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|
// **************************************************************************
// * This file is part of the FreeFileSync project. It is distributed under *
// * GNU General Public License: http://www.gnu.org/licenses/gpl-3.0 *
// * Copyright (C) Zenju (zenju AT gmx DOT de) - All Rights Reserved *
// **************************************************************************
#include <set>
#include "tree_view.h"
#include <wx/settings.h>
#include <wx/menu.h>
#include <zen/i18n.h>
#include <zen/utf.h>
#include <zen/stl_tools.h>
#include <zen/format_unit.h>
#include <wx+/rtl.h>
#include <wx+/context_menu.h>
#include <wx+/image_resources.h>
#include "../lib/icon_buffer.h"
using namespace zen;
inline
void TreeView::compressNode(Container& cont) //remove single-element sub-trees -> gain clarity + usability (call *after* inclusion check!!!)
{
if (cont.subDirs.empty() || //single files node or...
(cont.firstFileId == nullptr && //single dir node...
cont.subDirs.size() == 1 && //
cont.subDirs[0].firstFileId == nullptr && //...that is empty
cont.subDirs[0].subDirs.empty())) //
{
cont.subDirs.clear();
cont.firstFileId = nullptr;
}
}
template <class Function> //(const FileSystemObject&) -> bool
void TreeView::extractVisibleSubtree(HierarchyObject& hierObj, //in
TreeView::Container& cont, //out
Function pred)
{
auto getBytes = [](const FilePair& fileObj) //MSVC screws up miserably if we put this lambda into std::for_each
{
////give accumulated bytes the semantics of a sync preview!
//if (fileObj.isActive())
// switch (fileObj.getSyncDir())
// {
// case SyncDirection::LEFT:
// return fileObj.getFileSize<RIGHT_SIDE>();
// case SyncDirection::RIGHT:
// return fileObj.getFileSize<LEFT_SIDE>();
// case SyncDirection::NONE:
// break;
// }
//prefer file-browser semantics over sync preview (=> always show useful numbers, even for SyncDirection::NONE)
//discussion: https://sourceforge.net/p/freefilesync/discussion/open-discussion/thread/ba6b6a33
return std::max(fileObj.getFileSize<LEFT_SIDE>(), fileObj.getFileSize<RIGHT_SIDE>());
};
cont.firstFileId = nullptr;
for (FilePair& fileObj : hierObj.refSubFiles())
if (pred(fileObj))
{
cont.bytesNet += getBytes(fileObj);
++cont.itemCountNet;
if (!cont.firstFileId)
cont.firstFileId = fileObj.getId();
}
for (SymlinkPair& linkObj : hierObj.refSubLinks())
if (pred(linkObj))
{
++cont.itemCountNet;
if (!cont.firstFileId)
cont.firstFileId = linkObj.getId();
}
cont.bytesGross += cont.bytesNet;
cont.itemCountGross += cont.itemCountNet;
cont.subDirs.reserve(hierObj.refSubDirs().size()); //avoid expensive reallocations!
for (DirPair& subDirObj : hierObj.refSubDirs())
{
const bool included = pred(subDirObj);
cont.subDirs.emplace_back(); //
auto& subDirCont = cont.subDirs.back();
TreeView::extractVisibleSubtree(subDirObj, subDirCont, pred);
if (included)
++subDirCont.itemCountGross;
cont.bytesGross += subDirCont.bytesGross;
cont.itemCountGross += subDirCont.itemCountGross;
if (!included && !subDirCont.firstFileId && subDirCont.subDirs.empty())
cont.subDirs.pop_back();
else
{
subDirCont.objId = subDirObj.getId();
compressNode(subDirCont);
}
}
}
namespace
{
//generate nice percentage numbers which precisely sum up to 100
void calcPercentage(std::vector<std::pair<std::uint64_t, int*>>& workList)
{
const std::uint64_t total = std::accumulate(workList.begin(), workList.end(), std::uint64_t(),
[](std::uint64_t sum, const std::pair<std::uint64_t, int*>& pair) { return sum + pair.first; });
if (total == 0U) //this case doesn't work with the error minimizing algorithm below
{
for (auto& pair : workList)
*pair.second = 0;
return;
}
int remainingPercent = 100;
for (auto& pair : workList)
{
*pair.second = static_cast<int>(pair.first * 100U / total); //round down
remainingPercent -= *pair.second;
}
assert(remainingPercent >= 0);
assert(remainingPercent < static_cast<int>(workList.size()));
//distribute remaining percent so that overall error is minimized as much as possible:
remainingPercent = std::min(remainingPercent, static_cast<int>(workList.size()));
if (remainingPercent > 0)
{
std::nth_element(workList.begin(), workList.begin() + remainingPercent - 1, workList.end(),
[total](const std::pair<std::uint64_t, int*>& lhs, const std::pair<std::uint64_t, int*>& rhs)
{
return lhs.first * 100U % total > rhs.first * 100U % total;
});
std::for_each(workList.begin(), workList.begin() + remainingPercent, [&](std::pair<std::uint64_t, int*>& pair) { ++*pair.second; });
}
}
Zstring getShortDisplayNameForFolderPair(const Zstring& dirLeftPf, const Zstring& dirRightPf) //post-fixed with separator
{
assert(endsWith(dirLeftPf, FILE_NAME_SEPARATOR) || dirLeftPf .empty());
assert(endsWith(dirRightPf, FILE_NAME_SEPARATOR) || dirRightPf.empty());
auto itL = dirLeftPf .end();
auto itR = dirRightPf.end();
for (;;)
{
auto itLPrev = find_last(dirLeftPf .begin(), itL, FILE_NAME_SEPARATOR);
