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expr_ast.go
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expr_ast.go
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package actionlint
// ExprNode is a node of expression syntax tree. To know the syntax, see
// https://docs.github.com/en/actions/learn-github-actions/expressions
type ExprNode interface {
// Token returns the first token of the node. This method is useful to get position of this node.
Token() *Token
}
// Variable
// VariableNode is node for variable access.
type VariableNode struct {
// Name is name of the variable
Name string
tok *Token
}
// Token returns the first token of the node. This method is useful to get position of this node.
func (n *VariableNode) Token() *Token {
return n.tok
}
// Literals
// NullNode is node for null literal.
type NullNode struct {
tok *Token
}
// Token returns the first token of the node. This method is useful to get position of this node.
func (n *NullNode) Token() *Token {
return n.tok
}
// BoolNode is node for boolean literal, true or false.
type BoolNode struct {
// Value is value of the boolean literal.
Value bool
tok *Token
}
// Token returns the first token of the node. This method is useful to get position of this node.
func (n *BoolNode) Token() *Token {
return n.tok
}
// IntNode is node for integer literal.
type IntNode struct {
// Value is value of the integer literal.
Value int
tok *Token
}
// Token returns the first token of the node. This method is useful to get position of this node.
func (n *IntNode) Token() *Token {
return n.tok
}
// FloatNode is node for float literal.
type FloatNode struct {
// Value is value of the float literal.
Value float64
tok *Token
}
// Token returns the first token of the node. This method is useful to get position of this node.
func (n *FloatNode) Token() *Token {
return n.tok
}
// StringNode is node for string literal.
type StringNode struct {
// Value is value of the string literal. Escapes are resolved and quotes at both edges are
// removed.
Value string
tok *Token
}
// Token returns the first token of the node. This method is useful to get position of this node.
func (n *StringNode) Token() *Token {
return n.tok
}
// Operators
// ObjectDerefNode represents property dereference of object like 'foo.bar'.
type ObjectDerefNode struct {
// Receiver is an expression at receiver of property dereference.
Receiver ExprNode
// Property is a name of property to access.
Property string
}
// Token returns the first token of the node. This method is useful to get position of this node.
func (n ObjectDerefNode) Token() *Token {
return n.Receiver.Token()
}
// ArrayDerefNode represents elements dereference of arrays like '*' in 'foo.bar.*.piyo'.
type ArrayDerefNode struct {
// Receiver is an expression at receiver of array element dereference.
Receiver ExprNode
}
// Token returns the first token of the node. This method is useful to get position of this node.
func (n ArrayDerefNode) Token() *Token {
return n.Receiver.Token()
}
// IndexAccessNode is node for index access, which represents dynamic object property access or
// array index access.
type IndexAccessNode struct {
// Operand is an expression at operand of index access, which should be array or object.
Operand ExprNode
// Index is an expression at index, which should be integer or string.
Index ExprNode
}
// Token returns the first token of the node. This method is useful to get position of this node.
func (n *IndexAccessNode) Token() *Token {
return n.Operand.Token()
}
// Note: Currently only ! is a logical unary operator
// NotOpNode is node for unary ! operator.
type NotOpNode struct {
// Operand is an expression at operand of ! operator.
Operand ExprNode
tok *Token
}
// Token returns the first token of the node. This method is useful to get position of this node.
func (n *NotOpNode) Token() *Token {
return n.tok
}
// CompareOpNodeKind is a kind of compare operators; ==, !=, <, <=, >, >=.
type CompareOpNodeKind int
const (
// CompareOpNodeKindInvalid is invalid and initial value of CompareOpNodeKind values.
CompareOpNodeKindInvalid CompareOpNodeKind = iota
// CompareOpNodeKindLess is kind for < operator.
CompareOpNodeKindLess
// CompareOpNodeKindLessEq is kind for <= operator.
CompareOpNodeKindLessEq
// CompareOpNodeKindGreater is kind for > operator.
