opencv_binding_generator/writer/rust_native/
func.rs

1use std::borrow::Cow;
2use std::collections::HashMap;
3use std::fmt::Write;
4use std::iter;
5use std::iter::{Chain, Once};
6use std::rc::Rc;
7use std::vec::IntoIter;
8
9use once_cell::sync::Lazy;
10use Cow::{Borrowed, Owned};
11
12use super::comment::{render_ref, RenderComment};
13use super::element::{DefaultRustNativeElement, RustElement};
14use super::type_ref::{BorrowKind, Lifetime, TypeRefExt, TypeRefKindExt};
15use super::{comment, rust_disambiguate_names_ref, RustNativeGeneratedElement};
16use crate::field::Field;
17use crate::func::{FuncCppBody, FuncKind, FuncRustBody, FuncRustExtern, InheritConfig, OperatorKind, ReturnKind};
18use crate::name_pool::NamePool;
19use crate::settings::ARG_OVERRIDE_SELF;
20use crate::type_ref::{Constness, CppNameStyle, ExternDir, FishStyle, NameStyle, StrEnc, StrType, TypeRef, TypeRefTypeHint};
21use crate::writer::rust_native::class::ClassExt;
22use crate::writer::rust_native::type_ref::render_lane::FunctionProps;
23use crate::{reserved_rename, CompiledInterpolation, Element, Func, IteratorExt, NameDebug, StrExt, StringExt, SupportedModule};
24
25pub trait FuncExt<'tu, 'ge> {
26	fn companion_functions(&self) -> Vec<Func<'tu, 'ge>>;
27	fn with_companion_functions(self) -> Chain<Once<Self>, IntoIter<Self>>
28	where
29		Self: Sized;
30}
31
32impl<'tu, 'ge> FuncExt<'tu, 'ge> for Func<'tu, 'ge> {
33	fn companion_functions(&self) -> Vec<Func<'tu, 'ge>> {
34		let mut out = vec![];
35		if let Some(default_func) = companion_func_default_args(self) {
36			out.extend(default_func.companion_functions());
37			out.push(default_func);
38		}
39		out.extend(companion_func_boxref_mut(self));
40		out
41	}
42
43	fn with_companion_functions(self) -> Chain<Once<Self>, IntoIter<Self>> {
44		let companions = self.companion_functions();
45		iter::once(self).chain(companions)
46	}
47}
48
49impl RustElement for Func<'_, '_> {
50	fn rust_module(&self) -> SupportedModule {
51		match self {
52			&Self::Clang { entity, .. } => DefaultRustNativeElement::rust_module(entity),
53			Self::Desc(desc) => desc.rust_module,
54		}
55	}
56
57	fn rust_name(&self, style: NameStyle) -> Cow<str> {
58		match self {
59			&Self::Clang { entity, .. } => DefaultRustNativeElement::rust_name(self, entity, style).into(),
60			Self::Desc(_) => match style {
61				NameStyle::Declaration => self.rust_leafname(FishStyle::No),
62				NameStyle::Reference(fish_style) => format!(
63					"{}::{}",
64					DefaultRustNativeElement::rust_module_reference(self),
65					self.rust_leafname(fish_style)
66				)
67				.into(),
68			},
69		}
70	}
71
72	fn rust_leafname(&self, _fish_style: FishStyle) -> Cow<str> {
73		if let Some(rust_custom_leafname) = self.rust_custom_leafname() {
74			return rust_custom_leafname.into();
75		}
76		let cpp_name = match self {
77			&Self::Clang { entity, gen_env, .. } => {
78				if let Some(name) = gen_env.get_rename_config(entity).map(|c| &c.rename) {
79					Borrowed(name.as_ref())
80				} else {
81					self.cpp_name(CppNameStyle::Declaration)
82				}
83			}
84			Self::Desc(_) => self.cpp_name(CppNameStyle::Declaration),
85		};
86		let rust_name = if self.is_clone() {
87			Borrowed("try_clone")
88		} else {
89			let kind = self.kind();
90			if let Some(cls) = kind.as_constructor() {
91				let args = self.arguments();
92				let ctor_name = 'ctor_name: {
93					if args.is_empty() {
94						break 'ctor_name "default";
95					} else if args.len() == 1 {
96						let arg_typeref = args[0].type_ref();
97						let source = arg_typeref.source_smart();
98						if let Some(class_arg) = source.kind().as_class() {
99							if cls == class_arg.as_ref() {
100								break 'ctor_name if arg_typeref.constness().is_const() {
101									"copy"
102								} else {
103									"copy_mut"
104								};
105							} else if class_arg.descendants().contains(cls) {
106								break 'ctor_name "from_base";
107							}
108						}
109					}
110					"new"
111				};
112				Borrowed(ctor_name)
113			} else if kind.as_conversion_method().is_some() {
114				let mut conv_name = self.return_type_ref().rust_name(NameStyle::decl()).into_owned();
115				conv_name.cleanup_name();
116				conv_name.insert_str(0, "to_");
117				Owned(conv_name)
118			} else if let Some((cls, kind)) = kind.as_operator() {
119				if cpp_name.starts_with("operator") {
120					let op_name = match kind {
121						OperatorKind::Unsupported => cpp_name.as_ref(),
122						OperatorKind::Index => {
123							if self.constness().is_const() {
124								"get"
125							} else {
126								"get_mut"
127							}
128						}
129						OperatorKind::Add => "add",
130						OperatorKind::Sub => "sub",
131						OperatorKind::Mul => "mul",
