fpdfsdk/javascript/JS_Value.cpp - platform/external/pdfium - Gitiles

 // Copyright 2014 PDFium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com

 #include "fpdfsdk/javascript/JS_Value.h"

 #include <time.h>

 #include <algorithm>
 #include <cmath>
 #include <limits>
 #include <vector>

 #include "fpdfsdk/javascript/Document.h"
 #include "fpdfsdk/javascript/JS_Define.h"
 #include "fpdfsdk/javascript/JS_Object.h"

 namespace {

 double
 MakeDate(int year, int mon, int day, int hour, int min, int sec, int ms) {
   return JS_MakeDate(JS_MakeDay(year, mon, day),
                      JS_MakeTime(hour, min, sec, ms));
 }

 double GetLocalTZA() {
   if (!FSDK_IsSandBoxPolicyEnabled(FPDF_POLICY_MACHINETIME_ACCESS))
     return 0;
   time_t t = 0;
   time(&t);
   localtime(&t);
 #if _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
   // In gcc 'timezone' is a global variable declared in time.h. In VC++, that
   // variable was removed in VC++ 2015, with _get_timezone replacing it.
   long timezone = 0;
   _get_timezone(&timezone);
 #endif  // _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
   return (double)(-(timezone * 1000));
 }

 int GetDaylightSavingTA(double d) {
   if (!FSDK_IsSandBoxPolicyEnabled(FPDF_POLICY_MACHINETIME_ACCESS))
     return 0;
   time_t t = (time_t)(d / 1000);
   struct tm* tmp = localtime(&t);
   if (!tmp)
     return 0;
   if (tmp->tm_isdst > 0)
     // One hour.
     return (int)60 * 60 * 1000;
   return 0;
 }

 double Mod(double x, double y) {
   double r = fmod(x, y);
   if (r < 0)
     r += y;
   return r;
 }

 bool IsLeapYear(int year) {
   return (year % 4 == 0) && ((year % 100 != 0) || (year % 400 != 0));
 }

 int DayFromYear(int y) {
   return (int)(365 * (y - 1970.0) + floor((y - 1969.0) / 4) -
                floor((y - 1901.0) / 100) + floor((y - 1601.0) / 400));
 }

 double TimeFromYear(int y) {
   return 86400000.0 * DayFromYear(y);
 }

 static const uint16_t daysMonth[12] = {0,   31,  59,  90,  120, 151,
                                        181, 212, 243, 273, 304, 334};
 static const uint16_t leapDaysMonth[12] = {0,   31,  60,  91,  121, 152,
                                            182, 213, 244, 274, 305, 335};

 double TimeFromYearMonth(int y, int m) {
   const uint16_t* pMonth = IsLeapYear(y) ? leapDaysMonth : daysMonth;
   return TimeFromYear(y) + ((double)pMonth[m]) * 86400000;
 }

 int Day(double t) {
   return static_cast<int>(floor(t / 86400000.0));
 }

 int YearFromTime(double t) {
   // estimate the time.
   int y = 1970 + static_cast<int>(t / (365.2425 * 86400000.0));
   if (TimeFromYear(y) <= t) {
     while (TimeFromYear(y + 1) <= t)
       y++;
   } else {
     while (TimeFromYear(y) > t)
       y--;
   }
   return y;
 }

 int DayWithinYear(double t) {
   int year = YearFromTime(t);
   int day = Day(t);
   return day - DayFromYear(year);
 }

