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DAG arguments can optionally be named: (dag node, node:$name) With this change, the node is also optional: (dag node, node:$name, $name) The missing node is treated as an UnsetInit, so the above is equivalent to: (dag node, node:$name, ?:$name) This syntax is useful in output patterns where we currently require the types of variables to be repeated: def : Pat<(subc i32:$b, i32:$c), (SUBCCrr i32:$b, i32:$c)>; This is preferable: def : Pat<(subc i32:$b, i32:$c), (SUBCCrr $b, $c)>; git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@177843 91177308-0d34-0410-b5e6-96231b3b80d8
384 lines
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ReStructuredText
384 lines
11 KiB
ReStructuredText
===========================
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TableGen Language Reference
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===========================
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.. sectionauthor:: Sean Silva <silvas@purdue.edu>
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.. contents::
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:local:
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.. warning::
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This document is extremely rough. If you find something lacking, please
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fix it, file a documentation bug, or ask about it on llvmdev.
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Introduction
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============
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This document is meant to be a normative spec about the TableGen language
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in and of itself (i.e. how to understand a given construct in terms of how
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it affects the final set of records represented by the TableGen file). If
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you are unsure if this document is really what you are looking for, please
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read :doc:`/TableGenFundamentals` first.
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Notation
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========
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The lexical and syntax notation used here is intended to imitate
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`Python's`_. In particular, for lexical definitions, the productions
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operate at the character level and there is no implied whitespace between
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elements. The syntax definitions operate at the token level, so there is
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implied whitespace between tokens.
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.. _`Python's`: http://docs.python.org/py3k/reference/introduction.html#notation
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Lexical Analysis
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================
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TableGen supports BCPL (``// ...``) and nestable C-style (``/* ... */``)
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comments.
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The following is a listing of the basic punctuation tokens::
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- + [ ] { } ( ) < > : ; . = ? #
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Numeric literals take one of the following forms:
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.. TableGen actually will lex some pretty strange sequences an interpret
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them as numbers. What is shown here is an attempt to approximate what it
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"should" accept.
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.. productionlist::
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TokInteger: `DecimalInteger` | `HexInteger` | `BinInteger`
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DecimalInteger: ["+" | "-"] ("0"..."9")+
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HexInteger: "0x" ("0"..."9" | "a"..."f" | "A"..."F")+
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BinInteger: "0b" ("0" | "1")+
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One aspect to note is that the :token:`DecimalInteger` token *includes* the
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``+`` or ``-``, as opposed to having ``+`` and ``-`` be unary operators as
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most languages do.
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TableGen has identifier-like tokens:
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.. productionlist::
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ualpha: "a"..."z" | "A"..."Z" | "_"
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TokIdentifier: ("0"..."9")* `ualpha` (`ualpha` | "0"..."9")*
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TokVarName: "$" `ualpha` (`ualpha` | "0"..."9")*
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Note that unlike most languages, TableGen allows :token:`TokIdentifier` to
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begin with a number. In case of ambiguity, a token will be interpreted as a
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numeric literal rather than an identifier.
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TableGen also has two string-like literals:
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.. productionlist::
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TokString: '"' <non-'"' characters and C-like escapes> '"'
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TokCodeFragment: "[{" <shortest text not containing "}]"> "}]"
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.. note::
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The current implementation accepts the following C-like escapes::
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\\ \' \" \t \n
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TableGen also has the following keywords::
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bit bits class code dag
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def foreach defm field in
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int let list multiclass string
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TableGen also has "bang operators" which have a
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wide variety of meanings:
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.. productionlist::
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BangOperator: one of
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:!eq !if !head !tail !con
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:!add !shl !sra !srl
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:!cast !empty !subst !foreach !strconcat
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Syntax
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======
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TableGen has an ``include`` mechanism. It does not play a role in the
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syntax per se, since it is lexically replaced with the contents of the
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included file.
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.. productionlist::
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IncludeDirective: "include" `TokString`
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TableGen's top-level production consists of "objects".
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.. productionlist::
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TableGenFile: `Object`*
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Object: `Class` | `Def` | `Defm` | `Let` | `MultiClass` | `Foreach`
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``class``\es
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------------
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.. productionlist::
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Class: "class" `TokIdentifier` [`TemplateArgList`] `ObjectBody`
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A ``class`` declaration creates a record which other records can inherit
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from. A class can be parametrized by a list of "template arguments", whose
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values can be used in the class body.
