x.json2: create custom scanner for scanning JSON (#8716)

pull/8980/head
Ned Palacios 2021-02-26 14:36:02 +08:00 committed by GitHub
parent 7bee3dc489
commit 8dff168e01
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
8 changed files with 730 additions and 372 deletions

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@ -1,16 +1,16 @@
import x.json2
const (
sample_data = {
'int': json2.Any(int(1))
'i64': json2.Any(i64(128))
'f32': json2.Any(f32(2.0))
'f64': json2.Any(f64(1.283))
sample_data = map{
'int': json2.Any(int(1))
'i64': json2.Any(i64(128))
'f32': json2.Any(f32(2.0))
'f64': json2.Any(f64(1.283))
'bool': json2.Any(false)
'str': json2.Any('test')
'str': json2.Any('test')
'null': json2.Any(json2.null)
'arr': json2.Any([json2.Any('lol')])
'obj': json2.Any({
'arr': json2.Any([json2.Any('lol')])
'obj': json2.Any(map{
'foo': json2.Any(10)
})
}
@ -126,6 +126,5 @@ fn test_str() {
assert sample_data['str'].str() == 'test'
assert sample_data['null'].str() == 'null'
assert sample_data['arr'].str() == '["lol"]'
assert sample_data.str() ==
'{"int":1,"i64":128,"f32":2.0,"f64":1.283,"bool":false,"str":"test","null":null,"arr":["lol"],"obj":{"foo":10}}'
assert sample_data.str() == '{"int":1,"i64":128,"f32":2.0,"f64":1.283,"bool":false,"str":"test","null":null,"arr":["lol"],"obj":{"foo":10}}'
}

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@ -3,42 +3,20 @@
// that can be found in the LICENSE file.
module json2
import strings
import strconv
import v.scanner
import v.token
import v.util
import v.pref
// `Any` is a sum type that lists the possible types to be decoded and used.
pub type Any = string | int | i64 | f32 | f64 | bool | Null | []Any | map[string]Any
pub type Any = Null | []Any | bool | f32 | f64 | i64 | int | map[string]Any | string
// `Null` struct is a simple representation of the `null` value in JSON.
pub struct Null {
is_null bool = true
}
enum ParseMode {
array
bool
invalid
null
number
object
string
}
const (
formfeed_err = 'formfeed not allowed.'
eof_err = 'reached eof. data not closed properly.'
)
struct Parser {
mut:
scanner &scanner.Scanner
p_tok token.Token
tok token.Token
n_tok token.Token
mode ParseMode = .invalid
scanner &Scanner
p_tok Token
tok Token
n_tok Token
n_level int
convert_type bool = true
}
@ -49,131 +27,63 @@ fn (mut p Parser) next() {
p.n_tok = p.scanner.scan()
}
fn (p Parser) emit_error(msg string) string {
source := p.scanner.text
cur := p.tok
mut pp := util.imax(0, util.imin(source.len - 1, cur.pos))
if source.len > 0 {
for pp >= 0 {
if source[pp] !in [`\r`, `\n`] {
pp--
continue
}
break
}
fn (mut p Parser) next_with_err() ? {
p.next()
if p.tok.kind == .error {
return error(p.emit_error(p.tok.lit.bytestr()))
}
column := util.imax(0, cur.pos - pp + cur.len - 1)
line := cur.line_nr
return '[json] $msg ($line:$column)'
}
fn new_parser(srce string, convert_type bool) Parser {
mut src := srce
// from v/util/util.v
if src.len >= 3 {
c_text := src.str
fn (p Parser) emit_error(msg string) string {
line := p.tok.line
column := p.tok.col + p.tok.lit.len
return '[x.json2] $msg ($line:$column)'
}
// TODO: copied from v.util to avoid the entire module and its functions
// from being imported. remove later once -skip-unused is enabled by default.
fn skip_bom(file_content string) string {
mut raw_text := file_content
// BOM check
if raw_text.len >= 3 {
unsafe {
c_text := raw_text.str
if c_text[0] == 0xEF && c_text[1] == 0xBB && c_text[2] == 0xBF {
// skip three BOM bytes
offset_from_begin := 3
src = tos(c_text[offset_from_begin], vstrlen(c_text) - offset_from_begin)
raw_text = tos(c_text[offset_from_begin], vstrlen(c_text) - offset_from_begin)
}
}
}
return raw_text
}
fn new_parser(srce string, convert_type bool) Parser {
src := skip_bom(srce)
return Parser{
scanner: scanner.new_scanner(src, .parse_comments, &pref.Preferences{output_mode: .silent})
scanner: &Scanner{
text: src.bytes()
}
convert_type: convert_type
}
}
fn check_valid_hex(str string) ? {
if str.len != 4 {
return error('hex string must be 4 characters.')
