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/****************************************************************************
**
** Copyright (C) 2016 Klaralvdalens Datakonsult AB (KDAB).
** Contact: https://www.qt.io/licensing/
**
** This file is part of the Qt3D module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:COMM$
**
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and The Qt Company. For licensing terms
** and conditions see https://www.qt.io/terms-conditions. For further
** information use the contact form at https://www.qt.io/contact-us.
**
** $QT_END_LICENSE$
**
**
**
**
**
**
**
**
**
**
**
**
**
**
**
**
**
**
**
****************************************************************************/
#include "uniform_p.h"
#include "qabstracttexture.h"
QT_BEGIN_NAMESPACE
namespace Qt3DRender {
namespace Render {
namespace {
const int qNodeIdTypeId = qMetaTypeId<Qt3DCore::QNodeId>();
const int qVector3DTypeId = qMetaTypeId<Vector3D>();
const int qVector4DTypeId = qMetaTypeId<Vector4D>();
const int qMatrix4x4TypeId = qMetaTypeId<Matrix4x4>();
// glUniform*fv/glUniform*iv/glUniform*uiv -> only handles sizeof(float)/sizeof(int)
int byteSizeForMetaType(int type)
{
if (type == qMatrix4x4TypeId)
return sizeof(Matrix4x4);
if (type == qVector3DTypeId)
return sizeof(Vector3D);
if (type == qVector4DTypeId)
return sizeof(Vector4D);
if (type == qNodeIdTypeId)
return sizeof(Qt3DCore::QNodeId);
switch (type) {
case QMetaType::Bool:
case QMetaType::Int:
case QMetaType::UInt:
case QMetaType::ULongLong:
case QMetaType::LongLong:
case QMetaType::Long:
case QMetaType::ULong:
case QMetaType::Short:
case QMetaType::UShort:
case QMetaType::Char:
case QMetaType::UChar:
return sizeof(int);
case QMetaType::Float:
case QMetaType::Double: // Assumes conversion to float
return sizeof(float);
case QMetaType::QPoint:
case QMetaType::QSize:
return 2 * sizeof(int);
case QMetaType::QRect:
return 4 * sizeof(int);
case QMetaType::QPointF:
case QMetaType::QSizeF:
case QMetaType::QVector2D:
return 2 * sizeof(float);
case QMetaType::QVector3D:
return 3 * sizeof(float);
case QMetaType::QRectF:
case QMetaType::QVector4D:
case QMetaType::QColor:
return 4 * sizeof(float);
case QMetaType::QMatrix4x4:
return 16 * sizeof(float);
default:
Q_UNREACHABLE();
return -1;
}
}
} // anonymous
UniformValue UniformValue::fromVariant(const QVariant &variant)
{
// Texture/Buffer case
const int type = variant.userType();
if (type == qNodeIdTypeId)
return UniformValue(variant.value<Qt3DCore::QNodeId>());
if (type == qMatrix4x4TypeId)
return UniformValue(variant.value<Matrix4x4>());
if (type == qVector3DTypeId)
return UniformValue(variant.value<Vector3D>());
if (type == qVector4DTypeId)
return UniformValue(variant.value<Vector4D>());
UniformValue v;
switch (type) {
case QMetaType::Bool:
v.data<bool>()[0] = variant.toBool();
break;
case QMetaType::Int:
case QMetaType::UInt:
case QMetaType::Long:
case QMetaType::LongLong:
case QMetaType::Short:
case QMetaType::ULong:
case QMetaType::ULongLong:
case QMetaType::UShort:
case QMetaType::Char:
case QMetaType::UChar:
v.data<int>()[0] = variant.toInt();
v.m_storedType = Int;
break;
case QMetaType::Float:
case QMetaType::Double: // Convert double to floats
v.m_data[0] = variant.toFloat();
break;
case QMetaType::QPoint: {
const QPoint p = variant.toPoint();
v.data<int>()[0] = p.x();
v.data<int>()[1] = p.y();
break;
