amxmodx/dlls/arrayx/Capsule.cpp

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#include "Capsule.h"
const char* capsule_types[] =
{
"-NO VALUE-",
"BOOLEAN",
"INTEGER",
"FLOAT",
"VECTOR",
"STRING"
};
void Capsule::ThrowTypeError(cell get_type)
{
char ValStr[15];
GetAsStr(ValStr);
char value[100];
sprintf(value,"Function attempted to read NON-%s value, actual type is: %s, actual value is: %s", capsule_types[get_type], capsule_types[type], ValStr );
throw JudyEx(value, true);
}
bool Capsule::CheckEmpty(bool clear)
{
bool empty = ( data == NULL );
if(empty != true && clear == true) Clear();
return empty;
}
void Capsule::Clear()
{
//This function intelligently creates a pointer x,
//which will be of correct type and then deletes it.
switch (type)
{
case capsule_type_flo:
{
REAL *real_val = reinterpret_cast<REAL*>(data);
delete real_val;
break;
}
case capsule_type_vec:
{
JudyVec *vector_val = reinterpret_cast<JudyVec*>(data);
delete vector_val;
break;
}
case capsule_type_str:
{
char *char_val = reinterpret_cast<char*>(data);
delete char_val;
break;
}
}
data = NULL; //Null the address as well. (Used for ints too.)
}
bool Capsule::GetBool( void )
{
if (type != capsule_type_bool) ThrowTypeError(capsule_type_bool);
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return (data != NULL);
}
void Capsule::SetBool(bool Value)
{
CheckEmpty(true);
type = capsule_type_bool;
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if(Value == true) data = reinterpret_cast<Pvoid_t>(1);
};
cell Capsule::GetInt( void )
{
if (type != capsule_type_int) ThrowTypeError(capsule_type_int);
return reinterpret_cast<cell>(data);
}
void Capsule::SetInt(cell Value)
{
CheckEmpty(true);
type = capsule_type_int;
data = reinterpret_cast<void*>(Value);
};
REAL Capsule::GetFlo( void )
{
if (type != capsule_type_flo) ThrowTypeError(capsule_type_flo);
return *reinterpret_cast<REAL*>(data);
}
void Capsule::SetFlo(REAL Value)
{
CheckEmpty(true);
type = capsule_type_flo;
data = new REAL(Value);
};
const JudyVec* Capsule::GetVec( void )
{
if (type != capsule_type_vec) ThrowTypeError(capsule_type_vec);
return reinterpret_cast<const JudyVec*>(data);
}
void Capsule::SetVec(JudyVec* Value)
{
CheckEmpty(true);
type = capsule_type_vec;
data = reinterpret_cast<void*>(Value);
}
const char* Capsule::GetStr( void )
{
if (type != capsule_type_str) ThrowTypeError(capsule_type_str);
return reinterpret_cast<const char*>(data);
}
void Capsule::SetStr(char* Value)
{
CheckEmpty(true);
type = capsule_type_str;
char *string_val = new char[strlen(Value)+1];
strcpy(string_val,Value);
data = reinterpret_cast<void*>(string_val);
}
void Capsule::GetAsStr(char* value)
{
switch (type)
{
case capsule_type_bool:
sprintf(value, "%i",(cell)GetBool());
break;
case capsule_type_int:
sprintf(value, "%d", GetInt() );
break;
case capsule_type_flo:
sprintf(value, "%f", GetFlo() );
break;
case capsule_type_vec:
sprintf(value, "{%f,%f,%f}", GetVec()->first, GetVec()->second, GetVec()->third);
break;
case capsule_type_str:
sprintf(value, "\"%s\"", GetStr() );
break;
default:
sprintf(value, "-NO VALUE-");
}
}
void Capsule::Save(FILE* capsuleDB)
{
fwrite(&type,sizeof(char),1,capsuleDB);
switch(type)
{
case capsule_type_none: { break; }
case capsule_type_bool: { bool var = GetBool(); fwrite(&var, sizeof(bool), 1, capsuleDB); break; }
case capsule_type_int: { cell var = GetInt(); fwrite(&var, sizeof(cell), 1, capsuleDB); break; }
case capsule_type_flo: { fwrite(reinterpret_cast<REAL*>(GetData()), sizeof(REAL), 1, capsuleDB); break; }
case capsule_type_str:
{
const char* str = GetStr();
size_t len = strlen(str);
fwrite(&len,sizeof(size_t), 1, capsuleDB);
fwrite(&str, sizeof(char), len, capsuleDB);
break;
}
case capsule_type_vec:
{
const JudyVec* buffer = GetVec();
fwrite(buffer, sizeof(JudyVec), 1, capsuleDB);
break;
}
default:
{
char value[20];
sprintf(value,"Invalid type found!");
throw JudyEx(value, true);
break;
}
};
}
void Capsule::Load(FILE* capsuleDB)
{
fread(&type, sizeof(char), 1, capsuleDB);
switch(type)
{
case capsule_type_none: { CheckEmpty(true); break; }
case capsule_type_bool:
{
bool value = false;
fread(&value, sizeof(bool), 1, capsuleDB);
SetBool(value);
break;
}
case capsule_type_int:
{
cell value = NULL;
fread(&value, sizeof(cell), 1, capsuleDB);
SetInt(value);
break;
}
case capsule_type_flo:
{
REAL value = NULL;
fread(&value, sizeof(REAL), 1, capsuleDB);
SetFlo(value);
break;
}
case capsule_type_str:
{
size_t length;
fread(&length, sizeof(size_t), 1, capsuleDB);
char* value = new char[length+1];
fgets(value, length+1, capsuleDB);
SetStr(value);
delete(value);
break;
}
case capsule_type_vec:
{
JudyVec* value = new JudyVec(NULL,NULL,NULL);
fread(value, sizeof(JudyVec), 1, capsuleDB);
SetVec(value);
break;
}
default:
{
char value[20];
sprintf(value,"Invalid type found: %i",(int)type);
throw JudyEx(value, true);
}
};
}