132						OperatorKind::Div => "div",
133						OperatorKind::Apply => "apply",
134						OperatorKind::Set => "set",
135						OperatorKind::Deref => {
136							if self.constness().is_const() {
137								"try_deref"
138							} else {
139								"try_deref_mut"
140							}
141						}
142						OperatorKind::Equals => "equals",
143						OperatorKind::NotEquals => "not_equals",
144						OperatorKind::GreaterThan => "greater_than",
145						OperatorKind::GreaterThanOrEqual => "greater_than_or_equal",
146						OperatorKind::LessThan => "less_than",
147						OperatorKind::LessThanOrEqual => "less_than_or_equal",
148						OperatorKind::Incr => "incr",
149						OperatorKind::Decr => "decr",
150						OperatorKind::And => "and",
151						OperatorKind::Or => "or",
152						OperatorKind::Xor => "xor",
153						OperatorKind::BitwiseNot => "negate",
154					};
155					if kind.add_args_to_name() {
156						let args = self.arguments();
157						let args = args.as_ref();
158						let is_single_arg_same_as_class = if let (Some(cls), [single_arg]) = (cls, args) {
159							single_arg
160								.type_ref()
161								.source()
162								.kind()
163								.as_class()
164								.is_some_and(|single_class| single_class.as_ref() == cls)
165						} else {
166							false
167						};
168						if args.is_empty() || is_single_arg_same_as_class {
169							Borrowed(op_name)
170						} else {
171							let args = args.iter().map(|arg| arg.type_ref().rust_simple_name()).join("_");
172							Owned(format!("{op_name}_{args}"))
173						}
174					} else {
175						Borrowed(op_name)
176					}
177				} else {
178					cpp_name
179				}
180			} else {
181				cpp_name
182			}
183		};
184		let rust_name = reserved_rename(rust_name.cpp_name_to_rust_fn_case());
185		if let Self::Clang { gen_env, .. } = self {
186			if let Some(&name) = gen_env.settings.func_rename.get(self.identifier().as_str()) {
187				return if name.contains('+') {
188					Owned(name.replacen('+', rust_name.as_ref(), 1))
189				} else {
190					name.into()
191				};
192			}
193		}
194		Owned(rust_name.into_owned())
195	}
196
197	fn rendered_doc_comment(&self, comment_marker: &str, opencv_version: &str) -> String {
198		let mut comment = RenderComment::new(&self.doc_comment_overloaded(), opencv_version);
199		let args = self.arguments();
200		let (_, default_args) = split_default_args(&args);
201		let default_args_comment = comment::render_cpp_default_args(default_args);
202		if !default_args_comment.is_empty() {
203			if !comment.comment.is_empty() {
204				comment.comment.push_str("\n\n");
205			}
206			comment.comment.push_str("## C++ default parameters\n");
207			comment.comment.push_str(default_args_comment.trim_end());
208		}
209		comment.render_with_comment_marker(comment_marker).into_owned()
210	}
211}
212
213impl RustNativeGeneratedElement for Func<'_, '_> {
214	fn element_safe_id(&self) -> String {
215		format!("{}-{}", self.rust_module().opencv_name(), self.rust_name(NameStyle::decl()))
216	}
217
218	fn gen_rust(&self, opencv_version: &str) -> String {
219		static TPL: Lazy<CompiledInterpolation> = Lazy::new(|| include_str!("tpl/func/rust.tpl.rs").compile_interpolation());
220
221		let name = self.rust_leafname(FishStyle::No);
222		let kind = self.kind();
223		let return_kind = self.return_kind();
224		let return_type_ref = self.return_type_ref();
225		let safety = self.safety();
226		let identifier = self.identifier();
227
228		let args = self.arguments();
229		let as_instance_method = kind.as_instance_method();
230		let mut decl_args = Vec::with_capacity(args.len());
231		let mut pre_call_args = Vec::with_capacity(args.len());
232		let mut call_args = Vec::with_capacity(args.len() + 1);
233		let mut forward_args = Vec::with_capacity(args.len());
234		let mut post_success_call_args = Vec::with_capacity(args.len());
235		let (return_lifetime, return_lt_from_args) = return_lifetime(&kind, &args, &return_type_ref);
236		if let Some(cls) = as_instance_method {
237			let constness = self.constness();
238			let cls_type_ref = cls.type_ref().with_inherent_constness(constness);
239			let render_lane = cls_type_ref.render_lane();
240			let render_lane = render_lane.to_dyn();
241			let lt = return_lt_from_args
242				.filter(|from_args| from_args.contains(&ARG_OVERRIDE_SELF))
243				.map_or(Lifetime::Elided, |_| return_lifetime);
244			decl_args.push(render_lane.rust_self_func_decl(lt));
245			call_args.push(render_lane.rust_arg_func_call("self"));
246		}
247		let mut callback_arg_name: Option<String> = None;
248		let function_props = FunctionProps {
249			is_infallible: return_kind.is_infallible(),
250		};
251		for (name, arg) in rust_disambiguate_names_ref(args.as_ref()) {
