// ------------------------------------------------------------------------------------------------ #include "Base/Utility.hpp" #include "Base/Buffer.hpp" // ------------------------------------------------------------------------------------------------ #include #include #include #include #include #include // ------------------------------------------------------------------------------------------------ #ifdef SQMOD_OS_WINDOWS #include #endif // SQMOD_OS_WINDOWS // ------------------------------------------------------------------------------------------------ #ifndef SQMOD_PLUGIN_API #include "Library/Numeric/LongInt.hpp" #include #endif // SQMOD_PLUGIN_API // ------------------------------------------------------------------------------------------------ namespace SqMod { // ------------------------------------------------------------------------------------------------ PluginFuncs* _Func = nullptr; PluginCallbacks* _Clbk = nullptr; PluginInfo* _Info = nullptr; /* ------------------------------------------------------------------------------------------------ * Common buffers to reduce memory allocations. To be immediately copied upon return! */ static SQChar g_Buffer[4096]; static SQChar g_NumBuf[1024]; // ------------------------------------------------------------------------------------------------ SStr GetTempBuff() { return g_Buffer; } // ------------------------------------------------------------------------------------------------ Uint32 GetTempBuffSize() { return sizeof(g_Buffer); } /* -------------------------------------------------------------------------------------------- * Raw console message output. */ static inline void OutputMessageImpl(CCStr msg, va_list args) { #ifdef SQMOD_OS_WINDOWS HANDLE hstdout = GetStdHandle(STD_OUTPUT_HANDLE); CONSOLE_SCREEN_BUFFER_INFO csb_before; GetConsoleScreenBufferInfo( hstdout, &csb_before); SetConsoleTextAttribute(hstdout, FOREGROUND_GREEN); std::printf("[SQMOD] "); SetConsoleTextAttribute(hstdout, FOREGROUND_GREEN | FOREGROUND_BLUE | FOREGROUND_RED | FOREGROUND_INTENSITY); std::vprintf(msg, args); std::puts(""); SetConsoleTextAttribute(hstdout, csb_before.wAttributes); #else std::printf("\033[21;32m[SQMOD]\033[0m"); std::vprintf(msg, args); std::puts(""); #endif // SQMOD_OS_WINDOWS } /* -------------------------------------------------------------------------------------------- * Raw console error output. */ static inline void OutputErrorImpl(CCStr msg, va_list args) { #ifdef SQMOD_OS_WINDOWS HANDLE hstdout = GetStdHandle(STD_OUTPUT_HANDLE); CONSOLE_SCREEN_BUFFER_INFO csb_before; GetConsoleScreenBufferInfo( hstdout, &csb_before); SetConsoleTextAttribute(hstdout, FOREGROUND_RED | FOREGROUND_INTENSITY); std::printf("[SQMOD] "); SetConsoleTextAttribute(hstdout, FOREGROUND_GREEN | FOREGROUND_BLUE | FOREGROUND_RED | FOREGROUND_INTENSITY); std::vprintf(msg, args); std::puts(""); SetConsoleTextAttribute(hstdout, csb_before.wAttributes); #else std::printf("\033[21;91m[SQMOD]\033[0m"); std::vprintf(msg, args); std::puts(""); #endif // SQMOD_OS_WINDOWS } // -------------------------------------------------------------------------------------------- void OutputDebug(CCStr msg, ...) { #ifdef _DEBUG // Initialize the arguments list va_list args; va_start(args, msg); // Call the output function OutputMessageImpl(msg, args); // Finalize the arguments list va_end(args); #else SQMOD_UNUSED_VAR(msg); #endif } // -------------------------------------------------------------------------------------------- void OutputMessage(CCStr msg, ...) { // Initialize the arguments list va_list args; va_start(args, msg); // Call the output function OutputMessageImpl(msg, args); // Finalize the arguments list va_end(args); } // -------------------------------------------------------------------------------------------- void OutputError(CCStr msg, ...) { // Initialize the arguments list va_list args; va_start(args, msg); // Call the output function OutputErrorImpl(msg, args); // Finalize the arguments list va_end(args); } // ------------------------------------------------------------------------------------------------ void SqThrowF(CSStr str, ...) { // Initialize the argument list va_list args; va_start (args, str); // Write the requested contents if (std::vsnprintf(g_Buffer, sizeof(g_Buffer), str, args) < 0) { // Write a generic message at least std::strcpy(g_Buffer, "Unknown error has occurred"); } // Finalize the argument list va_end(args); // Throw the exception with the resulted message throw Sqrat::Exception(g_Buffer); } // ------------------------------------------------------------------------------------------------ CSStr FmtStr(CSStr str, ...) { // Initialize the argument list va_list args; va_start (args, str); // Write the requested contents if (std::vsnprintf(g_Buffer, sizeof(g_Buffer), str, args) < 