 int MonthFromTime(double t) {
   int day = DayWithinYear(t);
   int year = YearFromTime(t);
   if (0 <= day && day < 31)
     return 0;
   if (31 <= day && day < 59 + IsLeapYear(year))
     return 1;
   if ((59 + IsLeapYear(year)) <= day && day < (90 + IsLeapYear(year)))
     return 2;
   if ((90 + IsLeapYear(year)) <= day && day < (120 + IsLeapYear(year)))
     return 3;
   if ((120 + IsLeapYear(year)) <= day && day < (151 + IsLeapYear(year)))
     return 4;
   if ((151 + IsLeapYear(year)) <= day && day < (181 + IsLeapYear(year)))
     return 5;
   if ((181 + IsLeapYear(year)) <= day && day < (212 + IsLeapYear(year)))
     return 6;
   if ((212 + IsLeapYear(year)) <= day && day < (243 + IsLeapYear(year)))
     return 7;
   if ((243 + IsLeapYear(year)) <= day && day < (273 + IsLeapYear(year)))
     return 8;
   if ((273 + IsLeapYear(year)) <= day && day < (304 + IsLeapYear(year)))
     return 9;
   if ((304 + IsLeapYear(year)) <= day && day < (334 + IsLeapYear(year)))
     return 10;
   if ((334 + IsLeapYear(year)) <= day && day < (365 + IsLeapYear(year)))
     return 11;

   return -1;
 }

 int DateFromTime(double t) {
   int day = DayWithinYear(t);
   int year = YearFromTime(t);
   int leap = IsLeapYear(year);
   int month = MonthFromTime(t);
   switch (month) {
     case 0:
       return day + 1;
     case 1:
       return day - 30;
     case 2:
       return day - 58 - leap;
     case 3:
       return day - 89 - leap;
     case 4:
       return day - 119 - leap;
     case 5:
       return day - 150 - leap;
     case 6:
       return day - 180 - leap;
     case 7:
       return day - 211 - leap;
     case 8:
       return day - 242 - leap;
     case 9:
       return day - 272 - leap;
     case 10:
       return day - 303 - leap;
     case 11:
       return day - 333 - leap;
     default:
       return 0;
   }
 }

 double JS_LocalTime(double d) {
   return d + GetLocalTZA() + GetDaylightSavingTA(d);
 }

 }  // namespace

 CJS_Value::CJS_Value() {}

 CJS_Value::CJS_Value(v8::Local<v8::Value> pValue) : m_pValue(pValue) {}

 CJS_Value::~CJS_Value() {}

 CJS_Value::CJS_Value(const CJS_Value& other) = default;

 void CJS_Value::Set(v8::Local<v8::Value> pValue) {
   m_pValue = pValue;
 }

 v8::Local<v8::Value> CJS_Value::ToV8Value() const {
   return m_pValue;
 }

 void CJS_Value::MaybeCoerceToNumber(CJS_Runtime* pRuntime) {
   bool bAllowNaN = false;
   if (ToV8Value()->IsString()) {
     ByteString bstr =
         ByteString::FromUnicode(pRuntime->ToWideString(ToV8Value()));
     if (bstr.GetLength() == 0)
       return;
     if (bstr == "NaN")
       bAllowNaN = true;
   }
   v8::Isolate* pIsolate = pRuntime->GetIsolate();
   v8::TryCatch try_catch(pIsolate);
   v8::MaybeLocal<v8::Number> maybeNum =
       m_pValue->ToNumber(pIsolate->GetCurrentContext());
   if (maybeNum.IsEmpty())
     return;
   v8::Local<v8::Number> num = maybeNum.ToLocalChecked();
   if (std::isnan(num->Value()) && !bAllowNaN)
     return;
   m_pValue = num;
 }

 CJS_Array::CJS_Array() {}

 CJS_Array::CJS_Array(v8::Local<v8::Array> pArray) : m_pArray(pArray) {}

 CJS_Array::CJS_Array(const CJS_Array& other) = default;

 CJS_Array::~CJS_Array() {}

 CJS_Value CJS_Array::GetElement(CJS_Runtime* pRuntime, unsigned index) const {
   if (!m_pArray.IsEmpty())
     return CJS_Value(
         v8::Local<v8::Value>(pRuntime->GetArrayElement(m_pArray, index)));
   return {};
 }

 void CJS_Array::SetElement(CJS_Runtime* pRuntime,
                            unsigned index,
                            const CJS_Value& value) {
   if (m_pArray.IsEmpty())
     m_pArray = pRuntime->NewArray();

   pRuntime->PutArrayElement(m_pArray, index, value.ToV8Value());
 }

 int CJS_Array::GetLength(CJS_Runtime* pRuntime) const {
   if (m_pArray.IsEmpty())
     return 0;
   return pRuntime->GetArrayLength(m_pArray);
 }

