Sun, 31 Aug 2014 20:54:56 +0300
- display a label next to the spinbox showing the fraction
/* * LDForge: LDraw parts authoring CAD * Copyright (C) 2013, 2014 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 <limits> #include <QSpinBox> #include <QCheckBox> #include <QBoxLayout> #include <QClipboard> #include <QInputDialog> #include "mainWindow.h" #include "main.h" #include "ldDocument.h" #include "colorSelector.h" #include "miscallenous.h" #include "radioGroup.h" #include "glRenderer.h" #include "dialogs.h" #include "colors.h" #include "ldObjectMath.h" #include "ui_replcoords.h" #include "ui_editraw.h" #include "ui_flip.h" #include "ui_addhistoryline.h" EXTERN_CFGENTRY (String, DefaultUser) CFGENTRY (Int, RoundPosition, 3) CFGENTRY (Int, RoundMatrix, 4) CFGENTRY (Int, SplitLinesSegments, 5) // ============================================================================= // static int CopyToClipboard() { LDObjectList objs = Selection(); int num = 0; // Clear the clipboard first. qApp->clipboard()->clear(); // Now, copy the contents into the clipboard. QString data; for (LDObjectPtr obj : objs) { if (not data.isEmpty()) data += "\n"; data += obj->asText(); ++num; } qApp->clipboard()->setText (data); return num; } // ============================================================================= // void MainWindow::slot_actionCut() { int num = CopyToClipboard(); deleteSelection(); print (tr ("%1 objects cut"), num); } // ============================================================================= // void MainWindow::slot_actionCopy() { int num = CopyToClipboard(); print (tr ("%1 objects copied"), num); } // ============================================================================= // void MainWindow::slot_actionPaste() { const QString clipboardText = qApp->clipboard()->text(); int idx = getInsertionPoint(); CurrentDocument()->clearSelection(); int num = 0; for (QString line : clipboardText.split ("\n")) { LDObjectPtr pasted = ParseLine (line); CurrentDocument()->insertObj (idx++, pasted); pasted->select(); ++num; } print (tr ("%1 objects pasted"), num); refresh(); scrollToSelection(); } // ============================================================================= // void MainWindow::slot_actionDelete() { int num = deleteSelection(); print (tr ("%1 objects deleted"), num); } // ============================================================================= // static void DoInline (bool deep) { LDObjectList sel = Selection(); LDIterate<LDSubfile> (Selection(), [&](LDSubfilePtr const& ref) { // Get the index of the subfile so we know where to insert the // inlined contents. long idx = ref->lineNumber(); assert (idx != -1); LDObjectList objs = ref->inlineContents (deep, false); // Merge in the inlined objects for (LDObjectPtr inlineobj : objs) { QString line = inlineobj->asText(); inlineobj->destroy(); LDObjectPtr newobj = ParseLine (line); CurrentDocument()->insertObj (idx++, newobj); newobj->select(); } // Delete the subfile now as it's been inlined. ref->destroy(); }); g_win->refresh(); } void MainWindow::slot_actionInline() { DoInline (false); } void MainWindow::slot_actionInlineDeep() { DoInline (true); } // ============================================================================= // void MainWindow::slot_actionSplitQuads() { int num = 0; LDIterate<LDQuad> (Selection(), [&](LDQuadPtr const& quad) { // Find the index of this quad long index = quad->lineNumber(); if (index == -1) return; QList<LDTrianglePtr> triangles = quad->splitToTriangles(); // Replace the quad with the first triangle and add the second triangle // after the first one. CurrentDocument()->setObject (index, triangles[0]); CurrentDocument()->insertObj (index + 1, triangles[1]); num++; }); print ("%1 quadrilaterals split", num); refresh(); } // ============================================================================= // void