1use crate::try_parse;
2use dynamic::{Dynamic, Type};
3
4use super::{Expr, Parser, Pattern, Span, expr::ExprKind, pattern::PatternKind};
5use anyhow::{Result, anyhow};
6use smol_str::SmolStr;
7
8fn collect_bindings(pat: &Pattern, access: &Expr, out: &mut Vec<Stmt>, span: Span) {
11 use crate::expr::BinaryOp;
12 let mk_let_ident = |name: SmolStr, value: Expr, span: Span| {
13 let p = Pattern::new(PatternKind::Ident { name, ty: Type::Any }, span);
14 let value_stmt = Stmt::new(StmtKind::Expr(value, true), span);
15 Stmt::new(StmtKind::Let { pat: p, value: Box::new(value_stmt) }, span)
16 };
17 let mk_bin = |left: Expr, op: BinaryOp, right: Expr, span: Span| Expr::new(ExprKind::Binary { left: Box::new(left), op, right: Box::new(right) }, span);
18 let mk_idx_int = |obj: Expr, i: i32, span: Span| mk_bin(obj, BinaryOp::Idx, Expr::new(ExprKind::Value(Dynamic::I32(i)), span), span);
19 let mk_field = |obj: Expr, name: SmolStr, span: Span| mk_bin(obj, BinaryOp::Idx, Expr::new(ExprKind::Value(Dynamic::String(name)), span), span);
20
21 match &pat.kind {
22 PatternKind::Ident { name, .. } => {
23 out.push(mk_let_ident(name.clone(), access.clone(), span));
24 }
25 PatternKind::Tuple(items) => {
26 for (i, p) in items.iter().enumerate() {
27 let elem = mk_idx_int(access.clone(), i as i32, span);
28 collect_bindings(p, &elem, out, span);
29 }
30 }
31 PatternKind::List { elems, has_rest } => {
32 let prefix = if *has_rest { elems.len() - 1 } else { elems.len() };
33 for (i, p) in elems.iter().take(prefix).enumerate() {
34 let elem = mk_idx_int(access.clone(), i as i32, span);
35 collect_bindings(p, &elem, out, span);
36 }
37 if *has_rest {
38 if let PatternKind::Ident { name, .. } = &elems.last().unwrap().kind {
39 let from = Expr::new(ExprKind::Value((prefix as u32).into()), span);
42 let range = Expr::new(ExprKind::Range { start: Box::new(from), stop: Box::new(Expr::new(ExprKind::Value(Dynamic::Null), span)), inclusive: false }, span);
43 let slice = Expr::new(ExprKind::Binary { left: Box::new(access.clone()), op: BinaryOp::Idx, right: Box::new(range) }, span);
44 out.push(mk_let_ident(name.clone(), slice, span));
45 }
46 }
47 }
48 PatternKind::Struct { fields, .. } => {
49 for (fname, sub) in fields {
50 let field_access = mk_field(access.clone(), fname.clone(), span);
51 match sub {
52 None => {
53 out.push(mk_let_ident(fname.clone(), field_access, span));
55 }
56 Some(sub_pat) => {
57 collect_bindings(sub_pat, &field_access, out, span);
58 }
59 }
60 }
61 }
62 _ => {}
64 }
65}
66
67#[derive(Debug, Clone)]
68pub struct Stmt {
69 pub kind: StmtKind,
70 pub span: Span,
71}
72
73#[derive(Debug, Clone)]
74pub enum StmtKind {
75 Let { pat: Pattern, value: Box<Stmt> },
76 Expr(Expr, bool),
77 Block(Vec<Stmt>),
78 Break,
79 Continue,
80 Return(Option<Expr>),
81 While { cond: Expr, body: Box<Stmt> },
82 Loop(Box<Stmt>),
83 For { pat: Pattern, range: Expr, body: Box<Stmt> },
84 Fn { name: SmolStr, generic_params: Vec<Type>, args: Vec<(SmolStr, Type)>, body: Box<Stmt>, is_pub: bool },
85 Struct { name: SmolStr, def: Type, is_pub: bool },
86 Impl { target: Type, body: Box<Stmt> },
87 If { cond: Expr, then_body: Box<Stmt>, else_body: Option<Box<Stmt>> },
88 Static { name: SmolStr, ty: Type, value: Option<Expr>, is_pub: bool },
89 Const { name: SmolStr, ty: Type, value: Expr, is_pub: bool },
90}
91
92impl Stmt {
93 pub fn new(kind: StmtKind, span: Span) -> Self {
94 Self { kind, span }
95 }
96
97 pub fn expr(&self) -> Option<Expr> {
98 if let StmtKind::Expr(expr, _) = &self.kind { Some(expr.clone()) } else { None }
