v/vlib/v/parser/if_match.v

461 lines
11 KiB
V

// 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
import v.token
fn (mut p Parser) if_expr(is_comptime bool) ast.IfExpr {
was_inside_if_expr := p.inside_if_expr
was_inside_ct_if_expr := p.inside_ct_if_expr
defer {
p.inside_if_expr = was_inside_if_expr
p.inside_ct_if_expr = was_inside_ct_if_expr
}
p.inside_if_expr = true
is_expr := p.prev_tok.kind == .key_return
mut pos := p.tok.position()
if is_comptime {
p.inside_ct_if_expr = true
p.next() // `$`
pos = p.prev_tok.position().extend(p.tok.position())
}
mut branches := []ast.IfBranch{}
mut has_else := false
mut comments := []ast.Comment{}
mut prev_guard := false
for p.tok.kind in [.key_if, .key_else] {
p.inside_if = true
start_pos := if is_comptime {
p.prev_tok.position().extend(p.tok.position())
} else {
p.tok.position()
}
if p.tok.kind == .key_else {
comments << p.eat_comments()
p.check(.key_else)
comments << p.eat_comments()
if p.tok.kind == .key_match {
p.error('cannot use `match` with `if` statements')
return ast.IfExpr{}
}
if p.tok.kind == .lcbr {
// else {
has_else = true
p.inside_if = false
end_pos := p.prev_tok.position()
body_pos := p.tok.position()
p.open_scope()
// only declare `err` if previous branch was an `if` guard
if prev_guard {
p.scope.register(ast.Var{
name: 'err'
typ: ast.error_type
pos: p.tok.position()
is_used: true
is_stack_obj: true
})
}
branches << ast.IfBranch{
stmts: p.parse_block_no_scope(false)
pos: start_pos.extend(end_pos)
body_pos: body_pos.extend(p.tok.position())
comments: comments
scope: p.scope
}
p.close_scope()
comments = []
break
}
if is_comptime {
p.check(.dollar)
}
}
// `if` or `else if`
p.check(.key_if)
if p.tok.kind == .key_match {
p.error('cannot use `match` with `if` statements')
return ast.IfExpr{}
}
comments << p.eat_comments()
mut cond := ast.empty_expr()
mut is_guard := false
// `if x := opt() {`
if !is_comptime && p.peek_tok.kind == .decl_assign {
p.open_scope()
is_guard = true
var_pos := p.tok.position()
var_name := p.check_name()
if p.scope.known_var(var_name) {
p.error_with_pos('redefinition of `$var_name`', var_pos)
}
comments << p.eat_comments()
p.check(.decl_assign)
comments << p.eat_comments()
expr := p.expr(0)
cond = ast.IfGuardExpr{
var_name: var_name
expr: expr
}
p.scope.register(ast.Var{
name: var_name
expr: cond
pos: var_pos
})
prev_guard = true
} else {
prev_guard = false
p.comptime_if_cond = true
cond = p.expr(0)
p.comptime_if_cond = false
}
comments << p.eat_comments()
end_pos := p.prev_tok.position()
body_pos := p.tok.position()
p.inside_if = false
p.open_scope()
stmts := p.parse_block_no_scope(false)
branches << ast.IfBranch{
cond: cond
stmts: stmts
pos: start_pos.extend(end_pos)
body_pos: body_pos.extend(p.prev_tok.position())
comments: comments
scope: p.scope
}
p.close_scope()
if is_guard {
p.close_scope()
}
comments = p.eat_comments()
if is_comptime {
if p.tok.kind == .key_else {
p.error('use `\$else` instead of `else` in compile-time `if` branches')
return ast.IfExpr{}
}
if p.tok.kind != .rcbr && p.peek_tok.kind == .key_else {
p.check(.dollar)
}
}
if p.tok.kind != .key_else {
break
}
}
pos.update_last_line(p.prev_tok.line_nr)
if comments.len > 0 {
pos.last_line = comments.last().pos.last_line
}
return ast.IfExpr{
is_comptime: is_comptime
branches: branches
post_comments: comments
pos: pos
has_else: has_else
is_expr: is_expr
}
}
