Example #1
0
        private DiagramDocumentCore PasteAndSelect(Stream buf, VectorT offset)
        {
            var doc = DeserializeAndEliminateDuplicateStyles(buf);

            foreach (var shape in doc.Shapes)
            {
                shape.MoveBy(offset);
            }
            _doc.MergeShapes(doc);

            _selectedShapes.Clear();
            _selectedShapes.AddRange(doc.Shapes);
            return(doc);
        }
Example #2
0
        private void ShowEraseDuringDrag(DragState state, MSet <LLShape> adorners, IEnumerable <Shape> eraseSet, List <PointT> simplified, bool cancel)
        {
            DiagramControl.EraseLineStyle.LineColor = Color.FromArgb(128, Control.BackColor);
            var eraseLine = new LLPolyline(DiagramControl.EraseLineStyle, simplified);

            adorners.Add(eraseLine);

            if (cancel)
            {
                eraseLine.Style = Control.LineStyle;
                Control.BeginRemoveAnimation(adorners);
                adorners.Clear();
                state.IsComplete = true;
            }
            else
            {
                // Show which shapes are erased by drawing them in the background color
                foreach (Shape s in eraseSet)
                {
                    Shape s_ = s.Clone();
                    s_.Style           = (DiagramDrawStyle)s.Style.Clone();
                    s_.Style.FillColor = s_.Style.LineColor = s_.Style.TextColor = Color.FromArgb(192, Control.BackColor);
                    // avoid an outline artifact, in which color from the edges of the
                    // original shape bleeds through by a variable amount that depends
                    // on subpixel offsets.
                    s_.Style.LineWidth++;
                    s_.AddLLShapesTo(adorners);
                }
            }
        }
Example #3
0
			protected LNode GeneratePredictionTreeCode(PredictionTree tree, Pair<LNode, string>[] matchingCode, ref Symbol haveLoop)
			{
				var braces = F.Braces();

				Debug.Assert(tree.Children.Count >= 1);
				var alts = (Alts)_currentPred;

				if (tree.Children.Count == 1)
					return GetPredictionSubtreeCode(tree.Children[0], matchingCode, ref haveLoop);

				// From the prediction table, we can generate either an if-else chain:
				//
				//   if (la0 >= '0' && la0 <= '7') sub_tree_1();
				//   else if (la0 == '-') sub_tree_2();
				//   else break;
				//
				// or a switch statement:
				//
				//   switch(la0) {
				//   case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7':
				//     sub_tree_1();
				//     break;
				//   case '-':
				//     sub_tree_2();
				//     break;
				//   default:
				//     goto breakfor;
				//   }
				//
				// Assertion levels always need an if-else chain; lookahead levels 
				// consider the complexity of switch vs if and decide which is most
				// appropriate. Generally "if" is slower, but a switch may require
				// too many labels since it doesn't support ranges like "la0 >= 'a'
				// && la0 <= 'z'".
				//
				// This class makes if-else chains directly (using IPGTerminalSet.
				// GenerateTest() to generate the test expressions), but the code 
				// snippet generator (CSG) is used to generate switch statements 
				// because the required code may be more complex.
				//
				// We may or may not be generating code inside a for(;;) loop. If we 
				// decide to generate a switch() statement, one of the branches will 
				// usually need to break out of the for loop, but "break" can only
				// break out of the switch(). In that case, add "stop:" after the
				// switch() and use "goto stop" instead of "break".

				WList<LNode> block = new WList<LNode>();
				LNode laVar = null;
				MSet<int> switchCases = new MSet<int>();
				IPGTerminalSet[] branchSets = null;
				bool should = false;

				if (tree.UsesLA()) {
					laVar = F.Id("la" + tree.Lookahead.ToString());

					if (!tree.IsAssertionLevel) {
						IPGTerminalSet covered = CGH.EmptySet;
						branchSets = tree.Children.Select(branch => {
							var set = branch.Set.Subtract(covered);
							covered = covered.Union(branch.Set);
							return set;
						}).ToArray();

						should = CGH.ShouldGenerateSwitch(branchSets, switchCases, tree.Children.Last.IsErrorBranch);
						if (!should)
							switchCases.Clear();
						else if (should && haveLoop == S.For)
							// Can't "break" out of the for-loop when there is a nested switch,
							haveLoop = GSymbol.Get(NextStopLabel()); // so use "goto stop".
					}
				}

				LNode[] branchCode = new LNode[tree.Children.Count];
				for (int i = 0; i < tree.Children.Count; i++)
					if (tree.Children[i].IsErrorBranch) {
						if (alts.ErrorBranch != null && alts.ErrorBranch != DefaultErrorBranch.Value) {
							Debug.Assert(matchingCode.Length == alts.Arms.Count + 1);
							branchCode[i] = matchingCode[alts.Arms.Count].A;
						} else
							branchCode[i] = CGH.ErrorBranch(tree.TotalCoverage, tree.Lookahead);
					} else
						branchCode[i] = GetPredictionSubtreeCode(tree.Children[i], matchingCode, ref haveLoop);

				var code = GenerateIfElseChain(tree, branchCode, ref laVar, switchCases);
				if (laVar != null) {
					block.Insert(0, F.Assign(laVar, CGH.LA(tree.Lookahead)));
					_laVarsNeeded |= 1ul << tree.Lookahead;
				} else if (should)
					laVar = CGH.LA(tree.Lookahead);

				if (should) {
					Debug.Assert(switchCases.Count != 0);
					code = CGH.GenerateSwitch(branchSets, switchCases, branchCode, code, laVar);
				}

				block.Add(code);
				return F.Braces(block.ToVList());
			}
Example #4
0
            protected LNode GeneratePredictionTreeCode(PredictionTree tree, Pair <LNode, string>[] matchingCode, ref Symbol haveLoop)
            {
                var braces = F.Braces();

