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v/vlib/toml/parser/parser.v

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// Copyright (c) 2021 Lars Pontoppidan. 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 toml.ast
import toml.checker
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import toml.decoder
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import toml.util
import toml.token
import toml.scanner
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pub const (
all_formatting = [token.Kind.whitespace, .tab, .cr, .nl]
space_formatting = [token.Kind.whitespace, .tab]
keys_and_space_formatting = [token.Kind.whitespace, .tab, .minus, .bare, .quoted, .boolean,
.number, .underscore]
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)
type DottedKey = []string
pub fn (dk DottedKey) str() string {
return dk.join('.')
}
// starts_with returns true if the dotted key starts with the same key entries as `target`.
fn (dk DottedKey) starts_with(target DottedKey) bool {
if dk.len >= target.len {
for i := 0; i < target.len; i++ {
if dk[i] != target[i] {
return false
}
}
return true
}
return false
}
// has returns true if the array contains `target`.
fn (a []DottedKey) has(target DottedKey) bool {
for dk in a {
if dk == target {
return true
}
}
return false
}
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// Parser contains the necessary fields for keeping the state of the parsing process.
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pub struct Parser {
pub:
config Config
mut:
scanner &scanner.Scanner
prev_tok token.Token
tok token.Token
peek_tok token.Token
tokens []token.Token // To be able to peek more than one token ahead.
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skip_next bool
// The root map (map is called table in TOML world)
root_map map[string]ast.Value
root_map_key DottedKey
explicit_declared []DottedKey
explicit_declared_array_of_tables []DottedKey
implicit_declared []DottedKey
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// Array of Tables state
last_aot DottedKey
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last_aot_index int
// Root of the tree
ast_root &ast.Root = &ast.Root{}
}
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// Config is used to configure a Parser instance.
// `run_checks` is used to en- or disable running of the strict `checker.Checker` type checks.
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// `decode_values` is used to en- or disable decoding of values with the `decoder.Decoder`.
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pub struct Config {
pub:
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scanner &scanner.Scanner
run_checks bool = true
decode_values bool = true
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}
// new_parser returns a new, stack allocated, `Parser`.
pub fn new_parser(config Config) Parser {
return Parser{
config: config
scanner: config.scanner
}
}
// init initializes the parser.
pub fn (mut p Parser) init() ? {
p.root_map = map[string]ast.Value{}
p.tokens << p.scanner.scan() ?
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p.next() ?
}
// run_checker validates the parsed `ast.Value` nodes in the
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// the generated AST.
fn (mut p Parser) run_checker() ? {
if p.config.run_checks {
chckr := checker.Checker{
scanner: p.scanner
}
chckr.check(p.root_map) ?
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for comment in p.ast_root.comments {
chckr.check_comment(comment) ?
}
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}
}
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// run_decoder decodes values in the parsed `ast.Value` nodes in the
// the generated AST.
fn (mut p Parser) run_decoder() ? {
if p.config.decode_values {
dcoder := decoder.Decoder{
scanner: p.scanner
}
dcoder.decode(mut p.root_map) ?
}
}
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// parse starts parsing the input and returns the root
// of the generated AST.
pub fn (mut p Parser) parse() ?&ast.Root {
p.init() ?
p.root_table() ?
p.run_checker() ?
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p.run_decoder() ?
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p.ast_root.table = p.root_map
return p.ast_root
}
// next forwards the parser to the next token.
fn (mut p Parser) next() ? {
p.prev_tok = p.tok
p.tok = p.peek_tok
if p.tokens.len > 0 {
p.peek_tok = p.tokens.first()
p.tokens.delete(0)
p.peek(1) ?
} else {
p.peek(1) ?
p.peek_tok = p.tokens.first()
p.tokens.delete(0)
}
}
// peek peeks forward `n` tokens.
// peek returns `.unknown` if it can not peek ahead long enough.
fn (mut p Parser) peek(n int) ?token.Token {
if n < 0 {
return error(@MOD + '.' + @STRUCT + '.' + @FN + ' peeking backwards is not supported.')
}
if n == 0 {
return p.peek_tok
} else {
// n >= 1
if n <= p.tokens.len {
return p.tokens[n - 1]
} else {
mut token := token.Token{}
mut count := n - p.tokens.len
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'buffering $count tokens...')
for token.kind != .eof && count != 0 {
token = p.scanner.scan() ?
p.tokens << token
count--
}
return token
}
}
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}
// check forwards the parser to the next token if the current
// token's `Kind` is equal that of `check_token`.
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fn (mut p Parser) check(check_token token.Kind) ? {
if p.tok.kind == check_token {
p.next() ?
} else {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' expected token "$check_token" but found "$p.tok.kind" in this (excerpt): "...${p.excerpt()}..."')
}
}
// peek_for_correct_line_ending_or_fail peeks past any formatting tokens
// and return an error if the next token is not one of [.cr, .nl, .hash, .eof].
fn (mut p Parser) peek_for_correct_line_ending_or_fail() ? {
// Disallow anything else than [.cr, .nl, .hash, .eof] after any space formatting.
peek_tok, _ := p.peek_over(1, parser.space_formatting) ?
if peek_tok.kind !in [.cr, .nl, .hash, .eof] {
p.next() ? // Forward to the peek_tok
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' unexpected EOL "$p.tok.kind" "$p.tok.lit" expected one of [.cr, .nl, .hash, .eof] at this (excerpt): "...${p.excerpt()}..."')
}
}
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// check_one_of forwards the parser to the next token if the current
// token's `Kind` can be found in `tokens`. Otherwise it returns an error.
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fn (mut p Parser) check_one_of(tokens []token.Kind) ? {
if p.tok.kind in tokens {
p.next() ?
} else {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' expected one of $tokens but found "$p.tok.kind" in this (excerpt): "...${p.excerpt()}..."')
}
}
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// ignore_while forwards the parser to the next token as long as the current
// token's `Kind` can be found in `tokens`. This is helpful for ignoring
// a stream of formatting tokens.
fn (mut p Parser) ignore_while(tokens []token.Kind) {
if p.tok.kind in tokens {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'ignoring "$p.tok.kind" ...')
p.next() or { return }
p.ignore_while(tokens)
}
}
// ignore_while_peek forwards the parser to the next token as long as `peek_tok`
// token's `Kind` can be found in `tokens`. This is helpful for ignoring
// a stream of formatting tokens.
