// Copyright (C) 2016 The Qt Company Ltd. // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0 #include "timelinenotesrenderpass.h" #include "timelinerenderstate.h" #include "timelinenotesmodel.h" #include namespace Timeline { struct Point2DWithDistanceFromTop { float x, y; // vec4 vertexCoord float d; // float distanceFromTop void set(float nx, float ny, float nd); }; class NotesMaterial : public QSGMaterial { public: QSGMaterialType *type() const final; QSGMaterialShader *createShader(QSGRendererInterface::RenderMode) const final; }; struct NotesGeometry { static const int maxNotes; static const QSGGeometry::AttributeSet &point2DWithDistanceFromTop(); static QSGGeometry *createGeometry(QList &ids, const TimelineModel *model, const TimelineRenderState *parentState, bool collapsed); }; const int NotesGeometry::maxNotes = 0xffff / 2; class TimelineNotesRenderPassState : public TimelineRenderPass::State { public: TimelineNotesRenderPassState(int expandedRows); ~TimelineNotesRenderPassState(); QSGNode *expandedRow(int row) const { return m_expandedRows[row]; } QSGNode *collapsedOverlay() const final { return m_collapsedOverlay; } const QList &expandedRows() const final { return m_expandedRows; } QSGGeometry *nullGeometry() { return &m_nullGeometry; } NotesMaterial *material() { return &m_material; } private: QSGGeometryNode *createNode(); NotesMaterial m_material; QSGGeometry m_nullGeometry; QSGGeometryNode *m_collapsedOverlay; QList m_expandedRows; }; const QSGGeometry::AttributeSet &NotesGeometry::point2DWithDistanceFromTop() { static const QSGGeometry::Attribute data[] = { // vec4 vertexCoord QSGGeometry::Attribute::createWithAttributeType(0, 2, QSGGeometry::FloatType, QSGGeometry::PositionAttribute), // float distanceFromTop QSGGeometry::Attribute::createWithAttributeType(1, 1, QSGGeometry::FloatType, QSGGeometry::UnknownAttribute), }; static const QSGGeometry::AttributeSet attrs = { sizeof(data) / sizeof(data[0]), sizeof(Point2DWithDistanceFromTop), data }; return attrs; } const TimelineNotesRenderPass *TimelineNotesRenderPass::instance() { static const TimelineNotesRenderPass pass; return &pass; } TimelineNotesRenderPass::TimelineNotesRenderPass() { } TimelineRenderPass::State *TimelineNotesRenderPass::update(const TimelineAbstractRenderer *renderer, const TimelineRenderState *parentState, State *oldState, int firstIndex, int lastIndex, bool stateChanged, float spacing) const { Q_UNUSED(firstIndex) Q_UNUSED(lastIndex) Q_UNUSED(spacing) const TimelineNotesModel *notes = renderer->notes(); const TimelineModel *model = renderer->model(); if (!model || !notes) return oldState; TimelineNotesRenderPassState *state; if (oldState == nullptr) { state = new TimelineNotesRenderPassState(model->expandedRowCount()); } else { if (!stateChanged && !renderer->notesDirty()) return oldState; state = static_cast(oldState); } QList > expanded(model->expandedRowCount()); QList collapsed; for (int i = 0; i < qMin(notes->count(), NotesGeometry::maxNotes); ++i) { if (notes->timelineModel(i) != model->modelId()) continue; int timelineIndex = notes->timelineIndex(i); if (model->startTime(timelineIndex) > parentState->end() || model->endTime(timelineIndex) < parentState->start()) continue; expanded[model->expandedRow(timelineIndex)] << timelineIndex; collapsed << timelineIndex; } QSGGeometryNode *collapsedNode = static_cast(state->collapsedOverlay()); if (!collapsed.isEmpty()) { collapsedNode->setGeometry(NotesGeometry::createGeometry(collapsed, model, parentState, true)); collapsedNode->setFlag(QSGGeometryNode::OwnsGeometry, true); } else { collapsedNode->setGeometry(state->nullGeometry()); collapsedNode->setFlag(QSGGeometryNode::OwnsGeometry, false); } for (int row = 0; row < model->expandedRowCount(); ++row) { QSGGeometryNode *rowNode = static_cast(state->expandedRow(row)); if (expanded[row].isEmpty()) { rowNode->setGeometry(state->nullGeometry()); rowNode->setFlag(QSGGeometryNode::OwnsGeometry, false); } else { rowNode->setGeometry(NotesGeometry::createGeometry(expanded[row], model, parentState, false)); collapsedNode->setFlag(QSGGeometryNode::OwnsGeometry, true); } } return state; } TimelineNotesRenderPassState::TimelineNotesRenderPassState(int numExpandedRows) : m_nullGeometry(NotesGeometry::point2DWithDistanceFromTop(), 0) { m_material.setFlag(QSGMaterial::Blending, true); m_material.setFlag(QSGMaterial::NoBatching, true); m_expandedRows.reserve(numExpandedRows); for (int i = 0; i < numExpandedRows; ++i) m_expandedRows << createNode(); m_collapsedOverlay = createNode(); } TimelineNotesRenderPassState::~TimelineNotesRenderPassState() { qDeleteAll(m_expandedRows); delete m_collapsedOverlay; } QSGGeometryNode *TimelineNotesRenderPassState::createNode() { QSGGeometryNode *node = new QSGGeometryNode; node->setGeometry(&m_nullGeometry); node->setMaterial(&m_material); node->setFlag(QSGNode::OwnedByParent, false); return node; } QSGGeometry *NotesGeometry::createGeometry(QList &ids, const TimelineModel *model, const TimelineRenderState *parentState, bool collapsed) { float rowHeight = TimelineModel::defaultRowHeight(); QSGGeometry *geometry = new QSGGeometry(point2DWithDistanceFromTop(), ids.count() * 2); Q_ASSERT(geometry->vertexData()); geometry->setDrawingMode(QSGGeometry::DrawLines); geometry->setLineWidth(3); Point2DWithDistanceFromTop *v = static_cast(geometry->vertexData()); for (int i = 0; i < ids.count(); ++i) { int timelineIndex = ids[i]; float horizontalCenter = ((model->startTime(timelineIndex) + model->endTime(timelineIndex)) / (qint64)2 - parentState->start()) * parentState->scale(); float verticalStart = (collapsed ? (model->collapsedRow(timelineIndex) + 0.1) : 0.1) * rowHeight; float verticalEnd = verticalStart + 0.8 * rowHeight; v[i * 2].set(horizontalCenter, verticalStart, 0); v[i * 2 + 1].set(horizontalCenter, verticalEnd, 1); } return geometry; } class NotesMaterialShader : public QSGMaterialShader { public: NotesMaterialShader(); bool updateUniformData(RenderState &state, QSGMaterial *, QSGMaterial *) override; }; NotesMaterialShader::NotesMaterialShader() : QSGMaterialShader() { setShaderFileName(VertexStage, ":/qt/qml/QtCreator/Tracing/notes_qt6.vert.qsb"); setShaderFileName(FragmentStage, ":/qt/qml/QtCreator/Tracing/notes_qt6.frag.qsb"); } static QColor notesColor() { return Utils::creatorTheme() ? Utils::creatorColor(Utils::Theme::Timeline_HighlightColor) : QColor(255, 165, 0); } bool NotesMaterialShader::updateUniformData(RenderState &state, QSGMaterial *, QSGMaterial *) { QByteArray *buf = state.uniformData(); // mat4 matrix if (state.isMatrixDirty()) { const QMatrix4x4 m = state.combinedMatrix(); memcpy(buf->data(), m.constData(), 64); } // vec4 notesColor const QColor color = notesColor(); const float colorArray[] = { color.redF(), color.greenF(), color.blueF(), color.alphaF() }; memcpy(buf->data() + 64, colorArray, 16); return true; } QSGMaterialType *NotesMaterial::type() const { static QSGMaterialType type; return &type; } QSGMaterialShader *NotesMaterial::createShader(QSGRendererInterface::RenderMode) const { return new NotesMaterialShader; } void Point2DWithDistanceFromTop::set(float nx, float ny, float nd) { x = nx; y = ny; d = nd; } } // namespace Timeline