/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2020 - Raw Material Software Limited JUCE is an open source library subject to commercial or open-source licensing. By using JUCE, you agree to the terms of both the JUCE 6 End-User License Agreement and JUCE Privacy Policy (both effective as of the 16th June 2020). End User License Agreement: www.juce.com/juce-6-licence Privacy Policy: www.juce.com/juce-privacy-policy Or: You may also use this code under the terms of the GPL v3 (see www.gnu.org/licenses). JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE DISCLAIMED. ============================================================================== */ namespace juce { struct UndoManager::ActionSet { ActionSet (const String& transactionName) : name (transactionName) {} bool perform() const { for (auto* a : actions) if (! a->perform()) return false; return true; } bool undo() const { for (int i = actions.size(); --i >= 0;) if (! actions.getUnchecked(i)->undo()) return false; return true; } int getTotalSize() const { int total = 0; for (auto* a : actions) total += a->getSizeInUnits(); return total; } OwnedArray actions; String name; Time time { Time::getCurrentTime() }; }; //============================================================================== UndoManager::UndoManager (int maxNumberOfUnitsToKeep, int minimumTransactions) { setMaxNumberOfStoredUnits (maxNumberOfUnitsToKeep, minimumTransactions); } UndoManager::~UndoManager() { } //============================================================================== void UndoManager::clearUndoHistory() { transactions.clear(); totalUnitsStored = 0; nextIndex = 0; sendChangeMessage(); } int UndoManager::getNumberOfUnitsTakenUpByStoredCommands() const { return totalUnitsStored; } void UndoManager::setMaxNumberOfStoredUnits (int maxUnits, int minTransactions) { maxNumUnitsToKeep = jmax (1, maxUnits); minimumTransactionsToKeep = jmax (1, minTransactions); } //============================================================================== bool UndoManager::perform (UndoableAction* newAction, const String& actionName) { if (perform (newAction)) { if (actionName.isNotEmpty()) setCurrentTransactionName (actionName); return true; } return false; } bool UndoManager::perform (UndoableAction* newAction) { if (newAction != nullptr) { std::unique_ptr action (newAction); if (isPerformingUndoRedo()) { jassertfalse; // Don't call perform() recursively from the UndoableAction::perform() // or undo() methods, or else these actions will be discarded! return false; } if (action->perform()) { auto* actionSet = getCurrentSet(); if (actionSet != nullptr && ! newTransaction) { if (auto* lastAction = actionSet->actions.getLast()) { if (auto coalescedAction = lastAction->createCoalescedAction (action.get())) { action.reset (coalescedAction); totalUnitsStored -= lastAction->getSizeInUnits(); actionSet->actions.removeLast(); } } } else { actionSet = new ActionSet (newTransactionName); transactions.insert (nextIndex, actionSet); ++nextIndex; } totalUnitsStored += action->getSizeInUnits(); actionSet->actions.add (std::move (action)); newTransaction = false; moveFutureTransactionsToStash(); dropOldTransactionsIfTooLarge(); sendChangeMessage(); return true; } } return false; } void UndoManager::moveFutureTransactionsToStash() { if (nextIndex < transactions.size()) { stashedFutureTransactions.clear(); while (nextIndex < transactions.size()) { auto* removed = transactions.removeAndReturn (nextIndex); stashedFutureTransactions.add (removed); totalUnitsStored -= removed->getTotalSize(); } } } void UndoManager::restoreStashedFutureTransactions() { while (nextIndex < transactions.size()) { totalUnitsStored -= transactions.getUnchecked (nextIndex)->getTotalSize(); transactions.remove (nextIndex); } for (auto* stashed : stashedFutureTransactions) { transactions.add (stashed); totalUnitsStored += stashed->getTotalSize(); } stashedFutureTransactions.clearQuick (false); } void UndoManager::dropOldTransactionsIfTooLarge() { while (nextIndex > 0 && totalUnitsStored > maxNumUnitsToKeep && transactions.size() > minimumTransactionsToKeep) { totalUnitsStored -= transactions.getFirst()->getTotalSize(); transactions.remove (0); --nextIndex; // if this fails, then some actions may not be returning // consistent results from their getSizeInUnits() method jassert (totalUnitsStored >= 0); } } void UndoManager::beginNewTransaction() { beginNewTransaction ({}); } void UndoManager::beginNewTransaction (const String& actionName) { newTransaction = true; newTransactionName = actionName; } void UndoManager::setCurrentTransactionName (const String& newName) { if (newTransaction) newTransactionName = newName; else if (auto* action = getCurrentSet()) action->name = newName; } String UndoManager::getCurrentTransactionName() const { if (auto* action = getCurrentSet()) return action->name; return newTransactionName; } //============================================================================== UndoManager::ActionSet* UndoManager::getCurrentSet() const { return transactions[nextIndex - 1]; } UndoManager::ActionSet* UndoManager::getNextSet() const { return transactions[nextIndex]; } bool UndoManager::isPerformingUndoRedo() const { return isInsideUndoRedoCall; } bool UndoManager::canUndo() const { return getCurrentSet() != nullptr; } bool UndoManager::canRedo() const { return getNextSet() != nullptr; } bool UndoManager::undo() { if (auto* s = getCurrentSet()) { const ScopedValueSetter setter (isInsideUndoRedoCall, true); if (s->undo()) --nextIndex; else clearUndoHistory(); beginNewTransaction(); sendChangeMessage(); return true; } return false; } bool UndoManager::redo() { if (auto* s = getNextSet()) { const ScopedValueSetter setter (isInsideUndoRedoCall, true); if (s->perform()) ++nextIndex; else clearUndoHistory(); beginNewTransaction(); sendChangeMessage(); return true; } return false; } String UndoManager::getUndoDescription() const { if (auto* s = getCurrentSet()) return s->name; return {}; } String UndoManager::getRedoDescription() const { if (auto* s = getNextSet()) return s->name; return {}; } StringArray UndoManager::getUndoDescriptions() const { StringArray descriptions; for (int i = nextIndex;;) { if (auto* t = transactions[--i]) descriptions.add (t->name); else return descriptions; } } StringArray UndoManager::getRedoDescriptions() const { StringArray descriptions; for (int i = nextIndex;;) { if (auto* t = transactions[i++]) descriptions.add (t->name); else return descriptions; } } Time UndoManager::getTimeOfUndoTransaction() const { if (auto* s = getCurrentSet()) return s->time; return {}; } Time UndoManager::getTimeOfRedoTransaction() const { if (auto* s = getNextSet()) return s->time; return Time::getCurrentTime(); } bool UndoManager::undoCurrentTransactionOnly() { if ((! newTransaction) && undo()) { restoreStashedFutureTransactions(); return true; } return false; } void UndoManager::getActionsInCurrentTransaction (Array& actionsFound) const { if (! newTransaction) if (auto* s = getCurrentSet()) for (auto* a : s->actions) actionsFound.add (a); } int UndoManager::getNumActionsInCurrentTransaction() const { if (! newTransaction) if (auto* s = getCurrentSet()) return s->actions.size(); return 0; } } // namespace juce