// In contrast to `ignore_while`, `ignore_while_peek` compares on `peek_tok` this is
// sometimes necessary since not all parser calls forward using the `next()` call.
fn (mut p Parser) ignore_while_peek(tokens []token.Kind) {
for p.peek_tok.kind in tokens {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'eating "$p.tok.kind" ...')
p.next() or { return }
}
}
// peek_over peeks ahead from token starting at `i` skipping over
// any `token.Kind`s found in `tokens`. `peek_over` returns the next token *not*
// found in `tokens`.
fn (mut p Parser) peek_over(i int, tokens []token.Kind) ?(token.Token, int) {
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mut peek_tok := p.peek_tok
// Peek ahead as far as we can from token at `i` while the peeked
// token is found in `tokens`.
mut peek_i := i
for peek_tok.kind in tokens {
peek_tok = p.peek(peek_i) ?
peek_i++
}
return peek_tok, peek_i
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}
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// is_at returns true if the token kind is equal to `expected_token`.
fn (mut p Parser) is_at(expected_token token.Kind) bool {
return p.tok.kind == expected_token
}
// expect will error if the token kind is not equal to `expected_token`.
fn (mut p Parser) expect(expected_token token.Kind) ? {
if p.tok.kind == expected_token {
return
} else {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' expected token "$expected_token" but found "$p.tok.kind" in this text "...${p.excerpt()}..."')
}
}
// build_abs_dotted_key returns the absolute dotted key path.
fn (p Parser) build_abs_dotted_key(key DottedKey) DottedKey {
if p.root_map_key.len > 0 {
mut abs_dotted_key := DottedKey([]string{})
abs_dotted_key << p.root_map_key
abs_dotted_key << key
return abs_dotted_key
}
return key
}
// todo_msvc_astring2dkey worksaround a MSVC compile error.
// TODO remove.
fn todo_msvc_astring2dkey(s []string) DottedKey {
return s
}
// check_explicitly_declared returns an error if `key` has been explicitly declared.
fn (p Parser) check_explicitly_declared(key DottedKey) ? {
if p.explicit_declared.len > 0 && p.explicit_declared.has(key) {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' key `$key.str()` is already explicitly declared. Unexpected redeclaration at "$p.tok.kind" "$p.tok.lit" in this (excerpt): "...${p.excerpt()}..."')
}
}
// check_explicitly_declared_array_of_tables returns an error if `key` has been
// explicitly declared as an array of tables.
fn (p Parser) check_explicitly_declared_array_of_tables(key DottedKey) ? {
if p.explicit_declared_array_of_tables.len > 0 && p.explicit_declared_array_of_tables.has(key) {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' key `$key.str()` is already an explicitly declared array of tables. Unexpected redeclaration at "$p.tok.kind" "$p.tok.lit" in this (excerpt): "...${p.excerpt()}..."')
}
}
// check_implicitly_declared returns an error if `key` has been implicitly declared.
fn (p Parser) check_implicitly_declared(key DottedKey) ? {
if p.implicit_declared.len > 0 && p.implicit_declared.has(key) {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' key `$key.str()` is already implicitly declared. Unexpected redeclaration at "$p.tok.kind" "$p.tok.lit" in this (excerpt): "...${p.excerpt()}..."')
}
}
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// find_table returns a reference to a map if found in the *root* table given a "dotted" key (`a.b.c`).
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// If some segments of the key does not exist in the root table find_table will
// allocate a new map for each segment. This behavior is needed because you can
// reference maps by multiple keys "dotted" (separated by "." periods) in TOML documents.
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// See also `find_in_table`.
pub fn (mut p Parser) find_table() ?&map[string]ast.Value {
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util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'locating "$p.root_map_key" in map ${ptr_str(p.root_map)}')
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mut t := unsafe { &p.root_map }
if p.root_map_key.len == 0 {
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return t
}
return p.find_in_table(mut t, p.root_map_key)
}
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// allocate_table allocates all tables in "dotted" `key` (`a.b.c`) in the *root* table.
pub fn (mut p Parser) allocate_table(key DottedKey) ? {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'allocating "$key" in map ${ptr_str(p.root_map)}')
mut t := unsafe { &p.root_map }
if key.len == 0 {
return
}
p.allocate_in_table(mut t, key) ?
}
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// sub_table_key returns the logic parts of a dotted key (`a.b.c`) for
// use with the `find_sub_table` method.
pub fn (mut p Parser) sub_table_key(key DottedKey) (DottedKey, DottedKey) {
last := [key.last()]
first := key[..key.len - 1]
return first, last
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}
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// find_sub_table returns a reference to a map if found in the *root* table given a "dotted" key (`a.b.c`).
// If some segments of the key does not exist in the input map find_sub_table will
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// allocate a new map for the segment. This behavior is needed because you can
// reference maps by multiple keys "dotted" (separated by "." periods) in TOML documents.
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// See also `find_in_table`.
pub fn (mut p Parser) find_sub_table(key DottedKey) ?&map[string]ast.Value {
mut ky := DottedKey([]string{})
ky << p.root_map_key
ky << key
if p.root_map_key.len == 0 {
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ky = key
}
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'locating "$ky" in map ${ptr_str(p.root_map)}')
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mut t := unsafe { &p.root_map }
if ky.len == 0 {
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return t
}
return p.find_in_table(mut t, ky)
}
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// find_in_table returns a reference to a map if found in `table` given a "dotted" key (`a.b.c`).
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// If some segments of the key does not exist in the input map find_in_table will
// allocate a new map for the segment. This behavior is needed because you can
// reference maps by multiple keys "dotted" (separated by "." periods) in TOML documents.
pub fn (mut p Parser) find_in_table(mut table map[string]ast.Value, key DottedKey) ?&map[string]ast.Value {
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// NOTE This code is the result of much trial and error.