252			let arg_type_ref = arg.type_ref();
253			let arg_type_hint = arg_type_ref.type_hint();
254			let arg_as_slice_len = arg_type_hint.as_slice_len();
255			let arg_kind = arg_type_ref.kind();
256			let render_lane = arg_type_ref.render_lane();
257			let render_lane = render_lane.to_dyn();
258			if arg.is_user_data() {
259				pre_call_args.push_code_line_if_not_empty(format!(
260					"userdata_arg!({decl} => {callback_name})",
261					decl = arg_type_ref.render_lane().to_dyn().rust_extern_arg_func_decl(&name),
262					callback_name = callback_arg_name.as_ref().expect("Can't get name of the callback arg")
263				));
264			} else {
265				if !arg_as_slice_len.is_some() {
266					let lt = return_lt_from_args
267						.filter(|from_args| from_args.contains(&name.as_str()))
268						.map(|_| return_lifetime)
269						.or_else(|| arg_type_hint.as_explicit_lifetime())
270						.unwrap_or(Lifetime::Elided);
271					decl_args.push(render_lane.rust_arg_func_decl(&name, lt).into());
272				}
273				pre_call_args.push_code_line_if_not_empty(render_lane.rust_arg_pre_call(&name, &function_props));
274				if arg_kind.is_function() {
275					callback_arg_name = Some(name.clone());
276				}
277			}
278			if let Some((slice_args, len_div)) = arg_as_slice_len {
279				let arg_is_size_t = arg_kind.is_size_t();
280				let mut slice_len_call = String::new();
281				for slice_arg in slice_args {
282					let len_divided = if len_div > 1 {
283						format!("{slice_arg}.len() / {len_div}")
284					} else {
285						format!("{slice_arg}.len()")
286					};
287					if slice_len_call.is_empty() {
288						if len_div > 1 && (!arg_is_size_t || slice_args.len() > 1) {
289							write!(&mut slice_len_call, "({len_divided})").expect("Impossible");
290						} else {
291							slice_len_call.push_str(&len_divided);
292						}
293					} else {
294						write!(&mut slice_len_call, ".min({len_divided})").expect("Impossible");
295					}
296				}
297				if !arg_is_size_t {
298					slice_len_call.push_str(".try_into()?");
299				}
300				call_args.push(slice_len_call);
301			} else {
302				call_args.push(render_lane.rust_arg_func_call(&name));
303			}
304			post_success_call_args.push_code_line_if_not_empty(render_lane.rust_arg_post_success_call(&name));
305			forward_args.push(name);
306		}
307		if !return_kind.is_naked() {
308			call_args.push("ocvrs_return.as_mut_ptr()".to_string());
309		}
310
311		let doc_comment = self.rendered_doc_comment("///", opencv_version);
312		let visibility = if let Some(cls) = as_instance_method {
313			if cls.kind().is_trait() {
314				""
315			} else {
316				"pub "
317			}
318		} else {
319			"pub "
320		};
321		let mut return_type_func_decl = return_type_ref.rust_return(FishStyle::No, return_lifetime);
322		if !return_kind.is_infallible() {
323			return_type_func_decl = format!("Result<{return_type_func_decl}>").into()
324		};
325		let return_type_func_decl = if return_type_func_decl == "()" {
326			"".to_string()
327		} else {
328			format!(" -> {return_type_func_decl}")
329		};
330		let (ret_pre_call, ret_handle, ret_stmt) = rust_return(self, &return_type_ref, return_kind, return_lifetime);
331		let mut attributes = Vec::with_capacity(2);
332		if self.is_no_discard() {
333			attributes.push(Borrowed("#[must_use]"));
334		}
335		if let Some((rust_attr, _)) = self.cfg_attrs() {
336			if !rust_attr.is_empty() {
337				attributes.push(format!("#[cfg({rust_attr})]").into());
338			}
339		}
340
341		TPL.interpolate(&HashMap::from([
342			("doc_comment", doc_comment.as_str()),
343			("debug", &self.get_debug()),
344			("attributes", &attributes.join("\n")),
345			("visibility", visibility),
346			("unsafety_decl", safety.rust_func_safety_qual()),
347			("name", name.as_ref()),
348			("generic_decl", &rust_generic_decl(self, &return_type_ref)),
349			("decl_args", &decl_args.join(", ")),
350			("rv_rust_full", &return_type_func_decl),
351			("pre_call_args", &pre_call_args.join("\n")),
352			("return_pre_call", ret_pre_call),
353			(
354				"call",
355				&rust_call(self, &identifier, &name, &call_args, &forward_args, return_kind),
356			),
357			("return_handle", &ret_handle),
358			("post_success_call_args", &post_success_call_args.join("\n")),
359			("return", ret_stmt),
360		]))
361	}
362
363	fn gen_rust_externs(&self) -> String {
364		static TPL: Lazy<CompiledInterpolation> = Lazy::new(|| include_str!("tpl/func/rust_extern.tpl.rs").compile_interpolation());
365
366		if matches!(self.rust_extern_definition(), FuncRustExtern::Absent) {
367			return "".to_string();
368		}
369
370		let identifier = self.identifier();
371		let mut attributes = String::new();
372		if let Some((rust_attr, _)) = self.cfg_attrs() {
