Thu, 23 Feb 2017 20:21:40 +0200
At long last, the g_win pointer has been removed. Down with global variables!
/* * LDForge: LDraw parts authoring CAD * Copyright (C) 2013 - 2017 Teemu Piippo * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. */ #include <QApplication> #include <QMessageBox> #include "lddocument.h" #include "mainwindow.h" #include "primitives.h" #include "miscallenous.h" #include "colors.h" #include "ldpaths.h" #include "documentmanager.h" #include "linetypes/comment.h" #include "linetypes/conditionaledge.h" #include "linetypes/edgeline.h" #include "linetypes/empty.h" #include "linetypes/quadrilateral.h" #include "linetypes/triangle.h" PrimitiveManager::PrimitiveManager(QObject* parent) : QObject(parent), HierarchyElement(parent), m_activeScanner(nullptr), m_unmatched(nullptr) {} PrimitiveScanner* PrimitiveManager::activeScanner() { return m_activeScanner; } QString PrimitiveManager::getPrimitivesCfgPath() const { return qApp->applicationDirPath() + DIRSLASH "prims.cfg"; } void PrimitiveManager::loadPrimitives() { // Try to load prims.cfg QFile primitivesFile = {getPrimitivesCfgPath()}; if (not primitivesFile.open (QIODevice::ReadOnly)) { // No prims.cfg, build it startScan(); } else { while (not primitivesFile.atEnd()) { QString line = primitivesFile.readLine().simplified(); int space = line.indexOf(" "); if (space != -1) { Primitive info; info.name = line.left(space); info.title = line.mid(space + 1); m_primitives.append(info); } } populateCategories(); print(tr("%1 primitives loaded.") + "\n", countof(m_primitives)); } } void PrimitiveManager::startScan() { if (m_activeScanner == nullptr) { loadCategories(); m_activeScanner = new PrimitiveScanner {this}; m_activeScanner->work(); connect(m_activeScanner, &PrimitiveScanner::workDone, this, [&]() { if (m_activeScanner) { m_primitives = m_activeScanner->scannedPrimitives(); populateCategories(); print(tr("%1 primitives scanned"), countof(m_primitives)); delete m_activeScanner; m_activeScanner = nullptr; } }); } } void PrimitiveManager::clearCategories() { for (PrimitiveCategory* category : m_categories) delete category; m_categories.clear(); } void PrimitiveManager::populateCategories() { loadCategories(); for (PrimitiveCategory* category : m_categories) category->primitives.clear(); for (Primitive& primitive : m_primitives) { bool matched = false; primitive.category = nullptr; // Go over the categories and their regexes, if and when there's a match, // the primitive's category is set to the category the regex beloings to. for (PrimitiveCategory* category : m_categories) { for (PrimitiveCategory::RegexEntry& entry : category->patterns) { switch (entry.type) { case PrimitiveCategory::FilenamePattern: // f-regex, check against filename matched = entry.regex.exactMatch (primitive.name); break; case PrimitiveCategory::TitlePattern: // t-regex, check against title matched = entry.regex.exactMatch (primitive.title); break; } if (matched) { primitive.category = category; break; } } // Drop off if a category was decided on. if (primitive.category) break; } // If there was a match, add the primitive to the category. // Otherwise, add it to the list of unmatched primitives. if (primitive.category) primitive.category->primitives << primitive; else m_unmatched->primitives << primitive; } // Sort the categories. Note that we only do this here because we needed the original order for pattern matching. qSort (m_categories.begin(), m_categories.end(), [](PrimitiveCategory* const& one, PrimitiveCategory* const& other) -> bool { return one->name() < other->name(); }); } void PrimitiveManager::loadCategories() { clearCategories(); QString path = ":/data/primitive-categories.cfg"; QFile categoriesFile = {path}; if (not categoriesFile.open (QIODevice::ReadOnly)) { QString message = format(tr("Failed to open primitive categories: %1"), categoriesFile.errorString()); QMessageBox::critical(m_window, tr("Cannot open categories"), message); return; } PrimitiveCategory* category = nullptr; while (not categoriesFile.atEnd()) { QString line = QString::fromUtf8(categoriesFile.readLine()).trimmed(); if (line.isEmpty() or line[0] == '#') continue; int colon = line.indexOf (":"); if (colon == -1) { if (category and category->isValidToInclude()) { m_categories << category; } else if (category) { print (tr ("Warning: Category \"%1\" left without patterns"), category->name()); delete category; } category = new PrimitiveCategory (line); } else if (category) { QString typechar = line.left (colon); PrimitiveCategory::PatternType type = PrimitiveCategory::FilenamePattern; if (typechar == "f") { type = PrimitiveCategory::FilenamePattern; } else if (typechar == "t") { type = PrimitiveCategory::TitlePattern; } else { print(tr("Warning: unknown pattern type \"%1\" on line \"%2\""), typechar, line); continue; } QRegExp regex (line.mid (colon + 1)); PrimitiveCategory::RegexEntry entry = { regex, type }; category->patterns << entry; } else { print("Warning: Rules given before the first category name"); } } if (category->isValidToInclude()) m_categories << category; // Add a category for unmatched primitives. // Note: if this function is called the second time, m_unmatched has been // deleted at the beginning of the function and is dangling at this point. m_unmatched = new PrimitiveCategory {tr("Other")}; m_categories.append(m_unmatched); categoriesFile.close(); } void PrimitiveModel::generateBody(Model& model) const { QVector<int> conditionalLineSegments; QVector<QLineF> circle = makeCircle(segments, divisions, 1); for (int i = 0; i < segments; ++i) { double x0 = circle[i].x1(); double x1 = circle[i].x2(); double z0 = circle[i].y1(); double z1 = circle[i].y2(); switch (type) { case Circle: { LDEdgeLine* line = model.emplace<LDEdgeLine>(); line->setVertex(0, Vertex {x0, 0.0f, z0}); line->setVertex(1, Vertex {x1, 0.0f, z1}); line->setColor(EdgeColor); } break; case Cylinder: case Ring: case Cone: { double x2, x3, z2, z3; double y0, y1, y2, y3; if (type == Cylinder) { x2 = x1; x3 = x0; z2 = z1; z3 = z0; y0 = y1 = 0.0; y2 = y3 = 1.0; } else { x2 = x1 * (ringNumber + 1); x3 = x0 * (ringNumber + 1); z2 = z1 * (ringNumber + 1); z3 = z0 * (ringNumber + 1); x0 *= ringNumber; x1 *= ringNumber; z0 *= ringNumber; z1 *= ringNumber; if (type == Ring) { y0 = y1 = y2 = y3 = 0.0; } else { y0 = y1 = 1.0; y2 = y3 = 0.0; } } Vertex v0 = {x0, y0, z0}; Vertex v1 = {x1, y1, z1}; Vertex v2 = {x2, y2, z2}; Vertex v3 = {x3, y3, z3}; LDQuadrilateral* quad = model.emplace<LDQuadrilateral>(v0, v1, v2, v3); quad->setColor(MainColor); if (type == Cylinder) quad->invert(); if (type == Cylinder or type == Cone) conditionalLineSegments.append(i); } break; case Disc: case DiscNegative: { double x2, z2; if (type == Disc) { x2 = z2 = 0.0; } else { x2 = (x0 >= 0.0) ? 1.0 : -1.0; z2 = (z0 >= 0.0) ? 1.0 : -1.0; } Vertex v0 = {x0, 0.0, z0}; Vertex v1 = {x1, 0.0, z1}; Vertex v2 = {x2, 0.0, z2}; // Disc negatives need to go the other way around, otherwise // they'll end up upside-down. LDTriangle* segment = model.emplace<LDTriangle>(); segment->setColor(MainColor); segment->setVertex(type == Disc ? 0 : 2, v0); segment->setVertex(1, v1); segment->setVertex(type == Disc ? 