auto itRPrev = find_last(dirRightPf.begin(), itR, FILE_NAME_SEPARATOR);
if (itLPrev == itL ||
itRPrev == itR)
{
if (itLPrev == itL)
itLPrev = dirLeftPf.begin();
else
++itLPrev; //skip separator
if (itRPrev == itR)
itRPrev = dirRightPf.begin();
else
++itRPrev;
if (equal(itLPrev, itL, itRPrev, itR))
{
itL = itLPrev;
itR = itRPrev;
}
break;
}
if (!equal(itLPrev, itL, itRPrev, itR))
break;
itL = itLPrev;
itR = itRPrev;
}
Zstring commonPostfix(itL, dirLeftPf.end());
if (startsWith(commonPostfix, FILE_NAME_SEPARATOR))
commonPostfix = afterFirst(commonPostfix, FILE_NAME_SEPARATOR);
if (endsWith(commonPostfix, FILE_NAME_SEPARATOR))
commonPostfix.resize(commonPostfix.size() - 1);
if (commonPostfix.empty())
{
auto getLastComponent = [](const Zstring& dirPf) { return afterLast(beforeLast(dirPf, FILE_NAME_SEPARATOR), FILE_NAME_SEPARATOR); }; //returns the whole string if term not found
if (dirLeftPf.empty())
return getLastComponent(dirRightPf);
else if (dirRightPf.empty())
return getLastComponent(dirLeftPf);
else
return getLastComponent(dirLeftPf) + utfCvrtTo<Zstring>(L" \u2212 ") + //= unicode minus
getLastComponent(dirRightPf);
}
return commonPostfix;
}
}
template <bool ascending>
struct TreeView::LessShortName
{
bool operator()(const TreeLine& lhs, const TreeLine& rhs) const
{
//files last (irrespective of sort direction)
if (lhs.type_ == TreeView::TYPE_FILES)
return false;
else if (rhs.type_ == TreeView::TYPE_FILES)
return true;
if (lhs.type_ != rhs.type_) //
return lhs.type_ < rhs.type_; //shouldn't happen! root nodes not mixed with files or directories
switch (lhs.type_)
{
case TreeView::TYPE_ROOT:
return makeSortDirection(LessFilename(), Int2Type<ascending>())(static_cast<const RootNodeImpl*>(lhs.node_)->displayName,
static_cast<const RootNodeImpl*>(rhs.node_)->displayName);
case TreeView::TYPE_DIRECTORY:
{
const auto* dirObjL = dynamic_cast<const DirPair*>(FileSystemObject::retrieve(static_cast<const DirNodeImpl*>(lhs.node_)->objId));
const auto* dirObjR = dynamic_cast<const DirPair*>(FileSystemObject::retrieve(static_cast<const DirNodeImpl*>(rhs.node_)->objId));
if (!dirObjL) //might be pathologic, but it's covered
return false;
else if (!dirObjR)
return true;
return makeSortDirection(LessFilename(), Int2Type<ascending>())(dirObjL->getPairShortName(), dirObjR->getPairShortName());
}
case TreeView::TYPE_FILES:
break;
}
assert(false);
return false; //:= all equal
}
};
template <bool ascending>
void TreeView::sortSingleLevel(std::vector<TreeLine>& items, ColumnTypeNavi columnType)
{
auto getBytes = [](const TreeLine& line) -> std::uint64_t
{
switch (line.type_)
{
case TreeView::TYPE_ROOT:
case TreeView::TYPE_DIRECTORY:
return line.node_->bytesGross;
case TreeView::TYPE_FILES:
return line.node_->bytesNet;
}
assert(false);
return 0U;
};
auto getCount = [](const TreeLine& line) -> int
{
switch (line.type_)
{
case TreeView::TYPE_ROOT:
case TreeView::TYPE_DIRECTORY:
return line.node_->itemCountGross;
case TreeView::TYPE_FILES:
return line.node_->itemCountNet;
}
assert(false);
return 0;
};
const auto lessBytes = [&](const TreeLine& lhs, const TreeLine& rhs) { return getBytes(lhs) < getBytes(rhs); };
const auto lessCount = [&](const TreeLine& lhs, const TreeLine& rhs) { return getCount(lhs) < getCount(rhs); };
switch (columnType)
{
case COL_TYPE_NAVI_BYTES:
std::sort(items.begin(), items.end(), makeSortDirection(lessBytes, Int2Type<ascending>()));
break;
case COL_TYPE_NAVI_DIRECTORY:
std::sort(items.begin(), items.end(), LessShortName<ascending>());
break;
case COL_TYPE_NAVI_ITEM_COUNT:
std::sort(items.begin(), items.end(), makeSortDirection(lessCount, Int2Type<ascending>()));
break;
}
}
void TreeView::getChildren(const Container& cont, unsigned int level, std::vector<TreeLine>& output)
{
output.clear();
output.reserve(cont.subDirs.size() + 1); //keep pointers in "workList" valid
std::vector<std::pair<std::uint64_t, int*>> workList;
for (const DirNodeImpl& subDir : cont.subDirs)
{
output.emplace_back(level, 0, &subDir, TreeView::TYPE_DIRECTORY);
workList.emplace_back(subDir.bytesGross, &output.back().percent_);
}
if (cont.firstFileId)
{
output.emplace_back(level, 0, &cont, TreeView::TYPE_FILES);
workList.emplace_back(cont.bytesNet, &output.back().percent_);
}
calcPercentage(workList);
if (sortAscending)
sortSingleLevel<true>(output, sortColumn);
else
sortSingleLevel<false>(output, sortColumn);
}
void TreeView::applySubView(std::vector<RootNodeImpl>&& newView)
{
//preserve current node expansion status
auto getHierAlias = [](const TreeView::TreeLine& tl) -> const HierarchyObject*
{
switch (tl.type_)
{
case TreeView::TYPE_ROOT:
return static_cast<const RootNodeImpl*>(tl.node_)->baseDirObj.get();
case TreeView::TYPE_DIRECTORY:
if (auto dirObj = dynamic_cast<const DirPair*>(FileSystemObject::retrieve(static_cast<const DirNodeImpl*>(tl.node_)->objId)))
return dirObj;
break;
case TreeView::TYPE_FILES:
break; //none!!!
