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0e5ae7126f
* x/json2: fix decoder errors, refactoring * x/json2: add error-catching tests * x/json2: add missing docs * x/json2: fmt
312 lines
7.9 KiB
V
312 lines
7.9 KiB
V
// Copyright (c) 2019-2022 Alexander Medvednikov. All rights reserved.
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// Use of this source code is governed by an MIT license
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// that can be found in the LICENSE file.
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module json2
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import strconv
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struct Scanner {
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mut:
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text []byte
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pos int
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line int
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col int
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}
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enum TokenKind {
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none_
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error
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str_
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float
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int_
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null
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bool_
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eof
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comma = 44
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colon = 58
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lsbr = 91
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rsbr = 93
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lcbr = 123
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rcbr = 125
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}
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pub struct Token {
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lit []byte
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kind TokenKind
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line int
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col int
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}
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// full_col returns the full column information which includes the length
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pub fn (t Token) full_col() int {
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return t.col + t.lit.len
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}
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const (
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// list of characters commonly used in JSON.
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char_list = [`{`, `}`, `[`, `]`, `,`, `:`]
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// list of newlines to check when moving to a new position.
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newlines = [`\r`, `\n`, `\t`]
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// list of escapable that needs to be escaped inside a JSON string.
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// double quotes and forward slashes are excluded intentionally since
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// they have their own separate checks for it in order to pass the
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// JSON test suite (https://github.com/nst/JSONTestSuite/).
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important_escapable_chars = [`\b`, `\f`, `\n`, `\r`, `\t`]
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// list of valid unicode escapes aside from \u{4-hex digits}
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valid_unicode_escapes = [`b`, `f`, `n`, `r`, `t`, `\\`, `"`, `/`]
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// used for transforming escapes into valid unicode (eg. n => \n)
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unicode_transform_escapes = {
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98: `\b`
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102: `\f`
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110: `\n`
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114: `\r`
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116: `\t`
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92: `\\`
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34: `"`
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47: `/`
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}
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exp_signs = [byte(`-`), `+`]
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)
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// move_pos proceeds to the next position.
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fn (mut s Scanner) move() {
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s.move_pos(true, true)
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}
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// move_pos_with_newlines is the same as move_pos but only enables newline checking.
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fn (mut s Scanner) move_pos_with_newlines() {
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s.move_pos(false, true)
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}
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fn (mut s Scanner) move_pos(include_space bool, include_newlines bool) {
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s.pos++
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if s.pos < s.text.len {
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if include_newlines && s.text[s.pos] in json2.newlines {
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s.line++
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s.col = 0
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if s.text[s.pos] == `\r` && s.pos + 1 < s.text.len && s.text[s.pos + 1] == `\n` {
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s.pos++
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}
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for s.pos < s.text.len && s.text[s.pos] in json2.newlines {
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s.move()
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}
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} else if include_space && s.text[s.pos] == ` ` {
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s.pos++
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s.col++
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for s.pos < s.text.len && s.text[s.pos] == ` ` {
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s.move()
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}
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}
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} else {
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s.col++
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}
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}
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// error returns an error token.
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fn (s Scanner) error(description string) Token {
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return s.tokenize(description.bytes(), .error)
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}
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// tokenize returns a token based on the given lit and kind.
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fn (s Scanner) tokenize(lit []byte, kind TokenKind) Token {
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return Token{
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lit: lit
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kind: kind
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col: s.col
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line: s.line
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}
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}
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// text_scan scans and returns a string token.
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[manualfree]
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fn (mut s Scanner) text_scan() Token {
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mut has_closed := false
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mut chrs := []byte{}
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for {
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s.pos++
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s.col++
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if s.pos >= s.text.len {
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break
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}
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ch := s.text[s.pos]
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if (s.pos - 1 >= 0 && s.text[s.pos - 1] != `\\`) && ch == `"` {
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has_closed = true
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break
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} else if (s.pos - 1 >= 0 && s.text[s.pos - 1] != `\\`)
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&& ch in json2.important_escapable_chars {
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return s.error('character must be escaped with a backslash')
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} else if (s.pos == s.text.len - 1 && ch == `\\`) || ch == byte(0) {
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return s.error('invalid backslash escape')
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} else if s.pos + 1 < s.text.len && ch == `\\` {
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peek := s.text[s.pos + 1]
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if peek in json2.valid_unicode_escapes {
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chrs << json2.unicode_transform_escapes[int(peek)]
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s.pos++
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s.col++
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continue
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} else if peek == `u` {
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if s.pos + 5 < s.text.len {
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s.pos++
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s.col++
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mut codepoint := []byte{}
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codepoint_start := s.pos
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for s.pos < s.text.len && s.pos < codepoint_start + 4 {
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s.pos++
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s.col++
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if s.text[s.pos] == `"` {
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break
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} else if !s.text[s.pos].is_hex_digit() {
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x := s.text[s.pos].ascii_str()
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return s.error('`$x` is not a hex digit')
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}
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codepoint << s.text[s.pos]
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}
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if codepoint.len != 4 {
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return s.error('unicode escape must have 4 hex digits')
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}
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val := u32(strconv.parse_uint(codepoint.bytestr(), 16, 32) or { 0 })
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converted := utf32_to_str(val)
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converted_bytes := converted.bytes()
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chrs << converted_bytes
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unsafe {
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converted.free()
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converted_bytes.free()
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codepoint.free()
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}
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continue
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} else {
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return s.error('incomplete unicode escape')
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}
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} else if peek == `U` {
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return s.error('unicode endpoints must be in lowercase `u`')
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} else if peek == byte(229) {
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return s.error('unicode endpoint not allowed')
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} else {
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return s.error('invalid backslash escape')
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}
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}
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chrs << ch
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}
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tok := s.tokenize(chrs, .str_)
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s.move()
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if !has_closed {
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return s.error('missing double quotes in string closing')
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}
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return tok
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}
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// num_scan scans and returns an int/float token.
