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rpcs3/Utilities/Config.h
Nekotekina 5a36c57c57 Formatting system improved
`unveil<>` renamed to `fmt_unveil<>`, now packs args to u64 imitating va_args
`bijective...` removed, `cfg::enum_entry` now uses formatting system
`fmt_class_string<>` added, providing type-specific "%s" handler function
Added `fmt::append`, removed `fmt::narrow` (too obscure)
Utilities/cfmt.h: C-style format template function (WIP)
Minor formatting fixes and cleanup
2016-08-04 21:34:00 +03:00

533 lines
11 KiB
C++

#pragma once
#include "Utilities/types.h"
#include "Utilities/Atomic.h"
#include "Utilities/StrFmt.h"
#include <initializer_list>
#include <exception>
#include <utility>
#include <string>
#include <vector>
#include <set>
#include <unordered_map>
#include <map>
#include <mutex>
namespace cfg
{
// Convert string to signed integer
bool try_to_int64(s64* out, const std::string& value, s64 min, s64 max);
// Internal hack
bool try_to_enum_value(u64* out, decltype(&fmt_class_string<int>::format) func, const std::string&);
// Internal hack
std::vector<std::string> try_to_enum_list(decltype(&fmt_class_string<int>::format) func);
// Config tree entry type.
enum class type : uint
{
node = 0, // cfg::node type
boolean, // cfg::bool_entry type
fixed_map, // cfg::map_entry type
enumeration, // cfg::enum_entry type
integer, // cfg::int_entry type
string, // cfg::string_entry type
set, // cfg::set_entry type
};
// Config tree entry abstract base class
class entry_base
{
const type m_type;
protected:
// Ownerless entry constructor
entry_base(type _type);
// Owned entry constructor
entry_base(type _type, class node& owner, const std::string& name);
public:
// Disallow copy/move constructors and assignments
entry_base(const entry_base&) = delete;
// Get type
type get_type() const { return m_type; }
// Access child node (must exist)
entry_base& operator [](const std::string& name) const; entry_base& operator [](const char* name) const;
// Reset defaults
virtual void from_default() = 0;
// Convert to string (optional)
virtual std::string to_string() const
{
return{};
}
// Try to convert from string (optional)
virtual bool from_string(const std::string&)
{
throw std::logic_error("from_string() not specified");
}
// Get string list (optional)
virtual std::vector<std::string> to_list() const
{
return{};
}
// Set multiple values. Implementation-specific, optional.
virtual bool from_list(std::vector<std::string>&&)
{
throw std::logic_error("from_list() not specified");
}
};
// Config tree node which contains another nodes
class node : public entry_base
{
std::map<std::string, entry_base*> m_nodes;
friend class entry_base;
public:
// Root node constructor
node()
: entry_base(type::node)
{
}
// Registered node constructor
node(node& owner, const std::string& name)
: entry_base(type::node, owner, name)
{
}
// Get child nodes
const std::map<std::string, entry_base*>& get_nodes() const
{
return m_nodes;
}
// Serialize node
std::string to_string() const override;
// Deserialize node
bool from_string(const std::string& value) override;
// Set default values
void from_default() override;
};
struct bool_entry final : public entry_base
{
atomic_t<bool> value;
const bool def;
bool_entry(node& owner, const std::string& name, bool def = false)
: entry_base(type::boolean, owner, name)
, value(def)
, def(def)
{
}
explicit operator bool() const
{
return value.load();
}
bool_entry& operator =(bool value)
{
value = value;
return *this;
}
void from_default() override
{
value = def;
}
std::string to_string() const override
{
return value.load() ? "true" : "false";
}
bool from_string(const std::string& value) override
{
if (value == "false")
this->value = false;
else if (value == "true")
this->value = true;
else
return false;
return true;
}
};
// Value node with fixed set of possible values, each maps to a value of type T.
template<typename T>
struct map_entry final : public entry_base
{
using init_type = std::initializer_list<std::pair<std::string, T>>;
using map_type = std::unordered_map<std::string, T>;
using list_type = std::vector<std::string>;
using value_type = typename map_type::value_type;
static map_type make_map(init_type init)
{
map_type map(init.size());
for (const auto& v : init)
{
// Ensure elements are unique
VERIFY(map.emplace(v.first, v.second).second);
}
return map;
}
static list_type make_list(init_type init)
{
list_type list; list.reserve(init.size());
for (const auto& v : init)
{
list.emplace_back(v.first);
}
return list;
}
public:
const map_type map;
const list_type list; // Element list sorted in original order
const value_type& def; // Pointer to the default value
private:
atomic_t<const value_type*> m_value;
public:
map_entry(node& owner, const std::string& name, const std::string& def, init_type init)
: entry_base(type::fixed_map, owner, name)
, map(make_map(init))
, list(make_list(init))
, def(*map.find(def))
, m_value(&this->def)
{
}
map_entry(node& owner, const std::string& name, std::size_t def_index, init_type init)
: map_entry(owner, name, def_index < init.size() ? (init.begin() + def_index)->first : throw std::logic_error("Invalid default value index"), init)
{
}
map_entry(node& owner, const std::string& name, init_type init)
: map_entry(owner, name, 0, init)
{
}
const T& get() const
{
return m_value.load()->second;
}
void from_default() override
{
m_value = &def;
}
std::string to_string() const override
{
return m_value.load()->first;
}
bool from_string(const std::string& value) override
{
const auto found = map.find(value);
if (found == map.end())
{
return false;
}
else
{
m_value = &*found;
return true;
}
}
std::vector<std::string> to_list() const override
{
return list;
}
};
// Value node with fixed set of possible values, each maps to an enum value of type T.