373			attributes = format!("#[cfg({rust_attr})]");
374		}
375		let mut args = vec![];
376		if let Some(cls) = self.kind().as_instance_method() {
377			args.push(
378				cls.type_ref()
379					.with_inherent_constness(self.constness())
380					.render_lane()
381					.to_dyn()
382					.rust_extern_arg_func_decl("instance"),
383			);
384		}
385		for (name, arg) in rust_disambiguate_names_ref(self.arguments().as_ref()) {
386			args.push(arg.type_ref().render_lane().to_dyn().rust_extern_arg_func_decl(&name))
387		}
388
389		let return_kind = self.return_kind();
390		let naked_return = return_kind.is_naked();
391		let is_infallible = return_kind.is_infallible();
392		let return_type = self.return_type_ref();
393		let return_wrapper_type = if is_infallible {
394			return_type.rust_extern(ExternDir::FromCpp)
395		} else {
396			return_type.rust_extern_return_fallible()
397		};
398		if !naked_return {
399			let ret_name = "ocvrs_return";
400			args.push(format!("{ret_name}: *mut {return_wrapper_type}"));
401		}
402		let return_type_kind = return_type.kind();
403		let return_wrapper_type = if return_type_kind.is_void() || !naked_return {
404			"".to_string()
405		} else {
406			format!(" -> {return_wrapper_type}")
407		};
408		TPL.interpolate(&HashMap::from([
409			("attributes", attributes),
410			("debug", self.get_debug()),
411			("identifier", identifier),
412			("args", args.join(", ")),
413			("return_type", return_wrapper_type),
414		]))
415	}
416
417	fn gen_cpp(&self) -> String {
418		static TPL: Lazy<CompiledInterpolation> = Lazy::new(|| include_str!("tpl/func/cpp.tpl.cpp").compile_interpolation());
419
420		if matches!(self.cpp_body(), FuncCppBody::Absent) {
421			return "".to_string();
422		}
423
424		let identifier = self.identifier();
425
426		let kind = self.kind();
427		let return_kind = self.return_kind();
428		let return_type_ref = self.return_type_ref();
429
430		// attributes
431		let mut attributes_begin = String::new();
432		let mut attributes_end = String::new();
433		if let Some((_, cpp_attr)) = self.cfg_attrs() {
434			attributes_begin = format!("#if {cpp_attr}");
435			attributes_end = "#endif".to_string();
436		}
437
438		// arguments
439		let args = cpp_disambiguate_names(self.arguments().into_owned()).collect::<Vec<_>>();
440		let mut decl_args = Vec::with_capacity(args.len());
441		let mut pre_call_args = Vec::with_capacity(args.len());
442		let mut call_args = Vec::with_capacity(args.len());
443		let mut post_call_args = Vec::with_capacity(args.len());
444		if let Some(cls) = kind.as_instance_method() {
445			decl_args.push(
446				cls.type_ref()
447					.with_inherent_constness(self.constness())
448					.render_lane()
449					.to_dyn()
450					.cpp_arg_func_decl("instance")
451					.into_owned(),
452			);
453		}
454		for (name, arg) in &args {
455			let arg_type_ref = arg.type_ref();
456			let render_lane = arg_type_ref.render_lane();
457			let render_lane = render_lane.to_dyn();
458			decl_args.push(render_lane.cpp_arg_func_decl(name).into_owned());
459			pre_call_args.push_code_line_if_not_empty(render_lane.cpp_arg_pre_call(name));
460			call_args.push(render_lane.cpp_arg_func_call(name));
461			post_call_args.push_code_line_if_not_empty(render_lane.cpp_arg_post_call(name));
462		}
463
464		// return
465		let ocv_ret_name = "ocvrs_return";
466		let cpp_extern_return = return_type_ref.cpp_extern_return();
467		let ret_full = if return_kind.is_infallible() {
468			cpp_extern_return
469		} else {
470			return_type_ref.cpp_extern_return_fallible()
471		};
472		let return_type_ref_mut = return_type_ref.as_ref().clone().with_inherent_constness(Constness::Mut);
473		let ret_wrapper_full_mut = if return_kind.is_infallible() {
474			return_type_ref_mut.cpp_extern_return()
475		} else {
476			return_type_ref_mut.cpp_extern_return_fallible()
477		};
478		if !return_kind.is_naked() {
479			decl_args.push(format!("{ret_wrapper_full_mut}* {ocv_ret_name}"));
480		}
481		let return_spec = if return_kind.is_naked() {
482			Borrowed(ret_full.as_ref())
483		} else {
484			"void".into()
485		};
486		let (ret, ret_cast) = cpp_return_map(&return_type_ref, "ret", kind.as_constructor().is_some());
487
488		// exception handling
489		let func_try = if return_kind.is_infallible() {
490			""
491		} else {
492			"try {"
493		};
494		let catch = if return_kind.is_infallible() {
495			"".to_string()
496		} else {
497			format!("}} OCVRS_CATCH({ocv_ret_name});")
498		};
499
500		TPL.interpolate(&HashMap::from([
501			("attributes_begin", attributes_begin.as_str()),
502			("debug", &self.get_debug()),
503			("return_spec", &return_spec),
504			("identifier", &identifier),
505			("decl_args", &decl_args.join(", ")),
