saphyr_parser/input/
str.rs1use crate::{
2 char_traits::{
3 is_alpha, is_blank, is_blank_or_breakz, is_break, is_breakz, is_digit, is_flow, is_z,
4 },
5 input::{Input, SkipTabs},
6};
7use alloc::string::String;
8
9#[allow(clippy::module_name_repetitions)]
11#[derive(Clone, Copy)]
12pub struct StrInput<'a> {
13 buffer: &'a str,
15 lookahead: usize,
20}
21
22impl<'a> StrInput<'a> {
23 #[must_use]
25 pub fn new(input: &'a str) -> Self {
26 Self {
27 buffer: input,
28 lookahead: 0,
29 }
30 }
31}
32
33impl Input for StrInput<'_> {
34 #[inline]
35 fn lookahead(&mut self, x: usize) {
36 self.lookahead = self.lookahead.max(x);
40 }
41
42 #[inline]
43 fn buflen(&self) -> usize {
44 self.lookahead
45 }
46
47 #[inline]
48 fn bufmaxlen(&self) -> usize {
49 BUFFER_LEN
50 }
51
52 fn buf_is_empty(&self) -> bool {
53 self.buflen() == 0
54 }
55
56 #[inline]
57 fn raw_read_ch(&mut self) -> char {
58 let mut chars = self.buffer.chars();
59 if let Some(c) = chars.next() {
60 self.buffer = chars.as_str();
61 c
62 } else {
63 '\0'
64 }
65 }
66
67 #[inline]
68 fn raw_read_non_breakz_ch(&mut self) -> Option<char> {
69 if let Some((c, sub_str)) = split_first_char(self.buffer) {
70 if is_breakz(c) {
71 None
72 } else {
73 self.buffer = sub_str;
74 Some(c)
75 }
76 } else {
77 None
78 }
79 }
80
81 #[inline]
82 fn skip(&mut self) {
83 let mut chars = self.buffer.chars();
84 if chars.next().is_some() {
85 self.buffer = chars.as_str();
86 }
87 }
88
89 #[inline]
90 fn skip_n(&mut self, count: usize) {
91 let mut chars = self.buffer.chars();
92 for _ in 0..count {
93 if chars.next().is_none() {
94 break;
95 }
96 }
97 self.buffer = chars.as_str();
98 }
99
100 #[inline]
101 fn peek(&self) -> char {
102 self.buffer.chars().next().unwrap_or('\0')
103 }
104
105 #[inline]
106 fn peek_nth(&self, n: usize) -> char {
107 let mut chars = self.buffer.chars();
108 for _ in 0..n {
109 if chars.next().is_none() {
110 return '\0';
111 }
112 }
113 chars.next().unwrap_or('\0')
114 }
115
116 #[inline]
117 fn look_ch(&mut self) -> char {
118 self.lookahead(1);
119 self.peek()
120 }
121
122 #[inline]
123 fn next_char_is(&self, c: char) -> bool {
124 self.peek() == c
125 }
126
127 #[inline]
128 fn nth_char_is(&self, n: usize, c: char) -> bool {
129 self.peek_nth(n) == c
130 }
131
132 #[inline]
133 fn next_2_are(&self, c1: char, c2: char) -> bool {
134 let mut chars = self.buffer.chars();
135 chars.next() == Some(c1) && chars.next() == Some(c2)
136 }
137
138 #[inline]
139 fn next_3_are(&self, c1: char, c2: char, c3: char) -> bool {
140 let mut chars = self.buffer.chars();
141 chars.next() == Some(c1) && chars.next() == Some(c2) && chars.next() == Some(c3)
142 }
143
144 #[inline]
145 fn next_is_document_indicator(&self) -> bool {
146 if self.buffer.len() < 3 {
147 false
148 } else {
149 let bytes = self.buffer.as_bytes();
151 (bytes.len() == 3 || is_blank_or_breakz(bytes[3] as char))
152 && (bytes[0] == b'.' || bytes[0] == b'-')
153 && bytes[0] == bytes[1]
154 && bytes[1] == bytes[2]
155 }
156 }
157
158 #[inline]
159 fn next_is_document_start(&self) -> bool {
160 if self.buffer.len() < 3 {
161 false
162 } else {
163 let bytes = self.buffer.as_bytes();
165 (bytes.len() == 3 || is_blank_or_breakz(bytes[3] as char))
166 && bytes[0] == b'-'
167 && bytes[1] == b'-'
168 && bytes[2] == b'-'
169 }
170 }
171
172 #[inline]
173 fn next_is_document_end(&self) -> bool {
174 if self.buffer.len() < 3 {
175 false
176 } else {
177 let bytes = self.buffer.as_bytes();
179 (bytes.len() == 3 || is_blank_or_breakz(bytes[3] as char))
180 && bytes[0] == b'.'