 CJS_Date::CJS_Date() {}

 CJS_Date::CJS_Date(v8::Local<v8::Date> pDate) : m_pDate(pDate) {}

 CJS_Date::CJS_Date(CJS_Runtime* pRuntime, double dMsecTime)
     : m_pDate(pRuntime->NewDate(dMsecTime)) {}

 CJS_Date::CJS_Date(CJS_Runtime* pRuntime,
                    int year,
                    int mon,
                    int day,
                    int hour,
                    int min,
                    int sec)
     : m_pDate(pRuntime->NewDate(MakeDate(year, mon, day, hour, min, sec, 0))) {}

 CJS_Date::CJS_Date(const CJS_Date& other) = default;

 CJS_Date::~CJS_Date() {}

 bool CJS_Date::IsValidDate(CJS_Runtime* pRuntime) const {
   return !m_pDate.IsEmpty() && !std::isnan(pRuntime->ToDouble(m_pDate));
 }

 int CJS_Date::GetYear(CJS_Runtime* pRuntime) const {
   if (!IsValidDate(pRuntime))
     return 0;

   return JS_GetYearFromTime(JS_LocalTime(pRuntime->ToDouble(m_pDate)));
 }

 int CJS_Date::GetMonth(CJS_Runtime* pRuntime) const {
   if (!IsValidDate(pRuntime))
     return 0;
   return JS_GetMonthFromTime(JS_LocalTime(pRuntime->ToDouble(m_pDate)));
 }

 int CJS_Date::GetDay(CJS_Runtime* pRuntime) const {
   if (!IsValidDate(pRuntime))
     return 0;

   return JS_GetDayFromTime(JS_LocalTime(pRuntime->ToDouble(m_pDate)));
 }

 int CJS_Date::GetHours(CJS_Runtime* pRuntime) const {
   if (!IsValidDate(pRuntime))
     return 0;

   return JS_GetHourFromTime(JS_LocalTime(pRuntime->ToDouble(m_pDate)));
 }

 int CJS_Date::GetMinutes(CJS_Runtime* pRuntime) const {
   if (!IsValidDate(pRuntime))
     return 0;

   return JS_GetMinFromTime(JS_LocalTime(pRuntime->ToDouble(m_pDate)));
 }

 int CJS_Date::GetSeconds(CJS_Runtime* pRuntime) const {
   if (!IsValidDate(pRuntime))
     return 0;

   return JS_GetSecFromTime(JS_LocalTime(pRuntime->ToDouble(m_pDate)));
 }

 double JS_GetDateTime() {
   if (!FSDK_IsSandBoxPolicyEnabled(FPDF_POLICY_MACHINETIME_ACCESS))
     return 0;
   time_t t = time(nullptr);
   struct tm* pTm = localtime(&t);

   int year = pTm->tm_year + 1900;
   double t1 = TimeFromYear(year);

   return t1 + pTm->tm_yday * 86400000.0 + pTm->tm_hour * 3600000.0 +
          pTm->tm_min * 60000.0 + pTm->tm_sec * 1000.0;
 }

 int JS_GetYearFromTime(double dt) {
   return YearFromTime(dt);
 }

 int JS_GetMonthFromTime(double dt) {
   return MonthFromTime(dt);
 }

 int JS_GetDayFromTime(double dt) {
   return DateFromTime(dt);
 }

 int JS_GetHourFromTime(double dt) {
   return (int)Mod(floor(dt / (60 * 60 * 1000)), 24);
 }

 int JS_GetMinFromTime(double dt) {
   return (int)Mod(floor(dt / (60 * 1000)), 60);
 }

 int JS_GetSecFromTime(double dt) {
   return (int)Mod(floor(dt / 1000), 60);
 }

 double JS_DateParse(const WideString& str) {
   v8::Isolate* pIsolate = v8::Isolate::GetCurrent();
   v8::Isolate::Scope isolate_scope(pIsolate);
   v8::HandleScope scope(pIsolate);

   v8::Local<v8::Context> context = pIsolate->GetCurrentContext();

