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// file : build2/diagnostics -*- C++ -*-
// copyright : Copyright (c) 2014-2016 Code Synthesis Ltd
// license : MIT; see accompanying LICENSE file
#ifndef BUILD2_DIAGNOSTICS
#define BUILD2_DIAGNOSTICS
#include <sstream>
#include <type_traits>
#include <build2/types>
#include <build2/utility>
namespace build2
{
struct diag_record;
// Throw this exception to terminate the build. The handler should
// assume that the diagnostics has already been issued.
//
class failed: public std::exception {};
// Print process commmand line. If the number of elements is specified
// (or the second version is used), then it will print the piped multi-
// process command line, if present. In this case, the expected format
// is as follows:
//
// name1 arg arg ... nullptr
// name2 arg arg ... nullptr
// ...
// nameN arg arg ... nullptr nullptr
//
void
print_process (diag_record&, const char* const* args, size_t n = 0);
void
print_process (const char* const* args, size_t n = 0);
inline void
print_process (diag_record& dr, const cstrings& args)
{
print_process (dr, args.data (), args.size ());
}
inline void
print_process (const cstrings& args)
{
print_process (args.data (), args.size ());
}
// Program verbosity level (-v/--verbose).
//
// 0 - disabled
// 1 - high-level information messages
// 2 - essential underlying commands that are being executed
// 3 - all underlying commands that are being executed
// 4 - information helpful to the user (e.g., why a rule did not match)
// 5 - information helpful to the developer
// 6 - even more detailed information
//
// While uint8 is more than enough, use uint16 for the ease of printing.
//
extern uint16_t verb;
template <typename F> inline void l1 (const F& f) {if (verb >= 1) f ();}
template <typename F> inline void l2 (const F& f) {if (verb >= 2) f ();}
template <typename F> inline void l3 (const F& f) {if (verb >= 3) f ();}
template <typename F> inline void l4 (const F& f) {if (verb >= 4) f ();}
template <typename F> inline void l5 (const F& f) {if (verb >= 5) f ();}
template <typename F> inline void l6 (const F& f) {if (verb >= 6) f ();}
// Stream verbosity level. It is determined by the diagnostic type (e.g.,
// trace always has maximum verbosity) as well as the program verbosity. It
// is used to decide whether to print relative/absolute paths, and default
// target extensions.
//
// 0 - minimum
// 1 - intermediate
// 2 - maximum
//
// Currently we have the following program to stream verbosity mapping:
//
// fail/error/warn/info <2:0 2:1 >2:2
// trace *:2
//
// A stream that hasn't been (yet) assigned any verbosity explicitly (e.g.,
// ostringstream) defaults to maximum.
//
const uint16_t stream_verb_min = 0;
const uint16_t stream_verb_max = 2;
// Default program to stream verbosity mapping, as outlined above.
//
inline uint16_t
stream_verb_map () {return verb < 2 ? 0 : (verb > 2 ? 2 : 1);}
extern const int stream_verb_index;
inline uint16_t
stream_verb (ostream& os)
{
uint16_t v (static_cast<uint16_t> (os.iword (stream_verb_index)));
return v == 0 ? stream_verb_max : v - 1;
}
inline void
stream_verb (ostream& os, uint16_t v)
{
os.iword (stream_verb_index) = static_cast<long> (v + 1);
}
// Diagnostic facility, base infrastructure (potentially reusable).
//
extern ostream* diag_stream;
template <typename> struct diag_prologue;
template <typename> struct diag_mark;
typedef void (*diag_epilogue) (const diag_record&);
struct diag_record
{
template <typename T>
friend const diag_record&
operator<< (const diag_record& r, const T& x)
{
r.os << x;
return r;
}
diag_record (): empty_ (true), epilogue_ (nullptr) {}
template <typename B>
explicit
diag_record (const diag_prologue<B>& p)
: empty_ (true), epilogue_ (nullptr) { *this << p;}
template <typename B>
explicit
diag_record (const diag_mark<B>& m)
: empty_ (true), epilogue_ (nullptr) { *this << m;}
~diag_record () noexcept (false);
void
append (diag_epilogue e) const
{
if (e != nullptr)
{
assert (epilogue_ == nullptr); // No multiple epilogues support.
epilogue_ = e;
}
if (empty_)
empty_ = false;
else
os << "\n ";
}
// Move constructible-only type.
//
// Older versions of libstdc++ don't have the ostringstream move support
// and accuratly detecting its version is non-trivial. So we always use
// the pessimized implementation with libstdc++. Luckily, GCC doesn't seem
// to be needing move due to copy/move elision.
