/* treemodel.cpp Copyright (c) 2015, Nikolaj Schlej. All rights reserved. This program and the accompanying materials are licensed and made available under the terms and conditions of the BSD License which accompanies this distribution. The full text of the license may be found at http://opensource.org/licenses/bsd-license.php THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. */ #include "treemodel.h" #include "stack" #if defined(QT_CORE_LIB) QVariant TreeModel::data(const UModelIndex &index, int role) const { if (!index.isValid()) return QVariant(); TreeItem *item = static_cast(index.internalPointer()); if (role == Qt::DisplayRole) { return item->data(index.column()).toLocal8Bit(); } #if defined (QT_GUI_LIB) else if (role == Qt::BackgroundRole) { if (markingEnabledFlag && marking(index) != BootGuardMarking::None) { switch (marking(index)) { case BootGuardMarking::BootGuardFullyInRange: return QBrush((Qt::GlobalColor)(markingDarkModeFlag ? Qt::darkRed : Qt::red )); break; case BootGuardMarking::VendorFullyInRange: return QBrush((Qt::GlobalColor)(markingDarkModeFlag ? Qt::darkCyan : Qt::cyan )); break; case BootGuardMarking::PartiallyInRange: return QBrush((Qt::GlobalColor)(markingDarkModeFlag ? Qt::darkYellow : Qt::yellow)); break; } } } #endif else if (role == Qt::UserRole) { return item->info().toLocal8Bit(); } return QVariant(); } Qt::ItemFlags TreeModel::flags(const UModelIndex &index) const { if (!index.isValid()) return Qt::NoItemFlags; return Qt::ItemIsEnabled | Qt::ItemIsSelectable; } QVariant TreeModel::headerData(int section, Qt::Orientation orientation, int role) const { if (orientation == Qt::Horizontal && role == Qt::DisplayRole) { switch (section) { case 0: return tr("Name"); case 1: return tr("Action"); case 2: return tr("Type"); case 3: return tr("Subtype"); case 4: return tr("Text"); } } return QVariant(); } #else UString TreeModel::data(const UModelIndex &index, int role) const { if (!index.isValid()) return UString(); if (role != 0 && role != 0x0100) return UString(); TreeItem *item = static_cast(index.internalPointer()); if (role == 0) return item->data(index.column()); else return item->info(); } UString TreeModel::headerData(int section, int orientation, int role) const { if (orientation == 1 && role == 0) { switch (section) { case 0: return UString("Name"); case 1: return UString("Action"); case 2: return UString("Type"); case 3: return UString("Subtype"); case 4: return UString("Text"); } } return UString(); } #endif int TreeModel::columnCount(const UModelIndex &parent) const { if (parent.isValid()) return static_cast(parent.internalPointer())->columnCount(); else return rootItem->columnCount(); } UModelIndex TreeModel::index(int row, int column, const UModelIndex &parent) const { if (!hasIndex(row, column, parent)) return UModelIndex(); TreeItem *parentItem; if (!parent.isValid()) parentItem = rootItem; else parentItem = static_cast(parent.internalPointer()); TreeItem *childItem = parentItem->child(row); if (childItem) return createIndex(row, column, childItem); else return UModelIndex(); } UModelIndex TreeModel::parent(const UModelIndex &index) const { if (!index.isValid()) return UModelIndex(); TreeItem *childItem = static_cast(index.internalPointer()); if (childItem == rootItem) return UModelIndex(); TreeItem *parentItem = childItem->parent(); if (parentItem == rootItem) return UModelIndex(); return createIndex(parentItem->row(), 0, parentItem); } int TreeModel::rowCount(const UModelIndex &parent) const { TreeItem *parentItem; if (parent.column() > 0) return 0; if (!parent.isValid()) parentItem = rootItem; else parentItem = static_cast(parent.internalPointer()); return parentItem->childCount(); } UINT32 TreeModel::base(const UModelIndex ¤t) const { // Rewrite this as loop if we ever see an image that is too deep for this naive implementation if (!current.isValid()) return 0; UModelIndex parent = current.parent(); if (!parent.isValid()) return offset(current); else { return offset(current) + base(parent); } } UINT32 TreeModel::offset(const UModelIndex &index) const { if (!index.isValid()) return 0; TreeItem *item = static_cast(index.internalPointer()); return item->offset(); } UINT8 TreeModel::type(const UModelIndex &index) const { if (!index.isValid()) return 0; TreeItem *item = static_cast(index.internalPointer()); return item->type(); } UINT8 TreeModel::subtype(const UModelIndex &index) const { if (!index.isValid()) return 0; TreeItem *item = static_cast(index.internalPointer()); return item->subtype(); } UINT8 TreeModel::marking(const UModelIndex &index) const { if (!index.isValid()) return 0; TreeItem *item = static_cast(index.internalPointer()); return item->marking(); } UByteArray TreeModel::header(const UModelIndex &index) const { if (!index.isValid()) return UByteArray(); TreeItem *item = static_cast(index.internalPointer()); return item->header(); } bool TreeModel::hasEmptyHeader(const UModelIndex &index) const { if (!index.isValid()) return true; TreeItem *item = static_cast(index.internalPointer()); return item->hasEmptyHeader(); } UByteArray TreeModel::body(const UModelIndex &index) const { if (!index.isValid()) return UByteArray(); TreeItem *item = static_cast(index.internalPointer()); return item->body(); } bool TreeModel::hasEmptyBody(const UModelIndex &index) const { if (!index.isValid()) return true; TreeItem *item = static_cast(index.internalPointer()); return item->hasEmptyBody(); } UByteArray TreeModel::tail(const UModelIndex &index) const { if (!index.isValid()) return UByteArray(); TreeItem *item = static_cast(index.internalPointer()); return item->tail(); } bool TreeModel::hasEmptyTail(const UModelIndex &index) const { if (!index.isValid()) return true; TreeItem *item = static_cast(index.internalPointer()); return item->hasEmptyTail(); } UString TreeModel::name(const UModelIndex &index) const { if (!index.isValid()) return UString(); TreeItem *item = static_cast(index.internalPointer()); return item->name(); } UString TreeModel::text(const UModelIndex &index) const { if (!index.isValid()) return UString(); TreeItem *item = static_cast(index.internalPointer()); return item->text(); } UString TreeModel::info(const UModelIndex &index) const { if (!index.isValid()) return UString(); TreeItem *item = static_cast(index.internalPointer()); return item->info(); } UINT8 TreeModel::action(const UModelIndex &index) const { if (!index.isValid()) return Actions::NoAction; TreeItem *item = static_cast(index.internalPointer()); return item->action(); } bool TreeModel::fixed(const UModelIndex &index) const { if (!index.isValid()) return false; TreeItem *item = static_cast(index.internalPointer()); return item->fixed(); } bool TreeModel::compressed(const UModelIndex &index) const { if (!index.isValid()) return false; TreeItem *item = static_cast(index.internalPointer()); return item->compressed(); } void TreeModel::setFixed(const UModelIndex &index, const bool fixed) { if (!index.isValid()) return; TreeItem *item = static_cast(index.internalPointer()); item->setFixed(fixed); if (!item->parent()) return; if (fixed) { // Special handling for uncompressed to compressed boundary if (item->compressed() && item->parent()->compressed() == FALSE) { item->setFixed(item->parent()->fixed()); return; } // Propagate fixed flag until root setFixed(index.parent(), true); } emit dataChanged(index, index); } void TreeModel::setCompressed(const UModelIndex &index, const bool compressed) { if (!index.isValid()) return; TreeItem *item = static_cast(index.internalPointer()); item->setCompressed(compressed); emit dataChanged(index, index); } void TreeModel::TreeModel::setMarkingEnabled(const bool enabled) { markingEnabledFlag = enabled; emit dataChanged(UModelIndex(), UModelIndex()); } void TreeModel::TreeModel::setMarkingDarkMode(const bool enabled) { markingDarkModeFlag = enabled; emit dataChanged(UModelIndex(), UModelIndex()); } void TreeModel::setMarking(const UModelIndex &index, const UINT8 marking) { if (!index.isValid()) return; TreeItem *item = static_cast(index.internalPointer()); item->setMarking(marking); emit dataChanged(index, index); } void TreeModel::setOffset(const UModelIndex &index, const UINT32 offset) { if (!index.isValid()) return; TreeItem *item = static_cast(index.internalPointer()); item->setOffset(offset); emit dataChanged(index, index); } void TreeModel::setType(const UModelIndex &index, const UINT8 data) { if (!index.isValid()) return; TreeItem *item = static_cast(index.internalPointer()); item->setType(data); emit dataChanged(index, index); } void TreeModel::setSubtype(const UModelIndex & index, const UINT8 subtype) { if (!index.isValid()) return; TreeItem *item = static_cast(index.internalPointer()); item->setSubtype(subtype); emit dataChanged(index, index); } void TreeModel::setName(const UModelIndex &index, const UString &data) { if (!index.isValid()) return; TreeItem *item = static_cast(index.internalPointer()); item->setName(data); emit dataChanged(index, index); } void TreeModel::setText(const UModelIndex &index, const UString &data) { if (!index.isValid()) return; TreeItem *item = static_cast(index.internalPointer()); item->setText(data); emit dataChanged(index, index); } void TreeModel::setInfo(const UModelIndex &index, const UString &data) { if (!index.isValid()) return; TreeItem *item = static_cast(index.internalPointer()); item->setInfo(data); emit dataChanged(index, index); } void TreeModel::addInfo(const UModelIndex &index, const UString &data, const bool append) { if (!index.isValid()) return; TreeItem *item = static_cast(index.internalPointer()); item->addInfo(data, append); emit dataChanged(index, index); } void TreeModel::setAction(const