506			("try", func_try),
507			("pre_call_args", &pre_call_args.join("\n")),
508			("call", &cpp_call(self, &kind, &call_args, &return_type_ref)),
509			("post_call_args", &post_call_args.join("\n")),
510			(
511				"return",
512				&cpp_return(self, return_kind, &ret, ret_cast.then(|| ret_full.as_ref()), ocv_ret_name),
513			),
514			("catch", &catch),
515			("attributes_end", &attributes_end),
516		]))
517	}
518}
519
520fn rust_call(
521	f: &Func,
522	identifier: &str,
523	func_name: &str,
524	call_args: &[String],
525	forward_args: &[String],
526	return_kind: ReturnKind,
527) -> String {
528	#![allow(clippy::too_many_arguments)]
529	static CALL_TPL: Lazy<CompiledInterpolation> =
530		Lazy::new(|| "{{ret_receive}}unsafe { sys::{{identifier}}({{call_args}}) };".compile_interpolation());
531
532	let ret_receive = if return_kind.is_naked() {
533		"let ret = "
534	} else {
535		""
536	};
537	let tpl = match f.rust_body() {
538		FuncRustBody::Auto => Borrowed(&*CALL_TPL),
539		FuncRustBody::ManualCall(body) | FuncRustBody::ManualCallReturn(body) => Owned(body.compile_interpolation()),
540	};
541	tpl.interpolate(&HashMap::from([
542		("ret_receive", ret_receive),
543		("identifier", identifier),
544		("name", func_name),
545		("call_args", &call_args.join(", ")),
546		("forward_args", &forward_args.join(", ")),
547	]))
548}
549
550fn return_lifetime(
551	func_kind: &FuncKind,
552	args: &[Field],
553	return_type_ref: &TypeRef,
554) -> (Lifetime, Option<&'static [&'static str]>) {
555	if let Some((_, args, lifetime)) = return_type_ref.type_hint().as_boxed_as_ref() {
556		(lifetime, Some(args))
557	} else {
558		let lt = match return_type_ref.rust_lifetime_count() {
559			0 => Lifetime::Elided,
560			1 => {
561				let borrow_kind_from_any_arg = func_kind
562					.as_instance_method()
563					.into_iter()
564					.map(|cls| Owned(cls.type_ref()))
565					.chain(args.iter().map(|arg| arg.type_ref()))
566					.fold(BorrowKind::Impossible, |a, arg_type_ref| {
567						a.more_complicated(arg_type_ref.kind().rust_borrow_kind(arg_type_ref.type_hint()))
568					});
569				match borrow_kind_from_any_arg {
570					BorrowKind::FromPointer => return_type_ref
571						.kind()
572						.as_class()
573						.and_then(|cls| cls.rust_lifetime())
574						.unwrap_or(Lifetime::automatic()),
575					BorrowKind::FromLifetime => Lifetime::Elided,
576					BorrowKind::Impossible => Lifetime::statik(),
577				}
578			}
579			2.. => panic!("Rendering of more than 1 lifetime in the function return type is not yet supported"),
580		};
581		(lt, None)
582	}
583}
584
585fn rust_return(
586	f: &Func,
587	return_type_ref: &TypeRef,
588	return_kind: ReturnKind,
589	lifetime: Lifetime,
590) -> (&'static str, String, &'static str) {
591	match f.rust_body() {
592		FuncRustBody::Auto | FuncRustBody::ManualCall(_) => {
593			let ret_pre = if !return_kind.is_naked() {
594				"return_send!(via ocvrs_return);"
595			} else {
596				""
597			};
598
599			let mut ret_convert = Vec::with_capacity(3);
600			if !return_kind.is_naked() {
601				ret_convert.push(Borrowed("return_receive!(ocvrs_return => ret);"));
602			}
603			if !return_kind.is_infallible() {
604				ret_convert.push("let ret = ret.into_result()?;".into())
605			}
606			let ret_map = rust_return_map(return_type_ref, "ret", return_kind, lifetime);
607			if !ret_map.is_empty() {
608				ret_convert.push(format!("let ret = {ret_map};").into());
609			}
610
611			let ret_stmt = if return_kind.is_infallible() {
612				"ret"
613			} else {
614				"Ok(ret)"
615			};
616			(ret_pre, ret_convert.join("\n"), ret_stmt)
617		}
618		FuncRustBody::ManualCallReturn(_) => ("", "".to_string(), ""),
619	}
620}
621
622fn rust_return_map(return_type: &TypeRef, ret_name: &str, return_kind: ReturnKind, lifetime: Lifetime) -> Cow<'static, str> {
623	let return_type_kind = return_type.kind();
624	if return_type_kind.as_string(return_type.type_hint()).is_some() || return_type_kind.extern_pass_kind().is_by_void_ptr() {
625		format!(
626			"unsafe {{ {typ}::opencv_from_extern({ret_name}) }}",
627			typ = return_type.rust_return(FishStyle::Turbo, lifetime),
628		)
629		.into()
630	} else if return_type_kind.as_pointer().is_some_and(|i| !i.kind().is_void())
631		&& !return_type_kind.is_rust_by_ptr(return_type.type_hint())
632		|| return_type_kind.as_fixed_array().is_some()
633	{
634		let ptr_call = if return_type.constness().is_const() {
635			"as_ref"
636		} else {
637			"as_mut"
638		};
639		let error_handling = if return_kind.is_infallible() {
640			".expect(\"Function returned null pointer\")"
641		} else {
642			".ok_or_else(|| Error::new(core::StsNullPtr, \"Function returned null pointer\"))?"