}
return nullptr;
};
std::unordered_set<const HierarchyObject*> expandedNodes;
if (!flatTree.empty())
{
auto it = flatTree.begin();
for (auto iterNext = flatTree.begin() + 1; iterNext != flatTree.end(); ++iterNext, ++it)
if (it->level_ < iterNext->level_)
if (auto hierObj = getHierAlias(*it))
expandedNodes.insert(hierObj);
}
//update view on full data
folderCmpView.swap(newView); //newView may be an alias for folderCmpView! see sorting!
//set default flat tree
flatTree.clear();
if (folderCmp.size() == 1) //single folder pair case (empty pairs were already removed!) do NOT use folderCmpView for this check!
{
if (!folderCmpView.empty()) //it may really be!
getChildren(folderCmpView[0], 0, flatTree); //do not show root
}
else
{
//following is almost identical with TreeView::getChildren(): however we *cannot* reuse code here;
//this were only possible if we replaced "std::vector<RootNodeImpl>" with "Container"!
flatTree.reserve(folderCmpView.size()); //keep pointers in "workList" valid
std::vector<std::pair<std::uint64_t, int*>> workList;
for (const RootNodeImpl& root : folderCmpView)
{
flatTree.emplace_back(0, 0, &root, TreeView::TYPE_ROOT);
workList.emplace_back(root.bytesGross, &flatTree.back().percent_);
}
calcPercentage(workList);
if (sortAscending)
sortSingleLevel<true>(flatTree, sortColumn);
else
sortSingleLevel<false>(flatTree, sortColumn);
}
//restore node expansion status
for (size_t row = 0; row < flatTree.size(); ++row) //flatTree size changes during loop!
{
const TreeLine& line = flatTree[row];
if (auto hierObj = getHierAlias(line))
if (expandedNodes.find(hierObj) != expandedNodes.end())
{
std::vector<TreeLine> newLines;
getChildren(*line.node_, line.level_ + 1, newLines);
flatTree.insert(flatTree.begin() + row + 1, newLines.begin(), newLines.end());
}
}
}
template <class Predicate>
void TreeView::updateView(Predicate pred)
{
//update view on full data
std::vector<RootNodeImpl> newView;
newView.reserve(folderCmp.size()); //avoid expensive reallocations!
for (const std::shared_ptr<BaseDirPair>& baseObj : folderCmp)
{
newView.emplace_back();
RootNodeImpl& root = newView.back();
this->extractVisibleSubtree(*baseObj, root, pred); //"this->" is bogus for a static method, but GCC screws this one up
//warning: the following lines are almost 1:1 copy from extractVisibleSubtree:
//however we *cannot* reuse code here; this were only possible if we replaced "std::vector<RootNodeImpl>" with "Container"!
if (!root.firstFileId && root.subDirs.empty())
newView.pop_back();
else
{
root.baseDirObj = baseObj;
root.displayName = getShortDisplayNameForFolderPair(baseObj->getBaseDirPf<LEFT_SIDE >(),
baseObj->getBaseDirPf<RIGHT_SIDE>());
this->compressNode(root); //"this->" required by two-pass lookup as enforced by GCC 4.7
}
}
lastViewFilterPred = pred;
applySubView(std::move(newView));
}
void TreeView::setSortDirection(ColumnTypeNavi colType, bool ascending) //apply permanently!
{
sortColumn = colType;
sortAscending = ascending;
//reapply current view
applySubView(std::move(folderCmpView));
}
bool TreeView::getDefaultSortDirection(ColumnTypeNavi colType)
{
switch (colType)
{
case COL_TYPE_NAVI_BYTES:
return false;
case COL_TYPE_NAVI_DIRECTORY:
return true;
case COL_TYPE_NAVI_ITEM_COUNT:
return false;
}
assert(false);
return true;
}
TreeView::NodeStatus TreeView::getStatus(size_t row) const
{
if (row < flatTree.size())
{
if (row + 1 < flatTree.size() && flatTree[row + 1].level_ > flatTree[row].level_)
return TreeView::STATUS_EXPANDED;
//it's either reduced or empty
switch (flatTree[row].type_)
{
case TreeView::TYPE_DIRECTORY:
case TreeView::TYPE_ROOT:
return flatTree[row].node_->firstFileId || !flatTree[row].node_->subDirs.empty() ? TreeView::STATUS_REDUCED : TreeView::STATUS_EMPTY;
case TreeView::TYPE_FILES:
return TreeView::STATUS_EMPTY;
}
}
return TreeView::STATUS_EMPTY;
}
void TreeView::expandNode(size_t row)
{
if (getStatus(row) != TreeView::STATUS_REDUCED)
{
assert(false);
return;
}
if (row < flatTree.size())
{
std::vector<TreeLine> newLines;
switch (flatTree[row].type_)
{
case TreeView::TYPE_ROOT:
case TreeView::TYPE_DIRECTORY:
getChildren(*flatTree[row].node_, flatTree[row].level_ + 1, newLines);
break;
case TreeView::TYPE_FILES:
break;
}
flatTree.insert(flatTree.begin() + row + 1, newLines.begin(), newLines.end());
}
}
void TreeView::reduceNode(size_t row)
{
if (row < flatTree.size())
{
const unsigned int parentLevel = flatTree[row].level_;
bool done = false;
flatTree.erase(std::remove_if(flatTree.begin() + row + 1, flatTree.end(),
[&](const TreeLine& line) -> bool
{
if (done)
return false;
if (line.level_ > parentLevel)
return true;
else
{
done = true;
return false;
}
}), flatTree.end());
}
}
ptrdiff_t TreeView::getParent(size_t row) const
{
if (row < flatTree.size())
{
const auto level = flatTree[row].level_;
while (row-- > 0)
if (flatTree[row].level_ < level)
return row;
}
return -1;
}
void TreeView::updateCmpResult(bool showExcluded,
bool leftOnlyFilesActive,
bool rightOnlyFilesActive,
bool leftNewerFilesActive,
bool rightNewerFilesActive,
bool differentFilesActive,
bool equalFilesActive,
bool conflictFilesActive)
{
updateView([showExcluded, //make sure the predicate can be stored safely!
