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Diffstat (limited to 'JavaScriptCore/runtime/NumberPrototype.cpp')
-rw-r--r-- | JavaScriptCore/runtime/NumberPrototype.cpp | 441 |
1 files changed, 0 insertions, 441 deletions
diff --git a/JavaScriptCore/runtime/NumberPrototype.cpp b/JavaScriptCore/runtime/NumberPrototype.cpp deleted file mode 100644 index d203e3f..0000000 --- a/JavaScriptCore/runtime/NumberPrototype.cpp +++ /dev/null @@ -1,441 +0,0 @@ -/* - * Copyright (C) 1999-2000,2003 Harri Porten (porten@kde.org) - * Copyright (C) 2007, 2008 Apple Inc. All rights reserved. - * - * This library is free software; you can redistribute it and/or - * modify it under the terms of the GNU Lesser General Public - * License as published by the Free Software Foundation; either - * version 2 of the License, or (at your option) any later version. - * - * This library is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU - * Lesser General Public License for more details. - * - * You should have received a copy of the GNU Lesser General Public - * License along with this library; if not, write to the Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 - * USA - * - */ - -#include "config.h" -#include "NumberPrototype.h" - -#include "Error.h" -#include "JSString.h" -#include "PrototypeFunction.h" -#include "dtoa.h" -#include "operations.h" -#include <wtf/Assertions.h> -#include <wtf/MathExtras.h> -#include <wtf/Vector.h> - -namespace JSC { - -ASSERT_CLASS_FITS_IN_CELL(NumberPrototype); - -static JSValue* numberProtoFuncToString(ExecState*, JSObject*, JSValue*, const ArgList&); -static JSValue* numberProtoFuncToLocaleString(ExecState*, JSObject*, JSValue*, const ArgList&); -static JSValue* numberProtoFuncValueOf(ExecState*, JSObject*, JSValue*, const ArgList&); -static JSValue* numberProtoFuncToFixed(ExecState*, JSObject*, JSValue*, const ArgList&); -static JSValue* numberProtoFuncToExponential(ExecState*, JSObject*, JSValue*, const ArgList&); -static JSValue* numberProtoFuncToPrecision(ExecState*, JSObject*, JSValue*, const ArgList&); - -// ECMA 15.7.4 - -NumberPrototype::NumberPrototype(ExecState* exec, PassRefPtr<StructureID> structure, StructureID* prototypeFunctionStructure) - : NumberObject(structure) -{ - setInternalValue(jsNumber(exec, 0)); - - // The constructor will be added later, after NumberConstructor has been constructed - - putDirectFunctionWithoutTransition(exec, new (exec) PrototypeFunction(exec, prototypeFunctionStructure, 1, exec->propertyNames().toString, numberProtoFuncToString), DontEnum); - putDirectFunctionWithoutTransition(exec, new (exec) PrototypeFunction(exec, prototypeFunctionStructure, 0, exec->propertyNames().toLocaleString, numberProtoFuncToLocaleString), DontEnum); - putDirectFunctionWithoutTransition(exec, new (exec) PrototypeFunction(exec, prototypeFunctionStructure, 0, exec->propertyNames().valueOf, numberProtoFuncValueOf), DontEnum); - putDirectFunctionWithoutTransition(exec, new (exec) PrototypeFunction(exec, prototypeFunctionStructure, 1, exec->propertyNames().toFixed, numberProtoFuncToFixed), DontEnum); - putDirectFunctionWithoutTransition(exec, new (exec) PrototypeFunction(exec, prototypeFunctionStructure, 1, exec->propertyNames().toExponential, numberProtoFuncToExponential), DontEnum); - putDirectFunctionWithoutTransition(exec, new (exec) PrototypeFunction(exec, prototypeFunctionStructure, 1, exec->propertyNames().toPrecision, numberProtoFuncToPrecision), DontEnum); -} - -// ------------------------------ Functions --------------------------- - -// ECMA 15.7.4.2 - 15.7.4.7 - -static UString integerPartNoExp(double d) -{ - int decimalPoint; - int sign; - char* result = dtoa(d, 0, &decimalPoint, &sign, NULL); - bool resultIsInfOrNan = (decimalPoint == 9999); - size_t length = strlen(result); - - UString str = sign ? "-" : ""; - if (resultIsInfOrNan) - str += result; - else if (decimalPoint <= 0) - str += "0"; - else { - Vector<char, 1024> buf(decimalPoint + 1); - - if (static_cast<int>(length) <= decimalPoint) { - strcpy(buf.data(), result); - memset(buf.data() + length, '0', decimalPoint - length); - } else - strncpy(buf.data(), result, decimalPoint); - - buf[decimalPoint] = '\0'; - str.append(buf.data()); - } - - freedtoa(result); - - return str; -} - -static UString charSequence(char c, int count) -{ - Vector<char, 2048> buf(count + 1, c); - buf[count] = '\0'; - - return UString(buf.data()); -} - -static double intPow10(int e) -{ - // This function uses the "exponentiation by squaring" algorithm and - // long double to quickly and precisely calculate integer powers of 10.0. - - // This is a handy workaround for <rdar://problem/4494756> - - if (e == 0) - return 1.0; - - bool negative = e < 0; - unsigned exp = negative ? -e : e; - - long double result = 10.0; - bool foundOne = false; - for (int bit = 31; bit >= 0; bit--) { - if (!foundOne) { - if ((exp >> bit) & 1) - foundOne = true; - } else { - result = result * result; - if ((exp >> bit) & 1) - result = result * 10.0; - } - } - - if (negative) - return static_cast<double>(1.0 / result); - return static_cast<double>(result); -} - -JSValue* numberProtoFuncToString(ExecState* exec, JSObject*, JSValue* thisValue, const ArgList& args) -{ - JSValue* v = thisValue->getJSNumber(); - if (!v) - return throwError(exec, TypeError); - - double radixAsDouble = args.at(exec, 0)->toInteger(exec); // nan -> 0 - if (radixAsDouble == 10 || args.at(exec, 0)->isUndefined()) - return jsString(exec, v->toString(exec)); - - if (radixAsDouble < 2 || radixAsDouble > 36) - return throwError(exec, RangeError, "toString() radix argument must be between 2 and 36"); - - int radix = static_cast<int>(radixAsDouble); - const char digits[] = "0123456789abcdefghijklmnopqrstuvwxyz"; - // 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 jsString(exec, UString::from(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 jsString(exec, startOfResultString); -} - -JSValue* numberProtoFuncToLocaleString(ExecState* exec, JSObject*, JSValue* thisValue, const ArgList&) -{ - // FIXME: Not implemented yet. - - JSValue* v = thisValue->getJSNumber(); - if (!v) - return throwError(exec, TypeError); - - return jsString(exec, v->toString(exec)); -} - -JSValue* numberProtoFuncValueOf(ExecState* exec, JSObject*, JSValue* thisValue, const ArgList&) -{ - JSValue* v = thisValue->getJSNumber(); - if (!v) - return throwError(exec, TypeError); - - return v; -} - -JSValue* numberProtoFuncToFixed(ExecState* exec, JSObject*, JSValue* thisValue, const ArgList& args) -{ - JSValue* v = thisValue->getJSNumber(); - if (!v) - return throwError(exec, TypeError); - - JSValue* fractionDigits = args.at(exec, 0); - double df = fractionDigits->toInteger(exec); - if (!(df >= 0 && df <= 20)) - return throwError(exec, RangeError, "toFixed() digits argument must be between 0 and 20"); - int f = static_cast<int>(df); - - double x = v->uncheckedGetNumber(); - if (isnan(x)) - return jsNontrivialString(exec, "NaN"); - - UString s; - if (x < 0) { - s.append('-'); - x = -x; - } else if (x == -0.0) - x = 0; - - if (x >= pow(10.0, 21.0)) - return jsString(exec, s + UString::from(x)); - - const double tenToTheF = pow(10.0, f); - double n = floor(x * tenToTheF); - if (fabs(n / tenToTheF - x) >= fabs((n + 1) / tenToTheF - x)) - n++; - - UString m = integerPartNoExp(n); - - int k = m.size(); - if (k <= f) { - UString z; - for (int i = 0; i < f + 1 - k; i++) - z.append('0'); - m = z + m; - k = f + 1; - ASSERT(k == m.size()); - } - int kMinusf = k - f; - if (kMinusf < m.size()) - return jsString(exec, s + m.substr(0, kMinusf) + "." + m.substr(kMinusf)); - return jsString(exec, s + m.substr(0, kMinusf)); -} - -static void fractionalPartToString(char* buf, int& i, const char* result, int resultLength, int fractionalDigits) -{ - if (fractionalDigits <= 0) - return; - - int fDigitsInResult = static_cast<int>(resultLength) - 1; - buf[i++] = '.'; - if (fDigitsInResult > 0) { - if (fractionalDigits < fDigitsInResult) { - strncpy(buf + i, result + 1, fractionalDigits); - i += fractionalDigits; - } else { - strcpy(buf + i, result + 1); - i += static_cast<int>(resultLength) - 1; - } - } - - for (int j = 0; j < fractionalDigits - fDigitsInResult; j++) - buf[i++] = '0'; -} - -static void exponentialPartToString(char* buf, int& i, int decimalPoint) -{ - buf[i++] = 'e'; - // decimalPoint can't be more than 3 digits decimal given