// I'm still not quite sure *exactly* why it works. All I can leave here is a hope
// that this kind of minefield someday will be easier in V :)
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'locating "$key" in map ${ptr_str(table)}')
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mut t := unsafe { &table }
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unsafe {
for k in key {
if val := t[k] {
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util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'found key "$k" in $t.keys()')
if val is map[string]ast.Value {
t = &(val as map[string]ast.Value)
} else {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' "$k" in "$key" is not a map but `$val.type_name()`')
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}
} else {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'no key "$k" in "$key" found, allocating new map at key "$k" in map ${ptr_str(t)}"')
t[k] = map[string]ast.Value{}
t = &(t[k] as map[string]ast.Value)
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util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'allocated new map ${ptr_str(t)}"')
}
}
}
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'returning map ${ptr_str(t)}"')
return t
}
// find_array_of_tables returns an array if found in the root table based on the parser's
// last encountered "Array Of Tables" key.
// If the state key does not exist find_array_in_table will return an error.
pub fn (mut p Parser) find_array_of_tables() ?[]ast.Value {
mut t := unsafe { &p.root_map }
mut key := p.last_aot
if key.len > 1 {
key = DottedKey([key[0]])
}
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'locating "$key" in map ${ptr_str(t)}')
unsafe {
if val := t[key.str()] {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'found key "$key" in $t.keys()')
if val is []ast.Value {
arr := (val as []ast.Value)
return arr
}
}
}
return error(@MOD + '.' + @STRUCT + '.' + @FN + 'no key `$key` found in map ${ptr_str(t)}"')
}
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// allocate_in_table allocates all tables in "dotted" `key` (`a.b.c`) in `table`.
pub fn (mut p Parser) allocate_in_table(mut table map[string]ast.Value, key DottedKey) ? {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'allocating "$key" in map ${ptr_str(table)}')
mut t := unsafe { &table }
unsafe {
for k in key {
if val := t[k] {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'found key "$k" in $t.keys()')
if val is map[string]ast.Value {
t = &(val as map[string]ast.Value)
} else {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' "$k" in "$key" is not a map ($val.type_name())')
}
} else {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'no key "$k" in "$key" found, allocating new map at key "$k" in map ${ptr_str(t)}"')
t[k] = map[string]ast.Value{}
t = &(t[k] as map[string]ast.Value)
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'allocated new map ${ptr_str(t)}"')
}
}
}
}
// dotted_key returns a string of the next tokens parsed as
// sub/nested/path keys (e.g. `a.b.c`). In TOML, this form of key is referred to as a "dotted" key.
pub fn (mut p Parser) dotted_key() ?DottedKey {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing dotted key...')
mut dotted_key := DottedKey([]string{})
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key := p.key() ?
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p.ignore_while_peek(parser.space_formatting)
dotted_key << key.str()
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for p.peek_tok.kind == .period {
p.next() ? // .
p.check(.period) ?
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p.ignore_while(parser.space_formatting)
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next_key := p.key() ?
dotted_key << next_key.text
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p.ignore_while_peek(parser.space_formatting)
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}
p.next() ?
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsed dotted key `$dotted_key` now at "$p.tok.kind" "$p.tok.lit"')
return dotted_key
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}
// root_table parses next tokens into the root map of `ast.Value`s.
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// The V `map` type is corresponding to a "table" in TOML.
pub fn (mut p Parser) root_table() ? {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing root table...')
for p.tok.kind != .eof {
if !p.skip_next {
p.next() ?
} else {
p.skip_next = false
}
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing token "$p.tok.kind" "$p.tok.lit"')
match p.tok.kind {
.hash {
c := p.comment()
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p.ast_root.comments << c
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util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'skipping comment "$c.text"')
}
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.whitespace, .tab, .nl, .cr {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'skipping formatting "$p.tok.kind" "$p.tok.lit"')
continue
}
.bare, .quoted, .number, .minus, .underscore {
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// Peek forward as far as we can skipping over space formatting tokens.
peek_tok, _ := p.peek_over(1, parser.keys_and_space_formatting) ?
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if peek_tok.kind == .period {
dotted_key, val := p.dotted_key_value() ?
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sub_table, key := p.sub_table_key(dotted_key)
// NOTE these are *relatively* costly checks. In general - and by specification,
// TOML documents are expected to be "small" so this shouldn't be a problem. Famous last words.
for explicit_key in p.explicit_declared {
// Check for key re-defining:
// https://github.com/iarna/toml-spec-tests/blob/1880b1a/errors/inline-table-imutable-1.toml
if p.build_abs_dotted_key(sub_table) == explicit_key {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' key `$sub_table` has already been explicitly declared. Unexpected redeclaration at "$p.tok.kind" "$p.tok.lit" in this (excerpt): "...${p.excerpt()}..."')
}
if explicit_key.len == 1 || explicit_key == p.root_map_key {
continue
}
// Check for "table injection":
// https://github.com/BurntSushi/toml-test/blob/576db85/tests/invalid/table/injection-1.toml
// https://github.com/BurntSushi/toml-test/blob/576db85/tests/invalid/table/injection-2.toml
if p.build_abs_dotted_key(sub_table).starts_with(explicit_key) {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' key `$dotted_key` has already been explicitly declared. Unexpected redeclaration at "$p.tok.kind" "$p.tok.lit" in this (excerpt): "...${p.excerpt()}..."')
}
}
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// Register implicit declaration
mut dotted_key_copy := dotted_key.clone()
dotted_key_copy.pop()
implicit_keys := todo_msvc_astring2dkey(dotted_key_copy)
mut abs_dotted_key := p.build_abs_dotted_key(implicit_keys)
if !p.implicit_declared.has(abs_dotted_key) {
p.implicit_declared << abs_dotted_key
}
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t := p.find_sub_table(sub_table) ?
unsafe {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'setting "$key" = $val in table ${ptr_str(t)}')
t[key.str()] = val
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}
} else {
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p.ignore_while(parser.space_formatting)
key, val := p.key_value() ?
t := p.find_table() ?
unsafe {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'setting "$key.str()" = $val in table ${ptr_str(t)}')
key_str := key.str()
if _ := t[key_str] {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' key "$key" is already initialized with a value. At "$p.tok.kind" "$p.tok.lit" in this (excerpt): "...${p.excerpt()}..."')
}
t[key_str] = val
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}
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}
p.peek_for_correct_line_ending_or_fail() ?