   // Use the built-in object method.
   v8::Local<v8::Value> v =
       context->Global()
           ->Get(context, v8::String::NewFromUtf8(pIsolate, "Date",
                                                  v8::NewStringType::kNormal)
                              .ToLocalChecked())
           .ToLocalChecked();
   if (v->IsObject()) {
     v8::Local<v8::Object> o = v->ToObject(context).ToLocalChecked();
     v = o->Get(context, v8::String::NewFromUtf8(pIsolate, "parse",
                                                 v8::NewStringType::kNormal)
                             .ToLocalChecked())
             .ToLocalChecked();
     if (v->IsFunction()) {
       v8::Local<v8::Function> funC = v8::Local<v8::Function>::Cast(v);
       const int argc = 1;
       v8::Local<v8::Value> timeStr =
           CJS_Runtime::CurrentRuntimeFromIsolate(pIsolate)->NewString(
               str.AsStringView());
       v8::Local<v8::Value> argv[argc] = {timeStr};
       v = funC->Call(context, context->Global(), argc, argv).ToLocalChecked();
       if (v->IsNumber()) {
         double date = v->ToNumber(context).ToLocalChecked()->Value();
         if (!std::isfinite(date))
           return date;
         return JS_LocalTime(date);
       }
     }
   }
   return 0;
 }

 double JS_MakeDay(int nYear, int nMonth, int nDate) {
   double y = static_cast<double>(nYear);
   double m = static_cast<double>(nMonth);
   double dt = static_cast<double>(nDate);
   double ym = y + floor(m / 12);
   double mn = Mod(m, 12);
   double t = TimeFromYearMonth(static_cast<int>(ym), static_cast<int>(mn));
   if (YearFromTime(t) != ym || MonthFromTime(t) != mn || DateFromTime(t) != 1)
     return std::nan("");

   return Day(t) + dt - 1;
 }

 double JS_MakeTime(int nHour, int nMin, int nSec, int nMs) {
   double h = static_cast<double>(nHour);
   double m = static_cast<double>(nMin);
   double s = static_cast<double>(nSec);
   double milli = static_cast<double>(nMs);
   return h * 3600000 + m * 60000 + s * 1000 + milli;
 }

 double JS_MakeDate(double day, double time) {
   if (!std::isfinite(day) || !std::isfinite(time))
     return std::nan("");

   return day * 86400000 + time;
 }

 std::vector<CJS_Value> ExpandKeywordParams(
     CJS_Runtime* pRuntime,
     const std::vector<CJS_Value>& originals,
     size_t nKeywords,
     ...) {
   ASSERT(nKeywords);

   std::vector<CJS_Value> result(nKeywords, CJS_Value());
   size_t size = std::min(originals.size(), nKeywords);
   for (size_t i = 0; i < size; ++i)
     result[i] = originals[i];

   if (originals.size() != 1 || !originals[0].ToV8Value()->IsObject() ||
       originals[0].ToV8Value()->IsArray()) {
     return result;
   }
   v8::Local<v8::Object> pObj = pRuntime->ToObject(originals[0].ToV8Value());
   result[0] = CJS_Value();  // Make unknown.

   va_list ap;
   va_start(ap, nKeywords);
   for (size_t i = 0; i < nKeywords; ++i) {
     const wchar_t* property = va_arg(ap, const wchar_t*);
     v8::Local<v8::Value> v8Value = pRuntime->GetObjectProperty(pObj, property);
     if (!v8Value->IsUndefined())
       result[i] = CJS_Value(v8Value);
   }
   va_end(ap);
   return result;
 }
	// Copyright 2014 PDFium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com

