gotosocial/vendor/modernc.org/cc/v3/ast.go
kim ed46224573
Add SQLite support, fix un-thread-safe DB caches, small performance f… (#172)
* Add SQLite support, fix un-thread-safe DB caches, small performance fixes

Signed-off-by: kim (grufwub) <grufwub@gmail.com>

* add SQLite licenses to README

Signed-off-by: kim (grufwub) <grufwub@gmail.com>

* appease the linter, and fix my dumbass-ery

Signed-off-by: kim (grufwub) <grufwub@gmail.com>

* make requested changes

Signed-off-by: kim (grufwub) <grufwub@gmail.com>

* add back comment

Signed-off-by: kim (grufwub) <grufwub@gmail.com>
2021-08-29 16:41:41 +02:00

5227 lines
134 KiB
Go

// Code generated by yy. DO NOT EDIT.
// Copyright 2019 The CC Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package cc
import (
"fmt"
"modernc.org/token"
)
// AbstractDeclaratorCase represents case numbers of production AbstractDeclarator
type AbstractDeclaratorCase int
// Values of type AbstractDeclaratorCase
const (
AbstractDeclaratorPtr AbstractDeclaratorCase = iota
AbstractDeclaratorDecl
)
// String implements fmt.Stringer
func (n AbstractDeclaratorCase) String() string {
switch n {
case AbstractDeclaratorPtr:
return "AbstractDeclaratorPtr"
case AbstractDeclaratorDecl:
return "AbstractDeclaratorDecl"
default:
return fmt.Sprintf("AbstractDeclaratorCase(%v)", int(n))
}
}
// AbstractDeclarator represents data reduced by productions:
//
// AbstractDeclarator:
// Pointer // Case AbstractDeclaratorPtr
// | Pointer DirectAbstractDeclarator // Case AbstractDeclaratorDecl
type AbstractDeclarator struct {
typ Type
Case AbstractDeclaratorCase `PrettyPrint:"stringer,zero"`
DirectAbstractDeclarator *DirectAbstractDeclarator
Pointer *Pointer
}
// String implements fmt.Stringer.
func (n *AbstractDeclarator) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AbstractDeclarator) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.Pointer.Position()
case 1:
if p := n.Pointer.Position(); p.IsValid() {
return p
}
return n.DirectAbstractDeclarator.Position()
default:
panic("internal error")
}
}
// AdditiveExpressionCase represents case numbers of production AdditiveExpression
type AdditiveExpressionCase int
// Values of type AdditiveExpressionCase
const (
AdditiveExpressionMul AdditiveExpressionCase = iota
AdditiveExpressionAdd
AdditiveExpressionSub
)
// String implements fmt.Stringer
func (n AdditiveExpressionCase) String() string {
switch n {
case AdditiveExpressionMul:
return "AdditiveExpressionMul"
case AdditiveExpressionAdd:
return "AdditiveExpressionAdd"
case AdditiveExpressionSub:
return "AdditiveExpressionSub"
default:
return fmt.Sprintf("AdditiveExpressionCase(%v)", int(n))
}
}
// AdditiveExpression represents data reduced by productions:
//
// AdditiveExpression:
// MultiplicativeExpression // Case AdditiveExpressionMul
// | AdditiveExpression '+' MultiplicativeExpression // Case AdditiveExpressionAdd
// | AdditiveExpression '-' MultiplicativeExpression // Case AdditiveExpressionSub
type AdditiveExpression struct {
lexicalScope Scope
Operand Operand
promote Type
IsSideEffectsFree bool
AdditiveExpression *AdditiveExpression
Case AdditiveExpressionCase `PrettyPrint:"stringer,zero"`
MultiplicativeExpression *MultiplicativeExpression
Token Token
}
// String implements fmt.Stringer.
func (n *AdditiveExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AdditiveExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 1, 2:
if p := n.AdditiveExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.MultiplicativeExpression.Position()
case 0:
return n.MultiplicativeExpression.Position()
default:
panic("internal error")
}
}
// AlignmentSpecifierCase represents case numbers of production AlignmentSpecifier
type AlignmentSpecifierCase int
// Values of type AlignmentSpecifierCase
const (
AlignmentSpecifierAlignasType AlignmentSpecifierCase = iota
AlignmentSpecifierAlignasExpr
)
// String implements fmt.Stringer
func (n AlignmentSpecifierCase) String() string {
switch n {
case AlignmentSpecifierAlignasType:
return "AlignmentSpecifierAlignasType"
case AlignmentSpecifierAlignasExpr:
return "AlignmentSpecifierAlignasExpr"
default:
return fmt.Sprintf("AlignmentSpecifierCase(%v)", int(n))
}
}
// AlignmentSpecifier represents data reduced by productions:
//
// AlignmentSpecifier:
// "_Alignas" '(' TypeName ')' // Case AlignmentSpecifierAlignasType
// | "_Alignas" '(' ConstantExpression ')' // Case AlignmentSpecifierAlignasExpr
type AlignmentSpecifier struct {
Case AlignmentSpecifierCase `PrettyPrint:"stringer,zero"`
ConstantExpression *ConstantExpression
Token Token
Token2 Token
Token3 Token
TypeName *TypeName
}
// String implements fmt.Stringer.
func (n *AlignmentSpecifier) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AlignmentSpecifier) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 1:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.ConstantExpression.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
case 0:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.TypeName.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
default:
panic("internal error")
}
}
// AndExpressionCase represents case numbers of production AndExpression
type AndExpressionCase int
// Values of type AndExpressionCase
const (
AndExpressionEq AndExpressionCase = iota
AndExpressionAnd
)
// String implements fmt.Stringer
func (n AndExpressionCase) String() string {
switch n {
case AndExpressionEq:
return "AndExpressionEq"
case AndExpressionAnd:
return "AndExpressionAnd"
default:
return fmt.Sprintf("AndExpressionCase(%v)", int(n))
}
}
// AndExpression represents data reduced by productions:
//
// AndExpression:
// EqualityExpression // Case AndExpressionEq
// | AndExpression '&' EqualityExpression // Case AndExpressionAnd
type AndExpression struct {
Operand Operand
promote Type
IsSideEffectsFree bool
AndExpression *AndExpression
Case AndExpressionCase `PrettyPrint:"stringer,zero"`
EqualityExpression *EqualityExpression
Token Token
}
// String implements fmt.Stringer.
func (n *AndExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AndExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 1:
if p := n.AndExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.EqualityExpression.Position()
case 0:
return n.EqualityExpression.Position()
default:
panic("internal error")
}
}
// ArgumentExpressionList represents data reduced by productions:
//
// ArgumentExpressionList:
// AssignmentExpression
// | ArgumentExpressionList ',' AssignmentExpression
type ArgumentExpressionList struct {
ArgumentExpressionList *ArgumentExpressionList
AssignmentExpression *AssignmentExpression
Token Token
}
// String implements fmt.Stringer.
func (n *ArgumentExpressionList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *ArgumentExpressionList) Position() (r token.Position) {
if n == nil {
return r
}
return n.AssignmentExpression.Position()
}
// Asm represents data reduced by production:
//
// Asm:
// "__asm__" AsmQualifierList '(' STRINGLITERAL AsmArgList ')'
type Asm struct {
AsmArgList *AsmArgList
AsmQualifierList *AsmQualifierList
Token Token
Token2 Token
Token3 Token
Token4 Token
}
// String implements fmt.Stringer.
func (n *Asm) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *Asm) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.AsmQualifierList.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
if p := n.AsmArgList.Position(); p.IsValid() {
return p
}
return n.Token4.Position()
}
// AsmArgList represents data reduced by productions:
//
// AsmArgList:
// ':' AsmExpressionList
// | AsmArgList ':' AsmExpressionList
type AsmArgList struct {
AsmArgList *AsmArgList
AsmExpressionList *AsmExpressionList
Token Token
}
// String implements fmt.Stringer.
func (n *AsmArgList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AsmArgList) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.AsmExpressionList.Position()
}
// AsmExpressionList represents data reduced by productions:
//
// AsmExpressionList:
// AsmIndex AssignmentExpression
// | AsmExpressionList ',' AsmIndex AssignmentExpression
type AsmExpressionList struct {
AsmExpressionList *AsmExpressionList
AsmIndex *AsmIndex
AssignmentExpression *AssignmentExpression
Token Token
}
// String implements fmt.Stringer.
func (n *AsmExpressionList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AsmExpressionList) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.AsmIndex.Position(); p.IsValid() {
return p
}
return n.AssignmentExpression.Position()
}
// AsmFunctionDefinition represents data reduced by production:
//
// AsmFunctionDefinition:
// DeclarationSpecifiers Declarator AsmStatement
type AsmFunctionDefinition struct {
AsmStatement *AsmStatement
DeclarationSpecifiers *DeclarationSpecifiers
Declarator *Declarator
}
// String implements fmt.Stringer.
func (n *AsmFunctionDefinition) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AsmFunctionDefinition) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.DeclarationSpecifiers.Position(); p.IsValid() {
return p
}
if p := n.Declarator.Position(); p.IsValid() {
return p
}
return n.AsmStatement.Position()
}
// AsmIndex represents data reduced by production:
//
// AsmIndex:
// '[' Expression ']'
type AsmIndex struct {
Expression *Expression
Token Token
Token2 Token
}
// String implements fmt.Stringer.
func (n *AsmIndex) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AsmIndex) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
}
// AsmQualifierCase represents case numbers of production AsmQualifier
type AsmQualifierCase int
// Values of type AsmQualifierCase
const (
AsmQualifierVolatile AsmQualifierCase = iota
AsmQualifierInline
AsmQualifierGoto
)
// String implements fmt.Stringer
func (n AsmQualifierCase) String() string {
switch n {
case AsmQualifierVolatile:
return "AsmQualifierVolatile"
case AsmQualifierInline:
return "AsmQualifierInline"
case AsmQualifierGoto:
return "AsmQualifierGoto"
default:
return fmt.Sprintf("AsmQualifierCase(%v)", int(n))
}
}
// AsmQualifier represents data reduced by productions:
//
// AsmQualifier:
// "volatile" // Case AsmQualifierVolatile
// | "inline" // Case AsmQualifierInline
// | "goto" // Case AsmQualifierGoto
type AsmQualifier struct {
Case AsmQualifierCase `PrettyPrint:"stringer,zero"`
Token Token
}
// String implements fmt.Stringer.
func (n *AsmQualifier) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AsmQualifier) Position() (r token.Position) {
if n == nil {
return r
}
return n.Token.Position()
}
// AsmQualifierList represents data reduced by productions:
//
// AsmQualifierList:
// AsmQualifier
// | AsmQualifierList AsmQualifier
type AsmQualifierList struct {
AsmQualifier *AsmQualifier
AsmQualifierList *AsmQualifierList
}
// String implements fmt.Stringer.
func (n *AsmQualifierList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AsmQualifierList) Position() (r token.Position) {
if n == nil {
return r
}
return n.AsmQualifier.Position()
}
// AsmStatement represents data reduced by production:
//
// AsmStatement:
// Asm AttributeSpecifierList ';'
type AsmStatement struct {
Asm *Asm
AttributeSpecifierList *AttributeSpecifierList
Token Token
}
// String implements fmt.Stringer.
func (n *AsmStatement) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AsmStatement) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.Asm.Position(); p.IsValid() {
return p
}
if p := n.AttributeSpecifierList.Position(); p.IsValid() {
return p
}
return n.Token.Position()
}
// AssignmentExpressionCase represents case numbers of production AssignmentExpression
type AssignmentExpressionCase int
// Values of type AssignmentExpressionCase
const (
AssignmentExpressionCond AssignmentExpressionCase = iota
AssignmentExpressionAssign
AssignmentExpressionMul
AssignmentExpressionDiv
AssignmentExpressionMod
AssignmentExpressionAdd
AssignmentExpressionSub
AssignmentExpressionLsh
AssignmentExpressionRsh
AssignmentExpressionAnd
AssignmentExpressionXor
AssignmentExpressionOr
)
// String implements fmt.Stringer
func (n AssignmentExpressionCase) String() string {
switch n {
case AssignmentExpressionCond:
return "AssignmentExpressionCond"
case AssignmentExpressionAssign:
return "AssignmentExpressionAssign"
case AssignmentExpressionMul:
return "AssignmentExpressionMul"
case AssignmentExpressionDiv:
return "AssignmentExpressionDiv"
case AssignmentExpressionMod:
return "AssignmentExpressionMod"
case AssignmentExpressionAdd:
return "AssignmentExpressionAdd"
case AssignmentExpressionSub:
return "AssignmentExpressionSub"
case AssignmentExpressionLsh:
return "AssignmentExpressionLsh"
case AssignmentExpressionRsh:
return "AssignmentExpressionRsh"
case AssignmentExpressionAnd:
return "AssignmentExpressionAnd"
case AssignmentExpressionXor:
return "AssignmentExpressionXor"
case AssignmentExpressionOr:
return "AssignmentExpressionOr"
default:
return fmt.Sprintf("AssignmentExpressionCase(%v)", int(n))
}
}
// AssignmentExpression represents data reduced by productions:
//
// AssignmentExpression:
// ConditionalExpression // Case AssignmentExpressionCond
// | UnaryExpression '=' AssignmentExpression // Case AssignmentExpressionAssign
// | UnaryExpression "*=" AssignmentExpression // Case AssignmentExpressionMul
// | UnaryExpression "/=" AssignmentExpression // Case AssignmentExpressionDiv
// | UnaryExpression "%=" AssignmentExpression // Case AssignmentExpressionMod
// | UnaryExpression "+=" AssignmentExpression // Case AssignmentExpressionAdd
// | UnaryExpression "-=" AssignmentExpression // Case AssignmentExpressionSub
// | UnaryExpression "<<=" AssignmentExpression // Case AssignmentExpressionLsh
// | UnaryExpression ">>=" AssignmentExpression // Case AssignmentExpressionRsh
// | UnaryExpression "&=" AssignmentExpression // Case AssignmentExpressionAnd
// | UnaryExpression "^=" AssignmentExpression // Case AssignmentExpressionXor
// | UnaryExpression "|=" AssignmentExpression // Case AssignmentExpressionOr
type AssignmentExpression struct {
Operand Operand
InitializerOperand Operand // When the expression is used in an initializer
lexicalScope Scope
promote Type
IsSideEffectsFree bool
AssignmentExpression *AssignmentExpression
Case AssignmentExpressionCase `PrettyPrint:"stringer,zero"`
ConditionalExpression *ConditionalExpression
Token Token
UnaryExpression *UnaryExpression
}
// String implements fmt.Stringer.