//
diag_record (diag_record&& r)
#ifndef __GLIBCXX__
: os (move (r.os))
#endif
{
empty_ = r.empty_;
epilogue_ = r.epilogue_;
if (!empty_)
{
#ifdef __GLIBCXX__
stream_verb (os, stream_verb (r.os));
os << r.os.str ();
#endif
r.empty_ = true;
r.epilogue_ = nullptr;
}
}
diag_record& operator= (diag_record&&) = delete;
diag_record (const diag_record&) = delete;
diag_record& operator= (const diag_record&) = delete;
public:
mutable std::ostringstream os;
private:
mutable bool empty_;
mutable diag_epilogue epilogue_;
};
template <typename B>
struct diag_prologue: B
{
diag_prologue (diag_epilogue e = nullptr): B (), epilogue_ (e) {}
template <typename... A>
diag_prologue (A&&... a)
: B (forward<A> (a)...), epilogue_ (nullptr) {}
template <typename... A>
diag_prologue (diag_epilogue e, A&&... a)
: B (forward<A> (a)...), epilogue_ (e) {}
template <typename T>
diag_record
operator<< (const T& x) const
{
diag_record r;
r.append (epilogue_);
B::operator() (r);
r << x;
return r;
}
friend const diag_record&
operator<< (const diag_record& r, const diag_prologue& p)
{
r.append (p.epilogue_);
p (r);
return r;
}
private:
diag_epilogue epilogue_;
};
template <typename B>
struct diag_mark: B
{
diag_mark (): B () {}
template <typename... A>
diag_mark (A&&... a): B (forward<A> (a)...) {}
template <typename T>
diag_record
operator<< (const T& x) const
{
return B::operator() () << x;
}
friend const diag_record&
operator<< (const diag_record& r, const diag_mark& m)
{
return r << m ();
}
};
// Diagnostic facility, project specifics.
//
struct simple_prologue_base
{
explicit
simple_prologue_base (const char* type,
const char* mod,
const char* name,
uint16_t sverb)
: type_ (type), mod_ (mod), name_ (name), sverb_ (sverb) {}
void
operator() (const diag_record& r) const;
private:
const char* type_;
const char* mod_;
const char* name_;
const uint16_t sverb_;
};
typedef diag_prologue<simple_prologue_base> simple_prologue;
class location
{
public:
// Note that location maintains a shallow reference to path. Zero lines
// or columns are not printed.
//
location (): file (nullptr), line (0), column (0) {}
location (const path* f, uint64_t l = 0, uint64_t c = 0)
: file (f), line (l), column (c) {}
bool
empty () const {return file == nullptr;}
const path* file;
uint64_t line;
uint64_t column;
};
struct location_prologue_base
{
location_prologue_base (const char* type,
const char* mod,
const char* name,
const location& l,
uint16_t sverb)
: type_ (type), mod_ (mod), name_ (name), loc_ (l), sverb_ (sverb) {}
void
operator() (const diag_record& r) const;
private:
const char* type_;
const char* mod_;
const char* name_;
const location loc_;
const uint16_t sverb_;
};
typedef diag_prologue<location_prologue_base> location_prologue;
struct basic_mark_base
{
explicit
basic_mark_base (uint16_t (*sverb) (),
const char* type,
const char* mod = nullptr,
const char* name = nullptr,
const void* data = nullptr,
diag_epilogue epilogue = nullptr)
: sverb_ (sverb),
type_ (type), mod_ (mod), name_ (name), data_ (data),
epilogue_ (epilogue) {}
simple_prologue
operator() () const
{
return simple_prologue (epilogue_, type_, mod_, name_, sverb_ ());
}
location_prologue
operator() (const location& l) const
{
return location_prologue (epilogue_, type_, mod_, name_, l, sverb_ ());
}
template <typename L>
location_prologue
operator() (const L& l) const
{
return location_prologue (
epilogue_, type_, mod_, name_, get_location (l, data_), sverb_ ());
}
protected:
uint16_t (*sverb_) ();
const char* type_;
const char* mod_;
const char* name_;
const void* data_;
const diag_epilogue epilogue_;
};
typedef diag_mark<basic_mark_base> basic_mark;
extern const basic_mark error;
extern const basic_mark warn;
extern const basic_mark info;
extern const basic_mark text;
// trace
//
struct trace_mark_base: basic_mark_base
{
explicit
trace_mark_base (const char* name, const void* data = nullptr)
: trace_mark_base (nullptr, name, data) {}
trace_mark_base (const char* mod,
const char* name,
const void* data = nullptr)
: basic_mark_base ([]() {return stream_verb_max;},
"trace",
mod, name,
data) {}
};
typedef diag_mark<trace_mark_base> trace_mark;
typedef trace_mark tracer;
// fail
//
template <typename E>
struct fail_mark_base: basic_mark_base
{
explicit
fail_mark_base (const void* data = nullptr)
: basic_mark_base (&stream_verb_map,
"error",
nullptr, nullptr,
data,
&epilogue) {}
static void
epilogue (const diag_record&) {throw E ();}
};
template <typename E>
using fail_mark = diag_mark<fail_mark_base<E>>;
extern const fail_mark<failed> fail;
}
#endif // BUILD2_DIAGNOSTICS
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