}
for l in str {
if l.is_hex_digit() {
continue
}
return error('provided string is not a hex digit.')
}
}
fn (mut p Parser) decode() ?Any {
p.detect_parse_mode()
if p.mode == .invalid {
return error(p.emit_error('invalid JSON.'))
}
fi := p.decode_value() or {
return error(p.emit_error(err))
}
p.next()
p.next_with_err() ?
fi := p.decode_value() ?
if p.tok.kind != .eof {
return error(p.emit_error('unknown token `$p.tok.kind`.'))
return error(p.emit_error('invalid token `$p.tok.kind`'))
}
return fi
}
fn (p Parser) is_formfeed() bool {
prev_tok_pos := p.p_tok.pos + p.p_tok.len - 2
if prev_tok_pos < p.scanner.text.len && p.scanner.text[prev_tok_pos] == 0x0c {
return true
}
return false
}
fn (p Parser) is_singlequote() bool {
src := p.scanner.text
prev_tok_pos := p.p_tok.pos + p.p_tok.len
return src[prev_tok_pos] == `\'`
}
fn (mut p Parser) detect_parse_mode() {
src := p.scanner.text
if src.len > 1 && src[0].is_digit() && !src[1].is_digit() {
p.mode = .invalid
return
}
p.tok = p.scanner.scan()
p.n_tok = p.scanner.scan()
if src.len == 1 && p.tok.kind == .string && p.n_tok.kind == .eof {
p.mode = .invalid
return
}
match p.tok.kind {
.lcbr {
p.mode = .object
}
.lsbr {
p.mode = .array
}
.number {
p.mode = .number
}
.key_true, .key_false {
p.mode = .bool
}
.string {
p.mode = .string
}
.name {
if p.tok.lit == 'null' {
p.mode = .null
}
}
.minus {
if p.n_tok.kind == .number {
p.mode = .number
}
}
else {}
}
}
fn (mut p Parser) decode_value() ?Any {
if p.n_level == 500 {
return error('reached maximum nesting level of 500.')
return error(p.emit_error('reached maximum nesting level of 500'))
}
if (p.tok.kind == .lsbr && p.n_tok.kind == .lcbr) ||
(p.p_tok.kind == p.tok.kind && p.tok.kind == .lsbr) {
if (p.tok.kind == .lsbr && p.n_tok.kind == .lcbr)
|| (p.p_tok.kind == p.tok.kind && p.tok.kind == .lsbr) {
p.n_level++
}
match p.tok.kind {
@ -183,235 +93,76 @@ fn (mut p Parser) decode_value() ?Any {
.lcbr {
return p.decode_object()
}
.number {
return p.decode_number()
.int_, .float {
tl := p.tok.lit.bytestr()
kind := p.tok.kind
p.next_with_err() ?
if p.convert_type {
return if kind == .float { Any(tl.f64()) } else { Any(tl.i64()) }
}
return Any(tl)
}
.key_true {
p.next()
return if p.convert_type {
Any(true)
} else {
Any('true')
}
.bool_ {
lit := p.tok.lit.bytestr()
p.next_with_err() ?
return if p.convert_type { Any(lit.bool()) } else { Any(lit) }
}
.key_false {
p.next()
return if p.convert_type {
Any(false)
} else {
Any('false')
}
.null {
p.next_with_err() ?
return if p.convert_type { Any(null) } else { Any('null') }
}
.name {
if p.tok.lit != 'null' {
return error('unknown identifier `$p.tok.lit`')
}
p.next()
return if p.convert_type {
Any(Null{})
} else {
Any('null')
}
}
.string {
if p.is_singlequote() {
return error('strings must be in double-quotes.')