leftOnlyFilesActive,
rightOnlyFilesActive,
leftNewerFilesActive,
rightNewerFilesActive,
differentFilesActive,
equalFilesActive,
conflictFilesActive](const FileSystemObject& fsObj) -> bool
{
if (!fsObj.isActive() && !showExcluded)
return false;
switch (fsObj.getCategory())
{
case FILE_LEFT_SIDE_ONLY:
return leftOnlyFilesActive;
case FILE_RIGHT_SIDE_ONLY:
return rightOnlyFilesActive;
case FILE_LEFT_NEWER:
return leftNewerFilesActive;
case FILE_RIGHT_NEWER:
return rightNewerFilesActive;
case FILE_DIFFERENT_CONTENT:
return differentFilesActive;
case FILE_EQUAL:
case FILE_DIFFERENT_METADATA: //= sub-category of equal
return equalFilesActive;
case FILE_CONFLICT:
return conflictFilesActive;
}
assert(false);
return true;
});
}
void TreeView::updateSyncPreview(bool showExcluded,
bool syncCreateLeftActive,
bool syncCreateRightActive,
bool syncDeleteLeftActive,
bool syncDeleteRightActive,
bool syncDirOverwLeftActive,
bool syncDirOverwRightActive,
bool syncDirNoneActive,
bool syncEqualActive,
bool conflictFilesActive)
{
updateView([showExcluded, //make sure the predicate can be stored safely!
syncCreateLeftActive,
syncCreateRightActive,
syncDeleteLeftActive,
syncDeleteRightActive,
syncDirOverwLeftActive,
syncDirOverwRightActive,
syncDirNoneActive,
syncEqualActive,
conflictFilesActive](const FileSystemObject& fsObj) -> bool
{
if (!fsObj.isActive() && !showExcluded)
return false;
switch (fsObj.getSyncOperation())
{
case SO_CREATE_NEW_LEFT:
return syncCreateLeftActive;
case SO_CREATE_NEW_RIGHT:
return syncCreateRightActive;
case SO_DELETE_LEFT:
return syncDeleteLeftActive;
case SO_DELETE_RIGHT:
return syncDeleteRightActive;
case SO_OVERWRITE_RIGHT:
case SO_COPY_METADATA_TO_RIGHT:
case SO_MOVE_RIGHT_SOURCE:
case SO_MOVE_RIGHT_TARGET:
return syncDirOverwRightActive;
case SO_OVERWRITE_LEFT:
case SO_COPY_METADATA_TO_LEFT:
case SO_MOVE_LEFT_SOURCE:
case SO_MOVE_LEFT_TARGET:
return syncDirOverwLeftActive;
case SO_DO_NOTHING:
return syncDirNoneActive;
case SO_EQUAL:
return syncEqualActive;
case SO_UNRESOLVED_CONFLICT:
return conflictFilesActive;
}
assert(false);
return true;
});
}
void TreeView::setData(FolderComparison& newData)
{
std::vector<TreeLine >().swap(flatTree); //free mem
std::vector<RootNodeImpl>().swap(folderCmpView); //
folderCmp = newData;
//remove truly empty folder pairs as early as this: we want to distinguish single/multiple folder pair cases by looking at "folderCmp"
vector_remove_if(folderCmp, [](const std::shared_ptr<BaseDirPair>& baseObj)
{
return baseObj->getBaseDirPf<LEFT_SIDE >().empty() &&
baseObj->getBaseDirPf<RIGHT_SIDE>().empty();
});
}
std::unique_ptr<TreeView::Node> TreeView::getLine(size_t row) const
{
if (row < flatTree.size())
{
const auto level = flatTree[row].level_;
const int percent = flatTree[row].percent_;
switch (flatTree[row].type_)
{
case TreeView::TYPE_ROOT:
{
const auto& root = *static_cast<const TreeView::RootNodeImpl*>(flatTree[row].node_);
return zen::make_unique<TreeView::RootNode>(percent, root.bytesGross, root.itemCountGross, getStatus(row), *root.baseDirObj, root.displayName);
}
break;
case TreeView::TYPE_DIRECTORY:
{
const auto* dir = static_cast<const TreeView::DirNodeImpl*>(flatTree[row].node_);
if (auto dirObj = dynamic_cast<DirPair*>(FileSystemObject::retrieve(dir->objId)))
return zen::make_unique<TreeView::DirNode>(percent, dir->bytesGross, dir->itemCountGross, level, getStatus(row), *dirObj);
}
break;
case TreeView::TYPE_FILES:
{
const auto* parentDir = flatTree[row].node_;
if (auto firstFile = FileSystemObject::retrieve(parentDir->firstFileId))
{
std::vector<FileSystemObject*> filesAndLinks;
HierarchyObject& parent = firstFile->parent();
//lazy evaluation: recheck "lastViewFilterPred" again rather than buffer and bloat "lastViewFilterPred"
for (FileSystemObject& fsObj : parent.refSubFiles())
if (lastViewFilterPred(fsObj))
filesAndLinks.push_back(&fsObj);
for (FileSystemObject& fsObj : parent.refSubLinks())
if (lastViewFilterPred(fsObj))
filesAndLinks.push_back(&fsObj);
return zen::make_unique<TreeView::FilesNode>(percent, parentDir->bytesNet, parentDir->itemCountNet, level, filesAndLinks);
}
}
break;
}
}
return nullptr;
}
//##########################################################################################################
namespace
{
const wxColour COLOR_LEVEL0(0xcc, 0xcc, 0xff);
const wxColour COLOR_LEVEL1(0xcc, 0xff, 0xcc);
const wxColour COLOR_LEVEL2(0xff, 0xff, 0x99);
const wxColour COLOR_LEVEL3(0xcc, 0xcc, 0xcc);
const wxColour COLOR_LEVEL4(0xff, 0xcc, 0xff);