99 }
100
101 pub fn is_return(&self) -> bool {
102 matches!(self.kind, StmtKind::Return(_))
103 }
104
105 pub fn last_return(&mut self) -> bool {
106 match &mut self.kind {
107 StmtKind::Block(stmts) => stmts.last_mut().map(|stmt| stmt.last_return()).unwrap_or(false),
108 StmtKind::If { then_body, else_body, .. } => {
109 let then_returns = then_body.last_return();
110 let else_returns = else_body.as_mut().map(|body| body.last_return()).unwrap_or(false);
111 then_returns && else_returns
112 }
113 StmtKind::Expr(e, close) => {
114 if !*close {
115 let span = e.span;
116 *self = Self::new(StmtKind::Return(Some(std::mem::take(e))), span);
117 true
118 } else {
119 false
120 }
121 }
122 StmtKind::Return(_) => true,
123 _ => false,
124 }
125 }
126
127 pub fn get_type(&self) -> Option<Type> {
128 match &self.kind {
129 StmtKind::Expr(expr, _) => Some(expr.get_type()),
130 StmtKind::Block(stmts) => stmts.last().and_then(|stmt| stmt.get_type()),
131 StmtKind::If { then_body, .. } => then_body.get_type(),
132 _ => None,
133 }
134 }
135
136 fn get_assign(idx: u32, expr: Expr) -> Self {
137 let span = expr.span;
138 Self::new(StmtKind::Expr(Expr::new(ExprKind::Binary { left: Box::new(Expr::new(ExprKind::Var(idx), span)), op: crate::BinaryOp::Assign, right: Box::new(expr) }, span), true), span)
139 }
140
141 fn get_idx_assign(pat: Expr, idx: usize, expr: Expr) -> Self {
142 let span = pat.span.merge(expr.span);
143 let right = Expr::new(ExprKind::Binary { left: Box::new(expr), op: crate::BinaryOp::Idx, right: Box::new(Expr::new(ExprKind::Value((idx as u32).into()), span)) }, span);
144 Self::new(StmtKind::Expr(Expr::new(ExprKind::Binary { left: Box::new(pat), op: crate::BinaryOp::Assign, right: Box::new(right) }, span), true), span)
145 }
146
147 fn get_idx_assign_typed(pat: Expr, idx: usize, expr: Expr, ty: Type) -> Self {
152 let span = pat.span.merge(expr.span);
153 let idx_expr = Expr::new(ExprKind::Binary { left: Box::new(expr), op: crate::BinaryOp::Idx, right: Box::new(Expr::new(ExprKind::Value((idx as u32).into()), span)) }, span);
154 let right = Expr::new(ExprKind::Typed { value: Box::new(idx_expr), ty }, span);
155 Self::new(StmtKind::Expr(Expr::new(ExprKind::Binary { left: Box::new(pat), op: crate::BinaryOp::Assign, right: Box::new(right) }, span), true), span)
156 }
157
158 fn get_assign_expr(pat: Expr, expr: Expr) -> Self {
159 let span = pat.span.merge(expr.span);
160 Self::new(StmtKind::Expr(Expr::new(ExprKind::Binary { left: Box::new(pat), op: crate::BinaryOp::Assign, right: Box::new(expr) }, span), true), span)
161 }
162
163 fn var_expr_with_ty(pat: &Pattern) -> Option<(Expr, Type)> {
164 if let PatternKind::Var { idx, ty } = &pat.kind
165 && !ty.is_any()
166 {
167 Some((Expr::new(ExprKind::Var(*idx), pat.span), ty.clone()))
168 } else {
169 None
170 }
171 }
172
173 pub fn bind_pattern(&mut self, pat: Pattern) -> Result<()> {
174 if let Some(expr) = self.expr() {
175 let stmt = match pat.kind {
176 PatternKind::Var { idx, ty } => {
177 if expr.get_type() != ty {
178 Self::get_assign(idx, Expr::new(ExprKind::Typed { value: Box::new(expr), ty }, pat.span))
179 } else {
180 Self::get_assign(idx, expr)
181 }
182 }
183 PatternKind::Tuple(list) => {
184 let mut stmts = Vec::new();
185 for (idx, p) in list.into_iter().enumerate() {
186 match Self::var_expr_with_ty(&p) {
187 Some((p, ty)) => stmts.push(Self::get_idx_assign_typed(p, idx, expr.clone(), ty)),
188 None => match p.expr() {
189 Ok(p) => stmts.push(Self::get_idx_assign(p, idx, expr.clone())),