643		};
644		format!("unsafe {{ {ret_name}.{ptr_call}() }}{error_handling}").into()
645	} else {
646		"".into()
647	}
648}
649
650fn cpp_call(f: &Func, kind: &FuncKind, call_args: &[String], return_type_ref: &TypeRef) -> String {
651	static CALL_TPL: Lazy<CompiledInterpolation> = Lazy::new(|| "{{name}}({{args}})".compile_interpolation());
652
653	static VOID_TPL: Lazy<CompiledInterpolation> = Lazy::new(|| "{{call}};".compile_interpolation());
654
655	static RETURN_TPL: Lazy<CompiledInterpolation> =
656		Lazy::new(|| "{{ret_with_type}} = {{doref}}{{call}};".compile_interpolation());
657
658	static CONSTRUCTOR_TPL: Lazy<CompiledInterpolation> = Lazy::new(|| "{{ret_with_type}}({{args}});".compile_interpolation());
659
660	static CONSTRUCTOR_NO_ARGS_TPL: Lazy<CompiledInterpolation> = Lazy::new(|| "{{ret_with_type}};".compile_interpolation());
661
662	static BOXED_CONSTRUCTOR_TPL: Lazy<CompiledInterpolation> =
663		Lazy::new(|| "{{ret_type}}* ret = new {{ret_type}}({{args}});".compile_interpolation());
664
665	let call_args = call_args.join(", ");
666
667	let return_type_kind = return_type_ref.kind();
668	let ret_type = return_type_ref.cpp_name(CppNameStyle::Reference);
669	let ret_with_type = return_type_ref.cpp_name_ext(CppNameStyle::Reference, "ret", true);
670	let doref = if return_type_kind.as_fixed_array().is_some() {
671		"&"
672	} else {
673		""
674	};
675
676	let call_name = match kind {
677		FuncKind::Constructor(cls) => cls.cpp_name(CppNameStyle::Reference),
678		FuncKind::Function | FuncKind::GenericFunction | FuncKind::StaticMethod(..) | FuncKind::FunctionOperator(..) => {
679			f.cpp_name(CppNameStyle::Reference)
680		}
681		FuncKind::FieldAccessor(cls, fld) => cpp_method_call_name(
682			cls.type_ref().kind().extern_pass_kind().is_by_ptr(),
683			&fld.cpp_name(CppNameStyle::Declaration),
684		)
685		.into(),
686		FuncKind::InstanceMethod(cls)
687		| FuncKind::GenericInstanceMethod(cls)
688		| FuncKind::ConversionMethod(cls)
689		| FuncKind::InstanceOperator(cls, ..) => cpp_method_call_name(
690			cls.type_ref().kind().extern_pass_kind().is_by_ptr(),
691			&f.cpp_name(CppNameStyle::Declaration),
692		)
693		.into(),
694	};
695
696	let mut inter_vars = HashMap::from([
697		("ret_type", ret_type),
698		("ret_with_type", ret_with_type),
699		("doref", doref.into()),
700		("args", call_args.as_str().into()),
701		("name", call_name),
702	]);
703
704	let (call_tpl, full_tpl) = match f.cpp_body() {
705		FuncCppBody::Auto => {
706			if let Some(cls) = kind.as_constructor() {
707				if cls.kind().is_boxed() {
708					(None, Some(Borrowed(&*BOXED_CONSTRUCTOR_TPL)))
709				} else if call_args.is_empty() {
710					(None, Some(Borrowed(&*CONSTRUCTOR_NO_ARGS_TPL)))
711				} else {
712					(None, Some(Borrowed(&*CONSTRUCTOR_TPL)))
713				}
714			} else {
715				(Some(Borrowed(&*CALL_TPL)), None)
716			}
717		}
718		FuncCppBody::ManualCall(call) => (Some(Owned(call.compile_interpolation())), None),
719		FuncCppBody::ManualCallReturn(full_tpl) => (None, Some(Owned(full_tpl.compile_interpolation()))),
720		FuncCppBody::Absent => (None, None),
721	};
722	let tpl = full_tpl
723		.or_else(|| {
724			call_tpl.map(|call_tpl| {
725				let call = call_tpl.interpolate(&inter_vars);
726				inter_vars.insert("call", call.into());
727				if return_type_ref.kind().is_void() {
728					Borrowed(&*VOID_TPL)
729				} else {
730					Borrowed(&*RETURN_TPL)
731				}
732			})
733		})
734		.expect("Impossible");
735
736	tpl.interpolate(&inter_vars)
737}
738
739fn cpp_return(f: &Func, return_kind: ReturnKind, ret: &str, ret_cast: Option<&str>, ocv_ret_name: &str) -> Cow<'static, str> {
740	match &f.cpp_body() {
741		FuncCppBody::Auto | FuncCppBody::ManualCall(_) => match return_kind {
742			ReturnKind::InfallibleNaked => {
743				if ret.is_empty() {
744					"".into()
745				} else {
746					let cast = if let Some(ret_type) = ret_cast {
747						format!("({ret_type})")
748					} else {
749						"".to_string()
750					};
751					format!("return {cast}{ret};").into()
752				}
753			}
