llvm-for-llvmta/include/llvm/Option/OptParser.td

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//===--- OptParser.td - Common Option Parsing Interfaces ------------------===//
//
// 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 defines the common interfaces used by the option parsing TableGen
// backend.
//
//===----------------------------------------------------------------------===//
// Define the kinds of options.
class OptionKind<string name, int precedence = 0, bit sentinel = false> {
string Name = name;
// The kind precedence, kinds with lower precedence are matched first.
int Precedence = precedence;
// Indicate a sentinel option.
bit Sentinel = sentinel;
}
// An option group.
def KIND_GROUP : OptionKind<"Group">;
// The input option kind.
def KIND_INPUT : OptionKind<"Input", 1, true>;
// The unknown option kind.
def KIND_UNKNOWN : OptionKind<"Unknown", 2, true>;
// A flag with no values.
def KIND_FLAG : OptionKind<"Flag">;
// An option which prefixes its (single) value.
def KIND_JOINED : OptionKind<"Joined", 1>;
// An option which is followed by its value.
def KIND_SEPARATE : OptionKind<"Separate">;
// An option followed by its values, which are separated by commas.
def KIND_COMMAJOINED : OptionKind<"CommaJoined">;
// An option which is which takes multiple (separate) arguments.
def KIND_MULTIARG : OptionKind<"MultiArg">;
// An option which is either joined to its (non-empty) value, or followed by its
// value.
def KIND_JOINED_OR_SEPARATE : OptionKind<"JoinedOrSeparate">;
// An option which is both joined to its (first) value, and followed by its
// (second) value.
def KIND_JOINED_AND_SEPARATE : OptionKind<"JoinedAndSeparate">;
// An option which consumes all remaining arguments if there are any.
def KIND_REMAINING_ARGS : OptionKind<"RemainingArgs">;
// An option which consumes an optional joined argument and any other remaining
// arguments.
def KIND_REMAINING_ARGS_JOINED : OptionKind<"RemainingArgsJoined">;
// Define the option flags.
class OptionFlag {}
// HelpHidden - The option should not be displayed in --help, even if it has
// help text. Clients *can* use this in conjunction with the OptTable::PrintHelp
// arguments to implement hidden help groups.
def HelpHidden : OptionFlag;
// RenderAsInput - The option should not render the name when rendered as an
// input (i.e., the option is rendered as values).
def RenderAsInput : OptionFlag;
// RenderJoined - The option should be rendered joined, even if separate (only
// sensible on single value separate options).
def RenderJoined : OptionFlag;
// RenderSeparate - The option should be rendered separately, even if joined
// (only sensible on joined options).
def RenderSeparate : OptionFlag;
// Define the option group class.
class OptionGroup<string name> {
string EnumName = ?; // Uses the def name if undefined.
string Name = name;
string HelpText = ?;
OptionGroup Group = ?;
list<OptionFlag> Flags = [];
}
// Define the option class.
class Option<list<string> prefixes, string name, OptionKind kind> {
string EnumName = ?; // Uses the def name if undefined.
list<string> Prefixes = prefixes;
string Name = name;
OptionKind Kind = kind;
// Used by MultiArg option kind.
int NumArgs = 0;
string HelpText = ?;
string MetaVarName = ?;
string Values = ?;
code ValuesCode = ?;
list<OptionFlag> Flags = [];
OptionGroup Group = ?;
Option Alias = ?;
list<string> AliasArgs = [];
code MacroPrefix = "";
code KeyPath = ?;
code DefaultValue = ?;
code ImpliedValue = ?;
code ImpliedCheck = "false";
code ShouldParse = "true";
bit ShouldAlwaysEmit = false;
code NormalizerRetTy = ?;
code NormalizedValuesScope = "";
code Normalizer = "";
code Denormalizer = "";
code ValueMerger = "mergeForwardValue";
code ValueExtractor = "extractForwardValue";
list<code> NormalizedValues = ?;
}
// Helpers for defining options.
class Flag<list<string> prefixes, string name>
: Option<prefixes, name, KIND_FLAG>;
class Joined<list<string> prefixes, string name>
: Option<prefixes, name, KIND_JOINED>;
class Separate<list<string> prefixes, string name>
: Option<prefixes, name, KIND_SEPARATE>;
class CommaJoined<list<string> prefixes, string name>
: Option<prefixes, name, KIND_COMMAJOINED>;
class MultiArg<list<string> prefixes, string name, int numargs>
: Option<prefixes, name, KIND_MULTIARG> {
int NumArgs = numargs;
}
class JoinedOrSeparate<list<string> prefixes, string name>
: Option<prefixes, name, KIND_JOINED_OR_SEPARATE>;
class JoinedAndSeparate<list<string> prefixes, string name>
: Option<prefixes, name, KIND_JOINED_AND_SEPARATE>;
// Mix-ins for adding optional attributes.
