1use internals::symbol::*;
2use internals::Ctxt;
3use proc_macro2::{Group, Span, TokenStream, TokenTree};
4use quote::ToTokens;
5use std::borrow::Cow;
6use std::collections::BTreeSet;
7use std::str::FromStr;
8use syn;
9use syn::parse::{self, Parse, ParseStream};
10use syn::punctuated::Punctuated;
11use syn::Ident;
12use syn::Meta::{List, NameValue, Path};
13use syn::NestedMeta::{Lit, Meta};
14
15pub use internals::case::RenameRule;
24
25struct Attr<'c, T> {
26 cx: &'c Ctxt,
27 name: Symbol,
28 tokens: TokenStream,
29 value: Option<T>,
30}
31
32impl<'c, T> Attr<'c, T> {
33 fn none(cx: &'c Ctxt, name: Symbol) -> Self {
34 Attr {
35 cx: cx,
36 name: name,
37 tokens: TokenStream::new(),
38 value: None,
39 }
40 }
41
42 fn set<A: ToTokens>(&mut self, obj: A, value: T) {
43 let tokens = obj.into_token_stream();
44
45 if self.value.is_some() {
46 self.cx
47 .error_spanned_by(tokens, format!("duplicate serde attribute `{}`", self.name));
48 } else {
49 self.tokens = tokens;
50 self.value = Some(value);
51 }
52 }
53
54 fn set_opt<A: ToTokens>(&mut self, obj: A, value: Option<T>) {
55 if let Some(value) = value {
56 self.set(obj, value);
57 }
58 }
59
60 fn set_if_none(&mut self, value: T) {
61 if self.value.is_none() {
62 self.value = Some(value);
63 }
64 }
65
66 fn get(self) -> Option<T> {
67 self.value
68 }
69
70 fn get_with_tokens(self) -> Option<(TokenStream, T)> {
71 match self.value {
72 Some(v) => Some((self.tokens, v)),
73 None => None,
74 }
75 }
76}
77
78struct BoolAttr<'c>(Attr<'c, ()>);
79
80impl<'c> BoolAttr<'c> {
81 fn none(cx: &'c Ctxt, name: Symbol) -> Self {
82 BoolAttr(Attr::none(cx, name))
83 }
84
85 fn set_true<A: ToTokens>(&mut self, obj: A) {
86 self.0.set(obj, ());
87 }
88
89 fn get(&self) -> bool {
90 self.0.value.is_some()
91 }
92}
93
94struct VecAttr<'c, T> {
95 cx: &'c Ctxt,
96 name: Symbol,
97 first_dup_tokens: TokenStream,
98 values: Vec<T>,
99}
100
101impl<'c, T> VecAttr<'c, T> {
102 fn none(cx: &'c Ctxt, name: Symbol) -> Self {
103 VecAttr {
104 cx: cx,
105 name: name,
106 first_dup_tokens: TokenStream::new(),
107 values: Vec::new(),
108 }
109 }
110
111 fn insert<A: ToTokens>(&mut self, obj: A, value: T) {
112 if self.values.len() == 1 {
113 self.first_dup_tokens = obj.into_token_stream();
114 }
115 self.values.push(value);
116 }
117
118 fn at_most_one(mut self) -> Result<Option<T>, ()> {
119 if self.values.len() > 1 {
120 let dup_token = self.first_dup_tokens;
121 self.cx.error_spanned_by(
122 dup_token,
123 format!("duplicate serde attribute `{}`", self.name),
124 );
125 Err(())
126 } else {
127 Ok(self.values.pop())
128 }
129 }
130
131 fn get(self) -> Vec<T> {
132 self.values
133 }
134}
135
136pub struct Name {
137 serialize: String,
138 serialize_renamed: bool,
139 deserialize: String,
140 deserialize_renamed: bool,
141 deserialize_aliases: Vec<String>,
142}
143
144#[allow(deprecated)]
145fn unraw(ident: &Ident) -> String {
146 ident.to_string().trim_left_matches("r#").to_owned()
150}
151
152impl Name {
153 fn from_attrs(
154 source_name: String,
155 ser_name: Attr<String>,
156 de_name: Attr<String>,
157 de_aliases: Option<VecAttr<String>>,
158 ) -> Name {
159 let deserialize_aliases = match de_aliases {
160 Some(de_aliases) => {
161 let mut alias_list = BTreeSet::new();
162 for alias_name in de_aliases.get() {
163 alias_list.insert(alias_name);
164 }
165 alias_list.into_iter().collect()
166 }
167 None => Vec::new(),
168 };
169
170 let ser_name = ser_name.get();
171 let ser_renamed = ser_name.is_some();
172 let de_name = de_name.get();
173 let de_renamed = de_name.is_some();
174 Name {
175 serialize: ser_name.unwrap_or_else(|| source_name.clone()),
176 serialize_renamed: ser_renamed,
177 deserialize: de_name.unwrap_or(source_name),
178 deserialize_renamed: de_renamed,
179 deserialize_aliases: deserialize_aliases,
180 }
181 }
182
183 pub fn serialize_name(&self) -> String {
185 self.serialize.clone()
186 }
187
188 pub fn deserialize_name(&self) -> String {
190 self.deserialize.clone()
191 }
192
193 fn deserialize_aliases(&self) -> Vec<String> {
194 let mut aliases = self.deserialize_aliases.clone();
195 let main_name = self.deserialize_name();
196 if !aliases.contains(&main_name) {
197 aliases.push(main_name);
198 }
199 aliases
200 }
201}
202
203pub struct RenameAllRules {
204 serialize: RenameRule,
205 deserialize: RenameRule,
206}
207
208pub struct Container {
210 name: Name,
211 transparent: bool,
212 deny_unknown_fields: bool,
213 default: Default,
214 rename_all_rules: RenameAllRules,
215 ser_bound: Option<Vec<syn::WherePredicate>>,
216 de_bound: Option<Vec<syn::WherePredicate>>,
217 tag: TagType,
218 type_from: Option<syn::Type>,
219 type_try_from: Option<syn::Type>,
220 type_into: Option<syn::Type>,
221 remote: Option<syn::Path>,
222 identifier: Identifier,
223 has_flatten: bool,
224 serde_path: Option<syn::Path>,
225}
226
227pub enum TagType {
229 External,
235
236 Internal { tag: String },
242
243 Adjacent { tag: String, content: String },
249
250 None,
256}
257
258#[derive(Copy, Clone)]
261pub enum Identifier {
262 No,
264
265 Field,
269
270 Variant,
273}
274
275impl Identifier {
276 #[cfg(feature = "deserialize_in_place")]
277 pub fn is_some(self) -> bool {
278 match self {
279 Identifier::No => false,
280 Identifier::Field | Identifier::Variant => true,
281 }
282 }
283}
284
285impl Container {
286 pub fn from_ast(cx: &Ctxt, item: &syn::DeriveInput) -> Self {
288 let mut ser_name = Attr::none(cx, RENAME);
289 let mut de_name = Attr::none(cx, RENAME);
290 let mut transparent = BoolAttr::none(cx, TRANSPARENT);
291 let mut deny_unknown_fields = BoolAttr::none(cx, DENY_UNKNOWN_FIELDS);
292 let mut default = Attr::none(cx, DEFAULT);
293 let mut rename_all_ser_rule = Attr::none(cx, RENAME_ALL);
294 let mut rename_all_de_rule = Attr::none(cx, RENAME_ALL);
295 let mut ser_bound = Attr::none(cx, BOUND);
296 let mut de_bound = Attr::none(cx, BOUND);
297 let mut untagged = BoolAttr::none(cx, UNTAGGED);
298 let mut internal_tag = Attr::none(cx, TAG);
299 let mut content = Attr::none(cx, CONTENT);
300 let mut type_from = Attr::none(cx, FROM);
301 let mut type_try_from = Attr::none(cx, TRY_FROM);
302 let mut type_into = Attr::none(cx, INTO);
303 let mut remote = Attr::none(cx, REMOTE);
