// Copyright (c) 2022, arch1t3cht > // // Permission to use, copy, modify, and distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice appear in all copies. // // THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES // WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR // ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES // WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN // ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF // OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. // // Aegisub Project http://www.aegisub.org/ #include "fold_controller.h" #include "ass_file.h" #include "include/aegisub/context.h" #include "format.h" #include "subs_controller.h" #include #include #include static int next_fold_id = 0; FoldController::FoldController(agi::Context *c) : context(c) , pre_commit_listener(c->ass->AddPreCommitListener(&FoldController::FixFoldsPreCommit, this)) { } bool FoldController::CanAddFold(AssDialogue& start, AssDialogue& end) { if (start.Fold.exists || end.Fold.exists) { return false; } int folddepth = 0; for (auto it = std::next(context->ass->Events.begin(), start.Row); it->Row < end.Row; it++) { if (it->Fold.exists) { folddepth += it->Fold.side ? -1 : 1; } if (folddepth < 0) { return false; } } return folddepth == 0; } void FoldController::RawAddFold(AssDialogue& start, AssDialogue& end, bool collapsed) { int id = next_fold_id++; start.Fold.exists = true; start.Fold.collapsed = collapsed; start.Fold.id = id; start.Fold.side = false; end.Fold.exists = true; end.Fold.collapsed = collapsed; end.Fold.id = id; end.Fold.side = true; } void FoldController::AddFold(AssDialogue& start, AssDialogue& end, bool collapsed) { if (CanAddFold(start, end)) { RawAddFold(start, end, true); context->ass->Commit(_("add fold"), AssFile::COMMIT_FOLD); } } bool FoldController::DoForAllFolds(bool action(AssDialogue& line)) { for (AssDialogue& line : context->ass->Events) { if (line.Fold.exists) { if (action(line)) { return true; } } } return false; } void FoldController::FixFoldsPreCommit(int type, const AssDialogue *single_line) { if ((type & (AssFile::COMMIT_FOLD | AssFile::COMMIT_DIAG_ADDREM | AssFile::COMMIT_ORDER)) || type == AssFile::COMMIT_NEW) { if (type == AssFile::COMMIT_NEW && context->subsController->IsUndoStackEmpty()) { // This might be the biggest hack in all of this. We want to hook into the FileOpen signal to // read and apply the folds from the project data, but if we do it naively, this will only happen // after the first commit has been pushed to the undo stack. Thus, if a user uses Ctrl+Z after opening // a file, all folds will be cleared. // Instead, we hook into the first commit which is made after loading a file, right after the undo stack was cleared. DoForAllFolds(FoldController::ActionClearFold); MakeFoldsFromFile(); } FixFolds(); } } void FoldController::MakeFoldsFromFile() { if (context->ass->Properties.folds.empty()) { return; } int numlines = context->ass->Events.size(); for (LineFold fold : context->ass->Properties.folds) { if (fold.start >= 0 && fold.start < fold.end && fold.end <= numlines) { auto opener = std::next(context->ass->Events.begin(), fold.start); RawAddFold(*opener, *std::next(opener, fold.end - fold.start), fold.collapsed); } } } // For each line in lines, applies action() to the opening delimiter of the innermost fold containing this line. // Returns true as soon as any action() call returned true. // // In general, this can leave the folds in an inconsistent state, so unless action() is read-only this should always // be followed by a commit. bool FoldController::DoForFoldsAt(std::vector const& lines, bool action(AssDialogue& line)) { for (AssDialogue *line : lines) { if (line->Fold.parent != nullptr && !(line->Fold.exists && !line->Fold.side)) { line = line->Fold.parent; } if (!line->Fold.visited && action(*line)) { return true; } line->Fold.visited = true; } return false; } void FoldController::FixFolds() { // Stack of which folds we've desended into so far std::vector foldStack; // ID's for which we've found starters std::unordered_map foldHeads; // ID's for which we've either found a valid starter and ender, // or determined that the respective fold is invalid. All further // fold data with this ID is skipped and deleted. std::unordered_map completedFolds; for (auto line = context->ass->Events.begin(); line != context->ass->Events.end(); line++) { if (line->Fold.exists) { if (completedFolds.count(line->Fold.id)) { // Duplicate entry line->Fold.exists = false; continue; } if (!line->Fold.side) { if (foldHeads.count(line->Fold.id)) { // Duplicate entry line->Fold.exists = false; } else { foldHeads[line->Fold.id] = &*line; foldStack.push_back(&*line); } } else { if (!foldHeads.count(line->Fold.id)) { // Non-matching ender // Deactivate it. Because we can, also push it to completedFolds: // If its counterpart appears further below, we can delete it right away. completedFolds[line->Fold.id] = true; line->Fold.exists = false; } else { // We found a fold. Now we need to see if the stack matches. // We scan our stack for the counterpart of the fold. // If one exists, we assume all starters above it are invalid. // If none exists, we assume this ender is invalid. // If none of these assumptions are true, the folds are probably // broken beyond repair. completedFolds[line->Fold.id] = true; bool found = false; for (int i = foldStack.size() - 1; i >= 0; i--) { if (foldStack[i]->Fold.id == line->Fold.id) { // Erase all folds further inward for (int j = foldStack.size() - 1; j > i; j--) { completedFolds[foldStack[j]->Fold.id] = true; foldStack[j]->Fold.exists = false; foldStack.pop_back(); } // Sync the found fold and pop the stack line->Fold.collapsed = foldStack[i]->Fold.collapsed; foldStack.pop_back(); found = true; break; } } if (!found) { completedFolds[line->Fold.id] = true; line->Fold.exists = false; } } } } } // All remaining lines are invalid for (AssDialogue *line : foldStack) { line->Fold.exists = false; } LinkFolds(); } void FoldController::LinkFolds() { std::vector foldStack; AssDialogue *lastVisible = nullptr; context->ass->Properties.folds.clear(); maxdepth = 0; int visibleRow = 0; int highestFolded = 1; for (auto line = context->ass->Events.begin(); line != context->ass->Events.end(); line++) { line->Fold.parent = foldStack.empty() ? nullptr : foldStack.back(); line->Fold.nextVisible = nullptr; line->Fold.visible = highestFolded > foldStack.size(); line->Fold.visited = false; line->Fold.visibleRow = visibleRow; if (line->Fold.visible) { if (lastVisible != nullptr) { lastVisible->Fold.nextVisible = &*line; } lastVisible = &*line; visibleRow++; } if (line->Fold.exists && !line->Fold.side) { foldStack.push_back(&*line); if (!line->Fold.collapsed && highestFolded == foldStack.size()) { highestFolded++; } if (foldStack.size() > maxdepth) { maxdepth = foldStack.size(); } } if (line->Fold.exists && line->Fold.side) { context->ass->Properties.folds.push_back(LineFold { foldStack.back()->Row, line->Row, line->Fold.collapsed, }); line->Fold.counterpart = foldStack.back(); (*foldStack.rbegin())->Fold.counterpart = &*line; if (highestFolded >= foldStack.size()) { highestFolded = foldStack.size(); } foldStack.pop_back(); } } } int FoldController::GetMaxDepth() { return maxdepth; } bool FoldController::ActionHasFold(AssDialogue& line) { return line.Fold.exists; } bool FoldController::ActionClearFold(AssDialogue& line) { line.Fold.exists = false; return false; } bool FoldController::ActionOpenFold(AssDialogue& line) { line.Fold.collapsed = false; return false; } bool FoldController::ActionCloseFold(AssDialogue& line) { line.Fold.collapsed = true; return false; } bool FoldController::ActionToggleFold(AssDialogue& line) { line.Fold.collapsed = !line.Fold.collapsed; return false; } void FoldController::ClearAllFolds() { FoldController::DoForAllFolds(FoldController::ActionClearFold); context->ass->Commit(_("clear all folds"), AssFile::COMMIT_FOLD); } void FoldController::OpenAllFolds() { FoldController::DoForAllFolds(FoldController::ActionOpenFold); context->ass->Commit(_("open all folds"), AssFile::COMMIT_FOLD); } void FoldController::CloseAllFolds() { FoldController::DoForAllFolds(FoldController::ActionCloseFold); context->ass->Commit(_("close all folds"), AssFile::COMMIT_FOLD); } bool FoldController::HasFolds() { return FoldController::DoForAllFolds(FoldController::ActionHasFold); } void FoldController::ClearFoldsAt(std::vector const& lines) { FoldController::DoForFoldsAt(lines, FoldController::ActionClearFold); context->ass->Commit(_("clear folds"), AssFile::COMMIT_FOLD); } void FoldController::OpenFoldsAt(std::vector const& lines) { FoldController::DoForFoldsAt(lines, FoldController::ActionOpenFold); context->ass->Commit(_("open folds"), AssFile::COMMIT_FOLD); } void FoldController::CloseFoldsAt(std::vector const& lines) { FoldController::DoForFoldsAt(lines, FoldController::ActionCloseFold); context->ass->Commit(_("close folds"), AssFile::COMMIT_FOLD); } void FoldController::ToggleFoldsAt(std::vector const& lines) { FoldController::DoForFoldsAt(lines, FoldController::ActionToggleFold); context->ass->Commit(_("toggle folds"), AssFile::COMMIT_FOLD); } bool FoldController::AreFoldsAt(std::vector const& lines) { return FoldController::DoForFoldsAt(lines, FoldController::ActionHasFold); }