File Coverage

/usr/local/lib/perl5/site_perl/5.26.1/x86_64-linux/XS/Framework.x/i/xs/Sub.h

Criterion	Covered	Total	%
statement	1	2	50.0
branch			n/a
condition			n/a
subroutine			n/a
pod			n/a
total	1	2	50.0

line	stmt	code
1		#pragma once
2		#include
3		#include
4		#include
5
6		namespace xs {
7
8		using xs::my_perl;
9
10	0	struct Sub : Sv {
11		enum class Want { Void = G_VOID, Scalar = G_SCALAR, Array = G_ARRAY };
12
13		static Sub create (panda::string_view code); // create sub by evaling perl code
14		static Sub create (XSUBADDR_t); // create anon XSub
15
16		static Sub noinc (SV* val) { return Sub(val, NONE); }
17		static Sub noinc (CV* val) { return Sub(val, NONE); }
18
19		static Sub clone_anon_xsub (const Sub&);
20
21		Sub (std::nullptr_t = nullptr) {}
22		Sub (SV* sv, bool policy = INCREMENT) : Sv(sv, policy) { _validate(); }
23	26	Sub (CV* sv, bool policy = INCREMENT) : Sv(sv, policy) {}
24
25		explicit
26		Sub (panda::string_view subname, I32 flags = 0) {
27		*this = get_cvn_flags(subname.data(), subname.length(), flags);
28		}
29
30		Sub (const Sub& oth) : Sv(oth) {}
31		Sub (Sub&& oth) : Sv(std::move(oth)) {}
32		Sub (const Sv& oth) : Sv(oth) { _validate(); }
33		Sub (Sv&& oth) : Sv(std::move(oth)) { _validate(); }
34
35		Sub (const Simple&) = delete;
36		Sub (const Array&) = delete;
37		Sub (const Hash&) = delete;
38		Sub (const Glob&) = delete;
39		Sub (const Io&) = delete;
40
41		Sub& operator= (SV* val) { Sv::operator=(val); _validate(); return *this; }
42		Sub& operator= (CV* val) { Sv::operator=(val); return *this; }
43		Sub& operator= (const Sub& oth) { Sv::operator=(oth); return *this; }
44		Sub& operator= (Sub&& oth) { Sv::operator=(std::move(oth)); return *this; }
45		Sub& operator= (const Sv& oth) { return operator=(oth.get()); }
46		Sub& operator= (Sv&& oth) { Sv::operator=(std::move(oth)); _validate(); return *this; }
47		Sub& operator= (const Simple&) = delete;
48		Sub& operator= (const Array&) = delete;
49		Sub& operator= (const Hash&) = delete;
50		Sub& operator= (const Glob&) = delete;
51		Sub& operator= (const Io&) = delete;
52
53		void set (SV* val) { Sv::operator=(val); }
54
55		operator AV* () const = delete;
56		operator HV* () const = delete;
57		operator CV* () const { return (CV*)sv; }
58		operator GV* () const = delete;
59		operator IO* () const = delete;
60
61		CV* operator-> () const { return (CV*)sv; }
62
63		template panda::enable_if_one_of_t* get () const { return (T*)sv; }
64
65		Stash stash () const;
66		Glob glob () const;
67
68		panda::string_view name () const {
69		GV* gv = CvGV((CV*)sv);
70		return panda::string_view(GvNAME(gv), GvNAMELEN(gv));
71		}
72
73		bool named () const { return CvNAMED((CV*)sv); }
74
75		Sub SUPER () const {
76		GV* mygv = CvGV((CV*)sv);
77		GV* supergv = gv_fetchmeth_pvn(GvSTASH(mygv), GvNAME(mygv), GvNAMELEN(mygv), 0, GV_SUPER);
78		return Sub(supergv ? GvCV(supergv) : nullptr);
79		}
80
81		Sub SUPER_strict () const {
82		Sub ret = SUPER();
83		if (!ret) _throw_super();
84		return ret;
85		}
86
87		static Want want () { return (Want)GIMME_V; }
88
89		static int want_count ();
90
91		private:
92		struct CallArgs {
93		SV* self;
94		SVconst list;
95		const Scalar* scalars;
96		size_t items;
97		};
98
99		template struct CallContext;
100
101		public:
102		template using call_t = decltype(CallContext::call((CV*)nullptr, CallArgs()));
103
104		template
105		call_t call (Args&&...va) const {
106		auto args = _get_args(va...);
107		return CallContext::call((CV*)sv, args);
108		}
109
110		template
111		Scalar operator() (Args&&...args) const { return call(std::forward(args)...); }
112
113		private:
114		void _validate () {