template<typename T, bool External = false>
class enum_entry final : public entry_base
{
// Value or reference
std::conditional_t<External, atomic_t<T>&, atomic_t<T>> m_value;
public:
const T def;
enum_entry(node& owner, const std::string& name, std::conditional_t<External, atomic_t<T>&, T> value)
: entry_base(type::enumeration, owner, name)
, m_value(value)
, def(value)
{
}
operator T() const
{
return m_value.load();
}
enum_entry& operator =(T value)
{
m_value = value;
return *this;
}
void from_default() override
{
m_value = def;
}
std::string to_string() const override
{
std::string result;
fmt_class_string<T>::format(result, fmt_unveil<T>::get(m_value));
return result; // TODO: ???
}
bool from_string(const std::string& value) override
{
u64 result;
if (try_to_enum_value(&result, &fmt_class_string<T>::format, value))
{
const auto val = static_cast<std::underlying_type_t<T>>(result);
if (static_cast<u64>(val) != result)
{
return false;
}
m_value = static_cast<T>(val);
return true;
}
return false;
}
std::vector<std::string> to_list() const override
{
return try_to_enum_list(&fmt_class_string<T>::format);
}
};
// Signed 32/64-bit integer entry with custom Min/Max range.
template<s64 Min, s64 Max>
class int_entry final : public entry_base
{
static_assert(Min < Max, "Invalid cfg::int_entry range");
// Prefer 32 bit type if possible
using int_type = std::conditional_t<Min >= INT32_MIN && Max <= INT32_MAX, s32, s64>;
atomic_t<int_type> m_value;
public:
const int_type def;
int_entry(node& owner, const std::string& name, int_type def = std::min<int_type>(Max, std::max<int_type>(Min, 0)))
: entry_base(type::integer, owner, name)
, m_value(def)
, def(def)
{
}
operator int_type() const
{
return m_value.load();
}
int_entry& operator =(int_type value)
{
if (value < Min || value > Max)
{
throw fmt::exception("Value out of the valid range: %lld" HERE, s64{ value });
}
m_value = value;
return *this;
}
void from_default() override
{
m_value = def;
}
std::string to_string() const override
{
return std::to_string(m_value.load());
}
bool from_string(const std::string& value) override
{
s64 result;
if (try_to_int64(&result, value, Min, Max))
{
m_value = static_cast<int_type>(result);
return true;
}
return false;
}
};
// Alias for 32 bit int
using int32_entry = int_entry<INT32_MIN, INT32_MAX>;
// Alias for 64 bit int
using int64_entry = int_entry<INT64_MIN, INT64_MAX>;
// Simple string entry with mutex
class string_entry final : public entry_base
{
mutable std::mutex m_mutex;
std::string m_value;
public:
const std::string def;
string_entry(node& owner, const std::string& name, const std::string& def = {})
: entry_base(type::string, owner, name)
, m_value(def)
, def(def)
{
}
operator std::string() const
{
std::lock_guard<std::mutex> lock(m_mutex);
return m_value;
}
std::string get() const
{
return *this;
}
string_entry& operator =(const std::string& value)
{
std::lock_guard<std::mutex> lock(m_mutex);
m_value = value;
return *this;
}
std::size_t size() const
{
std::lock_guard<std::mutex> lock(m_mutex);
return m_value.size();
}
void from_default() override
{
*this = def;
}
std::string to_string() const override
{
std::lock_guard<std::mutex> lock(m_mutex);
return m_value;
}
bool from_string(const std::string& value) override
{
*this = value;
return true;
}
};
// Simple set entry with mutex (TODO: template for various types)
class set_entry final : public entry_base
{
mutable std::mutex m_mutex;
std::set<std::string> m_set;
public:
// Default value is empty list in current implementation
set_entry(node& owner, const std::string& name)
: entry_base(type::set, owner, name)
{
}
std::set<std::string> get_set() const
{
std::lock_guard<std::mutex> lock(m_mutex);
return m_set;
}
void set_set(std::set<std::string>&& set)
{
std::lock_guard<std::mutex> lock(m_mutex);
m_set = std::move(set);
}
void from_default() override
{
std::lock_guard<std::mutex> lock(m_mutex);
m_set = {};
}
std::vector<std::string> to_list() const override
{
std::lock_guard<std::mutex> lock(m_mutex);
return{ m_set.begin(), m_set.end() };
}
bool from_list(std::vector<std::string>&& list) override
{
std::lock_guard<std::mutex> lock(m_mutex);
m_set = { std::make_move_iterator(list.begin()), std::make_move_iterator(list.end()) };
return true;
}
};
// Root type with some predefined nodes. Don't change it, this is not mandatory for adding nodes.
struct root_node : node
{
node core { *this, "Core" };
node vfs { *this, "VFS" };
node log { *this, "Log" };
node video { *this, "Video" };
node audio { *this, "Audio" };
node io { *this, "Input/Output" };
node sys { *this, "System" };
node net { *this, "Net" };
node misc { *this, "Miscellaneous" };
};
// Get global configuration root instance
extern root_node& get_root();
// Global configuration root instance (cached reference)
static root_node& root = get_root();
}
// Registered log channel
#define LOG_CHANNEL(name) extern logs::channel name; namespace logs { static cfg::enum_entry<logs::level, true> name(cfg::root.log, #name, ::name.enabled); }