mirror of https://github.com/hashicorp/consul
197 lines
4.3 KiB
Plaintext
197 lines
4.3 KiB
Plaintext
// This is the yacc input for creating the parser for interpolation
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// expressions in Go. To build it, just run `go generate` on this
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// package, as the lexer has the go generate pragma within it.
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%{
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package hil
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import (
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"github.com/hashicorp/hil/ast"
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)
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%}
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%union {
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node ast.Node
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nodeList []ast.Node
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str string
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token *parserToken
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}
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%token <str> PROGRAM_BRACKET_LEFT PROGRAM_BRACKET_RIGHT
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%token <str> PROGRAM_STRING_START PROGRAM_STRING_END
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%token <str> PAREN_LEFT PAREN_RIGHT COMMA
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%token <str> SQUARE_BRACKET_LEFT SQUARE_BRACKET_RIGHT
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%token <token> ARITH_OP IDENTIFIER INTEGER FLOAT STRING
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%type <node> expr interpolation literal literalModeTop literalModeValue
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%type <nodeList> args
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%left ARITH_OP
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%%
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top:
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{
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parserResult = &ast.LiteralNode{
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Value: "",
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Typex: ast.TypeString,
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Posx: ast.Pos{Column: 1, Line: 1},
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}
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}
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| literalModeTop
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{
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parserResult = $1
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// We want to make sure that the top value is always an Output
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// so that the return value is always a string, list of map from an
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// interpolation.
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//
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// The logic for checking for a LiteralNode is a little annoying
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// because functionally the AST is the same, but we do that because
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// it makes for an easy literal check later (to check if a string
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// has any interpolations).
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if _, ok := $1.(*ast.Output); !ok {
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if n, ok := $1.(*ast.LiteralNode); !ok || n.Typex != ast.TypeString {
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parserResult = &ast.Output{
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Exprs: []ast.Node{$1},
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Posx: $1.Pos(),
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}
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}
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}
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}
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literalModeTop:
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literalModeValue
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{
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$$ = $1
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}
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| literalModeTop literalModeValue
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{
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var result []ast.Node
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if c, ok := $1.(*ast.Output); ok {
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result = append(c.Exprs, $2)
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} else {
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result = []ast.Node{$1, $2}
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}
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$$ = &ast.Output{
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Exprs: result,
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Posx: result[0].Pos(),
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}
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}
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literalModeValue:
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literal
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{
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$$ = $1
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}
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| interpolation
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{
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$$ = $1
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}
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interpolation:
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PROGRAM_BRACKET_LEFT expr PROGRAM_BRACKET_RIGHT
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{
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$$ = $2
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}
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expr:
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PAREN_LEFT expr PAREN_RIGHT
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{
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$$ = $2
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}
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| literalModeTop
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{
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$$ = $1
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}
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| INTEGER
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{
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$$ = &ast.LiteralNode{
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Value: $1.Value.(int),
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Typex: ast.TypeInt,
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Posx: $1.Pos,
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}
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}
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| FLOAT
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{
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$$ = &ast.LiteralNode{
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Value: $1.Value.(float64),
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Typex: ast.TypeFloat,
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Posx: $1.Pos,
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}
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}
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| ARITH_OP expr
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{
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// This is REALLY jank. We assume that a singular ARITH_OP
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// means 0 ARITH_OP expr, which... is weird. We don't want to
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// support *, /, etc., only -. We should fix this later with a pure
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// Go scanner/parser.
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if $1.Value.(ast.ArithmeticOp) != ast.ArithmeticOpSub {
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panic("Unary - is only allowed")
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}
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$$ = &ast.Arithmetic{
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Op: $1.Value.(ast.ArithmeticOp),
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Exprs: []ast.Node{
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&ast.LiteralNode{Value: 0, Typex: ast.TypeInt},
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$2,
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},
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Posx: $2.Pos(),
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}
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}
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| expr ARITH_OP expr
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{
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$$ = &ast.Arithmetic{
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Op: $2.Value.(ast.ArithmeticOp),
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Exprs: []ast.Node{$1, $3},
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Posx: $1.Pos(),
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}
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}
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| IDENTIFIER
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{
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$$ = &ast.VariableAccess{Name: $1.Value.(string), Posx: $1.Pos}
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}
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| IDENTIFIER PAREN_LEFT args PAREN_RIGHT
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{
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$$ = &ast.Call{Func: $1.Value.(string), Args: $3, Posx: $1.Pos}
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}
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| IDENTIFIER SQUARE_BRACKET_LEFT expr SQUARE_BRACKET_RIGHT
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{
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$$ = &ast.Index{
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Target: &ast.VariableAccess{
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Name: $1.Value.(string),
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Posx: $1.Pos,
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},
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Key: $3,
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Posx: $1.Pos,
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}
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}
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args:
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{
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$$ = nil
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}
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| args COMMA expr
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{
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$$ = append($1, $3)
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}
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| expr
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{
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$$ = append($$, $1)
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}
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literal:
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STRING
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{
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$$ = &ast.LiteralNode{
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Value: $1.Value.(string),
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Typex: ast.TypeString,
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Posx: $1.Pos,
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}
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}
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%%
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