304 let mut field_identifier = BoolAttr::none(cx, FIELD_IDENTIFIER);
305 let mut variant_identifier = BoolAttr::none(cx, VARIANT_IDENTIFIER);
306 let mut serde_path = Attr::none(cx, CRATE);
307
308 for meta_item in item
309 .attrs
310 .iter()
311 .flat_map(|attr| get_serde_meta_items(cx, attr))
312 .flatten()
313 {
314 match &meta_item {
315 Meta(NameValue(m)) if m.path == RENAME => {
317 if let Ok(s) = get_lit_str(cx, RENAME, &m.lit) {
318 ser_name.set(&m.path, s.value());
319 de_name.set(&m.path, s.value());
320 }
321 }
322
323 Meta(List(m)) if m.path == RENAME => {
325 if let Ok((ser, de)) = get_renames(cx, &m.nested) {
326 ser_name.set_opt(&m.path, ser.map(syn::LitStr::value));
327 de_name.set_opt(&m.path, de.map(syn::LitStr::value));
328 }
329 }
330
331 Meta(NameValue(m)) if m.path == RENAME_ALL => {
333 if let Ok(s) = get_lit_str(cx, RENAME_ALL, &m.lit) {
334 match RenameRule::from_str(&s.value()) {
335 Ok(rename_rule) => {
336 rename_all_ser_rule.set(&m.path, rename_rule);
337 rename_all_de_rule.set(&m.path, rename_rule);
338 }
339 Err(()) => cx.error_spanned_by(
340 s,
341 format!(
342 "unknown rename rule for #[serde(rename_all = {:?})]",
343 s.value(),
344 ),
345 ),
346 }
347 }
348 }
349
350 Meta(List(m)) if m.path == RENAME_ALL => {
352 if let Ok((ser, de)) = get_renames(cx, &m.nested) {
353 if let Some(ser) = ser {
354 match RenameRule::from_str(&ser.value()) {
355 Ok(rename_rule) => rename_all_ser_rule.set(&m.path, rename_rule),
356 Err(()) => cx.error_spanned_by(
357 ser,
358 format!(
359 "unknown rename rule for #[serde(rename_all = {:?})]",
360 ser.value(),
361 ),
362 ),
363 }
364 }
365 if let Some(de) = de {
366 match RenameRule::from_str(&de.value()) {
367 Ok(rename_rule) => rename_all_de_rule.set(&m.path, rename_rule),
368 Err(()) => cx.error_spanned_by(
369 de,
370 format!(
371 "unknown rename rule for #[serde(rename_all = {:?})]",
372 de.value(),
373 ),
374 ),
375 }
376 }
377 }
378 }
379
380 Meta(Path(word)) if word == TRANSPARENT => {
382 transparent.set_true(word);
383 }
384
385 Meta(Path(word)) if word == DENY_UNKNOWN_FIELDS => {
387 deny_unknown_fields.set_true(word);
388 }
389
390 Meta(Path(word)) if word == DEFAULT => match &item.data {
392 syn::Data::Struct(syn::DataStruct { fields, .. }) => match fields {
393 syn::Fields::Named(_) => {
394 default.set(word, Default::Default);
395 }
396 syn::Fields::Unnamed(_) | syn::Fields::Unit => cx.error_spanned_by(
397 fields,
398 "#[serde(default)] can only be used on structs with named fields",
399 ),
400 },
401 syn::Data::Enum(syn::DataEnum { enum_token, .. }) => cx.error_spanned_by(
402 enum_token,
403 "#[serde(default)] can only be used on structs with named fields",
404 ),
405 syn::Data::Union(syn::DataUnion { union_token, .. }) => cx.error_spanned_by(
406 union_token,
407 "#[serde(default)] can only be used on structs with named fields",
408 ),
409 },
410
411 Meta(NameValue(m)) if m.path == DEFAULT => {
413 if let Ok(path) = parse_lit_into_expr_path(cx, DEFAULT, &m.lit) {
414 match &item.data {
415 syn::Data::Struct(syn::DataStruct { fields, .. }) => {
416 match fields {
417 syn::Fields::Named(_) => {
418 default.set(&m.path, Default::Path(path));
419 }
420 syn::Fields::Unnamed(_) | syn::Fields::Unit => cx
421 .error_spanned_by(
422 fields,
423 "#[serde(default = \"...\")] can only be used on structs with named fields",
424 ),
425 }
426 }
427 syn::Data::Enum(syn::DataEnum { enum_token, .. }) => cx
428 .error_spanned_by(
429 enum_token,
430 "#[serde(default = \"...\")] can only be used on structs with named fields",
431 ),
432 syn::Data::Union(syn::DataUnion {
433 union_token, ..
434 }) => cx.error_spanned_by(
435 union_token,
436 "#[serde(default = \"...\")] can only be used on structs with named fields",
437 ),
438 }
439 }
440 }
441
442 Meta(NameValue(m)) if m.path == BOUND => {
444 if let Ok(where_predicates) = parse_lit_into_where(cx, BOUND, BOUND, &m.lit) {
445 ser_bound.set(&m.path, where_predicates.clone());
446 de_bound.set(&m.path, where_predicates);
447 }
448 }
449
450 Meta(List(m)) if m.path == BOUND => {
452 if let Ok((ser, de)) = get_where_predicates(cx, &m.nested) {
453 ser_bound.set_opt(&m.path, ser);
454 de_bound.set_opt(&m.path, de);
455 }
456 }
457
458 Meta(Path(word)) if word == UNTAGGED => match item.data {
460 syn::Data::Enum(_) => {
461 untagged.set_true(word);
462 }
463 syn::Data::Struct(syn::DataStruct { struct_token, .. }) => {
464 cx.error_spanned_by(
465 struct_token,
466 "#[serde(untagged)] can only be used on enums",
467 );
468 }
469 syn::Data::Union(syn::DataUnion { union_token, .. }) => {
470 cx.error_spanned_by(
471 union_token,
472 "#[serde(untagged)] can only be used on enums",
473 );
474 }
475 },
476
477 Meta(NameValue(m)) if m.path == TAG => {
479 if let Ok(s) = get_lit_str(cx, TAG, &m.lit) {
480 match &item.data {
481 syn::Data::Enum(_) => {
482 internal_tag.set(&m.path, s.value());
483 }
484 syn::Data::Struct(syn::DataStruct { fields, .. }) => match fields {
485 syn::Fields::Named(_) => {
486 internal_tag.set(&m.path, s.value());
487 }
488 syn::Fields::Unnamed(_) | syn::Fields::Unit => {
489 cx.error_spanned_by(
490 fields,
491 "#[serde(tag = \"...\")] can only be used on enums and structs with named fields",
492 );
493 }
494 },
495 syn::Data::Union(syn::DataUnion { union_token, .. }) => {
496 cx.error_spanned_by(
497 union_token,
498 "#[serde(tag = \"...\")] can only be used on enums and structs with named fields",
499 );
500 }
501 }
502 }
503 }
504
505 Meta(NameValue(m)) if m.path == CONTENT => {
507 if let Ok(s) = get_lit_str(cx, CONTENT, &m.lit) {
508 match &item.data {
509 syn::Data::Enum(_) => {
510 content.set(&m.path, s.value());
511 }
512 syn::Data::Struct(syn::DataStruct { struct_token, .. }) => {
513 cx.error_spanned_by(
514 struct_token,
515 "#[serde(content = \"...\")] can only be used on enums",
516 );
517 }
518 syn::Data::Union(syn::DataUnion { union_token, .. }) => {
519 cx.error_spanned_by(
520 union_token,
521 "#[serde(content = \"...\")] can only be used on enums",
522 );
523 }
524 }
525 }
526 }
527
528 Meta(NameValue(m)) if m.path == FROM => {
530 if let Ok(from_ty) = parse_lit_into_ty(cx, FROM, &m.lit) {
531 type_from.set_opt(&m.path, Some(from_ty));
532 }
533 }
534
535 Meta(NameValue(m)) if m.path == TRY_FROM => {