190 Err(e) => return Err(e),
191 },
192 }
193 }
194 Self::new(StmtKind::Block(stmts), self.span)
195 }
196 PatternKind::List { elems, has_rest } => {
197 let mut stmts = Vec::new();
198 let prefix_count = if has_rest { elems.len() - 1 } else { elems.len() };
199 if has_rest {
200 for (idx, p) in elems.iter().take(prefix_count).enumerate() {
201 match Self::var_expr_with_ty(p) {
202 Some((p, ty)) => stmts.push(Self::get_idx_assign_typed(p, idx, expr.clone(), ty)),
203 None => match p.expr() {
204 Ok(p) => stmts.push(Self::get_idx_assign(p, idx, expr.clone())),
205 Err(e) => return Err(e),
206 },
207 }
208 }
209 } else {
210 for (idx, p) in elems.iter().enumerate() {
211 match Self::var_expr_with_ty(p) {
212 Some((p, ty)) => stmts.push(Self::get_idx_assign_typed(p, idx, expr.clone(), ty)),
213 None => match p.expr() {
214 Ok(p) => stmts.push(Self::get_idx_assign(p, idx, expr.clone())),
215 Err(e) => return Err(e),
216 },
217 }
218 }
219 }
220 if has_rest {
221 let rest_pat = elems.last().unwrap();
223 let rest_expr = match &rest_pat.kind {
224 PatternKind::Ident { name, .. } => Expr::new(ExprKind::Ident(name.clone()), rest_pat.span),
225 PatternKind::Var { idx, .. } => Expr::new(ExprKind::Var(*idx), rest_pat.span),
226 _ => return Err(anyhow!("..rest 后的模式必须是标识符")),
227 };
228 let from = Expr::new(ExprKind::Value((prefix_count as u32).into()), rest_pat.span);
229 let range = Expr::new(ExprKind::Range { start: Box::new(from), stop: Box::new(Expr::new(ExprKind::Value(Dynamic::Null), rest_pat.span)), inclusive: false }, rest_pat.span);
231 let slice_idx = Expr::new(ExprKind::Binary { left: Box::new(expr.clone()), op: crate::BinaryOp::Idx, right: Box::new(range) }, rest_pat.span);
232 stmts.push(Self::get_assign_expr(rest_expr, slice_idx));
233 }
234 Self::new(StmtKind::Block(stmts), self.span)
235 }
236 p => return Err(anyhow!("不支持的模式绑定: {:?}", p)),
237 };
238 let _ = std::mem::replace(self, stmt);
239 } else {
240 match &mut self.kind {
241 StmtKind::Block(stmts) => {
242 if let Some(stmt) = stmts.last_mut() {
243 stmt.bind_pattern(pat)?;
244 }
245 }
246 StmtKind::If { then_body, else_body, .. } => {
247 then_body.bind_pattern(pat.clone())?;
248 if let Some(e) = else_body {
249 e.bind_pattern(pat)?;
250 }
251 }
252 _ => {}
253 }
254 }
255 Ok(())
256 }
257}
258
259use std::fmt;
260impl fmt::Display for Stmt {
261 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
262 match &self.kind {
263 StmtKind::Let { pat, value } => writeln!(f, "let {:?} = {}", pat, value)?,
264 StmtKind::Block(stmts) => stmts.iter().for_each(|s| {
265 let _ = write!(f, "{}", s);
266 }),
267 StmtKind::Expr(expr, close) => writeln!(f, "{:?}[{}]", expr, close)?,
268 StmtKind::Break => writeln!(f, "break")?,
269 StmtKind::Continue => writeln!(f, "continue")?,
270 StmtKind::Return(r) => writeln!(f, "return {:?}", r)?,
271 StmtKind::While { cond, body } => write!(f, "while {:?}\n{}", cond, body)?,
272 StmtKind::Loop(body) => write!(f, "loop\n{}", body)?,
273 StmtKind::For { pat, range, body } => writeln!(f, "for {:?} in {:?} \n{}", pat, range, body)?,
274 StmtKind::If { cond, then_body, else_body } => {
275 write!(f, "if {:?}\nthen-> {}\n", cond, then_body)?;
276 if let Some(e) = else_body {
277 writeln!(f, "{}", e)?;
278 }
279 }
280 StmtKind::Fn { name, generic_params, args, body, is_pub } => {
281 let generic_suffix = if generic_params.is_empty() { String::new() } else { format!("<{:?}>", generic_params) };
282 if *is_pub {
283 write!(f, "pub fn {:?}{} {:?}\n", name, generic_suffix, args)?
