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3ee41328f9
Simpler memory management. Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
179 lines
9.6 KiB
C++
179 lines
9.6 KiB
C++
// SPDX-License-Identifier: GPL-2.0
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// Note: this header file is used by the undo-machinery and should not be included elsewhere.
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#ifndef COMMAND_BASE_H
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#define COMMAND_BASE_H
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#include "core/divesite.h"
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#include "core/trip.h"
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#include "core/dive.h"
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#include <QUndoCommand>
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#include <QCoreApplication> // For Q_DECLARE_TR_FUNCTIONS
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#include <memory>
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// The classes derived from Command::Base represent units-of-work, which can be exectuted / undone
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// repeatedly. The command objects are collected in a linear list implemented in the QUndoStack class.
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// They contain the information that is necessary to either perform or undo the unit-of-work.
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// The usage is:
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// constructor: generate information that is needed for executing the unit-of-work
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// redo(): performs the unit-of-work and generates the information that is needed for undo()
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// undo(): undos the unit-of-work and regenerates the initial information needed in redo()
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// The needed information is mostly kept in pointers to dives and/or trips, which have to be added
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// or removed.
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// For this to work it is crucial that
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// 1) Pointers to dives and trips remain valid as long as referencing command-objects exist.
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// 2) The dive-table is not resorted, because dives are inserted at given indices.
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//
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// Thus, if a command deletes a dive or a trip, the actual object must not be deleted. Instead,
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// the command object removes pointers to the dive/trip object from the backend and takes ownership.
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// To reverse such a deletion, the object is re-injected into the backend and ownership is given up.
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// Once ownership of a dive is taken, any reference to it was removed from the backend. Thus,
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// subsequent redo()/undo() actions cannot access this object and integrity of the data is ensured.
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//
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// As an example, consider the following course of events: Dive 1 is renumbered and deleted, dive 2
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// is added and renumbered. The undo list looks like this (---> non-owning, ***> owning pointers,
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// ===> next item in list)
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//
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// Undo-List
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// +-----------------+ +---------------+ +------------+ +-----------------+
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// | Renumber dive 1 |====>| Delete dive 1 |====>| Add dive 2 |====>| Renumber dive 2 |
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// +------------------ +---------------+ +------------+ +-----------------+
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// | * | |
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// | +--------+ * | +--------+ |
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// +----->| Dive 1 |<****** +--->| Dive 2 |<------+
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// +--------+ +--------+
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// ^
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// +---------+ *
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// | Backend |****************
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// +---------+
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// Two points of note:
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// 1) Every dive is owned by either the backend or exactly one command object.
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// 2) All references to dive 1 are *before* the owner "delete dive 2", thus the pointer is always valid.
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// 3) References by the backend are *always* owning.
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//
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// The user undos the last two commands. The situation now looks like this:
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//
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//
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// Undo-List Redo-List
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// +-----------------+ +---------------+ +------------+ +-----------------+
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// | Renumber dive 1 |====>| Delete dive 1 | | Add dive 2 |<====| Renumber dive 2 |
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// +------------------ +---------------+ +------------+ +-----------------+
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// | * * |
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// | +--------+ * * +--------+ |
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// +----->| Dive 1 |<****** ****>| Dive 2 |<------+
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// +--------+ +--------+
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//
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// +---------+
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// | Backend |
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// +---------+
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// Again:
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// 1) Every dive is owned by either the backend (here none) or exactly one command object.
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// 2) All references to dive 1 are *before* the owner "delete dive 1", thus the pointer is always valid.
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// 3) All references to dive 2 are *after* the owner "add dive 2", thus the pointer is always valid.
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//
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// The user undos one more command:
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//
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// Undo-List Redo-List
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// +-----------------+ +---------------+ +------------+ +-----------------+
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// | Renumber dive 1 | | Delete dive 1 |<====| Add dive 2 |<====| Renumber dive 2 |
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// +------------------ +---------------+ +------------+ +-----------------+
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// | | * |
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// | +--------+ | * +--------+ |
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// +----->| Dive 1 |<-----+ ****>| Dive 2 |<------+
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// +--------+ +--------+
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// ^
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// * +---------+
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// ***************| Backend |
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// +---------+
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// Same points as above.