0) { STHROWF("Failed to run the specified string format"); } // Finalize the argument list va_end(args); // Return the data from the buffer return g_Buffer; } // ------------------------------------------------------------------------------------------------ CSStr ToStrF(CSStr str, ...) { // Prepare the arguments list va_list args; va_start(args, str); // Write the requested contents if (std::vsnprintf(g_Buffer, sizeof(g_Buffer), str, args) < 0) { g_Buffer[0] = '\0'; // Make sure the string is null terminated } // Finalize the argument list va_end(args); // Return the resulted string return g_Buffer; } // ------------------------------------------------------------------------------------------------ CSStr ToStringF(CSStr str, ...) { // Acquire a moderately sized buffer Buffer b(128); // Prepare the arguments list va_list args; va_start (args, str); // Attempt to run the specified format if (b.WriteF(0, str, args) == 0) { b.At(0) = '\0'; // Make sure the string is null terminated } // Finalize the argument list va_end(args); // Return the resulted string return b.Get< SQChar >(); } // ------------------------------------------------------------------------------------------------ bool SToB(CSStr str) { // Temporary buffer to store the lowercase string SQChar buffer[8]; // The currently processed character unsigned i = 0; // Convert only the necessary characters to lowercase while (i < 7 && *str != '\0') { buffer[i++] = static_cast< SQChar >(std::tolower(*(str++))); } // Add the null terminator buffer[i] = '\0'; // Compare the lowercase string and return the result return (std::strcmp(buffer, "true") == 0 || std::strcmp(buffer, "yes") == 0 || std::strcmp(buffer, "on") == 0 || std::strcmp(buffer, "1") == 0) ? true : false; } // ------------------------------------------------------------------------------------------------ Object & NullObject() { static Object o; o.Release(); return o; } // ------------------------------------------------------------------------------------------------ LightObj & NullLightObj() { static LightObj o; o.Release(); return o; } // ------------------------------------------------------------------------------------------------ Table & NullTable() { static Table t; t.Release(); return t; } // ------------------------------------------------------------------------------------------------ Array & NullArray() { static Array a; a.Release(); return a; } // ------------------------------------------------------------------------------------------------ Function & NullFunction() { static Function f; f.Release(); return f; } // ------------------------------------------------------------------------------------------------ String & NullString() { static String s; s.resize(0); return s; } // ------------------------------------------------------------------------------------------------ CSStr ConvNum< Int8 >::ToStr(Int8 v) { // Write the numeric value to the buffer if (std::snprintf(g_NumBuf, sizeof(g_NumBuf), "%d", v) < 0) { g_NumBuf[0] = '\0'; } // Return the beginning of the buffer return g_NumBuf; } Int8 ConvNum< Int8 >::FromStr(CSStr s) { return ConvTo< Int8 >::From(std::strtol(s, nullptr, 10)); } Int8 ConvNum< Int8 >::FromStr(CSStr s, Int32 base) { return ConvTo< Int8 >::From(std::strtol(s, nullptr, base)); } // ------------------------------------------------------------------------------------------------ CSStr ConvNum< Uint8 >::ToStr(Uint8 v) { // Write the numeric value to the buffer if (std::snprintf(g_NumBuf, sizeof(g_NumBuf), "%u", v) < 0) { g_NumBuf[0] = '\0'; } // Return the beginning of the buffer return g_NumBuf; } Uint8 ConvNum< Uint8 >::FromStr(CSStr s) { return ConvTo< Uint8 >::From(std::strtoul(s, nullptr, 10)); } Uint8 ConvNum< Uint8 >::FromStr(CSStr s, Int32 base) { return ConvTo< Uint8 >::From(std::strtoul(s, nullptr, base)); } // ------------------------------------------------------------------------------------------------ CSStr ConvNum< Int16 >::ToStr(Int16 v) { // Write the numeric value to the buffer if (std::snprintf(g_NumBuf, sizeof(g_NumBuf), "%d", v) < 0) { g_NumBuf[0] = '\0'; } // Return the beginning of the buffer return g_NumBuf; } Int16 ConvNum< Int16 >::FromStr(CSStr s) { return ConvTo< Int16 >::From(std::strtol(s, nullptr, 10)); } Int16 ConvNum< Int16 >::FromStr(CSStr s, Int32 base) { return ConvTo< Int16 >::From(std::strtol(s, nullptr, base)); } // ------------------------------------------------------------------------------------------------ CSStr ConvNum< Uint16 >::ToStr(Uint16 v) { // Write the numeric value to the buffer if (std::snprintf(g_NumBuf, sizeof(g_NumBuf), "%u", v) < 0) { g_NumBuf[0] = '\0'; } // Return the beginning of the buffer return g_NumBuf; } Uint16 ConvNum< Uint16 >::FromStr(CSStr s) { return ConvTo< Uint16 >::From(std::strtoul(s, nullptr, 10)); } Uint16 ConvNum< Uint16 >::FromStr(CSStr s, Int32 base) { return ConvTo< Uint16 >::From(std::strtoul(s, nullptr, base)); } // ------------------------------------------------------------------------------------------------ CSStr ConvNum< Int32 >::ToStr(Int32 v) { // Write the numeric value to the buffer if (std::snprintf(g_NumBuf, sizeof(g_NumBuf), "%d", v) < 0) { g_NumBuf[0] = '\0'; } // Return the beginning of the buffer return g_NumBuf; } Int32 ConvNum< Int32 >::FromStr(CSStr s) { return ConvTo< Int32 >::From(std::strtol(s, nullptr, 10)); } Int32 ConvNum< Int32 >::FromStr(CSStr s, Int32 base) { return ConvTo< Int32 >::From(std::strtol(s, nullptr, base)); } // ------------------------------------------------------------------------------------------------ CSStr ConvNum< Uint32 >::ToStr(Uint32 v) { // Write the numeric value to the buffer if (std::snprintf(g_NumBuf, sizeof(g_NumBuf), "%u", v) < 0) { g_NumBuf[0] = '\0'; } // Return the beginning of the buffer return g_NumBuf; } Uint32 ConvNum< Uint32 >::FromStr(CSStr s) { return ConvTo< Uint32 >::From(std::strtoul(s, nullptr, 10)); } Uint32 ConvNum< Uint32 >::FromStr(CSStr s, Int32 base) { return ConvTo< Uint32 >::From(std::strtoul(s, nullptr, base)); } // ------------------------------------------------------------------------------------------------ CSStr ConvNum< Int64 >::ToStr(Int64 v) { // Write the numeric value to the buffer if (std::snprintf(g_NumBuf, sizeof(g_NumBuf), "%lld", v) < 0) { g_NumBuf[0] = '\0'; } // Return the beginning of the buffer return g_NumBuf; } Int64 ConvNum< Int64 >::FromStr(CSStr s) { return std::strtoll(s, nullptr, 10); } Int64 ConvNum< Int64 >::FromStr(CSStr s, Int32 base) { return std::strtoll(s, nullptr, base); } // ------------------------------------------------------------------------------------------------ CSStr ConvNum< Uint64 >::ToStr(Uint64 v) { // Write the numeric value to the buffer if (std::snprintf(g_NumBuf, sizeof(g_NumBuf), "%llu", v) < 0) { g_NumBuf[0] = '\0'; } // Return the beginning of the buffer return g_NumBuf; } Uint64 ConvNum< Uint64 >::FromStr(CSStr s) { return std::strtoull(s, nullptr, 10); } Uint64 ConvNum< Uint64 >::FromStr(CSStr s, Int32 base) { return std::strtoull(s, nullptr, base); } // ------------------------------------------------------------------------------------------------ CSStr ConvNum< LongI >::ToStr(LongI v) { // Write the numeric value to the buffer if (std::snprintf(g_NumBuf, sizeof(g_NumBuf), "%ld", v) < 0) { g_NumBuf[0] = '\0'; } // Return the beginning of the buffer return g_NumBuf; } LongI ConvNum< LongI >::FromStr(CSStr s) { return std::strtol(s, nullptr, 10); } LongI ConvNum< LongI >::FromStr(CSStr s, Int32 base) { return std::strtol(s, nullptr, base); } // ------------------------------------------------------------------------------------------------ CSStr ConvNum< Ulong >::ToStr(Ulong v) { // Write the numeric value to the buffer if (std::snprintf(g_NumBuf, sizeof(g_NumBuf), "%lu", v) < 0) { g_NumBuf[0] = '\0'; } // Return the beginning of the buffer return g_NumBuf; } Ulong ConvNum< Ulong >::FromStr(CSStr s) { return std::strtoul(s, nullptr, 10); } Ulong ConvNum< Ulong >::FromStr(CSStr s, Int32 base) { return std::strtoul(s, nullptr, base); } // ------------------------------------------------------------------------------------------------ CSStr ConvNum< Float32 >::ToStr(Float32 v) { // Attempt to convert the value to a string if (std::snprintf(g_NumBuf, sizeof(g_NumBuf), "%f", v) < 0) { g_NumBuf[0] = '\0'; } // Return the data from the buffer return g_NumBuf; } Float32 ConvNum< Float32 >::FromStr(CSStr s) { return std::strtof(s, nullptr); } Float32 ConvNum< Float32 >::FromStr(CSStr s, Int32 /*base*/) { return std::strtof(s, nullptr); } // ------------------------------------------------------------------------------------------------ CSStr ConvNum< Float64 >::ToStr(Float64 v) { // Attempt to convert the value to a string if (std::snprintf(g_NumBuf, sizeof(g_NumBuf), "%f", v) < 0) { g_NumBuf[0] = '\0'; } // Return the data from the buffer return g_NumBuf; } Float64 ConvNum< Float64 >::FromStr(CSStr s) { return std::strtod(s, nullptr); } Float64 ConvNum< Float64 >::FromStr(CSStr s, Int32 /*base*/) { return std::strtod(s, nullptr); } // ------------------------------------------------------------------------------------------------ CSStr ConvNum< bool >::ToStr(bool v) { if (v) { g_NumBuf[0] = 't'; g_NumBuf[1] = 'r'; g_NumBuf[2] = 'u'; g_NumBuf[3] = 'e'; g_NumBuf[4] = '\0'; } else { g_NumBuf[0] = 'f'; g_NumBuf[1] = 'a'; g_NumBuf[2] = 'l'; g_NumBuf[3] = 's'; g_NumBuf[4] = 'e'; g_NumBuf[5] = '\0'; } return g_NumBuf; } bool ConvNum< bool >::FromStr(CSStr s) { return (std::strcmp(s, "true") == 0) ? true : false; } bool ConvNum< bool >::FromStr(CSStr s, Int32 /*base*/) { return (std::strcmp(s, "true") == 0) ? true : false; } // ------------------------------------------------------------------------------------------------ CSStr SqTypeName(SQObjectType type) { switch (type) { case OT_NULL: return _SC("null"); case OT_INTEGER: return _SC("integer"); case OT_FLOAT: return _SC("float"); case OT_BOOL: return _SC("bool"); case OT_STRING: return _SC("string"); case OT_TABLE: return _SC("table"); case OT_ARRAY: return _SC("array"); case OT_USERDATA: return _SC("userdata"); case OT_CLOSURE: return _SC("closure"); case OT_NATIVECLOSURE: return _SC("nativeclosure"); case OT_GENERATOR: return _SC("generator"); case OT_USERPOINTER: return _SC("userpointer"); case OT_THREAD: return _SC("thread"); case OT_FUNCPROTO: return _SC("funcproto"); case OT_CLASS: return _SC("class"); case OT_INSTANCE: return _SC("instance"); case OT_WEAKREF: return _SC("weakref"); case OT_OUTER: return _SC("outer"); default: return _SC("unknown"); } } // ------------------------------------------------------------------------------------------------ String SqTypeName(HSQUIRRELVM vm, SQInteger idx) { // Remember the current stack size const StackGuard sg(vm); // Attempt to retrieve the type name of the specified value if (SQ_FAILED(sq_typeof(vm, idx))) { return _SC("unknown"); } // Attempt to convert the obtained value to a string StackStrF val(vm, -1, false); // Did the conversion failed? if (SQ_FAILED(val.mRes)) { return _SC("unknown"); } // Return the obtained string value return String(val.mPtr, val.mLen); } // ------------------------------------------------------------------------------------------------ Object BufferToStrObj(const Buffer & b) { // Obtain the initial stack size const StackGuard sg(DefaultVM::Get()); // Push the string onto the stack sq_pushstring(DefaultVM::Get(), b.Data(), b.Position()); // Obtain the object from the stack and return it return Var< Object >(DefaultVM::Get(), -1).value; } // -------------------------------------------------------------------------------------------- Object BufferToStrObj(const Buffer & b, Uint32 size) { // Perform a range check on the specified buffer if (size > b.Capacity()) { STHROWF("The specified buffer size is out of range: %u >= %u", size, b.Capacity()); } // Obtain the initial stack size const StackGuard sg(DefaultVM::Get()); // Push the string onto the stack sq_pushstring(DefaultVM::Get(), b.Data(), size); // Obtain the object from the stack and return it return Var< Object >(DefaultVM::Get(), -1).value; } // ------------------------------------------------------------------------------------------------ Object MakeSLongObj(Int64 value) { // Obtain the default virtual machine HSQUIRRELVM vm = DefaultVM::Get(); // Obtain the initial stack size const StackGuard sg(vm); #ifdef SQMOD_PLUGIN_API // Push a long integer instance with the requested value on the stack SqMod_PushSLongObject(vm, value); #else // Transform the specified value into a script object PushVar< SLongInt >(vm, SLongInt(value)); #endif // SQMOD_PLUGIN_API // Obtain the object from the stack and return it return Var< Object >(vm, -1).value; } // ------------------------------------------------------------------------------------------------ Object MakeULongObj(Uint64 value) { // Obtain the default virtual machine HSQUIRRELVM vm = DefaultVM::Get(); // Obtain the initial stack size const StackGuard sg(vm); #ifdef SQMOD_PLUGIN_API // Push a long integer instance with the requested value on the stack SqMod_PushULongObject(vm, value); #else // Transform the specified value into a script object PushVar< ULongInt >(vm, ULongInt(value)); #endif // SQMOD_PLUGIN_API // Obtain the object from the stack and return it return Var< Object >(vm, -1).value; } // ------------------------------------------------------------------------------------------------ Object MakeSLongObj(HSQUIRRELVM vm, Int64 value) { // Obtain the initial stack size const StackGuard sg(vm); #ifdef SQMOD_PLUGIN_API // Push a long integer instance with the requested value on the stack SqMod_PushSLongObject(vm, value); #else // Transform the specified value into a script object PushVar< SLongInt >(vm, SLongInt(value)); #endif // SQMOD_PLUGIN_API // Obtain the object from the stack and return it return Var< Object >(vm, -1).value; } // ------------------------------------------------------------------------------------------------ Object MakeULongObj(HSQUIRRELVM vm, Uint64 value) { // Obtain the initial stack size const StackGuard sg(vm); #ifdef SQMOD_PLUGIN_API // Push a long integer instance with the requested value on the stack SqMod_PushULongObject(vm, value); #else // Transform the specified value into a script object PushVar< ULongInt >(vm, ULongInt(value)); #endif // SQMOD_PLUGIN_API // Obtain the object from the stack and return it return Var< Object >(vm, -1).value; } // ------------------------------------------------------------------------------------------------ Int64 