringRef getOptionalAttrName() { return "fir.optional"; } +/// Attribute to mark Fortran entities with the TARGET attribute. +static constexpr llvm::StringRef getTargetAttrName() { return "fir.target"; } + /// Tell if \p value is: /// - a function argument that has attribute \p attributeName /// - or, the result of fir.alloca/fir.allocamem op that has attribute \p diff --git a/flang/include/flang/Optimizer/Dialect/FIRType.h b/flang/include/flang/Optimizer/Dialect/FIRType.h --- a/flang/include/flang/Optimizer/Dialect/FIRType.h +++ b/flang/include/flang/Optimizer/Dialect/FIRType.h @@ -161,6 +161,12 @@ return t; } +inline mlir::Type unwrapRefType(mlir::Type t) { + if (auto eleTy = dyn_cast_ptrEleTy(t)) + return eleTy; + return t; +} + #ifndef NDEBUG // !fir.ptr and !fir.heap where X is !fir.ptr, !fir.heap, or !fir.ref // is undefined and disallowed. diff --git a/flang/lib/Optimizer/Builder/CMakeLists.txt b/flang/lib/Optimizer/Builder/CMakeLists.txt --- a/flang/lib/Optimizer/Builder/CMakeLists.txt +++ b/flang/lib/Optimizer/Builder/CMakeLists.txt @@ -1,6 +1,8 @@ get_property(dialect_libs GLOBAL PROPERTY MLIR_DIALECT_LIBS) + add_flang_library(FIRBuilder BoxValue.cpp + Character.cpp DoLoopHelper.cpp FIRBuilder.cpp diff --git a/flang/lib/Optimizer/Builder/Character.cpp b/flang/lib/Optimizer/Builder/Character.cpp new file mode 100644 --- /dev/null +++ b/flang/lib/Optimizer/Builder/Character.cpp @@ -0,0 +1,725 @@ +//===-- Character.cpp -----------------------------------------------------===// +// +// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. +// See https://llvm.org/LICENSE.txt for license information. +// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception +// +//===----------------------------------------------------------------------===// +// +// Coding style: https://mlir.llvm.org/getting_started/DeveloperGuide/ +// +//===----------------------------------------------------------------------===// + +#include "flang/Optimizer/Builder/Character.h" +#include "flang/Lower/Todo.h" +#include "flang/Optimizer/Builder/DoLoopHelper.h" +#include "llvm/Support/Debug.h" +#include + +#define DEBUG_TYPE "flang-lower-character" + +//===----------------------------------------------------------------------===// +// CharacterExprHelper implementation +//===----------------------------------------------------------------------===// + +/// Unwrap base fir.char type. +static fir::CharacterType recoverCharacterType(mlir::Type type) { + if (auto boxType = type.dyn_cast()) + return boxType.getEleTy(); + while (true) { + type = fir::unwrapRefType(type); + if (auto boxTy = type.dyn_cast()) + type = boxTy.getEleTy(); + else + break; + } + return fir::unwrapSequenceType(type).cast(); +} + +/// Get fir.char type with the same kind as inside str. +fir::CharacterType +fir::factory::CharacterExprHelper::getCharacterType(mlir::Type type) { + assert(isCharacterScalar(type) && "expected scalar character"); + return recoverCharacterType(type); +} + +fir::CharacterType fir::factory::CharacterExprHelper::getCharacterType( + const fir::CharBoxValue &box) { + return getCharacterType(box.getBuffer().getType()); +} + +fir::CharacterType +fir::factory::CharacterExprHelper::getCharacterType(mlir::Value str) { + return getCharacterType(str.getType()); +} + +/// Determine the static size of the character. Returns the computed size, not +/// an IR Value. +static std::optional +getCompileTimeLength(const fir::CharBoxValue &box) { + auto len = recoverCharacterType(box.getBuffer().getType()).getLen(); + if (len == fir::CharacterType::unknownLen()) + return {}; + return len; +} + +/// Detect the precondition that the value `str` does not reside in memory. Such +/// values will have a type `!fir.array<...x!fir.char>` or `!fir.char`. +LLVM_ATTRIBUTE_UNUSED static bool needToMaterialize(mlir::Value str) { + return str.getType().isa() || fir::isa_char(str.getType()); +} + +/// Unwrap integer constant from mlir::Value. +static llvm::Optional getIntIfConstant(mlir::Value value) { + if (auto *definingOp = value.getDefiningOp()) + if (auto cst = mlir::dyn_cast(definingOp)) + if (auto intAttr = cst.getValue().dyn_cast()) + return intAttr.getInt(); + return {}; +} + +/// This is called only if `str` does not reside in memory. Such a bare string +/// value will be converted into a memory-based temporary and an extended +/// boxchar value returned. +fir::CharBoxValue +fir::factory::CharacterExprHelper::materializeValue(mlir::Value str) { + assert(needToMaterialize(str)); + auto ty = str.getType(); + assert(isCharacterScalar(ty) && "expected scalar character"); + auto charTy = ty.dyn_cast(); + if (!charTy || charTy.getLen() == fir::CharacterType::unknownLen()) { + LLVM_DEBUG(llvm::dbgs() << "cannot materialize: " << str << '\n'); + llvm_unreachable("must be a !fir.char type"); + } + auto len = builder.createIntegerConstant( + loc, builder.getCharacterLengthType(), charTy.getLen()); + auto temp = builder.create(loc, charTy); + builder.create(loc, str, temp); + LLVM_DEBUG(llvm::dbgs() << "materialized as local: " << str << " -> (" << temp + << ", " << len << ")\n"); + return {temp, len}; +} + +fir::ExtendedValue +fir::factory::CharacterExprHelper::toExtendedValue(mlir::Value character, + mlir::Value len) { + auto lenType = builder.getCharacterLengthType(); + auto type = character.getType(); + auto base = fir::isa_passbyref_type(type) ? character : mlir::Value{}; + auto resultLen = len; + llvm::SmallVector extents; + + if (auto eleType = fir::dyn_cast_ptrEleTy(type)) + type = eleType; + + if (auto arrayType = type.dyn_cast()) { + type = arrayType.getEleTy(); + auto indexType = builder.getIndexType(); + for (auto extent : arrayType.getShape()) { + if (extent == fir::SequenceType::getUnknownExtent()) + break; + extents.emplace_back( + builder.createIntegerConstant(loc, indexType, extent)); + } + // Last extent might be missing in case of assumed-size. If more extents + // could not be deduced from type, that's an error (a fir.box should + // have been used in the interface). + if (extents.size() + 1 < arrayType.getShape().size()) + mlir::emitError(loc, "cannot retrieve array extents from type"); + } + + if (auto charTy = type.dyn_cast()) { + if (!resultLen && charTy.getLen() != fir::CharacterType::unknownLen()) + resultLen = builder.createIntegerConstant(loc, lenType, charTy.getLen()); + } else if (auto boxCharType = type.dyn_cast()) { + auto refType = builder.getRefType(boxCharType.getEleTy()); + // If the embox is accessible, use its operand to avoid filling + // the generated fir with embox/unbox. + mlir::Value boxCharLen; + if (auto *definingOp = character.getDefiningOp()) { + if (auto box = dyn_cast(definingOp)) { + base = box.memref(); + boxCharLen = box.len(); + } + } + if (!boxCharLen) { + auto unboxed = + builder.create(loc, refType, lenType, character); + base = builder.createConvert(loc, refType, unboxed.getResult(0)); + boxCharLen = unboxed.getResult(1); + } + if (!resultLen) { + resultLen = boxCharLen; + } + } else if (type.isa()) { + mlir::emitError(loc, "descriptor or derived type not yet handled"); + } else { + llvm_unreachable("Cannot translate mlir::Value to character ExtendedValue"); + } + + if (!base) { + if (auto load = + mlir::dyn_cast_or_null(character.getDefiningOp())) { + base = load.getOperand(); + } else { + return materializeValue(fir::getBase(character)); + } + } + if (!resultLen) + llvm::report_fatal_error("no dynamic length found for character"); + if (!extents.empty()) + return fir::CharArrayBoxValue{base, resultLen, extents}; + return fir::CharBoxValue{base, resultLen}; +} + +static mlir::Type getSingletonCharType(mlir::MLIRContext *ctxt, int kind) { + return fir::CharacterType::getSingleton(ctxt, kind); +} + +mlir::Value +fir::factory::CharacterExprHelper::createEmbox(const fir::CharBoxValue &box) { + // Base CharBoxValue of CharArrayBoxValue are ok here (do not require a scalar + // type) + auto charTy = recoverCharacterType(box.getBuffer().getType()); + auto boxCharType = + fir::BoxCharType::get(builder.getContext(), charTy.getFKind()); + auto refType = fir::ReferenceType::get(boxCharType.getEleTy()); + mlir::Value buff = box.getBuffer(); + // fir.boxchar requires a memory reference. Allocate temp if the character is + // not in memory. + if (!fir::isa_ref_type(buff.getType())) { + auto temp = builder.createTemporary(loc, buff.getType()); + builder.create(loc, buff, temp); + buff = temp; + } + buff = builder.createConvert(loc, refType, buff); + // Convert in case the provided length is not of the integer type that must + // be used in boxchar. + auto len = builder.createConvert(loc, builder.getCharacterLengthType(), + box.getLen()); + return builder.create(loc, boxCharType, buff, len); +} + +fir::CharBoxValue fir::factory::CharacterExprHelper::toScalarCharacter( + const fir::CharArrayBoxValue &box) { + if (box.getBuffer().getType().isa()) + TODO(loc, "concatenating non contiguous character array into a scalar"); + + // TODO: add a fast path multiplying new length at compile time if the info is + // in the array type. + auto lenType = builder.getCharacterLengthType(); + auto len = builder.createConvert(loc, lenType, box.getLen()); + for (auto extent : box.getExtents()) + len = builder.create( + loc, len, builder.createConvert(loc, lenType, extent)); + + // TODO: typeLen can be improved in compiled constant cases + // TODO: allow bare fir.array<> (no ref) conversion here ? + auto typeLen = fir::CharacterType::unknownLen(); + auto kind = recoverCharacterType(box.getBuffer().getType()).getFKind(); + auto charTy = fir::CharacterType::get(builder.getContext(), kind, typeLen); + auto type = fir::ReferenceType::get(charTy); + auto buffer = builder.createConvert(loc, type, box.getBuffer()); + return {buffer, len}; +} + +mlir::Value fir::factory::CharacterExprHelper::createEmbox( + const fir::CharArrayBoxValue &box) { + // Use same embox as for scalar. It's losing the actual data