func (n *AssignmentExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AssignmentExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.ConditionalExpression.Position()
case 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11:
if p := n.UnaryExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.AssignmentExpression.Position()
default:
panic("internal error")
}
}
// AtomicTypeSpecifier represents data reduced by production:
//
// AtomicTypeSpecifier:
// "_Atomic" '(' TypeName ')'
type AtomicTypeSpecifier struct {
Token Token
Token2 Token
Token3 Token
TypeName *TypeName
}
// String implements fmt.Stringer.
func (n *AtomicTypeSpecifier) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AtomicTypeSpecifier) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.TypeName.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
}
// AttributeSpecifier represents data reduced by production:
//
// AttributeSpecifier:
// "__attribute__" '(' '(' AttributeValueList ')' ')'
type AttributeSpecifier struct {
AttributeValueList *AttributeValueList
Token Token
Token2 Token
Token3 Token
Token4 Token
Token5 Token
}
// String implements fmt.Stringer.
func (n *AttributeSpecifier) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AttributeSpecifier) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
if p := n.AttributeValueList.Position(); p.IsValid() {
return p
}
if p := n.Token4.Position(); p.IsValid() {
return p
}
return n.Token5.Position()
}
// AttributeSpecifierList represents data reduced by productions:
//
// AttributeSpecifierList:
// AttributeSpecifier
// | AttributeSpecifierList AttributeSpecifier
type AttributeSpecifierList struct {
AttributeSpecifier *AttributeSpecifier
AttributeSpecifierList *AttributeSpecifierList
}
// String implements fmt.Stringer.
func (n *AttributeSpecifierList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AttributeSpecifierList) Position() (r token.Position) {
if n == nil {
return r
}
return n.AttributeSpecifier.Position()
}
// AttributeValueCase represents case numbers of production AttributeValue
type AttributeValueCase int
// Values of type AttributeValueCase
const (
AttributeValueIdent AttributeValueCase = iota
AttributeValueExpr
)
// String implements fmt.Stringer
func (n AttributeValueCase) String() string {
switch n {
case AttributeValueIdent:
return "AttributeValueIdent"
case AttributeValueExpr:
return "AttributeValueExpr"
default:
return fmt.Sprintf("AttributeValueCase(%v)", int(n))
}
}
// AttributeValue represents data reduced by productions:
//
// AttributeValue:
// IDENTIFIER // Case AttributeValueIdent
// | IDENTIFIER '(' ExpressionList ')' // Case AttributeValueExpr
type AttributeValue struct {
lexicalScope Scope
Case AttributeValueCase `PrettyPrint:"stringer,zero"`
ExpressionList *ExpressionList
Token Token
Token2 Token
Token3 Token
}
// String implements fmt.Stringer.
func (n *AttributeValue) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AttributeValue) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.Token.Position()
case 1:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.ExpressionList.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
default:
panic("internal error")
}
}
// AttributeValueList represents data reduced by productions:
//
// AttributeValueList:
// AttributeValue
// | AttributeValueList ',' AttributeValue
type AttributeValueList struct {
AttributeValue *AttributeValue
AttributeValueList *AttributeValueList
Token Token
}
// String implements fmt.Stringer.
func (n *AttributeValueList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *AttributeValueList) Position() (r token.Position) {
if n == nil {
return r
}
return n.AttributeValue.Position()
}
// BlockItemCase represents case numbers of production BlockItem
type BlockItemCase int
// Values of type BlockItemCase
const (
BlockItemDecl BlockItemCase = iota
BlockItemStmt
BlockItemLabel
BlockItemFuncDef
BlockItemPragma
)
// String implements fmt.Stringer
func (n BlockItemCase) String() string {
switch n {
case BlockItemDecl:
return "BlockItemDecl"
case BlockItemStmt:
return "BlockItemStmt"
case BlockItemLabel:
return "BlockItemLabel"
case BlockItemFuncDef:
return "BlockItemFuncDef"
case BlockItemPragma:
return "BlockItemPragma"
default:
return fmt.Sprintf("BlockItemCase(%v)", int(n))
}
}
// BlockItem represents data reduced by productions:
//
// BlockItem:
// Declaration // Case BlockItemDecl
// | Statement // Case BlockItemStmt
// | LabelDeclaration // Case BlockItemLabel
// | DeclarationSpecifiers Declarator CompoundStatement // Case BlockItemFuncDef
// | PragmaSTDC // Case BlockItemPragma
type BlockItem struct {
fn *FunctionDefinition // Case FuncDef
closure map[StringID]struct{} // Case FuncDef
Last bool
Case BlockItemCase `PrettyPrint:"stringer,zero"`
CompoundStatement *CompoundStatement
Declaration *Declaration
DeclarationSpecifiers *DeclarationSpecifiers
Declarator *Declarator
LabelDeclaration *LabelDeclaration
PragmaSTDC *PragmaSTDC
Statement *Statement
}
// String implements fmt.Stringer.
func (n *BlockItem) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *BlockItem) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.Declaration.Position()
case 3:
if p := n.DeclarationSpecifiers.Position(); p.IsValid() {
return p
}
if p := n.Declarator.Position(); p.IsValid() {
return p
}
return n.CompoundStatement.Position()
case 2:
return n.LabelDeclaration.Position()
case 4:
return n.PragmaSTDC.Position()
case 1:
return n.Statement.Position()
default:
panic("internal error")
}
}
// BlockItemList represents data reduced by productions:
//
// BlockItemList:
// BlockItem
// | BlockItemList BlockItem
type BlockItemList struct {
BlockItem *BlockItem
BlockItemList *BlockItemList
}
// String implements fmt.Stringer.
func (n *BlockItemList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *BlockItemList) Position() (r token.Position) {
if n == nil {
return r
}
return n.BlockItem.Position()
}
// CastExpressionCase represents case numbers of production CastExpression
type CastExpressionCase int
// Values of type CastExpressionCase
const (
CastExpressionUnary CastExpressionCase = iota
CastExpressionCast
)
// String implements fmt.Stringer
func (n CastExpressionCase) String() string {
switch n {
case CastExpressionUnary:
return "CastExpressionUnary"
case CastExpressionCast:
return "CastExpressionCast"
default:
return fmt.Sprintf("CastExpressionCase(%v)", int(n))
}
}
// CastExpression represents data reduced by productions:
//
// CastExpression:
// UnaryExpression // Case CastExpressionUnary
// | '(' TypeName ')' CastExpression // Case CastExpressionCast
type CastExpression struct {
Operand Operand
IsSideEffectsFree bool
Case CastExpressionCase `PrettyPrint:"stringer,zero"`
CastExpression *CastExpression
Token Token
Token2 Token
TypeName *TypeName
UnaryExpression *UnaryExpression
}
// String implements fmt.Stringer.
func (n *CastExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *CastExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 1:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.TypeName.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
return n.CastExpression.Position()
case 0:
return n.UnaryExpression.Position()
default:
panic("internal error")
}
}
// CompoundStatement represents data reduced by production:
//
// CompoundStatement:
// '{' BlockItemList '}'
type CompoundStatement struct {
Operand Operand
children []*CompoundStatement
declarations []*Declaration
isJumpTarget bool
labeledStmts []*LabeledStatement
parent *CompoundStatement
scope Scope
BlockItemList *BlockItemList
Token Token
Token2 Token
}
// String implements fmt.Stringer.
func (n *CompoundStatement) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *CompoundStatement) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.BlockItemList.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
}
// ConditionalExpressionCase represents case numbers of production ConditionalExpression
type ConditionalExpressionCase int
// Values of type ConditionalExpressionCase
const (
ConditionalExpressionLOr ConditionalExpressionCase = iota
ConditionalExpressionCond
)
// String implements fmt.Stringer
func (n ConditionalExpressionCase) String() string {
switch n {
case ConditionalExpressionLOr:
return "ConditionalExpressionLOr"
case ConditionalExpressionCond:
return "ConditionalExpressionCond"
default:
return fmt.Sprintf("ConditionalExpressionCase(%v)", int(n))
}
}
// ConditionalExpression represents data reduced by productions:
//
// ConditionalExpression:
// LogicalOrExpression // Case ConditionalExpressionLOr
// | LogicalOrExpression '?' Expression ':' ConditionalExpression // Case ConditionalExpressionCond
type ConditionalExpression struct {
Operand Operand
IsSideEffectsFree bool
Case ConditionalExpressionCase `PrettyPrint:"stringer,zero"`
ConditionalExpression *ConditionalExpression
Expression *Expression
LogicalOrExpression *LogicalOrExpression
Token Token
Token2 Token
}
// String implements fmt.Stringer.
func (n *ConditionalExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *ConditionalExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.LogicalOrExpression.Position()
case 1:
if p := n.LogicalOrExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
return n.ConditionalExpression.Position()
default:
panic("internal error")
}
}
// ConstantExpression represents data reduced by production:
//
// ConstantExpression:
// ConditionalExpression
type ConstantExpression struct {
Operand Operand
ConditionalExpression *ConditionalExpression
}
// String implements fmt.Stringer.
func (n *ConstantExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *ConstantExpression) Position() (r token.Position) {
if n == nil {
return r
}
return n.ConditionalExpression.Position()
}
// Declaration represents data reduced by production:
//
// Declaration:
// DeclarationSpecifiers InitDeclaratorList ';'
type Declaration struct {
DeclarationSpecifiers *DeclarationSpecifiers
InitDeclaratorList *InitDeclaratorList
Token Token
}
// String implements fmt.Stringer.
func (n *Declaration) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *Declaration) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.DeclarationSpecifiers.Position(); p.IsValid() {
return p
}
if p := n.InitDeclaratorList.Position(); p.IsValid() {
return p
}
return n.Token.Position()
}
// DeclarationList represents data reduced by productions:
//
// DeclarationList:
// Declaration
// | DeclarationList Declaration
type DeclarationList struct {
Declaration *Declaration
DeclarationList *DeclarationList
}
// String implements fmt.Stringer.
func (n *DeclarationList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *DeclarationList) Position() (r token.Position) {
if n == nil {
return r
}
return n.Declaration.Position()
}
// DeclarationSpecifiersCase represents case numbers of production DeclarationSpecifiers
type DeclarationSpecifiersCase int
// Values of type DeclarationSpecifiersCase
const (
DeclarationSpecifiersStorage DeclarationSpecifiersCase = iota
DeclarationSpecifiersTypeSpec
DeclarationSpecifiersTypeQual
DeclarationSpecifiersFunc
DeclarationSpecifiersAlignSpec
DeclarationSpecifiersAttribute
)
// String implements fmt.Stringer
func (n DeclarationSpecifiersCase) String() string {
switch n {
case DeclarationSpecifiersStorage:
return "DeclarationSpecifiersStorage"
case DeclarationSpecifiersTypeSpec:
return "DeclarationSpecifiersTypeSpec"
case DeclarationSpecifiersTypeQual:
return "DeclarationSpecifiersTypeQual"
case DeclarationSpecifiersFunc:
return "DeclarationSpecifiersFunc"
case DeclarationSpecifiersAlignSpec:
return "DeclarationSpecifiersAlignSpec"
case DeclarationSpecifiersAttribute:
return "DeclarationSpecifiersAttribute"
default:
return fmt.Sprintf("DeclarationSpecifiersCase(%v)", int(n))
}
}
// DeclarationSpecifiers represents data reduced by productions:
//
// DeclarationSpecifiers:
// StorageClassSpecifier DeclarationSpecifiers // Case DeclarationSpecifiersStorage
// | TypeSpecifier DeclarationSpecifiers // Case DeclarationSpecifiersTypeSpec
// | TypeQualifier DeclarationSpecifiers // Case DeclarationSpecifiersTypeQual
// | FunctionSpecifier DeclarationSpecifiers // Case DeclarationSpecifiersFunc
// | AlignmentSpecifier DeclarationSpecifiers // Case DeclarationSpecifiersAlignSpec
// | AttributeSpecifier DeclarationSpecifiers // Case DeclarationSpecifiersAttribute
type DeclarationSpecifiers struct {
class storageClass
AlignmentSpecifier *AlignmentSpecifier
AttributeSpecifier *AttributeSpecifier
Case DeclarationSpecifiersCase `PrettyPrint:"stringer,zero"`
DeclarationSpecifiers *DeclarationSpecifiers
FunctionSpecifier *FunctionSpecifier
StorageClassSpecifier *StorageClassSpecifier
TypeQualifier *TypeQualifier
TypeSpecifier *TypeSpecifier
}
// String implements fmt.Stringer.
