// toPrecision converts a number to a string, takeing an argument specifying a // number of significant figures to round the significand to. For positive // exponent, all values that can be represented using a decimal fraction will // be, e.g. when rounding to 3 s.f. any value up to 999 will be formated as a // decimal, whilst 1000 is converted to the exponential representation 1.00e+3. // For negative exponents values >= 1e-6 are formated as decimal fractions, // with smaller values converted to exponential representation. EncodedTiValue JSC_HOST_CALL numberProtoFuncToPrecision(TiExcState* exec) { // Get x (the double value of this, which should be a Number). TiValue thisValue = exec->hostThisValue(); TiValue v = thisValue.getJSNumber(); if (!v) return throwVMTypeError(exec); double x = v.uncheckedGetNumber(); // Get the argument. int significantFigures; bool isUndefined; if (!getIntegerArgumentInRange(exec, 1, 21, significantFigures, isUndefined)) return throwVMError(exec, createRangeError(exec, "toPrecision() argument must be between 1 and 21")); // To precision called with no argument is treated as ToString. if (isUndefined) return TiValue::encode(jsString(exec, UString::number(x))); // Handle NaN and Infinity. if (isnan(x) || isinf(x)) return TiValue::encode(jsString(exec, UString::number(x))); // Convert to decimal with rounding. DecimalNumber number(x, RoundingSignificantFigures, significantFigures); // If number is in the range 1e-6 <= x < pow(10, significantFigures) then format // as decimal. Otherwise, format the number as an exponential. Decimal format // demands a minimum of (exponent + 1) digits to represent a number, for example // 1234 (1.234e+3) requires 4 digits. (See ECMA-262 15.7.4.7.10.c) NumberToStringBuffer buffer; unsigned length = number.exponent() >= -6 && number.exponent() < significantFigures ? number.toStringDecimal(buffer, WTI::NumberToStringBufferLength) : number.toStringExponential(buffer, WTI::NumberToStringBufferLength); return TiValue::encode(jsString(exec, UString(buffer, length))); }
// toFixed converts a number to a string, always formatting as an a decimal fraction. // This method takes an argument specifying a number of decimal places to round the // significand to. However when converting large values (1e+21 and above) this // method will instead fallback to calling ToString. EncodedTiValue JSC_HOST_CALL numberProtoFuncToFixed(TiExcState* exec) { // Get x (the double value of this, which should be a Number). TiValue thisValue = exec->hostThisValue(); TiValue v = thisValue.getJSNumber(); if (!v) return throwVMTypeError(exec); double x = v.uncheckedGetNumber(); // Get the argument. int decimalPlaces; bool isUndefined; // This is ignored; undefined treated as 0. if (!getIntegerArgumentInRange(exec, 0, 20, decimalPlaces, isUndefined)) return throwVMError(exec, createRangeError(exec, "toFixed() argument must be between 0 and 20")); // 15.7.4.5.7 states "If x >= 10^21, then let m = ToString(x)" // This also covers Ininity, and structure the check so that NaN // values are also handled by numberToString if (!(fabs(x) < 1e+21)) return TiValue::encode(jsString(exec, UString::number(x))); // The check above will return false for NaN or Infinity, these will be // handled by numberToString. ASSERT(!isnan(x) && !isinf(x)); // Convert to decimal with rounding, and format as decimal. NumberToStringBuffer buffer; unsigned length = DecimalNumber(x, RoundingDecimalPlaces, decimalPlaces).toStringDecimal(buffer, WTI::NumberToStringBufferLength); return TiValue::encode(jsString(exec, UString(buffer, length))); }
static ALWAYS_INLINE bool toThisNumber(TiValue thisValue, double &x) { TiValue v = thisValue.getJSNumber(); if (UNLIKELY(!v)) return false; x = v.uncheckedGetNumber(); return true; }
EncodedTiValue JSC_HOST_CALL numberProtoFuncValueOf(TiExcState* exec) { TiValue thisValue = exec->hostThisValue(); TiValue v = thisValue.getJSNumber(); if (!v) return throwVMTypeError(exec); return TiValue::encode(v); }
EncodedTiValue JSC_HOST_CALL numberProtoFuncToLocaleString(TiExcState* exec) { TiValue thisValue = exec->hostThisValue(); // FIXME: Not implemented yet. TiValue v = thisValue.getJSNumber(); if (!v) return throwVMTypeError(exec); return TiValue::encode(jsString(exec, v.toString(exec))); }
EncodedTiValue JSC_HOST_CALL numberProtoFuncToString(TiExcState* exec) { TiValue thisValue = exec->hostThisValue(); TiValue v = thisValue.getJSNumber(); if (!v) return throwVMTypeError(exec); TiValue radixValue = exec->argument(0); int radix; if (radixValue.isInt32()) radix = radixValue.asInt32(); else if (radixValue.isUndefined()) radix = 10; else radix = static_cast<int>(radixValue.toInteger(exec)); // nan -> 0 if (radix == 10) return TiValue::encode(jsString(exec, v.toString(exec))); static const char* const digits = "0123456789abcdefghijklmnopqrstuvwxyz"; // Fast path for number to character conversion. if (radix == 36) { if (v.isInt32()) { int x = v.asInt32(); if (static_cast<unsigned>(x) < 36) { // Exclude negatives TiGlobalData* globalData = &exec->globalData(); return TiValue::encode(globalData->smallStrings.singleCharacterString(globalData, digits[x])); } } } if (radix < 2 || radix > 36) return throwVMError(exec, createRangeError(exec, "toString() radix argument must be between 2 and 36")); // INT_MAX results in 1024 characters left of the dot with radix 2 // give the same space on the right side. safety checks are in place // unless someone finds a precise rule. char s[2048 + 3]; const char* lastCharInString = s + sizeof(s) - 1; double x = v.uncheckedGetNumber(); if (isnan(x) || isinf(x)) return TiValue::encode(jsString(exec, UString::number(x))); bool isNegative = x < 0.0; if (isNegative) x = -x; double integerPart = floor(x); char* decimalPoint = s + sizeof(s) / 2; // convert integer portion char* p = decimalPoint; double d = integerPart; do { int remainderDigit = static_cast<int>(fmod(d, radix)); *--p = digits[remainderDigit]; d /= radix; } while ((d <= -1.0 || d >= 1.0) && s < p); if (isNegative) *--p = '-'; char* startOfResultString = p; ASSERT(s <= startOfResultString); d = x - integerPart; p = decimalPoint; const double epsilon = 0.001; // TODO: guessed. base on radix ? bool hasFractionalPart = (d < -epsilon || d > epsilon); if (hasFractionalPart) { *p++ = '.'; do { d *= radix; const int digit = static_cast<int>(d); *p++ = digits[digit]; d -= digit; } while ((d < -epsilon || d > epsilon) && p < lastCharInString); } *p = '\0'; ASSERT(p < s + sizeof(s)); return TiValue::encode(jsString(exec, startOfResultString)); }