/* ******************************************************************************* * Copyright (C) 1997-2003, International Business Machines Corporation and * * others. All Rights Reserved. * ******************************************************************************* * * File FMTABLE.CPP * * Modification History: * * Date Name Description * 03/25/97 clhuang Initial Implementation. ******************************************************************************** */ #include "unicode/utypes.h" #if !UCONFIG_NO_FORMATTING #include "unicode/fmtable.h" #include "cmemory.h" // ***************************************************************************** // class Formattable // ***************************************************************************** U_NAMESPACE_BEGIN UOBJECT_DEFINE_RTTI_IMPLEMENTATION(Formattable) // ------------------------------------- // default constructor. // Creates a formattable object with a long value 0. Formattable::Formattable() : UObject(), fType(kLong) { fValue.fInt64 = 0; } // ------------------------------------- // Creates a formattable object with a Date instance. Formattable::Formattable(UDate date, ISDATE /*isDate*/) : UObject(), fType(kDate) { fBogus.setToBogus(); fValue.fDate = date; } // ------------------------------------- // Creates a formattable object with a double value. Formattable::Formattable(double value) : UObject(), fType(kDouble) { fBogus.setToBogus(); fValue.fDouble = value; } // ------------------------------------- // Creates a formattable object with a long value. Formattable::Formattable(int32_t value) : UObject(), fType(kLong) { fBogus.setToBogus(); fValue.fInt64 = value; } // ------------------------------------- // Creates a formattable object with a long value. Formattable::Formattable(int64_t value) : UObject(), fType(kInt64) { fBogus.setToBogus(); fValue.fInt64 = value; } // ------------------------------------- // Creates a formattable object with a char* string. Formattable::Formattable(const char* stringToCopy) : UObject(), fType(kString) { fBogus.setToBogus(); fValue.fString = new UnicodeString(stringToCopy); } // ------------------------------------- // Creates a formattable object with a UnicodeString instance. Formattable::Formattable(const UnicodeString& stringToCopy) : UObject(), fType(kString) { fBogus.setToBogus(); fValue.fString = new UnicodeString(stringToCopy); } // ------------------------------------- // Creates a formattable object with a UnicodeString* value. // (adopting symantics) Formattable::Formattable(UnicodeString* stringToAdopt) : UObject(), fType(kString) { fBogus.setToBogus(); fValue.fString = stringToAdopt; } // ------------------------------------- Formattable::Formattable(const Formattable* arrayToCopy, int32_t count) : UObject(), fType(kArray) { fBogus.setToBogus(); fValue.fArrayAndCount.fArray = createArrayCopy(arrayToCopy, count); fValue.fArrayAndCount.fCount = count; } // ------------------------------------- // copy constructor Formattable::Formattable(const Formattable &source) : UObject(source), fType(kLong) { fBogus.setToBogus(); *this = source; } // ------------------------------------- // assignment operator Formattable& Formattable::operator=(const Formattable& source) { if (this != &source) { // Disposes the current formattable value/setting. dispose(); // Sets the correct data type for this value. fType = source.fType; switch (fType) { case kArray: // Sets each element in the array one by one and records the array count. fValue.fArrayAndCount.fCount = source.fValue.fArrayAndCount.fCount; fValue.fArrayAndCount.fArray = createArrayCopy(source.fValue.fArrayAndCount.fArray, source.fValue.fArrayAndCount.fCount); break; case kString: // Sets the string value. fValue.fString = new UnicodeString(*source.fValue.fString); break; case kDouble: // Sets the double value. fValue.fDouble = source.fValue.fDouble; break; case kLong: case kInt64: // Sets the long value. fValue.fInt64 = source.fValue.fInt64; break; case kDate: // Sets the Date value. fValue.fDate = source.fValue.fDate; break; } } return *this; } // ------------------------------------- UBool Formattable::operator==(const Formattable& that) const { // Checks class ID. if (this == &that) return TRUE; // Returns FALSE if the data types are different. if (fType != that.fType) return FALSE; // Compares the actual data values. switch (fType) { case kDate: return fValue.fDate == that.fValue.fDate; case kDouble: return fValue.fDouble == that.fValue.fDouble; case kLong: case kInt64: return fValue.fInt64 == that.fValue.fInt64; case kString: return *(fValue.fString) == *(that.fValue.fString); case kArray: if (fValue.fArrayAndCount.fCount != that.fValue.fArrayAndCount.fCount) return FALSE; // Checks each element for equality. for (int32_t i=0; i INT32_MAX) { *status = U_INVALID_FORMAT_ERROR; return INT32_MAX; } else if (fValue.fInt64 < INT32_MIN) { *status = U_INVALID_FORMAT_ERROR; return INT32_MIN; } else { return (int32_t)fValue.fInt64; } case Formattable::kDouble: if (fValue.fDouble > INT32_MAX) { *status = U_INVALID_FORMAT_ERROR; return INT32_MAX; } else if (fValue.fDouble < INT32_MIN) { *status = U_INVALID_FORMAT_ERROR; return INT32_MIN; } else { return (int32_t)fValue.fDouble; } default: *status = U_INVALID_FORMAT_ERROR; return 0; } } // ------------------------------------- int64_t Formattable::getInt64(UErrorCode* status) const { if(U_FAILURE(*status)) return 0; switch (fType) { case Formattable::kLong: case Formattable::kInt64: return fValue.fInt64; case Formattable::kDouble: if (fValue.fDouble > U_INT64_MAX) { *status = U_INVALID_FORMAT_ERROR; return U_INT64_MAX; } else if (fValue.fDouble < U_INT64_MIN) { *status = U_INVALID_FORMAT_ERROR; return U_INT64_MIN; } else { return (int64_t)fValue.fDouble; } default: *status = U_INVALID_FORMAT_ERROR; return 0; } } // ------------------------------------- double Formattable::getDouble(UErrorCode* status) const { if(U_FAILURE(*status)) return 0; switch (fType) { case Formattable::kLong: case Formattable::kInt64: // loses precision return (double)fValue.fInt64; case Formattable::kDouble: return fValue.fDouble; default: *status = U_INVALID_FORMAT_ERROR; return 0; } } // ------------------------------------- // Sets the value to a double value d. void Formattable::setDouble(double d) { dispose(); fType = kDouble; fValue.fDouble = d; } // ------------------------------------- // Sets the value to a long value l. void Formattable::setLong(int32_t l) { dispose(); fType = kLong; fValue.fInt64 = l; } // ------------------------------------- // Sets the value to an int64 value ll. void Formattable::setInt64(int64_t ll) { dispose(); fType = kInt64; fValue.fInt64 = ll; } // ------------------------------------- // Sets the value to a Date instance d. void Formattable::setDate(UDate d) { dispose(); fType = kDate; fValue.fDate = d; } // ------------------------------------- // Sets the value to a string value stringToCopy. void Formattable::setString(const UnicodeString& stringToCopy) { dispose(); fType = kString; fValue.fString = new UnicodeString(stringToCopy); } // ------------------------------------- // Sets the value to an array of Formattable objects. void Formattable::setArray(const Formattable* array, int32_t count) { dispose(); fType = kArray; fValue.fArrayAndCount.fArray = createArrayCopy(array, count); fValue.fArrayAndCount.fCount = count; } // ------------------------------------- // Adopts the stringToAdopt value. void Formattable::adoptString(UnicodeString* stringToAdopt) { dispose(); fType = kString; fValue.fString = stringToAdopt; } // ------------------------------------- // Adopts the array value and its count. void Formattable::adoptArray(Formattable* array, int32_t count) { dispose(); fType = kArray; fValue.fArrayAndCount.fArray = array; fValue.fArrayAndCount.fCount = count; } // ------------------------------------- UnicodeString& Formattable::getString(UnicodeString& result, UErrorCode* status) const { if (status && U_SUCCESS(*status) && fType != kString) { *status = U_INVALID_FORMAT_ERROR; result.setToBogus(); } else { result = *fValue.fString; } return result; } // ------------------------------------- const UnicodeString& Formattable::getString(UErrorCode* status) const { if (status && U_SUCCESS(*status) && fType != kString) { *status = U_INVALID_FORMAT_ERROR; return *getBogus(); } return *fValue.fString; } // ------------------------------------- UnicodeString& Formattable::getString(UErrorCode* status) { if (status && U_SUCCESS(*status) && fType != kString) { *status = U_INVALID_FORMAT_ERROR; return *getBogus(); } return *fValue.fString; } // ------------------------------------- const Formattable* Formattable::getArray(int32_t& count, UErrorCode* status) const { if (status && U_SUCCESS(*status) && fType != kArray) { count = 0; *status = U_INVALID_FORMAT_ERROR; return NULL; } count = fValue.fArrayAndCount.fCount; return fValue.fArrayAndCount.fArray; } // ------------------------------------- // Gets the bogus string, ensures mondo bogosity. UnicodeString* Formattable::getBogus() const { return (UnicodeString*)&fBogus; /* cast away const :-( */ } #if 0 //---------------------------------------------------- // console I/O //---------------------------------------------------- #ifdef _DEBUG #if U_IOSTREAM_SOURCE >= 199711 #include using namespace std; #elif U_IOSTREAM_SOURCE >= 198506 #include #endif #include "unicode/datefmt.h" #include "unistrm.h" class FormattableStreamer /* not : public UObject because all methods are static */ { public: static void streamOut(ostream& stream, const Formattable& obj); private: FormattableStreamer() {} // private - forbid instantiation }; // This is for debugging purposes only. This will send a displayable // form of the Formattable object to the output stream. void FormattableStreamer::streamOut(ostream& stream, const Formattable& obj) { static DateFormat *defDateFormat = 0; UnicodeString buffer; switch(obj.getType()) { case Formattable::kDate : // Creates a DateFormat instance for formatting the // Date instance. if (defDateFormat == 0) { defDateFormat = DateFormat::createInstance(); } defDateFormat->format(obj.getDate(), buffer); stream << buffer; break; case Formattable::kDouble : // Output the double as is. stream << obj.getDouble() << 'D'; break; case Formattable::kLong : // Output the double as is. stream << obj.getLong() << 'L'; break; case Formattable::kString: // Output the double as is. Please see UnicodeString console // I/O routine for more details. stream << '"' << obj.getString(buffer) << '"'; break; case Formattable::kArray: int32_t i, count; const Formattable* array; array = obj.getArray(count); stream << '['; // Recursively calling the console I/O routine for each element in the array. for (i=0; i