func (n *DeclarationSpecifiers) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *DeclarationSpecifiers) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 4:
if p := n.AlignmentSpecifier.Position(); p.IsValid() {
return p
}
return n.DeclarationSpecifiers.Position()
case 5:
if p := n.AttributeSpecifier.Position(); p.IsValid() {
return p
}
return n.DeclarationSpecifiers.Position()
case 3:
if p := n.FunctionSpecifier.Position(); p.IsValid() {
return p
}
return n.DeclarationSpecifiers.Position()
case 0:
if p := n.StorageClassSpecifier.Position(); p.IsValid() {
return p
}
return n.DeclarationSpecifiers.Position()
case 2:
if p := n.TypeQualifier.Position(); p.IsValid() {
return p
}
return n.DeclarationSpecifiers.Position()
case 1:
if p := n.TypeSpecifier.Position(); p.IsValid() {
return p
}
return n.DeclarationSpecifiers.Position()
default:
panic("internal error")
}
}
// Declarator represents data reduced by production:
//
// Declarator:
// Pointer DirectDeclarator AttributeSpecifierList
type Declarator struct {
Linkage Linkage
Read int
StorageClass StorageClass
Write int
funcDefinition *FunctionDefinition
lhs map[*Declarator]struct{}
td typeDescriptor
typ Type
AddressTaken bool
IsParameter bool
IsTypedefName bool
SubjectOfAsgnOp bool
SubjectOfIncDec bool
called bool
fnDef bool
hasInitializer bool
AttributeSpecifierList *AttributeSpecifierList
DirectDeclarator *DirectDeclarator
Pointer *Pointer
}
// String implements fmt.Stringer.
func (n *Declarator) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *Declarator) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.Pointer.Position(); p.IsValid() {
return p
}
if p := n.DirectDeclarator.Position(); p.IsValid() {
return p
}
return n.AttributeSpecifierList.Position()
}
// Designation represents data reduced by production:
//
// Designation:
// DesignatorList '='
type Designation struct {
DesignatorList *DesignatorList
Token Token
}
// String implements fmt.Stringer.
func (n *Designation) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *Designation) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.DesignatorList.Position(); p.IsValid() {
return p
}
return n.Token.Position()
}
// DesignatorCase represents case numbers of production Designator
type DesignatorCase int
// Values of type DesignatorCase
const (
DesignatorIndex DesignatorCase = iota
DesignatorField
DesignatorField2
)
// String implements fmt.Stringer
func (n DesignatorCase) String() string {
switch n {
case DesignatorIndex:
return "DesignatorIndex"
case DesignatorField:
return "DesignatorField"
case DesignatorField2:
return "DesignatorField2"
default:
return fmt.Sprintf("DesignatorCase(%v)", int(n))
}
}
// Designator represents data reduced by productions:
//
// Designator:
// '[' ConstantExpression ']' // Case DesignatorIndex
// | '.' IDENTIFIER // Case DesignatorField
// | IDENTIFIER ':' // Case DesignatorField2
type Designator struct {
lexicalScope Scope
Case DesignatorCase `PrettyPrint:"stringer,zero"`
ConstantExpression *ConstantExpression
Token Token
Token2 Token
}
// String implements fmt.Stringer.
func (n *Designator) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *Designator) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.ConstantExpression.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 1, 2:
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
default:
panic("internal error")
}
}
// DesignatorList represents data reduced by productions:
//
// DesignatorList:
// Designator
// | DesignatorList Designator
type DesignatorList struct {
Designator *Designator
DesignatorList *DesignatorList
}
// String implements fmt.Stringer.
func (n *DesignatorList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *DesignatorList) Position() (r token.Position) {
if n == nil {
return r
}
return n.Designator.Position()
}
// DirectAbstractDeclaratorCase represents case numbers of production DirectAbstractDeclarator
type DirectAbstractDeclaratorCase int
// Values of type DirectAbstractDeclaratorCase
const (
DirectAbstractDeclaratorDecl DirectAbstractDeclaratorCase = iota
DirectAbstractDeclaratorArr
DirectAbstractDeclaratorStaticArr
DirectAbstractDeclaratorArrStatic
DirectAbstractDeclaratorArrStar
DirectAbstractDeclaratorFunc
)
// String implements fmt.Stringer
func (n DirectAbstractDeclaratorCase) String() string {
switch n {
case DirectAbstractDeclaratorDecl:
return "DirectAbstractDeclaratorDecl"
case DirectAbstractDeclaratorArr:
return "DirectAbstractDeclaratorArr"
case DirectAbstractDeclaratorStaticArr:
return "DirectAbstractDeclaratorStaticArr"
case DirectAbstractDeclaratorArrStatic:
return "DirectAbstractDeclaratorArrStatic"
case DirectAbstractDeclaratorArrStar:
return "DirectAbstractDeclaratorArrStar"
case DirectAbstractDeclaratorFunc:
return "DirectAbstractDeclaratorFunc"
default:
return fmt.Sprintf("DirectAbstractDeclaratorCase(%v)", int(n))
}
}
// DirectAbstractDeclarator represents data reduced by productions:
//
// DirectAbstractDeclarator:
// '(' AbstractDeclarator ')' // Case DirectAbstractDeclaratorDecl
// | DirectAbstractDeclarator '[' TypeQualifiers AssignmentExpression ']' // Case DirectAbstractDeclaratorArr
// | DirectAbstractDeclarator '[' "static" TypeQualifiers AssignmentExpression ']' // Case DirectAbstractDeclaratorStaticArr
// | DirectAbstractDeclarator '[' TypeQualifiers "static" AssignmentExpression ']' // Case DirectAbstractDeclaratorArrStatic
// | DirectAbstractDeclarator '[' '*' ']' // Case DirectAbstractDeclaratorArrStar
// | DirectAbstractDeclarator '(' ParameterTypeList ')' // Case DirectAbstractDeclaratorFunc
type DirectAbstractDeclarator struct {
paramScope Scope
typeQualifiers *typeBase
AbstractDeclarator *AbstractDeclarator
AssignmentExpression *AssignmentExpression
Case DirectAbstractDeclaratorCase `PrettyPrint:"stringer,zero"`
DirectAbstractDeclarator *DirectAbstractDeclarator
ParameterTypeList *ParameterTypeList
Token Token
Token2 Token
Token3 Token
TypeQualifiers *TypeQualifiers
}
// String implements fmt.Stringer.
func (n *DirectAbstractDeclarator) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *DirectAbstractDeclarator) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 5:
if p := n.DirectAbstractDeclarator.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.ParameterTypeList.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 4:
if p := n.DirectAbstractDeclarator.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
case 2:
if p := n.DirectAbstractDeclarator.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.TypeQualifiers.Position(); p.IsValid() {
return p
}
if p := n.AssignmentExpression.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
case 1:
if p := n.DirectAbstractDeclarator.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.TypeQualifiers.Position(); p.IsValid() {
return p
}
if p := n.AssignmentExpression.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 3:
if p := n.DirectAbstractDeclarator.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.TypeQualifiers.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.AssignmentExpression.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
case 0:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.AbstractDeclarator.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
default:
panic("internal error")
}
}
// DirectDeclaratorCase represents case numbers of production DirectDeclarator
type DirectDeclaratorCase int
// Values of type DirectDeclaratorCase
const (
DirectDeclaratorIdent DirectDeclaratorCase = iota
DirectDeclaratorDecl
DirectDeclaratorArr
DirectDeclaratorStaticArr
DirectDeclaratorArrStatic
DirectDeclaratorStar
DirectDeclaratorFuncParam
DirectDeclaratorFuncIdent
)
// String implements fmt.Stringer
func (n DirectDeclaratorCase) String() string {
switch n {
case DirectDeclaratorIdent:
return "DirectDeclaratorIdent"
case DirectDeclaratorDecl:
return "DirectDeclaratorDecl"
case DirectDeclaratorArr:
return "DirectDeclaratorArr"
case DirectDeclaratorStaticArr:
return "DirectDeclaratorStaticArr"
case DirectDeclaratorArrStatic:
return "DirectDeclaratorArrStatic"
case DirectDeclaratorStar:
return "DirectDeclaratorStar"
case DirectDeclaratorFuncParam:
return "DirectDeclaratorFuncParam"
case DirectDeclaratorFuncIdent:
return "DirectDeclaratorFuncIdent"
default:
return fmt.Sprintf("DirectDeclaratorCase(%v)", int(n))
}
}
// DirectDeclarator represents data reduced by productions:
//
// DirectDeclarator:
// IDENTIFIER Asm // Case DirectDeclaratorIdent
// | '(' AttributeSpecifierList Declarator ')' // Case DirectDeclaratorDecl
// | DirectDeclarator '[' TypeQualifiers AssignmentExpression ']' // Case DirectDeclaratorArr
// | DirectDeclarator '[' "static" TypeQualifiers AssignmentExpression ']' // Case DirectDeclaratorStaticArr
// | DirectDeclarator '[' TypeQualifiers "static" AssignmentExpression ']' // Case DirectDeclaratorArrStatic
// | DirectDeclarator '[' TypeQualifiers '*' ']' // Case DirectDeclaratorStar
// | DirectDeclarator '(' ParameterTypeList ')' // Case DirectDeclaratorFuncParam
// | DirectDeclarator '(' IdentifierList ')' // Case DirectDeclaratorFuncIdent
type DirectDeclarator struct {
lexicalScope Scope
paramScope Scope
typeQualifiers *typeBase
idListNoDeclList bool
Asm *Asm
AssignmentExpression *AssignmentExpression
AttributeSpecifierList *AttributeSpecifierList
Case DirectDeclaratorCase `PrettyPrint:"stringer,zero"`
Declarator *Declarator
DirectDeclarator *DirectDeclarator
IdentifierList *IdentifierList
ParameterTypeList *ParameterTypeList
Token Token
Token2 Token
Token3 Token
TypeQualifiers *TypeQualifiers
}
// String implements fmt.Stringer.
func (n *DirectDeclarator) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *DirectDeclarator) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 7:
if p := n.DirectDeclarator.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.IdentifierList.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 6:
if p := n.DirectDeclarator.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.ParameterTypeList.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 3:
if p := n.DirectDeclarator.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.TypeQualifiers.Position(); p.IsValid() {
return p
}
if p := n.AssignmentExpression.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
case 2:
if p := n.DirectDeclarator.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.TypeQualifiers.Position(); p.IsValid() {
return p
}
if p := n.AssignmentExpression.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 4:
if p := n.DirectDeclarator.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.TypeQualifiers.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.AssignmentExpression.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
case 5:
if p := n.DirectDeclarator.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.TypeQualifiers.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
case 0:
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.Asm.Position()
case 1:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.AttributeSpecifierList.Position(); p.IsValid() {
return p
}
if p := n.Declarator.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
default:
panic("internal error")
}
}
// EnumSpecifierCase represents case numbers of production EnumSpecifier
type EnumSpecifierCase int
// Values of type EnumSpecifierCase
const (
EnumSpecifierDef EnumSpecifierCase = iota
EnumSpecifierTag
)
// String implements fmt.Stringer
func (n EnumSpecifierCase) String() string {
switch n {
case EnumSpecifierDef:
return "EnumSpecifierDef"
case EnumSpecifierTag:
return "EnumSpecifierTag"
default:
return fmt.Sprintf("EnumSpecifierCase(%v)", int(n))
}
}
// EnumSpecifier represents data reduced by productions:
//
// EnumSpecifier:
// "enum" AttributeSpecifierList IDENTIFIER '{' EnumeratorList ',' '}' // Case EnumSpecifierDef
// | "enum" AttributeSpecifierList IDENTIFIER // Case EnumSpecifierTag
type EnumSpecifier struct {
lexicalScope Scope
typ Type
min Value
max Value
AttributeSpecifierList *AttributeSpecifierList
Case EnumSpecifierCase `PrettyPrint:"stringer,zero"`
EnumeratorList *EnumeratorList
Token Token
Token2 Token
Token3 Token
Token4 Token
Token5 Token
}
// String implements fmt.Stringer.
func (n *EnumSpecifier) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *EnumSpecifier) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 1:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.AttributeSpecifierList.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 0:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.AttributeSpecifierList.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
if p := n.EnumeratorList.Position(); p.IsValid() {
return p
}
if p := n.Token4.Position(); p.IsValid() {
return p
}
return n.Token5.Position()
default:
panic("internal error")
}
}
// EnumeratorCase represents case numbers of production Enumerator
type EnumeratorCase int
// Values of type EnumeratorCase
const (
EnumeratorIdent EnumeratorCase = iota
EnumeratorExpr
)
// String implements fmt.Stringer
func (n EnumeratorCase) String() string {
switch n {
case EnumeratorIdent:
return "EnumeratorIdent"
case EnumeratorExpr:
return "EnumeratorExpr"
default:
return fmt.Sprintf("EnumeratorCase(%v)", int(n))
}
}
// Enumerator represents data reduced by productions:
//
// Enumerator:
// IDENTIFIER AttributeSpecifierList // Case EnumeratorIdent
// | IDENTIFIER AttributeSpecifierList '=' ConstantExpression // Case EnumeratorExpr
type Enumerator struct {
lexicalScope Scope
Operand Operand
AttributeSpecifierList *AttributeSpecifierList
Case EnumeratorCase `PrettyPrint:"stringer,zero"`
ConstantExpression *ConstantExpression
Token Token
Token2 Token
}
// String implements fmt.Stringer.
func (n *Enumerator) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *Enumerator) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.AttributeSpecifierList.Position()
case 1:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.AttributeSpecifierList.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
return n.ConstantExpression.Position()
default:
panic("internal error")
}
}
// EnumeratorList represents data reduced by productions:
//
// EnumeratorList:
// Enumerator
// | EnumeratorList ',' Enumerator
type EnumeratorList struct {
Enumerator *Enumerator
EnumeratorList *EnumeratorList
Token Token
}
// String implements fmt.Stringer.
func (n *EnumeratorList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *EnumeratorList) Position() (r token.Position) {
if n == nil {
return r
}
return n.Enumerator.Position()
}
// EqualityExpressionCase represents case numbers of production EqualityExpression
type EqualityExpressionCase int
// Values of type EqualityExpressionCase
const (
EqualityExpressionRel EqualityExpressionCase = iota
EqualityExpressionEq
EqualityExpressionNeq
)
// String implements fmt.Stringer
func (n EqualityExpressionCase) String() string {
switch n {
case EqualityExpressionRel:
return "EqualityExpressionRel"
case EqualityExpressionEq:
return "EqualityExpressionEq"
case EqualityExpressionNeq:
return "EqualityExpressionNeq"
default:
return fmt.Sprintf("EqualityExpressionCase(%v)", int(n))
}
}
// EqualityExpression represents data reduced by productions:
//
// EqualityExpression:
// RelationalExpression // Case EqualityExpressionRel
// | EqualityExpression "==" RelationalExpression // Case EqualityExpressionEq
// | EqualityExpression "!=" RelationalExpression // Case EqualityExpressionNeq
type EqualityExpression struct {
Operand Operand
promote Type
IsSideEffectsFree bool
Case EqualityExpressionCase `PrettyPrint:"stringer,zero"`
EqualityExpression *EqualityExpression
RelationalExpression *RelationalExpression
Token Token
}
// String implements fmt.Stringer.