	#include "fpdfsdk/javascript/JS_Value.h"

	#include <time.h>

	#include <algorithm>
	#include <cmath>
	#include <limits>
	#include <vector>

	#include "fpdfsdk/javascript/Document.h"
	#include "fpdfsdk/javascript/JS_Define.h"
	#include "fpdfsdk/javascript/JS_Object.h"

	namespace {

	double
	MakeDate(int year, int mon, int day, int hour, int min, int sec, int ms) {
	return JS_MakeDate(JS_MakeDay(year, mon, day),
	JS_MakeTime(hour, min, sec, ms));
	}

	double GetLocalTZA() {
	if (!FSDK_IsSandBoxPolicyEnabled(FPDF_POLICY_MACHINETIME_ACCESS))
	return 0;
	time_t t = 0;
	time(&t);
	localtime(&t);
	#if _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
	// In gcc 'timezone' is a global variable declared in time.h. In VC++, that
	// variable was removed in VC++ 2015, with _get_timezone replacing it.
	long timezone = 0;
	_get_timezone(&timezone);
	#endif // _FX_PLATFORM_ == _FX_PLATFORM_WINDOWS_
	return (double)(-(timezone * 1000));
	}

	int GetDaylightSavingTA(double d) {
	if (!FSDK_IsSandBoxPolicyEnabled(FPDF_POLICY_MACHINETIME_ACCESS))
	return 0;
	time_t t = (time_t)(d / 1000);
	struct tm* tmp = localtime(&t);
	if (!tmp)
	return 0;
	if (tmp->tm_isdst > 0)
	// One hour.
	return (int)60 * 60 * 1000;
	return 0;
	}

	double Mod(double x, double y) {
	double r = fmod(x, y);
	if (r < 0)
	r += y;
	return r;
	}

	bool IsLeapYear(int year) {
	return (year % 4 == 0) && ((year % 100 != 0) \|\| (year % 400 != 0));
	}

	int DayFromYear(int y) {
	return (int)(365 * (y - 1970.0) + floor((y - 1969.0) / 4) -
	floor((y - 1901.0) / 100) + floor((y - 1601.0) / 400));
	}

	double TimeFromYear(int y) {
	return 86400000.0 * DayFromYear(y);
	}

	static const uint16_t daysMonth[12] = {0, 31, 59, 90, 120, 151,
	181, 212, 243, 273, 304, 334};
	static const uint16_t leapDaysMonth[12] = {0, 31, 60, 91, 121, 152,
	182, 213, 244, 274, 305, 335};

	double TimeFromYearMonth(int y, int m) {
	const uint16_t* pMonth = IsLeapYear(y) ? leapDaysMonth : daysMonth;
	return TimeFromYear(y) + ((double)pMonth[m]) * 86400000;
	}

	int Day(double t) {
	return static_cast<int>(floor(t / 86400000.0));
	}

	int YearFromTime(double t) {
	// estimate the time.
	int y = 1970 + static_cast<int>(t / (365.2425 * 86400000.0));
	if (TimeFromYear(y) <= t) {
	while (TimeFromYear(y + 1) <= t)
	y++;
	} else {
	while (TimeFromYear(y) > t)
	y--;
	}
	return y;
	}

	int DayWithinYear(double t) {
	int year = YearFromTime(t);
	int day = Day(t);
	return day - DayFromYear(year);
	}