284 } else {
285 write!(f, "fn {:?}{} {:?}\n", name, generic_suffix, args)?
286 }
287 write!(f, "{}", body)?;
288 }
289 _ => write!(f, "(todo display: {:?})", self.kind)?,
290 }
291 fmt::Result::Ok(())
292 }
293}
294
295impl Parser {
296 pub fn ident_typed(&mut self) -> Result<(SmolStr, Type)> {
297 let name = self.ident()?;
298 self.whitespace()?;
299 if self.take(b':').is_ok() { Ok((name, self.get_type()?)) } else { Ok((name, Type::Any)) }
300 }
301
302 pub fn ident_generic(&mut self) -> Result<(SmolStr, Vec<Type>)> {
303 self.whitespace()?;
304 let name = self.ident()?;
305 self.whitespace()?;
306 let params = if self.get()? == b'<' {
307 self.pos += 1;
308 crate::parse_list!(self, Vec::new(), b'>', b',', self.get_type_param()?)
309 } else {
310 Vec::new()
311 };
312 Ok((name, params))
313 }
314
315 pub fn block(&mut self) -> Result<Stmt> {
316 self.check_fatal()?;
317 self.whitespace()?;
318 let start = self.current_pos();
319 if self.get()? == b'{' {
320 self.pos += 1;
321 self.enter_depth()?;
322 self.push_decl_scope();
323 let result = (|| -> Result<Stmt> {
324 let body = crate::parse_list!(self, Vec::new(), b'}', 0, self.stmt(false)?);
325 Ok(Stmt::new(StmtKind::Block(body), self.span_from(start)))
326 })();
327 self.pop_decl_scope();
328 self.exit_depth();
329 result
330 } else {
331 Err(anyhow!("not code block"))
332 }
333 }
334
335 pub fn if_block(&mut self) -> Result<Stmt> {
336 let start = self.spans.last().copied().unwrap_or_else(|| self.current_pos());
337 let cond = self.get_expr_without_struct_literal()?;
338 let then_body = Box::new(self.block()?);
339 self.whitespace()?;
340 let else_body = if self.keyword("else").is_ok() {
341 self.whitespace()?;
342 let body = if self.keyword("if").is_ok() { self.if_block()? } else { self.block()? };
343 Some(Box::new(body))
344 } else {
345 None
346 };
347 Ok(Stmt::new(StmtKind::If { cond, then_body, else_body }, Span::new(start, self.current_pos())))
348 }
349
350 pub fn match_block(&mut self, start: usize) -> Result<Stmt> {
354 use crate::expr::{BinaryOp, ExprKind, UnaryOp};
355 use crate::pattern::{Pattern, PatternKind};
356
357 let scrut = self.get_expr_without_struct_literal()?;
359 self.whitespace()?;
360 self.take(b'{').map_err(|_| anyhow!("match 缺少 `{{`"))?;
361
362 let mut arms: Vec<(Vec<Pattern>, Option<Expr>, Expr)> = Vec::new();
364 loop {
365 self.whitespace()?;
366 if self.take(b'}').is_ok() {
367 break;
368 }
369 self.push_decl_scope();
370 let arm_res: Result<(Vec<Pattern>, Option<Expr>, Expr)> = (|| {
371 let mut pats = vec![self.pattern()?];
373 self.whitespace()?;
374 while matches!(self.get(), Ok(b'|')) && !matches!(self.ahead(), Ok(b'|')) {
375 self.pos += 1;
376 self.whitespace()?;
377 pats.push(self.pattern()?);
378 self.whitespace()?;
379 }
380 for pat in &pats[..1] {
383 self.declare_pattern_symbols(pat)?;
384 }
385 if pats.len() > 1 {
387 for p in &pats[1..] {
388 if !matches!(p.kind, PatternKind::Literal(_) | PatternKind::Wildcard) {
389 return Err(anyhow!("or-pattern 中除第一个外只支持字面量 / 通配模式 (MVP 限制)"));
390 }
391 }
392 }
393 self.whitespace()?;
395 let guard = if self.keyword("if").is_ok() {
396 self.whitespace()?;
