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cursorcontext.go
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cursorcontext.go
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package main
import (
"go/ast"
"go/parser"
"unicode"
"unicode/utf8"
)
type cursor_context struct {
decl *decl
partial string
}
type bytes_iterator struct {
data []byte
cursor int
}
// return the character under the cursor
func (this *bytes_iterator) char() byte {
return this.data[this.cursor]
}
// return the rune under the cursor
func (this *bytes_iterator) rune() rune {
r, _ := utf8.DecodeRune(this.data[this.cursor:])
return r
}
// move cursor backwards to the next valid utf8 rune start, or 0
func (this *bytes_iterator) move_backwards() {
for this.cursor != 0 {
this.cursor--
if utf8.RuneStart(this.char()) {
return
}
}
}
var g_unicode_ident_set = []*unicode.RangeTable{
unicode.Letter,
unicode.Digit,
{R16: []unicode.Range16{{'_', '_', 1}}},
}
// move cursor backwards, stop at the first rune that is not from
// 'g_unicode_ident_set', or 0
func (this *bytes_iterator) skip_ident() {
for this.cursor != 0 {
r := this.rune()
// stop if 'r' is not [a-zA-Z0-9_] (unicode correct though)
if !unicode.IsOneOf(g_unicode_ident_set, r) {
return
}
this.move_backwards()
}
}
var g_bracket_pairs = map[byte]byte{
')': '(',
']': '[',
}
// when the cursor is at the ')' or ']', move the cursor to an opposite bracket
// pair, this functions takes inner bracker pairs into account
func (this *bytes_iterator) skip_to_bracket_pair() {
right := this.char()
left := g_bracket_pairs[right]
balance := 1
for balance != 0 {
this.cursor--
if this.cursor == 0 {
return
}
switch this.char() {
case right:
balance++
case left:
balance--
}
}
}
// starting from the end of the 'file', move backwards and return a slice of a
// valid Go expression
func (this *bytes_iterator) extract_go_expr() []byte {
const (
last_none = iota
last_dot
last_paren
last_ident
)
last := last_none
orig := this.cursor
this.move_backwards()
loop:
for {
if this.cursor == 0 {
return this.data[:orig]
}
r := this.rune()
switch r {
case '.':
this.move_backwards()
last = last_dot
case ')', ']':
if last == last_ident {
break loop
}
this.skip_to_bracket_pair()
this.move_backwards()
last = last_paren
default:
if unicode.IsOneOf(g_unicode_ident_set, r) {
this.skip_ident()
last = last_ident
} else {
break loop
}
}
}
return this.data[this.cursor+1 : orig]
}
// this function is called when the cursor is at the '.' and you need to get the
// declaration before that dot
func (c *auto_complete_context) deduce_cursor_decl(iter *bytes_iterator) *decl {
e := string(iter.extract_go_expr())
expr, err := parser.ParseExpr(e)
if err != nil {
return nil
}
return expr_to_decl(expr, c.current.scope)
}
// deduce cursor context, it includes the declaration under the cursor and partial identifier
// (usually a part of the name of the child declaration)
func (c *auto_complete_context) deduce_cursor_context(file []byte, cursor int) (cursor_context, bool) {
if cursor <= 0 {
return cursor_context{nil, ""}, true
}
orig := cursor
iter := bytes_iterator{file, cursor}
// figure out what is just before the cursor
iter.move_backwards()
if iter.char() == '.' {
// we're '<whatever>.'
// figure out decl, Parital is ""
decl := c.deduce_cursor_decl(&iter)
return cursor_context{decl, ""}, decl != nil
}
r := iter.rune()
if unicode.IsOneOf(g_unicode_ident_set, r) {
// we're '<whatever>.<ident>'
// parse <ident> as Partial and figure out decl
iter.skip_ident()
partial := string(iter.data[iter.cursor+1 : orig])
if iter.char() == '.' {
decl := c.deduce_cursor_decl(&iter)
return cursor_context{decl, partial}, decl != nil
} else {
return cursor_context{nil, partial}, true
}
}
return cursor_context{nil, ""}, true
}
// deduce the type of the expression under the cursor, a bit of copy & paste from the method
// above, returns true if deduction was successful (even if the result of it is nil)
func (c *auto_complete_context) deduce_cursor_type_pkg(file []byte, cursor int) (ast.Expr, string, bool) {
deduce := func(iter *bytes_iterator) (ast.Expr, string) {
e := string(iter.extract_go_expr())
expr, err := parser.ParseExpr(e)
if err != nil {
return nil, ""
}
t, scope, _ := infer_type(expr, c.current.scope, -1)
return t, lookup_pkg(get_type_path(t), scope)
}
if cursor <= 0 {
return nil, "", true
}
iter := bytes_iterator{file, cursor}
// figure out what is just before the cursor
iter.move_backwards()
if iter.char() == '.' {
// we're '<whatever>.'
// figure out decl, Parital is ""
decl, pkg := deduce(&iter)
return decl, pkg, decl != nil
}
r := iter.rune()
if unicode.IsOneOf(g_unicode_ident_set, r) {
// we're '<whatever>.<ident>'
// parse <ident> as Partial and figure out decl
iter.skip_ident()
if iter.char() == '.' {
decl, pkg := deduce(&iter)
return decl, pkg, decl != nil
} else {
return nil, "", true
}
}
return nil, "", true
}