return QString::number(variant.toFloat());
}
if (variant.userType() == QVariant::ByteArray) {
- float kb = variant.toByteArray().size()/1024.;
- return QObject::tr("[binary data, size = %1kb]").arg(kb);
+ if (variant.toByteArray().size() < 1024) {
+ int bytes = variant.toByteArray().size();
+ return QObject::tr("[binary data, size = %1 bytes]").arg(bytes);
+ } else {
+ float kb = variant.toByteArray().size()/1024.;
+ return QObject::tr("[binary data, size = %1 kb]").arg(kb);
+ }
}
if (variant.userType() < QVariant::UserType) {
if (!m_richText.isEmpty())
return m_richText;
- m_richText = QString::fromLatin1("%1) <span style=\"font-weight:bold\">%2</span>(")
- .arg(index)
- .arg(name);
+ if (helpUrl.isEmpty()) {
+ m_richText = QString::fromLatin1(
+ "%1) <span style=\"font-weight:bold\">%2</span>(")
+ .arg(index)
+ .arg(name);
+ } else {
+ m_richText = QString::fromLatin1(
+ "%1) <span style=\"font-weight:bold\"><a href=\"%2\">%3</a></span>(")
+ .arg(index)
+ .arg(helpUrl.toString())
+ .arg(name);
+ }
+
for (int i = 0; i < argNames.count(); ++i) {
m_richText += argNames[i];
m_richText += QString::fromLatin1(" = ");
return m_filterText;
m_filterText = name;
+ m_filterText += QLatin1String("(");
for (int i = 0; i < argNames.count(); ++i) {
m_filterText += argNames[i];
m_filterText += QString::fromLatin1(" = ");
+
+ if (argValues[i].type() == QVariant::ByteArray) {
+ m_hasBinaryData = true;
+ m_binaryDataIndex = i;
+ }
m_filterText += apiVariantToString(argValues[i]);
if (i < argNames.count() - 1)
m_filterText += QString::fromLatin1(", ");
}
ApiTraceCall::ApiTraceCall()
- : ApiTraceEvent(ApiTraceEvent::Call)
+ : ApiTraceEvent(ApiTraceEvent::Call),
+ m_hasBinaryData(false),
+ m_binaryDataIndex(0)
{
}
{
}
-QVariantMap ApiTraceEvent::state() const
+QVariantMap ApiTraceEvent::stateParameters() const
+{
+ return m_state.parameters();
+}
+
+ApiTraceState ApiTraceEvent::state() const
{
return m_state;
}
-void ApiTraceEvent::setState(const QVariantMap &state)
+void ApiTraceEvent::setState(const ApiTraceState &state)
{
m_state = state;
}
+
+bool ApiTraceCall::hasBinaryData() const
+{
+ return m_hasBinaryData;
+}
+
+int ApiTraceCall::binaryDataIndex() const
+{
+ return m_binaryDataIndex;
+}
+
+ApiTraceState::ApiTraceState()
+{
+}
+
+ApiTraceState::ApiTraceState(const QVariantMap &parsedJson)
+{
+ m_parameters = parsedJson[QLatin1String("parameters")].toMap();
+ QVariantMap currentProgram =
+ parsedJson[QLatin1String("current_program")].toMap();
+ QVariantMap attachedShaders =
+ currentProgram[QLatin1String("attached_shaders")].toMap();
+ QVariantMap::const_iterator itr;
+
+
+ for (itr = attachedShaders.constBegin(); itr != attachedShaders.constEnd(); ++itr) {
+ QString type = itr.key();
+ QString source = itr.value().toString();
+ m_shaderSources[type] = source;
+ }
+
+ QVariantList textureUnits =
+ parsedJson[QLatin1String("textures")].toList();
+ for (int i = 0; i < textureUnits.count(); ++i) {
+ QVariantMap unit = textureUnits[i].toMap();
+ for (itr = unit.constBegin(); itr != unit.constEnd(); ++itr) {
+ QVariantMap target = itr.value().toMap();
+ if (target.count()) {
+ QVariantList levels = target[QLatin1String("levels")].toList();
+ for (int j = 0; j < levels.count(); ++j) {
+ QVariantMap level = levels[j].toMap();
+ QVariantMap image = level[QLatin1String("image")].toMap();
+ QSize size(image[QLatin1String("__width__")].toInt(),
+ image[QLatin1String("__height__")].toInt());
+ QString cls = image[QLatin1String("__class__")].toString();
+ QString type = image[QLatin1String("__type__")].toString();
+ bool normalized =
+ image[QLatin1String("__normalized__")].toBool();
+ int numChannels =
+ image[QLatin1String("__channels__")].toInt();
+
+ Q_ASSERT(type == QLatin1String("uint8"));
+ Q_ASSERT(normalized == true);
+
+ QByteArray dataArray =
+ image[QLatin1String("__data__")].toByteArray();
+
+ ApiTexture tex;
+ tex.setSize(size);
+ tex.setNumChannels(numChannels);
+ tex.setLevel(j);
+ tex.setUnit(i);
+ tex.setTarget(itr.key());
+ tex.contentsFromBase64(dataArray);
+
+ m_textures.append(tex);
+ }
+ }
+ }
+ }
+
+ QVariantMap fbos =
+ parsedJson[QLatin1String("framebuffer")].toMap();
+ for (itr = fbos.constBegin(); itr != fbos.constEnd(); ++itr) {
+ QVariantMap buffer = itr.value().toMap();
+ QSize size(buffer[QLatin1String("__width__")].toInt(),
+ buffer[QLatin1String("__height__")].toInt());
+ QString cls = buffer[QLatin1String("__class__")].toString();
+ QString type = buffer[QLatin1String("__type__")].toString();
+ bool normalized = buffer[QLatin1String("__normalized__")].toBool();
+ int numChannels = buffer[QLatin1String("__channels__")].toInt();
+
+ Q_ASSERT(type == QLatin1String("uint8"));
+ Q_ASSERT(normalized == true);
+
+ QByteArray dataArray =
+ buffer[QLatin1String("__data__")].toByteArray();
+
+ ApiFramebuffer fbo;
+ fbo.setSize(size);
+ fbo.setNumChannels(numChannels);
+ fbo.setType(itr.key());
+ fbo.contentsFromBase64(dataArray);
+ m_framebuffers.append(fbo);
+ }
+}
+
+QVariantMap ApiTraceState::parameters() const
+{
+ return m_parameters;
+}
+
+QMap<QString, QString> ApiTraceState::shaderSources() const
+{
+ return m_shaderSources;
+}
+
+bool ApiTraceState::isEmpty() const
+{
+ return m_parameters.isEmpty();
+}
+
+QList<ApiTexture> ApiTraceState::textures() const
+{
+ return m_textures;
+}
+
+QList<ApiFramebuffer> ApiTraceState::framebuffers() const
+{
+ return m_framebuffers;
+}
+
+