Files
clang-p2996/mlir/tools/mlir-tblgen/FormatGen.h
Jeff Niu 95a33b455d [mlir][ods] Format: allow anchors in the else elements
This patch changes optional groups to allow anchors in the 'else'
element group. When printing, the optional condition is inverted to
decide which group to print. This is useful for parsing concrete
optional elements that don't have a `parseOptional*` method or some
other way to test whether it's present.

Depends on D133805

Reviewed By: rriddle

Differential Revision: https://reviews.llvm.org/D133812
2022-09-20 11:07:50 -07:00

588 lines
19 KiB
C++

//===- FormatGen.h - Utilities for custom assembly formats ------*- 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
//
//===----------------------------------------------------------------------===//
//
// This file contains common classes for building custom assembly format parsers
// and generators.
//
//===----------------------------------------------------------------------===//
#ifndef MLIR_TOOLS_MLIRTBLGEN_FORMATGEN_H_
#define MLIR_TOOLS_MLIRTBLGEN_FORMATGEN_H_
#include "mlir/Support/LLVM.h"
#include "mlir/Support/LogicalResult.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/StringSet.h"
#include "llvm/Support/Allocator.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/SMLoc.h"
#include <vector>
namespace llvm {
class SourceMgr;
} // namespace llvm
namespace mlir {
namespace tblgen {
//===----------------------------------------------------------------------===//
// FormatToken
//===----------------------------------------------------------------------===//
/// This class represents a specific token in the input format.
class FormatToken {
public:
/// Basic token kinds.
enum Kind {
// Markers.
eof,
error,
// Tokens with no info.
l_paren,
r_paren,
caret,
colon,
comma,
equal,
less,
greater,
question,
star,
pipe,
// Keywords.
keyword_start,
kw_attr_dict,
kw_attr_dict_w_keyword,
kw_custom,
kw_functional_type,
kw_oilist,
kw_operands,
kw_params,
kw_qualified,
kw_ref,
kw_regions,
kw_results,
kw_struct,
kw_successors,
kw_type,
keyword_end,
// String valued tokens.
identifier,
literal,
variable,
string,
};
FormatToken(Kind kind, StringRef spelling) : kind(kind), spelling(spelling) {}
/// Return the bytes that make up this token.
StringRef getSpelling() const { return spelling; }
/// Return the kind of this token.
Kind getKind() const { return kind; }
/// Return a location for this token.
SMLoc getLoc() const;
/// Returns true if the token is of the given kind.
bool is(Kind kind) { return getKind() == kind; }
/// Return if this token is a keyword.
bool isKeyword() const {
return getKind() > Kind::keyword_start && getKind() < Kind::keyword_end;
}
private:
/// Discriminator that indicates the kind of token this is.
Kind kind;
/// A reference to the entire token contents; this is always a pointer into
/// a memory buffer owned by the source manager.
StringRef spelling;
};
//===----------------------------------------------------------------------===//
// FormatLexer
//===----------------------------------------------------------------------===//
/// This class implements a simple lexer for operation assembly format strings.
class FormatLexer {
public:
FormatLexer(llvm::SourceMgr &mgr, SMLoc loc);
/// Lex the next token and return it.
FormatToken lexToken();
/// Emit an error to the lexer with the given location and message.
FormatToken emitError(SMLoc loc, const Twine &msg);
FormatToken emitError(const char *loc, const Twine &msg);
FormatToken emitErrorAndNote(SMLoc loc, const Twine &msg, const Twine &note);
private:
/// Return the next character in the stream.
int getNextChar();
/// Lex an identifier, literal, variable, or string.
FormatToken lexIdentifier(const char *tokStart);
FormatToken lexLiteral(const char *tokStart);
FormatToken lexVariable(const char *tokStart);
FormatToken lexString(const char *tokStart);
/// Create a token with the current pointer and a start pointer.
FormatToken formToken(FormatToken::Kind kind, const char *tokStart) {
return FormatToken(kind, StringRef(tokStart, curPtr - tokStart));
}
/// The source manager containing the format string.
llvm::SourceMgr &mgr;
/// Location of the format string.
SMLoc loc;
/// Buffer containing the format string.
StringRef curBuffer;
/// Current pointer in the buffer.
const char *curPtr;
};
//===----------------------------------------------------------------------===//
// FormatElement
//===----------------------------------------------------------------------===//
/// This class represents a single format element.