}
return p.decode_string()
.str_ {
str := p.tok.lit.bytestr()
p.next_with_err() ?
return Any(str)
}
else {
if p.tok.kind == .minus && p.n_tok.kind == .number && p.n_tok.pos == p.tok.pos + 1 {
p.next()
d_num := p.decode_number() ?
return d_num
}
return error("unknown token '$p.tok.lit' when decoding value")
return error(p.emit_error('invalid token `$p.tok.kind`'))
}
}
if p.is_formfeed() {
return error(formfeed_err)
}
return Any{}
}
fn (mut p Parser) decode_string() ?Any {
mut strwr := strings.new_builder(200)
for i := 0; i < p.tok.lit.len; i++ {
if ((i - 1 >= 0 && p.tok.lit[i - 1] != `/`) || i == 0) && int(p.tok.lit[i]) in [9, 10, 0] {
return error('character must be escaped with a backslash.')
}
if i == p.tok.lit.len - 1 && p.tok.lit[i] == 92 {
return error('invalid backslash escape.')
}
if i + 1 < p.tok.lit.len && p.tok.lit[i] == 92 {
peek := p.tok.lit[i + 1]
match peek {
`b` {
i++
strwr.write_b(`\b`)
continue
}
`f` {
i++
strwr.write_b(`\f`)
continue
}
`n` {
i++
strwr.write_b(`\n`)
continue
}
`r` {
i++
strwr.write_b(`\r`)
continue
}
`t` {
i++
strwr.write_b(`\t`)
continue
}
`u` {
if i + 5 < p.tok.lit.len {
codepoint := p.tok.lit[i + 2..i + 6]
check_valid_hex(codepoint) ?
hex_val := strconv.parse_int(codepoint, 16, 0)
strwr.write_b(byte(hex_val))
i += 5
continue
} else {
return error('incomplete unicode escape.')
}
}
`\\` {
i++
strwr.write_b(`\\`)
continue
}
`"` {
i++
strwr.write_b(`\"`)
continue
}
`/` {
i++
strwr.write_b(`/`)
continue
}
else { return error('invalid backslash escape.') }
}
if int(peek) == 85 {
return error('unicode endpoints must be in lowercase `u`.')
}
if int(peek) in [9, 229] {
return error('unicode endpoint not allowed.')
}
}
strwr.write_b(p.tok.lit[i])
}
p.next()
defer {
unsafe { strwr.free() }
}
str := strwr.str()
return Any(str)
}
// now returns string instead of int or float
fn (mut p Parser) decode_number() ?Any {
src := p.scanner.text
mut tl := p.tok.lit
mut is_fl := false
sep_by_dot := tl.to_lower().split('.')
if tl.starts_with('0x') && tl.all_after('0x').len <= 2 {
return error('hex numbers should not be less than or equal to two digits.')
}
if src[p.p_tok.pos + p.p_tok.len] == `0` && src[p.p_tok.pos + p.p_tok.len + 1].is_digit() {
return error('leading zeroes in integers are not allowed.')
}
if tl.starts_with('.') {
return error('decimals must start with a digit followed by a dot.')
}
if tl.ends_with('+') || tl.ends_with('-') {
return error('exponents must have a digit before the sign.')
}
if sep_by_dot.len > 1 {
// analyze json number structure
// -[digit][dot][digit][E/e][-/+][digit]
// float number
is_fl = true
last := sep_by_dot.last()
if last.starts_with('e') {
return error('exponents must have a digit before the exponent notation.')
}
}
if p.p_tok.kind == .minus && p.tok.pos == p.p_tok.pos + 1 {
tl = '-$tl'
}
p.next()
if p.convert_type {
return if is_fl {
Any(tl.f64())
} else {
Any(tl.i64())
}
}
return Any(tl)
}
fn (mut p Parser) decode_array() ?Any {
mut items := []Any{}
p.next()
p.next_with_err() ?
for p.tok.kind != .rsbr {
if p.tok.kind == .eof {
return error(eof_err)
}
item := p.decode_value() ?
items << item
if p.tok.kind == .comma && p.n_tok.kind !in [.rsbr, .comma] {
p.next()
continue
}
if p.tok.kind == .rsbr {
if p.tok.kind == .comma {
p.next_with_err() ?
if p.tok.kind == .rsbr || p.tok.kind == .rcbr {
return error(p.emit_error('invalid token `$p.tok.lit'))
}
} else if p.tok.kind == .rsbr {
break
} else {
return error(p.emit_error("unknown token '$p.tok.lit' when decoding array."))