	int MonthFromTime(double t) {
	int day = DayWithinYear(t);
	int year = YearFromTime(t);
	if (0 <= day && day < 31)
	return 0;
	if (31 <= day && day < 59 + IsLeapYear(year))
	return 1;
	if ((59 + IsLeapYear(year)) <= day && day < (90 + IsLeapYear(year)))
	return 2;
	if ((90 + IsLeapYear(year)) <= day && day < (120 + IsLeapYear(year)))
	return 3;
	if ((120 + IsLeapYear(year)) <= day && day < (151 + IsLeapYear(year)))
	return 4;
	if ((151 + IsLeapYear(year)) <= day && day < (181 + IsLeapYear(year)))
	return 5;
	if ((181 + IsLeapYear(year)) <= day && day < (212 + IsLeapYear(year)))
	return 6;
	if ((212 + IsLeapYear(year)) <= day && day < (243 + IsLeapYear(year)))
	return 7;
	if ((243 + IsLeapYear(year)) <= day && day < (273 + IsLeapYear(year)))
	return 8;
	if ((273 + IsLeapYear(year)) <= day && day < (304 + IsLeapYear(year)))
	return 9;
	if ((304 + IsLeapYear(year)) <= day && day < (334 + IsLeapYear(year)))
	return 10;
	if ((334 + IsLeapYear(year)) <= day && day < (365 + IsLeapYear(year)))
	return 11;

	return -1;
	}

	int DateFromTime(double t) {
	int day = DayWithinYear(t);
	int year = YearFromTime(t);
	int leap = IsLeapYear(year);
	int month = MonthFromTime(t);
	switch (month) {
	case 0:
	return day + 1;
	case 1:
	return day - 30;
	case 2:
	return day - 58 - leap;
	case 3:
	return day - 89 - leap;
	case 4:
	return day - 119 - leap;
	case 5:
	return day - 150 - leap;
	case 6:
	return day - 180 - leap;
	case 7:
	return day - 211 - leap;
	case 8:
	return day - 242 - leap;
	case 9:
	return day - 272 - leap;
	case 10:
	return day - 303 - leap;
	case 11:
	return day - 333 - leap;
	default:
	return 0;
	}
	}

	double JS_LocalTime(double d) {
	return d + GetLocalTZA() + GetDaylightSavingTA(d);
	}

	} // namespace

	CJS_Value::CJS_Value() {}

	CJS_Value::CJS_Value(v8::Local<v8::Value> pValue) : m_pValue(pValue) {}

	CJS_Value::~CJS_Value() {}

	CJS_Value::CJS_Value(const CJS_Value& other) = default;

	void CJS_Value::Set(v8::Local<v8::Value> pValue) {
	m_pValue = pValue;
	}

	v8::Local<v8::Value> CJS_Value::ToV8Value() const {
	return m_pValue;
	}

	void CJS_Value::MaybeCoerceToNumber(CJS_Runtime* pRuntime) {
	bool bAllowNaN = false;
	if (ToV8Value()->IsString()) {
	ByteString bstr =
	ByteString::FromUnicode(pRuntime->ToWideString(ToV8Value()));
	if (bstr.GetLength() == 0)
	return;
	if (bstr == "NaN")
	bAllowNaN = true;
	}
	v8::Isolate* pIsolate = pRuntime->GetIsolate();
	v8::TryCatch try_catch(pIsolate);
	v8::MaybeLocal<v8::Number> maybeNum =
	m_pValue->ToNumber(pIsolate->GetCurrentContext());
	if (maybeNum.IsEmpty())
	return;
	v8::Local<v8::Number> num = maybeNum.ToLocalChecked();
	if (std::isnan(num->Value()) && !bAllowNaN)
	return;
	m_pValue = num;
	}

	CJS_Array::CJS_Array() {}

	CJS_Array::CJS_Array(v8::Local<v8::Array> pArray) : m_pArray(pArray) {}

	CJS_Array::CJS_Array(const CJS_Array& other) = default;

	CJS_Array::~CJS_Array() {}

	CJS_Value CJS_Array::GetElement(CJS_Runtime* pRuntime, unsigned index) const {
	if (!m_pArray.IsEmpty())
	return CJS_Value(
	v8::Local<v8::Value>(pRuntime->GetArrayElement(m_pArray, index)));
	return {};
	}

	void CJS_Array::SetElement(CJS_Runtime* pRuntime,
	unsigned index,
	const CJS_Value& value) {
	if (m_pArray.IsEmpty())
	m_pArray = pRuntime->NewArray();

	pRuntime->PutArrayElement(m_pArray, index, value.ToV8Value());
	}

	int CJS_Array::GetLength(CJS_Runtime* pRuntime) const {
	if (m_pArray.IsEmpty())
	return 0;
	return pRuntime->GetArrayLength(m_pArray);
	}