537 if let Ok(try_from_ty) = parse_lit_into_ty(cx, TRY_FROM, &m.lit) {
538 type_try_from.set_opt(&m.path, Some(try_from_ty));
539 }
540 }
541
542 Meta(NameValue(m)) if m.path == INTO => {
544 if let Ok(into_ty) = parse_lit_into_ty(cx, INTO, &m.lit) {
545 type_into.set_opt(&m.path, Some(into_ty));
546 }
547 }
548
549 Meta(NameValue(m)) if m.path == REMOTE => {
551 if let Ok(path) = parse_lit_into_path(cx, REMOTE, &m.lit) {
552 if is_primitive_path(&path, "Self") {
553 remote.set(&m.path, item.ident.clone().into());
554 } else {
555 remote.set(&m.path, path);
556 }
557 }
558 }
559
560 Meta(Path(word)) if word == FIELD_IDENTIFIER => {
562 field_identifier.set_true(word);
563 }
564
565 Meta(Path(word)) if word == VARIANT_IDENTIFIER => {
567 variant_identifier.set_true(word);
568 }
569
570 Meta(NameValue(m)) if m.path == CRATE => {
572 if let Ok(path) = parse_lit_into_path(cx, CRATE, &m.lit) {
573 serde_path.set(&m.path, path)
574 }
575 }
576
577 Meta(meta_item) => {
578 let path = meta_item
579 .path()
580 .into_token_stream()
581 .to_string()
582 .replace(' ', "");
583 cx.error_spanned_by(
584 meta_item.path(),
585 format!("unknown serde container attribute `{}`", path),
586 );
587 }
588
589 Lit(lit) => {
590 cx.error_spanned_by(lit, "unexpected literal in serde container attribute");
591 }
592 }
593 }
594
595 Container {
596 name: Name::from_attrs(unraw(&item.ident), ser_name, de_name, None),
597 transparent: transparent.get(),
598 deny_unknown_fields: deny_unknown_fields.get(),
599 default: default.get().unwrap_or(Default::None),
600 rename_all_rules: RenameAllRules {
601 serialize: rename_all_ser_rule.get().unwrap_or(RenameRule::None),
602 deserialize: rename_all_de_rule.get().unwrap_or(RenameRule::None),
603 },
604 ser_bound: ser_bound.get(),
605 de_bound: de_bound.get(),
606 tag: decide_tag(cx, item, untagged, internal_tag, content),
607 type_from: type_from.get(),
608 type_try_from: type_try_from.get(),
609 type_into: type_into.get(),
610 remote: remote.get(),
611 identifier: decide_identifier(cx, item, field_identifier, variant_identifier),
612 has_flatten: false,
613 serde_path: serde_path.get(),
614 }
615 }
616
617 pub fn name(&self) -> &Name {
618 &self.name
619 }
620
621 pub fn rename_all_rules(&self) -> &RenameAllRules {
622 &self.rename_all_rules
623 }
624
625 pub fn transparent(&self) -> bool {
626 self.transparent
627 }
628
629 pub fn deny_unknown_fields(&self) -> bool {
630 self.deny_unknown_fields
631 }
632
633 pub fn default(&self) -> &Default {
634 &self.default
635 }
636
637 pub fn ser_bound(&self) -> Option<&[syn::WherePredicate]> {
638 self.ser_bound.as_ref().map(|vec| &vec[..])
639 }
640
641 pub fn de_bound(&self) -> Option<&[syn::WherePredicate]> {
642 self.de_bound.as_ref().map(|vec| &vec[..])
643 }
644
645 pub fn tag(&self) -> &TagType {
646 &self.tag
647 }
648
649 pub fn type_from(&self) -> Option<&syn::Type> {
650 self.type_from.as_ref()
651 }
652
653 pub fn type_try_from(&self) -> Option<&syn::Type> {
654 self.type_try_from.as_ref()
655 }
656
657 pub fn type_into(&self) -> Option<&syn::Type> {
658 self.type_into.as_ref()
659 }
660
661 pub fn remote(&self) -> Option<&syn::Path> {
662 self.remote.as_ref()
663 }
664
665 pub fn identifier(&self) -> Identifier {
666 self.identifier
667 }
668
669 pub fn has_flatten(&self) -> bool {
670 self.has_flatten
671 }
672
673 pub fn mark_has_flatten(&mut self) {
674 self.has_flatten = true;
675 }
676
677 pub fn custom_serde_path(&self) -> Option<&syn::Path> {
678 self.serde_path.as_ref()
679 }
680
681 pub fn serde_path(&self) -> Cow<syn::Path> {
682 self.custom_serde_path()
683 .map_or_else(|| Cow::Owned(parse_quote!(_serde)), Cow::Borrowed)
684 }
685}
686
687fn decide_tag(
688 cx: &Ctxt,
689 item: &syn::DeriveInput,
690 untagged: BoolAttr,
691 internal_tag: Attr<String>,
692 content: Attr<String>,
693) -> TagType {
694 match (
695 untagged.0.get_with_tokens(),
696 internal_tag.get_with_tokens(),
697 content.get_with_tokens(),
698 ) {
699 (None, None, None) => TagType::External,
700 (Some(_), None, None) => TagType::None,
701 (None, Some((_, tag)), None) => {
702 if let syn::Data::Enum(data) = &item.data {
704 for variant in &data.variants {
705 match &variant.fields {
706 syn::Fields::Named(_) | syn::Fields::Unit => {}
707 syn::Fields::Unnamed(fields) => {
708 if fields.unnamed.len() != 1 {
709 cx.error_spanned_by(
710 variant,
711 "#[serde(tag = \"...\")] cannot be used with tuple variants",
712 );
713 break;
714 }
715 }
716 }
717 }
718 }
719 TagType::Internal { tag: tag }
720 }
721 (Some((untagged_tokens, _)), Some((tag_tokens, _)), None) => {
722 cx.error_spanned_by(
723 untagged_tokens,
724 "enum cannot be both untagged and internally tagged",
725 );
726 cx.error_spanned_by(
727 tag_tokens,
728 "enum cannot be both untagged and internally tagged",
729 );
730 TagType::External }
732 (None, None, Some((content_tokens, _))) => {
733 cx.error_spanned_by(
734 content_tokens,
735 "#[serde(tag = \"...\", content = \"...\")] must be used together",
736 );
737 TagType::External
738 }
739 (Some((untagged_tokens, _)), None, Some((content_tokens, _))) => {
740 cx.error_spanned_by(
741 untagged_tokens,
742 "untagged enum cannot have #[serde(content = \"...\")]",
743 );
744 cx.error_spanned_by(
745 content_tokens,
746 "untagged enum cannot have #[serde(content = \"...\")]",
747 );
748 TagType::External
749 }
750 (None, Some((_, tag)), Some((_, content))) => TagType::Adjacent {
751 tag: tag,
752 content: content,
753 },
754 (Some((untagged_tokens, _)), Some((tag_tokens, _)), Some((content_tokens, _))) => {
755 cx.error_spanned_by(
756 untagged_tokens,
757 "untagged enum cannot have #[serde(tag = \"...\", content = \"...\")]",
758 );
759 cx.error_spanned_by(
760 tag_tokens,
761 "untagged enum cannot have #[serde(tag = \"...\", content = \"...\")]",
762 );
763 cx.error_spanned_by(
764 content_tokens,
765 "untagged enum cannot have #[serde(tag = \"...\", content = \"...\")]",
766 );
767 TagType::External
768 }
769 }
770}
771
772fn decide_identifier(
773 cx: &Ctxt,
774 item: &syn::DeriveInput,
775 field_identifier: BoolAttr,
776 variant_identifier: BoolAttr,
777) -> Identifier {
778 match (
779 &item.data,
780 field_identifier.0.get_with_tokens(),
781 variant_identifier.0.get_with_tokens(),
782 ) {
