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rpcs3/Utilities/StrFmt.h

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#pragma once
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#include "types.h"
#include <exception>
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#include <stdexcept>
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#include <string>
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namespace fmt
{
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template <typename... Args>
static std::string format(const char*, const Args&...);
}
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template <typename T, typename>
struct fmt_unveil
{
static_assert(sizeof(T) > 0, "fmt_unveil<>: cannot pass forward-declared object");
using type = T;
static inline u64 get(const T& arg)
{
return reinterpret_cast<std::uintptr_t>(&arg);
}
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// Temporary value container (can possibly be created by other fmt_unveil<> specializations)
struct u64_wrapper
{
T arg;
// Allow implicit conversion
operator u64() const
{
return reinterpret_cast<std::uintptr_t>(&arg);
}
};
// This overload resolution takes the precedence
static inline u64_wrapper get(T&& arg)
{
return u64_wrapper{std::move(arg)};
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}
};
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template <typename T>
struct fmt_unveil<T, std::enable_if_t<std::is_integral<T>::value && sizeof(T) <= 8 && alignof(T) <= 8>>
{
using type = T;
static inline u64 get(T arg)
{
return static_cast<T>(arg);
}
};
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template <typename T>
struct fmt_unveil<T, std::enable_if_t<std::is_floating_point<T>::value && sizeof(T) <= 8 && alignof(T) <= 8>>
{
using type = T;
// Convert FP to f64 and reinterpret (TODO?)
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static inline u64 get(const f64 arg)
{
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return *reinterpret_cast<const u64*>(reinterpret_cast<const u8*>(&arg));
}
};
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template <typename T>
struct fmt_unveil<T, std::enable_if_t<std::is_enum<T>::value>>
{
using type = T;
static inline u64 get(T arg)
{
return static_cast<std::underlying_type_t<T>>(arg);
}
};
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template <typename T>
struct fmt_unveil<T*, void>
{
using type = const T*;
static inline u64 get(const T* arg)
{
return reinterpret_cast<std::uintptr_t>(arg);
}
};
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template <typename T, std::size_t N>
struct fmt_unveil<T[N], void>
{
using type = const T*;
static inline u64 get(const T* arg)
{
return reinterpret_cast<std::uintptr_t>(arg);
}
};
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template <>
struct fmt_unveil<b8, void>
{
using type = bool;
static inline u64 get(const b8& value)
{
return fmt_unveil<bool>::get(value);
}
};
// String type format provider, also type classifier (format() called if an argument is formatted as "%s")
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template <typename T, typename = void>
struct fmt_class_string
{
// Formatting function (must be explicitly specialized)
static void format(std::string& out, u64 arg);
// Helper typedef (visible in format())
using type = T;
// Helper function (converts arg to object reference)
static SAFE_BUFFERS FORCE_INLINE const T& get_object(u64 arg)
{
return *reinterpret_cast<const T*>(static_cast<std::uintptr_t>(arg));
}
// Helper function (safely converts arg to enum value)
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static SAFE_BUFFERS FORCE_INLINE void format_enum(std::string& out, u64 arg, const char* (*get)(T value))
{
const auto value = static_cast<std::underlying_type_t<T>>(arg);
// Check narrowing
if (static_cast<u64>(value) == arg)
{
if (const char* str = get(static_cast<T>(value)))
{
out += str;
return;
}
}
// Fallback to underlying type formatting
fmt_class_string<std::underlying_type_t<T>>::format(out, static_cast<u64>(value));
}
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// Helper function (bitset formatting)
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static SAFE_BUFFERS FORCE_INLINE void format_bitset(std::string& out, u64 arg, const char* prefix, const char* delim, const char* suffix, void (*fmt)(std::string&, u64))
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{
// Start from raw value
fmt_class_string<u64>::format(out, arg);
out += prefix;
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for (u64 i = 0; i < 63; i++)
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{
const u64 mask = 1ull << i;
if (arg & mask)
{
fmt(out, i);
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if (arg >> (i + 1))
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{
out += delim;
}
}
}
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if (arg & (1ull << 63))
{
fmt(out, 63);
}
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out += suffix;
}
// Helper constant (may be used in format_enum as lambda return value)
static constexpr const char* unknown = nullptr;
};
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template <>
struct fmt_class_string<const void*, void>
{
static void format(std::string& out, u64 arg);
};
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template <typename T>
struct fmt_class_string<T*, void> : fmt_class_string<const void*, void>
{
// Classify all pointers as const void*
};
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template <>
struct fmt_class_string<const char*, void>
{
static void format(std::string& out, u64 arg);
};
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template <>
struct fmt_class_string<char*, void> : fmt_class_string<const char*>
{
// Classify char* as const char*
};
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struct fmt_type_info
{
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decltype(&fmt_class_string<int>::format) fmt_string;
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template <typename T>
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static constexpr fmt_type_info make()
{
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return fmt_type_info
{
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&fmt_class_string<T>::format,
};
}
};
// Argument array type (each element generated via fmt_unveil<>)
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template <typename... Args>
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using fmt_args_t = const u64(&&)[sizeof...(Args) + 1];
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namespace fmt
{
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template <typename... Args>
SAFE_BUFFERS FORCE_INLINE const fmt_type_info* get_type_info()
{
// Constantly initialized null-terminated list of type-specific information
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static constexpr fmt_type_info result[sizeof...(Args) + 1]{fmt_type_info::make<Args>()...};
return result;
}
// Internal formatting function
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void raw_append(std::string& out, const char*, const fmt_type_info*, const u64*) noexcept;
// Formatting function
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template <typename... Args>
SAFE_BUFFERS FORCE_INLINE void append(std::string& out, const char* fmt, const Args&... args)
{
raw_append(out, fmt, fmt::get_type_info<fmt_unveil_t<Args>...>(), fmt_args_t<Args...>{fmt_unveil<Args>::get(args)...});
}
// Formatting function
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template <typename... Args>
SAFE_BUFFERS FORCE_INLINE std::string format(const char* fmt, const Args&... args)
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{
std::string result;
append<Args...>(result, fmt, args...);
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return result;
}
// Internal exception message formatting template, must be explicitly specialized or instantiated in cpp to minimize code bloat
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template <typename T>
[[noreturn]] void raw_throw_exception(const char*, const fmt_type_info*, const u64*);
// Throw exception with formatting
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template <typename T = std::runtime_error, typename... Args>
[[noreturn]] SAFE_BUFFERS FORCE_INLINE void throw_exception(const char* fmt, const Args&... args)
{
raw_throw_exception<T>(fmt, fmt::get_type_info<fmt_unveil_t<Args>...>(), fmt_args_t<Args...>{fmt_unveil<Args>::get(args)...});
}
}