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}
.lsbr {
p.check(.lsbr) ? // '[' bracket
mut peek_tok := p.peek_tok
// Disallow `[ [table]]`
if p.tok.kind in parser.space_formatting {
peek_tok, _ = p.peek_over(1, parser.space_formatting) ?
if peek_tok.kind == .lsbr {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' unexpected "$p.tok.kind" "$p.tok.lit" at this (excerpt): "...${p.excerpt()}..."')
}
}
// Allow `[ d.e.f]`
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p.ignore_while(parser.space_formatting)
// Peek forward as far as we can skipping over space formatting tokens.
peek_tok, _ = p.peek_over(1, parser.keys_and_space_formatting) ?
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if p.tok.kind == .lsbr {
// Parse `[[table]]`
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p.array_of_tables(mut &p.root_map) ?
p.skip_next = true // skip calling p.next() in coming iteration
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util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'leaving double bracket at "$p.tok.kind" "$p.tok.lit". NEXT is "$p.peek_tok.kind "$p.peek_tok.lit"')
} else if peek_tok.kind == .period {
// Parse `[d.e.f]`
dotted_key := p.dotted_key() ?
// So apparently TOML is a *very* key context sensitive language...
// [[table]] <- parsed previously
// ...
// [table.key] <- parser is here
//
// `table.key` now shape shifts into being a *double array of tables* key...
// ... but with a different set of rules - making it hard to reuse the code we already have for that ...
// See `testdata/array_of_tables_edge_case_<N>_test.toml` for the type of constructs parsed.
if p.last_aot.len == 1 && dotted_key.len > 1
&& dotted_key[0] == p.last_aot.str() {
// Disallow re-declaring the key
p.check_explicitly_declared_array_of_tables(dotted_key) ?
p.check(.rsbr) ?
p.ignore_while(parser.space_formatting)
arr := p.find_array_of_tables() ?
if val := arr[p.last_aot_index] {
if val is map[string]ast.Value {
mut m := map[string]ast.Value{}
p.table_contents(mut m) ?
unsafe {
mut mut_val := &val
if dotted_key.len == 2 {
// [table.key]
mut_val[dotted_key[1].str()] = m
} else {
// [table.key.key.etc]
mut dotted_key_copy := dotted_key.clone()
dotted_key_copy.delete(0)
new_key := todo_msvc_astring2dkey(dotted_key_copy)
sub_table, key := p.sub_table_key(new_key)
t := p.find_in_table(mut mut_val, sub_table) ?
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN,
'setting "$key" = $val in table ${ptr_str(t)}')
t[new_key.last().str()] = m
}
}
} else {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' "$p.last_aot_index" in array is not a map but `${typeof(val).name}`')
}
}
continue
}
// Disallow re-declaring the key
p.check_explicitly_declared(dotted_key) ?
p.explicit_declared << dotted_key
// ... also check implicitly declared keys
p.check_implicitly_declared(dotted_key) ?
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p.ignore_while(parser.space_formatting)
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'setting root map key to `$dotted_key` at "$p.tok.kind" "$p.tok.lit"')
p.root_map_key = dotted_key
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p.allocate_table(p.root_map_key) ?
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p.expect(.rsbr) ?
p.peek_for_correct_line_ending_or_fail() ?
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} else {
// Parse `[key]`
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key := p.key() ?
dotted_key := DottedKey([key.str()])
// Disallow re-declaring the key
p.check_explicitly_declared(dotted_key) ?
p.explicit_declared << dotted_key
// Check for footgun redeclaration in this odd way:
// [[tbl]]
// [tbl]
if p.last_aot == dotted_key {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' key `$dotted_key` has already been explicitly declared. Unexpected redeclaration at "$p.tok.kind" "$p.tok.lit" in this (excerpt): "...${p.excerpt()}..."')
}
// Allow [ key ]
p.ignore_while(parser.space_formatting)
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'setting root map key to `$dotted_key` at "$p.tok.kind" "$p.tok.lit"')
p.root_map_key = dotted_key
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p.allocate_table(p.root_map_key) ?
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p.next() ?
p.expect(.rsbr) ?
p.peek_for_correct_line_ending_or_fail() ?
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}
}
.eof {
return
}
else {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' could not parse "$p.tok.kind" "$p.tok.lit" in this (excerpt): "...${p.excerpt()}..."')
}
}
}
}
// excerpt returns a string of the characters surrounding `Parser.tok.pos`
fn (p Parser) excerpt() string {
return p.scanner.excerpt(p.tok.pos, 10)
}
// table_contents parses next tokens into a map of `ast.Value`s.
// The V `map` type is corresponding to a "table" in TOML.
pub fn (mut p Parser) table_contents(mut tbl map[string]ast.Value) ? {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing table contents...')
for p.tok.kind != .eof {
if p.peek_tok.kind == .lsbr {
return
}
if !p.skip_next {
p.next() ?
} else {
p.skip_next = false
}
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing token "$p.tok.kind" "$p.tok.lit"')
match p.tok.kind {
.hash {
c := p.comment()
p.ast_root.comments << c
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'skipping comment "$c.text"')
}
.whitespace, .tab, .nl, .cr {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'skipping formatting "$p.tok.kind" "$p.tok.lit"')
continue
}
.bare, .quoted, .number, .minus, .underscore {
// Peek forward as far as we can skipping over space formatting tokens.
peek_tok, _ := p.peek_over(1, parser.keys_and_space_formatting) ?
if peek_tok.kind == .period {
dotted_key, val := p.dotted_key_value() ?
sub_table, key := p.sub_table_key(dotted_key)
t := p.find_in_table(mut tbl, sub_table) ?
unsafe {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'setting "$key" = $val in table ${ptr_str(t)}')
t[key.str()] = val
}
} else {
p.ignore_while(parser.space_formatting)
key, val := p.key_value() ?
unsafe {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'setting "$key.str()" = $val in table ${ptr_str(tbl)}')
key_str := key.str()
if _ := tbl[key_str] {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' key "$key" is already initialized with a value. At "$p.tok.kind" "$p.tok.lit" in this (excerpt): "...${p.excerpt()}..."')
}
tbl[key_str] = val
}
}
p.peek_for_correct_line_ending_or_fail() ?
}
.eof {
break
}
else {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' could not parse "$p.tok.kind" "$p.tok.lit" in this (excerpt): "...${p.excerpt()}..."')
}
}
}
}
// inline_table parses next tokens into a map of `ast.Value`s.