783 (_, None, None) => Identifier::No,
784 (_, Some((field_identifier_tokens, _)), Some((variant_identifier_tokens, _))) => {
785 cx.error_spanned_by(
786 field_identifier_tokens,
787 "#[serde(field_identifier)] and #[serde(variant_identifier)] cannot both be set",
788 );
789 cx.error_spanned_by(
790 variant_identifier_tokens,
791 "#[serde(field_identifier)] and #[serde(variant_identifier)] cannot both be set",
792 );
793 Identifier::No
794 }
795 (syn::Data::Enum(_), Some(_), None) => Identifier::Field,
796 (syn::Data::Enum(_), None, Some(_)) => Identifier::Variant,
797 (syn::Data::Struct(syn::DataStruct { struct_token, .. }), Some(_), None) => {
798 cx.error_spanned_by(
799 struct_token,
800 "#[serde(field_identifier)] can only be used on an enum",
801 );
802 Identifier::No
803 }
804 (syn::Data::Union(syn::DataUnion { union_token, .. }), Some(_), None) => {
805 cx.error_spanned_by(
806 union_token,
807 "#[serde(field_identifier)] can only be used on an enum",
808 );
809 Identifier::No
810 }
811 (syn::Data::Struct(syn::DataStruct { struct_token, .. }), None, Some(_)) => {
812 cx.error_spanned_by(
813 struct_token,
814 "#[serde(variant_identifier)] can only be used on an enum",
815 );
816 Identifier::No
817 }
818 (syn::Data::Union(syn::DataUnion { union_token, .. }), None, Some(_)) => {
819 cx.error_spanned_by(
820 union_token,
821 "#[serde(variant_identifier)] can only be used on an enum",
822 );
823 Identifier::No
824 }
825 }
826}
827
828pub struct Variant {
830 name: Name,
831 rename_all_rules: RenameAllRules,
832 ser_bound: Option<Vec<syn::WherePredicate>>,
833 de_bound: Option<Vec<syn::WherePredicate>>,
834 skip_deserializing: bool,
835 skip_serializing: bool,
836 other: bool,
837 serialize_with: Option<syn::ExprPath>,
838 deserialize_with: Option<syn::ExprPath>,
839 borrow: Option<syn::Meta>,
840}
841
842impl Variant {
843 pub fn from_ast(cx: &Ctxt, variant: &syn::Variant) -> Self {
844 let mut ser_name = Attr::none(cx, RENAME);
845 let mut de_name = Attr::none(cx, RENAME);
846 let mut de_aliases = VecAttr::none(cx, RENAME);
847 let mut skip_deserializing = BoolAttr::none(cx, SKIP_DESERIALIZING);
848 let mut skip_serializing = BoolAttr::none(cx, SKIP_SERIALIZING);
849 let mut rename_all_ser_rule = Attr::none(cx, RENAME_ALL);
850 let mut rename_all_de_rule = Attr::none(cx, RENAME_ALL);
851 let mut ser_bound = Attr::none(cx, BOUND);
852 let mut de_bound = Attr::none(cx, BOUND);
853 let mut other = BoolAttr::none(cx, OTHER);
854 let mut serialize_with = Attr::none(cx, SERIALIZE_WITH);
855 let mut deserialize_with = Attr::none(cx, DESERIALIZE_WITH);
856 let mut borrow = Attr::none(cx, BORROW);
857
858 for meta_item in variant
859 .attrs
860 .iter()
861 .flat_map(|attr| get_serde_meta_items(cx, attr))
862 .flatten()
863 {
864 match &meta_item {
865 Meta(NameValue(m)) if m.path == RENAME => {
867 if let Ok(s) = get_lit_str(cx, RENAME, &m.lit) {
868 ser_name.set(&m.path, s.value());
869 de_name.set_if_none(s.value());
870 de_aliases.insert(&m.path, s.value());
871 }
872 }
873
874 Meta(List(m)) if m.path == RENAME => {
876 if let Ok((ser, de)) = get_multiple_renames(cx, &m.nested) {
877 ser_name.set_opt(&m.path, ser.map(syn::LitStr::value));
878 for de_value in de {
879 de_name.set_if_none(de_value.value());
880 de_aliases.insert(&m.path, de_value.value());
881 }
882 }
883 }
884
885 Meta(NameValue(m)) if m.path == ALIAS => {
887 if let Ok(s) = get_lit_str(cx, ALIAS, &m.lit) {
888 de_aliases.insert(&m.path, s.value());
889 }
890 }
891
892 Meta(NameValue(m)) if m.path == RENAME_ALL => {
894 if let Ok(s) = get_lit_str(cx, RENAME_ALL, &m.lit) {
895 match RenameRule::from_str(&s.value()) {
896 Ok(rename_rule) => {
897 rename_all_ser_rule.set(&m.path, rename_rule);
898 rename_all_de_rule.set(&m.path, rename_rule);
899 }
900 Err(()) => cx.error_spanned_by(
901 s,
902 format!(
903 "unknown rename rule for #[serde(rename_all = {:?})]",
904 s.value()
905 ),
906 ),
907 }
908 }
909 }
910
911 Meta(List(m)) if m.path == RENAME_ALL => {
913 if let Ok((ser, de)) = get_renames(cx, &m.nested) {
914 if let Some(ser) = ser {
915 match RenameRule::from_str(&ser.value()) {
916 Ok(rename_rule) => rename_all_ser_rule.set(&m.path, rename_rule),
917 Err(()) => cx.error_spanned_by(
918 ser,
919 format!(
920 "unknown rename rule for #[serde(rename_all = {:?})]",
921 ser.value(),
922 ),
923 ),
924 }
925 }
926 if let Some(de) = de {
927 match RenameRule::from_str(&de.value()) {
928 Ok(rename_rule) => rename_all_de_rule.set(&m.path, rename_rule),
929 Err(()) => cx.error_spanned_by(
930 de,
931 format!(
932 "unknown rename rule for #[serde(rename_all = {:?})]",
933 de.value(),
934 ),
935 ),
936 }
937 }
938 }
939 }
940
941 Meta(Path(word)) if word == SKIP => {
943 skip_serializing.set_true(word);
944 skip_deserializing.set_true(word);
945 }
946
947 Meta(Path(word)) if word == SKIP_DESERIALIZING => {
949 skip_deserializing.set_true(word);
950 }
951
952 Meta(Path(word)) if word == SKIP_SERIALIZING => {
954 skip_serializing.set_true(word);
955 }
956
957 Meta(Path(word)) if word == OTHER => {
959 other.set_true(word);
960 }
961
962 Meta(NameValue(m)) if m.path == BOUND => {
964 if let Ok(where_predicates) = parse_lit_into_where(cx, BOUND, BOUND, &m.lit) {
965 ser_bound.set(&m.path, where_predicates.clone());
966 de_bound.set(&m.path, where_predicates);
967 }
968 }
969
970 Meta(List(m)) if m.path == BOUND => {
972 if let Ok((ser, de)) = get_where_predicates(cx, &m.nested) {
973 ser_bound.set_opt(&m.path, ser);
974 de_bound.set_opt(&m.path, de);
975 }
976 }
977
978 Meta(NameValue(m)) if m.path == WITH => {
980 if let Ok(path) = parse_lit_into_expr_path(cx, WITH, &m.lit) {
981 let mut ser_path = path.clone();
982 ser_path
983 .path
984 .segments
985 .push(Ident::new("serialize", Span::call_site()).into());
986 serialize_with.set(&m.path, ser_path);
987 let mut de_path = path;
988 de_path
989 .path
990 .segments
991 .push(Ident::new("deserialize", Span::call_site()).into());
992 deserialize_with.set(&m.path, de_path);
993 }
994 }
995
996 Meta(NameValue(m)) if m.path == SERIALIZE_WITH => {
998 if let Ok(path) = parse_lit_into_expr_path(cx, SERIALIZE_WITH, &m.lit) {
999 serialize_with.set(&m.path, path);
1000 }
1001 }
1002
1003 Meta(NameValue(m)) if m.path == DESERIALIZE_WITH => {