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fn (mut s Scanner) num_scan() Token {
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// analyze json number structure
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// -[digit][?[dot][digit]][?[E/e][?-/+][digit]]
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mut is_fl := false
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mut dot_index := -1
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mut digits := []byte{}
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if s.text[s.pos] == `-` {
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digits << `-`
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if !s.text[s.pos + 1].is_digit() {
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return s.invalid_token()
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}
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s.move_pos_with_newlines()
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}
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if s.text[s.pos] == `0` && (s.pos + 1 < s.text.len && s.text[s.pos + 1].is_digit()) {
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return s.error('leading zeroes in a number are not allowed')
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}
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for s.pos < s.text.len && (s.text[s.pos].is_digit() || (!is_fl && s.text[s.pos] == `.`)) {
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digits << s.text[s.pos]
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if s.text[s.pos] == `.` {
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is_fl = true
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dot_index = digits.len - 1
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}
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s.move_pos_with_newlines()
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}
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if dot_index + 1 < s.text.len && digits[dot_index + 1..].len == 0 {
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return s.error('invalid float')
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}
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if s.pos < s.text.len && (s.text[s.pos] == `e` || s.text[s.pos] == `E`) {
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digits << s.text[s.pos]
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s.move_pos_with_newlines()
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if s.pos < s.text.len && s.text[s.pos] in json2.exp_signs {
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digits << s.text[s.pos]
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s.move_pos_with_newlines()
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}
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mut exp_digits_count := 0
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for s.pos < s.text.len && s.text[s.pos].is_digit() {
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digits << s.text[s.pos]
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exp_digits_count++
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s.move_pos_with_newlines()
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}
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if exp_digits_count == 0 {
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return s.error('invalid exponent')
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}
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}
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kind := if is_fl { TokenKind.float } else { TokenKind.int_ }
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return s.tokenize(digits, kind)
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}
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// invalid_token returns an error token with the invalid token message.
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fn (s Scanner) invalid_token() Token {
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if s.text[s.pos] >= 32 && s.text[s.pos] <= 126 {
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x := s.text[s.pos].ascii_str()
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return s.error('invalid token `$x`')
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} else {
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x := s.text[s.pos].str_escaped()
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return s.error('invalid token `$x`')
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}
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}
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// scan returns a token based on the scanner's current position.
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[manualfree]
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fn (mut s Scanner) scan() Token {
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if s.pos < s.text.len && (s.text[s.pos] == ` ` || s.text[s.pos] in json2.newlines) {
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s.move()
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}
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if s.pos >= s.text.len {
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return s.tokenize([]byte{}, .eof)
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} else if s.pos + 3 < s.text.len && (s.text[s.pos] == `t` || s.text[s.pos] == `n`) {
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ident := s.text[s.pos..s.pos + 4].bytestr()
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if ident == 'true' || ident == 'null' {
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mut kind := TokenKind.null
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if ident == 'true' {
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kind = .bool_
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}
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unsafe { ident.free() }
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val := s.text[s.pos..s.pos + 4]
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tok := s.tokenize(val, kind)
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s.move() // n / t
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s.move() // u / r
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s.move() // l / u
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s.move() // l / e
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return tok
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}
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unsafe { ident.free() }
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return s.invalid_token()
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} else if s.pos + 4 < s.text.len && s.text[s.pos] == `f` {
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ident := s.text[s.pos..s.pos + 5].bytestr()
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if ident == 'false' {
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unsafe { ident.free() }
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val := s.text[s.pos..s.pos + 5]
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tok := s.tokenize(val, .bool_)
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s.move() // f
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s.move() // a
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s.move() // l
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s.move() // s
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s.move() // e
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return tok
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}
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unsafe { ident.free() }
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return s.invalid_token()
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} else if s.text[s.pos] in json2.char_list {
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chr := s.text[s.pos]
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tok := s.tokenize([]byte{}, TokenKind(int(chr)))
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s.move()
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return tok
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} else if s.text[s.pos] == `"` {
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return s.text_scan()
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} else if s.text[s.pos].is_digit() || s.text[s.pos] == `-` {
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return s.num_scan()
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} else {
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return s.invalid_token()
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}
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}
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