const wxColour COLOR_LEVEL5(0x99, 0xff, 0xcc);
const wxColour COLOR_LEVEL6(0xcc, 0xcc, 0x99);
const wxColour COLOR_LEVEL7(0xff, 0xcc, 0xcc);
const wxColour COLOR_LEVEL8(0xcc, 0xff, 0x99);
const wxColour COLOR_LEVEL9 (0xff, 0xff, 0xcc);
const wxColour COLOR_LEVEL10(0xcc, 0xff, 0xff);
const wxColour COLOR_LEVEL11(0xff, 0xcc, 0x99);
const wxColour COLOR_PERCENTAGE_BORDER (198, 198, 198);
const wxColour COLOR_PERCENTAGE_BACKGROUND(0xf8, 0xf8, 0xf8);
//const wxColor COLOR_TREE_SELECTION_GRADIENT_FROM = wxColor( 89, 255, 99); //green: HSV: 88, 255, 172
//const wxColor COLOR_TREE_SELECTION_GRADIENT_TO = wxColor(225, 255, 227); // HSV: 88, 255, 240
const wxColor COLOR_TREE_SELECTION_GRADIENT_FROM = getColorSelectionGradientFrom();
const wxColor COLOR_TREE_SELECTION_GRADIENT_TO = getColorSelectionGradientTo ();
const int iconSizeSmall = IconBuffer::getSize(IconBuffer::SIZE_SMALL);
class GridDataNavi : private wxEvtHandler, public GridData
{
public:
GridDataNavi(Grid& grid, const std::shared_ptr<TreeView>& treeDataView) : treeDataView_(treeDataView),
fileIcon(IconBuffer::genericFileIcon(IconBuffer::SIZE_SMALL)),
dirIcon (IconBuffer::genericDirIcon (IconBuffer::SIZE_SMALL)),
rootBmp(getResourceImage(L"rootFolder").ConvertToImage().Scale(iconSizeSmall, iconSizeSmall, wxIMAGE_QUALITY_HIGH)),
widthNodeIcon(iconSizeSmall),
widthLevelStep(widthNodeIcon),
widthNodeStatus(getResourceImage(L"nodeExpanded").GetWidth()),
grid_(grid),
showPercentBar(true)
{
grid.getMainWin().Connect(wxEVT_KEY_DOWN, wxKeyEventHandler(GridDataNavi::onKeyDown), nullptr, this);
grid.Connect(EVENT_GRID_MOUSE_LEFT_DOWN, GridClickEventHandler(GridDataNavi::onMouseLeft ), nullptr, this);
grid.Connect(EVENT_GRID_MOUSE_LEFT_DOUBLE, GridClickEventHandler(GridDataNavi::onMouseLeftDouble ), nullptr, this);
grid.Connect(EVENT_GRID_COL_LABEL_MOUSE_RIGHT, GridClickEventHandler(GridDataNavi::onGridLabelContext), nullptr, this );
grid.Connect(EVENT_GRID_COL_LABEL_MOUSE_LEFT, GridClickEventHandler(GridDataNavi::onGridLabelLeftClick ), nullptr, this );
}
void setShowPercentage(bool value) { showPercentBar = value; grid_.Refresh(); }
bool getShowPercentage() const { return showPercentBar; }
private:
size_t getRowCount() const override { return treeDataView_ ? treeDataView_->linesTotal() : 0; }
wxString getToolTip(size_t row, ColumnType colType) const override
{
switch (static_cast<ColumnTypeNavi>(colType))
{
case COL_TYPE_NAVI_BYTES:
case COL_TYPE_NAVI_ITEM_COUNT:
break;
case COL_TYPE_NAVI_DIRECTORY:
if (treeDataView_)
if (std::unique_ptr<TreeView::Node> node = treeDataView_->getLine(row))
if (const TreeView::RootNode* root = dynamic_cast<const TreeView::RootNode*>(node.get()))
{
const wxString& dirLeft = utfCvrtTo<wxString>(root->baseDirObj_.getBaseDirPf<LEFT_SIDE >());
const wxString& dirRight = utfCvrtTo<wxString>(root->baseDirObj_.getBaseDirPf<RIGHT_SIDE>());
if (dirLeft.empty())
return dirRight;
else if (dirRight.empty())
return dirLeft;
return dirLeft + L" \u2212 \n" + dirRight; //\u2212 = unicode minus
}
break;
}
return wxString();
}
wxString getValue(size_t row, ColumnType colType) const override
{
if (treeDataView_)
{
if (std::unique_ptr<TreeView::Node> node = treeDataView_->getLine(row))
switch (static_cast<ColumnTypeNavi>(colType))
{
case COL_TYPE_NAVI_BYTES:
return filesizeToShortString(node->bytes_);
case COL_TYPE_NAVI_DIRECTORY:
if (const TreeView::RootNode* root = dynamic_cast<const TreeView::RootNode*>(node.get()))
return utfCvrtTo<wxString>(root->displayName_);
else if (const TreeView::DirNode* dir = dynamic_cast<const TreeView::DirNode*>(node.get()))
return utfCvrtTo<wxString>(dir->dirObj_.getPairShortName());
else if (dynamic_cast<const TreeView::FilesNode*>(node.get()))
return _("Files");
break;
case COL_TYPE_NAVI_ITEM_COUNT:
return toGuiString(node->itemCount_);
}
}
return wxString();
}
void renderColumnLabel(Grid& tree, wxDC& dc, const wxRect& rect, ColumnType colType, bool highlighted) override
{
wxRect rectInside = drawColumnLabelBorder(dc, rect);
drawColumnLabelBackground(dc, rectInside, highlighted);
rectInside.x += COLUMN_GAP_LEFT;
rectInside.width -= COLUMN_GAP_LEFT;
drawColumnLabelText(dc, rectInside, getColumnLabel(colType));
if (treeDataView_) //draw sort marker
{
auto sortInfo = treeDataView_->getSortDirection();
if (colType == static_cast<ColumnType>(sortInfo.first))
{
const wxBitmap& marker = getResourceImage(sortInfo.second ? L"sortAscending" : L"sortDescending");