1005 if let Ok(path) = parse_lit_into_expr_path(cx, DESERIALIZE_WITH, &m.lit) {
1006 deserialize_with.set(&m.path, path);
1007 }
1008 }
1009
1010 Meta(m) if m.path() == BORROW => match &variant.fields {
1012 syn::Fields::Unnamed(fields) if fields.unnamed.len() == 1 => {
1013 borrow.set(m.path(), m.clone());
1014 }
1015 _ => {
1016 cx.error_spanned_by(
1017 variant,
1018 "#[serde(borrow)] may only be used on newtype variants",
1019 );
1020 }
1021 },
1022
1023 Meta(meta_item) => {
1024 let path = meta_item
1025 .path()
1026 .into_token_stream()
1027 .to_string()
1028 .replace(' ', "");
1029 cx.error_spanned_by(
1030 meta_item.path(),
1031 format!("unknown serde variant attribute `{}`", path),
1032 );
1033 }
1034
1035 Lit(lit) => {
1036 cx.error_spanned_by(lit, "unexpected literal in serde variant attribute");
1037 }
1038 }
1039 }
1040
1041 Variant {
1042 name: Name::from_attrs(unraw(&variant.ident), ser_name, de_name, Some(de_aliases)),
1043 rename_all_rules: RenameAllRules {
1044 serialize: rename_all_ser_rule.get().unwrap_or(RenameRule::None),
1045 deserialize: rename_all_de_rule.get().unwrap_or(RenameRule::None),
1046 },
1047 ser_bound: ser_bound.get(),
1048 de_bound: de_bound.get(),
1049 skip_deserializing: skip_deserializing.get(),
1050 skip_serializing: skip_serializing.get(),
1051 other: other.get(),
1052 serialize_with: serialize_with.get(),
1053 deserialize_with: deserialize_with.get(),
1054 borrow: borrow.get(),
1055 }
1056 }
1057
1058 pub fn name(&self) -> &Name {
1059 &self.name
1060 }
1061
1062 pub fn aliases(&self) -> Vec<String> {
1063 self.name.deserialize_aliases()
1064 }
1065
1066 pub fn rename_by_rules(&mut self, rules: &RenameAllRules) {
1067 if !self.name.serialize_renamed {
1068 self.name.serialize = rules.serialize.apply_to_variant(&self.name.serialize);
1069 }
1070 if !self.name.deserialize_renamed {
1071 self.name.deserialize = rules.deserialize.apply_to_variant(&self.name.deserialize);
1072 }
1073 }
1074
1075 pub fn rename_all_rules(&self) -> &RenameAllRules {
1076 &self.rename_all_rules
1077 }
1078
1079 pub fn ser_bound(&self) -> Option<&[syn::WherePredicate]> {
1080 self.ser_bound.as_ref().map(|vec| &vec[..])
1081 }
1082
1083 pub fn de_bound(&self) -> Option<&[syn::WherePredicate]> {
1084 self.de_bound.as_ref().map(|vec| &vec[..])
1085 }
1086
1087 pub fn skip_deserializing(&self) -> bool {
1088 self.skip_deserializing
1089 }
1090
1091 pub fn skip_serializing(&self) -> bool {
1092 self.skip_serializing
1093 }
1094
1095 pub fn other(&self) -> bool {
1096 self.other
1097 }
1098
1099 pub fn serialize_with(&self) -> Option<&syn::ExprPath> {
1100 self.serialize_with.as_ref()
1101 }
1102
1103 pub fn deserialize_with(&self) -> Option<&syn::ExprPath> {
1104 self.deserialize_with.as_ref()
1105 }
1106}
1107
1108pub struct Field {
1110 name: Name,
1111 skip_serializing: bool,
1112 skip_deserializing: bool,
1113 skip_serializing_if: Option<syn::ExprPath>,
1114 default: Default,
1115 serialize_with: Option<syn::ExprPath>,
1116 deserialize_with: Option<syn::ExprPath>,
1117 ser_bound: Option<Vec<syn::WherePredicate>>,
1118 de_bound: Option<Vec<syn::WherePredicate>>,
1119 borrowed_lifetimes: BTreeSet<syn::Lifetime>,
1120 getter: Option<syn::ExprPath>,
1121 flatten: bool,
1122 transparent: bool,
1123}
1124
1125pub enum Default {
1127 None,
1129 Default,
1131 Path(syn::ExprPath),
1133}
1134
1135impl Default {
1136 pub fn is_none(&self) -> bool {
1137 match self {
1138 Default::None => true,
1139 Default::Default | Default::Path(_) => false,
1140 }
1141 }
1142}
1143
1144impl Field {
1145 pub fn from_ast(
1147 cx: &Ctxt,
1148 index: usize,
1149 field: &syn::Field,
1150 attrs: Option<&Variant>,
1151 container_default: &Default,
1152 ) -> Self {
1153 let mut ser_name = Attr::none(cx, RENAME);
1154 let mut de_name = Attr::none(cx, RENAME);
1155 let mut de_aliases = VecAttr::none(cx, RENAME);
1156 let mut skip_serializing = BoolAttr::none(cx, SKIP_SERIALIZING);
1157 let mut skip_deserializing = BoolAttr::none(cx, SKIP_DESERIALIZING);
1158 let mut skip_serializing_if = Attr::none(cx, SKIP_SERIALIZING_IF);
1159 let mut default = Attr::none(cx, DEFAULT);
1160 let mut serialize_with = Attr::none(cx, SERIALIZE_WITH);
1161 let mut deserialize_with = Attr::none(cx, DESERIALIZE_WITH);
1162 let mut ser_bound = Attr::none(cx, BOUND);
1163 let mut de_bound = Attr::none(cx, BOUND);
1164 let mut borrowed_lifetimes = Attr::none(cx, BORROW);
1165 let mut getter = Attr::none(cx, GETTER);
1166 let mut flatten = BoolAttr::none(cx, FLATTEN);
1167
1168 let ident = match &field.ident {
1169 Some(ident) => unraw(ident),
1170 None => index.to_string(),
1171 };
1172
1173 let variant_borrow = attrs
1174 .and_then(|variant| variant.borrow.as_ref())
1175 .map(|borrow| Meta(borrow.clone()));
1176
1177 for meta_item in field
1178 .attrs
1179 .iter()
1180 .flat_map(|attr| get_serde_meta_items(cx, attr))
1181 .flatten()
1182 .chain(variant_borrow)
1183 {
1184 match &meta_item {
1185 Meta(NameValue(m)) if m.path == RENAME => {
1187 if let Ok(s) = get_lit_str(cx, RENAME, &m.lit) {
1188 ser_name.set(&m.path, s.value());
1189 de_name.set_if_none(s.value());
1190 de_aliases.insert(&m.path, s.value());
1191 }
1192 }
1193
1194 Meta(List(m)) if m.path == RENAME => {
1196 if let Ok((ser, de)) = get_multiple_renames(cx, &m.nested) {
1197 ser_name.set_opt(&m.path, ser.map(syn::LitStr::value));
1198 for de_value in de {
1199 de_name.set_if_none(de_value.value());
1200 de_aliases.insert(&m.path, de_value.value());
1201 }
1202 }
1203 }
1204
1205 Meta(NameValue(m)) if m.path == ALIAS => {
1207 if let Ok(s) = get_lit_str(cx, ALIAS, &m.lit) {
1208 de_aliases.insert(&m.path, s.value());
1209 }
1210 }
1211
1212 Meta(Path(word)) if word == DEFAULT => {
1214 default.set(word, Default::Default);
1215 }
1216
1217 Meta(NameValue(m)) if m.path == DEFAULT => {
1219 if let Ok(path) = parse_lit_into_expr_path(cx, DEFAULT, &m.lit) {
1220 default.set(&m.path, Default::Path(path));
1221 }
1222 }
1223
1224 Meta(Path(word)) if word == SKIP_SERIALIZING => {
1226 skip_serializing.set_true(word);
1227 }
1228
1229 Meta(Path(word)) if word == SKIP_DESERIALIZING => {
1231 skip_deserializing.set_true(word);
1232 }
1233
1234 Meta(Path(word)) if word == SKIP => {
1236 skip_serializing.set_true(word);