115		if (!sv) return;
116		if (SvTYPE(sv) == SVt_PVCV) return;
117		if (SvROK(sv)) { // reference to code?
118		SV* val = SvRV(sv);
119		if (SvTYPE(val) == SVt_PVCV) {
120		Sv::operator=(val);
121		return;
122		}
123		}
124		if (is_undef()) return reset();
125		reset();
126		throw std::invalid_argument("SV is not a Sub or Sub reference");
127		}
128
129		void _throw_super () const;
130
131		template
132		struct VCallArgs : CallArgs {
133		SV* list[sizeof...(Args)];
134		VCallArgs (Args&&...args) : CallArgs{nullptr, list, nullptr, sizeof...(Args)}, list{std::forward(args)...} {
135		for (auto sv : list)
136		if (sv && SvTYPE(sv) > SVt_PVMG && SvTYPE(sv) != SVt_PVGV)
137		throw std::invalid_argument("one of arguments for sub.call() is not a scalar value");
138		}
139		};
140
141		template struct type_pack {};
142
143		static CallArgs _get_args (SVconst args = nullptr, size_t items = 0) { return {nullptr, args, nullptr, items}; }
144		static CallArgs _get_args (SV* arg0, SVconst args, size_t items) { return { arg0, args, nullptr, items}; }
145		static CallArgs _get_args (const Scalar* args, size_t items) { return {nullptr, nullptr, args, items}; }
146		static CallArgs _get_args (SV* arg0, const Scalar* args, size_t items) { return { arg0, nullptr, args, items}; }
147		static CallArgs _get_args (const std::initializer_list& l) { return {nullptr, nullptr, l.begin(), l.size()}; }
148		static CallArgs _get_args (SV* arg0, const std::initializer_list& l) { return { arg0, nullptr, l.begin(), l.size()}; }
149
150		template ()))...>>
151		static VCallArgs _get_args (Args&&...args) { return {std::forward(args)...}; }
152
153		static size_t _call (CV, I32 flags, const CallArgs&, SV* ret, size_t maxret, AV** avr);
154		};
155
156		template
157		struct Sub::CallContext> {
158		using type = std::tuple;
159		static constexpr size_t N = sizeof...(Types);
160
161		static type call (CV* cv, const CallArgs& args) {
162		SV* ret[N] = {nullptr};
163		_call(cv, G_ARRAY, args, ret, N, nullptr);
164		return _make_tuple(ret, std::make_index_sequence());
165		}
166
167		template
168		static T _make_tuple (SV** svs, std::integer_sequence) {
169		return T(typename std::tuple_element::type(svs[Inds], Sv::NONE)...);
170		}
171		};
172
173		template
174		struct Sub::CallContext : Sub::CallContext> {};
175
176		template
177		struct Sub::CallContext, T> {
178		static T call (CV* cv, const CallArgs& args) {
179		SV* ret = NULL;
180		_call(cv, G_SCALAR, args, &ret, 1, nullptr);
181		return T(ret, Sv::NONE);
182		}
183		};
184
185		template <>
186		struct Sub::CallContext : Sub::CallContext {};
187
188		template <>
189		struct Sub::CallContext {
190		static List call (CV* cv, const CallArgs& args) {
191		AV* av = NULL;
192		_call(cv, G_ARRAY, args, nullptr, 0, &av);
193		return List(av, Sv::NONE);
194		}
195		};
196
197		template <>
198		struct Sub::CallContext {
199		static void call (CV* cv, const CallArgs& args) { _call(cv, G_VOID, args, nullptr, 0, nullptr); }
200		};
201
202		template
203		struct Sub::CallContext, std::array> {
204		using type = std::array;
205		static type call (CV* cv, const CallArgs& args) {
206		SV* svret[N];
207		auto nret = _call(cv, G_ARRAY, args, svret, N, nullptr);
208		type ret;
209		for (size_t i = 0; i < nret; ++i) ret[i] = T(svret[i], Sv::NONE);
210		return ret;
211		}
212		};
213
214		template <>
215		struct Sub::CallContext {
216		static panda::string call (CV* cv, const CallArgs& args) { return CallContext::call(cv, args).as_string(); }
217		};
218
219		template
220		struct Sub::CallContext, T> {
221		static T call (CV* cv, const CallArgs& args) { return CallContext::call(cv, args); }
222		};
223
224		}