397 Some(self.get_expr_no_assign()?)
398 } else {
399 None
400 };
401 self.whitespace()?;
403 self.just("=>").map_err(|_| anyhow!("match arm 缺少 `=>`"))?;
404 self.whitespace()?;
405 let body_start = self.current_pos();
407 let body = if self.get()? == b'{' {
408 let block_stmt = self.block()?;
409 Expr::new(ExprKind::Stmt(Box::new(block_stmt)), Span::new(body_start, self.current_pos()))
410 } else {
411 self.get_expr_no_assign()?
414 };
415 self.whitespace()?;
417 let _ = self.take(b',');
418 Ok((pats, guard, body))
419 })();
420 self.pop_decl_scope();
421 arms.push(arm_res?);
422 }
423 let span = Span::new(start, self.current_pos());
424
425 let suffix = self.match_counter;
428 self.match_counter += 1;
429 let scrut_name: SmolStr = format!("__m_scrut_{}", suffix).into();
430 let done_name: SmolStr = format!("__m_done_{}", suffix).into();
431 let out_name: SmolStr = format!("__m_out_{}", suffix).into();
432 self.declare_symbol_in_current_scope(&scrut_name)?;
433 self.declare_symbol_in_current_scope(&done_name)?;
434 self.declare_symbol_in_current_scope(&out_name)?;
435
436 let mk_ident = |name: &SmolStr, span: Span| Expr::new(ExprKind::Ident(name.clone()), span);
438 let mk_value = |v: Dynamic, span: Span| Expr::new(ExprKind::Value(v), span);
439 let mk_binary = |left: Expr, op: BinaryOp, right: Expr, span: Span| Expr::new(ExprKind::Binary { left: Box::new(left), op, right: Box::new(right) }, span);
440 let mk_let = |name: SmolStr, value: Expr, span: Span| {
441 let pat = Pattern::new(PatternKind::Ident { name, ty: Type::Any }, span);
442 let value_stmt = Stmt::new(StmtKind::Expr(value, true), span);
443 Stmt::new(StmtKind::Let { pat, value: Box::new(value_stmt) }, span)
444 };
445 let mk_assign_stmt = |name: &SmolStr, value: Expr, span: Span| {
446 let assign = mk_binary(mk_ident(name, span), BinaryOp::Assign, value, span);
447 Stmt::new(StmtKind::Expr(assign, true), span)
448 };
449 let mk_any = |value: Expr, span: Span| Expr::new(ExprKind::Typed { value: Box::new(value), ty: Type::Any }, span);
450
451 let mut stmts = Vec::new();
452 stmts.push(mk_let(scrut_name.clone(), scrut, span));
454 stmts.push(mk_let(done_name.clone(), mk_value(Dynamic::Bool(false), span), span));
456 stmts.push(mk_let(out_name.clone(), mk_value(Dynamic::Null, span), span));
458
459 for (pats, guard, body) in arms {
461 let arm_span = body.span;
462 let scrut_ident = mk_ident(&scrut_name, arm_span);
463 let mut test_chain = pats[0].match_test(&scrut_ident);
465 for p in &pats[1..] {
466 let t = p.match_test(&scrut_ident);
467 test_chain = mk_binary(test_chain, BinaryOp::Or, t, arm_span);
468 }
469 let not_done = Expr::new(ExprKind::Unary { op: UnaryOp::Not, value: Box::new(mk_ident(&done_name, arm_span)) }, arm_span);
471 let outer_cond = mk_binary(not_done, BinaryOp::And, test_chain, arm_span);
472
473 let mut body_stmts = Vec::new();
475 collect_bindings(&pats[0], &mk_ident(&scrut_name, arm_span), &mut body_stmts, arm_span);
476 let inner_stmts = vec![mk_assign_stmt(&out_name, mk_any(body, arm_span), arm_span), mk_assign_stmt(&done_name, mk_value(Dynamic::Bool(true), arm_span), arm_span)];
478 let inner_block = Stmt::new(StmtKind::Block(inner_stmts), arm_span);
479 if let Some(g) = guard {
481 body_stmts.push(Stmt::new(StmtKind::If { cond: g, then_body: Box::new(inner_block), else_body: None }, arm_span));
