#ifndef cwVariant_h #define cwVariant_h namespace cw { namespace variant { enum { kCharVFl = 0x00000001, kUCharVFl = 0x00000002, kInt8VFl = 0x00000004, kUInt8VFl = 0x00000008, kInt16VFl = 0x00000010, kUInt16VFl = 0x00000020, kInt32VFl = 0x00000040, kUInt32VFl = 0x00000080, kInt64VFl = 0x00000100, kUInt64VFl = 0x00000200, kBoolVFl = 0x00000400, kIntVMask = 0x000007ff, kFloatVFl = 0x00000800, kDoubleVFl = 0x00001000, kRealVMask = 0x00001800, kNumberMask= kRealVMask | kIntVMask, kPtrVFl = 0x80000000 }; const char* flagsToLabel( unsigned flags ); unsigned flagsToBytes( unsigned flags ); typedef struct value_str { unsigned flags; union { char c; unsigned char uc; std::int8_t i8; std::uint8_t u8; std::int16_t i16; std::uint16_t u16; std::int32_t i32; std::uint32_t u32; std::int64_t i64; std::uint64_t u64; bool b; float f; double d; char* cp; unsigned char* ucp; std::int8_t* i8p; std::uint8_t* u8p; std::int16_t* i16p; std::uint16_t* u16p; std::int32_t* i32p; std::uint32_t* u32p; std::int64_t* i64p; std::uint64_t* u64p; bool* bp; float* fp; double* dp; void* vp; } u; } value_t; inline void set( value_t& v, char x ) { v.u.c=x; v.flags=kCharVFl; } //inline void set( value_t& v, unsigned char x ) { v.u.uc=x; v.flags=kUCharVFl; } inline void set( value_t& v, std::int8_t x ) { v.u.i8=x; v.flags=kInt8VFl; } inline void set( value_t& v, std::uint8_t x ) { v.u.u8=x; v.flags=kUInt8VFl; } inline void set( value_t& v, std::int16_t x ) { v.u.i16=x; v.flags=kInt16VFl; } inline void set( value_t& v, std::uint16_t x ) { v.u.u16=x; v.flags=kUInt16VFl; } inline void set( value_t& v, std::int32_t x ) { v.u.i32=x; v.flags=kInt32VFl; } inline void set( value_t& v, std::uint32_t x ) { v.u.u32=x; v.flags=kUInt32VFl; } inline void set( value_t& v, std::int64_t x ) { v.u.i64=x; v.flags=kInt64VFl; } inline void set( value_t& v, std::uint64_t x ) { v.u.u64=x; v.flags=kUInt64VFl; } inline void set( value_t& v, bool x ) { v.u.b=x; v.flags=kBoolVFl; } inline void set( value_t& v, float x ) { v.u.f=x; v.flags=kFloatVFl; } inline void set( value_t& v, double x ) { v.u.d=x; v.flags=kDoubleVFl; } inline void set( value_t& v, char* x ) { v.u.cp=x; v.flags=kPtrVFl | kCharVFl; } //inline void set( value_t& v, unsigned char* x ) { v.u.ucp=x; v.flags=kPtrVFl | kUCharVFl; } inline void set( value_t& v, std::int8_t* x ) { v.u.i8p=x; v.flags=kPtrVFl | kInt8VFl; } inline void set( value_t& v, std::uint8_t* x ) { v.u.u8p=x; v.flags=kPtrVFl | kUInt8VFl; } inline void set( value_t& v, std::int16_t* x ) { v.u.i16p=x; v.flags=kPtrVFl | kInt16VFl; } inline void set( value_t& v, std::uint16_t* x ) { v.u.u16p=x; v.flags=kPtrVFl | kUInt16VFl; } inline void set( value_t& v, std::int32_t* x ) { v.u.i32p=x; v.flags=kPtrVFl | kInt32VFl; } inline void set( value_t& v, std::uint32_t* x ) { v.u.u32p=x; v.flags=kPtrVFl | kUInt32VFl; } inline void set( value_t& v, std::int64_t* x ) { v.u.i64p=x; v.flags=kPtrVFl | kInt64VFl; } inline void set( value_t& v, std::uint64_t* x ) { v.u.u64p=x; v.flags=kPtrVFl | kUInt64VFl; } inline void set( value_t& v, bool* x ) { v.u.bp=x; v.flags=kPtrVFl | kBoolVFl; } inline void set( value_t& v, float* x ) { v.u.fp=x; v.flags=kPtrVFl | kFloatVFl; } inline void set( value_t& v, double* x ) { v.u.dp=x; v.flags=kPtrVFl | kDoubleVFl; } rc_t get( const value_t& v, std::int8_t& r ); rc_t get( const value_t& v, std::uint8_t& r ); rc_t get( const value_t& v, std::int16_t& r ); rc_t get( const value_t& v, std::uint16_t& r ); rc_t get( const value_t& v, std::int32_t& r ); rc_t get( const value_t& v, std::uint32_t& r ); rc_t get( const value_t& v, std::int64_t& r ); rc_t get( const value_t& v, std::uint64_t& r ); rc_t get( const value_t& v, bool& r ); rc_t get( const value_t& v, float& r ); rc_t get( const value_t& v, double& r ); inline bool isInt( const value_t& v ) { return v.flags & kIntVMask; } inline bool isReal(const value_t& v ) { return v.flags & kRealVMask; } inline bool isPtr( const value_t& v ) { return v.flags & kPtrVFl; } rc_t print( const value_t& v, const char* fmt=nullptr ); rc_t write( file::handle_t fH, const value_t& v ); rc_t read( file::handle_t fH, value_t& v ); } } #endif