func (n *EqualityExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *EqualityExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 1, 2:
if p := n.EqualityExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.RelationalExpression.Position()
case 0:
return n.RelationalExpression.Position()
default:
panic("internal error")
}
}
// ExclusiveOrExpressionCase represents case numbers of production ExclusiveOrExpression
type ExclusiveOrExpressionCase int
// Values of type ExclusiveOrExpressionCase
const (
ExclusiveOrExpressionAnd ExclusiveOrExpressionCase = iota
ExclusiveOrExpressionXor
)
// String implements fmt.Stringer
func (n ExclusiveOrExpressionCase) String() string {
switch n {
case ExclusiveOrExpressionAnd:
return "ExclusiveOrExpressionAnd"
case ExclusiveOrExpressionXor:
return "ExclusiveOrExpressionXor"
default:
return fmt.Sprintf("ExclusiveOrExpressionCase(%v)", int(n))
}
}
// ExclusiveOrExpression represents data reduced by productions:
//
// ExclusiveOrExpression:
// AndExpression // Case ExclusiveOrExpressionAnd
// | ExclusiveOrExpression '^' AndExpression // Case ExclusiveOrExpressionXor
type ExclusiveOrExpression struct {
Operand Operand
promote Type
IsSideEffectsFree bool
AndExpression *AndExpression
Case ExclusiveOrExpressionCase `PrettyPrint:"stringer,zero"`
ExclusiveOrExpression *ExclusiveOrExpression
Token Token
}
// String implements fmt.Stringer.
func (n *ExclusiveOrExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *ExclusiveOrExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.AndExpression.Position()
case 1:
if p := n.ExclusiveOrExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.AndExpression.Position()
default:
panic("internal error")
}
}
// ExpressionCase represents case numbers of production Expression
type ExpressionCase int
// Values of type ExpressionCase
const (
ExpressionAssign ExpressionCase = iota
ExpressionComma
)
// String implements fmt.Stringer
func (n ExpressionCase) String() string {
switch n {
case ExpressionAssign:
return "ExpressionAssign"
case ExpressionComma:
return "ExpressionComma"
default:
return fmt.Sprintf("ExpressionCase(%v)", int(n))
}
}
// Expression represents data reduced by productions:
//
// Expression:
// AssignmentExpression // Case ExpressionAssign
// | Expression ',' AssignmentExpression // Case ExpressionComma
type Expression struct {
Operand Operand
IsSideEffectsFree bool
AssignmentExpression *AssignmentExpression
Case ExpressionCase `PrettyPrint:"stringer,zero"`
Expression *Expression
Token Token
}
// String implements fmt.Stringer.
func (n *Expression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *Expression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.AssignmentExpression.Position()
case 1:
if p := n.Expression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.AssignmentExpression.Position()
default:
panic("internal error")
}
}
// ExpressionList represents data reduced by productions:
//
// ExpressionList:
// AssignmentExpression
// | ExpressionList ',' AssignmentExpression
type ExpressionList struct {
AssignmentExpression *AssignmentExpression
ExpressionList *ExpressionList
Token Token
}
// String implements fmt.Stringer.
func (n *ExpressionList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *ExpressionList) Position() (r token.Position) {
if n == nil {
return r
}
return n.AssignmentExpression.Position()
}
// ExpressionStatement represents data reduced by production:
//
// ExpressionStatement:
// Expression AttributeSpecifierList ';'
type ExpressionStatement struct {
AttributeSpecifierList *AttributeSpecifierList
Expression *Expression
Token Token
}
// String implements fmt.Stringer.
func (n *ExpressionStatement) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *ExpressionStatement) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
if p := n.AttributeSpecifierList.Position(); p.IsValid() {
return p
}
return n.Token.Position()
}
// ExternalDeclarationCase represents case numbers of production ExternalDeclaration
type ExternalDeclarationCase int
// Values of type ExternalDeclarationCase
const (
ExternalDeclarationFuncDef ExternalDeclarationCase = iota
ExternalDeclarationDecl
ExternalDeclarationAsm
ExternalDeclarationAsmStmt
ExternalDeclarationEmpty
ExternalDeclarationPragma
)
// String implements fmt.Stringer
func (n ExternalDeclarationCase) String() string {
switch n {
case ExternalDeclarationFuncDef:
return "ExternalDeclarationFuncDef"
case ExternalDeclarationDecl:
return "ExternalDeclarationDecl"
case ExternalDeclarationAsm:
return "ExternalDeclarationAsm"
case ExternalDeclarationAsmStmt:
return "ExternalDeclarationAsmStmt"
case ExternalDeclarationEmpty:
return "ExternalDeclarationEmpty"
case ExternalDeclarationPragma:
return "ExternalDeclarationPragma"
default:
return fmt.Sprintf("ExternalDeclarationCase(%v)", int(n))
}
}
// ExternalDeclaration represents data reduced by productions:
//
// ExternalDeclaration:
// FunctionDefinition // Case ExternalDeclarationFuncDef
// | Declaration // Case ExternalDeclarationDecl
// | AsmFunctionDefinition // Case ExternalDeclarationAsm
// | AsmStatement // Case ExternalDeclarationAsmStmt
// | ';' // Case ExternalDeclarationEmpty
// | PragmaSTDC // Case ExternalDeclarationPragma
type ExternalDeclaration struct {
AsmFunctionDefinition *AsmFunctionDefinition
AsmStatement *AsmStatement
Case ExternalDeclarationCase `PrettyPrint:"stringer,zero"`
Declaration *Declaration
FunctionDefinition *FunctionDefinition
PragmaSTDC *PragmaSTDC
Token Token
}
// String implements fmt.Stringer.
func (n *ExternalDeclaration) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *ExternalDeclaration) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 2:
return n.AsmFunctionDefinition.Position()
case 3:
return n.AsmStatement.Position()
case 1:
return n.Declaration.Position()
case 0:
return n.FunctionDefinition.Position()
case 5:
return n.PragmaSTDC.Position()
case 4:
return n.Token.Position()
default:
panic("internal error")
}
}
// FunctionDefinition represents data reduced by production:
//
// FunctionDefinition:
// DeclarationSpecifiers Declarator DeclarationList CompoundStatement
type FunctionDefinition struct {
CallSiteComplexExpr []*AssignmentExpression
CompositeLiterals []*PostfixExpression
ComputedGotos map[StringID]*UnaryExpression
Gotos map[StringID]*JumpStatement
InitDeclarators []*InitDeclarator
Labels map[StringID]*LabeledStatement
ReturnComplexExpr []*Expression
VLAs []*Declarator
compoundStatements []*CompoundStatement
checked bool
CompoundStatement *CompoundStatement
DeclarationList *DeclarationList
DeclarationSpecifiers *DeclarationSpecifiers
Declarator *Declarator
}
// String implements fmt.Stringer.
func (n *FunctionDefinition) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *FunctionDefinition) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.DeclarationSpecifiers.Position(); p.IsValid() {
return p
}
if p := n.Declarator.Position(); p.IsValid() {
return p
}
if p := n.DeclarationList.Position(); p.IsValid() {
return p
}
return n.CompoundStatement.Position()
}
// FunctionSpecifierCase represents case numbers of production FunctionSpecifier
type FunctionSpecifierCase int
// Values of type FunctionSpecifierCase
const (
FunctionSpecifierInline FunctionSpecifierCase = iota
FunctionSpecifierNoreturn
)
// String implements fmt.Stringer
func (n FunctionSpecifierCase) String() string {
switch n {
case FunctionSpecifierInline:
return "FunctionSpecifierInline"
case FunctionSpecifierNoreturn:
return "FunctionSpecifierNoreturn"
default:
return fmt.Sprintf("FunctionSpecifierCase(%v)", int(n))
}
}
// FunctionSpecifier represents data reduced by productions:
//
// FunctionSpecifier:
// "inline" // Case FunctionSpecifierInline
// | "_Noreturn" // Case FunctionSpecifierNoreturn
type FunctionSpecifier struct {
Case FunctionSpecifierCase `PrettyPrint:"stringer,zero"`
Token Token
}
// String implements fmt.Stringer.
func (n *FunctionSpecifier) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *FunctionSpecifier) Position() (r token.Position) {
if n == nil {
return r
}
return n.Token.Position()
}
// IdentifierList represents data reduced by productions:
//
// IdentifierList:
// IDENTIFIER
// | IdentifierList ',' IDENTIFIER
type IdentifierList struct {
lexicalScope Scope
IdentifierList *IdentifierList
Token Token
Token2 Token
}
// String implements fmt.Stringer.
func (n *IdentifierList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *IdentifierList) Position() (r token.Position) {
if n == nil {
return r
}
return n.Token.Position()
}
// InclusiveOrExpressionCase represents case numbers of production InclusiveOrExpression
type InclusiveOrExpressionCase int
// Values of type InclusiveOrExpressionCase
const (
InclusiveOrExpressionXor InclusiveOrExpressionCase = iota
InclusiveOrExpressionOr
)
// String implements fmt.Stringer
func (n InclusiveOrExpressionCase) String() string {
switch n {
case InclusiveOrExpressionXor:
return "InclusiveOrExpressionXor"
case InclusiveOrExpressionOr:
return "InclusiveOrExpressionOr"
default:
return fmt.Sprintf("InclusiveOrExpressionCase(%v)", int(n))
}
}
// InclusiveOrExpression represents data reduced by productions:
//
// InclusiveOrExpression:
// ExclusiveOrExpression // Case InclusiveOrExpressionXor
// | InclusiveOrExpression '|' ExclusiveOrExpression // Case InclusiveOrExpressionOr
type InclusiveOrExpression struct {
Operand Operand
promote Type
IsSideEffectsFree bool
Case InclusiveOrExpressionCase `PrettyPrint:"stringer,zero"`
ExclusiveOrExpression *ExclusiveOrExpression
InclusiveOrExpression *InclusiveOrExpression
Token Token
}
// String implements fmt.Stringer.
func (n *InclusiveOrExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *InclusiveOrExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.ExclusiveOrExpression.Position()
case 1:
if p := n.InclusiveOrExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.ExclusiveOrExpression.Position()
default:
panic("internal error")
}
}
// InitDeclaratorCase represents case numbers of production InitDeclarator
type InitDeclaratorCase int
// Values of type InitDeclaratorCase
const (
InitDeclaratorDecl InitDeclaratorCase = iota
InitDeclaratorInit
)
// String implements fmt.Stringer
func (n InitDeclaratorCase) String() string {
switch n {
case InitDeclaratorDecl:
return "InitDeclaratorDecl"
case InitDeclaratorInit:
return "InitDeclaratorInit"
default:
return fmt.Sprintf("InitDeclaratorCase(%v)", int(n))
}
}
// InitDeclarator represents data reduced by productions:
//
// InitDeclarator:
// Declarator AttributeSpecifierList // Case InitDeclaratorDecl
// | Declarator AttributeSpecifierList '=' Initializer // Case InitDeclaratorInit
type InitDeclarator struct {
initializer *InitializerValue
AttributeSpecifierList *AttributeSpecifierList
Case InitDeclaratorCase `PrettyPrint:"stringer,zero"`
Declarator *Declarator
Initializer *Initializer
Token Token
}
// String implements fmt.Stringer.
func (n *InitDeclarator) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *InitDeclarator) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
if p := n.Declarator.Position(); p.IsValid() {
return p
}
return n.AttributeSpecifierList.Position()
case 1:
if p := n.Declarator.Position(); p.IsValid() {
return p
}
if p := n.AttributeSpecifierList.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.Initializer.Position()
default:
panic("internal error")
}
}
// InitDeclaratorList represents data reduced by productions:
//
// InitDeclaratorList:
// InitDeclarator
// | InitDeclaratorList ',' AttributeSpecifierList InitDeclarator
type InitDeclaratorList struct {
AttributeSpecifierList *AttributeSpecifierList
InitDeclarator *InitDeclarator
InitDeclaratorList *InitDeclaratorList
Token Token
}
// String implements fmt.Stringer.
func (n *InitDeclaratorList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *InitDeclaratorList) Position() (r token.Position) {
if n == nil {
return r
}
return n.InitDeclarator.Position()
}
// InitializerCase represents case numbers of production Initializer
type InitializerCase int
// Values of type InitializerCase
const (
InitializerExpr InitializerCase = iota
InitializerInitList
)
// String implements fmt.Stringer
func (n InitializerCase) String() string {
switch n {
case InitializerExpr:
return "InitializerExpr"
case InitializerInitList:
return "InitializerInitList"
default:
return fmt.Sprintf("InitializerCase(%v)", int(n))
}
}
// Initializer represents data reduced by productions:
//
// Initializer:
// AssignmentExpression // Case InitializerExpr
// | '{' InitializerList ',' '}' // Case InitializerInitList
type Initializer struct {
Field Field // Where aplicable
Offset uintptr // Case Expr
field0 Field
list []*Initializer
parent *Initializer
trailingComma *Token
typ Type
isConst bool
isZero bool
AssignmentExpression *AssignmentExpression
Case InitializerCase `PrettyPrint:"stringer,zero"`
InitializerList *InitializerList
Token Token
Token2 Token
Token3 Token
}
// String implements fmt.Stringer.