}
return error("unknown token '$p.tok.lit' when decoding arrays.")
}
p.next()
p.next_with_err() ?
return Any(items)
}
fn (mut p Parser) decode_object() ?Any {
mut fields := map[string]Any{}
mut cur_key := ''
p.next()
p.next_with_err() ?
for p.tok.kind != .rcbr {
is_key := p.tok.kind == .string && p.n_tok.kind == .colon
// todo
// if p.is_formfeed() {
// return error(formfeed_err)
// }
if p.tok.kind == .eof {
return error(eof_err)
}
if p.is_singlequote() {
return error('object keys must be in single quotes.')
}
is_key := p.tok.kind == .str_ && p.n_tok.kind == .colon
if !is_key {
return error("invalid token `$p.tok.lit`, expected \'string\'")
return error(p.emit_error('invalid token `$p.tok.kind`, expecting `str_`'))
}
cur_key = p.tok.lit
p.next()
p.next()
cur_key := p.tok.lit.bytestr()
p.next_with_err() ?
p.next_with_err() ?
fields[cur_key] = p.decode_value() ?
if p.tok.kind == .comma && p.n_tok.kind !in [.rcbr, .comma] {
p.next()
continue
} else if p.tok.kind == .rcbr {
break
if p.tok.kind == .comma {
p.next_with_err() ?
if p.tok.kind != .str_ {
return error(p.emit_error("unknown token '$p.tok.lit' when decoding object."))
}
}
return error("unknown token '$p.tok.lit' when decoding object.")
}
p.next()
p.next_with_err() ?
return Any(fields)
}

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@ -54,8 +54,16 @@ fn test_raw_decode_null() {
fn test_raw_decode_invalid() {
json2.raw_decode('1z') or {
assert err == '[json] invalid JSON. (0:0)'
assert err == '[x.json2] invalid token `z` (0:17)'
return
}
assert false
}
fn test_raw_decode_string_with_dollarsign() {
str := json2.raw_decode(r'"Hello $world"') or {
assert false
json2.Any{}
}
assert str.str() == r'Hello $world'
}

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@ -65,19 +65,11 @@ pub fn (f Any) str() string {
}
f32 {
str_f32 := f.str()
return if str_f32.ends_with('.') {
str_f32 + '0'
} else {
str_f32
}
return if str_f32.ends_with('.') { '${str_f32}0' } else { str_f32 }
}
f64 {
str_f64 := f.str()
return if str_f64.ends_with('.') {
str_f64 + '0'
} else {
str_f64
}
return if str_f64.ends_with('.') { '${str_f64}0' } else { str_f64 }
}
bool {
return f.str()
@ -85,14 +77,11 @@ pub fn (f Any) str() string {
map[string]Any {
return f.str()
}
[]Any {
return f.str()
}
Null {
return 'null'
}
else {
if f is []Any {
return f.str()
}
return ''
}
}
}

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@ -48,7 +48,7 @@ pub fn (f Any) as_map() map[string]Any {
}
return mp
}
return {
return map{
'0': f
}
}

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@ -48,8 +48,9 @@ fn test_simple() {
eprintln('Employee x: $s')
assert s == '{"name":"Peter","age":28,"salary":95000.5,"title":2}'
y := json2.decode<Employee>(s) or {
println(err)
assert false
Employee{}
return
}
eprintln('Employee y: $y')
assert y.name == 'Peter'
@ -69,17 +70,17 @@ fn test_fast_raw_decode() {
}
fn test_character_unescape() {
// Need to test `\r`, `\b`, `\f` ??