UModelIndex &index, const UINT8 action) { if (!index.isValid()) return; TreeItem *item = static_cast(index.internalPointer()); item->setAction(action); emit dataChanged(index, index); } UByteArray TreeModel::parsingData(const UModelIndex &index) const { if (!index.isValid()) return UByteArray(); TreeItem *item = static_cast(index.internalPointer()); return item->parsingData(); } bool TreeModel::hasEmptyParsingData(const UModelIndex &index) const { if (!index.isValid()) return true; TreeItem *item = static_cast(index.internalPointer()); return item->hasEmptyParsingData(); } void TreeModel::setParsingData(const UModelIndex &index, const UByteArray &data) { if (!index.isValid()) return; TreeItem *item = static_cast(index.internalPointer()); item->setParsingData(data); emit dataChanged(this->index(0, 0), index); } UByteArray TreeModel::uncompressedData(const UModelIndex &index) const { if (!index.isValid()) return UByteArray(); TreeItem *item = static_cast(index.internalPointer()); return item->uncompressedData(); } bool TreeModel::hasEmptyUncompressedData(const UModelIndex &index) const { if (!index.isValid()) return true; TreeItem *item = static_cast(index.internalPointer()); return item->hasEmptyUncompressedData(); } void TreeModel::setUncompressedData(const UModelIndex &index, const UByteArray &data) { if (!index.isValid()) return; TreeItem *item = static_cast(index.internalPointer()); item->setUncompressedData(data); emit dataChanged(this->index(0, 0), index); } UModelIndex TreeModel::addItem(const UINT32 offset, const UINT8 type, const UINT8 subtype, const UString & name, const UString & text, const UString & info, const UByteArray & header, const UByteArray & body, const UByteArray & tail, const ItemFixedState fixed, const UModelIndex & parent, const UINT8 mode) { TreeItem *item = 0; TreeItem *parentItem = 0; int parentColumn = 0; if (!parent.isValid()) parentItem = rootItem; else { if (mode == CREATE_MODE_BEFORE || mode == CREATE_MODE_AFTER) { item = static_cast(parent.internalPointer()); parentItem = item->parent(); parentColumn = parent.parent().column(); } else { parentItem = static_cast(parent.internalPointer()); parentColumn = parent.column(); } } TreeItem *newItem = new TreeItem(offset, type, subtype, name, text, info, header, body, tail, Movable, this->compressed(parent), parentItem); if (mode == CREATE_MODE_APPEND) { emit layoutAboutToBeChanged(); parentItem->appendChild(newItem); } else if (mode == CREATE_MODE_PREPEND) { emit layoutAboutToBeChanged(); parentItem->prependChild(newItem); } else if (mode == CREATE_MODE_BEFORE) { emit layoutAboutToBeChanged(); parentItem->insertChildBefore(item, newItem); } else if (mode == CREATE_MODE_AFTER) { emit layoutAboutToBeChanged(); parentItem->insertChildAfter(item, newItem); } else { delete newItem; return UModelIndex(); } emit layoutChanged(); UModelIndex created = createIndex(newItem->row(), parentColumn, newItem); setFixed(created, (bool)fixed); // Non-trivial logic requires additional call return created; } UModelIndex TreeModel::findParentOfType(const UModelIndex& index, UINT8 type) const { if (!index.isValid() || !index.parent().isValid()) return UModelIndex(); TreeItem *item; UModelIndex parent = index.parent(); for (item = static_cast(parent.internalPointer()); item != NULL && item != rootItem && item->type() != type; item = static_cast(parent.internalPointer())) parent = parent.parent(); if (item != NULL && item != rootItem) return parent; return UModelIndex(); } UModelIndex TreeModel::findLastParentOfType(const UModelIndex& index, UINT8 type) const { if (!index.isValid()) return UModelIndex(); UModelIndex lastParentOfType = findParentOfType(index, type); if (!lastParentOfType.isValid()) return UModelIndex(); UModelIndex currentParentOfType = findParentOfType(lastParentOfType, type); while (currentParentOfType.isValid()) { lastParentOfType = currentParentOfType; currentParentOfType = findParentOfType(lastParentOfType, type); } return lastParentOfType; } UModelIndex TreeModel::findByBase(UINT32 base) const { UModelIndex parentIndex = index(0,0); goDeeper: int n = rowCount(parentIndex); for (int i = 0; i < n; i++) { UModelIndex currentIndex = parentIndex.model()->index(i, 0, parentIndex); UINT32 currentBase = this->base(currentIndex); UINT32 fullSize = (UINT32)(header(currentIndex).size() + body(currentIndex).size() + tail(currentIndex).size()); if ((compressed(currentIndex) == false || (compressed(currentIndex) == true && compressed(currentIndex.parent()) == false)) // Base is meaningful only for true uncompressed items && currentBase <= base && base < currentBase + fullSize) { // Base must be in range [currentBase, currentBase + fullSize) // Found a better candidate parentIndex = currentIndex; goto goDeeper; } } return (parentIndex == index(0, 0) ? UModelIndex() : parentIndex); }