the - // nature of float representation - int exponential = decimalPoint - 1; - buf[i++] = (exponential >= 0) ? '+' : '-'; - if (exponential < 0) - exponential *= -1; - if (exponential >= 100) - buf[i++] = static_cast<char>('0' + exponential / 100); - if (exponential >= 10) - buf[i++] = static_cast<char>('0' + (exponential % 100) / 10); - buf[i++] = static_cast<char>('0' + exponential % 10); -} - -JSValue* numberProtoFuncToExponential(ExecState* exec, JSObject*, JSValue* thisValue, const ArgList& args) -{ - JSValue* v = thisValue->getJSNumber(); - if (!v) - return throwError(exec, TypeError); - - double x = v->uncheckedGetNumber(); - - if (isnan(x) || isinf(x)) - return jsString(exec, UString::from(x)); - - JSValue* fractionalDigitsValue = args.at(exec, 0); - double df = fractionalDigitsValue->toInteger(exec); - if (!(df >= 0 && df <= 20)) - return throwError(exec, RangeError, "toExponential() argument must between 0 and 20"); - int fractionalDigits = static_cast<int>(df); - bool includeAllDigits = fractionalDigitsValue->isUndefined(); - - int decimalAdjust = 0; - if (x && !includeAllDigits) { - double logx = floor(log10(fabs(x))); - x /= pow(10.0, logx); - const double tenToTheF = pow(10.0, fractionalDigits); - double fx = floor(x * tenToTheF) / tenToTheF; - double cx = ceil(x * tenToTheF) / tenToTheF; - - if (fabs(fx - x) < fabs(cx - x)) - x = fx; - else - x = cx; - - decimalAdjust = static_cast<int>(logx); - } - - if (isnan(x)) - return jsNontrivialString(exec, "NaN"); - - if (x == -0.0) // (-0.0).toExponential() should print as 0 instead of -0 - x = 0; - - int decimalPoint; - int sign; - char* result = dtoa(x, 0, &decimalPoint, &sign, NULL); - size_t resultLength = strlen(result); - decimalPoint += decimalAdjust; - - int i = 0; - char buf[80]; // digit + '.' + fractionDigits (max 20) + 'e' + sign + exponent (max?) - if (sign) - buf[i++] = '-'; - - if (decimalPoint == 999) // ? 9999 is the magical "result is Inf or NaN" value. what's 999?? - strcpy(buf + i, result); - else { - buf[i++] = result[0]; - - if (includeAllDigits) - fractionalDigits = static_cast<int>(resultLength) - 1; - - fractionalPartToString(buf, i, result, resultLength, fractionalDigits); - exponentialPartToString(buf, i, decimalPoint); - buf[i++] = '\0'; - } - ASSERT(i <= 80); - - freedtoa(result); - - return jsString(exec, buf); -} - -JSValue* numberProtoFuncToPrecision(ExecState* exec, JSObject*, JSValue* thisValue, const ArgList& args) -{ - JSValue* v = thisValue->getJSNumber(); - if (!v) - return throwError(exec, TypeError); - - double doublePrecision = args.at(exec, 0)->toIntegerPreserveNaN(exec); - double x = v->uncheckedGetNumber(); - if (args.at(exec, 0)->isUndefined() || isnan(x) || isinf(x)) - return jsString(exec, v->toString(exec)); - - UString s; - if (x < 0) { - s = "-"; - x = -x; - } - - if (!(doublePrecision >= 1 && doublePrecision <= 21)) // true for NaN - return throwError(exec, RangeError, "toPrecision() argument must be between 1 and 21"); - int precision = static_cast<int>(doublePrecision); - - int e = 0; - UString m; - if (x) { - e = static_cast<int>(log10(x)); - double tens = intPow10(e - precision + 1); - double n = floor(x / tens); - if (n < intPow10(precision - 1)) { - e = e - 1; - tens = intPow10(e - precision + 1); - n = floor(x / tens); - } - - if (fabs((n + 1.0) * tens - x) <= fabs(n * tens - x)) - ++n; - // maintain n < 10^(precision) - if (n >= intPow10(precision)) { - n /= 10.0; - e += 1; - } - ASSERT(intPow10(precision - 1) <= n); - ASSERT(n < intPow10(precision)); - - m = integerPartNoExp(n); - if (e < -6 || e >= precision) { - if (m.size() > 1) - m = m.substr(0, 1) + "." + m.substr(1); - if (e >= 0) - return jsNontrivialString(exec, s + m + "e+" + UString::from(e)); - return jsNontrivialString(exec, s + m + "e-" + UString::from(-e)); - } - } else { - m = charSequence('0', precision); - e = 0; - } - - if (e == precision - 1) - return jsString(exec, s + m); - if (e >= 0) { - if (e + 1 < m.size()) - return jsString(exec, s + m.substr(0, e + 1) + "." + m.substr(e + 1)); - return jsString(exec, s + m); - } - return jsNontrivialString(exec, s + "0." + charSequence('0', -(e + 1)) + m); -} - -} // namespace JSC |