Source/WebCore/html/StepRange.cpp - external/github.com/WebKit/webkit - Git at Google

 /*
  * Copyright (C) 2006, 2007, 2008, 2009, 2010 Apple Inc. All rights reserved.
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Library 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
  * Library General Public License for more details.
  *
  * You should have received a copy of the GNU Library General Public License
  * along with this library; see the file COPYING.LIB.  If not, write to
  * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
  * Boston, MA 02110-1301, USA.
  *
  */

 #include "config.h"
 #include "StepRange.h"

 #include "HTMLNames.h"
 #include "HTMLParserIdioms.h"
 #include <wtf/MathExtras.h>
 #include <wtf/NeverDestroyed.h>

 namespace WebCore {

 using namespace HTMLNames;

 StepRange::StepRange()
     : m_maximum(100)
     , m_minimum(0)
     , m_step(1)
     , m_stepBase(0)
     , m_stepDescription()
 {
 }

 StepRange::StepRange(const StepRange& stepRange)
     : m_maximum(stepRange.m_maximum)
     , m_minimum(stepRange.m_minimum)
     , m_step(stepRange.m_step)
     , m_stepBase(stepRange.m_stepBase)
     , m_stepDescription(stepRange.m_stepDescription)
     , m_hasRangeLimitations(stepRange.m_hasRangeLimitations)
     , m_hasStep(stepRange.m_hasStep)
 {
 }

 StepRange::StepRange(const Decimal& stepBase, RangeLimitations rangeLimitations, const Decimal& minimum, const Decimal& maximum, const Decimal& step, const StepDescription& stepDescription)
     : m_maximum(maximum)
     , m_minimum(minimum)
     , m_step(step.isFinite() ? step : 1)
     , m_stepBase(stepBase.isFinite() ? stepBase : 1)
     , m_stepDescription(stepDescription)
     , m_hasRangeLimitations(rangeLimitations == RangeLimitations::Valid)
     , m_hasStep(step.isFinite())
 {
     ASSERT(m_maximum.isFinite());
     ASSERT(m_minimum.isFinite());
     ASSERT(m_step.isFinite());
     ASSERT(m_stepBase.isFinite());
 }

 Decimal StepRange::acceptableError() const
 {
     // FIXME: We should use DBL_MANT_DIG instead of FLT_MANT_DIG regarding to HTML5 specification.
     static NeverDestroyed<const Decimal> twoPowerOfFloatMantissaBits(Decimal::Positive, 0, UINT64_C(1) << FLT_MANT_DIG);
     return m_stepDescription.stepValueShouldBe == StepValueShouldBeReal ? m_step / twoPowerOfFloatMantissaBits : Decimal(0);
 }

 Decimal StepRange::alignValueForStep(const Decimal& currentValue, const Decimal& newValue) const
 {
     static NeverDestroyed<const Decimal> tenPowerOf21(Decimal::Positive, 21, 1);
     if (newValue >= tenPowerOf21)
         return newValue;

     return stepMismatch(currentValue) ? newValue : roundByStep(newValue, m_stepBase);
 }

 Decimal StepRange::clampValue(const Decimal& value) const
 {
     const Decimal inRangeValue = std::max(m_minimum, std::min(value, m_maximum));
     if (!m_hasStep)
         return inRangeValue;
     // Rounds inRangeValue to minimum + N * step.
     const Decimal roundedValue = roundByStep(inRangeValue, m_minimum);
     const Decimal clampedValue = roundedValue > m_maximum ? roundedValue - m_step : roundedValue;
     ASSERT(clampedValue >= m_minimum);
     ASSERT(clampedValue <= m_maximum);
     return clampedValue;
 }

 Decimal StepRange::parseStep(AnyStepHandling anyStepHandling, const StepDescription& stepDescription, const String& stepString)
 {
     if (stepString.isEmpty())
         return stepDescription.defaultValue();

     if (equalLettersIgnoringASCIICase(stepString, "any")) {
         switch (anyStepHandling) {
         case AnyStepHandling::Reject:
             return Decimal::nan();
         case AnyStepHandling::Default:
             return stepDescription.defaultValue();
         default:
             ASSERT_NOT_REACHED();
         }
     }