size information + // (We do not multiply the length by the array size), but that is what Fortran + // call interfaces using boxchar expect. + return createEmbox(static_cast(box)); +} + +/// Get the address of the element at position \p index of the scalar character +/// \p buffer. +/// \p buffer must be of type !fir.ref>. The length may be +/// unknown. \p index must have any integer type, and is zero based. The return +/// value is a singleton address (!fir.ref>) +mlir::Value +fir::factory::CharacterExprHelper::createElementAddr(mlir::Value buffer, + mlir::Value index) { + // The only way to address an element of a fir.ref> is to cast + // it to a fir.array> and use fir.coordinate_of. + auto bufferType = buffer.getType(); + assert(fir::isa_ref_type(bufferType)); + assert(isCharacterScalar(bufferType)); + auto charTy = recoverCharacterType(bufferType); + auto singleTy = getSingletonCharType(builder.getContext(), charTy.getFKind()); + auto singleRefTy = builder.getRefType(singleTy); + auto extent = fir::SequenceType::getUnknownExtent(); + if (charTy.getLen() != fir::CharacterType::unknownLen()) + extent = charTy.getLen(); + auto coorTy = builder.getRefType(fir::SequenceType::get({extent}, singleTy)); + + auto coor = builder.createConvert(loc, coorTy, buffer); + auto i = builder.createConvert(loc, builder.getIndexType(), index); + return builder.create(loc, singleRefTy, coor, i); +} + +/// Load a character out of `buff` from offset `index`. +/// `buff` must be a reference to memory. +mlir::Value +fir::factory::CharacterExprHelper::createLoadCharAt(mlir::Value buff, + mlir::Value index) { + LLVM_DEBUG(llvm::dbgs() << "load a char: " << buff << " type: " + << buff.getType() << " at: " << index << '\n'); + return builder.create(loc, createElementAddr(buff, index)); +} + +/// Store the singleton character `c` to `str` at offset `index`. +/// `str` must be a reference to memory. +void fir::factory::CharacterExprHelper::createStoreCharAt(mlir::Value str, + mlir::Value index, + mlir::Value c) { + LLVM_DEBUG(llvm::dbgs() << "store the char: " << c << " into: " << str + << " type: " << str.getType() << " at: " << index + << '\n'); + auto addr = createElementAddr(str, index); + builder.create(loc, c, addr); +} + +// FIXME: this temp is useless... either fir.coordinate_of needs to +// work on "loaded" characters (!fir.array>) or +// character should never be loaded. +// If this is a fir.array<>, allocate and store the value so that +// fir.cooridnate_of can be use on the value. +mlir::Value fir::factory::CharacterExprHelper::getCharBoxBuffer( + const fir::CharBoxValue &box) { + auto buff = box.getBuffer(); + if (fir::isa_char(buff.getType())) { + auto newBuff = builder.create(loc, buff.getType()); + builder.create(loc, buff, newBuff); + return newBuff; + } + return buff; +} + +/// Get the LLVM intrinsic for `memcpy`. Use the 64 bit version. +mlir::FuncOp fir::factory::getLlvmMemcpy(fir::FirOpBuilder &builder) { + auto ptrTy = builder.getRefType(builder.getIntegerType(8)); + llvm::SmallVector args = {ptrTy, ptrTy, builder.getI64Type(), + builder.getI1Type()}; + auto memcpyTy = + mlir::FunctionType::get(builder.getContext(), args, llvm::None); + return builder.addNamedFunction(builder.getUnknownLoc(), + "llvm.memcpy.p0i8.p0i8.i64", memcpyTy); +} + +/// Get the LLVM intrinsic for `memmove`. Use the 64 bit version. +mlir::FuncOp fir::factory::getLlvmMemmove(fir::FirOpBuilder &builder) { + auto ptrTy = builder.getRefType(builder.getIntegerType(8)); + llvm::SmallVector args = {ptrTy, ptrTy, builder.getI64Type(), + builder.getI1Type()}; + auto memmoveTy = + mlir::FunctionType::get(builder.getContext(), args, llvm::None); + return builder.addNamedFunction(builder.getUnknownLoc(), + "llvm.memmove.p0i8.p0i8.i64", memmoveTy); +} + +/// Get the LLVM intrinsic for `memset`. Use the 64 bit version. +mlir::FuncOp fir::factory::getLlvmMemset(fir::FirOpBuilder &builder) { + auto ptrTy = builder.getRefType(builder.getIntegerType(8)); + llvm::SmallVector args = {ptrTy, ptrTy, builder.getI64Type(), + builder.getI1Type()}; + auto memsetTy = + mlir::FunctionType::get(builder.getContext(), args, llvm::None); + return builder.addNamedFunction(builder.getUnknownLoc(), + "llvm.memset.p0i8.p0i8.i64", memsetTy); +} + +/// Get the standard `realloc` function. +mlir::FuncOp fir::factory::getRealloc(fir::FirOpBuilder &builder) { + auto ptrTy = builder.getRefType(builder.getIntegerType(8)); + llvm::SmallVector args = {ptrTy, builder.getI64Type()}; + auto reallocTy = mlir::FunctionType::get(builder.getContext(), args, {ptrTy}); + return builder.addNamedFunction(builder.getUnknownLoc(), "realloc", + reallocTy); +} + +/// Create a loop to copy `count` characters from `src` to `dest`. Note that the +/// KIND indicates the number of bits in a code point. (ASCII, UCS-2, or UCS-4.) +void fir::factory::CharacterExprHelper::createCopy( + const fir::CharBoxValue &dest, const fir::CharBoxValue &src, + mlir::Value count) { + auto