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// The V map type is corresponding to a "table" in TOML.
pub fn (mut p Parser) inline_table(mut tbl map[string]ast.Value) ? {
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util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing inline table into ${ptr_str(tbl)}...')
mut previous_token_was_value := false
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for p.tok.kind != .eof {
p.next() ?
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing token "$p.tok.kind"')
if previous_token_was_value {
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p.ignore_while(parser.space_formatting)
if p.tok.kind != .rcbr {
p.expect(.comma) ?
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}
previous_token_was_value = false
}
match p.tok.kind {
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.whitespace, .tab {
/*
if !p.scanner.config.tokenize_formatting {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'skipping "$p.tok.kind" "$p.tok.lit"')
continue
}*/
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'skipping formatting "$p.tok.kind" "$p.tok.lit"')
continue
}
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.comma {
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p.ignore_while_peek(parser.space_formatting)
if p.peek_tok.kind in [.comma, .rcbr] {
p.next() ? // Forward to the peek_tok
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' unexpected "$p.tok.kind" "$p.tok.lit" at this (excerpt): "...${p.excerpt()}..."')
}
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util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'skipping comma table value seperator "$p.tok.lit"')
continue
}
.rcbr {
// '}' bracket
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return
}
.bare, .quoted, .number, .minus, .underscore {
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// Peek forward as far as we can skipping over space formatting tokens.
peek_tok, _ := p.peek_over(1, parser.space_formatting) ?
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if peek_tok.kind == .period {
dotted_key, val := p.dotted_key_value() ?
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sub_table, key := p.sub_table_key(dotted_key)
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mut t := p.find_in_table(mut tbl, sub_table) ?
unsafe {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'inserting @6 "$key" = $val into ${ptr_str(t)}')
t[key.str()] = val
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}
} else {
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p.ignore_while(parser.space_formatting)
key, val := p.key_value() ?
key_str := key.str()
if _ := tbl[key_str] {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' key "$key_str" is already initialized with a value. At "$p.tok.kind" "$p.tok.lit" in this (excerpt): "...${p.excerpt()}..."')
}
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'inserting @5 "$key_str" = $val into ${ptr_str(tbl)}')
tbl[key_str] = val
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}
previous_token_was_value = true
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}
else {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' unexpected "$p.tok.kind" "$p.tok.lit" at this (excerpt): "...${p.excerpt()}..."')
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}
}
}
// Make sure the inline-table actually use the return at .rcbr match branch.
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' unexpected end of inline-table "$p.tok.kind" "$p.tok.lit" at this (excerpt): "...${p.excerpt()}..."')
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}
// array_of_tables parses next tokens into an array of `ast.Value`s.
pub fn (mut p Parser) array_of_tables(mut table map[string]ast.Value) ? {
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util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing array of tables "$p.tok.kind" "$p.tok.lit"')
// NOTE this is starting to get ugly. TOML isn't simple at this point
p.check(.lsbr) ? // '[' bracket
// Allow [[ key]]
p.ignore_while(parser.space_formatting)
peek_tok, _ := p.peek_over(1, parser.space_formatting) ?
p.ignore_while(parser.space_formatting)
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// [[key.key]] horror
if peek_tok.kind == .period {
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p.double_array_of_tables(mut table) ?
return
}
key := p.key() ?
p.next() ?
// Allow [[key ]]
p.ignore_while(parser.space_formatting)
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p.check(.rsbr) ?
p.peek_for_correct_line_ending_or_fail() ?
p.expect(.rsbr) ?
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p.ignore_while(parser.all_formatting)
dotted_key := DottedKey([key.str()])
dotted_key_str := dotted_key.str()
// Disallow re-declaring the key
p.check_explicitly_declared(dotted_key) ?
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unsafe {
if val := table[dotted_key_str] {
if val is []ast.Value {
arr := &(table[dotted_key_str] as []ast.Value)
arr << p.array_of_tables_contents() ?
table[dotted_key_str] = arr
} else {
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return error(@MOD + '.' + @STRUCT + '.' + @FN +
' table[$dotted_key_str] is not an array. (excerpt): "...${p.excerpt()}..."')
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}
} else {
table[dotted_key_str] = p.array_of_tables_contents() ?
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}
}
p.last_aot = dotted_key
unsafe {
arr := &(table[p.last_aot.str()] as []ast.Value)
p.last_aot_index = arr.len - 1
}
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}
// array_of_tables_contents parses next tokens into an array of `ast.Value`s.
pub fn (mut p Parser) array_of_tables_contents() ?[]ast.Value {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing contents from "$p.tok.kind" "$p.tok.lit"')
mut tbl := map[string]ast.Value{}
p.table_contents(mut tbl) ?
mut arr := []ast.Value{}
arr << tbl
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsed array of tables ${ast.Value(arr)}. leaving at "$p.tok.kind" "$p.tok.lit"')
return arr
}
// double_array_of_tables parses next tokens into an array of tables of arrays of `ast.Value`s...
pub fn (mut p Parser) double_array_of_tables(mut table map[string]ast.Value) ? {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing nested array of tables "$p.tok.kind" "$p.tok.lit"')
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dotted_key := p.dotted_key() ?
p.ignore_while(parser.space_formatting)
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p.check(.rsbr) ?
p.expect(.rsbr) ?
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p.ignore_while(parser.all_formatting)
if dotted_key.len != 2 {
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return error(@MOD + '.' + @STRUCT + '.' + @FN +
' nested array of tables does not support more than 2 levels. (excerpt): "...${p.excerpt()}..."')