     Decimal step = parseToDecimalForNumberType(stepString);
     if (!step.isFinite() || step <= 0)
         return stepDescription.defaultValue();

     switch (stepDescription.stepValueShouldBe) {
     case StepValueShouldBeReal:
         step *= stepDescription.stepScaleFactor;
         break;
     case ParsedStepValueShouldBeInteger:
         // For date, month, and week, the parsed value should be an integer for some types.
         step = std::max(step.round(), Decimal(1));
         step *= stepDescription.stepScaleFactor;
         break;
     case ScaledStepValueShouldBeInteger:
         // For datetime, datetime-local, time, the result should be an integer.
         step *= stepDescription.stepScaleFactor;
         step = std::max(step.round(), Decimal(1));
         break;
     default:
         ASSERT_NOT_REACHED();
     }

     ASSERT(step > 0);
     return step;
 }

 Decimal StepRange::roundByStep(const Decimal& value, const Decimal& base) const
 {
     return base + ((value - base) / m_step).round() * m_step;
 }

 bool StepRange::stepMismatch(const Decimal& valueForCheck) const
 {
     if (!m_hasStep)
         return false;
     if (!valueForCheck.isFinite())
         return false;
     const Decimal value = (valueForCheck - m_stepBase).abs();
     if (!value.isFinite())
         return false;
     // Decimal's fractional part size is DBL_MAN_DIG-bit. If the current value
     // is greater than step*2^DBL_MANT_DIG, the following computation for
     // remainder makes no sense.
     static NeverDestroyed<const Decimal> twoPowerOfDoubleMantissaBits(Decimal::Positive, 0, UINT64_C(1) << DBL_MANT_DIG);
     if (value / twoPowerOfDoubleMantissaBits > m_step)
         return false;
     // The computation follows HTML5 4.10.7.2.10 `The step attribute' :
     // ... that number subtracted from the step base is not an integral multiple
     // of the allowed value step, the element is suffering from a step mismatch.
     const Decimal remainder = (value - m_step * (value / m_step).round()).abs();
     // Accepts erros in lower fractional part which IEEE 754 single-precision
     // can't represent.
     const Decimal computedAcceptableError = acceptableError();
     return computedAcceptableError < remainder && remainder < (m_step - computedAcceptableError);
 }

 } // namespace WebCore
	/*
	* Copyright (C) 2006, 2007, 2008, 2009, 2010 Apple Inc. All rights reserved.
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Library 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
	* Library General Public License for more details.
	*
	* You should have received a copy of the GNU Library General Public License
	* along with this library; see the file COPYING.LIB. If not, write to
	* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
	* Boston, MA 02110-1301, USA.
	*
	*/

	#include "config.h"
	#include "StepRange.h"

	#include "HTMLNames.h"
	#include "HTMLParserIdioms.h"
	#include <wtf/MathExtras.h>
	#include <wtf/NeverDestroyed.h>

	namespace WebCore {

	using namespace HTMLNames;

	StepRange::StepRange()
	: m_maximum(100)
	, m_minimum(0)
	, m_step(1)
	, m_stepBase(0)
	, m_stepDescription()
	{
	}

	StepRange::StepRange(const StepRange& stepRange)
	: m_maximum(stepRange.m_maximum)
	, m_minimum(stepRange.m_minimum)
	, m_step(stepRange.m_step)
	, m_stepBase(stepRange.m_stepBase)
	, m_stepDescription(stepRange.m_stepDescription)
	, m_hasRangeLimitations(stepRange.m_hasRangeLimitations)
	, m_hasStep(stepRange.m_hasStep)
	{
	}

	StepRange::StepRange(const Decimal& stepBase, RangeLimitations rangeLimitations, const Decimal& minimum, const Decimal& maximum, const Decimal& step, const StepDescription& stepDescription)
	: m_maximum(maximum)
	, m_minimum(minimum)
	, m_step(step.isFinite() ? step : 1)
	, m_stepBase(stepBase.isFinite() ? stepBase : 1)
	, m_stepDescription(stepDescription)
	, m_hasRangeLimitations(rangeLimitations == RangeLimitations::Valid)
	, m_hasStep(step.isFinite())
	{
	ASSERT(m_maximum.isFinite());
	ASSERT(m_minimum.isFinite());
	ASSERT(m_step.isFinite());
	ASSERT(m_stepBase.isFinite());
	}