wxPoint markerBegin = rectInside.GetTopLeft() + wxPoint((rectInside.width - marker.GetWidth()) / 2, 0);
dc.DrawBitmap(marker, markerBegin, true); //respect 2-pixel gap
}
}
}
static const int GAP_SIZE = 2;
void renderRowBackgound(wxDC& dc, const wxRect& rect, size_t row, bool enabled, bool selected) override
{
if (enabled)
{
if (selected)
dc.GradientFillLinear(rect, COLOR_TREE_SELECTION_GRADIENT_FROM, COLOR_TREE_SELECTION_GRADIENT_TO, wxEAST);
//ignore focus
else
clearArea(dc, rect, wxSystemSettings::GetColour(wxSYS_COLOUR_WINDOW));
}
else
clearArea(dc, rect, wxSystemSettings::GetColour(wxSYS_COLOUR_BTNFACE));
}
void renderCell(wxDC& dc, const wxRect& rect, size_t row, ColumnType colType, bool enabled, bool selected) override
{
//wxRect rectTmp= drawCellBorder(dc, rect);
wxRect rectTmp = rect;
// Partitioning:
// ________________________________________________________________________________
// | space | gap | percentage bar | 2 x gap | node status | gap |icon | gap | rest |
// --------------------------------------------------------------------------------
// -> synchronize renderCell() <-> getBestSize() <-> onMouseLeft()
if (static_cast<ColumnTypeNavi>(colType) == COL_TYPE_NAVI_DIRECTORY && treeDataView_)
{
if (std::unique_ptr<TreeView::Node> node = treeDataView_->getLine(row))
{
////clear first secion:
//clearArea(dc, wxRect(rect.GetTopLeft(), wxSize(
// node->level_ * widthLevelStep + GAP_SIZE + //width
// (showPercentBar ? widthPercentBar + 2 * GAP_SIZE : 0) + //
// widthNodeStatus + GAP_SIZE + widthNodeIcon + GAP_SIZE, //
// rect.height)), wxSystemSettings::GetColour(wxSYS_COLOUR_WINDOW));
//consume space
rectTmp.x += static_cast<int>(node->level_) * widthLevelStep;
rectTmp.width -= static_cast<int>(node->level_) * widthLevelStep;
rectTmp.x += GAP_SIZE;
rectTmp.width -= GAP_SIZE;
if (rectTmp.width > 0)
{
//percentage bar
if (showPercentBar)
{
const wxColour brushCol = [&]() -> wxColour
{
switch (node->level_ % 12)
{
case 0:
return COLOR_LEVEL0;
case 1:
return COLOR_LEVEL1;
case 2:
return COLOR_LEVEL2;
case 3:
return COLOR_LEVEL3;
case 4:
return COLOR_LEVEL4;
case 5:
return COLOR_LEVEL5;
case 6:
return COLOR_LEVEL6;
case 7:
return COLOR_LEVEL7;
case 8:
return COLOR_LEVEL8;
case 9:
return COLOR_LEVEL9;
case 10:
return COLOR_LEVEL10;
default:
return COLOR_LEVEL11;
}
}();
const wxRect areaPerc(rectTmp.x, rectTmp.y + 2, widthPercentBar, rectTmp.height - 4);
{
//clear background
wxDCPenChanger dummy (dc, COLOR_PERCENTAGE_BORDER);
wxDCBrushChanger dummy2(dc, COLOR_PERCENTAGE_BACKGROUND);
dc.DrawRectangle(areaPerc);
//inner area
dc.SetPen (brushCol);
dc.SetBrush(brushCol);
wxRect areaPercTmp = areaPerc;
areaPercTmp.Deflate(1); //do not include border
areaPercTmp.width = numeric::round(areaPercTmp.width * node->percent_ / 100.0);
dc.DrawRectangle(areaPercTmp);
}
wxDCTextColourChanger dummy3(dc, *wxBLACK); //accessibility: always set both foreground AND background colors!
dc.DrawLabel(numberTo<wxString>(node->percent_) + L"%", areaPerc, wxALIGN_CENTER);
rectTmp.x += widthPercentBar + 2 * GAP_SIZE;
rectTmp.width -= widthPercentBar + 2 * GAP_SIZE;
}
if (rectTmp.width > 0)
{
//node status
auto drawStatus = [&](const wchar_t* image)
{
const wxBitmap& bmp = getResourceImage(image);
wxRect rectStat(rectTmp.GetTopLeft(), wxSize(bmp.GetWidth(), bmp.GetHeight()));
rectStat.y += (rectTmp.height - rectStat.height) / 2;
//clearArea(dc, rectStat, wxSystemSettings::GetColour(wxSYS_COLOUR_WINDOW));
clearArea(dc, rectStat, *wxWHITE); //accessibility: always set both foreground AND background colors!
drawBitmapRtlMirror(dc, bmp, rectStat, wxALIGN_CENTER, buffer);
};
switch (node->status_)
{
case TreeView::STATUS_EXPANDED:
drawStatus(L"nodeExpanded");
break;
case TreeView::STATUS_REDUCED:
drawStatus(L"nodeReduced");
break;
case TreeView::STATUS_EMPTY:
break;
}
rectTmp.x += widthNodeStatus + GAP_SIZE;
rectTmp.width -= widthNodeStatus + GAP_SIZE;
if (rectTmp.width > 0)
{
wxBitmap nodeIcon;
bool isActive = true;
//icon
if (dynamic_cast<const TreeView::RootNode*>(node.get()))
nodeIcon = rootBmp;
else if (auto dir = dynamic_cast<const TreeView::DirNode*>(node.get()))
{
nodeIcon = dirIcon;
isActive = dir->dirObj_.isActive();
}
else if (dynamic_cast<const TreeView::FilesNode*>(node.get()))
nodeIcon = fileIcon;
if (isActive)
drawBitmapRtlNoMirror(dc, nodeIcon, rectTmp, wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL, buffer);
else
drawBitmapRtlNoMirror(dc, wxBitmap(nodeIcon.ConvertToImage().ConvertToGreyscale(1.0 / 3, 1.0 / 3, 1.0 / 3)), //treat all channels equally!
