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// Copyright (c) 2019-2021 Alexander Medvednikov. All rights reserved.
// Use of this source code is governed by an MIT license
// that can be found in the LICENSE file.
module parser
import v.ast
fn (mut p Parser) assign_stmt() ast.Stmt {
mut defer_vars := p.defer_vars
p.defer_vars = []ast.Ident{}
exprs, comments := p.expr_list()
if !(p.inside_defer && p.tok.kind == .decl_assign) {
defer_vars << p.defer_vars
}
p.defer_vars = defer_vars
return p.partial_assign_stmt(exprs, comments)
}
fn (mut p Parser) check_undefined_variables(exprs []ast.Expr, val ast.Expr) ? {
match val {
ast.Ident {
for expr in exprs {
if expr is ast.Ident {
if expr.name == val.name && expr.kind != .blank_ident {
p.error_with_pos('undefined variable: `$val.name`', val.pos)
return error('undefined variable: `$val.name`')
}
}
}
}
ast.ArrayInit {
if val.has_cap {
p.check_undefined_variables(exprs, val.cap_expr) ?
}
if val.has_len {
p.check_undefined_variables(exprs, val.len_expr) ?
}
if val.has_default {
p.check_undefined_variables(exprs, val.default_expr) ?
}
for expr in val.exprs {
p.check_undefined_variables(exprs, expr) ?
}
}
ast.CallExpr {
p.check_undefined_variables(exprs, val.left) ?
for arg in val.args {
p.check_undefined_variables(exprs, arg.expr) ?
}
}
ast.InfixExpr {
p.check_undefined_variables(exprs, val.left) ?
p.check_undefined_variables(exprs, val.right) ?
}
ast.MapInit {
for key in val.keys {
p.check_undefined_variables(exprs, key) ?
}
for value in val.vals {
p.check_undefined_variables(exprs, value) ?
}
}
ast.ParExpr {
p.check_undefined_variables(exprs, val.expr) ?
}
ast.PostfixExpr {
p.check_undefined_variables(exprs, val.expr) ?
}
ast.PrefixExpr {
p.check_undefined_variables(exprs, val.right) ?
}
ast.StringInterLiteral {
for expr_ in val.exprs {
p.check_undefined_variables(exprs, expr_) ?
}
}
else {}
}
}
fn (mut p Parser) check_cross_variables(exprs []ast.Expr, val ast.Expr) bool {
val_str := val.str()
match val {
ast.Ident {
for expr in exprs {
if expr is ast.Ident {
if expr.name == val.name {
return true
}
}
}
}
ast.IndexExpr {
for expr in exprs {
if expr.str() == val_str {
return true
}
}
}
ast.InfixExpr {
return p.check_cross_variables(exprs, val.left)
|| p.check_cross_variables(exprs, val.right)
}
ast.PrefixExpr {
return p.check_cross_variables(exprs, val.right)
}
ast.PostfixExpr {
return p.check_cross_variables(exprs, val.expr)
}
ast.SelectorExpr {
for expr in exprs {
if expr.str() == val_str {
return true
}
}
}
else {}
}
return false
}
fn (mut p Parser) partial_assign_stmt(left []ast.Expr, left_comments []ast.Comment) ast.Stmt {
p.is_stmt_ident = false
op := p.tok.kind
mut pos := p.tok.position()
p.next()
mut comments := []ast.Comment{cap: 2 * left_comments.len + 1}
comments << left_comments
comments << p.eat_comments()
mut right_comments := []ast.Comment{}
mut right := []ast.Expr{cap: left.len}
right, right_comments = p.expr_list()
comments << right_comments
end_comments := p.eat_comments(same_line: true)
mut has_cross_var := false
if op == .decl_assign {
// a, b := a + 1, b
for r in right {
p.check_undefined_variables(left, r) or {
return p.error('check_undefined_variables failed')
}
}
} else if left.len > 1 {
// a, b = b, a
for r in right {
has_cross_var = p.check_cross_variables(left, r)
if op !in [.assign, .decl_assign] {
return p.error_with_pos('unexpected $op.str(), expecting := or = or comma',
pos)
}
if has_cross_var {
break
}
}
}
mut is_static := false
for i, lx in left {
match mut lx {
ast.Ident {
if op == .decl_assign {
if p.scope.known_var(lx.name) {
return p.error_with_pos('redefinition of `$lx.name`', lx.pos)
}
mut share := ast.ShareType(0)
if lx.info is ast.IdentVar {
iv := lx.info as ast.IdentVar
share = iv.share
if iv.is_static {
if !p.pref.translated && !p.pref.is_fmt && !p.inside_unsafe_fn {
return p.error_with_pos('static variables are supported only in -translated mode or in [unsafe] fn',
lx.pos)
}
is_static = true
}
}
r0 := right[0]
mut v := ast.Var{
name: lx.name
expr: if left.len == right.len { right[i] } else { ast.empty_expr() }
share: share
is_mut: lx.is_mut || p.inside_for
pos: lx.pos
is_stack_obj: p.inside_for
}
if p.pref.autofree {
if r0 is ast.CallExpr {
// Set correct variable position (after the or block)
// so that autofree doesn't free it in cgen before
// it's declared. (`Or` variables are declared after the or block).
if r0.or_block.pos.pos > 0 && r0.or_block.stmts.len > 0 {
v.is_or = true
// v.pos = r0.or_block.pos.
}
}
}
obj := ast.ScopeObject(v)
lx.obj = obj
p.scope.register(obj)
}
}
ast.IndexExpr {
if op == .decl_assign {
return p.error_with_pos('non-name `$lx.left[$lx.index]` on left side of `:=`',
lx.pos)
}
lx.is_setter = true
}
ast.ParExpr {}
ast.PrefixExpr {}
ast.SelectorExpr {
if op == .decl_assign {
return p.error_with_pos('struct fields can only be declared during the initialization',
lx.pos)
}
}
else {
// TODO: parexpr ( check vars)
// else { p.error_with_pos('unexpected `${typeof(lx)}`', lx.position()) }
}
}
}
pos.update_last_line(p.prev_tok.line_nr)
return ast.AssignStmt{
op: op
left: left
right: right
comments: comments
end_comments: end_comments
pos: pos
has_cross_var: has_cross_var
is_simple: p.inside_for && p.tok.kind == .lcbr
is_static: is_static
}
}
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