1237 skip_deserializing.set_true(word);
1238 }
1239
1240 Meta(NameValue(m)) if m.path == SKIP_SERIALIZING_IF => {
1242 if let Ok(path) = parse_lit_into_expr_path(cx, SKIP_SERIALIZING_IF, &m.lit) {
1243 skip_serializing_if.set(&m.path, path);
1244 }
1245 }
1246
1247 Meta(NameValue(m)) if m.path == SERIALIZE_WITH => {
1249 if let Ok(path) = parse_lit_into_expr_path(cx, SERIALIZE_WITH, &m.lit) {
1250 serialize_with.set(&m.path, path);
1251 }
1252 }
1253
1254 Meta(NameValue(m)) if m.path == DESERIALIZE_WITH => {
1256 if let Ok(path) = parse_lit_into_expr_path(cx, DESERIALIZE_WITH, &m.lit) {
1257 deserialize_with.set(&m.path, path);
1258 }
1259 }
1260
1261 Meta(NameValue(m)) if m.path == WITH => {
1263 if let Ok(path) = parse_lit_into_expr_path(cx, WITH, &m.lit) {
1264 let mut ser_path = path.clone();
1265 ser_path
1266 .path
1267 .segments
1268 .push(Ident::new("serialize", Span::call_site()).into());
1269 serialize_with.set(&m.path, ser_path);
1270 let mut de_path = path;
1271 de_path
1272 .path
1273 .segments
1274 .push(Ident::new("deserialize", Span::call_site()).into());
1275 deserialize_with.set(&m.path, de_path);
1276 }
1277 }
1278
1279 Meta(NameValue(m)) if m.path == BOUND => {
1281 if let Ok(where_predicates) = parse_lit_into_where(cx, BOUND, BOUND, &m.lit) {
1282 ser_bound.set(&m.path, where_predicates.clone());
1283 de_bound.set(&m.path, where_predicates);
1284 }
1285 }
1286
1287 Meta(List(m)) if m.path == BOUND => {
1289 if let Ok((ser, de)) = get_where_predicates(cx, &m.nested) {
1290 ser_bound.set_opt(&m.path, ser);
1291 de_bound.set_opt(&m.path, de);
1292 }
1293 }
1294
1295 Meta(Path(word)) if word == BORROW => {
1297 if let Ok(borrowable) = borrowable_lifetimes(cx, &ident, field) {
1298 borrowed_lifetimes.set(word, borrowable);
1299 }
1300 }
1301
1302 Meta(NameValue(m)) if m.path == BORROW => {
1304 if let Ok(lifetimes) = parse_lit_into_lifetimes(cx, BORROW, &m.lit) {
1305 if let Ok(borrowable) = borrowable_lifetimes(cx, &ident, field) {
1306 for lifetime in &lifetimes {
1307 if !borrowable.contains(lifetime) {
1308 cx.error_spanned_by(
1309 field,
1310 format!(
1311 "field `{}` does not have lifetime {}",
1312 ident, lifetime
1313 ),
1314 );
1315 }
1316 }
1317 borrowed_lifetimes.set(&m.path, lifetimes);
1318 }
1319 }
1320 }
1321
1322 Meta(NameValue(m)) if m.path == GETTER => {
1324 if let Ok(path) = parse_lit_into_expr_path(cx, GETTER, &m.lit) {
1325 getter.set(&m.path, path);
1326 }
1327 }
1328
1329 Meta(Path(word)) if word == FLATTEN => {
1331 flatten.set_true(word);
1332 }
1333
1334 Meta(meta_item) => {
1335 let path = meta_item
1336 .path()
1337 .into_token_stream()
1338 .to_string()
1339 .replace(' ', "");
1340 cx.error_spanned_by(
1341 meta_item.path(),
1342 format!("unknown serde field attribute `{}`", path),
1343 );
1344 }
1345
1346 Lit(lit) => {
1347 cx.error_spanned_by(lit, "unexpected literal in serde field attribute");
1348 }
1349 }
1350 }
1351
1352 if let Default::None = *container_default {
1356 if skip_deserializing.0.value.is_some() {
1357 default.set_if_none(Default::Default);
1358 }
1359 }
1360
1361 let mut borrowed_lifetimes = borrowed_lifetimes.get().unwrap_or_default();
1362 if !borrowed_lifetimes.is_empty() {
1363 if is_cow(&field.ty, is_str) {
1373 let mut path = syn::Path {
1374 leading_colon: None,
1375 segments: Punctuated::new(),
1376 };
1377 let span = Span::call_site();
1378 path.segments.push(Ident::new("_serde", span).into());
1379 path.segments.push(Ident::new("private", span).into());
1380 path.segments.push(Ident::new("de", span).into());
1381 path.segments
1382 .push(Ident::new("borrow_cow_str", span).into());
1383 let expr = syn::ExprPath {
1384 attrs: Vec::new(),
1385 qself: None,
1386 path: path,
1387 };
1388 deserialize_with.set_if_none(expr);
1389 } else if is_cow(&field.ty, is_slice_u8) {
1390 let mut path = syn::Path {
1391 leading_colon: None,
1392 segments: Punctuated::new(),
1393 };
1394 let span = Span::call_site();
1395 path.segments.push(Ident::new("_serde", span).into());
1396 path.segments.push(Ident::new("private", span).into());
1397 path.segments.push(Ident::new("de", span).into());
1398 path.segments
1399 .push(Ident::new("borrow_cow_bytes", span).into());
1400 let expr = syn::ExprPath {
1401 attrs: Vec::new(),
1402 qself: None,
1403 path: path,
1404 };
1405 deserialize_with.set_if_none(expr);
1406 }
1407 } else if is_implicitly_borrowed(&field.ty) {
1408 collect_lifetimes(&field.ty, &mut borrowed_lifetimes);
1411 }
1412
1413 Field {
1414 name: Name::from_attrs(ident, ser_name, de_name, Some(de_aliases)),
1415 skip_serializing: skip_serializing.get(),
1416 skip_deserializing: skip_deserializing.get(),
1417 skip_serializing_if: skip_serializing_if.get(),
1418 default: default.get().unwrap_or(Default::None),
1419 serialize_with: serialize_with.get(),
1420 deserialize_with: deserialize_with.get(),
1421 ser_bound: ser_bound.get(),
1422 de_bound: de_bound.get(),
1423 borrowed_lifetimes: borrowed_lifetimes,
1424 getter: getter.get(),
1425 flatten: flatten.get(),
1426 transparent: false,
1427 }
1428 }
1429
1430 pub fn name(&self) -> &Name {
1431 &self.name
1432 }
1433
1434 pub fn aliases(&self) -> Vec<String> {
1435 self.name.deserialize_aliases()
1436 }
1437
1438 pub fn rename_by_rules(&mut self, rules: &RenameAllRules) {
1439 if !self.name.serialize_renamed {
1440 self.name.serialize = rules.serialize.apply_to_field(&self.name.serialize);
1441 }
1442 if !self.name.deserialize_renamed {
1443 self.name.deserialize = rules.deserialize.apply_to_field(&self.name.deserialize);
1444 }
1445 }
1446
1447 pub fn skip_serializing(&self) -> bool {
1448 self.skip_serializing
1449 }
1450
1451 pub fn skip_deserializing(&self) -> bool {
1452 self.skip_deserializing
1453 }
1454
1455 pub fn skip_serializing_if(&self) -> Option<&syn::ExprPath> {
1456 self.skip_serializing_if.as_ref()
1457 }
1458
1459 pub fn default(&self) -> &Default {
1460 &self.default
1461 }
1462
1463 pub fn serialize_with(&self) -> Option<&syn::ExprPath> {
1464 self.serialize_with.as_ref()
1465 }
1466
1467 pub fn deserialize_with(&self) -> Option<&syn::ExprPath> {
1468 self.deserialize_with.as_ref()
1469 }
1470
1471 pub fn ser_bound(&self) -> Option<&[syn::WherePredicate]> {
1472 self.ser_bound.as_ref().map(|vec| &vec[..])