rectTmp, wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL, buffer);
rectTmp.x += widthNodeIcon + GAP_SIZE;
rectTmp.width -= widthNodeIcon + GAP_SIZE;
if (rectTmp.width > 0)
drawCellText(dc, rectTmp, getValue(row, colType), isActive, wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL);
}
}
}
}
}
else
{
int alignment = wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL;
//have file size and item count right-justified (but don't change for RTL languages)
if ((static_cast<ColumnTypeNavi>(colType) == COL_TYPE_NAVI_BYTES ||
static_cast<ColumnTypeNavi>(colType) == COL_TYPE_NAVI_ITEM_COUNT) && grid_.GetLayoutDirection() != wxLayout_RightToLeft)
{
rectTmp.width -= 2 * GAP_SIZE;
alignment = wxALIGN_RIGHT | wxALIGN_CENTER_VERTICAL;
}
else //left-justified
{
rectTmp.x += 2 * GAP_SIZE;
rectTmp.width -= 2 * GAP_SIZE;
}
drawCellText(dc, rectTmp, getValue(row, colType), true, alignment);
}
}
int getBestSize(wxDC& dc, size_t row, ColumnType colType) override
{
// -> synchronize renderCell() <-> getBestSize() <-> onMouseLeft()
if (static_cast<ColumnTypeNavi>(colType) == COL_TYPE_NAVI_DIRECTORY && treeDataView_)
{
if (std::unique_ptr<TreeView::Node> node = treeDataView_->getLine(row))
return node->level_ * widthLevelStep + GAP_SIZE + (showPercentBar ? widthPercentBar + 2 * GAP_SIZE : 0) + widthNodeStatus + GAP_SIZE
+ widthNodeIcon + GAP_SIZE + dc.GetTextExtent(getValue(row, colType)).GetWidth() +
GAP_SIZE; //additional gap from right
else
return 0;
}
else
return 2 * GAP_SIZE + dc.GetTextExtent(getValue(row, colType)).GetWidth() +
2 * GAP_SIZE; //include gap from right!
}
wxString getColumnLabel(ColumnType colType) const override
{
switch (static_cast<ColumnTypeNavi>(colType))
{
case COL_TYPE_NAVI_BYTES:
return _("Size");
case COL_TYPE_NAVI_DIRECTORY:
return _("Name");
case COL_TYPE_NAVI_ITEM_COUNT:
return _("Items");
}
return wxEmptyString;
}
void onMouseLeft(GridClickEvent& event)
{
if (treeDataView_)
{
bool clickOnNodeStatus = false;
if (static_cast<ColumnTypeNavi>(event.colType_) == COL_TYPE_NAVI_DIRECTORY)
if (std::unique_ptr<TreeView::Node> node = treeDataView_->getLine(event.row_))
{
const int absX = grid_.CalcUnscrolledPosition(event.GetPosition()).x;
const wxRect cellArea = grid_.getCellArea(event.row_, event.colType_);
if (cellArea.width > 0 && cellArea.height > 0)
{
const int tolerance = 1;
const int xNodeStatusFirst = -tolerance + cellArea.x + static_cast<int>(node->level_) * widthLevelStep + GAP_SIZE + (showPercentBar ? widthPercentBar + 2 * GAP_SIZE : 0);
const int xNodeStatusLast = (xNodeStatusFirst + tolerance) + widthNodeStatus + tolerance;
// -> synchronize renderCell() <-> getBestSize() <-> onMouseLeft()
if (xNodeStatusFirst <= absX && absX < xNodeStatusLast)
clickOnNodeStatus = true;
}
}
//--------------------------------------------------------------------------------------------------
if (clickOnNodeStatus)
switch (treeDataView_->getStatus(event.row_))
{
case TreeView::STATUS_EXPANDED:
return reduceNode(event.row_);
case TreeView::STATUS_REDUCED:
return expandNode(event.row_);
case TreeView::STATUS_EMPTY:
break;
}
}
event.Skip();
}
void onMouseLeftDouble(GridClickEvent& event)
{
if (treeDataView_)
switch (treeDataView_->getStatus(event.row_))
{
case TreeView::STATUS_EXPANDED:
return reduceNode(event.row_);
case TreeView::STATUS_REDUCED:
return expandNode(event.row_);
case TreeView::STATUS_EMPTY:
break;
}
event.Skip();
}
void onKeyDown(wxKeyEvent& event)
{
int keyCode = event.GetKeyCode();
if (wxTheApp->GetLayoutDirection() == wxLayout_RightToLeft)
{
if (keyCode == WXK_LEFT)
keyCode = WXK_RIGHT;
else if (keyCode == WXK_RIGHT)
keyCode = WXK_LEFT;
else if (keyCode == WXK_NUMPAD_LEFT)
keyCode = WXK_NUMPAD_RIGHT;
else if (keyCode == WXK_NUMPAD_RIGHT)
keyCode = WXK_NUMPAD_LEFT;
}
const size_t rowCount = grid_.getRowCount();
if (rowCount == 0) return;
size_t row = grid_.getGridCursor();
if (event.ShiftDown())
;
else if (event.ControlDown())
;
else
switch (keyCode)
{
case WXK_LEFT:
case WXK_NUMPAD_LEFT:
case WXK_NUMPAD_SUBTRACT: //http://msdn.microsoft.com/en-us/library/ms971323.aspx#atg_keyboardshortcuts_windows_shortcut_keys
if (treeDataView_)
switch (treeDataView_->getStatus(row))
{
case TreeView::STATUS_EXPANDED:
return reduceNode(row);
case TreeView::STATUS_REDUCED:
case TreeView::STATUS_EMPTY:
const int parentRow = treeDataView_->getParent(row);
if (parentRow >= 0)
grid_.setGridCursor(parentRow);
break;
}
return; //swallow event
case WXK_RIGHT:
case WXK_NUMPAD_RIGHT:
case WXK_NUMPAD_ADD:
if (treeDataView_)
switch (treeDataView_->getStatus(row))
{
case TreeView::STATUS_EXPANDED:
grid_.setGridCursor(std::min(rowCount - 1, row + 1));
break;
case TreeView::STATUS_REDUCED:
return expandNode(row);
case TreeView::STATUS_EMPTY:
break;
}
return; //swallow event
}
event.Skip();
}
void onGridLabelContext(GridClickEvent& event)
{
ContextMenu menu;
//--------------------------------------------------------------------------------------------------------
menu.addCheckBox(_("Percentage"), [this] { setShowPercentage(!getShowPercentage()); }, getShowPercentage());
//--------------------------------------------------------------------------------------------------------
auto toggleColumn = [&](const Grid::ColumnAttribute& ca)
{
auto colAttr = grid_.getColumnConfig();
for (auto it = colAttr.begin(); it != colAttr.end(); ++it)
if (it->type_ == ca.type_)
{
it->visible_ = !ca.visible_;
grid_.setColumnConfig(colAttr);
return;
}
};
for (const Grid::ColumnAttribute& ca : grid_.getColumnConfig())
{
menu.addCheckBox(getColumnLabel(ca.type_), [ca, toggleColumn]() { toggleColumn(ca); },
ca.visible_, ca.type_ != static_cast<ColumnType>(COL_TYPE_NAVI_DIRECTORY)); //do not allow user to hide file name column!