func (n *Initializer) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *Initializer) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.AssignmentExpression.Position()
case 1:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.InitializerList.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
default:
panic("internal error")
}
}
// InitializerList represents data reduced by productions:
//
// InitializerList:
// Designation Initializer
// | InitializerList ',' Designation Initializer
type InitializerList struct {
list []*Initializer
isConst bool
isZero bool
Designation *Designation
Initializer *Initializer
InitializerList *InitializerList
Token Token
}
// String implements fmt.Stringer.
func (n *InitializerList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *InitializerList) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.Designation.Position(); p.IsValid() {
return p
}
return n.Initializer.Position()
}
// IterationStatementCase represents case numbers of production IterationStatement
type IterationStatementCase int
// Values of type IterationStatementCase
const (
IterationStatementWhile IterationStatementCase = iota
IterationStatementDo
IterationStatementFor
IterationStatementForDecl
)
// String implements fmt.Stringer
func (n IterationStatementCase) String() string {
switch n {
case IterationStatementWhile:
return "IterationStatementWhile"
case IterationStatementDo:
return "IterationStatementDo"
case IterationStatementFor:
return "IterationStatementFor"
case IterationStatementForDecl:
return "IterationStatementForDecl"
default:
return fmt.Sprintf("IterationStatementCase(%v)", int(n))
}
}
// IterationStatement represents data reduced by productions:
//
// IterationStatement:
// "while" '(' Expression ')' Statement // Case IterationStatementWhile
// | "do" Statement "while" '(' Expression ')' ';' // Case IterationStatementDo
// | "for" '(' Expression ';' Expression ';' Expression ')' Statement // Case IterationStatementFor
// | "for" '(' Declaration Expression ';' Expression ')' Statement // Case IterationStatementForDecl
type IterationStatement struct {
Case IterationStatementCase `PrettyPrint:"stringer,zero"`
Declaration *Declaration
Expression *Expression
Expression2 *Expression
Expression3 *Expression
Statement *Statement
Token Token
Token2 Token
Token3 Token
Token4 Token
Token5 Token
}
// String implements fmt.Stringer.
func (n *IterationStatement) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *IterationStatement) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 1:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Statement.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
if p := n.Token4.Position(); p.IsValid() {
return p
}
return n.Token5.Position()
case 3:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.Declaration.Position(); p.IsValid() {
return p
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
if p := n.Expression2.Position(); p.IsValid() {
return p
}
if p := n.Token4.Position(); p.IsValid() {
return p
}
return n.Statement.Position()
case 2:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
if p := n.Expression2.Position(); p.IsValid() {
return p
}
if p := n.Token4.Position(); p.IsValid() {
return p
}
if p := n.Expression3.Position(); p.IsValid() {
return p
}
if p := n.Token5.Position(); p.IsValid() {
return p
}
return n.Statement.Position()
case 0:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
return n.Statement.Position()
default:
panic("internal error")
}
}
// JumpStatementCase represents case numbers of production JumpStatement
type JumpStatementCase int
// Values of type JumpStatementCase
const (
JumpStatementGoto JumpStatementCase = iota
JumpStatementGotoExpr
JumpStatementContinue
JumpStatementBreak
JumpStatementReturn
)
// String implements fmt.Stringer
func (n JumpStatementCase) String() string {
switch n {
case JumpStatementGoto:
return "JumpStatementGoto"
case JumpStatementGotoExpr:
return "JumpStatementGotoExpr"
case JumpStatementContinue:
return "JumpStatementContinue"
case JumpStatementBreak:
return "JumpStatementBreak"
case JumpStatementReturn:
return "JumpStatementReturn"
default:
return fmt.Sprintf("JumpStatementCase(%v)", int(n))
}
}
// JumpStatement represents data reduced by productions:
//
// JumpStatement:
// "goto" IDENTIFIER ';' // Case JumpStatementGoto
// | "goto" '*' Expression ';' // Case JumpStatementGotoExpr
// | "continue" ';' // Case JumpStatementContinue
// | "break" ';' // Case JumpStatementBreak
// | "return" Expression ';' // Case JumpStatementReturn
type JumpStatement struct {
context Node
lexicalScope Scope
Case JumpStatementCase `PrettyPrint:"stringer,zero"`
Expression *Expression
Token Token
Token2 Token
Token3 Token
}
// String implements fmt.Stringer.
func (n *JumpStatement) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *JumpStatement) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 4:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 2, 3:
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 1:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
case 0:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
default:
panic("internal error")
}
}
// LabelDeclaration represents data reduced by production:
//
// LabelDeclaration:
// "__label__" IdentifierList ';'
type LabelDeclaration struct {
IdentifierList *IdentifierList
Token Token
Token2 Token
}
// String implements fmt.Stringer.
func (n *LabelDeclaration) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *LabelDeclaration) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.IdentifierList.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
}
// LabeledStatementCase represents case numbers of production LabeledStatement
type LabeledStatementCase int
// Values of type LabeledStatementCase
const (
LabeledStatementLabel LabeledStatementCase = iota
LabeledStatementCaseLabel
LabeledStatementRange
LabeledStatementDefault
)
// String implements fmt.Stringer
func (n LabeledStatementCase) String() string {
switch n {
case LabeledStatementLabel:
return "LabeledStatementLabel"
case LabeledStatementCaseLabel:
return "LabeledStatementCaseLabel"
case LabeledStatementRange:
return "LabeledStatementRange"
case LabeledStatementDefault:
return "LabeledStatementDefault"
default:
return fmt.Sprintf("LabeledStatementCase(%v)", int(n))
}
}
// LabeledStatement represents data reduced by productions:
//
// LabeledStatement:
// IDENTIFIER ':' AttributeSpecifierList Statement // Case LabeledStatementLabel
// | "case" ConstantExpression ':' Statement // Case LabeledStatementCaseLabel
// | "case" ConstantExpression "..." ConstantExpression ':' Statement // Case LabeledStatementRange
// | "default" ':' Statement // Case LabeledStatementDefault
type LabeledStatement struct {
block *CompoundStatement
lexicalScope Scope
AttributeSpecifierList *AttributeSpecifierList
Case LabeledStatementCase `PrettyPrint:"stringer,zero"`
ConstantExpression *ConstantExpression
ConstantExpression2 *ConstantExpression
Statement *Statement
Token Token
Token2 Token
Token3 Token
}
// String implements fmt.Stringer.
func (n *LabeledStatement) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *LabeledStatement) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 2:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.ConstantExpression.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.ConstantExpression2.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
return n.Statement.Position()
case 1:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.ConstantExpression.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
return n.Statement.Position()
case 0:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.AttributeSpecifierList.Position(); p.IsValid() {
return p
}
return n.Statement.Position()
case 3:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
return n.Statement.Position()
default:
panic("internal error")
}
}
// LogicalAndExpressionCase represents case numbers of production LogicalAndExpression
type LogicalAndExpressionCase int
// Values of type LogicalAndExpressionCase
const (
LogicalAndExpressionOr LogicalAndExpressionCase = iota
LogicalAndExpressionLAnd
)
// String implements fmt.Stringer
func (n LogicalAndExpressionCase) String() string {
switch n {
case LogicalAndExpressionOr:
return "LogicalAndExpressionOr"
case LogicalAndExpressionLAnd:
return "LogicalAndExpressionLAnd"
default:
return fmt.Sprintf("LogicalAndExpressionCase(%v)", int(n))
}
}
// LogicalAndExpression represents data reduced by productions:
//
// LogicalAndExpression:
// InclusiveOrExpression // Case LogicalAndExpressionOr
// | LogicalAndExpression "&&" InclusiveOrExpression // Case LogicalAndExpressionLAnd
type LogicalAndExpression struct {
Operand Operand
IsSideEffectsFree bool
Case LogicalAndExpressionCase `PrettyPrint:"stringer,zero"`
InclusiveOrExpression *InclusiveOrExpression
LogicalAndExpression *LogicalAndExpression
Token Token
}
// String implements fmt.Stringer.
func (n *LogicalAndExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *LogicalAndExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.InclusiveOrExpression.Position()
case 1:
if p := n.LogicalAndExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.InclusiveOrExpression.Position()
default:
panic("internal error")
}
}
// LogicalOrExpressionCase represents case numbers of production LogicalOrExpression
type LogicalOrExpressionCase int
// Values of type LogicalOrExpressionCase
const (
LogicalOrExpressionLAnd LogicalOrExpressionCase = iota
LogicalOrExpressionLOr
)
// String implements fmt.Stringer
func (n LogicalOrExpressionCase) String() string {
switch n {
case LogicalOrExpressionLAnd:
return "LogicalOrExpressionLAnd"
case LogicalOrExpressionLOr:
return "LogicalOrExpressionLOr"
default:
return fmt.Sprintf("LogicalOrExpressionCase(%v)", int(n))
}
}
// LogicalOrExpression represents data reduced by productions:
//
// LogicalOrExpression:
// LogicalAndExpression // Case LogicalOrExpressionLAnd
// | LogicalOrExpression "||" LogicalAndExpression // Case LogicalOrExpressionLOr
type LogicalOrExpression struct {
Operand Operand
IsSideEffectsFree bool
Case LogicalOrExpressionCase `PrettyPrint:"stringer,zero"`
LogicalAndExpression *LogicalAndExpression
LogicalOrExpression *LogicalOrExpression
Token Token
}
// String implements fmt.Stringer.
func (n *LogicalOrExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *LogicalOrExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.LogicalAndExpression.Position()
case 1:
if p := n.LogicalOrExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.LogicalAndExpression.Position()
default:
panic("internal error")
}
}
// MultiplicativeExpressionCase represents case numbers of production MultiplicativeExpression
type MultiplicativeExpressionCase int
// Values of type MultiplicativeExpressionCase
const (
MultiplicativeExpressionCast MultiplicativeExpressionCase = iota
MultiplicativeExpressionMul
MultiplicativeExpressionDiv
MultiplicativeExpressionMod
)
// String implements fmt.Stringer
func (n MultiplicativeExpressionCase) String() string {
switch n {
case MultiplicativeExpressionCast:
return "MultiplicativeExpressionCast"
case MultiplicativeExpressionMul:
return "MultiplicativeExpressionMul"
case MultiplicativeExpressionDiv:
return "MultiplicativeExpressionDiv"
case MultiplicativeExpressionMod:
return "MultiplicativeExpressionMod"
default:
return fmt.Sprintf("MultiplicativeExpressionCase(%v)", int(n))
}
}
// MultiplicativeExpression represents data reduced by productions:
//
// MultiplicativeExpression:
// CastExpression // Case MultiplicativeExpressionCast
// | MultiplicativeExpression '*' CastExpression // Case MultiplicativeExpressionMul
// | MultiplicativeExpression '/' CastExpression // Case MultiplicativeExpressionDiv
// | MultiplicativeExpression '%' CastExpression // Case MultiplicativeExpressionMod
type MultiplicativeExpression struct {
Operand Operand
promote Type
IsSideEffectsFree bool
Case MultiplicativeExpressionCase `PrettyPrint:"stringer,zero"`
CastExpression *CastExpression
MultiplicativeExpression *MultiplicativeExpression
Token Token
}
// String implements fmt.Stringer.
func (n *MultiplicativeExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *MultiplicativeExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.CastExpression.Position()
case 1, 2, 3:
if p := n.MultiplicativeExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.CastExpression.Position()
default:
panic("internal error")
}
}
// ParameterDeclarationCase represents case numbers of production ParameterDeclaration
type ParameterDeclarationCase int
// Values of type ParameterDeclarationCase
const (
ParameterDeclarationDecl ParameterDeclarationCase = iota
ParameterDeclarationAbstract
)
// String implements fmt.Stringer
func (n ParameterDeclarationCase) String() string {
switch n {
case ParameterDeclarationDecl:
return "ParameterDeclarationDecl"
case ParameterDeclarationAbstract:
return "ParameterDeclarationAbstract"
default:
return fmt.Sprintf("ParameterDeclarationCase(%v)", int(n))
}
}
// ParameterDeclaration represents data reduced by productions:
//
// ParameterDeclaration:
// DeclarationSpecifiers Declarator AttributeSpecifierList // Case ParameterDeclarationDecl
// | DeclarationSpecifiers AbstractDeclarator // Case ParameterDeclarationAbstract
type ParameterDeclaration struct {
typ Type
AbstractDeclarator *AbstractDeclarator
AttributeSpecifierList *AttributeSpecifierList
Case ParameterDeclarationCase `PrettyPrint:"stringer,zero"`
DeclarationSpecifiers *DeclarationSpecifiers
Declarator *Declarator
}
// String implements fmt.Stringer.
func (n *ParameterDeclaration) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *ParameterDeclaration) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 1:
if p := n.DeclarationSpecifiers.Position(); p.IsValid() {
return p
}
return n.AbstractDeclarator.Position()
case 0:
if p := n.DeclarationSpecifiers.Position(); p.IsValid() {
return p
}
if p := n.Declarator.Position(); p.IsValid() {
return p
}
return n.AttributeSpecifierList.Position()
default:
panic("internal error")
}
}
// ParameterList represents data reduced by productions:
//
// ParameterList:
// ParameterDeclaration
// | ParameterList ',' ParameterDeclaration
type ParameterList struct {
ParameterDeclaration *ParameterDeclaration
ParameterList *ParameterList
Token Token
}
// String implements fmt.Stringer.
func (n *ParameterList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *ParameterList) Position() (r token.Position) {
if n == nil {
return r
}
return n.ParameterDeclaration.Position()
}
// ParameterTypeListCase represents case numbers of production ParameterTypeList
type ParameterTypeListCase int
// Values of type ParameterTypeListCase
const (
ParameterTypeListList ParameterTypeListCase = iota
ParameterTypeListVar
)
// String implements fmt.Stringer
func (n ParameterTypeListCase) String() string {
switch n {
case ParameterTypeListList:
return "ParameterTypeListList"
case ParameterTypeListVar:
return "ParameterTypeListVar"
default:
return fmt.Sprintf("ParameterTypeListCase(%v)", int(n))
}
}
// ParameterTypeList represents data reduced by productions:
//
// ParameterTypeList:
// ParameterList // Case ParameterTypeListList
// | ParameterList ',' "..." // Case ParameterTypeListVar
type ParameterTypeList struct {
Case ParameterTypeListCase `PrettyPrint:"stringer,zero"`
ParameterList *ParameterList
Token Token
Token2 Token
}
// String implements fmt.Stringer.