fn (mut p Parser) match_expr() ast.MatchExpr {
match_first_pos := p.tok.position()
p.inside_match = true
p.check(.key_match)
mut is_sum_type := false
cond := p.expr(0)
p.inside_match = false
no_lcbr := p.tok.kind != .lcbr
if !no_lcbr {
p.check(.lcbr)
}
comments := p.eat_comments() // comments before the first branch
mut branches := []ast.MatchBranch{}
for p.tok.kind != .eof {
branch_first_pos := p.tok.position()
mut exprs := []ast.Expr{}
mut ecmnts := [][]ast.Comment{}
p.open_scope()
// final else
mut is_else := false
if p.tok.kind == .key_else {
is_else = true
p.next()
} else if (p.tok.kind == .name && !(p.tok.lit == 'C' && p.peek_tok.kind == .dot)
&& (((ast.builtin_type_names_matcher.find(p.tok.lit) > 0 || p.tok.lit[0].is_capital())
&& p.peek_tok.kind != .lpar) || (p.peek_tok.kind == .dot && p.peek_token(2).lit.len > 0
&& p.peek_token(2).lit[0].is_capital()))) || p.tok.kind == .lsbr {
mut types := []ast.Type{}
for {
// Sum type match
parsed_type := p.parse_type()
ecmnts << p.eat_comments()
types << parsed_type
exprs << ast.TypeNode{
typ: parsed_type
pos: p.prev_tok.position()
}
if p.tok.kind != .comma {
break
}
p.check(.comma)
if p.pref.is_fmt {
if p.tok.kind == .lcbr {
break
}
for p.tok.kind == .comma {
p.next()
}
}
}
is_sum_type = true
} else {
// Expression match
for {
p.inside_match_case = true
expr := p.expr(0)
ecmnts << p.eat_comments()
p.inside_match_case = false
if p.tok.kind == .dotdot {
p.error_with_pos('match only supports inclusive (`...`) ranges, not exclusive (`..`)',
p.tok.position())
return ast.MatchExpr{}
} else if p.tok.kind == .ellipsis {
p.next()
expr2 := p.expr(0)
exprs << ast.RangeExpr{
low: expr
high: expr2
has_low: true
has_high: true
pos: p.tok.position()
}
} else {
exprs << expr
}
if p.tok.kind != .comma {
break
}
p.check(.comma)
if p.pref.is_fmt {
if p.tok.kind == .lcbr {
break
}
for p.tok.kind == .comma {
p.next()
}
}
}
}
branch_last_pos := p.prev_tok.position()
// p.warn('match block')
p.inside_match_body = true
stmts := p.parse_block_no_scope(false)
branch_scope := p.scope
p.close_scope()
p.inside_match_body = false
pos := branch_first_pos.extend_with_last_line(branch_last_pos, p.prev_tok.line_nr)
branch_pos := branch_first_pos.extend_with_last_line(p.tok.position(), p.tok.line_nr)
post_comments := p.eat_comments()
branches << ast.MatchBranch{
exprs: exprs
ecmnts: ecmnts
stmts: stmts
pos: pos
branch_pos: branch_pos
is_else: is_else
post_comments: post_comments
scope: branch_scope
}
if is_else && branches.len == 1 {
p.error_with_pos('`match` must have at least one non `else` branch', pos)
}
if p.tok.kind == .rcbr || (is_else && no_lcbr) {
break
}
}
match_last_pos := p.tok.position()
mut pos := token.Position{
line_nr: match_first_pos.line_nr
pos: match_first_pos.pos
len: match_last_pos.pos - match_first_pos.pos + match_last_pos.len
col: match_first_pos.col
}
if p.tok.kind == .rcbr {
p.check(.rcbr)
}
// return ast.StructInit{}
pos.update_last_line(p.prev_tok.line_nr)
return ast.MatchExpr{
branches: branches
cond: cond
is_sum_type: is_sum_type
pos: pos
comments: comments
}
}
fn (mut p Parser) select_expr() ast.SelectExpr {
match_first_pos := p.tok.position()
p.check(.key_select)
no_lcbr := p.tok.kind != .lcbr
if !no_lcbr {
p.check(.lcbr)
}
mut branches := []ast.SelectBranch{}
mut has_else := false
mut has_timeout := false
for {
branch_first_pos := p.tok.position()