///
/// If you squint and take a close look, you can see the outline of a `Format`
/// dialect.
class FormatElement {
public:
virtual ~FormatElement();
// The top-level kinds of format elements.
enum Kind { Literal, String, Variable, Whitespace, Directive, Optional };
/// Support LLVM-style RTTI.
static bool classof(const FormatElement *el) { return true; }
/// Get the element kind.
Kind getKind() const { return kind; }
protected:
/// Create a format element with the given kind.
FormatElement(Kind kind) : kind(kind) {}
private:
/// The kind of the element.
Kind kind;
};
/// The base class for all format elements. This class implements common methods
/// for LLVM-style RTTI.
template <FormatElement::Kind ElementKind>
class FormatElementBase : public FormatElement {
public:
/// Support LLVM-style RTTI.
static bool classof(const FormatElement *el) {
return ElementKind == el->getKind();
}
protected:
/// Create a format element with the given kind.
FormatElementBase() : FormatElement(ElementKind) {}
};
/// This class represents a literal element. A literal is either one of the
/// supported punctuation characters (e.g. `(` or `,`) or a string literal (e.g.
/// `literal`).
class LiteralElement : public FormatElementBase<FormatElement::Literal> {
public:
/// Create a literal element with the given spelling.
explicit LiteralElement(StringRef spelling) : spelling(spelling) {}
/// Get the spelling of the literal.
StringRef getSpelling() const { return spelling; }
private:
/// The spelling of the variable, i.e. the string contained within the
/// backticks.
StringRef spelling;
};
/// This class represents a raw string that can contain arbitrary C++ code.
class StringElement : public FormatElementBase<FormatElement::String> {
public:
/// Create a string element with the given contents.
explicit StringElement(std::string value) : value(std::move(value)) {}
/// Get the value of the string element.
StringRef getValue() const { return value; }
private:
/// The contents of the string.
std::string value;
};
/// This class represents a variable element. A variable refers to some part of
/// the object being parsed, e.g. an attribute or operand on an operation or a
/// parameter on an attribute.
class VariableElement : public FormatElementBase<FormatElement::Variable> {
public:
/// These are the kinds of variables.
enum Kind { Attribute, Operand, Region, Result, Successor, Parameter };
/// Get the kind of variable.
Kind getKind() const { return kind; }
protected:
/// Create a variable with a kind.
VariableElement(Kind kind) : kind(kind) {}
private:
/// The kind of variable.
Kind kind;
};
/// Base class for variable elements. This class implements common methods for
/// LLVM-style RTTI.
template <VariableElement::Kind VariableKind>
class VariableElementBase : public VariableElement {
public:
/// An element is of this class if it is a variable and has the same variable
/// type.
static bool classof(const FormatElement *el) {
if (auto *varEl = dyn_cast<VariableElement>(el))
return VariableKind == varEl->getKind();
return false;
}
protected:
/// Create a variable element with the given variable kind.
VariableElementBase() : VariableElement(VariableKind) {}
};
/// This class represents a whitespace element, e.g. a newline or space. It is a
/// literal that is printed but never parsed. When the value is empty, i.e. ``,
/// a space is elided where one would have been printed automatically.
class WhitespaceElement : public FormatElementBase<FormatElement::Whitespace> {
public:
/// Create a whitespace element.
explicit WhitespaceElement(StringRef value) : value(value) {}
/// Get the whitespace value.
StringRef getValue() const { return value; }
private:
/// The value of the whitespace element. Can be empty.
StringRef value;
};
class DirectiveElement : public FormatElementBase<FormatElement::Directive> {
public:
/// These are the kinds of directives.
enum Kind {
AttrDict,
Custom,
FunctionalType,
OIList,
Operands,
Ref,
Regions,
Results,
Successors,
Type,
Params,
Struct
};
/// Get the directive kind.
Kind getKind() const { return kind; }
protected:
/// Create a directive element with a kind.
DirectiveElement(Kind kind) : kind(kind) {}
private:
/// The directive kind.
Kind kind;
};
/// Base class for directive elements. This class implements common methods for
/// LLVM-style RTTI.
template <DirectiveElement::Kind DirectiveKind>
class DirectiveElementBase : public DirectiveElement {
public:
/// Create a directive element with the specified kind.
DirectiveElementBase() : DirectiveElement(DirectiveKind) {}
/// A format element is of this class if it is a directive element and has the
/// same kind.
static bool classof(const FormatElement *el) {
if (auto *directiveEl = dyn_cast<DirectiveElement>(el))
return DirectiveKind == directiveEl->getKind();
return false;
}
};
/// This class represents a custom format directive that is implemented by the
/// user in C++. The directive accepts a list of arguments that is passed to the
/// C++ function.
class CustomDirective : public DirectiveElementBase<DirectiveElement::Custom> {
public:
/// Create a custom directive with a name and list of arguments.