MainWindow::slot_actionEditRaw() { if (Selection().size() != 1) return; LDObjectPtr obj = Selection()[0]; QDialog* dlg = new QDialog; Ui::EditRawUI ui; ui.setupUi (dlg); ui.code->setText (obj->asText()); if (obj->type() == OBJ_Error) ui.errorDescription->setText (obj.staticCast<LDError>()->reason()); else { ui.errorDescription->hide(); ui.errorIcon->hide(); } if (dlg->exec() == QDialog::Rejected) return; // Reinterpret it from the text of the input field LDObjectPtr newobj = ParseLine (ui.code->text()); obj->replace (newobj); refresh(); } // ============================================================================= // void MainWindow::slot_actionSetColor() { if (Selection().isEmpty()) return; LDObjectList objs = Selection(); // If all selected objects have the same color, said color is our default // value to the color selection dialog. LDColor color; LDColor defaultcol = getSelectedColor(); // Show the dialog to the user now and ask for a color. if (ColorSelector::selectColor (color, defaultcol, g_win)) { for (LDObjectPtr obj : objs) { if (obj->isColored()) obj->setColor (color); } refresh(); } } // ============================================================================= // void MainWindow::slot_actionBorders() { LDObjectList objs = Selection(); int num = 0; for (LDObjectPtr obj : objs) { const LDObjectType type = obj->type(); if (type != OBJ_Quad and type != OBJ_Triangle) continue; LDLinePtr lines[4]; if (type == OBJ_Quad) { LDQuadPtr quad = obj.staticCast<LDQuad>(); lines[0] = LDSpawn<LDLine> (quad->vertex (0), quad->vertex (1)); lines[1] = LDSpawn<LDLine> (quad->vertex (1), quad->vertex (2)); lines[2] = LDSpawn<LDLine> (quad->vertex (2), quad->vertex (3)); lines[3] = LDSpawn<LDLine> (quad->vertex (3), quad->vertex (0)); } else { LDTrianglePtr tri = obj.staticCast<LDTriangle>(); lines[0] = LDSpawn<LDLine> (tri->vertex (0), tri->vertex (1)); lines[1] = LDSpawn<LDLine> (tri->vertex (1), tri->vertex (2)); lines[2] = LDSpawn<LDLine> (tri->vertex (2), tri->vertex (0)); } for (int i = 0; i < countof (lines); ++i) { if (lines[i] == null) continue; long idx = obj->lineNumber() + i + 1; CurrentDocument()->insertObj (idx, lines[i]); } num += countof (lines); } print (tr ("Added %1 border lines"), num); refresh(); } // ============================================================================= // void MainWindow::slot_actionCornerVerts() { int num = 0; for (LDObjectPtr obj : Selection()) { if (obj->numVertices() < 2) continue; int ln = obj->lineNumber(); for (int i = 0; i < obj->numVertices(); ++i) { QSharedPointer<LDVertex> vert (LDSpawn<LDVertex>()); vert->pos = obj->vertex (i); vert->setColor (obj->color()); CurrentDocument()->insertObj (++ln, vert); ++num; } } print (tr ("Added %1 vertices"), num); refresh(); } // ============================================================================= // static void MoveSelection (const bool up) { LDObjectList objs = Selection(); LDObject::moveObjects (objs, up); g_win->buildObjList(); } // ============================================================================= // void MainWindow::slot_actionMoveUp() { MoveSelection (true); } void MainWindow::slot_actionMoveDown() { MoveSelection (false); } // ============================================================================= // void MainWindow::slot_actionUndo() { CurrentDocument()->undo(); } void MainWindow::slot_actionRedo() { CurrentDocument()->redo(); } // ============================================================================= // static void MoveObjects (Vertex vect) { // Apply the grid values vect *= *CurrentGrid().coordinateSnap; for (LDObjectPtr obj : Selection()) obj->move (vect); g_win->refresh(); } // ============================================================================= // void MainWindow::slot_actionMoveXNeg() { MoveObjects ({-1, 0, 0}); } void