181 && bytes[1] == b'.'
182 && bytes[2] == b'.'
183 }
184 }
185
186 fn skip_ws_to_eol(&mut self, skip_tabs: SkipTabs) -> (usize, Result<SkipTabs, &'static str>) {
187 assert!(!matches!(skip_tabs, SkipTabs::Result(..)));
188
189 let mut new_str = self.buffer;
190 let mut has_yaml_ws = false;
191 let mut encountered_tab = false;
192
193 if skip_tabs == SkipTabs::Yes {
196 loop {
197 if let Some(sub_str) = new_str.strip_prefix(' ') {
198 has_yaml_ws = true;
199 new_str = sub_str;
200 } else if let Some(sub_str) = new_str.strip_prefix('\t') {
201 encountered_tab = true;
202 new_str = sub_str;
203 } else {
204 break;
205 }
206 }
207 } else {
208 while let Some(sub_str) = new_str.strip_prefix(' ') {
209 has_yaml_ws = true;
210 new_str = sub_str;
211 }
212 }
213
214 let mut chars_consumed = self.buffer.len() - new_str.len();
217
218 if !new_str.is_empty() && new_str.as_bytes()[0] == b'#' {
219 if !encountered_tab && !has_yaml_ws {
220 return (
221 chars_consumed,
222 Err("comments must be separated from other tokens by whitespace"),
223 );
224 }
225
226 while let Some((c, sub_str)) = split_first_char(new_str) {
228 if is_breakz(c) {
229 break;
230 }
231 new_str = sub_str;
232 chars_consumed += 1;
233 }
234 }
235
236 self.buffer = new_str;
237
238 (
239 chars_consumed,
240 Ok(SkipTabs::Result(encountered_tab, has_yaml_ws)),
241 )
242 }
243
244 #[allow(clippy::inline_always)]
245 #[inline(always)]
246 fn next_can_be_plain_scalar(&self, in_flow: bool) -> bool {
247 let nc = self.peek_nth(1);
248 match self.peek() {
249 ':' if is_blank_or_breakz(nc) || (in_flow && is_flow(nc)) => false,
251 c if in_flow && is_flow(c) => false,
252 _ => true,
253 }
254 }
255
256 #[inline]
257 fn next_is_blank_or_break(&self) -> bool {
258 !self.buffer.is_empty()
259 && (is_blank(self.buffer.as_bytes()[0] as char)
260 || is_break(self.buffer.as_bytes()[0] as char))
261 }
262
263 #[inline]
264 fn next_is_blank_or_breakz(&self) -> bool {
265 self.buffer.is_empty()
266 || (is_blank(self.buffer.as_bytes()[0] as char)
267 || is_breakz(self.buffer.as_bytes()[0] as char))
268 }
269
270 #[inline]
271 fn next_is_blank(&self) -> bool {
272 !self.buffer.is_empty() && is_blank(self.buffer.as_bytes()[0] as char)
273 }
274
275 #[inline]
276 fn next_is_break(&self) -> bool {
277 !self.buffer.is_empty() && is_break(self.buffer.as_bytes()[0] as char)
278 }
279
280 #[inline]
281 fn next_is_breakz(&self) -> bool {
282 self.buffer.is_empty() || is_breakz(self.buffer.as_bytes()[0] as char)
283 }
284
285 #[inline]
286 fn next_is_z(&self) -> bool {
287 self.buffer.is_empty() || is_z(self.buffer.as_bytes()[0] as char)
288 }
289
290 #[inline]
291 fn next_is_flow(&self) -> bool {
292 !self.buffer.is_empty() && is_flow(self.buffer.as_bytes()[0] as char)
293 }
294
295 #[inline]
296 fn next_is_digit(&self) -> bool {
297 !self.buffer.is_empty() && is_digit(self.buffer.as_bytes()[0] as char)
298 }
299
300 #[inline]
301 fn next_is_alpha(&self) -> bool {
302 !self.buffer.is_empty() && is_alpha(self.buffer.as_bytes()[0] as char)
303 }
304
305 fn skip_while_non_breakz(&mut self) -> usize {
306 let mut new_str = self.buffer;
307 let mut count = 0;
308
309 while let Some((c, sub_str)) = split_first_char(new_str) {
311 if is_breakz(c) {
312 break;
313 }
314 new_str = sub_str;
315 count += 1;
316 }
317
318 self.buffer = new_str;
319
320 count