482 } else {
483 body_stmts.push(inner_block);
484 }
485 let then_body = Stmt::new(StmtKind::Block(body_stmts), arm_span);
486 stmts.push(Stmt::new(StmtKind::If { cond: outer_cond, then_body: Box::new(then_body), else_body: None }, arm_span));
487 }
488 stmts.push(Stmt::new(StmtKind::Expr(mk_any(mk_ident(&out_name, span), span), false), span));
490
491 Ok(Stmt::new(StmtKind::Block(stmts), span))
492 }
493
494 pub fn stmt(&mut self, is_pub: bool) -> Result<Stmt> {
495 self.check_fatal()?;
496 self.whitespace()?;
497 self.spans.push(self.pos);
498 let start = self.current_pos();
499 if self.fn_body_depth > 0 {
502 for kw in &["fn", "struct", "impl", "const", "static"] {
503 if self.keyword(kw).is_ok() {
504 return Err(anyhow!("函数体内不能定义 {};请移到顶层或改用闭包", kw));
505 }
506 }
507 }
508 if self.impl_body_depth > 0 {
510 for kw in &["struct", "impl", "const", "static"] {
511 if self.keyword(kw).is_ok() {
512 return Err(anyhow!("impl 体内不能定义 {};请移到顶层", kw));
513 }
514 }
515 }
516 let stmt = if self.keyword("let").is_ok() {
517 let pat = self.pattern()?;
518 self.declare_pattern_symbols(&pat)?;
519 self.until(b'=')?;
520 self.whitespace()?;
521 let value = if self.get()? == b'{' {
522 if self.looks_like_dict() {
523 self.get_expr()?
524 } else {
525 let span = self.current_pos();
527 let block_stmt = self.block()?;
528 Expr::new(ExprKind::Stmt(Box::new(block_stmt)), Span::new(span, self.current_pos()))
529 }
530 } else {
531 self.get_expr()?
532 };
533 self.whitespace()?;
534 let close = self.take(b';').is_ok();
535 let stmt = Stmt::new(StmtKind::Expr(value, close), Span::new(start, self.current_pos()));
536 Stmt::new(StmtKind::Let { pat, value: Box::new(stmt) }, Span::new(start, self.current_pos()))
537 } else if self.keyword("break").is_ok() {
538 self.until(b';')?;
539 Stmt::new(StmtKind::Break, Span::new(start, self.current_pos()))
540 } else if self.keyword("continue").is_ok() {
541 self.until(b';')?;
542 Stmt::new(StmtKind::Continue, Span::new(start, self.current_pos()))
543 } else if self.keyword("return").is_ok() {
544 self.whitespace()?;
545 let expr = if matches!(self.get(), Ok(b';' | b'}')) { None } else { Some(self.get_expr()?) };
546 self.whitespace()?;
547 if self.take(b';').is_err() && !matches!(self.get(), Ok(b'}')) {
548 self.until(b';')?;
549 }
550 Stmt::new(StmtKind::Return(expr), Span::new(start, self.current_pos()))
551 } else if self.keyword("if").is_ok() {
552 self.if_block()?
553 } else if self.keyword("loop").is_ok() {
554 Stmt::new(StmtKind::Loop(Box::new(self.block()?)), Span::new(start, self.current_pos()))
555 } else if self.keyword("while").is_ok() {
556 self.whitespace()?;
557 let cond = self.get_expr()?;
558 let body = Box::new(self.block()?);
559 Stmt::new(StmtKind::While { cond, body }, Span::new(start, self.current_pos()))
560 } else if self.keyword("for").is_ok() {
561 self.whitespace()?;
562 let pat = self.pattern()?;
563 self.whitespace()?;
564 self.keyword("in")?;
565 self.whitespace()?;
566 let range = self.get_expr()?;
567 self.push_decl_scope();
568 let result: Result<Stmt> = (|| {
569 self.declare_pattern_symbols(&pat)?;
570 let body = Box::new(self.block()?);
571 Ok(Stmt::new(StmtKind::For { pat, range, body }, Span::new(start, self.current_pos())))
572 })();
573 self.pop_decl_scope();
574 result?