	CJS_Date::CJS_Date() {}

	CJS_Date::CJS_Date(v8::Local<v8::Date> pDate) : m_pDate(pDate) {}

	CJS_Date::CJS_Date(CJS_Runtime* pRuntime, double dMsecTime)
	: m_pDate(pRuntime->NewDate(dMsecTime)) {}

	CJS_Date::CJS_Date(CJS_Runtime* pRuntime,
	int year,
	int mon,
	int day,
	int hour,
	int min,
	int sec)
	: m_pDate(pRuntime->NewDate(MakeDate(year, mon, day, hour, min, sec, 0))) {}

	CJS_Date::CJS_Date(const CJS_Date& other) = default;

	CJS_Date::~CJS_Date() {}

	bool CJS_Date::IsValidDate(CJS_Runtime* pRuntime) const {
	return !m_pDate.IsEmpty() && !std::isnan(pRuntime->ToDouble(m_pDate));
	}

	int CJS_Date::GetYear(CJS_Runtime* pRuntime) const {
	if (!IsValidDate(pRuntime))
	return 0;

	return JS_GetYearFromTime(JS_LocalTime(pRuntime->ToDouble(m_pDate)));
	}

	int CJS_Date::GetMonth(CJS_Runtime* pRuntime) const {
	if (!IsValidDate(pRuntime))
	return 0;
	return JS_GetMonthFromTime(JS_LocalTime(pRuntime->ToDouble(m_pDate)));
	}

	int CJS_Date::GetDay(CJS_Runtime* pRuntime) const {
	if (!IsValidDate(pRuntime))
	return 0;

	return JS_GetDayFromTime(JS_LocalTime(pRuntime->ToDouble(m_pDate)));
	}

	int CJS_Date::GetHours(CJS_Runtime* pRuntime) const {
	if (!IsValidDate(pRuntime))
	return 0;

	return JS_GetHourFromTime(JS_LocalTime(pRuntime->ToDouble(m_pDate)));
	}

	int CJS_Date::GetMinutes(CJS_Runtime* pRuntime) const {
	if (!IsValidDate(pRuntime))
	return 0;

	return JS_GetMinFromTime(JS_LocalTime(pRuntime->ToDouble(m_pDate)));
	}

	int CJS_Date::GetSeconds(CJS_Runtime* pRuntime) const {
	if (!IsValidDate(pRuntime))
	return 0;

	return JS_GetSecFromTime(JS_LocalTime(pRuntime->ToDouble(m_pDate)));
	}

	double JS_GetDateTime() {
	if (!FSDK_IsSandBoxPolicyEnabled(FPDF_POLICY_MACHINETIME_ACCESS))
	return 0;
	time_t t = time(nullptr);
	struct tm* pTm = localtime(&t);

	int year = pTm->tm_year + 1900;
	double t1 = TimeFromYear(year);

	return t1 + pTm->tm_yday * 86400000.0 + pTm->tm_hour * 3600000.0 +
	pTm->tm_min * 60000.0 + pTm->tm_sec * 1000.0;
	}

	int JS_GetYearFromTime(double dt) {
	return YearFromTime(dt);
	}

	int JS_GetMonthFromTime(double dt) {
	return MonthFromTime(dt);
	}

	int JS_GetDayFromTime(double dt) {
	return DateFromTime(dt);
	}

	int JS_GetHourFromTime(double dt) {
	return (int)Mod(floor(dt / (60 * 60 * 1000)), 24);
	}

	int JS_GetMinFromTime(double dt) {
	return (int)Mod(floor(dt / (60 * 1000)), 60);
	}

	int JS_GetSecFromTime(double dt) {
	return (int)Mod(floor(dt / 1000), 60);
	}

	double JS_DateParse(const WideString& str) {
	v8::Isolate* pIsolate = v8::Isolate::GetCurrent();
	v8::Isolate::Scope isolate_scope(pIsolate);
	v8::HandleScope scope(pIsolate);

	v8::Local<v8::Context> context = pIsolate->GetCurrentContext();