1473 }
1474
1475 pub fn de_bound(&self) -> Option<&[syn::WherePredicate]> {
1476 self.de_bound.as_ref().map(|vec| &vec[..])
1477 }
1478
1479 pub fn borrowed_lifetimes(&self) -> &BTreeSet<syn::Lifetime> {
1480 &self.borrowed_lifetimes
1481 }
1482
1483 pub fn getter(&self) -> Option<&syn::ExprPath> {
1484 self.getter.as_ref()
1485 }
1486
1487 pub fn flatten(&self) -> bool {
1488 self.flatten
1489 }
1490
1491 pub fn transparent(&self) -> bool {
1492 self.transparent
1493 }
1494
1495 pub fn mark_transparent(&mut self) {
1496 self.transparent = true;
1497 }
1498}
1499
1500type SerAndDe<T> = (Option<T>, Option<T>);
1501
1502fn get_ser_and_de<'a, 'b, T, F>(
1503 cx: &'b Ctxt,
1504 attr_name: Symbol,
1505 metas: &'a Punctuated<syn::NestedMeta, Token![,]>,
1506 f: F,
1507) -> Result<(VecAttr<'b, T>, VecAttr<'b, T>), ()>
1508where
1509 T: 'a,
1510 F: Fn(&Ctxt, Symbol, Symbol, &'a syn::Lit) -> Result<T, ()>,
1511{
1512 let mut ser_meta = VecAttr::none(cx, attr_name);
1513 let mut de_meta = VecAttr::none(cx, attr_name);
1514
1515 for meta in metas {
1516 match meta {
1517 Meta(NameValue(meta)) if meta.path == SERIALIZE => {
1518 if let Ok(v) = f(cx, attr_name, SERIALIZE, &meta.lit) {
1519 ser_meta.insert(&meta.path, v);
1520 }
1521 }
1522
1523 Meta(NameValue(meta)) if meta.path == DESERIALIZE => {
1524 if let Ok(v) = f(cx, attr_name, DESERIALIZE, &meta.lit) {
1525 de_meta.insert(&meta.path, v);
1526 }
1527 }
1528
1529 _ => {
1530 cx.error_spanned_by(
1531 meta,
1532 format!(
1533 "malformed {0} attribute, expected `{0}(serialize = ..., deserialize = ...)`",
1534 attr_name
1535 ),
1536 );
1537 return Err(());
1538 }
1539 }
1540 }
1541
1542 Ok((ser_meta, de_meta))
1543}
1544
1545fn get_renames<'a>(
1546 cx: &Ctxt,
1547 items: &'a Punctuated<syn::NestedMeta, Token![,]>,
1548) -> Result<SerAndDe<&'a syn::LitStr>, ()> {
1549 let (ser, de) = get_ser_and_de(cx, RENAME, items, get_lit_str2)?;
1550 Ok((ser.at_most_one()?, de.at_most_one()?))
1551}
1552
1553fn get_multiple_renames<'a>(
1554 cx: &Ctxt,
1555 items: &'a Punctuated<syn::NestedMeta, Token![,]>,
1556) -> Result<(Option<&'a syn::LitStr>, Vec<&'a syn::LitStr>), ()> {
1557 let (ser, de) = get_ser_and_de(cx, RENAME, items, get_lit_str2)?;
1558 Ok((ser.at_most_one()?, de.get()))
1559}
1560
1561fn get_where_predicates(
1562 cx: &Ctxt,
1563 items: &Punctuated<syn::NestedMeta, Token![,]>,
1564) -> Result<SerAndDe<Vec<syn::WherePredicate>>, ()> {
1565 let (ser, de) = get_ser_and_de(cx, BOUND, items, parse_lit_into_where)?;
1566 Ok((ser.at_most_one()?, de.at_most_one()?))
1567}
1568
1569pub fn get_serde_meta_items(cx: &Ctxt, attr: &syn::Attribute) -> Result<Vec<syn::NestedMeta>, ()> {
1570 if attr.path != SERDE {
1571 return Ok(Vec::new());
1572 }
1573
1574 match attr.parse_meta() {
1575 Ok(List(meta)) => Ok(meta.nested.into_iter().collect()),
1576 Ok(other) => {
1577 cx.error_spanned_by(other, "expected #[serde(...)]");
1578 Err(())
1579 }
1580 Err(err) => {
1581 cx.syn_error(err);
1582 Err(())
1583 }
1584 }
1585}
1586
1587fn get_lit_str<'a>(cx: &Ctxt, attr_name: Symbol, lit: &'a syn::Lit) -> Result<&'a syn::LitStr, ()> {
1588 get_lit_str2(cx, attr_name, attr_name, lit)
1589}
1590
1591fn get_lit_str2<'a>(
1592 cx: &Ctxt,
1593 attr_name: Symbol,
1594 meta_item_name: Symbol,
1595 lit: &'a syn::Lit,
1596) -> Result<&'a syn::LitStr, ()> {
1597 if let syn::Lit::Str(lit) = lit {
1598 Ok(lit)
1599 } else {
1600 cx.error_spanned_by(
1601 lit,
1602 format!(
1603 "expected serde {} attribute to be a string: `{} = \"...\"`",
1604 attr_name, meta_item_name
1605 ),
1606 );
1607 Err(())
1608 }
1609}
1610
1611fn parse_lit_into_path(cx: &Ctxt, attr_name: Symbol, lit: &syn::Lit) -> Result<syn::Path, ()> {
1612 let string = get_lit_str(cx, attr_name, lit)?;
1613 parse_lit_str(string).map_err(|_| {
1614 cx.error_spanned_by(lit, format!("failed to parse path: {:?}", string.value()))
1615 })
1616}
1617
1618fn parse_lit_into_expr_path(
1619 cx: &Ctxt,
1620 attr_name: Symbol,
1621 lit: &syn::Lit,
1622) -> Result<syn::ExprPath, ()> {
1623 let string = get_lit_str(cx, attr_name, lit)?;
1624 parse_lit_str(string).map_err(|_| {
1625 cx.error_spanned_by(lit, format!("failed to parse path: {:?}", string.value()))
1626 })
1627}
1628
1629fn parse_lit_into_where(
1630 cx: &Ctxt,
1631 attr_name: Symbol,
1632 meta_item_name: Symbol,
1633 lit: &syn::Lit,
1634) -> Result<Vec<syn::WherePredicate>, ()> {
1635 let string = get_lit_str2(cx, attr_name, meta_item_name, lit)?;
1636 if string.value().is_empty() {
1637 return Ok(Vec::new());
1638 }
1639
1640 let where_string = syn::LitStr::new(&format!("where {}", string.value()), string.span());
1641
1642 parse_lit_str::<syn::WhereClause>(&where_string)
1643 .map(|wh| wh.predicates.into_iter().collect())
1644 .map_err(|err| cx.error_spanned_by(lit, err))
1645}
1646
1647fn parse_lit_into_ty(cx: &Ctxt, attr_name: Symbol, lit: &syn::Lit) -> Result<syn::Type, ()> {
1648 let string = get_lit_str(cx, attr_name, lit)?;
1649
1650 parse_lit_str(string).map_err(|_| {
1651 cx.error_spanned_by(
1652 lit,
1653 format!("failed to parse type: {} = {:?}", attr_name, string.value()),
1654 )
1655 })
1656}
1657
1658fn parse_lit_into_lifetimes(
1661 cx: &Ctxt,
1662 attr_name: Symbol,
1663 lit: &syn::Lit,
1664) -> Result<BTreeSet<syn::Lifetime>, ()> {
1665 let string = get_lit_str(cx, attr_name, lit)?;
1666 if string.value().is_empty() {
1667 cx.error_spanned_by(lit, "at least one lifetime must be borrowed");
1668 return Err(());
1669 }
1670
1671 struct BorrowedLifetimes(Punctuated<syn::Lifetime, Token![+]>);
1672
1673 impl Parse for BorrowedLifetimes {
1674 fn parse(input: ParseStream) -> parse::Result<Self> {
1675 Punctuated::parse_separated_nonempty(input).map(BorrowedLifetimes)
1676 }
1677 }
1678