575 } else if self.keyword("fn").is_ok() {
576 self.whitespace()?;
577 let (name, generic_params) = self.ident_generic()?;
578 self.declare_function_name(&name)?;
579 self.until(b'(')?;
580 let args = crate::parse_list!(self, Vec::new(), b')', b',', self.ident_typed()?);
581 let body = Box::new(self.function_body(&args)?);
582 Stmt::new(StmtKind::Fn { name, generic_params, args, body, is_pub }, Span::new(start, self.current_pos()))
583 } else if self.keyword("struct").is_ok() {
584 let (name, params) = self.ident_generic()?;
585 self.declare_symbol(&name)?;
586 if self.until(b'{').is_ok() {
587 let fields = crate::parse_list!(self, Vec::new(), b'}', b',', self.ident_typed()?);
588 if let Some(f) = fields.iter().find(|f| f.1.is_any()) {
589 return Err(anyhow!("字段 {} 的类型未知", f.0));
590 }
591 Stmt::new(StmtKind::Struct { name, def: Type::Struct { params, fields }, is_pub }, Span::new(start, self.current_pos()))
592 } else {
593 self.until(b';')?;
594 Stmt::new(StmtKind::Struct { name, def: Type::Struct { params, fields: Vec::new() }, is_pub }, Span::new(start, self.current_pos()))
595 }
596 } else if self.keyword("const").is_ok() {
597 self.whitespace()?;
598 let (name, ty) = self.ident_typed()?;
599 self.declare_symbol(&name)?;
600 self.until(b'=')?;
601 let value = self.get_expr()?;
602 self.until(b';')?;
603 Stmt::new(StmtKind::Const { name, ty, value, is_pub }, Span::new(start, self.current_pos()))
604 } else if self.keyword("static").is_ok() {
605 self.whitespace()?;
606 let (name, ty) = self.ident_typed()?;
607 self.declare_symbol(&name)?;
608 self.whitespace()?;
609 if self.take(b'=').is_ok() {
610 let expr = self.get_expr()?;
611 self.until(b';')?;
612 Stmt::new(StmtKind::Static { name, ty, value: Some(expr), is_pub }, Span::new(start, self.current_pos()))
613 } else {
614 self.until(b';')?;
615 Stmt::new(StmtKind::Static { name, ty, value: None, is_pub }, Span::new(start, self.current_pos()))
616 }
617 } else if self.keyword("impl").is_ok() {
618 self.whitespace()?;
619 let target = self.get_type()?;
620 Stmt::new(StmtKind::Impl { target, body: Box::new(self.impl_body()?) }, Span::new(start, self.current_pos()))
621 } else if self.keyword("pub").is_ok() {
622 self.stmt(true)?
623 } else {
624 let expr = if self.get()? == b'{' {
625 if self.looks_like_empty_dict() {
626 self.dict()?
627 } else if let Ok(block) = try_parse!(self, self.block()) {
628 let _ = self.spans.pop();
629 return Ok(block);
630 } else if let Ok(dict) = try_parse!(self, self.dict()) {
631 dict
632 } else {
633 let block = self.block()?;
634 let _ = self.spans.pop();
635 return Ok(block);
636 }
637 } else {
638 self.get_expr()?
639 };
640 self.whitespace()?;
641 if self.is_eof() {
642 Stmt::new(StmtKind::Expr(expr, false), Span::new(start, self.current_pos()))
643 } else if self.get()? == b';' {
644 self.pos += 1;
645 Stmt::new(StmtKind::Expr(expr, true), Span::new(start, self.current_pos()))
646 } else if self.get()? == b'}' {
647 Stmt::new(StmtKind::Expr(expr, false), Span::new(start, self.current_pos()))
648 } else {
649 return Err(anyhow!("未结束的表达式"));
650 }
651 };
652 let _ = self.spans.pop();
653 Ok(stmt)
654 }
655}