func (n *ParameterTypeList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *ParameterTypeList) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.ParameterList.Position()
case 1:
if p := n.ParameterList.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
default:
panic("internal error")
}
}
// PointerCase represents case numbers of production Pointer
type PointerCase int
// Values of type PointerCase
const (
PointerTypeQual PointerCase = iota
PointerPtr
)
// String implements fmt.Stringer
func (n PointerCase) String() string {
switch n {
case PointerTypeQual:
return "PointerTypeQual"
case PointerPtr:
return "PointerPtr"
default:
return fmt.Sprintf("PointerCase(%v)", int(n))
}
}
// Pointer represents data reduced by productions:
//
// Pointer:
// '*' TypeQualifiers // Case PointerTypeQual
// | '*' TypeQualifiers Pointer // Case PointerPtr
type Pointer struct {
typeQualifiers *typeBase
Case PointerCase `PrettyPrint:"stringer,zero"`
Pointer *Pointer
Token Token
TypeQualifiers *TypeQualifiers
}
// String implements fmt.Stringer.
func (n *Pointer) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *Pointer) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.TypeQualifiers.Position()
case 1:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.TypeQualifiers.Position(); p.IsValid() {
return p
}
return n.Pointer.Position()
default:
panic("internal error")
}
}
// PostfixExpressionCase represents case numbers of production PostfixExpression
type PostfixExpressionCase int
// Values of type PostfixExpressionCase
const (
PostfixExpressionPrimary PostfixExpressionCase = iota
PostfixExpressionIndex
PostfixExpressionCall
PostfixExpressionSelect
PostfixExpressionPSelect
PostfixExpressionInc
PostfixExpressionDec
PostfixExpressionComplit
PostfixExpressionTypeCmp
PostfixExpressionChooseExpr
)
// String implements fmt.Stringer
func (n PostfixExpressionCase) String() string {
switch n {
case PostfixExpressionPrimary:
return "PostfixExpressionPrimary"
case PostfixExpressionIndex:
return "PostfixExpressionIndex"
case PostfixExpressionCall:
return "PostfixExpressionCall"
case PostfixExpressionSelect:
return "PostfixExpressionSelect"
case PostfixExpressionPSelect:
return "PostfixExpressionPSelect"
case PostfixExpressionInc:
return "PostfixExpressionInc"
case PostfixExpressionDec:
return "PostfixExpressionDec"
case PostfixExpressionComplit:
return "PostfixExpressionComplit"
case PostfixExpressionTypeCmp:
return "PostfixExpressionTypeCmp"
case PostfixExpressionChooseExpr:
return "PostfixExpressionChooseExpr"
default:
return fmt.Sprintf("PostfixExpressionCase(%v)", int(n))
}
}
// PostfixExpression represents data reduced by productions:
//
// PostfixExpression:
// PrimaryExpression // Case PostfixExpressionPrimary
// | PostfixExpression '[' Expression ']' // Case PostfixExpressionIndex
// | PostfixExpression '(' ArgumentExpressionList ')' // Case PostfixExpressionCall
// | PostfixExpression '.' IDENTIFIER // Case PostfixExpressionSelect
// | PostfixExpression "->" IDENTIFIER // Case PostfixExpressionPSelect
// | PostfixExpression "++" // Case PostfixExpressionInc
// | PostfixExpression "--" // Case PostfixExpressionDec
// | '(' TypeName ')' '{' InitializerList ',' '}' // Case PostfixExpressionComplit
// | "__builtin_types_compatible_p" '(' TypeName ',' TypeName ')' // Case PostfixExpressionTypeCmp
// | "__builtin_choose_expr" '(' AssignmentExpression ',' AssignmentExpression ',' AssignmentExpression ')' // Case PostfixExpressionChooseExpr
type PostfixExpression struct {
Operand Operand
Field Field // Case Select, PSelect
IsSideEffectsFree bool
ArgumentExpressionList *ArgumentExpressionList
AssignmentExpression *AssignmentExpression
AssignmentExpression2 *AssignmentExpression
AssignmentExpression3 *AssignmentExpression
Case PostfixExpressionCase `PrettyPrint:"stringer,zero"`
Expression *Expression
InitializerList *InitializerList
PostfixExpression *PostfixExpression
PrimaryExpression *PrimaryExpression
Token Token
Token2 Token
Token3 Token
Token4 Token
Token5 Token
TypeName *TypeName
TypeName2 *TypeName
}
// String implements fmt.Stringer.
func (n *PostfixExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *PostfixExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 5, 6:
if p := n.PostfixExpression.Position(); p.IsValid() {
return p
}
return n.Token.Position()
case 2:
if p := n.PostfixExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.ArgumentExpressionList.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 1:
if p := n.PostfixExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 3, 4:
if p := n.PostfixExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 0:
return n.PrimaryExpression.Position()
case 9:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.AssignmentExpression.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
if p := n.AssignmentExpression2.Position(); p.IsValid() {
return p
}
if p := n.Token4.Position(); p.IsValid() {
return p
}
if p := n.AssignmentExpression3.Position(); p.IsValid() {
return p
}
return n.Token5.Position()
case 8:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.TypeName.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
if p := n.TypeName2.Position(); p.IsValid() {
return p
}
return n.Token4.Position()
case 7:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.TypeName.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
if p := n.InitializerList.Position(); p.IsValid() {
return p
}
if p := n.Token4.Position(); p.IsValid() {
return p
}
return n.Token5.Position()
default:
panic("internal error")
}
}
// PragmaSTDC represents data reduced by production:
//
// PragmaSTDC:
// "__pragma_stdc" IDENTIFIER IDENTIFIER IDENTIFIER
type PragmaSTDC struct {
Token Token
Token2 Token
Token3 Token
Token4 Token
}
// String implements fmt.Stringer.
func (n *PragmaSTDC) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *PragmaSTDC) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
return n.Token4.Position()
}
// PrimaryExpressionCase represents case numbers of production PrimaryExpression
type PrimaryExpressionCase int
// Values of type PrimaryExpressionCase
const (
PrimaryExpressionIdent PrimaryExpressionCase = iota
PrimaryExpressionInt
PrimaryExpressionFloat
PrimaryExpressionEnum
PrimaryExpressionChar
PrimaryExpressionLChar
PrimaryExpressionString
PrimaryExpressionLString
PrimaryExpressionExpr
PrimaryExpressionStmt
)
// String implements fmt.Stringer
func (n PrimaryExpressionCase) String() string {
switch n {
case PrimaryExpressionIdent:
return "PrimaryExpressionIdent"
case PrimaryExpressionInt:
return "PrimaryExpressionInt"
case PrimaryExpressionFloat:
return "PrimaryExpressionFloat"
case PrimaryExpressionEnum:
return "PrimaryExpressionEnum"
case PrimaryExpressionChar:
return "PrimaryExpressionChar"
case PrimaryExpressionLChar:
return "PrimaryExpressionLChar"
case PrimaryExpressionString:
return "PrimaryExpressionString"
case PrimaryExpressionLString:
return "PrimaryExpressionLString"
case PrimaryExpressionExpr:
return "PrimaryExpressionExpr"
case PrimaryExpressionStmt:
return "PrimaryExpressionStmt"
default:
return fmt.Sprintf("PrimaryExpressionCase(%v)", int(n))
}
}
// PrimaryExpression represents data reduced by productions:
//
// PrimaryExpression:
// IDENTIFIER // Case PrimaryExpressionIdent
// | INTCONST // Case PrimaryExpressionInt
// | FLOATCONST // Case PrimaryExpressionFloat
// | ENUMCONST // Case PrimaryExpressionEnum
// | CHARCONST // Case PrimaryExpressionChar
// | LONGCHARCONST // Case PrimaryExpressionLChar
// | STRINGLITERAL // Case PrimaryExpressionString
// | LONGSTRINGLITERAL // Case PrimaryExpressionLString
// | '(' Expression ')' // Case PrimaryExpressionExpr
// | '(' CompoundStatement ')' // Case PrimaryExpressionStmt
type PrimaryExpression struct {
Operand Operand
lexicalScope Scope
resolvedIn Scope
resolvedTo Node
IsSideEffectsFree bool
Case PrimaryExpressionCase `PrettyPrint:"stringer,zero"`
CompoundStatement *CompoundStatement
Expression *Expression
Token Token
Token2 Token
}
// String implements fmt.Stringer.
func (n *PrimaryExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *PrimaryExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0, 1, 2, 3, 4, 5, 6, 7:
return n.Token.Position()
case 9:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.CompoundStatement.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 8:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
default:
panic("internal error")
}
}
// RelationalExpressionCase represents case numbers of production RelationalExpression
type RelationalExpressionCase int
// Values of type RelationalExpressionCase
const (
RelationalExpressionShift RelationalExpressionCase = iota
RelationalExpressionLt
RelationalExpressionGt
RelationalExpressionLeq
RelationalExpressionGeq
)
// String implements fmt.Stringer
func (n RelationalExpressionCase) String() string {
switch n {
case RelationalExpressionShift:
return "RelationalExpressionShift"
case RelationalExpressionLt:
return "RelationalExpressionLt"
case RelationalExpressionGt:
return "RelationalExpressionGt"
case RelationalExpressionLeq:
return "RelationalExpressionLeq"
case RelationalExpressionGeq:
return "RelationalExpressionGeq"
default:
return fmt.Sprintf("RelationalExpressionCase(%v)", int(n))
}
}
// RelationalExpression represents data reduced by productions:
//
// RelationalExpression:
// ShiftExpression // Case RelationalExpressionShift
// | RelationalExpression '<' ShiftExpression // Case RelationalExpressionLt
// | RelationalExpression '>' ShiftExpression // Case RelationalExpressionGt
// | RelationalExpression "<=" ShiftExpression // Case RelationalExpressionLeq
// | RelationalExpression ">=" ShiftExpression // Case RelationalExpressionGeq
type RelationalExpression struct {
Operand Operand
promote Type
IsSideEffectsFree bool
Case RelationalExpressionCase `PrettyPrint:"stringer,zero"`
RelationalExpression *RelationalExpression
ShiftExpression *ShiftExpression
Token Token
}
// String implements fmt.Stringer.
func (n *RelationalExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *RelationalExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 1, 2, 3, 4:
if p := n.RelationalExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.ShiftExpression.Position()
case 0:
return n.ShiftExpression.Position()
default:
panic("internal error")
}
}
// SelectionStatementCase represents case numbers of production SelectionStatement
type SelectionStatementCase int
// Values of type SelectionStatementCase
const (
SelectionStatementIf SelectionStatementCase = iota
SelectionStatementIfElse
SelectionStatementSwitch
)
// String implements fmt.Stringer
func (n SelectionStatementCase) String() string {
switch n {
case SelectionStatementIf:
return "SelectionStatementIf"
case SelectionStatementIfElse:
return "SelectionStatementIfElse"
case SelectionStatementSwitch:
return "SelectionStatementSwitch"
default:
return fmt.Sprintf("SelectionStatementCase(%v)", int(n))
}
}
// SelectionStatement represents data reduced by productions:
//
// SelectionStatement:
// "if" '(' Expression ')' Statement // Case SelectionStatementIf
// | "if" '(' Expression ')' Statement "else" Statement // Case SelectionStatementIfElse
// | "switch" '(' Expression ')' Statement // Case SelectionStatementSwitch
type SelectionStatement struct {
promote Type // switch expression promoted type
cases []*LabeledStatement
Case SelectionStatementCase `PrettyPrint:"stringer,zero"`
Expression *Expression
Statement *Statement
Statement2 *Statement
Token Token
Token2 Token
Token3 Token
Token4 Token
}
// String implements fmt.Stringer.
func (n *SelectionStatement) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *SelectionStatement) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0, 2:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
return n.Statement.Position()
case 1:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
if p := n.Token3.Position(); p.IsValid() {
return p
}
if p := n.Statement.Position(); p.IsValid() {
return p
}
if p := n.Token4.Position(); p.IsValid() {
return p
}
return n.Statement2.Position()
default:
panic("internal error")
}
}
// ShiftExpressionCase represents case numbers of production ShiftExpression
type ShiftExpressionCase int
// Values of type ShiftExpressionCase
const (
ShiftExpressionAdd ShiftExpressionCase = iota
ShiftExpressionLsh
ShiftExpressionRsh
)
// String implements fmt.Stringer
func (n ShiftExpressionCase) String() string {
switch n {
case ShiftExpressionAdd:
return "ShiftExpressionAdd"
case ShiftExpressionLsh:
return "ShiftExpressionLsh"
case ShiftExpressionRsh:
return "ShiftExpressionRsh"
default:
return fmt.Sprintf("ShiftExpressionCase(%v)", int(n))
}
}
// ShiftExpression represents data reduced by productions:
//
// ShiftExpression:
// AdditiveExpression // Case ShiftExpressionAdd
// | ShiftExpression "<<" AdditiveExpression // Case ShiftExpressionLsh
// | ShiftExpression ">>" AdditiveExpression // Case ShiftExpressionRsh
type ShiftExpression struct {
Operand Operand
promote Type // shift count promoted type
IsSideEffectsFree bool
AdditiveExpression *AdditiveExpression
Case ShiftExpressionCase `PrettyPrint:"stringer,zero"`
ShiftExpression *ShiftExpression
Token Token
}
// String implements fmt.Stringer.