1679 if let Ok(BorrowedLifetimes(lifetimes)) = parse_lit_str(string) {
1680 let mut set = BTreeSet::new();
1681 for lifetime in lifetimes {
1682 if !set.insert(lifetime.clone()) {
1683 cx.error_spanned_by(lit, format!("duplicate borrowed lifetime `{}`", lifetime));
1684 }
1685 }
1686 return Ok(set);
1687 }
1688
1689 cx.error_spanned_by(
1690 lit,
1691 format!("failed to parse borrowed lifetimes: {:?}", string.value()),
1692 );
1693 Err(())
1694}
1695
1696fn is_implicitly_borrowed(ty: &syn::Type) -> bool {
1697 is_implicitly_borrowed_reference(ty) || is_option(ty, is_implicitly_borrowed_reference)
1698}
1699
1700fn is_implicitly_borrowed_reference(ty: &syn::Type) -> bool {
1701 is_reference(ty, is_str) || is_reference(ty, is_slice_u8)
1702}
1703
1704fn is_cow(ty: &syn::Type, elem: fn(&syn::Type) -> bool) -> bool {
1727 let path = match ty {
1728 syn::Type::Path(ty) => &ty.path,
1729 _ => {
1730 return false;
1731 }
1732 };
1733 let seg = match path.segments.last() {
1734 Some(seg) => seg,
1735 None => {
1736 return false;
1737 }
1738 };
1739 let args = match &seg.arguments {
1740 syn::PathArguments::AngleBracketed(bracketed) => &bracketed.args,
1741 _ => {
1742 return false;
1743 }
1744 };
1745 seg.ident == "Cow"
1746 && args.len() == 2
1747 && match (&args[0], &args[1]) {
1748 (syn::GenericArgument::Lifetime(_), syn::GenericArgument::Type(arg)) => elem(arg),
1749 _ => false,
1750 }
1751}
1752
1753fn is_option(ty: &syn::Type, elem: fn(&syn::Type) -> bool) -> bool {
1754 let path = match ty {
1755 syn::Type::Path(ty) => &ty.path,
1756 _ => {
1757 return false;
1758 }
1759 };
1760 let seg = match path.segments.last() {
1761 Some(seg) => seg,
1762 None => {
1763 return false;
1764 }
1765 };
1766 let args = match &seg.arguments {
1767 syn::PathArguments::AngleBracketed(bracketed) => &bracketed.args,
1768 _ => {
1769 return false;
1770 }
1771 };
1772 seg.ident == "Option"
1773 && args.len() == 1
1774 && match &args[0] {
1775 syn::GenericArgument::Type(arg) => elem(arg),
1776 _ => false,
1777 }
1778}
1779
1780fn is_reference(ty: &syn::Type, elem: fn(&syn::Type) -> bool) -> bool {
1801 match ty {
1802 syn::Type::Reference(ty) => ty.mutability.is_none() && elem(&ty.elem),
1803 _ => false,
1804 }
1805}
1806
1807fn is_str(ty: &syn::Type) -> bool {
1808 is_primitive_type(ty, "str")
1809}
1810
1811fn is_slice_u8(ty: &syn::Type) -> bool {
1812 match ty {
1813 syn::Type::Slice(ty) => is_primitive_type(&ty.elem, "u8"),
1814 _ => false,
1815 }
1816}
1817
1818fn is_primitive_type(ty: &syn::Type, primitive: &str) -> bool {
1819 match ty {
1820 syn::Type::Path(ty) => ty.qself.is_none() && is_primitive_path(&ty.path, primitive),
1821 _ => false,
1822 }
1823}
1824
1825fn is_primitive_path(path: &syn::Path, primitive: &str) -> bool {
1826 path.leading_colon.is_none()
1827 && path.segments.len() == 1
1828 && path.segments[0].ident == primitive
1829 && path.segments[0].arguments.is_empty()
1830}
1831
1832fn borrowable_lifetimes(
1840 cx: &Ctxt,
1841 name: &str,
1842 field: &syn::Field,
1843) -> Result<BTreeSet<syn::Lifetime>, ()> {
1844 let mut lifetimes = BTreeSet::new();
1845 collect_lifetimes(&field.ty, &mut lifetimes);
1846 if lifetimes.is_empty() {
1847 cx.error_spanned_by(
1848 field,
1849 format!("field `{}` has no lifetimes to borrow", name),
1850 );
1851 Err(())
1852 } else {
1853 Ok(lifetimes)
1854 }
1855}
1856
1857fn collect_lifetimes(ty: &syn::Type, out: &mut BTreeSet<syn::Lifetime>) {
1858 match ty {
1859 syn::Type::Slice(ty) => {
1860 collect_lifetimes(&ty.elem, out);
1861 }
1862 syn::Type::Array(ty) => {
1863 collect_lifetimes(&ty.elem, out);
1864 }
1865 syn::Type::Ptr(ty) => {
1866 collect_lifetimes(&ty.elem, out);
1867 }
1868 syn::Type::Reference(ty) => {
1869 out.extend(ty.lifetime.iter().cloned());
1870 collect_lifetimes(&ty.elem, out);
1871 }
1872 syn::Type::Tuple(ty) => {
1873 for elem in &ty.elems {
1874 collect_lifetimes(elem, out);
1875 }
1876 }
1877 syn::Type::Path(ty) => {
1878 if let Some(qself) = &ty.qself {
1879 collect_lifetimes(&qself.ty, out);
1880 }
1881 for seg in &ty.path.segments {
1882 if let syn::PathArguments::AngleBracketed(bracketed) = &seg.arguments {
1883 for arg in &bracketed.args {
1884 match arg {
1885 syn::GenericArgument::Lifetime(lifetime) => {
1886 out.insert(lifetime.clone());
1887 }
1888 syn::GenericArgument::Type(ty) => {
1889 collect_lifetimes(ty, out);
1890 }
1891 syn::GenericArgument::Binding(binding) => {
1892 collect_lifetimes(&binding.ty, out);
1893 }
1894 syn::GenericArgument::Constraint(_)
1895 | syn::GenericArgument::Const(_) => {}
1896 }
1897 }
1898 }
1899 }
1900 }
1901 syn::Type::Paren(ty) => {
1902 collect_lifetimes(&ty.elem, out);
1903 }
1904 syn::Type::Group(ty) => {
1905 collect_lifetimes(&ty.elem, out);
1906 }
1907 syn::Type::BareFn(_)
1908 | syn::Type::Never(_)
1909 | syn::Type::TraitObject(_)
1910 | syn::Type::ImplTrait(_)
1911 | syn::Type::Infer(_)
1912 | syn::Type::Macro(_)
1913 | syn::Type::Verbatim(_)
1914 | _ => {}
1915 }
1916}
1917
1918fn parse_lit_str<T>(s: &syn::LitStr) -> parse::Result<T>
1919where
1920 T: Parse,
1921{
1922 let tokens = spanned_tokens(s)?;
1923 syn::parse2(tokens)
1924}
1925
1926fn spanned_tokens(s: &syn::LitStr) -> parse::Result<TokenStream> {
1927 let stream = syn::parse_str(&s.value())?;
1928 Ok(respan_token_stream(stream, s.span()))
1929}
1930
1931fn respan_token_stream(stream: TokenStream, span: Span) -> TokenStream {
1932 stream
1933 .into_iter()
1934 .map(|token| respan_token_tree(token, span))
1935 .collect()
1936}
1937
1938fn respan_token_tree(mut token: TokenTree, span: Span) -> TokenTree {
1939 if let TokenTree::Group(g) = &mut token {
1940 *g = Group::new(g.delimiter(), respan_token_stream(g.stream(), span));
1941 }
1942 token.set_span(span);
1943 token
1944}