}
p.check_explicitly_declared(dotted_key) ?
if !p.explicit_declared_array_of_tables.has(dotted_key) {
p.explicit_declared_array_of_tables << dotted_key
}
first := DottedKey([dotted_key[0]]) // The array that holds the entries
last := DottedKey([dotted_key[1]]) // The key the parsed array data should be added to
mut t_arr := &[]ast.Value(0)
mut t_map := ast.Value(ast.Null{})
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unsafe {
// NOTE this is starting to get EVEN uglier. TOML is not *at all* simple at this point...
if first != p.last_aot {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, '$first != $p.last_aot')
// Implicit allocation
if p.last_aot.len == 0 {
p.last_aot = first
mut nm := &p.root_map
if first.str() in table.keys() {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'adding to existing table entry at `$first`.')
nm = &(table[first.str()] as map[string]ast.Value)
} else {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'implicit allocation of map for `$first` in dotted key `$dotted_key`.')
nm = &map[string]ast.Value{}
// We register this implicit allocation as *explicit* to be able to catch
// special cases like:
// https://github.com/BurntSushi/toml-test/blob/576db852/tests/invalid/table/array-implicit.toml
p.explicit_declared << first
}
nm[last.str()] = []ast.Value{}
table[first.str()] = ast.Value(nm)
t_arr = &(nm[last.str()] as []ast.Value)
t_arr << p.array_of_tables_contents() ?
return
} else {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' nested array of tables key "$first" does not match "$p.last_aot". (excerpt): "...${p.excerpt()}..."')
}
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}
t_arr = &(table[p.last_aot.str()] as []ast.Value)
t_map = ast.Value(map[string]ast.Value{})
if p.last_aot_index < t_arr.len {
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t_map = t_arr[p.last_aot_index]
}
mut t := &(t_map as map[string]ast.Value)
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if val := t[last.str()] {
if val is []ast.Value {
arr := &(val as []ast.Value)
arr << p.double_array_of_tables_contents(dotted_key) ?
t[last.str()] = arr
} else {
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return error(@MOD + '.' + @STRUCT + '.' + @FN +
' t[$last.str()] is not an array. (excerpt): "...${p.excerpt()}..."')
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}
} else {
t[last.str()] = p.double_array_of_tables_contents(dotted_key) ?
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}
if t_arr.len == 0 {
t_arr << t
p.last_aot_index = t_arr.len - 1
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}
}
}
// double_array_of_tables_contents parses next tokens into an array of `ast.Value`s.
pub fn (mut p Parser) double_array_of_tables_contents(target_key DottedKey) ?[]ast.Value {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing contents from "$p.tok.kind" "$p.tok.lit"')
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mut tbl := map[string]ast.Value{}
mut implicit_allocation_key := DottedKey([]string{})
mut peeked_over := 0
mut peek_tok := p.peek_tok
for p.tok.kind != .eof {
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p.next() ?
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing token "$p.tok.kind"')
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p.ignore_while(parser.all_formatting)
// Peek forward as far as we can skipping over space formatting tokens.
peek_tok, peeked_over = p.peek_over(1, parser.space_formatting) ?
// Peek for occurrence of `[[`
if peek_tok.kind == .lsbr {
peek_tok, peeked_over = p.peek_over(peeked_over + 1, parser.space_formatting) ?
if peek_tok.kind == .lsbr {
mut arr := []ast.Value{}
arr << tbl
return arr
}
}
match p.tok.kind {
.bare, .quoted, .number, .minus, .underscore {
// Peek forward as far as we can skipping over space formatting tokens.
peek_tok, _ = p.peek_over(1, parser.space_formatting) ?
if peek_tok.kind == .period {
mut dotted_key, val := p.dotted_key_value() ?
if implicit_allocation_key.len > 0 {
dotted_key.insert(0, implicit_allocation_key)
}
sub_table, key := p.sub_table_key(dotted_key)
mut t := p.find_in_table(mut tbl, sub_table) ?
unsafe {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'inserting @6 "$key" = $val into ${ptr_str(t)}')
t[key.str()] = val
}
} else {
key, val := p.key_value() ?
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mut t := unsafe { &tbl }
if implicit_allocation_key.len > 0 {
t = p.find_in_table(mut tbl, implicit_allocation_key) ?
}
unsafe {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'inserting @7 "$key" = $val into ${ptr_str(t)}')
t[key.str()] = val
}
}
}
.lsbr {
p.check(.lsbr) ? // '[' bracket
peek_tok = p.peek_tok
// Allow `[ d.e.f]`
p.ignore_while(parser.space_formatting)
// Peek forward as far as we can skipping over space formatting tokens.
peek_tok, _ = p.peek_over(1, parser.space_formatting) ?
if peek_tok.kind == .period {
// Parse `[d.e.f]`
p.ignore_while(parser.space_formatting)
dotted_key := p.dotted_key() ?
implicit_allocation_key = dotted_key
if dotted_key.len > 2 {
implicit_allocation_key = dotted_key[2..]
}
p.ignore_while(parser.space_formatting)
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'keys are: dotted `$dotted_key`, target `$target_key`, implicit `$implicit_allocation_key` at "$p.tok.kind" "$p.tok.lit"')
p.expect(.rsbr) ?
p.peek_for_correct_line_ending_or_fail() ?
p.explicit_declared << dotted_key
continue
} else {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' could not parse "$p.tok.kind" "$p.tok.lit" in this (excerpt): "...${p.excerpt()}..."')
}
}
else {
break
}
}
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}
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mut arr := []ast.Value{}
arr << tbl
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsed array of tables ${ast.Value(arr)}. leaving at "$p.tok.kind" "$p.tok.lit"')
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return arr
}
// array parses next tokens into an array of `ast.Value`s.
pub fn (mut p Parser) array() ?[]ast.Value {
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util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing array...')
mut arr := []ast.Value{}
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p.expect(.lsbr) ? // '[' bracket
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mut previous_token_was_value := false
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for p.tok.kind != .eof {
p.next() ?
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing token "$p.tok.kind" "$p.tok.lit"')
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if previous_token_was_value {
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p.ignore_while(parser.all_formatting)
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if p.tok.kind != .rsbr && p.tok.kind != .hash {
p.expect(.comma) ?
}
previous_token_was_value = false
}
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match p.tok.kind {
.boolean {
arr << ast.Value(p.boolean() ?)
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previous_token_was_value = true
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}
.comma {
p.ignore_while_peek(parser.space_formatting)
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// Trailing commas before array close is allowed
// so we do not do `if p.peek_tok.kind == .rsbr { ... }`
// Check for known errors:
if p.peek_tok.kind in [.comma, .bare] {
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p.next() ? // Forward to the peek_tok
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' unexpected "$p.tok.kind" "$p.tok.lit" at this (excerpt): "...${p.excerpt()}..."')
}
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'skipping comma table value seperator "$p.tok.lit"')
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continue
}
.eof {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' could not parse array. Reached EOF "$p.tok.kind" "$p.tok.lit" ("$p.tok.lit") in this (excerpt): "...${p.excerpt()}..."')