754			ReturnKind::InfallibleViaArg => {
755				if ret.is_empty() {
756					"".into()
757				} else {
758					format!("*{ocv_ret_name} = {ret};").into()
759				}
760			}
761			ReturnKind::Fallible => {
762				if ret.is_empty() {
763					format!("Ok({ocv_ret_name});").into()
764				} else {
765					let cast = if let Some(ret_type) = ret_cast {
766						format!("<{ret_type}>")
767					} else {
768						"".to_string()
769					};
770					format!("Ok{cast}({ret}, {ocv_ret_name});").into()
771				}
772			}
773		},
774		FuncCppBody::ManualCallReturn(_) | FuncCppBody::Absent => "".into(),
775	}
776}
777
778pub fn cpp_return_map<'f>(return_type: &TypeRef, name: &'f str, is_constructor: bool) -> (Cow<'f, str>, bool) {
779	let return_kind = return_type.kind();
780	if return_kind.is_void() {
781		("".into(), false)
782	} else if let Some((_, string_type)) = return_kind.as_string(return_type.type_hint()) {
783		let str_mk = match string_type {
784			StrType::StdString(StrEnc::Text) | StrType::CvString(StrEnc::Text) => {
785				format!("ocvrs_create_string({name}.c_str())").into()
786			}
787			StrType::StdString(StrEnc::Binary) => format!("ocvrs_create_byte_string({name}.data(), {name}.size())").into(),
788			StrType::CvString(StrEnc::Binary) => format!("ocvrs_create_byte_string({name}.begin(), {name}.size())").into(),
789			StrType::CharPtr(StrEnc::Text) => format!("ocvrs_create_string({name})").into(),
790			StrType::CharPtr(StrEnc::Binary) => panic!("Returning a byte string via char* is not supported yet"),
791		};
792		(str_mk, false)
793	} else if return_kind.extern_pass_kind().is_by_void_ptr() && !is_constructor {
794		let ret_source = return_type.source();
795		let out = ret_source.kind().as_class().filter(|cls| cls.is_abstract()).map_or_else(
796			|| {
797				// todo implement higher count if it's needed
798				let deref_count = return_type.kind().as_pointer().map_or(0, |_| 1);
799				format!(
800					"new {typ}({:*<deref_count$}{name})",
801					"",
802					typ = ret_source.cpp_name(CppNameStyle::Reference)
803				)
804				.into()
805			},
806			|_| name.into(),
807		);
808		(out, false)
809	} else {
810		(name.into(), return_kind.as_fixed_array().is_some())
811	}
812}
813
814fn cpp_method_call_name(extern_by_ptr: bool, method_name: &str) -> String {
815	if extern_by_ptr {
816		format!("instance->{method_name}")
817	} else {
818		format!("instance.{method_name}")
819	}
820}
821
822pub fn cpp_disambiguate_names<'tu, 'ge>(
823	args: impl IntoIterator<Item = Field<'tu, 'ge>>,
824) -> impl Iterator<Item = (String, Field<'tu, 'ge>)>
825where
826	'tu: 'ge,
827{
828	let args = args.into_iter();
829	let size_hint = args.size_hint();
830	NamePool::with_capacity(size_hint.1.unwrap_or(size_hint.0)).into_disambiguator(args, |f| f.cpp_name(CppNameStyle::Declaration))
831}
832
833fn rust_generic_decl<'f>(f: &'f Func, return_type_ref: &TypeRef) -> Cow<'f, str> {
834	let mut decls = vec![];
835	if let Some((_, _, lt)) = return_type_ref.type_hint().as_boxed_as_ref() {
836		decls.push(lt.to_string());
837	}
838	match f {
839		Func::Clang { .. } => {}
840		Func::Desc(desc) => {
841			decls.reserve(desc.rust_generic_decls.len());
842			for (typ, constraint) in desc.rust_generic_decls.as_ref() {
843				decls.push(format!("{typ}: {constraint}"));
844			}
845		}
846	}
847	let decls = decls.join(", ");
848	if decls.is_empty() {
849		"".into()
850	} else {
851		format!("<{decls}>").into()
852	}
853}
854
855fn viable_default_arg(arg: &Field) -> bool {
856	arg.default_value().is_some() && !arg.is_user_data() && {
857		let type_ref = arg.type_ref();
858		// don't remove the arguments that are used to pass the slice or its length
859		!matches!(
860			type_ref.type_hint(),
861			TypeRefTypeHint::Slice | TypeRefTypeHint::LenForSlice(..)
862		)
863	}
864}
865
866/// Split `arg` into 2 sub-slices, (args_without_default_value, args_with_default_value)
867///
868/// Arguments with special meanings like userdata and slice length are not included in the args_with_default_value slice.