message := '{
"newline":"new\\nline",
"tab":"\\ttab",
"backslash": "back\\\\slash",
"quotes": "\\"quotes\\"",
"slash":"\/dev\/null"
}'
message := r'{
"newline": "new\nline",
"tab": "\ttab",
"backslash": "back\\slash",
"quotes": "\"quotes\"",
"slash":"\/dev\/null"
}'
mut obj := json2.raw_decode(message) or {
println(err)
assert false
json2.Any{}
return
}
lines := obj.as_map()
eprintln('$lines')
@ -152,7 +153,7 @@ fn (mut u User) from_json(an json2.Any) {
fn (u User) to_json() string {
// TODO: derive from field
mut mp := {
mut mp := map{
'age': json2.Any(u.age)
}
mp['nums'] = u.nums.map(json2.Any(it))
@ -166,13 +167,15 @@ fn (u User) to_json() string {
fn test_parse_user() {
s := '{"age": 10, "nums": [1,2,3], "type": 1, "lastName": "Johnson", "IsRegistered": true, "pet_animals": {"name": "Bob", "animal": "Dog"}}'
u2 := json2.decode<User2>(s) or {
println(err)
assert false
User2{}
return
}
println(u2)
u := json2.decode<User>(s) or {
println(err)
assert false
User{}
return
}
assert u.age == 10
assert u.last_name == 'Johnson'
@ -249,7 +252,7 @@ fn test_struct_in_struct() {
*/
fn test_encode_map() {
expected := '{"one":1,"two":2,"three":3,"four":4}'
numbers := {
numbers := map{
'one': json2.Any(1)
'two': json2.Any(2)
'three': json2.Any(3)

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@ -0,0 +1,288 @@
// 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 json2
import strconv
struct Scanner {
mut:
text []byte
pos int
line int
col int
}
enum TokenKind {
none_
error
str_
float
int_
null
bool_
eof
comma = 44
colon = 58
lsbr = 91
rsbr = 93
lcbr = 123
rcbr = 125
}
struct Token {
lit []byte
kind TokenKind
line int
col int
}
const (
// list of characters commonly used in JSON.
char_list = [`{`, `}`, `[`, `]`, `,`, `:`]
// list of newlines to check when moving to a new position.
newlines = [`\r`, `\n`, byte(9), `\t`]
// list of escapable that needs to be escaped inside a JSON string.
// double quotes and forward slashes are excluded intentionally since
// they have their own separate checks for it in order to pass the
// JSON test suite (https://github.com/nst/JSONTestSuite/).
important_escapable_chars = [byte(9), 10, 0, `\b`, `\f`, `\n`, `\r`, `\t`]
// list of valid unicode escapes aside from \u{4-hex digits}
valid_unicode_escapes = [`b`, `f`, `n`, `r`, `t`, `\\`, `"`, `/`]
// used for transforming escapes into valid unicode (eg. n => \n)
unicode_transform_escapes = map{
98: `\b`
102: `\f`
110: `\n`
114: `\r`
116: `\t`
92: `\\`
34: `"`
47: `/`
}
exp_signs = [byte(`-`), `+`]
)
// move_pos proceeds to the next position.
fn (mut s Scanner) move_pos() {
s.move(true, true)
}
// move_pos_with_newlines is the same as move_pos but only enables newline checking.
fn (mut s Scanner) move_pos_with_newlines() {
s.move(false, true)
}
fn (mut s Scanner) move(include_space bool, include_newlines bool) {
s.pos++
if s.pos < s.text.len {
if include_newlines && s.text[s.pos] in json2.newlines {
s.line++
s.col = 0
if s.text[s.pos] == `\r` && s.pos + 1 < s.text.len && s.text[s.pos + 1] == `\n` {
s.pos++
}
for s.pos < s.text.len && s.text[s.pos] in json2.newlines {
s.move_pos()
}
} else if include_space && s.text[s.pos] == ` ` {
s.pos++
s.col++
for s.pos < s.text.len && s.text[s.pos] == ` ` {
s.move_pos()
}
}
} else {
s.col++
}
}
// error returns an error token.
fn (s Scanner) error(description string) Token {
return s.tokenize(description.bytes(), .error)
}
// tokenize returns a token based on the given lit and kind.
fn (s Scanner) tokenize(lit []byte, kind TokenKind) Token {
return Token{
lit: lit
kind: kind
col: s.col
line: s.line
}
}
// text_scan scans and returns a string token.