FetchSLongObjVal(const Object & value) { // Grab the associated object virtual machine HSQUIRRELVM vm = value.GetVM(); // Obtain the initial stack size const StackGuard sg(vm); // Push the specified object onto the stack Var< const Object & >::push(vm, value); // Retrieve and return the object value from the stack return PopStackSLong(vm, -1); } // ------------------------------------------------------------------------------------------------ Uint64 FetchULongObjVal(const Object & value) { // Grab the associated object virtual machine HSQUIRRELVM vm = value.GetVM(); // Obtain the initial stack size const StackGuard sg(vm); // Push the specified object onto the stack Var< const Object & >::push(vm, value); // Retrieve and return the object value from the stack return PopStackSLong(vm, -1); } // ------------------------------------------------------------------------------------------------ SQRESULT FetchDateObjVal(const Object & value, Uint16 & year, Uint8 & month, Uint8 & day) { #ifdef SQMOD_PLUGIN_API // Grab the associated object virtual machine HSQUIRRELVM vm = value.GetVM(); // Remember the current stack size const StackGuard sg(vm); // Push the specified object onto the stack Var< const Object & >::push(vm, value); // Grab the date components from the date instance return SqMod_GetDate(vm, -1, &year, &month, &day); #else STHROWF("This method is only available in modules"); // Should not reach this point return SQ_ERROR; // Avoid unused parameter warnings SQMOD_UNUSED_VAR(value); SQMOD_UNUSED_VAR(year); SQMOD_UNUSED_VAR(month); SQMOD_UNUSED_VAR(day); #endif // SQMOD_PLUGIN_API } // ------------------------------------------------------------------------------------------------ CSStr FetchDateObjStr(const Object & value) { #ifdef SQMOD_PLUGIN_API static SQChar buffer[32]; // Grab the associated object virtual machine HSQUIRRELVM vm = value.GetVM(); // Remember the current stack size const StackGuard sg(vm); // Push the specified object onto the stack Var< const Object & >::push(vm, value); // Grab the date instance as a string const StackStrF val(vm, -1, false); // Validate the result if (SQ_FAILED(val.mRes)) { return _SC("1000-01-01"); } // Copy the string into the common buffer std::strncpy(buffer, val.mPtr, sizeof(buffer)); // Return the obtained string return buffer; #else STHROWF("This method is only available in modules"); // Should not reach this point return nullptr; // Avoid unused parameter warnings SQMOD_UNUSED_VAR(value); #endif // SQMOD_PLUGIN_API } // ------------------------------------------------------------------------------------------------ SQRESULT FetchTimeObjVal(const Object & value, Uint8 & hour, Uint8 & minute, Uint8 & second) { #ifdef SQMOD_PLUGIN_API // Grab the associated object virtual machine HSQUIRRELVM vm = value.GetVM(); // Remember the current stack size const StackGuard sg(vm); // Push the specified object onto the stack Var< const Object & >::push(vm, value); // Grab the date components from the date instance return SqMod_GetTime(vm, -1, &hour, &minute, &second, nullptr); #else STHROWF("This method is only available in modules"); // Should not reach this point return SQ_ERROR; // Avoid unused parameter warnings SQMOD_UNUSED_VAR(value); SQMOD_UNUSED_VAR(hour); SQMOD_UNUSED_VAR(minute); SQMOD_UNUSED_VAR(second); #endif // SQMOD_PLUGIN_API } // ------------------------------------------------------------------------------------------------ SQRESULT FetchTimeObjVal(const Object & value, Uint8 & hour, Uint8 & minute, Uint8 & second, Uint16 & millisecond) { #ifdef SQMOD_PLUGIN_API // Grab the associated object virtual machine HSQUIRRELVM vm = value.GetVM(); // Remember the current stack size const StackGuard sg(vm); // Push the specified object onto the stack Var< const Object & >::push(vm, value); // Grab the date components from the date instance return SqMod_GetTime(vm, -1, &hour, &minute, &second, &millisecond); #else STHROWF("This method is only available in modules"); // Should not reach this point return SQ_ERROR; // Avoid unused parameter warnings SQMOD_UNUSED_VAR(value); SQMOD_UNUSED_VAR(hour); SQMOD_UNUSED_VAR(minute); SQMOD_UNUSED_VAR(second); SQMOD_UNUSED_VAR(millisecond); #endif // SQMOD_PLUGIN_API } // ------------------------------------------------------------------------------------------------ CSStr FetchTimeObjStr(const Object & value) { #ifdef SQMOD_PLUGIN_API static SQChar buffer[32]; // Grab the associated object virtual machine HSQUIRRELVM vm = value.GetVM(); // Remember the current stack size const StackGuard sg(vm); // Push the specified object onto the stack Var< const Object & >::push(vm, value); // Grab the time instance as a string const StackStrF val(vm, -1, false); // Validate the result if (SQ_FAILED(val.mRes)) { return _SC("00:00:00"); } // Copy the string into the common buffer std::strncpy(buffer, val.mPtr, sizeof(buffer)); // Remove the millisecond part from the string, if any buffer[8] = '\0'; // Return the obtained string return buffer; #else STHROWF("This method is only available in modules"); // Should not reach this point return nullptr; // Avoid unused parameter warnings SQMOD_UNUSED_VAR(value); #endif // SQMOD_PLUGIN_API } // ------------------------------------------------------------------------------------------------ Int32 FetchTimeObjSeconds(const Object & value) { #ifdef SQMOD_PLUGIN_API // Grab the associated object virtual machine HSQUIRRELVM vm = value.GetVM(); // Remember the current stack size const StackGuard sg(vm); // Push the specified object onto the stack Var< const Object & >::push(vm, value); // The time components uint8_t h = 0, m = 0, s = 0; // Grab the time components from the time instance if (SQ_FAILED(SqMod_GetTime(vm, -1, &h, &m, &s, nullptr))) { STHROWF("Unable to obtain the time info"); } // Return the number of seconds in the specified time return ((h * (60 * 60)) + (m * 60) + s); #else STHROWF("This method is only available in modules"); // Should not reach this point return 0; // Avoid unused parameter warnings SQMOD_UNUSED_VAR(value); #endif // SQMOD_PLUGIN_API } // ------------------------------------------------------------------------------------------------ SQRESULT FetchDatetimeObjVal(const Object & value, Uint16 & year, Uint8 & month, Uint8 & day, Uint8 & hour, Uint8 & minute, Uint8 & second) { #ifdef SQMOD_PLUGIN_API // Grab the associated object virtual machine HSQUIRRELVM vm = value.GetVM(); // Remember the current stack size const StackGuard sg(vm); // Push the specified object onto the stack Var< const Object & >::push(vm, value); // Grab the date components from the date instance return SqMod_GetDatetime(vm, -1, &year, &month, &day, &hour, &minute, &second, nullptr); #else STHROWF("This method is only available in modules"); // Should not reach this point return SQ_ERROR; // Avoid unused parameter warnings SQMOD_UNUSED_VAR(value); SQMOD_UNUSED_VAR(year); SQMOD_UNUSED_VAR(month); SQMOD_UNUSED_VAR(day); SQMOD_UNUSED_VAR(hour); SQMOD_UNUSED_VAR(minute); SQMOD_UNUSED_VAR(second); #endif // SQMOD_PLUGIN_API } // ------------------------------------------------------------------------------------------------ SQRESULT FetchDatetimeObjVal(const Object & value, Uint16 & year, Uint8 & month, Uint8 & day, Uint8 & hour, Uint8 & minute, Uint8 & second, Uint16 & millisecond) { #ifdef SQMOD_PLUGIN_API // Grab the associated object virtual machine HSQUIRRELVM vm = value.GetVM(); // Remember the current stack size const StackGuard sg(vm); // Push the specified object onto the stack Var< const Object & >::push(vm, value); // Grab the date components from the date instance return SqMod_GetDatetime(vm, -1, &year, &month, &day, &hour, &minute, &second, &millisecond); #else STHROWF("This method is only available in modules"); // Should not reach this point return SQ_ERROR; // Avoid unused parameter warnings SQMOD_UNUSED_VAR(value); SQMOD_UNUSED_VAR(year); SQMOD_UNUSED_VAR(month); SQMOD_UNUSED_VAR(day); SQMOD_UNUSED_VAR(hour); SQMOD_UNUSED_VAR(minute); SQMOD_UNUSED_VAR(second); SQMOD_UNUSED_VAR(millisecond); #endif // SQMOD_PLUGIN_API } // ------------------------------------------------------------------------------------------------ CSStr FetchDatetimeObjStr(const Object & value) { #ifdef SQMOD_PLUGIN_API static SQChar buffer[32]; // Grab the associated object virtual machine HSQUIRRELVM vm = value.GetVM(); // Remember the current stack size const StackGuard sg(vm); // Push the specified object onto the stack Var< const Object & >::push(vm, value); // Grab the date-time instance as a string const StackStrF val(vm, -1, false); // Validate the result if (SQ_FAILED(val.mRes)) { return _SC("1000-01-01 00:00:00"); } // Copy the string into the common buffer std::strncpy(buffer, val.mPtr, sizeof(buffer)); // Remove the millisecond part from the string, if any buffer[19] = '\0'; // Return the obtained string return buffer; #else STHROWF("This method is only available in modules"); // Should not reach this point return nullptr; // Avoid unused parameter warnings SQMOD_UNUSED_VAR(value); #endif // SQMOD_PLUGIN_API } // ------------------------------------------------------------------------------------------------ SQInteger PopStackInteger(HSQUIRRELVM vm, SQInteger idx) { #ifdef SQMOD_PLUGIN_API return SqMod_PopStackInteger(vm, idx); #else // Identify which type must be extracted switch (sq_gettype(vm, idx)) { case OT_INTEGER: { SQInteger val; sq_getinteger(vm, idx, &val); return val; } break; case OT_FLOAT: { SQFloat val; sq_getfloat(vm, idx, &val); return ConvTo< SQInteger >::From(val); } break; case OT_BOOL: { SQBool