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woodpecker/vendor/github.com/drone/envsubst/parse/parse.go

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2017-01-18 17:06:01 +02:00
package parse
import "errors"
// ErrBadSubstitution represents a substitution parsing error.
var ErrBadSubstitution = errors.New("bad substitution")
// Tree is the representation of a single parsed SQL statement.
type Tree struct {
Root Node
// Parsing only; cleared after parse.
scanner *scanner
}
// Parse parses the string and returns a Tree.
func Parse(buf string) (*Tree, error) {
t := new(Tree)
t.scanner = new(scanner)
return t.Parse(buf)
}
// Parse parses the string buffer to construct an ast
// representation for expansion.
func (t *Tree) Parse(buf string) (tree *Tree, err error) {
t.scanner.init(buf)
t.Root, err = t.parseAny()
return t, err
}
func (t *Tree) parseAny() (Node, error) {
t.scanner.accept = acceptRune
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t.scanner.mode = scanIdent | scanLbrack | scanEscape
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switch t.scanner.scan() {
case tokenIdent:
left := newTextNode(
t.scanner.string(),
)
right, err := t.parseAny()
switch {
case err != nil:
return nil, err
case right == empty:
return left, nil
}
return newListNode(left, right), nil
case tokenEOF:
return empty, nil
case tokenLbrack:
left, err := t.parseFunc()
if err != nil {
return nil, err
}
right, err := t.parseAny()
switch {
case err != nil:
return nil, err
case right == empty:
return left, nil
}
return newListNode(left, right), nil
}
return nil, ErrBadSubstitution
}
func (t *Tree) parseFunc() (Node, error) {
switch t.scanner.peek() {
case '#':
return t.parseLenFunc()
}
var name string
t.scanner.accept = acceptIdent
t.scanner.mode = scanIdent
switch t.scanner.scan() {
case tokenIdent:
name = t.scanner.string()
default:
return nil, ErrBadSubstitution
}
switch t.scanner.peek() {
case ':':
return t.parseDefaultOrSubstr(name)
case '=':
return t.parseDefaultFunc(name)
case ',', '^':
return t.parseCasingFunc(name)
case '/':
return t.parseReplaceFunc(name)
case '#':
return t.parseRemoveFunc(name, acceptHashFunc)
case '%':
return t.parseRemoveFunc(name, acceptPercentFunc)
}
t.scanner.accept = acceptIdent
t.scanner.mode = scanRbrack
switch t.scanner.scan() {
case tokenRbrack:
return newFuncNode(name), nil
default:
return nil, ErrBadSubstitution
}
}
// parse a substitution function parameter.
func (t *Tree) parseParam(accept acceptFunc, mode byte) (Node, error) {
t.scanner.accept = accept
t.scanner.mode = mode | scanLbrack
switch t.scanner.scan() {
case tokenLbrack:
return t.parseFunc()
case tokenIdent:
return newTextNode(
t.scanner.string(),
), nil
default:
return nil, ErrBadSubstitution
}
}
// parse either a default or substring substitution function.
func (t *Tree) parseDefaultOrSubstr(name string) (Node, error) {
t.scanner.read()
r := t.scanner.peek()
t.scanner.unread()
switch r {
case '=', '-', '?', '+':
return t.parseDefaultFunc(name)
default:
return t.parseSubstrFunc(name)
}
}
// parses the ${param:offset} string function
// parses the ${param:offset:length} string function
func (t *Tree) parseSubstrFunc(name string) (Node, error) {
node := new(FuncNode)
node.Param = name
t.scanner.accept = acceptOneColon
t.scanner.mode = scanIdent
switch t.scanner.scan() {
case tokenIdent:
node.Name = t.scanner.string()
default:
return nil, ErrBadSubstitution
}
// scan arg[1]
{
param, err := t.parseParam(rejectColonClose, scanIdent)
if err != nil {
return nil, err
}
// param.Value = t.scanner.string()
node.Args = append(node.Args, param)
}
// expect delimiter or close
t.scanner.accept = acceptColon
t.scanner.mode = scanIdent | scanRbrack
switch t.scanner.scan() {
case tokenRbrack:
return node, nil
case tokenIdent:
// no-op
default:
return nil, ErrBadSubstitution
}
// err := t.consumeDelimiter(acceptColon, scanIdent|scanRbrack)
// if err != nil {
// return nil, err
// }
// scan arg[2]
{
param, err := t.parseParam(acceptNotClosing, scanIdent)
if err != nil {
return nil, err
}
node.Args = append(node.Args, param)
}