}
//--------------------------------------------------------------------------------------------------------
menu.addSeparator();
auto setDefaultColumns = [&]
{
setShowPercentage(defaultValueShowPercentage);
grid_.setColumnConfig(treeview::convertConfig(getDefaultColumnAttributesNavi()));
};
menu.addItem(_("&Default"), setDefaultColumns); //'&' -> reuse text from "default" buttons elsewhere
menu.popup(grid_);
//event.Skip();
}
void onGridLabelLeftClick(GridClickEvent& event)
{
if (treeDataView_)
{
const auto colTypeNavi = static_cast<ColumnTypeNavi>(event.colType_);
bool sortAscending = TreeView::getDefaultSortDirection(colTypeNavi);
const auto sortInfo = treeDataView_->getSortDirection();
if (sortInfo.first == colTypeNavi)
sortAscending = !sortInfo.second;
treeDataView_->setSortDirection(colTypeNavi, sortAscending);
grid_.clearSelection(ALLOW_GRID_EVENT);
grid_.Refresh();
}
}
void expandNode(size_t row)
{
treeDataView_->expandNode(row);
grid_.Refresh(); //implicitly clears selection (changed row count after expand)
grid_.setGridCursor(row);
//grid_.autoSizeColumns(); -> doesn't look as good as expected
}
void reduceNode(size_t row)
{
treeDataView_->reduceNode(row);
grid_.Refresh();
grid_.setGridCursor(row);
}
std::shared_ptr<TreeView> treeDataView_;
const wxBitmap fileIcon;
const wxBitmap dirIcon;
const wxBitmap rootBmp;
std::unique_ptr<wxBitmap> buffer; //avoid costs of recreating this temporal variable
const int widthNodeIcon;
const int widthLevelStep;
const int widthNodeStatus;
static const int widthPercentBar = 60;
Grid& grid_;
bool showPercentBar;
};
}
void treeview::init(Grid& grid, const std::shared_ptr<TreeView>& treeDataView)
{
grid.setDataProvider(std::make_shared<GridDataNavi>(grid, treeDataView));
grid.showRowLabel(false);
const int rowHeight = std::max(IconBuffer::getSize(IconBuffer::SIZE_SMALL), grid.getMainWin().GetCharHeight()) + 2; //allow 1 pixel space on top and bottom; dearly needed on OS X!
grid.setRowHeight(rowHeight);
}
void treeview::setShowPercentage(Grid& grid, bool value)
{
if (auto* prov = dynamic_cast<GridDataNavi*>(grid.getDataProvider()))
prov->setShowPercentage(value);
else
assert(false);
}
bool treeview::getShowPercentage(const Grid& grid)
{
if (auto* prov = dynamic_cast<const GridDataNavi*>(grid.getDataProvider()))
return prov->getShowPercentage();
assert(false);
return true;
}
namespace
{
std::vector<ColumnAttributeNavi> makeConsistent(const std::vector<ColumnAttributeNavi>& attribs)
{
std::set<ColumnTypeNavi> usedTypes;
std::vector<ColumnAttributeNavi> output;
//remove duplicates
std::copy_if(attribs.begin(), attribs.end(), std::back_inserter(output),
[&](const ColumnAttributeNavi& a) { return usedTypes.insert(a.type_).second; });
//make sure each type is existing!
const auto& defAttr = getDefaultColumnAttributesNavi();
std::copy_if(defAttr.begin(), defAttr.end(), std::back_inserter(output),
[&](const ColumnAttributeNavi& a) { return usedTypes.insert(a.type_).second; });
return output;
}
}
std::vector<Grid::ColumnAttribute> treeview::convertConfig(const std::vector<ColumnAttributeNavi>& attribs)
{
const auto& attribClean = makeConsistent(attribs);
std::vector<Grid::ColumnAttribute> output;
std::transform(attribClean.begin(), attribClean.end(), std::back_inserter(output),
[&](const ColumnAttributeNavi& ca) { return Grid::ColumnAttribute(static_cast<ColumnType>(ca.type_), ca.offset_, ca.stretch_, ca.visible_); });
return output;
}
std::vector<ColumnAttributeNavi> treeview::convertConfig(const std::vector<Grid::ColumnAttribute>& attribs)
{
std::vector<ColumnAttributeNavi> output;
std::transform(attribs.begin(), attribs.end(), std::back_inserter(output),
[&](const Grid::ColumnAttribute& ca) { return ColumnAttributeNavi(static_cast<ColumnTypeNavi>(ca.type_), ca.offset_, ca.stretch_, ca.visible_); });
return makeConsistent(output);
}
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