val; sq_getbool(vm, idx, &val); return static_cast< SQInteger >(val); } break; case OT_STRING: { CSStr val = nullptr; // Attempt to retrieve and convert the string if (SQ_SUCCEEDED(sq_getstring(vm, idx, &val)) && val != nullptr && *val != '\0') { return ConvTo< SQInteger >::From(std::strtoll(val, nullptr, 10)); } } break; case OT_ARRAY: case OT_TABLE: case OT_CLASS: case OT_USERDATA: { return sq_getsize(vm, idx); } break; case OT_INSTANCE: { // Attempt to treat the value as a signed long instance try { return ConvTo< SQInteger >::From(Var< const SLongInt & >(vm, idx).value.GetNum()); } catch (...) { // Just ignore it... } // Attempt to treat the value as a unsigned long instance try { return ConvTo< SQInteger >::From(Var< const ULongInt & >(vm, idx).value.GetNum()); } catch (...) { // Just ignore it... } // Attempt to get the size of the instance as a fall back return sq_getsize(vm, idx); } break; default: break; } // Default to 0 return 0; #endif // SQMOD_PLUGIN_API } // ------------------------------------------------------------------------------------------------ SQFloat PopStackFloat(HSQUIRRELVM vm, SQInteger idx) { #ifdef SQMOD_PLUGIN_API return SqMod_PopStackFloat(vm, idx); #else // Identify which type must be extracted switch (sq_gettype(vm, idx)) { case OT_FLOAT: { SQFloat val; sq_getfloat(vm, idx, &val); return val; } break; case OT_INTEGER: { SQInteger val; sq_getinteger(vm, idx, &val); return ConvTo< SQFloat >::From(val); } break; case OT_BOOL: { SQBool val; sq_getbool(vm, idx, &val); return ConvTo< SQFloat >::From(val); } break; case OT_STRING: { CSStr val = nullptr; // Attempt to retrieve and convert the string if (SQ_SUCCEEDED(sq_getstring(vm, idx, &val)) && val != nullptr && *val != '\0') { #ifdef SQUSEDOUBLE return std::strtod(val, nullptr); #else return std::strtof(val, nullptr); #endif // SQUSEDOUBLE } } break; case OT_ARRAY: case OT_TABLE: case OT_CLASS: case OT_USERDATA: { return ConvTo< SQFloat >::From(sq_getsize(vm, idx)); } break; case OT_INSTANCE: { // Attempt to treat the value as a signed long instance try { return ConvTo< SQFloat >::From(Var< const SLongInt & >(vm, idx).value.GetNum()); } catch (...) { // Just ignore it... } // Attempt to treat the value as a unsigned long instance try { return ConvTo< SQFloat >::From(Var< const ULongInt & >(vm, idx).value.GetNum()); } catch (...) { // Just ignore it... } // Attempt to get the size of the instance as a fall back return ConvTo< SQFloat >::From(sq_getsize(vm, idx)); } break; default: break; } // Default to 0 return 0.0; #endif // SQMOD_PLUGIN_API } // ------------------------------------------------------------------------------------------------ Int64 PopStackSLong(HSQUIRRELVM vm, SQInteger idx) { #ifdef SQMOD_PLUGIN_API return SqMod_PopStackSLong(vm, idx); #else // Identify which type must be extracted switch (sq_gettype(vm, idx)) { case OT_INTEGER: { SQInteger val; sq_getinteger(vm, idx, &val); return static_cast< Int64 >(val); } break; case OT_FLOAT: { SQFloat val; sq_getfloat(vm, idx, &val); return ConvTo< Int64 >::From(val); } break; case OT_BOOL: { SQBool val; sq_getbool(vm, idx, &val); return static_cast< Int64 >(val); } break; case OT_STRING: { CSStr val = nullptr; // Attempt to retrieve and convert the string if (SQ_SUCCEEDED(sq_getstring(vm, idx, &val)) && val != nullptr && *val != '\0') { return std::strtoll(val, nullptr, 10); } } break; case OT_ARRAY: case OT_TABLE: case OT_CLASS: case OT_USERDATA: { return static_cast< Int64 >(sq_getsize(vm, idx)); } break; case OT_INSTANCE: { // Attempt to treat the value as a signed long instance try { return Var< const SLongInt & >(vm, idx).value.GetNum(); } catch (...) { // Just ignore it... } // Attempt to treat the value as a unsigned long instance try { return ConvTo< Int64 >::From(Var< const ULongInt & >(vm, idx).value.GetNum()); } catch (...) { // Just ignore it... } // Attempt to get the size of the instance as a fall back return static_cast< Int64 >(sq_getsize(vm, idx)); } break; default: break; } // Default to 0 return 0; #endif // SQMOD_PLUGIN_API } // ------------------------------------------------------------------------------------------------ Uint64 PopStackULong(HSQUIRRELVM vm, SQInteger idx) { #ifdef SQMOD_PLUGIN_API return SqMod_PopStackULong(vm, idx); #else // Identify which type must be extracted switch (sq_gettype(vm, idx)) { case OT_INTEGER: { SQInteger val; sq_getinteger(vm, idx, &val); return ConvTo< Uint64 >::From(val); } break; case OT_FLOAT: { SQFloat val; sq_getfloat(vm, idx, &val); return ConvTo< Uint64 >::From(val); } break; case OT_BOOL: { SQBool val; sq_getbool(vm, idx, &val); return ConvTo< Uint64 >::From(val); } break; case OT_STRING: { CSStr val = nullptr; // Attempt to retrieve and convert the string if (SQ_SUCCEEDED(sq_getstring(vm, idx, &val)) && val != nullptr && *val != '\0') { return