func (n *ShiftExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *ShiftExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.AdditiveExpression.Position()
case 1, 2:
if p := n.ShiftExpression.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.AdditiveExpression.Position()
default:
panic("internal error")
}
}
// SpecifierQualifierListCase represents case numbers of production SpecifierQualifierList
type SpecifierQualifierListCase int
// Values of type SpecifierQualifierListCase
const (
SpecifierQualifierListTypeSpec SpecifierQualifierListCase = iota
SpecifierQualifierListTypeQual
SpecifierQualifierListAlignSpec
SpecifierQualifierListAttribute
)
// String implements fmt.Stringer
func (n SpecifierQualifierListCase) String() string {
switch n {
case SpecifierQualifierListTypeSpec:
return "SpecifierQualifierListTypeSpec"
case SpecifierQualifierListTypeQual:
return "SpecifierQualifierListTypeQual"
case SpecifierQualifierListAlignSpec:
return "SpecifierQualifierListAlignSpec"
case SpecifierQualifierListAttribute:
return "SpecifierQualifierListAttribute"
default:
return fmt.Sprintf("SpecifierQualifierListCase(%v)", int(n))
}
}
// SpecifierQualifierList represents data reduced by productions:
//
// SpecifierQualifierList:
// TypeSpecifier SpecifierQualifierList // Case SpecifierQualifierListTypeSpec
// | TypeQualifier SpecifierQualifierList // Case SpecifierQualifierListTypeQual
// | AlignmentSpecifier SpecifierQualifierList // Case SpecifierQualifierListAlignSpec
// | AttributeSpecifier SpecifierQualifierList // Case SpecifierQualifierListAttribute
type SpecifierQualifierList struct {
noStorageClass
AlignmentSpecifier *AlignmentSpecifier
AttributeSpecifier *AttributeSpecifier
Case SpecifierQualifierListCase `PrettyPrint:"stringer,zero"`
SpecifierQualifierList *SpecifierQualifierList
TypeQualifier *TypeQualifier
TypeSpecifier *TypeSpecifier
}
// String implements fmt.Stringer.
func (n *SpecifierQualifierList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *SpecifierQualifierList) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 2:
if p := n.AlignmentSpecifier.Position(); p.IsValid() {
return p
}
return n.SpecifierQualifierList.Position()
case 3:
if p := n.AttributeSpecifier.Position(); p.IsValid() {
return p
}
return n.SpecifierQualifierList.Position()
case 1:
if p := n.TypeQualifier.Position(); p.IsValid() {
return p
}
return n.SpecifierQualifierList.Position()
case 0:
if p := n.TypeSpecifier.Position(); p.IsValid() {
return p
}
return n.SpecifierQualifierList.Position()
default:
panic("internal error")
}
}
// StatementCase represents case numbers of production Statement
type StatementCase int
// Values of type StatementCase
const (
StatementLabeled StatementCase = iota
StatementCompound
StatementExpr
StatementSelection
StatementIteration
StatementJump
StatementAsm
)
// String implements fmt.Stringer
func (n StatementCase) String() string {
switch n {
case StatementLabeled:
return "StatementLabeled"
case StatementCompound:
return "StatementCompound"
case StatementExpr:
return "StatementExpr"
case StatementSelection:
return "StatementSelection"
case StatementIteration:
return "StatementIteration"
case StatementJump:
return "StatementJump"
case StatementAsm:
return "StatementAsm"
default:
return fmt.Sprintf("StatementCase(%v)", int(n))
}
}
// Statement represents data reduced by productions:
//
// Statement:
// LabeledStatement // Case StatementLabeled
// | CompoundStatement // Case StatementCompound
// | ExpressionStatement // Case StatementExpr
// | SelectionStatement // Case StatementSelection
// | IterationStatement // Case StatementIteration
// | JumpStatement // Case StatementJump
// | AsmStatement // Case StatementAsm
type Statement struct {
Operand Operand // Case CompoundStatement, ExpressionStatement
AsmStatement *AsmStatement
Case StatementCase `PrettyPrint:"stringer,zero"`
CompoundStatement *CompoundStatement
ExpressionStatement *ExpressionStatement
IterationStatement *IterationStatement
JumpStatement *JumpStatement
LabeledStatement *LabeledStatement
SelectionStatement *SelectionStatement
}
// String implements fmt.Stringer.
func (n *Statement) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *Statement) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 6:
return n.AsmStatement.Position()
case 1:
return n.CompoundStatement.Position()
case 2:
return n.ExpressionStatement.Position()
case 4:
return n.IterationStatement.Position()
case 5:
return n.JumpStatement.Position()
case 0:
return n.LabeledStatement.Position()
case 3:
return n.SelectionStatement.Position()
default:
panic("internal error")
}
}
// StorageClassSpecifierCase represents case numbers of production StorageClassSpecifier
type StorageClassSpecifierCase int
// Values of type StorageClassSpecifierCase
const (
StorageClassSpecifierTypedef StorageClassSpecifierCase = iota
StorageClassSpecifierExtern
StorageClassSpecifierStatic
StorageClassSpecifierAuto
StorageClassSpecifierRegister
StorageClassSpecifierThreadLocal
)
// String implements fmt.Stringer
func (n StorageClassSpecifierCase) String() string {
switch n {
case StorageClassSpecifierTypedef:
return "StorageClassSpecifierTypedef"
case StorageClassSpecifierExtern:
return "StorageClassSpecifierExtern"
case StorageClassSpecifierStatic:
return "StorageClassSpecifierStatic"
case StorageClassSpecifierAuto:
return "StorageClassSpecifierAuto"
case StorageClassSpecifierRegister:
return "StorageClassSpecifierRegister"
case StorageClassSpecifierThreadLocal:
return "StorageClassSpecifierThreadLocal"
default:
return fmt.Sprintf("StorageClassSpecifierCase(%v)", int(n))
}
}
// StorageClassSpecifier represents data reduced by productions:
//
// StorageClassSpecifier:
// "typedef" // Case StorageClassSpecifierTypedef
// | "extern" // Case StorageClassSpecifierExtern
// | "static" // Case StorageClassSpecifierStatic
// | "auto" // Case StorageClassSpecifierAuto
// | "register" // Case StorageClassSpecifierRegister
// | "_Thread_local" // Case StorageClassSpecifierThreadLocal
type StorageClassSpecifier struct {
Case StorageClassSpecifierCase `PrettyPrint:"stringer,zero"`
Token Token
}
// String implements fmt.Stringer.
func (n *StorageClassSpecifier) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *StorageClassSpecifier) Position() (r token.Position) {
if n == nil {
return r
}
return n.Token.Position()
}
// StructDeclaration represents data reduced by production:
//
// StructDeclaration:
// SpecifierQualifierList StructDeclaratorList ';'
type StructDeclaration struct {
Empty bool // TCC extension
SpecifierQualifierList *SpecifierQualifierList
StructDeclaratorList *StructDeclaratorList
Token Token
}
// String implements fmt.Stringer.
func (n *StructDeclaration) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *StructDeclaration) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.SpecifierQualifierList.Position(); p.IsValid() {
return p
}
if p := n.StructDeclaratorList.Position(); p.IsValid() {
return p
}
return n.Token.Position()
}
// StructDeclarationList represents data reduced by productions:
//
// StructDeclarationList:
// StructDeclaration
// | StructDeclarationList StructDeclaration
type StructDeclarationList struct {
StructDeclaration *StructDeclaration
StructDeclarationList *StructDeclarationList
}
// String implements fmt.Stringer.
func (n *StructDeclarationList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *StructDeclarationList) Position() (r token.Position) {
if n == nil {
return r
}
return n.StructDeclaration.Position()
}
// StructDeclaratorCase represents case numbers of production StructDeclarator
type StructDeclaratorCase int
// Values of type StructDeclaratorCase
const (
StructDeclaratorDecl StructDeclaratorCase = iota
StructDeclaratorBitField
)
// String implements fmt.Stringer
func (n StructDeclaratorCase) String() string {
switch n {
case StructDeclaratorDecl:
return "StructDeclaratorDecl"
case StructDeclaratorBitField:
return "StructDeclaratorBitField"
default:
return fmt.Sprintf("StructDeclaratorCase(%v)", int(n))
}
}
// StructDeclarator represents data reduced by productions:
//
// StructDeclarator:
// Declarator // Case StructDeclaratorDecl
// | Declarator ':' ConstantExpression AttributeSpecifierList // Case StructDeclaratorBitField
type StructDeclarator struct {
decl *StructDeclaration
AttributeSpecifierList *AttributeSpecifierList
Case StructDeclaratorCase `PrettyPrint:"stringer,zero"`
ConstantExpression *ConstantExpression
Declarator *Declarator
Token Token
}
// String implements fmt.Stringer.
func (n *StructDeclarator) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *StructDeclarator) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.Declarator.Position()
case 1:
if p := n.Declarator.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.ConstantExpression.Position(); p.IsValid() {
return p
}
return n.AttributeSpecifierList.Position()
default:
panic("internal error")
}
}
// StructDeclaratorList represents data reduced by productions:
//
// StructDeclaratorList:
// StructDeclarator
// | StructDeclaratorList ',' StructDeclarator
type StructDeclaratorList struct {
StructDeclarator *StructDeclarator
StructDeclaratorList *StructDeclaratorList
Token Token
}
// String implements fmt.Stringer.
func (n *StructDeclaratorList) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *StructDeclaratorList) Position() (r token.Position) {
if n == nil {
return r
}
return n.StructDeclarator.Position()
}
// StructOrUnionCase represents case numbers of production StructOrUnion
type StructOrUnionCase int
// Values of type StructOrUnionCase
const (
StructOrUnionStruct StructOrUnionCase = iota
StructOrUnionUnion
)
// String implements fmt.Stringer
func (n StructOrUnionCase) String() string {
switch n {
case StructOrUnionStruct:
return "StructOrUnionStruct"
case StructOrUnionUnion:
return "StructOrUnionUnion"
default:
return fmt.Sprintf("StructOrUnionCase(%v)", int(n))
}
}
// StructOrUnion represents data reduced by productions:
//
// StructOrUnion:
// "struct" // Case StructOrUnionStruct
// | "union" // Case StructOrUnionUnion
type StructOrUnion struct {
Case StructOrUnionCase `PrettyPrint:"stringer,zero"`
Token Token
}
// String implements fmt.Stringer.
func (n *StructOrUnion) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *StructOrUnion) Position() (r token.Position) {
if n == nil {
return r
}
return n.Token.Position()
}
// StructOrUnionSpecifierCase represents case numbers of production StructOrUnionSpecifier
type StructOrUnionSpecifierCase int
// Values of type StructOrUnionSpecifierCase
const (
StructOrUnionSpecifierDef StructOrUnionSpecifierCase = iota
StructOrUnionSpecifierTag
)
// String implements fmt.Stringer
func (n StructOrUnionSpecifierCase) String() string {
switch n {
case StructOrUnionSpecifierDef:
return "StructOrUnionSpecifierDef"
case StructOrUnionSpecifierTag:
return "StructOrUnionSpecifierTag"
default:
return fmt.Sprintf("StructOrUnionSpecifierCase(%v)", int(n))
}
}
// StructOrUnionSpecifier represents data reduced by productions:
//
// StructOrUnionSpecifier:
// StructOrUnion AttributeSpecifierList IDENTIFIER '{' StructDeclarationList '}' // Case StructOrUnionSpecifierDef
// | StructOrUnion AttributeSpecifierList IDENTIFIER // Case StructOrUnionSpecifierTag
type StructOrUnionSpecifier struct {
lexicalScope Scope
maxAlign int
typ Type
AttributeSpecifierList *AttributeSpecifierList
Case StructOrUnionSpecifierCase `PrettyPrint:"stringer,zero"`
StructDeclarationList *StructDeclarationList
StructOrUnion *StructOrUnion
Token Token
Token2 Token
Token3 Token
}
// String implements fmt.Stringer.
func (n *StructOrUnionSpecifier) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *StructOrUnionSpecifier) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 1:
if p := n.StructOrUnion.Position(); p.IsValid() {
return p
}
if p := n.AttributeSpecifierList.Position(); p.IsValid() {
return p
}
return n.Token.Position()
case 0:
if p := n.StructOrUnion.Position(); p.IsValid() {
return p
}
if p := n.AttributeSpecifierList.Position(); p.IsValid() {
return p
}
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.StructDeclarationList.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
default:
panic("internal error")
}
}
// TranslationUnit represents data reduced by productions:
//
// TranslationUnit:
// ExternalDeclaration
// | TranslationUnit ExternalDeclaration
type TranslationUnit struct {
ExternalDeclaration *ExternalDeclaration
TranslationUnit *TranslationUnit
}
// String implements fmt.Stringer.
func (n *TranslationUnit) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *TranslationUnit) Position() (r token.Position) {
if n == nil {
return r
}
return n.ExternalDeclaration.Position()
}
// TypeName represents data reduced by production:
//
// TypeName:
// SpecifierQualifierList AbstractDeclarator
type TypeName struct {
typ Type
AbstractDeclarator *AbstractDeclarator
SpecifierQualifierList *SpecifierQualifierList
}
// String implements fmt.Stringer.
func (n *TypeName) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *TypeName) Position() (r token.Position) {
if n == nil {
return r
}
if p := n.SpecifierQualifierList.Position(); p.IsValid() {
return p
}
return n.AbstractDeclarator.Position()
}
// TypeQualifierCase represents case numbers of production TypeQualifier
type TypeQualifierCase int
// Values of type TypeQualifierCase
const (
TypeQualifierConst TypeQualifierCase = iota
TypeQualifierRestrict
TypeQualifierVolatile
TypeQualifierAtomic
)
// String implements fmt.Stringer
func (n TypeQualifierCase) String() string {
switch n {
case TypeQualifierConst:
return "TypeQualifierConst"
case TypeQualifierRestrict:
return "TypeQualifierRestrict"
case TypeQualifierVolatile:
return "TypeQualifierVolatile"
case TypeQualifierAtomic:
return "TypeQualifierAtomic"
default:
return fmt.Sprintf("TypeQualifierCase(%v)", int(n))
}
}
// TypeQualifier represents data reduced by productions:
//
// TypeQualifier:
// "const" // Case TypeQualifierConst
// | "restrict" // Case TypeQualifierRestrict
// | "volatile" // Case TypeQualifierVolatile
// | "_Atomic" // Case TypeQualifierAtomic
type TypeQualifier struct {
Case TypeQualifierCase `PrettyPrint:"stringer,zero"`
Token Token
}
// String implements fmt.Stringer.