comment := p.check_comment() // comment before {}
p.open_scope()
// final else
mut is_else := false
mut is_timeout := false
mut stmt := ast.empty_stmt()
if p.tok.kind == .key_else {
if has_timeout {
p.error_with_pos('timeout `> t` and `else` are mutually exclusive `select` keys',
p.tok.position())
return ast.SelectExpr{}
}
if has_else {
p.error_with_pos('at most one `else` branch allowed in `select` block',
p.tok.position())
return ast.SelectExpr{}
}
is_else = true
has_else = true
p.next()
} else {
mut is_gt := false
if p.tok.kind == .gt {
is_gt = true
p.note_with_pos('`>` is deprecated and will soon be forbidden - just state the timeout in nanoseconds',
p.tok.position())
p.next()
}
p.inside_match = true
p.inside_select = true
exprs, comments := p.expr_list()
if exprs.len != 1 {
p.error('only one expression allowed as `select` key')
return ast.SelectExpr{}
}
if p.tok.kind in [.assign, .decl_assign] {
stmt = p.partial_assign_stmt(exprs, comments)
} else {
stmt = ast.ExprStmt{
expr: exprs[0]
pos: exprs[0].position()
comments: [comment]
is_expr: true
}
}
p.inside_match = false
p.inside_select = false
match mut stmt {
ast.ExprStmt {
mut check_timeout := false
if !stmt.is_expr {
p.error_with_pos('select: invalid expression', stmt.pos)
return ast.SelectExpr{}
} else {
match mut stmt.expr {
ast.InfixExpr {
if stmt.expr.op != .arrow {
check_timeout = true
} else if is_gt {
p.error_with_pos('send expression cannot be used as timeout',
stmt.pos)
}
}
else {
check_timeout = true
}
}
}
if check_timeout {
if has_else {
p.error_with_pos('`else` and timeout value are mutually exclusive `select` keys',
stmt.pos)
return ast.SelectExpr{}
}
if has_timeout {
p.error_with_pos('at most one timeout branch allowed in `select` block',
stmt.pos)
return ast.SelectExpr{}
}
is_timeout = true
has_timeout = true
}
}
ast.AssignStmt {
expr := stmt.right[0]
match expr {
ast.PrefixExpr {
if expr.op != .arrow {
p.error_with_pos('select key: `<-` operator expected',
expr.pos)
return ast.SelectExpr{}
}
}
else {
p.error_with_pos('select key: receive expression expected',
stmt.right[0].position())
return ast.SelectExpr{}
}
}
}
else {
p.error_with_pos('select: transmission statement, timeout (in ns) or `else` expected',
stmt.pos)
return ast.SelectExpr{}
}
}
}
branch_last_pos := p.tok.position()
p.inside_match_body = true
stmts := p.parse_block_no_scope(false)
p.close_scope()
p.inside_match_body = false
mut pos := token.Position{
line_nr: branch_first_pos.line_nr
pos: branch_first_pos.pos
len: branch_last_pos.pos - branch_first_pos.pos + branch_last_pos.len
col: branch_first_pos.col
}
post_comments := p.eat_comments()
pos.update_last_line(p.prev_tok.line_nr)
if post_comments.len > 0 {
pos.last_line = post_comments.last().pos.last_line
}
branches << ast.SelectBranch{
stmt: stmt
stmts: stmts
pos: pos
comment: comment
is_else: is_else
is_timeout: is_timeout
post_comments: post_comments
}
if p.tok.kind == .rcbr || ((is_else || is_timeout) && no_lcbr) {
break
}
}
match_last_pos := p.tok.position()
pos := token.Position{
line_nr: match_first_pos.line_nr
pos: match_first_pos.pos
len: match_last_pos.pos - match_first_pos.pos + match_last_pos.len
col: match_first_pos.col
}
if p.tok.kind == .rcbr {
p.check(.rcbr)
}
return ast.SelectExpr{
branches: branches
pos: pos.extend_with_last_line(p.prev_tok.position(), p.prev_tok.line_nr)
has_exception: has_else || has_timeout
}
}