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}
.hash {
c := p.comment()
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p.ast_root.comments << c
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util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'skipping comment "$c.text"')
}
.lcbr {
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p.ignore_while(parser.space_formatting)
mut t := map[string]ast.Value{}
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p.inline_table(mut t) ?
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arr << ast.Value(t)
previous_token_was_value = true
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}
.number {
val := p.number_or_date() ?
arr << val
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previous_token_was_value = true
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}
.quoted {
arr << ast.Value(p.quoted())
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previous_token_was_value = true
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}
.lsbr {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing array in array "$p.tok.kind" "$p.tok.lit"')
arr << ast.Value(p.array() ?)
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previous_token_was_value = true
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}
.rsbr {
break
}
else {
error(@MOD + '.' + @STRUCT + '.' + @FN +
' could not parse "$p.tok.kind" "$p.tok.lit" ("$p.tok.lit") in this (excerpt): "...${p.excerpt()}..."')
}
}
}
p.expect(.rsbr) ? // ']' bracket
$if debug {
flat := arr.str().replace('\n', r'\n')
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsed array: $flat . Currently @ token "$p.tok.kind"')
}
return arr
}
// comment returns an `ast.Comment` type.
pub fn (mut p Parser) comment() ast.Comment {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsed hash comment "#$p.tok.lit"')
return ast.Comment{
text: p.tok.lit
pos: p.tok.position()
}
}
// key parse and returns an `ast.Key` type.
// Keys are the token(s) appearing before an assignment operator (=).
pub fn (mut p Parser) key() ?ast.Key {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing key from "$p.tok.lit" ...')
mut key := ast.Key(ast.Null{})
if p.tok.kind == .number {
if p.peek_tok.kind == .minus {
mut lits := p.tok.lit
pos := p.tok.position()
for p.peek_tok.kind != .assign && p.peek_tok.kind != .period && p.peek_tok.kind != .rsbr {
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p.next() ?
if p.tok.kind !in parser.space_formatting {
lits += p.tok.lit
}
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}
return ast.Key(ast.Bare{
text: lits
pos: pos
})
}
key = ast.Key(p.number())
} else {
key = match p.tok.kind {
.bare, .underscore, .minus {
ast.Key(p.bare() ?)
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}
.boolean {
ast.Key(p.boolean() ?)
}
.quoted {
ast.Key(p.quoted())
}
else {
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ast.Key(ast.Null{})
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}
}
}
// NOTE kept for eased debugging
// util.printdbg(@MOD +'.' + @STRUCT + '.' + @FN, 'parsed key "$p.tok.lit"')
// panic(@MOD + '.' + @STRUCT + '.' + @FN + ' could not parse ${p.tok.kind} ("${p.tok.lit}") token \n$p.tok')
// return ast.Key(ast.Bare{})
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if key is ast.Null {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' key expected .bare, .underscore, .number, .quoted or .boolean but got "$p.tok.kind"')
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}
// A few small exceptions that can't easily be done via `checker` or `decoder` *after* the
// main table has been build since information like `is_multiline` is lost when using the key.text as a
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// V `map` key directly.
if key is ast.Quoted {
if p.config.run_checks {
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quoted := key as ast.Quoted
if quoted.is_multiline {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' multiline string as key is not allowed. (excerpt): "...${p.excerpt()}..."')
}
chckr := checker.Checker{
scanner: p.scanner
}
chckr.check_quoted(quoted) ?
}
if p.config.decode_values {
mut quoted := key as ast.Quoted
decoder.decode_quoted_escapes(mut quoted) ?
key = ast.Key(quoted)
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}
}
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return key
}
// key_value parse and returns a pair `ast.Key` and `ast.Value` type.
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// see also `key()` and `value()`
pub fn (mut p Parser) key_value() ?(ast.Key, ast.Value) {
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util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing key value pair...')
key := p.key() ?
p.next() ?
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p.ignore_while(parser.space_formatting)
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p.check(.assign) ? // Assignment operator
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p.ignore_while(parser.space_formatting)
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value := p.value() ?
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsed key value pair. `$key = $value`')
p.explicit_declared << p.build_abs_dotted_key(DottedKey([
key.str(),
]))
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return key, value
}
// dotted_key_value parse and returns a pair `DottedKey` and `ast.Value` type.
// see also `key()` and `value()`
pub fn (mut p Parser) dotted_key_value() ?(DottedKey, ast.Value) {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing dotted key value pair...')
p.ignore_while(parser.space_formatting)
dotted_key := p.dotted_key() ?
p.ignore_while(parser.space_formatting)
p.check(.assign) ?
p.ignore_while(parser.space_formatting)
value := p.value() ?
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsed dotted key value pair `$dotted_key = $value`...')
p.explicit_declared << p.build_abs_dotted_key(dotted_key)
return dotted_key, value
}
// value parse and returns an `ast.Value` type.
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// values are the token(s) appearing after an assignment operator (=).
pub fn (mut p Parser) value() ?ast.Value {
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsing value from token "$p.tok.kind" "$p.tok.lit"...')
mut value := ast.Value(ast.Null{})
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if p.tok.kind == .number {
number_or_date := p.number_or_date() ?
value = number_or_date
} else {
value = match p.tok.kind {
.quoted {
ast.Value(p.quoted())
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}
.boolean {
ast.Value(p.boolean() ?)
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}
.lsbr {
ast.Value(p.array() ?)
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}
.lcbr {
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p.ignore_while(parser.space_formatting)
mut t := map[string]ast.Value{}
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p.inline_table(mut t) ?
ast.Value(t)
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}
else {
ast.Value(ast.Null{})
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}
}
if value is ast.Null {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' value expected .boolean, .quoted, .lsbr, .lcbr or .number got "$p.tok.kind" "$p.tok.lit" in this (excerpt): "...${p.excerpt()}..."')
