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Diffstat (limited to 'src/qml/inlinecomponentutils_p.h')
-rw-r--r-- | src/qml/inlinecomponentutils_p.h | 161 |
1 files changed, 161 insertions, 0 deletions
diff --git a/src/qml/inlinecomponentutils_p.h b/src/qml/inlinecomponentutils_p.h new file mode 100644 index 0000000000..c7a93c870b --- /dev/null +++ b/src/qml/inlinecomponentutils_p.h @@ -0,0 +1,161 @@ +// Copyright (C) 2020 The Qt Company Ltd. +// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only +#ifndef INLINECOMPONENTUTILS_P_H +#define INLINECOMPONENTUTILS_P_H + +// +// W A R N I N G +// ------------- +// +// This file is not part of the Qt API. It exists purely as an +// implementation detail. This header file may change from version to +// version without notice, or even be removed. +// +// We mean it. +// + +#include <private/qqmlmetatype_p.h> +#include <private/qv4compileddata_p.h> +#include <private/qv4resolvedtypereference_p.h> + +QT_BEGIN_NAMESPACE + +namespace icutils { +struct Node { +private: + using IndexType = std::vector<QV4::CompiledData::InlineComponent>::size_type; + using IndexField = quint32_le_bitfield_member<0, 30, IndexType>; + using TemporaryMarkField = quint32_le_bitfield_member<30, 1>; + using PermanentMarkField = quint32_le_bitfield_member<31, 1>; + quint32_le_bitfield_union<IndexField, TemporaryMarkField, PermanentMarkField> m_data; + +public: + Node() = default; + Node(const Node &) = default; + Node(Node &&) = default; + Node& operator=(Node const &) = default; + Node& operator=(Node &&) = default; + bool operator==(Node const &other) const {return m_data.data() == other.m_data.data(); } + + Node(IndexType s) : m_data(QSpecialIntegerBitfieldZero) { m_data.set<IndexField>(s); } + + bool hasPermanentMark() const { return m_data.get<PermanentMarkField>(); } + bool hasTemporaryMark() const { return m_data.get<TemporaryMarkField>(); } + + void setPermanentMark() + { + m_data.set<TemporaryMarkField>(0); + m_data.set<PermanentMarkField>(1); + } + + void setTemporaryMark() + { + m_data.set<TemporaryMarkField>(1); + } + + IndexType index() const { return m_data.get<IndexField>(); } +}; + +using NodeList = std::vector<Node>; +using AdjacencyList = std::vector<std::vector<Node*>>; + +inline bool containedInSameType(const QQmlType &a, const QQmlType &b) +{ + return QQmlMetaType::equalBaseUrls(a.sourceUrl(), b.sourceUrl()); +} + +template<typename ObjectContainer, typename InlineComponent> +void fillAdjacencyListForInlineComponents(ObjectContainer *objectContainer, + AdjacencyList &adjacencyList, NodeList &nodes, + const std::vector<InlineComponent> &allICs) +{ + using CompiledObject = typename ObjectContainer::CompiledObject; + // add an edge from A to B if A and B are inline components with the same containing type + // and A inherits from B (ignore indirect chains through external types for now) + // or if A instantiates B + for (typename std::vector<InlineComponent>::size_type i = 0; i < allICs.size(); ++i) { + const auto& ic = allICs[i]; + const CompiledObject *obj = objectContainer->objectAt(ic.objectIndex); + QV4::ResolvedTypeReference *currentICTypeRef = objectContainer->resolvedType(ic.nameIndex); + auto createEdgeFromTypeRef = [&](QV4::ResolvedTypeReference *targetTypeRef) { + if (targetTypeRef) { + const auto targetType = targetTypeRef->type(); + if (targetType.isInlineComponentType() + && containedInSameType(targetType, currentICTypeRef->type())) { + auto icIt = std::find_if(allICs.cbegin(), allICs.cend(), [&](const QV4::CompiledData::InlineComponent &icSearched){ + return objectContainer->stringAt(icSearched.nameIndex) + == targetType.elementName(); + }); + Q_ASSERT(icIt != allICs.cend()); + Node& target = nodes[i]; + adjacencyList[std::distance(allICs.cbegin(), icIt)].push_back(&target); + } + } + }; + if (obj->inheritedTypeNameIndex != 0) { + QV4::ResolvedTypeReference *parentTypeRef = objectContainer->resolvedType(obj->inheritedTypeNameIndex); + createEdgeFromTypeRef(parentTypeRef); + + } + auto referencedInICObjectIndex = ic.objectIndex + 1; + while (int(referencedInICObjectIndex) < objectContainer->objectCount()) { + auto potentiallyReferencedInICObject = objectContainer->objectAt(referencedInICObjectIndex); + bool stillInIC + = !potentiallyReferencedInICObject->hasFlag( + QV4::CompiledData::Object::IsInlineComponentRoot) + && potentiallyReferencedInICObject->hasFlag( + QV4::CompiledData::Object::IsPartOfInlineComponent); + if (!stillInIC) + break; + createEdgeFromTypeRef(objectContainer->resolvedType(potentiallyReferencedInICObject->inheritedTypeNameIndex)); + ++referencedInICObjectIndex; + } + } +}; + +inline void topoVisit(Node *node, AdjacencyList &adjacencyList, bool &hasCycle, + NodeList &nodesSorted) +{ + if (node->hasPermanentMark()) + return; + if (node->hasTemporaryMark()) { + hasCycle = true; + return; + } + node->setTemporaryMark(); + + auto const &edges = adjacencyList[node->index()]; + for (auto edgeTarget =edges.begin(); edgeTarget != edges.end(); ++edgeTarget) { + topoVisit(*edgeTarget, adjacencyList, hasCycle, nodesSorted); + } + + node->setPermanentMark(); + nodesSorted.push_back(*node); +}; + +// Use DFS based topological sorting (https://en.wikipedia.org/wiki/Topological_sorting) +inline NodeList topoSort(NodeList &nodes, AdjacencyList &adjacencyList, bool &hasCycle) +{ + NodeList nodesSorted; + nodesSorted.reserve(nodes.size()); + + hasCycle = false; + auto currentNodeIt = std::find_if(nodes.begin(), nodes.end(), [](const Node& node) { + return !node.hasPermanentMark(); + }); + // Do a topological sort of all inline components + // afterwards, nodesSorted contains the nodes for the inline components in reverse topological order + while (currentNodeIt != nodes.end() && !hasCycle) { + Node& currentNode = *currentNodeIt; + topoVisit(¤tNode, adjacencyList, hasCycle, nodesSorted); + currentNodeIt = std::find_if(nodes.begin(), nodes.end(), [](const Node& node) { + return !node.hasPermanentMark(); + }); + } + return nodesSorted; +} +} + +QT_END_NAMESPACE + +#endif // INLINECOMPONENTUTILS_P_H |