/* * Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). * * 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" #if ENABLE(METER_TAG) #include "HTMLMeterElement.h" #include "Attribute.h" #include "EventNames.h" #include "ExceptionCode.h" #include "FormDataList.h" #include "HTMLFormElement.h" #include "HTMLNames.h" #include "HTMLParserIdioms.h" #include "MeterShadowElement.h" #include "RenderMeter.h" #include "ShadowRoot.h" #include namespace WebCore { using namespace HTMLNames; HTMLMeterElement::HTMLMeterElement(const QualifiedName& tagName, Document* document, HTMLFormElement* form) : HTMLFormControlElement(tagName, document, form) { ASSERT(hasTagName(meterTag)); } HTMLMeterElement::~HTMLMeterElement() { } PassRefPtr HTMLMeterElement::create(const QualifiedName& tagName, Document* document, HTMLFormElement* form) { RefPtr meter = adoptRef(new HTMLMeterElement(tagName, document, form)); meter->createShadowSubtree(); return meter; } RenderObject* HTMLMeterElement::createRenderer(RenderArena* arena, RenderStyle*) { return new (arena) RenderMeter(this); } const AtomicString& HTMLMeterElement::formControlType() const { DEFINE_STATIC_LOCAL(const AtomicString, meter, ("meter")); return meter; } void HTMLMeterElement::parseMappedAttribute(Attribute* attribute) { if (attribute->name() == valueAttr || attribute->name() == minAttr || attribute->name() == maxAttr || attribute->name() == lowAttr || attribute->name() == highAttr || attribute->name() == optimumAttr) didElementStateChange(); else HTMLFormControlElement::parseMappedAttribute(attribute); } void HTMLMeterElement::attach() { HTMLFormControlElement::attach(); didElementStateChange(); } double HTMLMeterElement::min() const { double min = 0; parseToDoubleForNumberType(getAttribute(minAttr), &min); return min; } void HTMLMeterElement::setMin(double min, ExceptionCode& ec) { if (!isfinite(min)) { ec = NOT_SUPPORTED_ERR; return; } setAttribute(minAttr, String::number(min)); } double HTMLMeterElement::max() const { double max = std::max(1.0, min()); parseToDoubleForNumberType(getAttribute(maxAttr), &max); return std::max(max, min()); } void HTMLMeterElement::setMax(double max, ExceptionCode& ec) { if (!isfinite(max)) { ec = NOT_SUPPORTED_ERR; return; } setAttribute(maxAttr, String::number(max)); } double HTMLMeterElement::value() const { double value = 0; parseToDoubleForNumberType(getAttribute(valueAttr), &value); return std::min(std::max(value, min()), max()); } void HTMLMeterElement::setValue(double value, ExceptionCode& ec) { if (!isfinite(value)) { ec = NOT_SUPPORTED_ERR; return; } setAttribute(valueAttr, String::number(value)); } double HTMLMeterElement::low() const { double low = min(); parseToDoubleForNumberType(getAttribute(lowAttr), &low); return std::min(std::max(low, min()), max()); } void HTMLMeterElement::setLow(double low, ExceptionCode& ec) { if (!isfinite(low)) { ec = NOT_SUPPORTED_ERR; return; } setAttribute(lowAttr, String::number(low)); } double HTMLMeterElement::high() const { double high = max(); parseToDoubleForNumberType(getAttribute(highAttr), &high); return std::min(std::max(high, low()), max()); } void HTMLMeterElement::setHigh(double high, ExceptionCode& ec) { if (!isfinite(high)) { ec = NOT_SUPPORTED_ERR; return; } setAttribute(highAttr, String::number(high)); } double HTMLMeterElement::optimum() const { double optimum = (max() + min()) / 2; parseToDoubleForNumberType(getAttribute(optimumAttr), &optimum); return std::min(std::max(optimum, min()), max()); } void HTMLMeterElement::setOptimum(double optimum, ExceptionCode& ec) { if (!isfinite(optimum)) { ec = NOT_SUPPORTED_ERR; return; } setAttribute(optimumAttr, String::number(optimum)); } HTMLMeterElement::GaugeRegion HTMLMeterElement::gaugeRegion() const { double lowValue = low(); double highValue = high(); double theValue = value(); double optimumValue = optimum(); if (optimumValue < lowValue) { // The optimum range stays under low if (theValue <= lowValue) return GaugeRegionOptimum; if (theValue <= highValue) return GaugeRegionSuboptimal; return GaugeRegionEvenLessGood; } if (highValue < optimumValue) { // The optimum range stays over high if (highValue <= theValue) return GaugeRegionOptimum; if (lowValue <= theValue) return GaugeRegionSuboptimal; return GaugeRegionEvenLessGood; } // The optimum range stays between high and low. // According to the standard, never show GaugeRegionEvenLessGood in this case // because the value is never less or greater than min or max. if (lowValue <= theValue && theValue <= highValue) return GaugeRegionOptimum; return GaugeRegionSuboptimal; } double HTMLMeterElement::valueRatio() const { double min = this->min(); double max = this->max(); double value = this->value(); if (max <= min) return 0; return (value - min) / (max - min); } void HTMLMeterElement::didElementStateChange() { m_value->setWidthPercentage(valueRatio()*100); } void HTMLMeterElement::createShadowSubtree() { RefPtr bar = MeterBarElement::create(document()); m_value = MeterValueElement::create(document()); ExceptionCode ec = 0; bar->appendChild(m_value, ec); ensureShadowRoot()->appendChild(bar, ec); } } // namespace #endif