std::strtoull(val, nullptr, 10); } } break; case OT_ARRAY: case OT_TABLE: case OT_CLASS: case OT_USERDATA: { return ConvTo< Uint64 >::From(sq_getsize(vm, idx)); } break; case OT_INSTANCE: { // Attempt to treat the value as a signed long instance try { return ConvTo< Uint64 >::From(Var< const SLongInt & >(vm, idx).value.GetNum()); } catch (...) { // Just ignore it... } // Attempt to treat the value as a unsigned long instance try { return Var< const ULongInt & >(vm, idx).value.GetNum(); } catch (...) { // Just ignore it... } // Attempt to get the size of the instance as a fall back return ConvTo< Uint64 >::From(sq_getsize(vm, idx)); } break; default: break; } // Default to 0 return 0; #endif // SQMOD_PLUGIN_API } // ------------------------------------------------------------------------------------------------ #ifdef SQMOD_PLUGIN_API // ------------------------------------------------------------------------------------------------ bool CheckModuleAPIVer(CCStr ver, CCStr mod) { // Obtain the numeric representation of the API version const LongI vernum = std::strtol(ver, nullptr, 10); // Check against version mismatch if (vernum == SQMOD_API_VER) { return true; } // Log the incident OutputError("API version mismatch on %s", mod); OutputMessage("=> Requested: %ld Have: %ld", vernum, SQMOD_API_VER); // Invoker should not attempt to communicate through the module API return false; } // ------------------------------------------------------------------------------------------------ bool CheckModuleOrder(PluginFuncs * vcapi, Uint32 mod_id, CCStr mod) { // Make sure a valid server API was provided if (!vcapi) { OutputError("Invalid pointer to server API structure"); // Validation failed! return false; } // Attempt to find the host plug-in identifier const int plugin_id = vcapi->FindPlugin(SQMOD_HOST_NAME); // See if our module was loaded after the host plug-in if (plugin_id < 0) { OutputError("%s: could find the host plug-in", mod); // Validation failed! return false; } // Should never reach this point but just in case else if (static_cast< Uint32 >(plugin_id) > mod_id) { OutputError("%s: loaded after the host plug-in", mod); // Validation failed! return false; } // Loaded in the correct order return true; } // ------------------------------------------------------------------------------------------------ void ImportModuleAPI(PluginFuncs * vcapi, CCStr mod) { // Make sure a valid server API was provided if (!vcapi) { STHROWF("%s: Invalid pointer to server API structure", mod); } size_t exports_struct_size; // Attempt to find the host plug-in identifier int plugin_id = vcapi->FindPlugin(SQMOD_HOST_NAME); // Validate the obtained plug-in identifier if (plugin_id < 0) { STHROWF("%s: Unable to obtain the host plug-in identifier", mod); } // Attempt to retrieve the host plug-in exports const void ** raw_plugin_exports = vcapi->GetPluginExports(plugin_id, &exports_struct_size); // See if the size of the exports structure matches if (exports_struct_size <= 0) { STHROWF("%s: Incompatible host plug-in exports structure", mod); } // See if we have any exports from the host plug-in else if (raw_plugin_exports == nullptr) { STHROWF("%s: Unable to obtain pointer host plug-in exports", mod); } // Obtain pointer to the exports structure const SQMODEXPORTS * plugin_exports = *reinterpret_cast< const SQMODEXPORTS ** >(raw_plugin_exports); // See if we have a valid pointer to the exports structure if (plugin_exports == nullptr) { STHROWF("%s: Invalid pointer to host plug-in exports structure", mod); } else if (plugin_exports->PopulateModuleAPI == nullptr || plugin_exports->PopulateSquirrelAPI == nullptr) { STHROWF("%s: Invalid pointer to host plug-in import functions", mod); } // Prepare a structure to obtain the module API SQMODAPI sqmodapi; // Attempt to populate the structure switch (plugin_exports->PopulateModuleAPI(&sqmodapi, sizeof(SQMODAPI))) { case -1: STHROWF("%s: Incompatible module API structure", mod); case 0: STHROWF("%s: Invalid pointer to module API structure", mod); } // Prepare a structure to obtain the squirrel API SQLIBAPI sqlibapi; // Attempt to populate the structure switch (plugin_exports->PopulateSquirrelAPI(&sqlibapi, sizeof(SQLIBAPI))) { case -1: STHROWF("%s: Incompatible squirrel API structure", mod); case 0: STHROWF("%s: Invalid pointer to squirrel API structure", mod); } // Attempt to expand the obtained API if (!sqmod_api_expand(&sqmodapi)) { // Collapse the API first sqmod_api_collapse(); // Now it's safe to throw the exception STHROWF("%s: Unable to expand module API structure", mod); } else if (!sqlib_api_expand(&sqlibapi)) { // Collapse the API first sqmod_api_collapse(); sqlib_api_collapse(); // Now it's safe to throw the exception STHROWF("%s: Unable to expand module API structure", mod); } } #endif // SQMOD_PLUGIN_API } // Namespace:: SqMod