class Alias<Option alias> { Option Alias = alias; }
class AliasArgs<list<string> aliasargs> { list<string> AliasArgs = aliasargs; }
class EnumName<string name> { string EnumName = name; }
class Flags<list<OptionFlag> flags> { list<OptionFlag> Flags = flags; }
class Group<OptionGroup group> { OptionGroup Group = group; }
class HelpText<string text> { string HelpText = text; }
class MetaVarName<string name> { string MetaVarName = name; }
class Values<string value> { string Values = value; }
class ValuesCode<code valuecode> { code ValuesCode = valuecode; }
// Helpers for defining marshalling information.
class KeyPathAndMacro<string key_path_prefix, string key_path_base,
string macro_prefix = ""> {
code KeyPath = !strconcat(key_path_prefix, key_path_base);
code MacroPrefix = macro_prefix;
}
def EmptyKPM : KeyPathAndMacro<"", "">;
class ImpliedByAnyOf<list<string> key_paths, code value = "true"> {
code ImpliedCheck = !foldl("false", key_paths, accumulator, key_path,
!strconcat(accumulator, " || ", key_path));
code ImpliedValue = value;
}
class MarshallingInfo<KeyPathAndMacro kpm, code defaultvalue> {
code KeyPath = kpm.KeyPath;
code MacroPrefix = kpm.MacroPrefix;
code DefaultValue = defaultvalue;
}
class MarshallingInfoString<KeyPathAndMacro kpm, code defaultvalue="std::string()">
: MarshallingInfo<kpm, defaultvalue> {
code Normalizer = "normalizeString";
code Denormalizer = "denormalizeString";
}
class MarshallingInfoStringInt<KeyPathAndMacro kpm, code defaultvalue="0", code type="unsigned">
: MarshallingInfo<kpm, defaultvalue> {
code Normalizer = "normalizeStringIntegral<"#type#">";
code Denormalizer = "denormalizeString";
}
class MarshallingInfoStringVector<KeyPathAndMacro kpm>
: MarshallingInfo<kpm, "std::vector<std::string>({})"> {
code Normalizer = "normalizeStringVector";
code Denormalizer = "denormalizeStringVector";
}
class MarshallingInfoFlag<KeyPathAndMacro kpm, code defaultvalue = "false">
: MarshallingInfo<kpm, defaultvalue> {
code Normalizer = "normalizeSimpleFlag";
code Denormalizer = "denormalizeSimpleFlag";
}
class MarshallingInfoNegativeFlag<KeyPathAndMacro kpm, code defaultvalue = "true">
: MarshallingInfo<kpm, defaultvalue> {
code Normalizer = "normalizeSimpleNegativeFlag";
code Denormalizer = "denormalizeSimpleFlag";
}
class MarshallingInfoBitfieldFlag<KeyPathAndMacro kpm, code value>
: MarshallingInfoFlag<kpm, "0u"> {
code Normalizer = "makeFlagToValueNormalizer("#value#")";
code ValueMerger = "mergeMaskValue";
code ValueExtractor = "(extractMaskValue<unsigned, decltype("#value#"), "#value#">)";
}
// Marshalling info for booleans. Applied to the flag setting keypath to false.
class MarshallingInfoBooleanFlag<KeyPathAndMacro kpm, code defaultvalue, code value, code name,
code other_value, code other_name>
: MarshallingInfoFlag<kpm, defaultvalue> {
code Normalizer = "makeBooleanOptionNormalizer("#value#", "#other_value#", OPT_"#other_name#")";
code Denormalizer = "makeBooleanOptionDenormalizer("#value#")";
}
// Mixins for additional marshalling attributes.
class ShouldParseIf<code condition> { code ShouldParse = condition; }
class AlwaysEmit { bit ShouldAlwaysEmit = true; }
class Normalizer<code normalizer> { code Normalizer = normalizer; }
class Denormalizer<code denormalizer> { code Denormalizer = denormalizer; }
class NormalizedValuesScope<code scope> { code NormalizedValuesScope = scope; }
class NormalizedValues<list<code> definitions> { list<code> NormalizedValues = definitions; }
class AutoNormalizeEnum {
code Normalizer = "normalizeSimpleEnum";
code Denormalizer = "denormalizeSimpleEnum";
}
class ValueMerger<code merger> { code ValueMerger = merger; }
class ValueExtractor<code extractor> { code ValueExtractor = extractor; }
// Predefined options.
// FIXME: Have generator validate that these appear in correct position (and
// aren't duplicated).
def INPUT : Option<[], "<input>", KIND_INPUT>;
def UNKNOWN : Option<[], "<unknown>", KIND_UNKNOWN>;