CompareOpNodeKindGreater
// CompareOpNodeKindGreaterEq is kind for >= operator.
CompareOpNodeKindGreaterEq
// CompareOpNodeKindEq is kind for == operator.
CompareOpNodeKindEq
// CompareOpNodeKindNotEq is kind for != operator.
CompareOpNodeKindNotEq
)
// CompareOpNode is node for binary expression to compare values; ==, !=, <, <=, > or >=.
type CompareOpNode struct {
// Kind is a kind of this expression to show which operator is used.
Kind CompareOpNodeKind
// Left is an expression for left hand side of the binary operator.
Left ExprNode
// Right is an expression for right hand side of the binary operator.
Right ExprNode
}
// Token returns the first token of the node. This method is useful to get position of this node.
func (n *CompareOpNode) Token() *Token {
return n.Left.Token()
}
// LogicalOpNodeKind is a kind of logical operators; && and ||.
type LogicalOpNodeKind int
const (
// LogicalOpNodeKindInvalid is an invalid and initial value of LogicalOpNodeKind.
LogicalOpNodeKindInvalid LogicalOpNodeKind = iota
// LogicalOpNodeKindAnd is a kind for && operator.
LogicalOpNodeKindAnd
// LogicalOpNodeKindOr is a kind for || operator.
LogicalOpNodeKindOr
)
func (k LogicalOpNodeKind) String() string {
switch k {
case LogicalOpNodeKindAnd:
return "&&"
case LogicalOpNodeKindOr:
return "||"
default:
return "INVALID LOGICAL OPERATOR"
}
}
// LogicalOpNode is node for logical binary operators; && or ||.
type LogicalOpNode struct {
// Kind is a kind to show which operator is used.
Kind LogicalOpNodeKind
// Left is an expression for left hand side of the binary operator.
Left ExprNode
// Right is an expression for right hand side of the binary operator.
Right ExprNode
}
// Token returns the first token of the node. This method is useful to get position of this node.
func (n *LogicalOpNode) Token() *Token {
return n.Left.Token()
}
// FuncCallNode represents function call in expression.
// Note that currently only calling builtin functions is supported.
type FuncCallNode struct {
// Callee is a name of called function. This is string value because currently only built-in
// functions can be called.
Callee string
// Args is arguments of the function call.
Args []ExprNode
tok *Token
}
// Token returns the first token of the node. This method is useful to get position of this node.
func (n *FuncCallNode) Token() *Token {
return n.tok
}
// VisitExprNodeFunc is a visitor function for VisitExprNode(). The entering argument is set to
// true when it is called before visiting children. It is set to false when it is called after
// visiting children. It means that this function is called twice for the same node. The parent
// argument is the parent of the node. When the node is root, its parent is nil.
type VisitExprNodeFunc func(node, parent ExprNode, entering bool)
func visitExprNode(n, p ExprNode, f VisitExprNodeFunc) {
f(n, p, true)
switch n := n.(type) {
case *ObjectDerefNode:
visitExprNode(n.Receiver, n, f)
case *ArrayDerefNode:
visitExprNode(n.Receiver, n, f)
case *IndexAccessNode:
// Index must be visited before Operand to make UntrustedInputChecker work correctly.
visitExprNode(n.Index, n, f)
visitExprNode(n.Operand, n, f)
case *NotOpNode:
visitExprNode(n.Operand, n, f)
case *CompareOpNode:
visitExprNode(n.Left, n, f)
visitExprNode(n.Right, n, f)
case *LogicalOpNode:
visitExprNode(n.Left, n, f)
visitExprNode(n.Right, n, f)
case *FuncCallNode:
for _, a := range n.Args {
visitExprNode(a, n, f)
}
}
f(n, p, false)
}
// VisitExprNode visits the given expression syntax tree with given function f.
func VisitExprNode(n ExprNode, f VisitExprNodeFunc) {
visitExprNode(n, nil, f)
}