fromBuff = getCharBoxBuffer(src); + auto toBuff = getCharBoxBuffer(dest); + LLVM_DEBUG(llvm::dbgs() << "create char copy from: "; src.dump(); + llvm::dbgs() << " to: "; dest.dump(); + llvm::dbgs() << " count: " << count << '\n'); + auto kind = getCharacterKind(src.getBuffer().getType()); + // If the src and dest are the same KIND, then use memmove to move the bits. + // We don't have to worry about overlapping ranges with memmove. + if (getCharacterKind(dest.getBuffer().getType()) == kind) { + auto bytes = builder.getKindMap().getCharacterBitsize(kind) / 8; + auto i64Ty = builder.getI64Type(); + auto kindBytes = builder.createIntegerConstant(loc, i64Ty, bytes); + auto castCount = builder.createConvert(loc, i64Ty, count); + auto totalBytes = builder.create(loc, kindBytes, castCount); + auto notVolatile = builder.createBool(loc, false); + auto memmv = getLlvmMemmove(builder); + auto argTys = memmv.getType().getInputs(); + auto toPtr = builder.createConvert(loc, argTys[0], toBuff); + auto fromPtr = builder.createConvert(loc, argTys[1], fromBuff); + builder.create( + loc, memmv, mlir::ValueRange{toPtr, fromPtr, totalBytes, notVolatile}); + return; + } + + // Convert a CHARACTER of one KIND into a CHARACTER of another KIND. + builder.create(loc, src.getBuffer(), count, + dest.getBuffer()); +} + +void fir::factory::CharacterExprHelper::createPadding( + const fir::CharBoxValue &str, mlir::Value lower, mlir::Value upper) { + auto blank = createBlankConstant(getCharacterType(str)); + // Always create the loop, if upper < lower, no iteration will be + // executed. + auto toBuff = getCharBoxBuffer(str); + fir::factory::DoLoopHelper{builder, loc}.createLoop( + lower, upper, [&](fir::FirOpBuilder &, mlir::Value index) { + createStoreCharAt(toBuff, index, blank); + }); +} + +fir::CharBoxValue +fir::factory::CharacterExprHelper::createCharacterTemp(mlir::Type type, + mlir::Value len) { + auto kind = recoverCharacterType(type).getFKind(); + auto typeLen = fir::CharacterType::unknownLen(); + // If len is a constant, reflect the length in the type. + if (auto cstLen = getIntIfConstant(len)) + typeLen = *cstLen; + auto *ctxt = builder.getContext(); + auto charTy = fir::CharacterType::get(ctxt, kind, typeLen); + llvm::SmallVector lenParams; + if (typeLen == fir::CharacterType::unknownLen()) + lenParams.push_back(len); + auto ref = builder.allocateLocal(loc, charTy, "", ".chrtmp", + /*shape=*/llvm::None, lenParams); + return {ref, len}; +} + +fir::CharBoxValue fir::factory::CharacterExprHelper::createTempFrom( + const fir::ExtendedValue &source) { + const auto *charBox = source.getCharBox(); + if (!charBox) + fir::emitFatalError(loc, "source must be a fir::CharBoxValue"); + auto len = charBox->getLen(); + auto sourceTy = charBox->getBuffer().getType(); + auto temp = createCharacterTemp(sourceTy, len); + if (fir::isa_ref_type(sourceTy)) { + createCopy(temp, *charBox, len); + } else { + auto ref = builder.createConvert(loc, builder.getRefType(sourceTy), + temp.getBuffer()); + builder.create(loc, charBox->getBuffer(), ref); + } + return temp; +} + +// Simple length one character assignment without loops. +void fir::factory::CharacterExprHelper::createLengthOneAssign( + const fir::CharBoxValue &lhs, const fir::CharBoxValue &rhs) { + auto addr = lhs.getBuffer(); + mlir::Value val = builder.create(loc, rhs.getBuffer()); + auto addrTy = builder.getRefType(val.getType()); + addr = builder.createConvert(loc, addrTy, addr); + builder.create(loc, val, addr); +} + +/// Returns the minimum of integer mlir::Value \p a and \b. +mlir::Value genMin(fir::FirOpBuilder &builder, mlir::Location loc, + mlir::Value a, mlir::Value b) { + auto cmp = + builder.create(loc, arith::CmpIPredicate::slt, a, b); + return builder.create(loc, cmp, a, b); +} + +void fir::factory::CharacterExprHelper::createAssign( + const fir::CharBoxValue &lhs, const fir::CharBoxValue &rhs) { + auto rhsCstLen = getCompileTimeLength(rhs); + auto lhsCstLen = getCompileTimeLength(lhs); + bool compileTimeSameLength = + lhsCstLen && rhsCstLen && *lhsCstLen == *rhsCstLen; + + if (compileTimeSameLength && *lhsCstLen == 1) { + createLengthOneAssign(lhs, rhs); + return; + } + + // Copy the minimum of the lhs and rhs lengths and pad the lhs remainder + // if needed. + auto copyCount = lhs.getLen(); + auto idxTy = builder.getIndexType(); + if (!compileTimeSameLength) { + auto lhsLen = builder.createConvert(loc, idxTy, lhs.getLen()); + auto rhsLen = builder.createConvert(loc, idxTy, rhs.getLen()); + copyCount = genMin(builder, loc, lhsLen, rhsLen); + } + + // Actual copy + createCopy(lhs, rhs, copyCount); + + // Pad if needed. + if (!compileTimeSameLength) { + auto one = builder.createIntegerConstant(loc, lhs.getLen().getType(), 1); + auto maxPadding = builder.create(loc, lhs.getLen(), one); + createPadding(lhs, copyCount, maxPadding); + } +} + +fir::CharBoxValue fir::factory::CharacterExprHelper::createConcatenate( + const fir::CharBoxValue &lhs, const fir::CharBoxValue &rhs) { + auto lhsLen = builder.createConvert(loc, builder.getCharacterLengthType(), + lhs.getLen()); + auto rhsLen = builder.createConvert(loc, builder.getCharacterLengthType(), + rhs.getLen()); + mlir::Value len = builder.create(loc, lhsLen, rhsLen); + auto temp = createCharacterTemp(getCharacterType(rhs), len); + createCopy(temp, lhs, lhsLen); + auto one = builder.createIntegerConstant(loc, len.getType(), 1); + auto upperBound = builder.create(loc, len, one); + auto lhsLenIdx = builder.createConvert(loc, builder.getIndexType(), lhsLen); + auto fromBuff = getCharBoxBuffer(rhs); + auto toBuff = getCharBoxBuffer(temp); + fir::factory::DoLoopHelper{builder, loc}.createLoop( + lhsLenIdx, upperBound, one, + [&](fir::FirOpBuilder &bldr, mlir::Value index) { + auto rhsIndex = bldr.create(loc, index, lhsLenIdx); + auto charVal = createLoadCharAt(fromBuff, rhsIndex); + createStoreCharAt(toBuff, index, charVal); + }); + return temp; +} + +fir::CharBoxValue fir::factory::CharacterExprHelper::createSubstring( + const fir::CharBoxValue &box, llvm::ArrayRef bounds) { + // Constant need to be materialize in memory to use fir.coordinate_of. + auto nbounds = bounds.size(); + if (nbounds < 1 || nbounds > 2) { + mlir::emitError(loc, "Incorrect number of bounds in substring"); + return {mlir::Value{}, mlir::Value{}}; + } + mlir::SmallVector castBounds; + // Convert bounds to length type to do safe arithmetic on it. + for (auto bound : bounds) + castBounds.push_back( + builder.createConvert(loc, builder.getCharacterLengthType(), bound)); + auto lowerBound = castBounds[0]; + // FIR CoordinateOp is zero based but Fortran substring are one based. + auto one = builder.createIntegerConstant(loc, lowerBound.getType(), 1); + auto offset = builder.create(loc, lowerBound, one).getResult(); + auto addr = createElementAddr(box.getBuffer(), offset); + auto kind = getCharacterKind(box.getBuffer().getType()); + auto charTy = fir::CharacterType::getUnknownLen(builder.getContext(), kind); + auto resultType = builder.getRefType(charTy); + auto substringRef = builder.createConvert(loc, resultType, addr); + + // Compute the length. + mlir::Value substringLen; + if (nbounds < 2) { + substringLen = + builder.create(loc, box.getLen(), castBounds[0]); + } else { + substringLen = + builder.create(loc, castBounds[1], castBounds[0]); + } + substringLen = builder.create(loc, substringLen, one); + + // Set length to zero if bounds were reversed (Fortran 2018 9.4.1) + auto zero = builder.createIntegerConstant(loc, substringLen.getType(), 0); + auto cdt = builder.create(loc, arith::CmpIPredicate::slt, + substringLen, zero); + substringLen = builder.create(loc, cdt, zero, substringLen); + + return {substringRef, substringLen}; +} + +mlir::Value +fir::factory::CharacterExprHelper::createLenTrim(const fir::CharBoxValue &str) { + // Note: Runtime for LEN_TRIM should also be available at some + // point. For now use an inlined implementation. + auto indexType = builder.getIndexType(); + auto len = builder.createConvert(loc, indexType, str.getLen()); + auto one = builder.createIntegerConstant(loc, indexType, 1); + auto minusOne = builder.createIntegerConstant(loc, indexType, -1); + auto zero = builder.createIntegerConstant(loc, indexType, 0); + auto trueVal = builder.createIntegerConstant(loc, builder.getI1Type(), 1); + auto blank = createBlankConstantCode(getCharacterType(str)); + mlir::Value lastChar = builder.create(loc, len, one); + + auto iterWhile = + builder.create(loc, lastChar, zero, minusOne, trueVal, + /*returnFinalCount=*/false, lastChar); + auto insPt = builder.saveInsertionPoint(); + builder.setInsertionPointToStart(iterWhile.getBody()); + auto index = iterWhile.getInductionVar(); + // Look for first non-blank from the right of the character. + auto fromBuff = getCharBoxBuffer(str); + auto elemAddr = createElementAddr(fromBuff, index); + auto codeAddr = + builder.createConvert(loc, builder.getRefType(blank.getType()), elemAddr); + auto c = builder.create(loc, codeAddr); + auto isBlank = + builder.create(loc, arith::CmpIPredicate::eq, blank, c); + llvm::SmallVector results = {isBlank, index}; + builder.create(loc, results); + builder.restoreInsertionPoint(insPt); + // Compute length after iteration (zero if all blanks) + mlir::Value newLen = + builder.create(loc, iterWhile.getResult(1), one); + auto result = + builder.create(loc, iterWhile.getResult(0), zero, newLen); + return builder.createConvert(loc, builder.getCharacterLengthType(), result); +} + +fir::CharBoxValue +fir::factory::CharacterExprHelper::createCharacterTemp(mlir::Type type, + int len) { + assert(len >= 0 && "expected positive length"); + auto kind = recoverCharacterType(type).getFKind(); + auto charType = fir::CharacterType::get(builder.getContext(), kind, len); + auto addr = builder.create(loc, charType); + auto mlirLen = + builder.createIntegerConstant(loc, builder.getCharacterLengthType(), len); + return {addr, mlirLen}; +} + +// Returns integer