#include "config.h"
#include "EncodedValue.h"
#if ENABLE(WEB_REPLAY)
#include "InspectorValues.h"
#include <wtf/text/Base64.h>
using namespace Inspector;
namespace JSC {
RefPtr<InspectorObject> EncodedValue::asObject()
{
RefPtr<InspectorObject> result;
bool castSucceeded = m_value->asObject(result);
ASSERT_UNUSED(castSucceeded, castSucceeded);
return result;
}
RefPtr<InspectorArray> EncodedValue::asArray()
{
RefPtr<InspectorArray> result;
bool castSucceeded = m_value->asArray(result);
ASSERT_UNUSED(castSucceeded, castSucceeded);
return result;
}
EncodedValue EncodingTraits<Vector<char>>::encodeValue(const Vector<char>& buffer)
{
return EncodedValue::createString(base64Encode(buffer));
}
bool EncodingTraits<Vector<char>>::decodeValue(EncodedValue& encodedBuffer, Vector<char>& decodedValue)
{
return base64Decode(encodedBuffer.convertTo<String>(), decodedValue);
}
template<> EncodedValue ScalarEncodingTraits<bool>::encodeValue(const bool& value)
{
return EncodedValue(InspectorValue::create(value));
}
template<> EncodedValue ScalarEncodingTraits<double>::encodeValue(const double& value)
{
return EncodedValue(InspectorValue::create(value));
}
template<> EncodedValue ScalarEncodingTraits<float>::encodeValue(const float& value)
{
return EncodedValue(InspectorValue::create((double)value));
}
template<> EncodedValue ScalarEncodingTraits<int32_t>::encodeValue(const int32_t& value)
{
return EncodedValue(InspectorValue::create((double)value));
}
template<> EncodedValue ScalarEncodingTraits<int64_t>::encodeValue(const int64_t& value)
{
return EncodedValue(InspectorValue::create((double)value));
}
template<> EncodedValue ScalarEncodingTraits<uint32_t>::encodeValue(const uint32_t& value)
{
return EncodedValue(InspectorValue::create((double)value));
}
template<> EncodedValue ScalarEncodingTraits<uint64_t>::encodeValue(const uint64_t& value)
{
return EncodedValue(InspectorValue::create((double)value));
}
template<> bool EncodedValue::convertTo<bool>()
{
bool result;
bool castSucceeded = m_value->asBoolean(result);
ASSERT_UNUSED(castSucceeded, castSucceeded);
return result;
}
template<> double EncodedValue::convertTo<double>()
{
double result;
bool castSucceeded = m_value->asDouble(result);
ASSERT_UNUSED(castSucceeded, castSucceeded);
return result;
}
template<> float EncodedValue::convertTo<float>()
{
float result;
bool castSucceeded = m_value->asDouble(result);
ASSERT_UNUSED(castSucceeded, castSucceeded);
return result;
}
template<> int32_t EncodedValue::convertTo<int32_t>()
{
int32_t result;
bool castSucceeded = m_value->asInteger(result);
ASSERT_UNUSED(castSucceeded, castSucceeded);
return result;
}
template<> int64_t EncodedValue::convertTo<int64_t>()
{
int64_t result;
bool castSucceeded = m_value->asInteger(result);
ASSERT_UNUSED(castSucceeded, castSucceeded);
return result;
}
template<> uint32_t EncodedValue::convertTo<uint32_t>()
{
uint32_t result;
bool castSucceeded = m_value->asInteger(result);
ASSERT_UNUSED(castSucceeded, castSucceeded);
return result;
}
template<> uint64_t EncodedValue::convertTo<uint64_t>()
{
uint64_t result;
bool castSucceeded = m_value->asInteger(result);
ASSERT_UNUSED(castSucceeded, castSucceeded);
return result;
}
template<> String EncodedValue::convertTo<String>()
{
String result;
bool castSucceeded = m_value->asString(result);
ASSERT_UNUSED(castSucceeded, castSucceeded);
return result;
}
template<>
void EncodedValue::put<EncodedValue>(const String& key, const typename EncodingTraits<EncodedValue>::DecodedType& value)
{
asObject()->setValue(key, value.m_value.copyRef());
}
template<>
void EncodedValue::append<EncodedValue>(const typename EncodingTraits<EncodedValue>::DecodedType& value)
{
asArray()->pushValue(value.m_value.copyRef());
}
template<>
bool EncodedValue::get<EncodedValue>(const String& key, typename EncodingTraits<EncodedValue>::DecodedType& decodedValue)
{
RefPtr<Inspector::InspectorValue> value;
if (!asObject()->getValue(key, value))
return false;
decodedValue = EncodedValue(WTFMove(value));
return true;
}
};
#endif // ENABLE(WEB_REPLAY)