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// The user now adds a dive 3. The redo list will be deleted:
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//
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// Undo-List
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// +-----------------+ +------------+
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// | Renumber dive 1 |=============================================>| Add dive 3 |
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// +------------------ +------------+
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// | |
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// | +--------+ +--------+ |
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// +----->| Dive 1 | | Dive 3 |<---+
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// +--------+ +--------+
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// ^ ^
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// * +---------+ *
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// ***************| Backend |****************
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// +---------+
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// Note:
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// 1) Dive 2 was deleted with the "add dive 2" command, because that was the owner.
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// 2) Dive 1 was not deleted, because it is owned by the backend.
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//
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// To take ownership of dives/trips, std::unique_ptr<>s are used.
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// Expressed in C-terms: std::unique_ptr<T> is the same as T* with the following
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// twists:
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// 1) default-initialized to NULL.
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// 2) if it goes out of scope (local scope or containing object destroyed), it does:
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// if (ptr) free_function(ptr);
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// whereby free_function can be configured (defaults to delete ptr).
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// 3) assignment between two std::unique_ptr<T> compiles only if the source is reset (to NULL).
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// (hence the name - there's a *unique* owner).
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// While this sounds trivial, experience shows that this distinctly simplifies memory-management
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// (it's not necessary to manually delete all vector items in the destructur, etc).
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// Note that Qt's own implementation (QScoperPointer) is not up to the job, because it doesn't implement
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// move-semantics and Qt's containers are incompatible, owing to COW semantics.
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//
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// Usage:
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// std::unique_ptr<dive> dPtr; // Initialize to null-state: not owning any dive.
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// std::unique_ptr<dive> dPtr(dive); // Take ownership of dive (which is of type struct dive *).
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// // If dPtr goes out of scope, the dive will be freed with free_dive().
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// struct dive *d = dPtr.release(); // Give up ownership of dive. dPtr is reset to null.
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// struct dive *d = d.get(); // Get pointer dive, but don't release ownership.
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// dPtr.reset(dive2); // Delete currently owned dive with free_dive() and get ownership of dive2.
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// dPtr.reset(); // Delete currently owned dive and reset to null.
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// dPtr2 = dPtr1; // Fails to compile.
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// dPtr2 = std::move(dPtr1); // dPtr2 takes ownership, dPtr1 is reset to null.
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// std::unique_ptr<dive> fun();
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// dPtr1 = fun(); // Compiles. Simply put: the compiler knows that the result of fun() will
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// // be trashed and therefore can be moved-from.
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// std::vector<std::unique_ptr<dive>> v: // Define an empty vector of owning pointers.
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// v.emplace_back(dive); // Take ownership of dive and add at end of vector
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// // If the vector goes out of scope, all dives will be freed with free_dive().
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// v.clear(v); // Reset the vector to zero length. If the elements weren't release()d,
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// // the pointed-to dives are freed with free_dive()
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// Qt is making their containers a lot harder to integrate with std::vector
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template<typename T>
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QVector<T> stdToQt(const std::vector<T> &v)
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{
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#if QT_VERSION >= QT_VERSION_CHECK(5, 14, 0)
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return QVector<T>(v.begin(), v.end());
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#else
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return QVector<T>::fromStdVector(v);
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#endif
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}
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// We put everything in a namespace, so that we can shorten names without polluting the global namespace
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namespace Command {
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// This is the base class of all commands.
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// It defines the Qt-translation functions
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class Base : public QUndoCommand {
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Q_DECLARE_TR_FUNCTIONS(Command)
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public:
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// Check whether work is to be done.
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// TODO: replace by setObsolete (>Qt5.9)
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virtual bool workToBeDone() = 0;
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};
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// Put a command on the undoStack (and take ownership), but test whether there
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// is something to be done beforehand by calling the workToBeDone() function.
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// If nothing is to be done, the command will be deleted and false is returned.
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bool execute(Base *cmd);
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// helper function to create more meaningful undo/redo texts (and get the list
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// of those texts for the git storage commit message)
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QUndoStack *getUndoStack();
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QString diveNumberOrDate(struct dive *d);
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QString getListOfDives(const std::vector<dive *> &dives);
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QString getListOfDives(QVector<struct dive *> dives);
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} // namespace Command
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#endif // COMMAND_BASE_H
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