321 }
322
323 fn skip_while_blank(&mut self) -> usize {
324 let mut i = 0;
326 while i < self.buffer.len() {
327 if !is_blank(self.buffer.as_bytes()[i] as char) {
328 break;
329 }
330 i += 1;
331 }
332 self.buffer = &self.buffer[i..];
333 i
334 }
335
336 fn fetch_while_is_alpha(&mut self, out: &mut String) -> usize {
337 let mut not_alpha = None;
338
339 let mut chars = self.buffer.chars();
341 for c in chars.by_ref() {
342 if !is_alpha(c) {
343 not_alpha = Some(c);
344 break;
345 }
346 }
347
348 let remaining_string = if let Some(c) = not_alpha {
349 let n_bytes_read = chars.as_str().as_ptr() as usize - self.buffer.as_ptr() as usize;
350 let last_char_bytes = c.len_utf8();
351 &self.buffer[n_bytes_read - last_char_bytes..]
352 } else {
353 chars.as_str()
354 };
355
356 let n_bytes_to_append = remaining_string.as_ptr() as usize - self.buffer.as_ptr() as usize;
357 out.reserve(n_bytes_to_append);
358 out.push_str(&self.buffer[..n_bytes_to_append]);
359 self.buffer = remaining_string;
360
361 n_bytes_to_append
362 }
363
364 fn fetch_while_is_yaml_non_space(&mut self, out: &mut String) -> usize {
365 let mut not_non_space = None;
366
367 let mut chars = self.buffer.chars();
369 for c in chars.by_ref() {
370 if !crate::char_traits::is_yaml_non_space(c) {
371 not_non_space = Some(c);
372 break;
373 }
374 }
375
376 let remaining_string = if let Some(c) = not_non_space {
377 let n_bytes_read = chars.as_str().as_ptr() as usize - self.buffer.as_ptr() as usize;
378 let last_char_bytes = c.len_utf8();
379 &self.buffer[n_bytes_read - last_char_bytes..]
380 } else {
381 chars.as_str()
382 };
383
384 let n_bytes_to_append = remaining_string.as_ptr() as usize - self.buffer.as_ptr() as usize;
385 out.reserve(n_bytes_to_append);
386 out.push_str(&self.buffer[..n_bytes_to_append]);
387 self.buffer = remaining_string;
388
389 n_bytes_to_append
390 }
391}
392
393const BUFFER_LEN: usize = 128;
416
417#[inline]
420fn split_first_char(s: &str) -> Option<(char, &str)> {
421 let mut chars = s.chars();
422 let c = chars.next()?;
423 Some((c, chars.as_str()))
424}
425
426#[cfg(test)]
427mod test {
428 use crate::input::Input;
429
430 use super::StrInput;
431
432 #[test]
433 pub fn is_document_start() {
434 let input = StrInput::new("---\n");
435 assert!(input.next_is_document_start());
436 assert!(input.next_is_document_indicator());
437 let input = StrInput::new("---");
438 assert!(input.next_is_document_start());
439 assert!(input.next_is_document_indicator());
440 let input = StrInput::new("...\n");
441 assert!(!input.next_is_document_start());
442 assert!(input.next_is_document_indicator());
443 let input = StrInput::new("--- ");
444 assert!(input.next_is_document_start());
445 assert!(input.next_is_document_indicator());
446 }
447
448 #[test]
449 pub fn is_document_end() {
450 let input = StrInput::new("...\n");
451 assert!(input.next_is_document_end());
452 assert!(input.next_is_document_indicator());
453 let input = StrInput::new("...");
454 assert!(input.next_is_document_end());
455 assert!(input.next_is_document_indicator());
456 let input = StrInput::new("---\n");
457 assert!(!input.next_is_document_end());
458 assert!(input.next_is_document_indicator());
459 let input = StrInput::new("... ");
460 assert!(input.next_is_document_end());
461 assert!(input.next_is_document_indicator());
462 }
463}