func (n *TypeQualifier) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *TypeQualifier) Position() (r token.Position) {
if n == nil {
return r
}
return n.Token.Position()
}
// TypeQualifiersCase represents case numbers of production TypeQualifiers
type TypeQualifiersCase int
// Values of type TypeQualifiersCase
const (
TypeQualifiersTypeQual TypeQualifiersCase = iota
TypeQualifiersAttribute
_
_
)
// String implements fmt.Stringer
func (n TypeQualifiersCase) String() string {
switch n {
case TypeQualifiersTypeQual:
return "TypeQualifiersTypeQual"
case TypeQualifiersAttribute:
return "TypeQualifiersAttribute"
default:
return fmt.Sprintf("TypeQualifiersCase(%v)", int(n))
}
}
// TypeQualifiers represents data reduced by productions:
//
// TypeQualifiers:
// TypeQualifier // Case TypeQualifiersTypeQual
// | AttributeSpecifier // Case TypeQualifiersAttribute
// | TypeQualifiers TypeQualifier // Case 2
// | TypeQualifiers AttributeSpecifier // Case 3
type TypeQualifiers struct {
noStorageClass
AttributeSpecifier *AttributeSpecifier
Case TypeQualifiersCase `PrettyPrint:"stringer,zero"`
TypeQualifier *TypeQualifier
TypeQualifiers *TypeQualifiers
}
// String implements fmt.Stringer.
func (n *TypeQualifiers) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *TypeQualifiers) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 1:
return n.AttributeSpecifier.Position()
case 0:
return n.TypeQualifier.Position()
case 3:
if p := n.TypeQualifiers.Position(); p.IsValid() {
return p
}
return n.AttributeSpecifier.Position()
case 2:
if p := n.TypeQualifiers.Position(); p.IsValid() {
return p
}
return n.TypeQualifier.Position()
default:
panic("internal error")
}
}
// TypeSpecifierCase represents case numbers of production TypeSpecifier
type TypeSpecifierCase int
// Values of type TypeSpecifierCase
const (
TypeSpecifierVoid TypeSpecifierCase = iota
TypeSpecifierChar
TypeSpecifierShort
TypeSpecifierInt
TypeSpecifierInt8
TypeSpecifierInt16
TypeSpecifierInt32
TypeSpecifierInt64
TypeSpecifierInt128
TypeSpecifierLong
TypeSpecifierFloat
TypeSpecifierFloat16
TypeSpecifierDecimal32
TypeSpecifierDecimal64
TypeSpecifierDecimal128
TypeSpecifierFloat128
TypeSpecifierFloat80
TypeSpecifierDouble
TypeSpecifierSigned
TypeSpecifierUnsigned
TypeSpecifierBool
TypeSpecifierComplex
TypeSpecifierStructOrUnion
TypeSpecifierEnum
TypeSpecifierTypedefName
TypeSpecifierTypeofExpr
TypeSpecifierTypeofType
TypeSpecifierAtomic
TypeSpecifierFract
TypeSpecifierSat
TypeSpecifierAccum
TypeSpecifierFloat32
TypeSpecifierFloat64
TypeSpecifierFloat32x
TypeSpecifierFloat64x
)
// String implements fmt.Stringer
func (n TypeSpecifierCase) String() string {
switch n {
case TypeSpecifierVoid:
return "TypeSpecifierVoid"
case TypeSpecifierChar:
return "TypeSpecifierChar"
case TypeSpecifierShort:
return "TypeSpecifierShort"
case TypeSpecifierInt:
return "TypeSpecifierInt"
case TypeSpecifierInt8:
return "TypeSpecifierInt8"
case TypeSpecifierInt16:
return "TypeSpecifierInt16"
case TypeSpecifierInt32:
return "TypeSpecifierInt32"
case TypeSpecifierInt64:
return "TypeSpecifierInt64"
case TypeSpecifierInt128:
return "TypeSpecifierInt128"
case TypeSpecifierLong:
return "TypeSpecifierLong"
case TypeSpecifierFloat:
return "TypeSpecifierFloat"
case TypeSpecifierFloat16:
return "TypeSpecifierFloat16"
case TypeSpecifierDecimal32:
return "TypeSpecifierDecimal32"
case TypeSpecifierDecimal64:
return "TypeSpecifierDecimal64"
case TypeSpecifierDecimal128:
return "TypeSpecifierDecimal128"
case TypeSpecifierFloat128:
return "TypeSpecifierFloat128"
case TypeSpecifierFloat80:
return "TypeSpecifierFloat80"
case TypeSpecifierDouble:
return "TypeSpecifierDouble"
case TypeSpecifierSigned:
return "TypeSpecifierSigned"
case TypeSpecifierUnsigned:
return "TypeSpecifierUnsigned"
case TypeSpecifierBool:
return "TypeSpecifierBool"
case TypeSpecifierComplex:
return "TypeSpecifierComplex"
case TypeSpecifierStructOrUnion:
return "TypeSpecifierStructOrUnion"
case TypeSpecifierEnum:
return "TypeSpecifierEnum"
case TypeSpecifierTypedefName:
return "TypeSpecifierTypedefName"
case TypeSpecifierTypeofExpr:
return "TypeSpecifierTypeofExpr"
case TypeSpecifierTypeofType:
return "TypeSpecifierTypeofType"
case TypeSpecifierAtomic:
return "TypeSpecifierAtomic"
case TypeSpecifierFract:
return "TypeSpecifierFract"
case TypeSpecifierSat:
return "TypeSpecifierSat"
case TypeSpecifierAccum:
return "TypeSpecifierAccum"
case TypeSpecifierFloat32:
return "TypeSpecifierFloat32"
case TypeSpecifierFloat64:
return "TypeSpecifierFloat64"
case TypeSpecifierFloat32x:
return "TypeSpecifierFloat32x"
case TypeSpecifierFloat64x:
return "TypeSpecifierFloat64x"
default:
return fmt.Sprintf("TypeSpecifierCase(%v)", int(n))
}
}
// TypeSpecifier represents data reduced by productions:
//
// TypeSpecifier:
// "void" // Case TypeSpecifierVoid
// | "char" // Case TypeSpecifierChar
// | "short" // Case TypeSpecifierShort
// | "int" // Case TypeSpecifierInt
// | "__int8" // Case TypeSpecifierInt8
// | "__int16" // Case TypeSpecifierInt16
// | "__int32" // Case TypeSpecifierInt32
// | "__int64" // Case TypeSpecifierInt64
// | "__int128" // Case TypeSpecifierInt128
// | "long" // Case TypeSpecifierLong
// | "float" // Case TypeSpecifierFloat
// | "__fp16" // Case TypeSpecifierFloat16
// | "_Decimal32" // Case TypeSpecifierDecimal32
// | "_Decimal64" // Case TypeSpecifierDecimal64
// | "_Decimal128" // Case TypeSpecifierDecimal128
// | "_Float128" // Case TypeSpecifierFloat128
// | "__float80" // Case TypeSpecifierFloat80
// | "double" // Case TypeSpecifierDouble
// | "signed" // Case TypeSpecifierSigned
// | "unsigned" // Case TypeSpecifierUnsigned
// | "_Bool" // Case TypeSpecifierBool
// | "_Complex" // Case TypeSpecifierComplex
// | StructOrUnionSpecifier // Case TypeSpecifierStructOrUnion
// | EnumSpecifier // Case TypeSpecifierEnum
// | TYPEDEFNAME // Case TypeSpecifierTypedefName
// | "typeof" '(' Expression ')' // Case TypeSpecifierTypeofExpr
// | "typeof" '(' TypeName ')' // Case TypeSpecifierTypeofType
// | AtomicTypeSpecifier // Case TypeSpecifierAtomic
// | "_Fract" // Case TypeSpecifierFract
// | "_Sat" // Case TypeSpecifierSat
// | "_Accum" // Case TypeSpecifierAccum
// | "_Float32" // Case TypeSpecifierFloat32
// | "_Float64" // Case TypeSpecifierFloat64
// | "_Float32x" // Case TypeSpecifierFloat32x
// | "_Float64x" // Case TypeSpecifierFloat64x
type TypeSpecifier struct {
resolvedIn Scope // Case TypedefName
typ Type
AtomicTypeSpecifier *AtomicTypeSpecifier
Case TypeSpecifierCase `PrettyPrint:"stringer,zero"`
EnumSpecifier *EnumSpecifier
Expression *Expression
StructOrUnionSpecifier *StructOrUnionSpecifier
Token Token
Token2 Token
Token3 Token
TypeName *TypeName
}
// String implements fmt.Stringer.
func (n *TypeSpecifier) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *TypeSpecifier) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 27:
return n.AtomicTypeSpecifier.Position()
case 23:
return n.EnumSpecifier.Position()
case 22:
return n.StructOrUnionSpecifier.Position()
case 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 24, 28, 29, 30, 31, 32, 33, 34:
return n.Token.Position()
case 25:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.Expression.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
case 26:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.TypeName.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
default:
panic("internal error")
}
}
// UnaryExpressionCase represents case numbers of production UnaryExpression
type UnaryExpressionCase int
// Values of type UnaryExpressionCase
const (
UnaryExpressionPostfix UnaryExpressionCase = iota
UnaryExpressionInc
UnaryExpressionDec
UnaryExpressionAddrof
UnaryExpressionDeref
UnaryExpressionPlus
UnaryExpressionMinus
UnaryExpressionCpl
UnaryExpressionNot
UnaryExpressionSizeofExpr
UnaryExpressionSizeofType
UnaryExpressionLabelAddr
UnaryExpressionAlignofExpr
UnaryExpressionAlignofType
UnaryExpressionImag
UnaryExpressionReal
)
// String implements fmt.Stringer
func (n UnaryExpressionCase) String() string {
switch n {
case UnaryExpressionPostfix:
return "UnaryExpressionPostfix"
case UnaryExpressionInc:
return "UnaryExpressionInc"
case UnaryExpressionDec:
return "UnaryExpressionDec"
case UnaryExpressionAddrof:
return "UnaryExpressionAddrof"
case UnaryExpressionDeref:
return "UnaryExpressionDeref"
case UnaryExpressionPlus:
return "UnaryExpressionPlus"
case UnaryExpressionMinus:
return "UnaryExpressionMinus"
case UnaryExpressionCpl:
return "UnaryExpressionCpl"
case UnaryExpressionNot:
return "UnaryExpressionNot"
case UnaryExpressionSizeofExpr:
return "UnaryExpressionSizeofExpr"
case UnaryExpressionSizeofType:
return "UnaryExpressionSizeofType"
case UnaryExpressionLabelAddr:
return "UnaryExpressionLabelAddr"
case UnaryExpressionAlignofExpr:
return "UnaryExpressionAlignofExpr"
case UnaryExpressionAlignofType:
return "UnaryExpressionAlignofType"
case UnaryExpressionImag:
return "UnaryExpressionImag"
case UnaryExpressionReal:
return "UnaryExpressionReal"
default:
return fmt.Sprintf("UnaryExpressionCase(%v)", int(n))
}
}
// UnaryExpression represents data reduced by productions:
//
// UnaryExpression:
// PostfixExpression // Case UnaryExpressionPostfix
// | "++" UnaryExpression // Case UnaryExpressionInc
// | "--" UnaryExpression // Case UnaryExpressionDec
// | '&' CastExpression // Case UnaryExpressionAddrof
// | '*' CastExpression // Case UnaryExpressionDeref
// | '+' CastExpression // Case UnaryExpressionPlus
// | '-' CastExpression // Case UnaryExpressionMinus
// | '~' CastExpression // Case UnaryExpressionCpl
// | '!' CastExpression // Case UnaryExpressionNot
// | "sizeof" UnaryExpression // Case UnaryExpressionSizeofExpr
// | "sizeof" '(' TypeName ')' // Case UnaryExpressionSizeofType
// | "&&" IDENTIFIER // Case UnaryExpressionLabelAddr
// | "_Alignof" UnaryExpression // Case UnaryExpressionAlignofExpr
// | "_Alignof" '(' TypeName ')' // Case UnaryExpressionAlignofType
// | "__imag__" UnaryExpression // Case UnaryExpressionImag
// | "__real__" UnaryExpression // Case UnaryExpressionReal
type UnaryExpression struct {
Operand Operand
lexicalScope Scope
IsSideEffectsFree bool
Case UnaryExpressionCase `PrettyPrint:"stringer,zero"`
CastExpression *CastExpression
PostfixExpression *PostfixExpression
Token Token
Token2 Token
Token3 Token
TypeName *TypeName
UnaryExpression *UnaryExpression
}
// String implements fmt.Stringer.
func (n *UnaryExpression) String() string { return PrettyString(n) }
// Position reports the position of the first component of n, if available.
func (n *UnaryExpression) Position() (r token.Position) {
if n == nil {
return r
}
switch n.Case {
case 0:
return n.PostfixExpression.Position()
case 3, 4, 5, 6, 7, 8:
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.CastExpression.Position()
case 11:
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.Token2.Position()
case 10, 13:
if p := n.Token.Position(); p.IsValid() {
return p
}
if p := n.Token2.Position(); p.IsValid() {
return p
}
if p := n.TypeName.Position(); p.IsValid() {
return p
}
return n.Token3.Position()
case 1, 2, 9, 12, 14, 15:
if p := n.Token.Position(); p.IsValid() {
return p
}
return n.UnaryExpression.Position()
default:
panic("internal error")
}
}