}
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}
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsed "$p.tok.kind" as value $value')
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return value
}
// number_or_date parse and returns an `ast.Value` type as
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// one of [`ast.Date`, `ast.Time`, `ast.DateTime`, `ast.Number`]
pub fn (mut p Parser) number_or_date() ?ast.Value {
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// Handle Date/Time
if p.peek_tok.kind == .minus || p.peek_tok.kind == .colon {
date_time_type := p.date_time() ?
match date_time_type {
ast.Date {
return ast.Value(date_time_type as ast.Date)
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}
ast.Time {
return ast.Value(date_time_type as ast.Time)
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}
ast.DateTime {
return ast.Value(date_time_type as ast.DateTime)
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}
}
}
return ast.Value(p.number())
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}
// bare parse and returns an `ast.Bare` type.
pub fn (mut p Parser) bare() ?ast.Bare {
mut lits := p.tok.lit
pos := p.tok.position()
for p.peek_tok.kind != .assign && p.peek_tok.kind != .period && p.peek_tok.kind != .rsbr
&& p.peek_tok.kind !in parser.space_formatting {
p.next() ?
if p.tok.kind == .bare || p.tok.kind == .minus || p.tok.kind == .underscore {
lits += p.tok.lit
continue
}
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' bare key expected .bare, .minus, or .underscore but got "$p.tok.kind"')
}
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return ast.Bare{
text: lits
pos: pos
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}
}
// quoted parse and returns an `ast.Quoted` type.
pub fn (mut p Parser) quoted() ast.Quoted {
// To get more info about the quote type and enable better checking,
// the scanner is returning the literal *with* single- or double-quotes.
mut quote := p.tok.lit[0]
is_multiline := p.tok.lit.len >= 6 && p.tok.lit[1] == quote && p.tok.lit[2] == quote
mut lit := p.tok.lit[1..p.tok.lit.len - 1]
if is_multiline {
lit = p.tok.lit[3..p.tok.lit.len - 3]
// From https://toml.io/en/v1.0.0#string
// "Multi-line literal strings [...] A newline immediately following the opening
// delimiter will be trimmed. All other content between the delimiters
// is interpreted as-is without modification."
if lit.len > 0 && lit[0] == `\n` {
lit = lit[1..]
}
}
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return ast.Quoted{
text: lit
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pos: p.tok.position()
quote: quote
is_multiline: is_multiline
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}
}
// boolean parse and returns an `ast.Bool` type.
pub fn (mut p Parser) boolean() ?ast.Bool {
if p.tok.lit !in ['true', 'false'] {
return error(@MOD + '.' + @STRUCT + '.' + @FN +
' expected literal to be either `true` or `false` got "$p.tok.kind"')
}
return ast.Bool{
text: p.tok.lit
pos: p.tok.position()
}
}
// number parse and returns an `ast.Number` type.
pub fn (mut p Parser) number() ast.Number {
return ast.Number{
text: p.tok.lit
pos: p.tok.position()
}
}
// date_time parses dates and time in RFC 3339 format.
// https://datatracker.ietf.org/doc/html/rfc3339
pub fn (mut p Parser) date_time() ?ast.DateTimeType {
// Date and/or Time
mut lit := ''
pos := p.tok.position()
mut date := ast.Date{}
mut time := ast.Time{}
if p.peek_tok.kind == .minus {
date = p.date() ?
lit += date.text
// Look for any THH:MM:SS or <space>HH:MM:SS
if (p.peek_tok.kind == .bare && (p.peek_tok.lit.starts_with('T')
|| p.peek_tok.lit.starts_with('t'))) || p.peek_tok.kind == .whitespace {
p.next() ? // Advance to token with Txx or whitespace special case
if p.tok.lit.starts_with('T') || p.tok.lit.starts_with('t') {
lit += p.tok.lit[0].ascii_str() //'T' or 't'
} else {
lit += p.tok.lit
p.next() ?
}
time = p.time() ?
lit += time.text
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsed date-time: "$lit"')
return ast.DateTime{
text: lit
pos: pos
date: date
time: time
}
}
} else if p.peek_tok.kind == .colon {
time = p.time() ?
return time
}
return ast.Date{
text: lit
pos: pos
}
}
// date parse and returns an `ast.Date` type.
pub fn (mut p Parser) date() ?ast.Date {
// Date
mut lit := p.tok.lit
pos := p.tok.position()
p.check(.number) ?
lit += p.tok.lit
p.check(.minus) ?
lit += p.tok.lit
p.check(.number) ?
lit += p.tok.lit
p.check(.minus) ?
lit += p.tok.lit
p.expect(.number) ?
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsed date: "$lit"')
return ast.Date{
text: lit
pos: pos
}
}
// time parse and returns an `ast.Time` type.
pub fn (mut p Parser) time() ?ast.Time {
// Time
mut lit := p.tok.lit
pos := p.tok.position()
if p.is_at(.bare) && (lit.starts_with('T') || lit.starts_with('t')) {
if p.tok.lit.starts_with('T') {
lit = lit.all_after('T')
} else if p.tok.lit.starts_with('t') {
lit = lit.all_after('t')
}
p.next() ?
} else {
p.check(.number) ?
}
lit += p.tok.lit
p.check(.colon) ?
lit += p.tok.lit
p.check(.number) ?
lit += p.tok.lit
// TODO does TOML even have optional seconds?
// if p.peek_tok.kind == .colon {
p.check(.colon) ?
lit += p.tok.lit
p.expect(.number) ?
//}
// Optional milliseconds
if p.peek_tok.kind == .period {
p.next() ?
lit += p.tok.lit // lit += '.'
p.check(.period) ?
lit += p.tok.lit
p.expect(.number) ?
}
// Parse offset
if p.peek_tok.kind == .minus || p.peek_tok.kind == .plus {
p.next() ?
lit += p.tok.lit // lit += '-'
p.check_one_of([.minus, .plus]) ?
lit += p.tok.lit
p.check(.number) ?
lit += p.tok.lit
p.check(.colon) ?
lit += p.tok.lit
p.expect(.number) ?
} else if p.peek_tok.kind == .bare && (p.peek_tok.lit == 'Z' || p.peek_tok.lit == 'z') {
p.next() ?
lit += p.tok.lit
p.expect(.bare) ?
}
util.printdbg(@MOD + '.' + @STRUCT + '.' + @FN, 'parsed time: "$lit"')
return ast.Time{
text: lit
pos: pos
}
}
// eof returns an `ast.EOF` type.
pub fn (mut p Parser) eof() ast.EOF {
return ast.EOF{
pos: p.tok.position()
}
}