MainWindow::slot_actionMoveYNeg() { MoveObjects ({0, -1, 0}); } void MainWindow::slot_actionMoveZNeg() { MoveObjects ({0, 0, -1}); } void MainWindow::slot_actionMoveXPos() { MoveObjects ({1, 0, 0}); } void MainWindow::slot_actionMoveYPos() { MoveObjects ({0, 1, 0}); } void MainWindow::slot_actionMoveZPos() { MoveObjects ({0, 0, 1}); } // ============================================================================= // void MainWindow::slot_actionInvert() { for (LDObjectPtr obj : Selection()) obj->invert(); refresh(); } // ============================================================================= // static double GetRotateActionAngle() { return (Pi * *CurrentGrid().angleSnap) / 180; } void MainWindow::slot_actionRotateXPos() { RotateObjects (1, 0, 0, GetRotateActionAngle(), Selection()); } void MainWindow::slot_actionRotateYPos() { RotateObjects (0, 1, 0, GetRotateActionAngle(), Selection()); } void MainWindow::slot_actionRotateZPos() { RotateObjects (0, 0, 1, GetRotateActionAngle(), Selection()); } void MainWindow::slot_actionRotateXNeg() { RotateObjects (-1, 0, 0, GetRotateActionAngle(), Selection()); } void MainWindow::slot_actionRotateYNeg() { RotateObjects (0, -1, 0, GetRotateActionAngle(), Selection()); } void MainWindow::slot_actionRotateZNeg() { RotateObjects (0, 0, -1, GetRotateActionAngle(), Selection()); } void MainWindow::slot_actionRotationPoint() { ConfigureRotationPoint(); } // ============================================================================= // void MainWindow::slot_actionRoundCoordinates() { setlocale (LC_ALL, "C"); int num = 0; for (LDObjectPtr obj : Selection()) { LDMatrixObjectPtr mo = obj.dynamicCast<LDMatrixObject>(); if (mo != null) { Vertex v = mo->position(); Matrix t = mo->transform(); // Note: matrix values are to be rounded to 4 decimals. v.apply ([](Axis, double& a) { RoundToDecimals (a, cfg::RoundPosition); }); ApplyToMatrix (t, [](int, double& a) { RoundToDecimals (a, cfg::RoundMatrix); }); mo->setPosition (v); mo->setTransform (t); num += 12; } else { for (int i = 0; i < obj->numVertices(); ++i) { Vertex v = obj->vertex (i); v.apply ([](Axis, double& a) { RoundToDecimals (a, cfg::RoundPosition); }); obj->setVertex (i, v); num += 3; } } } print (tr ("Rounded %1 values"), num); refreshObjectList(); refresh(); } // ============================================================================= // void MainWindow::slot_actionUncolor() { int num = 0; for (LDObjectPtr obj : Selection()) { if (not obj->isColored()) continue; obj->setColor (obj->defaultColor()); num++; } print (tr ("%1 objects uncolored"), num); refresh(); } // ============================================================================= // void MainWindow::slot_actionReplaceCoords() { QDialog* dlg = new QDialog (g_win); Ui::ReplaceCoordsUI ui; ui.setupUi (dlg); if (not dlg->exec()) return; const double search = ui.search->value(), replacement = ui.replacement->value(); const bool any = ui.any->isChecked(), rel = ui.relative->isChecked(); QList<Axis> sel; int num = 0; if (ui.x->isChecked()) sel << X; if (ui.y->isChecked()) sel << Y; if (ui.z->isChecked()) sel << Z; for (LDObjectPtr obj : Selection()) { for (int i = 0; i < obj->numVertices(); ++i) { Vertex v = obj->vertex (i); v.apply ([&](Axis ax, double& coord) { if (not sel.contains (ax) or (not any and coord != search)) { return; } if (not rel) coord = 0; coord += replacement; num++; }); obj->setVertex (i, v); } } print (tr ("Altered %1 values"), num); refresh(); } // ============================================================================= // void MainWindow::slot_actionFlip() { QDialog* dlg = new QDialog; Ui::FlipUI ui; ui.setupUi (dlg); if (not dlg->exec()) return; QList<Axis> sel; if (ui.x->isChecked()) sel << X; if (ui.y->isChecked()) sel << Y; if (ui.z->isChecked()) sel << Z; for (LDObjectPtr obj : Selection()) { for (int i = 