with code for blank. The integer has the same +// size as the character. Blank has ascii space code for all kinds. +mlir::Value fir::factory::CharacterExprHelper::createBlankConstantCode( + fir::CharacterType type) { + auto bits = builder.getKindMap().getCharacterBitsize(type.getFKind()); + auto intType = builder.getIntegerType(bits); + return builder.createIntegerConstant(loc, intType, ' '); +} + +mlir::Value fir::factory::CharacterExprHelper::createBlankConstant( + fir::CharacterType type) { + return createSingletonFromCode(createBlankConstantCode(type), + type.getFKind()); +} + +void fir::factory::CharacterExprHelper::createAssign( + const fir::ExtendedValue &lhs, const fir::ExtendedValue &rhs) { + if (auto *str = rhs.getBoxOf()) { + if (auto *to = lhs.getBoxOf()) { + createAssign(*to, *str); + return; + } + } + TODO(loc, "character array assignment"); + // Note that it is not sure the array aspect should be handled + // by this utility. +} + +mlir::Value +fir::factory::CharacterExprHelper::createEmboxChar(mlir::Value addr, + mlir::Value len) { + return createEmbox(fir::CharBoxValue{addr, len}); +} + +std::pair +fir::factory::CharacterExprHelper::createUnboxChar(mlir::Value boxChar) { + using T = std::pair; + return toExtendedValue(boxChar).match( + [](const fir::CharBoxValue &b) -> T { + return {b.getBuffer(), b.getLen()}; + }, + [](const fir::CharArrayBoxValue &b) -> T { + return {b.getBuffer(), b.getLen()}; + }, + [](const auto &) -> T { llvm::report_fatal_error("not a character"); }); +} + +bool fir::factory::CharacterExprHelper::isCharacterLiteral(mlir::Type type) { + if (auto seqType = type.dyn_cast()) + return (seqType.getShape().size() == 1) && + fir::isa_char(seqType.getEleTy()); + return false; +} + +bool fir::factory::CharacterExprHelper::isCharacterScalar(mlir::Type type) { + if (type.isa()) + return true; + type = fir::unwrapRefType(type); + if (auto boxTy = type.dyn_cast()) + type = boxTy.getEleTy(); + type = fir::unwrapRefType(type); + return !type.isa() && fir::isa_char(type); +} + +fir::KindTy +fir::factory::CharacterExprHelper::getCharacterKind(mlir::Type type) { + assert(isCharacterScalar(type) && "expected scalar character"); + return recoverCharacterType(type).getFKind(); +} + +fir::KindTy +fir::factory::CharacterExprHelper::getCharacterOrSequenceKind(mlir::Type type) { + return recoverCharacterType(type).getFKind(); +} + +bool fir::factory::CharacterExprHelper::isArray(mlir::Type type) { + return !isCharacterScalar(type); +} + +bool fir::factory::CharacterExprHelper::hasConstantLengthInType( + const fir::ExtendedValue &exv) { + auto charTy = recoverCharacterType(fir::getBase(exv).getType()); + return charTy.hasConstantLen(); +} + +mlir::Value +fir::factory::CharacterExprHelper::createSingletonFromCode(mlir::Value code, + int kind) { + auto charType = fir::CharacterType::get(builder.getContext(), kind, 1); + auto bits = builder.getKindMap().getCharacterBitsize(kind); + auto intType = builder.getIntegerType(bits); + auto cast = builder.createConvert(loc, intType, code); + auto undef = builder.create(loc, charType); + auto zero = builder.createIntegerConstant(loc, builder.getIndexType(), 0); + return builder.create(loc, charType, undef, cast, zero); +} + +mlir::Value fir::factory::CharacterExprHelper::extractCodeFromSingleton( + mlir::Value singleton) { + auto type = getCharacterType(singleton); + assert(type.getLen() == 1); + auto bits = builder.getKindMap().getCharacterBitsize(type.getFKind()); + auto intType = builder.getIntegerType(bits); + auto zero = builder.createIntegerConstant(loc, builder.getIndexType(), 0); + return builder.create(loc, intType, singleton, zero); +} + +mlir::Value +fir::factory::CharacterExprHelper::readLengthFromBox(mlir::Value box) { + auto lenTy = builder.getCharacterLengthType(); + auto size = builder.create(loc, lenTy, box); + auto charTy = recoverCharacterType(box.getType()); + auto bits = builder.getKindMap().getCharacterBitsize(charTy.getFKind()); + auto width = bits / 8; + if (width > 1) { + auto widthVal = builder.createIntegerConstant(loc, lenTy, width); + return builder.create(loc, size, widthVal); + } + return size; +} + +mlir::Value fir::factory::CharacterExprHelper::getLength(mlir::Value memref) { + auto memrefType = memref.getType(); + auto charType = recoverCharacterType(memrefType); + assert(charType && "must be a character type"); + if (charType.hasConstantLen()) + return builder.createIntegerConstant(loc, builder.getCharacterLengthType(), + charType.getLen()); + if (memrefType.isa()) + return readLengthFromBox(memref); + if (memrefType.isa()) + return createUnboxChar(memref).second; + + // Length cannot be deduced from memref. + return {}; +} diff --git a/flang/lib/Optimizer/Builder/FIRBuilder.cpp b/flang/lib/Optimizer/Builder/FIRBuilder.cpp --- a/flang/lib/Optimizer/Builder/FIRBuilder.cpp +++ b/flang/lib/Optimizer/Builder/FIRBuilder.cpp @@ -11,6 +11,7 @@ #include "flang/Optimizer/Dialect/FIROpsSupport.h" #include "flang/Optimizer/Support/FatalError.h" #include "flang/Optimizer/Support/InternalNames.h" +#include "mlir/Dialect/OpenMP/OpenMPDialect.h" #include "llvm/ADT/StringExtras.h" #include "llvm/Support/CommandLine.h" #include "llvm/Support/MD5.h" @@ -112,6 +113,113 @@ llvm_unreachable("should use builtin floating-point type"); } +static llvm::SmallVector +elideExtentsAlreadyInType(mlir::Type type, mlir::ValueRange shape) { + auto arrTy = type.dyn_cast(); + if (shape.empty() || !arrTy) + return {}; + // elide the constant dimensions before construction + assert(shape.size() == arrTy.getDimension()); + llvm::SmallVector dynamicShape; + auto typeShape = arrTy.getShape(); + for (unsigned i = 0, end = arrTy.getDimension(); i < end; ++i) + if (typeShape[i] == fir::SequenceType::getUnknownExtent()) + dynamicShape.push_back(shape[i]); + return dynamicShape; +} + +static llvm::SmallVector +elideLengthsAlreadyInType(mlir::Type type, mlir::ValueRange lenParams) { + if (lenParams.empty()) + return {}; + if (auto arrTy = type.dyn_cast()) + type = arrTy.getEleTy(); + if (fir::hasDynamicSize(type)) + return lenParams; + return {}; +} + +/// Allocate a local variable. +/// A local variable ought to have a name in the source code. +mlir::Value fir::FirOpBuilder::allocateLocal( + mlir::Location loc, mlir::Type ty, llvm::StringRef uniqName, + llvm::StringRef name, bool pinned, llvm::ArrayRef shape, + llvm::ArrayRef lenParams, bool asTarget) { + // Convert the shape extents to `index`, as needed. + llvm::SmallVector indices; + llvm::SmallVector elidedShape = + elideExtentsAlreadyInType(ty, shape); + llvm::SmallVector elidedLenParams = + elideLengthsAlreadyInType(ty, lenParams); + auto idxTy = getIndexType(); + llvm::for_each(elidedShape, [&](mlir::Value sh) { + indices.push_back(createConvert(loc, idxTy, sh)); + }); + // Add a target attribute, if needed. + llvm::SmallVector attrs; + if (asTarget) + attrs.emplace_back( + mlir::Identifier::get(fir::getTargetAttrName(), getContext()), + getUnitAttr()); + // Create the local variable. + if (name.empty()) { + if (uniqName.empty()) + return create(loc, ty, pinned, elidedLenParams, indices, + attrs); + return create(loc, ty, uniqName, pinned, elidedLenParams, + indices, attrs); + } + return create(loc, ty, uniqName, name, pinned, elidedLenParams, + indices, attrs); +} + +mlir::Value fir::FirOpBuilder::allocateLocal( + mlir::Location loc, mlir::Type ty, llvm::StringRef uniqName, + llvm::StringRef name, llvm::ArrayRef shape, + llvm::ArrayRef lenParams, bool asTarget) { + return allocateLocal(loc, ty, uniqName, name, /*pinned=*/false, shape, + lenParams, asTarget); +} + +/// Get the block for adding Allocas. +mlir::Block *fir::FirOpBuilder::getAllocaBlock() { + // auto iface = + // getRegion().getParentOfType(); + // return iface ? iface.getAllocaBlock() : getEntryBlock(); + return getEntryBlock(); +} + +/// Create a temporary variable on the stack. Anonymous temporaries have no +/// `name` value. Temporaries do not require a uniqued name. +mlir::Value +fir::FirOpBuilder::createTemporary(mlir::Location loc, mlir::Type type, + llvm::StringRef name, mlir::ValueRange shape, + mlir::ValueRange lenParams, + llvm::ArrayRef attrs) { + llvm::SmallVector dynamicShape = + elideExtentsAlreadyInType(type, shape); + llvm::SmallVector dynamicLength = + elideLengthsAlreadyInType(type, lenParams); + InsertPoint insPt; + const bool hoistAlloc = dynamicShape.empty() && dynamicLength.empty(); + if (hoistAlloc) { + insPt = saveInsertionPoint(); + setInsertionPointToStart(getAllocaBlock()); + } + + // If the alloca is inside an OpenMP Op which will be outlined then pin the + // alloca here. + const bool pinned = + getRegion().getParentOfType(); + assert(!type.isa() && "cannot be a reference"); + auto ae = + create(loc, type, /*unique_name=*/llvm::StringRef{}, name, + pinned, dynamicLength, dynamicShape, attrs); + if (hoistAlloc) + restoreInsertionPoint(insPt); + return ae; +} + /// Create a global variable in the (read-only) data section. A global variable /// must have a unique name to identify and reference it. fir::GlobalOp diff --git a/flang/unittests/Optimizer/Builder/CharacterTest.cpp b/flang/unittests/Optimizer/Builder/CharacterTest.cpp new file mode 100644 --- /dev/null +++ b/flang/unittests/Optimizer/Builder/CharacterTest.cpp @@ -0,0 +1,99 @@ +//===- CharacterTest.cpp -- CharacterExprHelper unit tests ----------------===// +// +// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. +// See https://llvm.org/LICENSE.txt for license information. +// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception +// +//===----------------------------------------------------------------------===// + +#include "flang/Optimizer/Builder/Character.h" +#include "gtest/gtest.h" +#include "flang/Optimizer/Builder/BoxValue.h" +#include "flang/Optimizer/Builder/FIRBuilder.h" +#include "flang/Optimizer/Support/InitFIR.h" +#include "flang/Optimizer/Support/KindMapping.h" + +struct