return node, t.consumeRbrack()
}
// parses the ${param%word} string function
// parses the ${param%%word} string function
// parses the ${param#word} string function
// parses the ${param##word} string function
func (t *Tree) parseRemoveFunc(name string, accept acceptFunc) (Node, error) {
node := new(FuncNode)
node.Param = name
t.scanner.accept = accept
t.scanner.mode = scanIdent
switch t.scanner.scan() {
case tokenIdent:
node.Name = t.scanner.string()
default:
return nil, ErrBadSubstitution
}
// scan arg[1]
{
param, err := t.parseParam(acceptNotClosing, scanIdent)
if err != nil {
return nil, err
}
// param.Value = t.scanner.string()
node.Args = append(node.Args, param)
}
return node, t.consumeRbrack()
}
// parses the ${param/pattern/string} string function
// parses the ${param//pattern/string} string function
// parses the ${param/#pattern/string} string function
// parses the ${param/%pattern/string} string function
func (t *Tree) parseReplaceFunc(name string) (Node, error) {
node := new(FuncNode)
node.Param = name
t.scanner.accept = acceptReplaceFunc
t.scanner.mode = scanIdent
switch t.scanner.scan() {
case tokenIdent:
node.Name = t.scanner.string()
default:
return nil, ErrBadSubstitution
}
// scan arg[1]
{
param, err := t.parseParam(acceptNotSlash, scanIdent|scanEscape)
if err != nil {
return nil, err
}
node.Args = append(node.Args, param)
}
// expect delimiter
t.scanner.accept = acceptSlash
t.scanner.mode = scanIdent
switch t.scanner.scan() {
case tokenIdent:
// no-op
default:
return nil, ErrBadSubstitution
}
{
param, err := t.parseParam(acceptNotClosing, scanIdent)
if err != nil {
return nil, err
}
node.Args = append(node.Args, param)
}
return node, t.consumeRbrack()
}
// parses the ${parameter=word} string function
// parses the ${parameter:=word} string function
// parses the ${parameter:-word} string function
// parses the ${parameter:?word} string function
// parses the ${parameter:+word} string function
func (t *Tree) parseDefaultFunc(name string) (Node, error) {
node := new(FuncNode)
node.Param = name
t.scanner.accept = acceptDefaultFunc
if t.scanner.peek() == '=' {
t.scanner.accept = acceptOneEqual
}
t.scanner.mode = scanIdent
switch t.scanner.scan() {
case tokenIdent:
node.Name = t.scanner.string()
default:
return nil, ErrBadSubstitution
}
// scan arg[1]
{
param, err := t.parseParam(acceptNotClosing, scanIdent)
if err != nil {
return nil, err
}
// param.Value = t.scanner.string()
node.Args = append(node.Args, param)
}
return node, t.consumeRbrack()
}
// parses the ${param,} string function
// parses the ${param,,} string function
// parses the ${param^} string function
// parses the ${param^^} string function
func (t *Tree) parseCasingFunc(name string) (Node, error) {
node := new(FuncNode)
node.Param = name
t.scanner.accept = acceptCasingFunc
t.scanner.mode = scanIdent
switch t.scanner.scan() {
case tokenIdent:
node.Name = t.scanner.string()
default:
return nil, ErrBadSubstitution
}
return node, t.consumeRbrack()
}
// parses the ${#param} string function
func (t *Tree) parseLenFunc() (Node, error) {
node := new(FuncNode)
t.scanner.accept = acceptOneHash
t.scanner.mode = scanIdent
switch t.scanner.scan() {
case tokenIdent:
node.Name = t.scanner.string()
default:
return nil, ErrBadSubstitution
}
t.scanner.accept = acceptIdent
t.scanner.mode = scanIdent
switch t.scanner.scan() {
case tokenIdent:
node.Param = t.scanner.string()
default:
return nil, ErrBadSubstitution
}
return node, t.consumeRbrack()
}
// consumeRbrack consumes a right closing bracket. If a closing
// bracket token is not consumed an ErrBadSubstitution is returned.
func (t *Tree) consumeRbrack() error {
t.scanner.mode = scanRbrack
if t.scanner.scan() != tokenRbrack {
return ErrBadSubstitution
}
return nil
}
// consumeDelimiter consumes a function argument delimiter. If a
// delimiter is not consumed an ErrBadSubstitution is returned.
// func (t *Tree) consumeDelimiter(accept acceptFunc, mode uint) error {
// t.scanner.accept = accept
// t.scanner.mode = mode
// if t.scanner.scan() != tokenRbrack {
// return ErrBadSubstitution
// }
// return nil
// }