0; i < obj->numVertices(); ++i) { Vertex v = obj->vertex (i); v.apply ([&](Axis ax, double& a) { if (sel.contains (ax)) a = -a; }); obj->setVertex (i, v); } } refresh(); } // ============================================================================= // void MainWindow::slot_actionDemote() { int num = 0; LDIterate<LDCondLine> (Selection(), [&](LDCondLinePtr const& cnd) { cnd->toEdgeLine(); ++num; }); print (tr ("Demoted %1 conditional lines"), num); refresh(); } // ============================================================================= // static bool IsColorUsed (LDColor color) { for (LDObjectPtr obj : CurrentDocument()->objects()) { if (obj->isColored() and obj->color() == color) return true; } return false; } // ============================================================================= // void MainWindow::slot_actionAutocolor() { int colnum = 0; LDColor color; for (colnum = 0; colnum < CountLDConfigColors() and ((color = LDColor::fromIndex (colnum)) == null or IsColorUsed (color)); colnum++) {} if (colnum >= CountLDConfigColors()) { print (tr ("Cannot auto-color: all colors are in use!")); return; } for (LDObjectPtr obj : Selection()) { if (not obj->isColored()) continue; obj->setColor (color); } print (tr ("Auto-colored: new color is [%1] %2"), colnum, color.name()); refresh(); } // ============================================================================= // void MainWindow::slot_actionAddHistoryLine() { LDObjectPtr obj; bool ishistory = false, prevIsHistory = false; QDialog* dlg = new QDialog; Ui_AddHistoryLine* ui = new Ui_AddHistoryLine; ui->setupUi (dlg); ui->m_username->setText (cfg::DefaultUser); ui->m_date->setDate (QDate::currentDate()); ui->m_comment->setFocus(); if (not dlg->exec()) return; // Create the comment object based on input QString commentText = format ("!HISTORY %1 [%2] %3", ui->m_date->date().toString ("yyyy-MM-dd"), ui->m_username->text(), ui->m_comment->text()); LDCommentPtr comm (LDSpawn<LDComment> (commentText)); // Find a spot to place the new comment for (obj = CurrentDocument()->getObject (0); obj != null and obj->next() != null and not obj->next()->isScemantic(); obj = obj->next()) { LDCommentPtr comm = obj.dynamicCast<LDComment>(); if (comm != null and comm->text().startsWith ("!HISTORY ")) ishistory = true; if (prevIsHistory and not ishistory) { // Last line was history, this isn't, thus insert the new history // line here. break; } prevIsHistory = ishistory; } int idx = obj ? obj->lineNumber() : 0; CurrentDocument()->insertObj (idx++, comm); // If we're adding a history line right before a scemantic object, pad it // an empty line if (obj and obj->next() and obj->next()->isScemantic()) CurrentDocument()->insertObj (idx, LDEmptyPtr (LDSpawn<LDEmpty>())); buildObjList(); delete ui; } void MainWindow::slot_actionSplitLines() { bool ok; int segments = QInputDialog::getInt (g_win, APPNAME, "Amount of segments:", cfg::SplitLinesSegments, 0, std::numeric_limits<int>::max(), 1, &ok); if (not ok) return; cfg::SplitLinesSegments = segments; for (LDObjectPtr obj : Selection()) { if (not Eq (obj->type(), OBJ_Line, OBJ_CondLine)) continue; QVector<LDObjectPtr> newsegs; for (int i = 0; i < segments; ++i) { LDObjectPtr segment; Vertex v0, v1; v0.apply ([&](Axis ax, double& a) { double len = obj->vertex (1)[ax] - obj->vertex (0)[ax]; a = (obj->vertex (0)[ax] + ((len * i) / segments)); }); v1.apply ([&](Axis ax, double& a) { double len = obj->vertex (1)[ax] - obj->vertex (0)[ax]; a = (obj->vertex (0)[ax] + ((len * (i + 1)) / segments)); }); if (obj->type() == OBJ_Line) segment = LDSpawn<LDLine> (v0, v1); else segment = LDSpawn<LDCondLine> (v0, v1, obj->vertex (2), obj->vertex (3)); newsegs << segment; } int ln = obj->lineNumber(); for (LDObjectPtr seg : newsegs) CurrentDocument()->insertObj (ln++, seg); obj->destroy(); } buildObjList(); g_win->refresh(); }