CustomDirective(StringRef name, std::vector<FormatElement *> &&arguments)
: name(name), arguments(std::move(arguments)) {}
/// Get the custom directive name.
StringRef getName() const { return name; }
/// Get the arguments to the custom directive.
ArrayRef<FormatElement *> getArguments() const { return arguments; }
private:
/// The name of the custom directive. The name is used to call two C++
/// methods: `parse{name}` and `print{name}` with the given arguments.
StringRef name;
/// The arguments with which to call the custom functions. These are either
/// variables (for which the functions are responsible for populating) or
/// references to variables.
std::vector<FormatElement *> arguments;
};
/// This class represents a reference directive. This directive can be used to
/// reference but not bind a previously bound variable or format object. Its
/// current only use is to pass variables as arguments to the custom directive.
class RefDirective : public DirectiveElementBase<DirectiveElement::Ref> {
public:
/// Create a reference directive with the single referenced child.
RefDirective(FormatElement *arg) : arg(arg) {}
/// Get the reference argument.
FormatElement *getArg() const { return arg; }
private:
/// The referenced argument.
FormatElement *arg;
};
/// This class represents a group of elements that are optionally emitted based
/// on an optional variable "anchor" and a group of elements that are emitted
/// when the anchor element is not present.
class OptionalElement : public FormatElementBase<FormatElement::Optional> {
public:
/// Create an optional group with the given child elements.
OptionalElement(std::vector<FormatElement *> &&thenElements,
std::vector<FormatElement *> &&elseElements,
unsigned thenParseStart, unsigned elseParseStart,
FormatElement *anchor, bool inverted)
: thenElements(std::move(thenElements)),
elseElements(std::move(elseElements)), thenParseStart(thenParseStart),
elseParseStart(elseParseStart), anchor(anchor), inverted(inverted) {}
/// Return the `then` elements of the optional group. Drops the first
/// `thenParseStart` whitespace elements if `parseable` is true.
ArrayRef<FormatElement *> getThenElements(bool parseable = false) const {
return llvm::makeArrayRef(thenElements)
.drop_front(parseable ? thenParseStart : 0);
}
/// Return the `else` elements of the optional group. Drops the first
/// `elseParseStart` whitespace elements if `parseable` is true.
ArrayRef<FormatElement *> getElseElements(bool parseable = false) const {
return llvm::makeArrayRef(elseElements)
.drop_front(parseable ? elseParseStart : 0);
}
/// Return the anchor of the optional group.
FormatElement *getAnchor() const { return anchor; }
/// Return true if the optional group is inverted.
bool isInverted() const { return inverted; }
private:
/// The child elements emitted when the anchor is present.
std::vector<FormatElement *> thenElements;
/// The child elements emitted when the anchor is not present.
std::vector<FormatElement *> elseElements;
/// The index of the first element that is parsed in `thenElements`. That is,
/// the first non-whitespace element.
unsigned thenParseStart;
/// The index of the first element that is parsed in `elseElements`. That is,
/// the first non-whitespace element.
unsigned elseParseStart;
/// The anchor element of the optional group.
FormatElement *anchor;
/// Whether the optional group condition is inverted and the anchor element is
/// in the else group.
bool inverted;
};
//===----------------------------------------------------------------------===//
// FormatParserBase
//===----------------------------------------------------------------------===//
/// Base class for a parser that implements an assembly format. This class
/// defines a common assembly format syntax and the creation of format elements.
/// Subclasses will need to implement parsing for the format elements they
/// support.
class FormatParser {
public:
/// Vtable anchor.
virtual ~FormatParser();
/// Parse the assembly format.
FailureOr<std::vector<FormatElement *>> parse();
protected:
/// The current context of the parser when parsing an element.
enum Context {
/// The element is being parsed in a "top-level" context, i.e. at the top of
/// the format or in an optional group.
TopLevelContext,
/// The element is being parsed as a custom directive child.
CustomDirectiveContext,
/// The element is being parsed as a type directive child.
TypeDirectiveContext,
/// The element is being parsed as a reference directive child.
RefDirectiveContext,
/// The element is being parsed as a struct directive child.
