v/vlib/toml/decoder/decoder.v

260 lines
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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 decoder
import toml.ast
import toml.ast.walker
import toml.token
import toml.scanner
import strconv
const (
// utf8_max is the largest inclusive value of the Unicodes scalar value ranges.
utf8_max = 0x10FFFF
)
// Decoder decode special sequences in a tree of TOML `ast.Value`'s.
pub struct Decoder {
scanner &scanner.Scanner
}
// decode decodes certain `ast.Value`'s and all it's children.
pub fn (d Decoder) decode(mut n ast.Value) ? {
walker.walk_and_modify(d, mut n) ?
}
fn (d Decoder) modify(mut value ast.Value) ? {
match value {
ast.Quoted {
mut v := &(value as ast.Quoted)
d.decode_quoted(mut v) ?
}
ast.Number {
mut v := &(value as ast.Number)
d.decode_number(mut v) ?
}
ast.DateTime {
mut v := &(value as ast.DateTime)
d.decode_date_time(mut v) ?
}
else {}
}
}
// excerpt returns a string of the token's surroundings
fn (d Decoder) excerpt(tp token.Pos) string {
return d.scanner.excerpt(tp.pos, 10)
}
// decode_quoted returns an error if `q` is not a valid quoted TOML string.
fn (d Decoder) decode_quoted(mut q ast.Quoted) ? {
decode_quoted_escapes(mut q) ?
}
// decode_number decodes the `n ast.Number` into valid TOML.
fn (d Decoder) decode_number(mut n ast.Number) ? {
if n.text == '-nan' || n.text == '+nan' {
n.text = 'nan'
}
}
// decode_quoted_escapes returns an error for any disallowed escape sequences.
// Delimiters in TOML has significant meaning:
// '/''' delimits *literal* strings (WYSIWYG / What-you-see-is-what-you-get)
// "/""" delimits *basic* strings
// Allowed escapes in *basic* strings are:
// \b - backspace (U+0008)
// \t - tab (U+0009)
// \n - linefeed (U+000A)
// \f - form feed (U+000C)
// \r - carriage return (U+000D)
// \" - quote (U+0022)
// \\ - backslash (U+005C)
// \uXXXX - Unicode (U+XXXX)
// \UXXXXXXXX - Unicode (U+XXXXXXXX)
pub fn decode_quoted_escapes(mut q ast.Quoted) ? {
// Setup a scanner in stack memory for easier navigation.
mut eat_whitespace := false
// TODO use string builder
mut decoded_s := ''
// See https://toml.io/en/v1.0.0#string for more info on string types.
is_basic := q.quote == `\"`
if !is_basic {
return
}
mut s := scanner.new_simple_text(q.text) ?
q.text = q.text.replace('\\"', '"')
for {
ch := s.next()
if ch == scanner.end_of_text {
break
}
ch_byte := u8(ch)
if eat_whitespace && ch_byte.is_space() {
continue
}
eat_whitespace = false
if ch == `\\` {
ch_next := s.at()
ch_next_byte := u8(ch_next)
if ch_next == `\\` {
decoded_s += ch_next_byte.ascii_str()
s.next()
continue
}
if q.is_multiline {
if ch_next_byte.is_space() {
eat_whitespace = true
continue
}
}
if ch_next == `"` {
decoded_s += '"'
s.next()
continue
}
if ch_next == `n` {
decoded_s += '\n'
s.next()
continue
}
if ch_next == `t` {
decoded_s += '\t'
s.next()
continue
}
if ch_next == `b` {
decoded_s += '\b'
s.next()
continue
}
if ch_next == `r` {
decoded_s += '\r'
s.next()
continue
}
if ch_next == `f` {
decoded_s += '\f'
s.next()
continue
}
escape := ch_byte.ascii_str() + ch_next_byte.ascii_str()
// Decode unicode escapes
if escape.to_lower() == '\\u' {
is_valid_short := u8(s.peek(1)).is_hex_digit() && u8(s.peek(2)).is_hex_digit()
&& u8(s.peek(3)).is_hex_digit() && u8(s.peek(4)).is_hex_digit()
if is_valid_short {
is_valid_long := u8(s.peek(5)).is_hex_digit() && u8(s.peek(6)).is_hex_digit()
&& u8(s.peek(7)).is_hex_digit() && u8(s.peek(8)).is_hex_digit()
// If it's a long type Unicode (\UXXXXXXXX) with a maximum of 10 chars: '\' + 'U' + 8 hex characters
// we pass in 10 characters from the `u`/`U` which is the longest possible sequence
// of 9 chars plus one extra.
// Else it's a short sequence (\uXXXX) with a maximum of 6 chars: '\' + 'U' + 4 hex characters.
mut decoded := ''
mut sequence_length := 0
mut unicode_val := 0
mut slen := if is_valid_long { 10 } else { 6 }
if slen <= s.remaining() {
pos := s.state().pos
sequence := s.text[pos..pos + slen + 1]
decoded, unicode_val, sequence_length = decode_unicode_escape(sequence) or {
decoded_s += escape
continue
}
if unicode_val > decoder.utf8_max || unicode_val < 0 {
decoded_s += escape
continue
}
// Check if the Unicode value is actually in the valid Unicode scalar value ranges.
if !((unicode_val >= 0x0000 && unicode_val <= 0xD7FF)
|| (unicode_val >= 0xE000 && unicode_val <= decoder.utf8_max)) {
decoded_s += escape
continue
}
decoded_s += decoded
replacement := s.text[pos..pos + sequence_length + 1]
s.skip_n(replacement.len)
continue
} else {
pos := s.state().pos
sequence := s.text[pos..]
decoded, _, _ = decode_unicode_escape(sequence) or {
decoded_s += escape
continue
}
decoded_s += decoded
s.skip_n(s.text[pos..].len)
continue
}
}
}
}
decoded_s += ch_byte.ascii_str()
}
q.text = decoded_s
}
// decode_unicode_escape decodes the Unicode escape sequence `esc_unicode`.
// The sequence is expected to be prefixed with either `u` or `U`.
// decode_unicode_escape returns the decoded rune as
// a string, it's integer value and it's length.
fn decode_unicode_escape(esc_unicode string) ?(string, int, int) {
is_long_esc_type := esc_unicode.starts_with('U')
mut sequence := esc_unicode[1..]
hex_digits_len := if is_long_esc_type { 8 } else { 4 }
mut sequence_len := hex_digits_len
sequence = sequence[..hex_digits_len]
mut unicode_point := sequence
if unicode_point.len < 8 {
unicode_point = '0'.repeat(8 - unicode_point.len) + unicode_point
}
i64_val := strconv.parse_int(unicode_point, 16, 0) ?
rn := rune(i64_val)
return '$rn', int(i64_val), sequence_len
}
// decode_date_time decodes the `dt ast.DateTime`.
fn (d Decoder) decode_date_time(mut dt ast.DateTime) ? {
// Expand milliseconds that are only 1 char
if dt.text.contains('.') {
yymmddhhmmss := dt.text.all_before('.')
rest := dt.text.all_after('.')
z := if rest.contains('Z') { 'Z' } else { '' }
mut ms := rest
mut offset := ''
if rest.contains('+') {
offset = '+' + rest.all_after('+')
ms = rest.all_before('+')
} else if rest.contains('-') {
offset = '-' + rest.all_after('-')
ms = rest.all_before('-')
}
if z != '' {
ms = ms.replace('Z', '')
}
if ms.len > 1 {
return
}
ms = ms + '0'.repeat(4 - ms.len) + z
dt.text = yymmddhhmmss + '.' + ms + offset
}
}