	// Use the built-in object method.
	v8::Local<v8::Value> v =
	context->Global()
	->Get(context, v8::String::NewFromUtf8(pIsolate, "Date",
	v8::NewStringType::kNormal)
	.ToLocalChecked())
	.ToLocalChecked();
	if (v->IsObject()) {
	v8::Local<v8::Object> o = v->ToObject(context).ToLocalChecked();
	v = o->Get(context, v8::String::NewFromUtf8(pIsolate, "parse",
	v8::NewStringType::kNormal)
	.ToLocalChecked())
	.ToLocalChecked();
	if (v->IsFunction()) {
	v8::Local<v8::Function> funC = v8::Local<v8::Function>::Cast(v);
	const int argc = 1;
	v8::Local<v8::Value> timeStr =
	CJS_Runtime::CurrentRuntimeFromIsolate(pIsolate)->NewString(
	str.AsStringView());
	v8::Local<v8::Value> argv[argc] = {timeStr};
	v = funC->Call(context, context->Global(), argc, argv).ToLocalChecked();
	if (v->IsNumber()) {
	double date = v->ToNumber(context).ToLocalChecked()->Value();
	if (!std::isfinite(date))
	return date;
	return JS_LocalTime(date);
	}
	}
	}
	return 0;
	}

	double JS_MakeDay(int nYear, int nMonth, int nDate) {
	double y = static_cast<double>(nYear);
	double m = static_cast<double>(nMonth);
	double dt = static_cast<double>(nDate);
	double ym = y + floor(m / 12);
	double mn = Mod(m, 12);
	double t = TimeFromYearMonth(static_cast<int>(ym), static_cast<int>(mn));
	if (YearFromTime(t) != ym \|\| MonthFromTime(t) != mn \|\| DateFromTime(t) != 1)
	return std::nan("");

	return Day(t) + dt - 1;
	}

	double JS_MakeTime(int nHour, int nMin, int nSec, int nMs) {
	double h = static_cast<double>(nHour);
	double m = static_cast<double>(nMin);
	double s = static_cast<double>(nSec);
	double milli = static_cast<double>(nMs);
	return h * 3600000 + m * 60000 + s * 1000 + milli;
	}

	double JS_MakeDate(double day, double time) {
	if (!std::isfinite(day) \|\| !std::isfinite(time))
	return std::nan("");

	return day * 86400000 + time;
	}

	std::vector<CJS_Value> ExpandKeywordParams(
	CJS_Runtime* pRuntime,
	const std::vector<CJS_Value>& originals,
	size_t nKeywords,
	...) {
	ASSERT(nKeywords);

	std::vector<CJS_Value> result(nKeywords, CJS_Value());
	size_t size = std::min(originals.size(), nKeywords);
	for (size_t i = 0; i < size; ++i)
	result[i] = originals[i];

	if (originals.size() != 1 \|\| !originals[0].ToV8Value()->IsObject() \|\|
	originals[0].ToV8Value()->IsArray()) {
	return result;
	}
	v8::Local<v8::Object> pObj = pRuntime->ToObject(originals[0].ToV8Value());
	result[0] = CJS_Value(); // Make unknown.

	va_list ap;
	va_start(ap, nKeywords);
	for (size_t i = 0; i < nKeywords; ++i) {
	const wchar_t* property = va_arg(ap, const wchar_t*);
	v8::Local<v8::Value> v8Value = pRuntime->GetObjectProperty(pObj, property);
	if (!v8Value->IsUndefined())
	result[i] = CJS_Value(v8Value);
	}
	va_end(ap);
	return result;
	}