CharacterTest : public testing::Test { +public: + void SetUp() override { + fir::KindMapping kindMap(&context, + "i10:80,l3:24,a1:8,r54:Double,c20:X86_FP80,r11:PPC_FP128," + "r12:FP128,r13:X86_FP80,r14:Double,r15:Float,r16:Half,r23:BFloat"); + mlir::OpBuilder builder(&context); + auto loc = builder.getUnknownLoc(); + + // Set up a Module with a dummy function operation inside. + // Set the insertion point in the function entry block. + mlir::ModuleOp mod = builder.create(loc); + mlir::FuncOp func = mlir::FuncOp::create( + loc, "func1", builder.getFunctionType(llvm::None, llvm::None)); + auto *entryBlock = func.addEntryBlock(); + mod.push_back(mod); + builder.setInsertionPointToStart(entryBlock); + + fir::support::loadDialects(context); + firBuilder = std::make_unique(mod, kindMap); + } + + fir::FirOpBuilder &getBuilder() { return *firBuilder; } + + mlir::MLIRContext context; + std::unique_ptr firBuilder; +}; + +static void checkIntegerConstant(mlir::Value value, mlir::Type ty, int64_t v) { + EXPECT_TRUE(mlir::isa(value.getDefiningOp())); + auto cstOp = dyn_cast(value.getDefiningOp()); + EXPECT_EQ(ty, cstOp.getType()); + auto valueAttr = cstOp.getValue().dyn_cast_or_null(); + EXPECT_EQ(v, valueAttr.getInt()); +} + +TEST_F(CharacterTest, smallUtilityFunctions) { + auto builder = getBuilder(); + auto loc = builder.getUnknownLoc(); + llvm::StringRef strValue("onestringliteral"); + auto strLit = fir::factory::createStringLiteral(builder, loc, strValue); + EXPECT_TRUE( + fir::factory::CharacterExprHelper::hasConstantLengthInType(strLit)); + auto ty = strLit.getCharBox()->getAddr().getType(); + EXPECT_TRUE(fir::factory::CharacterExprHelper::isCharacterScalar(ty)); + EXPECT_EQ(fir::factory::CharacterExprHelper::getCharacterOrSequenceKind(ty), + fir::factory::CharacterExprHelper::getCharacterKind(ty)); +} + +TEST_F(CharacterTest, createConcatenate) { + auto builder = getBuilder(); + auto loc = builder.getUnknownLoc(); + auto charHelper = fir::factory::CharacterExprHelper(builder, loc); + llvm::StringRef lhs("rightsideofconcat"); + llvm::StringRef rhs("leftsideofconcat"); + auto strLitLhs = fir::factory::createStringLiteral(builder, loc, lhs); + auto strLitRhs = fir::factory::createStringLiteral(builder, loc, rhs); + auto concat = charHelper.createConcatenate( + *strLitRhs.getCharBox(), *strLitLhs.getCharBox()); + EXPECT_TRUE(mlir::isa(concat.getLen().getDefiningOp())); + auto addOp = dyn_cast(concat.getLen().getDefiningOp()); + EXPECT_TRUE(mlir::isa(addOp.lhs().getDefiningOp())); + auto lhsCstOp = dyn_cast(addOp.lhs().getDefiningOp()); + EXPECT_TRUE(mlir::isa(addOp.rhs().getDefiningOp())); + auto rhsCstOp = dyn_cast(addOp.rhs().getDefiningOp()); + checkIntegerConstant(lhsCstOp, builder.getCharacterLengthType(), 16); + checkIntegerConstant(rhsCstOp, builder.getCharacterLengthType(), 17); +} + +TEST_F(CharacterTest, createSubstring) { + auto builder = getBuilder(); + auto loc = builder.getUnknownLoc(); + auto charHelper = fir::factory::CharacterExprHelper(builder, loc); + llvm::StringRef data("a dummy string to test substring"); + auto str = fir::factory::createStringLiteral(builder, loc, data); + auto lb = builder.createIntegerConstant(loc, builder.getI64Type(), 18); + auto ub = builder.createIntegerConstant(loc, builder.getI64Type(), 22); + auto substr = charHelper.createSubstring(*str.getCharBox(), {lb, ub}); + EXPECT_FALSE( + fir::factory::CharacterExprHelper::hasConstantLengthInType(substr)); + EXPECT_FALSE(charHelper.getCharacterType(substr).hasConstantLen()); + EXPECT_FALSE(fir::factory::CharacterExprHelper::isArray( + charHelper.getCharacterType(substr))); +} diff --git a/flang/unittests/Optimizer/Builder/FIRBuilderTest.cpp b/flang/unittests/Optimizer/Builder/FIRBuilderTest.cpp --- a/flang/unittests/Optimizer/Builder/FIRBuilderTest.cpp +++ b/flang/unittests/Optimizer/Builder/FIRBuilderTest.cpp @@ -318,3 +318,20 @@ EXPECT_EQ(strValue, stringLit.getValue().dyn_cast().getValue()); } } + +TEST_F(FIRBuilderTest, allocateLocal) { + auto builder = getBuilder(); + auto loc = builder.getUnknownLoc(); + llvm::StringRef varName = "var1"; + auto var = builder.allocateLocal( + loc, builder.getI64Type(), "", varName, {}, {}, false); + EXPECT_TRUE(mlir::isa(var.getDefiningOp())); + auto allocaOp = dyn_cast(var.getDefiningOp()); + EXPECT_EQ(builder.getI64Type(), allocaOp.in_type()); + EXPECT_TRUE(allocaOp.bindc_name().hasValue()); + EXPECT_EQ(varName, allocaOp.bindc_name().getValue()); + EXPECT_FALSE(allocaOp.uniq_name().hasValue()); + EXPECT_FALSE(allocaOp.pinned()); + EXPECT_EQ(0u, allocaOp.typeparams().size()); + EXPECT_EQ(0u, allocaOp.shape().size()); +} diff --git a/flang/unittests/Optimizer/CMakeLists.txt b/flang/unittests/Optimizer/CMakeLists.txt --- a/flang/unittests/Optimizer/CMakeLists.txt +++ b/flang/unittests/Optimizer/CMakeLists.txt @@ -9,6 +9,7 @@ ) add_flang_unittest(FlangOptimizerTests + Builder/CharacterTest.cpp Builder/DoLoopHelperTest.cpp Builder/FIRBuilderTest.cpp FIRContextTest.cpp