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A given class can only be defined once. A ``class`` declaration is
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considered to define the class if any of the following is true:
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.. break ObjectBody into its consituents so that they are present here?
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#. The :token:`TemplateArgList` is present.
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#. The :token:`Body` in the :token:`ObjectBody` is present and is not empty.
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#. The :token:`BaseClassList` in the :token:`ObjectBody` is present.
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You can declare an empty class by giving and empty :token:`TemplateArgList`
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and an empty :token:`ObjectBody`. This can serve as a restricted form of
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forward declaration: note that records deriving from the forward-declared
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class will inherit no fields from it since the record expansion is done
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when the record is parsed.
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.. productionlist::
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TemplateArgList: "<" `Declaration` ("," `Declaration`)* ">"
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Declarations
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------------
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.. Omitting mention of arcane "field" prefix to discourage its use.
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The declaration syntax is pretty much what you would expect as a C++
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programmer.
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.. productionlist::
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Declaration: `Type` `TokIdentifier` ["=" `Value`]
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It assigns the value to the identifer.
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Types
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-----
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.. productionlist::
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Type: "string" | "code" | "bit" | "int" | "dag"
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:| "bits" "<" `TokInteger` ">"
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:| "list" "<" `Type` ">"
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:| `ClassID`
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ClassID: `TokIdentifier`
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Both ``string`` and ``code`` correspond to the string type; the difference
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is purely to indicate programmer intention.
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The :token:`ClassID` must identify a class that has been previously
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declared or defined.
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Values
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------
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.. productionlist::
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Value: `SimpleValue` `ValueSuffix`*
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ValueSuffix: "{" `RangeList` "}"
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:| "[" `RangeList` "]"
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:| "." `TokIdentifier`
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RangeList: `RangePiece` ("," `RangePiece`)*
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RangePiece: `TokInteger`
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:| `TokInteger` "-" `TokInteger`
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:| `TokInteger` `TokInteger`
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The peculiar last form of :token:`RangePiece` is due to the fact that the
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"``-``" is included in the :token:`TokInteger`, hence ``1-5`` gets lexed as
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two consecutive :token:`TokInteger`'s, with values ``1`` and ``-5``,
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instead of "1", "-", and "5".
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The :token:`RangeList` can be thought of as specifying "list slice" in some
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contexts.
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:token:`SimpleValue` has a number of forms:
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.. productionlist::
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SimpleValue: `TokIdentifier`
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The value will be the variable referenced by the identifier. It can be one
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of:
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.. The code for this is exceptionally abstruse. These examples are a
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best-effort attempt.
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* name of a ``def``, such as the use of ``Bar`` in::
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def Bar : SomeClass {
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int X = 5;
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}
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def Foo {
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SomeClass Baz = Bar;
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}
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* value local to a ``def``, such as the use of ``Bar`` in::
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def Foo {
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int Bar = 5;
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int Baz = Bar;
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}
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* a template arg of a ``class``, such as the use of ``Bar`` in::
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class Foo<int Bar> {
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int Baz = Bar;
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}
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* value local to a ``multiclass``, such as the use of ``Bar`` in::
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multiclass Foo {
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int Bar = 5;
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int Baz = Bar;
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}
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* a template arg to a ``multiclass``, such as the use of ``Bar`` in::
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multiclass Foo<int Bar> {
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int Baz = Bar;
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}
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.. productionlist::
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SimpleValue: `TokInteger`
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This represents the numeric value of the integer.
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.. productionlist::
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SimpleValue: `TokString`+
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Multiple adjacent string literals are concatenated like in C/C++. The value
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is the concatenation of the strings.
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.. productionlist::
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SimpleValue: `TokCodeFragment`
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The value is the string value of the code fragment.
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.. productionlist::
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SimpleValue: "?"
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``?`` represents an "unset" initializer.
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.. productionlist::
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SimpleValue: "{" `ValueList` "}"
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ValueList: [`ValueListNE`]
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ValueListNE: `Value` ("," `Value`)*
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This represents a sequence of bits, as would be used to initialize a
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``bits<n>`` field (where ``n`` is the number of bits).