	Decimal StepRange::acceptableError() const
	{
	// FIXME: We should use DBL_MANT_DIG instead of FLT_MANT_DIG regarding to HTML5 specification.
	static NeverDestroyed<const Decimal> twoPowerOfFloatMantissaBits(Decimal::Positive, 0, UINT64_C(1) << FLT_MANT_DIG);
	return m_stepDescription.stepValueShouldBe == StepValueShouldBeReal ? m_step / twoPowerOfFloatMantissaBits : Decimal(0);
	}

	Decimal StepRange::alignValueForStep(const Decimal& currentValue, const Decimal& newValue) const
	{
	static NeverDestroyed<const Decimal> tenPowerOf21(Decimal::Positive, 21, 1);
	if (newValue >= tenPowerOf21)
	return newValue;

	return stepMismatch(currentValue) ? newValue : roundByStep(newValue, m_stepBase);
	}

	Decimal StepRange::clampValue(const Decimal& value) const
	{
	const Decimal inRangeValue = std::max(m_minimum, std::min(value, m_maximum));
	if (!m_hasStep)
	return inRangeValue;
	// Rounds inRangeValue to minimum + N * step.
	const Decimal roundedValue = roundByStep(inRangeValue, m_minimum);
	const Decimal clampedValue = roundedValue > m_maximum ? roundedValue - m_step : roundedValue;
	ASSERT(clampedValue >= m_minimum);
	ASSERT(clampedValue <= m_maximum);
	return clampedValue;
	}

	Decimal StepRange::parseStep(AnyStepHandling anyStepHandling, const StepDescription& stepDescription, const String& stepString)
	{
	if (stepString.isEmpty())
	return stepDescription.defaultValue();

	if (equalLettersIgnoringASCIICase(stepString, "any")) {
	switch (anyStepHandling) {
	case AnyStepHandling::Reject:
	return Decimal::nan();
	case AnyStepHandling::Default:
	return stepDescription.defaultValue();
	default:
	ASSERT_NOT_REACHED();
	}
	}

	Decimal step = parseToDecimalForNumberType(stepString);
	if (!step.isFinite() \|\| step <= 0)
	return stepDescription.defaultValue();

	switch (stepDescription.stepValueShouldBe) {
	case StepValueShouldBeReal:
	step *= stepDescription.stepScaleFactor;
	break;
	case ParsedStepValueShouldBeInteger:
	// For date, month, and week, the parsed value should be an integer for some types.
	step = std::max(step.round(), Decimal(1));
	step *= stepDescription.stepScaleFactor;
	break;
	case ScaledStepValueShouldBeInteger:
	// For datetime, datetime-local, time, the result should be an integer.
	step *= stepDescription.stepScaleFactor;
	step = std::max(step.round(), Decimal(1));
	break;
	default:
	ASSERT_NOT_REACHED();
	}

	ASSERT(step > 0);
	return step;
	}

	Decimal StepRange::roundByStep(const Decimal& value, const Decimal& base) const
	{
	return base + ((value - base) / m_step).round() * m_step;
	}

	bool StepRange::stepMismatch(const Decimal& valueForCheck) const
	{
	if (!m_hasStep)
	return false;
	if (!valueForCheck.isFinite())
	return false;
	const Decimal value = (valueForCheck - m_stepBase).abs();
	if (!value.isFinite())
	return false;
	// Decimal's fractional part size is DBL_MAN_DIG-bit. If the current value
	// is greater than step*2^DBL_MANT_DIG, the following computation for
	// remainder makes no sense.
	static NeverDestroyed<const Decimal> twoPowerOfDoubleMantissaBits(Decimal::Positive, 0, UINT64_C(1) << DBL_MANT_DIG);
	if (value / twoPowerOfDoubleMantissaBits > m_step)
	return false;
	// The computation follows HTML5 4.10.7.2.10 `The step attribute' :
	// ... that number subtracted from the step base is not an integral multiple
	// of the allowed value step, the element is suffering from a step mismatch.
	const Decimal remainder = (value - m_step * (value / m_step).round()).abs();
	// Accepts erros in lower fractional part which IEEE 754 single-precision
	// can't represent.
	const Decimal computedAcceptableError = acceptableError();
	return computedAcceptableError < remainder && remainder < (m_step - computedAcceptableError);
	}

	} // namespace WebCore