2 : 0, v2); } break; } } // If this is not a full circle, we need a conditional line at the other // end, too. if (segments < divisions and not conditionalLineSegments.isEmpty()) conditionalLineSegments << segments; for (int i : conditionalLineSegments) { Vertex v0 = {getRadialPoint(i, divisions, cos), 0.0f, getRadialPoint(i, divisions, sin)}; Vertex v1; Vertex v2 = {getRadialPoint(i + 1, divisions, cos), 0.0f, getRadialPoint(i + 1, divisions, sin)}; Vertex v3 = {getRadialPoint(i - 1, divisions, cos), 0.0f, getRadialPoint(i - 1, divisions, sin)}; if (type == Cylinder) { v1 = {v0[X], 1.0f, v0[Z]}; } else if (type == Cone) { v1 = {v0[X] * (ringNumber + 1), 0.0, v0[Z] * (ringNumber + 1)}; v0 = {v0[X] * ringNumber, 1.0, v0[Z] * ringNumber}; } LDConditionalEdge* line = model.emplace<LDConditionalEdge>(); line->setColor(EdgeColor); line->setVertex(0, v0); line->setVertex(1, v1); line->setVertex(2, v2); line->setVertex(3, v3); } } QString PrimitiveModel::typeName() const { return typeName(type); } QString PrimitiveModel::typeName(PrimitiveModel::Type type) { // Not translated as primitives are in English. const char* names[] = {"Circle", "Cylinder", "Disc", "Disc Negative", "Ring", "Cone"}; if (type >= 0 and type < countof(names)) return names[type]; else return "Unknown"; } QString PrimitiveModel::makeFileName() const { int numerator = segments; int denominator = divisions; // Simplify the fractional part, but the denominator must be at least 4. simplify(numerator, denominator); if (denominator < 4) { int factor = 4 / denominator; numerator *= factor; denominator *= factor; } // Compose some general information: prefix, fraction, root, ring number QString prefix = (divisions == LowResolution) ? "" : format ("%1/", divisions); QString frac = format ("%1-%2", numerator, denominator); static const char* roots[] = {"edge", "cyli", "disc", "ndis", "ring", "con"}; QString root = roots[type]; QString numberString = (type == Ring or type == Cone) ? format ("%1", ringNumber) : ""; // Truncate the root if necessary (7-16rin4.dat for instance). // However, always keep the root at least 2 characters. int extra = (countof(frac) + countof(numberString) + countof(root)) - 8; root.chop(qBound(0, extra, 2)); // Stick them all together and return the result. return prefix + frac + root + numberString + ".dat"; } LDDocument* PrimitiveManager::generatePrimitive(const PrimitiveModel& spec) { // Make the description QString fraction = QString::number ((float) spec.segments / spec.divisions); QString fileName = spec.makeFileName(); QString description; // Ensure that there's decimals, even if they're 0. if (fraction.indexOf(".") == -1) fraction += ".0"; if (spec.type == PrimitiveModel::Ring or spec.type == PrimitiveModel::Cone) { QString spacing = (spec.ringNumber < 10) ? " " : (spec.ringNumber < 100) ? " " : ""; description = format("%1 %2%3 x %4", PrimitiveModel::typeName(spec.type), spacing, spec.ringNumber, fraction); } else description = format("%1 %2", PrimitiveModel::typeName(spec.type), fraction); // Prepend "Hi-Res" if 48/ primitive. if (spec.divisions == HighResolution) description.insert (0, "Hi-Res "); LDDocument* document = m_window->newDocument(); document->setDefaultName(fileName); QString author = APPNAME; QString license = ""; bool hires = (spec.divisions == HighResolution); if (not m_config->defaultName().isEmpty()) { license = preferredLicenseText(); author = format("%1 [%2]", m_config->defaultName(), m_config->defaultUser()); } document->setFrozen(false); document->history()->setIgnoring(false); document->emplace<LDComment>(description); document->emplace<LDComment>(format("Name: %1", fileName)); document->emplace<LDComment>(format("Author: %1", author)); document->emplace<LDComment>(format("!LDRAW_ORG Unofficial_%1Primitive", hires ? "48_" : "")); document->emplace<LDComment>(license); document->emplace<LDEmpty>(); document->emplace<LDBfc>(BfcStatement::CertifyCCW); document->emplace<LDEmpty>(); spec.generateBody(*document); document->addHistoryStep(); return document; } /* * PrimitiveManager :: getPrimitive * * Gets a primitive by the given model. If the primitive cannot be found, it will be automatically generated. */ LDDocument* PrimitiveManager::getPrimitive(const PrimitiveModel& model) { QString name = model.makeFileName(); LDDocument* document = m_window->documents()->getDocumentByName (name); if (not document) { document = generatePrimitive(model); m_window->openDocumentForEditing(document); } return document; } /* * PrimitiveManager :: populateTreeWidget * * Fills in a tree widget with all known primitives. */ void PrimitiveManager::populateTreeWidget(QTreeWidget* tree, const QString& selectByDefault) { tree->clear(); for (PrimitiveCategory* category : m_categories) { PrimitiveTreeItem* parentItem = new PrimitiveTreeItem {tree, nullptr}; parentItem->setText(0, category->name()); //QList<QTreeWidgetItem*> subfileItems; for (Primitive& primitive : category->primitives) { PrimitiveTreeItem* item = new PrimitiveTreeItem {parentItem, &primitive}; item->setText(0, format("%1 - %2", primitive.name, primitive.title)); //subfileItems.append(item); // If this primitive is the one the current object points to, // select it by default if (selectByDefault == primitive.name) tree->setCurrentItem(item); } tree->addTopLevelItem(parentItem); } } // // --------------------------------------------------------------------------------------------------------------------- // PrimitiveCategory::PrimitiveCategory (QString name, QObject* parent) : QObject (parent), m_name (name) {} bool PrimitiveCategory::isValidToInclude() { return not patterns.isEmpty(); } QString PrimitiveCategory::name() const { return m_name; } /* * PrimitiveScanner :: PrimitiveScanner * * Constructs a primitive scanner. */ PrimitiveScanner::PrimitiveScanner(PrimitiveManager* parent) : QObject(parent), HierarchyElement(parent), m_manager(parent), m_iterator(LDPaths::primitivesDir(), QDirIterator::Subdirectories) { m_basePathLength = countof(LDPaths::primitivesDir().absolutePath()); print("Scanning primitives..."); } /* * PrimitiveScanner :: scannedPrimitives * * Returns a vector containing all the primitives found. */ const QVector<Primitive> &PrimitiveScanner::scannedPrimitives() const { return m_scannedPrimitives; } /* * PrimitiveScanner :: work * * Does one step of work, processes up to 100 primitives. * If the scanner does not finish work by this function call, it will ask the event loop to call this method again. */ void PrimitiveScanner::work() { for (int i = 0; m_iterator.hasNext() and i < 100; ++i) { QString filename = m_iterator.next(); QFile file = {filename}; if (file.open (QIODevice::ReadOnly)) { Primitive primitive; primitive.name = filename.mid(m_basePathLength + 1); // make full path relative primitive.name.replace('/', '\\'); // use DOS backslashes, they're expected primitive.category = nullptr; primitive.title = QString::fromUtf8(file.readLine().simplified()); if (primitive.title[0] == '0') { primitive.title.remove(0, 1); // remove 0 primitive.title = primitive.title.simplified(); } m_scannedPrimitives << primitive; } } if (not m_iterator.hasNext()) { // If there are no more primitives to iterate, we're done. Now save this information into a cache file. QString path = m_manager->getPrimitivesCfgPath(); QFile configFile = {path}; if (configFile.open(QIODevice::WriteOnly | QIODevice::Text)) { for (Primitive& primitive : m_scannedPrimitives) fprint(configFile, "%1 %2\r\n", primitive.name, primitive.title); configFile.close(); } else { QMessageBox::critical(m_window, tr("Error"), format("Couldn't write primitive list %1: %2", path, configFile.errorString())); } emit workDone(); } else { // Otherwise, defer to event loop, pick up the work later. QMetaObject::invokeMethod (this, "work", Qt::QueuedConnection); } } // // --------------------------------------------------------------------------------------------------------------------- // PrimitiveTreeItem::PrimitiveTreeItem (QTreeWidgetItem* parent, Primitive* info) : QTreeWidgetItem (parent), m_primitive (info) {} PrimitiveTreeItem::PrimitiveTreeItem (QTreeWidget* parent, Primitive* info) : QTreeWidgetItem (parent), m_primitive (info) {} Primitive* PrimitiveTreeItem::primitive() const { return m_primitive; }