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.. productionlist::
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SimpleValue: `ClassID` "<" `ValueListNE` ">"
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This generates a new anonymous record definition (as would be created by an
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unnamed ``def`` inheriting from the given class with the given template
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arguments) and the value is the value of that record definition.
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.. productionlist::
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SimpleValue: "[" `ValueList` "]" ["<" `Type` ">"]
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A list initializer. The optional :token:`Type` can be used to indicate a
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specific element type, otherwise the element type will be deduced from the
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given values.
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.. The initial `DagArg` of the dag must start with an identifier or
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!cast, but this is more of an implementation detail and so for now just
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leave it out.
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.. productionlist::
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SimpleValue: "(" `DagArg` `DagArgList` ")"
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DagArgList: `DagArg` ("," `DagArg`)*
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DagArg: `Value` [":" `TokVarName`] | `TokVarName`
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The initial :token:`DagArg` is called the "operator" of the dag.
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.. productionlist::
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SimpleValue: `BangOperator` ["<" `Type` ">"] "(" `ValueListNE` ")"
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Bodies
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------
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.. productionlist::
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ObjectBody: `BaseClassList` `Body`
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BaseClassList: [":" `BaseClassListNE`]
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BaseClassListNE: `SubClassRef` ("," `SubClassRef`)*
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SubClassRef: (`ClassID` | `MultiClassID`) ["<" `ValueList` ">"]
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DefmID: `TokIdentifier`
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The version with the :token:`MultiClassID` is only valid in the
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:token:`BaseClassList` of a ``defm``.
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The :token:`MultiClassID` should be the name of a ``multiclass``.
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.. put this somewhere else
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It is after parsing the base class list that the "let stack" is applied.
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.. productionlist::
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Body: ";" | "{" BodyList "}"
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BodyList: BodyItem*
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BodyItem: `Declaration` ";"
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:| "let" `TokIdentifier` [`RangeList`] "=" `Value` ";"
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The ``let`` form allows overriding the value of an inherited field.
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``def``
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-------
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.. TODO::
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There can be pastes in the names here, like ``#NAME#``. Look into that
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and document it (it boils down to ParseIDValue with IDParseMode ==
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ParseNameMode). ParseObjectName calls into the general ParseValue, with
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the only different from "arbitrary expression parsing" being IDParseMode
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== Mode.
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.. productionlist::
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Def: "def" `TokIdentifier` `ObjectBody`
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Defines a record whose name is given by the :token:`TokIdentifier`. The
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fields of the record are inherited from the base classes and defined in the
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body.
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Special handling occurs if this ``def`` appears inside a ``multiclass`` or
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a ``foreach``.
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``defm``
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--------
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.. productionlist::
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Defm: "defm" `TokIdentifier` ":" `BaseClassListNE` ";"
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Note that in the :token:`BaseClassList`, all of the ``multiclass``'s must
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precede any ``class``'s that appear.
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``foreach``
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-----------
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.. productionlist::
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Foreach: "foreach" `Declaration` "in" "{" `Object`* "}"
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:| "foreach" `Declaration` "in" `Object`
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The value assigned to the variable in the declaration is iterated over and
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the object or object list is reevaluated with the variable set at each
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iterated value.
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Top-Level ``let``
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-----------------
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.. productionlist::
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Let: "let" `LetList` "in" "{" `Object`* "}"
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:| "let" `LetList` "in" `Object`
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LetList: `LetItem` ("," `LetItem`)*
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LetItem: `TokIdentifier` [`RangeList`] "=" `Value`
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This is effectively equivalent to ``let`` inside the body of a record
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except that it applies to multiple records at a time. The bindings are
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applied at the end of parsing the base classes of a record.
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``multiclass``
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--------------
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.. productionlist::
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MultiClass: "multiclass" `TokIdentifier` [`TemplateArgList`]
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: [":" `BaseMultiClassList`] "{" `MultiClassObject`+ "}"
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BaseMultiClassList: `MultiClassID` ("," `MultiClassID`)*
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MultiClassID: `TokIdentifier`
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MultiClassObject: `Def` | `Defm` | `Let` | `Foreach`
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