}
case QMetaType::QSize: {
const QSize s = variant.toSize();
v.data<int>()[0] = s.width();
v.data<int>()[1] = s.height();
break;
}
case QMetaType::QRect: {
const QRect r = variant.toRect();
v.data<int>()[0] = r.x();
v.data<int>()[1] = r.y();
v.data<int>()[2] = r.width();
v.data<int>()[3] = r.height();
break;
}
case QMetaType::QSizeF: {
const QSizeF s = variant.toSize();
v.m_data[0] = s.width();
v.m_data[1] = s.height();
break;
}
case QMetaType::QPointF: {
const QPointF p = variant.toPointF();
v.m_data[0] = p.x();
v.m_data[1] = p.y();
break;
}
case QMetaType::QRectF: {
const QRectF r = variant.toRect();
v.m_data[0] = r.x();
v.m_data[1] = r.y();
v.m_data[2] = r.width();
v.m_data[3] = r.height();
break;
}
case QMetaType::QVector2D: {
const QVector2D vec2 = variant.value<QVector2D>();
v.m_data[0] = vec2.x();
v.m_data[1] = vec2.y();
break;
}
case QMetaType::QVector3D: {
const QVector3D vec3 = variant.value<QVector3D>();
v.m_data[0] = vec3.x();
v.m_data[1] = vec3.y();
v.m_data[2] = vec3.z();
break;
}
case QMetaType::QVector4D: {
const QVector4D vec4 = variant.value<QVector4D>();
v.m_data[0] = vec4.x();
v.m_data[1] = vec4.y();
v.m_data[2] = vec4.z();
v.m_data[3] = vec4.w();
break;
}
case QMetaType::QColor: {
const QColor col = variant.value<QColor>();
v.m_data[0] = col.redF();
v.m_data[1] = col.greenF();
v.m_data[2] = col.blueF();
v.m_data[3] = col.alphaF();
break;
}
case QMetaType::QMatrix4x4: {
const QMatrix4x4 mat44 = variant.value<QMatrix4x4>();
// Use constData because we want column-major layout
v.m_data.resize(16);
memcpy(v.data<float>(), mat44.constData(), 16 * sizeof(float));
break;
}
case QMetaType::QVariantList: {
const QVariantList variants = variant.toList();
if (variants.size() < 1)
break;
const int listEntryType = variants.first().userType();
// array of textures
if (listEntryType == qNodeIdTypeId)
v.m_valueType = NodeId;
const int stride = byteSizeForMetaType(listEntryType) / sizeof(float);
// Resize v.m_data
v.m_data.resize(stride * variants.size());
int idx = 0;
for (const QVariant &variant : variants) {
Q_ASSERT_X(variant.userType() == listEntryType,
Q_FUNC_INFO,
"Uniform array doesn't contain elements of the same type");
UniformValue vi = UniformValue::fromVariant(variant);
memcpy(v.data<float>() + idx, vi.data<float>(), stride * sizeof(float));
idx += stride;
}
break;
}
default: {
if (variant.userType() == qMetaTypeId<QMatrix3x3>()) {
const QMatrix3x3 mat33 = variant.value<QMatrix3x3>();
// Use constData because we want column-major layout
v.m_data.resize(9);
memcpy(v.data<float>(), mat33.constData(), 9 * sizeof(float));
break;
}
if (variant.userType() == qMetaTypeId<Qt3DRender::QAbstractTexture *>()) {
// silently ignore null texture pointers as they are common while textures are loading
if (variant.value<Qt3DRender::QAbstractTexture *>() == nullptr)
break;
}
qWarning() << "Unknown uniform type or value:" << variant << "Please check your QParameters";
}
}
return v;
}
template<>
void UniformValue::setData<QMatrix4x4>(const QVector<QMatrix4x4> &v)
{
m_data.resize(16 * v.size());
m_valueType = ScalarValue;
int offset = 0;
const int byteSize = 16 * sizeof(float);
float *data = m_data.data();
for (const auto &m : v) {
memcpy(data + offset, m.constData(), byteSize);
offset += 16;
}
}
} // namespace Render
} // namespace Qt3DRender
QT_END_NAMESPACE
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