                Debug.Assert(tree.Children.Count >= 1);
                var alts = (Alts)_currentPred;

                if (tree.Children.Count == 1)
                {
                    return(GetPredictionSubtreeCode(tree.Children[0], matchingCode, ref haveLoop));
                }

                // From the prediction table, we can generate either an if-else chain:
                //
                //   if (la0 >= '0' && la0 <= '7') sub_tree_1();
                //   else if (la0 == '-') sub_tree_2();
                //   else break;
                //
                // or a switch statement:
                //
                //   switch(la0) {
                //   case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7':
                //     sub_tree_1();
                //     break;
                //   case '-':
                //     sub_tree_2();
                //     break;
                //   default:
                //     goto breakfor;
                //   }
                //
                // Assertion levels always need an if-else chain; lookahead levels
                // consider the complexity of switch vs if and decide which is most
                // appropriate. Generally "if" is slower, but a switch may require
                // too many labels since it doesn't support ranges like "la0 >= 'a'
                // && la0 <= 'z'".
                //
                // This class makes if-else chains directly (using IPGTerminalSet.
                // GenerateTest() to generate the test expressions), but the code
                // generation helper (CGH) is used to generate switch statements
                // because the required code may be more complex.
                //
                // We may or may not be generating code inside a for(;;) loop. If we
                // decide to generate a switch() statement, one of the branches will
                // usually need to break out of the for loop, but "break" can only
                // break out of the switch(). In that case, add "stop:" after the
                // switch() and use "goto stop" instead of "break".

                WList <LNode> block       = new WList <LNode>();
                LNode         laVar       = null;
                MSet <int>    switchCases = new MSet <int>();

                IPGTerminalSet[] branchSets = null;
                bool             should     = false;

                if (tree.UsesLA())
                {
                    laVar = F.Id("la" + tree.Lookahead.ToString());

                    if (!tree.IsAssertionLevel)
                    {
                        IPGTerminalSet covered = CGH.EmptySet;
                        branchSets = tree.Children.Select(branch => {
                            var set = branch.Set.Subtract(covered);
                            covered = covered.Union(branch.Set);
                            return(set);
                        }).ToArray();

                        should = CGH.ShouldGenerateSwitch(branchSets, switchCases, tree.Children.Last.IsErrorBranch);
                        if (!should)
                        {
                            switchCases.Clear();
                        }
                        else if (should && haveLoop == S.For)
                        {
                            // Can't "break" out of the for-loop when there is a nested switch,
                            haveLoop = GSymbol.Get(NextStopLabel());                             // so use "goto stop".
                        }
                    }
                }

                LNode[] branchCode = new LNode[tree.Children.Count];
                for (int i = 0; i < tree.Children.Count; i++)
                {
                    if (tree.Children[i].IsErrorBranch)
                    {
                        if (_recognizerMode)
                        {
                            branchCode[i] = F.Call(S.Return, F.False);
                        }
                        else if (alts.ErrorBranch != null && alts.ErrorBranch != DefaultErrorBranch.Value)
                        {
                            Debug.Assert(matchingCode.Length == alts.Arms.Count + 1);
                            branchCode[i] = matchingCode[alts.Arms.Count].A;
                        }
                        else
                        {
                            branchCode[i] = CGH.ErrorBranch(tree.TotalCoverage, tree.Lookahead);
                        }
                    }
                    else
                    {
                        branchCode[i] = GetPredictionSubtreeCode(tree.Children[i], matchingCode, ref haveLoop);
                    }
                }

                var code = GenerateIfElseChain(tree, branchCode, ref laVar, switchCases);

                if (laVar != null)
                {
                    block.Insert(0, F.Assign(laVar, CGH.LA(tree.Lookahead)));
                    _laVarsNeeded |= 1ul << tree.Lookahead;
                }
                else if (should)
                {
                    laVar = CGH.LA(tree.Lookahead);
                }

                if (should)
                {
                    Debug.Assert(switchCases.Count != 0);
                    code = CGH.GenerateSwitch(branchSets, branchCode, switchCases, code ?? F.Missing, laVar);
                }

                block.Add(code);
                return(F.Braces(block.ToVList()));
            }
		private void ShowEraseDuringDrag(DragState state, MSet<LLShape> adorners, IEnumerable<Shape> eraseSet, List<PointT> simplified, bool cancel)
		{
			DiagramControl.EraseLineStyle.LineColor = Color.FromArgb(128, Control.BackColor);
			var eraseLine = new LLPolyline(DiagramControl.EraseLineStyle, simplified);
			adorners.Add(eraseLine);

			if (cancel)
			{
				eraseLine.Style = Control.LineStyle;
				Control.BeginRemoveAnimation(adorners);
				adorners.Clear();
				state.IsComplete = true;
			}
			else
			{
				// Show which shapes are erased by drawing them in the background color
				foreach (Shape s in eraseSet)
				{
					Shape s_ = s.Clone();
					s_.Style = (DiagramDrawStyle)s.Style.Clone();
					s_.Style.FillColor = s_.Style.LineColor = s_.Style.TextColor = Color.FromArgb(192, Control.BackColor);
					// avoid an outline artifact, in which color from the edges of the 
					// original shape bleeds through by a variable amount that depends 
					// on subpixel offsets.
					s_.Style.LineWidth++;
					s_.AddLLShapesTo(adorners);
				}
			}
		}