869fn split_default_args<'a, 'tu, 'ge>(args: &'a [Field<'tu, 'ge>]) -> (&'a [Field<'tu, 'ge>], &'a [Field<'tu, 'ge>]) {
870	// default args are in the end
871	let last_non_default_arg_idx = args.iter().rposition(|arg| !viable_default_arg(arg));
872	if let Some(last_non_default_arg_idx) = last_non_default_arg_idx {
873		args.split_at(last_non_default_arg_idx + 1)
874	} else {
875		(&[], args)
876	}
877}
878
879/// Companion function with all optional arguments as defaults
880fn companion_func_default_args<'tu, 'ge>(f: &Func<'tu, 'ge>) -> Option<Func<'tu, 'ge>> {
881	if f.kind().as_field_accessor().is_some() {
882		return None;
883	}
884
885	match f {
886		Func::Clang { gen_env, .. } => {
887			if gen_env
888				.settings
889				.func_companion_tweak
890				.get(&mut f.matcher())
891				.is_some_and(|t| t.skip_default())
892			{
893				return None;
894			}
895		}
896		Func::Desc(_) => {}
897	}
898
899	let args = f.arguments();
900	let (args_without_def, args_with_def) = split_default_args(&args);
901	if args_with_def.is_empty() {
902		return None;
903	}
904	let original_rust_leafname = f.rust_leafname(FishStyle::No);
905	let mut doc_comment = f.doc_comment().into_owned();
906	let rust_leafname = format!("{}_def", original_rust_leafname);
907	let default_args = comment::render_cpp_default_args(args_with_def);
908	if !doc_comment.is_empty() {
909		doc_comment.push_str("\n\n");
910	}
911	write!(
912			&mut doc_comment,
913			"## Note\nThis alternative version of [{refr}] function uses the following default values for its arguments:\n{default_args}",
914			refr = render_ref(f, Some(&original_rust_leafname))
915		)
916	.expect("Impossible");
917	let mut desc = f.to_desc_with_skip_config(InheritConfig::empty().doc_comment().arguments());
918	let desc_mut = Rc::make_mut(&mut desc);
919	desc_mut.rust_custom_leafname = Some(rust_leafname.into());
920	desc_mut.arguments = args_without_def.into();
921	desc_mut.doc_comment = doc_comment.into();
922	let out = Func::Desc(desc);
923	if out.exclude_kind().is_included() {
924		Some(out)
925	} else {
926		None
927	}
928}
929
930/// Companion function returning `BoxRefMut` for a corresponding function returning `BoxRef`
931fn companion_func_boxref_mut<'tu, 'ge>(f: &Func<'tu, 'ge>) -> Option<Func<'tu, 'ge>> {
932	let ret_type_ref = f.return_type_ref();
933	if let Some((Constness::Mut, borrow_arg_names, _)) = ret_type_ref.type_hint().as_boxed_as_ref() {
934		let mut desc = f.to_desc_with_skip_config(InheritConfig::empty());
935		let desc_mut = Rc::make_mut(&mut desc);
936		let mut cloned_args = None;
937		// Rc::make_mut doesn't work on slices
938		let args = if let Some(args) = Rc::get_mut(&mut desc_mut.arguments) {
939			args
940		} else {
941			cloned_args = Some(desc_mut.arguments.to_vec());
942			cloned_args.as_mut().unwrap()
943		};
944		let mut borrow_arg_is_const = false;
945		if borrow_arg_names.contains(&ARG_OVERRIDE_SELF) {
946			if desc_mut.kind.as_instance_method().is_some() && desc_mut.constness.is_const() {
947				borrow_arg_is_const = true;
948				desc_mut.constness = Constness::Mut;
949			}
950		} else {
951			let borrow_arg = args
952				.iter_mut()
953				.find(|arg| borrow_arg_names.contains(&arg.cpp_name(CppNameStyle::Declaration).as_ref()));
954			if let Some(borrow_arg) = borrow_arg {
955				let type_ref = borrow_arg.type_ref();
956				let kind = type_ref.kind();
957				borrow_arg_is_const = type_ref.constness().is_const()
958					&& kind
959						.as_pointer_reference_move()
960						.is_some_and(|ptr_or_ref| ptr_or_ref.kind().as_class().is_some());
961				if borrow_arg_is_const {
962					*borrow_arg = borrow_arg.clone().with_type_ref(
963						borrow_arg
964							.type_ref()
965							.map_ptr_ref(|inner| inner.clone().with_inherent_constness(Constness::Mut)),
966					);
967				}
968			}
969		}
970		if borrow_arg_is_const {
971			if let Some(args) = cloned_args {
972				desc_mut.arguments = args.into();
973			}
974			desc_mut.rust_custom_leafname = Some(format!("{}_mut", f.rust_leafname(FishStyle::No)).into());
975			desc_mut.return_type_ref.set_inherent_constness(Constness::Mut);
976			Some(Func::Desc(desc))
977		} else {
978			None
979		}
980	} else {
981		None
982	}
983}
984
985trait PrePostArgs {
986	fn push_code_line_if_not_empty(&mut self, arg: String);
987}
988
989impl PrePostArgs for Vec<String> {
990	fn push_code_line_if_not_empty(&mut self, mut arg: String) {
991		if !arg.is_empty() {
992			arg.push(';');
993			self.push(arg);
994		}
995	}
996}