[manualfree]
fn (mut s Scanner) text_scan() Token {
mut has_closed := false
mut chrs := []byte{}
for {
s.move(false, false)
if s.pos >= s.text.len {
break
}
ch := s.text[s.pos]
if (s.pos - 1 >= 0 && s.text[s.pos - 1] != `\\`) && ch == `"` {
has_closed = true
break
} else if (s.pos - 1 >= 0 && s.text[s.pos - 1] != `\\`)
&& ch in json2.important_escapable_chars {
return s.error('character must be escaped with a backslash')
} else if s.pos == s.text.len - 1 && ch == `\\` {
return s.error('invalid backslash escape')
} else if s.pos + 1 < s.text.len && ch == `\\` {
peek := s.text[s.pos + 1]
if peek in json2.valid_unicode_escapes {
chrs << json2.unicode_transform_escapes[int(peek)]
s.move(false, false)
continue
} else if peek == `u` {
if s.pos + 5 < s.text.len {
s.move(false, false)
mut codepoint := []byte{}
codepoint_start := s.pos
for s.pos < s.text.len && s.pos < codepoint_start + 4 {
s.move(false, false)
if s.text[s.pos] == `"` {
break
} else if !s.text[s.pos].is_hex_digit() {
return s.error('`${s.text[s.pos].ascii_str()}` is not a hex digit')
}
codepoint << s.text[s.pos]
}
if codepoint.len != 4 {
return s.error('unicode escape must have 4 hex digits')
}
chrs << byte(strconv.parse_uint(codepoint.bytestr(), 16, 32))
unsafe { codepoint.free() }
continue
} else {
return s.error('incomplete unicode escape')
}
} else if peek == `U` {
return s.error('unicode endpoints must be in lowercase `u`')
} else if peek == byte(229) {
return s.error('unicode endpoint not allowed')
} else {
return s.error('invalid backslash escape')
}
}
chrs << ch
}
tok := s.tokenize(chrs, .str_)
s.move_pos()
if !has_closed {
return s.error('missing double quotes in string closing')
}
return tok
}
// num_scan scans and returns an int/float token.
fn (mut s Scanner) num_scan() Token {
// analyze json number structure
// -[digit][?[dot][digit]][?[E/e][?-/+][digit]]
mut is_fl := false
mut dot_index := -1
mut digits := []byte{}
if s.text[s.pos] == `-` {
digits << `-`
if !s.text[s.pos + 1].is_digit() {
return s.invalid_token()
}
s.move_pos_with_newlines()
}
if s.text[s.pos] == `0` && (s.pos + 1 < s.text.len && s.text[s.pos + 1].is_digit()) {
return s.error('leading zeroes in a number are not allowed')
}
for s.pos < s.text.len && (s.text[s.pos].is_digit() || (!is_fl && s.text[s.pos] == `.`)) {
digits << s.text[s.pos]
if s.text[s.pos] == `.` {
is_fl = true
dot_index = digits.len - 1
}
s.move_pos_with_newlines()
}
if dot_index + 1 < s.text.len && digits[dot_index + 1..].len == 0 {
return s.error('invalid float')
}
if s.pos < s.text.len && (s.text[s.pos] == `e` || s.text[s.pos] == `E`) {
digits << s.text[s.pos]
s.move_pos_with_newlines()
if s.pos < s.text.len && s.text[s.pos] in json2.exp_signs {
digits << s.text[s.pos]
s.move_pos_with_newlines()
}
mut exp_digits_count := 0
for s.pos < s.text.len && s.text[s.pos].is_digit() {
digits << s.text[s.pos]
exp_digits_count++
s.move_pos_with_newlines()
}
if exp_digits_count == 0 {
return s.error('invalid exponent')
}
}
kind := if is_fl { TokenKind.float } else { TokenKind.int_ }
return s.tokenize(digits, kind)
}
// invalid_token returns an error token with the invalid token message.
fn (s Scanner) invalid_token() Token {
return s.error('invalid token `${s.text[s.pos].ascii_str()}`')
}
// scan returns a token based on the scanner's current position.