StructDirectiveContext
};
/// Create a format parser with the given source manager and a location.
explicit FormatParser(llvm::SourceMgr &mgr, llvm::SMLoc loc)
: lexer(mgr, loc), curToken(lexer.lexToken()) {}
/// Allocate and construct a format element.
template <typename FormatElementT, typename... Args>
FormatElementT *create(Args &&...args) {
// FormatElementT *ptr = allocator.Allocate<FormatElementT>();
// ::new (ptr) FormatElementT(std::forward<Args>(args)...);
// return ptr;
auto mem = std::make_unique<FormatElementT>(std::forward<Args>(args)...);
FormatElementT *ptr = mem.get();
allocator.push_back(std::move(mem));
return ptr;
}
//===--------------------------------------------------------------------===//
// Element Parsing
/// Parse a single element of any kind.
FailureOr<FormatElement *> parseElement(Context ctx);
/// Parse a literal.
FailureOr<FormatElement *> parseLiteral(Context ctx);
/// Parse a string.
FailureOr<FormatElement *> parseString(Context ctx);
/// Parse a variable.
FailureOr<FormatElement *> parseVariable(Context ctx);
/// Parse a directive.
FailureOr<FormatElement *> parseDirective(Context ctx);
/// Parse an optional group.
FailureOr<FormatElement *> parseOptionalGroup(Context ctx);
/// Parse a custom directive.
FailureOr<FormatElement *> parseCustomDirective(llvm::SMLoc loc, Context ctx);
/// Parse a format-specific variable kind.
virtual FailureOr<FormatElement *>
parseVariableImpl(llvm::SMLoc loc, StringRef name, Context ctx) = 0;
/// Parse a format-specific directive kind.
virtual FailureOr<FormatElement *>
parseDirectiveImpl(llvm::SMLoc loc, FormatToken::Kind kind, Context ctx) = 0;
//===--------------------------------------------------------------------===//
// Format Verification
/// Verify that the format is well-formed.
virtual LogicalResult verify(llvm::SMLoc loc,
ArrayRef<FormatElement *> elements) = 0;
/// Verify the arguments to a custom directive.
virtual LogicalResult
verifyCustomDirectiveArguments(llvm::SMLoc loc,
ArrayRef<FormatElement *> arguments) = 0;
/// Verify the elements of an optional group.
virtual LogicalResult
verifyOptionalGroupElements(llvm::SMLoc loc,
ArrayRef<FormatElement *> elements,
FormatElement *anchor) = 0;
//===--------------------------------------------------------------------===//
// Lexer Utilities
/// Emit an error at the given location.
LogicalResult emitError(llvm::SMLoc loc, const Twine &msg) {
lexer.emitError(loc, msg);
return failure();
}
/// Emit an error and a note at the given notation.
LogicalResult emitErrorAndNote(llvm::SMLoc loc, const Twine &msg,
const Twine &note) {
lexer.emitErrorAndNote(loc, msg, note);
return failure();
}
/// Parse a single token of the expected kind.
FailureOr<FormatToken> parseToken(FormatToken::Kind kind, const Twine &msg) {
if (!curToken.is(kind))
return emitError(curToken.getLoc(), msg);
FormatToken tok = curToken;
consumeToken();
return tok;
}
/// Advance the lexer to the next token.
void consumeToken() {
assert(!curToken.is(FormatToken::eof) && !curToken.is(FormatToken::error) &&
"shouldn't advance past EOF or errors");
curToken = lexer.lexToken();
}
/// Get the current token.
FormatToken peekToken() { return curToken; }
private:
/// The format parser retains ownership of the format elements in a bump
/// pointer allocator.
// FIXME: FormatElement with `std::vector` need to be converted to use
// trailing objects.
// llvm::BumpPtrAllocator allocator;
std::vector<std::unique_ptr<FormatElement>> allocator;
/// The format lexer to use.
FormatLexer lexer;
/// The current token in the lexer.
FormatToken curToken;
};
//===----------------------------------------------------------------------===//
// Utility Functions
//===----------------------------------------------------------------------===//
/// Whether a space needs to be emitted before a literal. E.g., two keywords
/// back-to-back require a space separator, but a keyword followed by '<' does
/// not require a space.
bool shouldEmitSpaceBefore(StringRef value, bool lastWasPunctuation);
/// Returns true if the given string can be formatted as a keyword.
bool canFormatStringAsKeyword(StringRef value,
function_ref<void(Twine)> emitError = nullptr);
/// Returns true if the given string is valid format literal element.
/// If `emitError` is provided, it is invoked with the reason for the failure.
bool isValidLiteral(StringRef value,
function_ref<void(Twine)> emitError = nullptr);
/// Whether a failure in parsing the assembly format should be a fatal error.
extern llvm::cl::opt<bool> formatErrorIsFatal;
} // namespace tblgen
} // namespace mlir
#endif // MLIR_TOOLS_MLIRTBLGEN_FORMATGEN_H_