[manualfree]
fn (mut s Scanner) scan() Token {
for s.pos < s.text.len && s.text[s.pos] == ` ` {
s.pos++
}
if s.pos >= s.text.len {
return s.tokenize([]byte{}, .eof)
} else if s.pos + 3 < s.text.len && (s.text[s.pos] == `t` || s.text[s.pos] == `n`) {
ident := s.text[s.pos..s.pos + 4].bytestr()
if ident == 'true' || ident == 'null' {
mut kind := TokenKind.null
if ident == 'true' {
kind = .bool_
}
unsafe { ident.free() }
val := s.text[s.pos..s.pos + 4]
tok := s.tokenize(val, kind)
s.move_pos()
s.move_pos()
s.move_pos()
s.move_pos()
return tok
}
unsafe { ident.free() }
return s.invalid_token()
} else if s.pos + 4 < s.text.len && s.text[s.pos] == `f` {
ident := s.text[s.pos..s.pos + 5].bytestr()
if ident == 'false' {
unsafe { ident.free() }
val := s.text[s.pos..s.pos + 5]
tok := s.tokenize(val, .bool_)
s.move_pos()
s.move_pos()
s.move_pos()
s.move_pos()
s.move_pos()
return tok
}
unsafe { ident.free() }
return s.invalid_token()
} else if s.text[s.pos] in json2.char_list {
chr := s.text[s.pos]
tok := s.tokenize([]byte{}, TokenKind(int(chr)))
s.move_pos()
return tok
} else if s.text[s.pos] == `"` {
return s.text_scan()
} else if s.text[s.pos].is_digit() || s.text[s.pos] == `-` {
return s.num_scan()
} else {
return s.invalid_token()
}
}

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@ -0,0 +1,320 @@
module json2
fn test_str() {
mut sc := Scanner{
text: '"test"'.bytes()
}
tok := sc.scan()
assert tok.kind == .str_
assert tok.lit.len == 4
assert tok.lit.bytestr() == 'test'
}
fn test_str_valid_unicode_escape() {
mut sc := Scanner{
text: r'"\u0048"'.bytes()
}
tok := sc.scan()
assert tok.kind == .str_
assert tok.lit.len == 1
assert tok.lit.bytestr() == 'H'
}
fn test_str_invalid_escape() {
mut sc := Scanner{
text: r'"\z"'.bytes()
}
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'invalid backslash escape'
}
fn test_str_invalid_must_be_escape() {
for char in important_escapable_chars {
mut sc := Scanner{
text: [byte(`"`), `t`, char, `"`]
}
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'character must be escaped with a backslash'
}
}
fn test_str_invalid_unicode_escape() {
mut sc := Scanner{
text: r'"\u010G"'.bytes()
}
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == '`G` is not a hex digit'
}
fn test_str_invalid_unicode_escape_len() {
mut sc := Scanner{
text: r'"\u001"'.bytes()
}
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'unicode escape must have 4 hex digits'
}
fn test_str_invalid_uppercase_u() {
mut sc := Scanner{
text: r'"\U0000"'.bytes()
}
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'unicode endpoints must be in lowercase `u`'
}
fn test_str_missing_closing_bracket() {
mut sc := Scanner{
text: '"incomplete'.bytes()
}
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'missing double quotes in string closing'
}
fn test_int() {
mut sc := Scanner{
text: '10'.bytes()
}
tok := sc.scan()
assert tok.kind == .int_
assert tok.lit.len == 2
assert tok.lit.bytestr() == '10'
}
fn test_int_negative() {
mut sc := Scanner{
text: '-10'.bytes()
}
tok := sc.scan()
assert tok.kind == .int_
assert tok.lit.len == 3
assert tok.lit.bytestr() == '-10'
}
fn test_float() {
mut sc := Scanner{
text: '123.400'.bytes()
}
tok := sc.scan()
assert tok.kind == .float
assert tok.lit.len == 7
assert tok.lit.bytestr() == '123.400'
}
fn test_float_negative() {
mut sc := Scanner{
text: '-123.400'.bytes()
}
tok := sc.scan()
assert tok.kind == .float
assert tok.lit.len == 8
assert tok.lit.bytestr() == '-123.400'
}
fn test_int_exp() {
mut sc := Scanner{
text: '1E22'.bytes()
}
tok := sc.scan()
assert tok.kind == .int_
assert tok.lit.len == 4
assert tok.lit.bytestr() == '1E22'
}
fn test_int_exp_negative() {
mut sc := Scanner{
text: '1E-2'.bytes()
}
tok := sc.scan()
assert tok.kind == .int_
assert tok.lit.len == 4
assert tok.lit.bytestr() == '1E-2'
}
fn test_int_exp_positive() {
mut sc := Scanner{
text: '1E+2'.bytes()
}
tok := sc.scan()
assert tok.kind == .int_
assert tok.lit.len == 4
assert tok.lit.bytestr() == '1E+2'
}
fn test_float_exp() {
mut sc := Scanner{
text: '123.456e78'.bytes()
}
tok := sc.scan()
assert tok.kind == .float
assert tok.lit.len == 10
assert tok.lit.bytestr() == '123.456e78'
}
fn test_float_exp_negative() {
mut sc := Scanner{
text: '20.56e-5'.bytes()
}
tok := sc.scan()
assert tok.kind == .float
assert tok.lit.len == 8
assert tok.lit.bytestr() == '20.56e-5'
}
fn test_float_exp_positive() {
mut sc := Scanner{
text: '20.56e+5'.bytes()
}
tok := sc.scan()
assert tok.kind == .float
assert tok.lit.len == 8
assert tok.lit.bytestr() == '20.56e+5'
}
fn test_number_with_space() {
mut sc := Scanner{
text: ' 4'.bytes()
}
tok := sc.scan()
assert tok.kind == .int_
assert tok.lit.len == 1
assert tok.lit.bytestr() == '4'
}
fn test_number_invalid_leading_zero() {
mut sc := Scanner{
text: '0010'.bytes()
}
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'leading zeroes in a number are not allowed'
}
fn test_number_invalid_leading_zero_negative() {
mut sc := Scanner{
text: '-0010'.bytes()
}
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'leading zeroes in a number are not allowed'
}
fn test_number_invalid_start_char() {
mut sc := Scanner{
text: '+1'.bytes()
}
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'invalid token `+`'
}
fn test_number_invalid_char() {
mut sc := Scanner{
text: '122x'.bytes()
}
sc.scan()
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'invalid token `x`'
}
fn test_number_invalid_char_float() {
mut sc := Scanner{
text: '122x.1'.bytes()
}
sc.scan()
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'invalid token `x`'
}
fn test_number_invalid_multiple_dot() {
mut sc := Scanner{
text: '122.108.10'.bytes()
}
sc.scan()
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'invalid token `.`'
}
fn test_number_invalid_exp() {
mut sc := Scanner{
text: '0.3e'.bytes()
}
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'invalid exponent'
}
fn test_number_invalid_exp_with_sign() {
mut sc := Scanner{
text: '0.3e+'.bytes()
}
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'invalid exponent'
}
fn test_number_invalid_zero_exp() {
mut sc := Scanner{
text: '0e'.bytes()
}
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'invalid exponent'
}
fn test_number_invalid_dot_exp() {
mut sc := Scanner{
text: '0.e'.bytes()
}
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'invalid float'
}
fn test_number_invalid_double_exp() {
mut sc := Scanner{
text: '2eE'.bytes()
}
sc.scan()
tok := sc.scan()
assert tok.kind == .error
assert tok.lit.bytestr() == 'invalid token `E`'
}
fn test_null() {
mut sc := Scanner{
text: 'null'.bytes()
}
tok := sc.scan()
assert tok.kind == .null
assert tok.lit.len == 4
assert tok.lit.bytestr() == 'null'
}
fn test_bool_true() {
mut sc := Scanner{
text: 'true'.bytes()
}
tok := sc.scan()
assert tok.kind == .bool_
assert tok.lit.len == 4
assert tok.lit.bytestr() == 'true'
}
fn test_bool_false() {
mut sc := Scanner{
text: 'false'.bytes()
}
tok := sc.scan()
assert tok.kind == .bool_
assert tok.lit.len == 5
assert tok.lit.bytestr() == 'false'
}