private static void n()
{
e2 e = (e2)e2.A.Tag;
h2 h = e.L();
e.l(e.L());
if (e.L().A())
{
S.A().A(h, e, false);
r.A().A(h, e.L());
s.A().A(h, e.L());
T.A().A(h, e);
return;
}
if (e.L().a() && (e.L().A() is global::b.b || e.L().A() is global::b.a))
{
S.A().d();
r.A().A(h, e.L());
s.A().A(h, e.L());
T.A().d();
return;
}
S.A().A(h, e, false);
r.A().d();
s.A().d();
T.A().d();
}
public j(e2 e, MouseEventArgs mouseEventArgs, KeyEventArgs keyEventArgs, bool flag, bool flag2) : base(e, keyEventArgs)
{
this.A = e.L().A();
this.A = this.A.A();
this.A = flag;
this.a = flag2;
if (e.A().J())
{
throw new l1();
}
if (this.A == null)
{
throw new l1();
}
if (this.A.A() == null)
{
throw new l1();
}
if (mouseEventArgs == null)
{
throw new l1();
}
this.A = e.L(this.A.A());
Bitmap bitmap = e2.L(e, this.A);
this.A = new I(bitmap, 0.5f);
this.c(mouseEventArgs);
this.B();
}
public void A(h2 h, e2 e)
{
this.A = h;
this.A = e;
this.D();
bool flag = e != null;
this.A.A(flag && e.K());
this.A.a(flag);
this.B.a(flag && !e.l() && !e.L().J());
this.a.a(flag && e.l() && !e.L().J());
this.b.a(flag && !z1.A());
this.C.a(flag && z1.A());
}
public void a(e2 e, D.A a)
{
byte[] array = this.A(e.A());
d1 d = new g1(this.A, e, array, "Verbindung bearbeiten");
bool flag = false;
try
{
flag = e.L().A(e, a);
}
catch (Exception ex)
{
d.a();
e.C();
n1.A(ex);
}
if (flag)
{
bool flag2 = this.A.A(d);
if (flag2)
{
e.d(a);
}
}
}
public bool A(e2 e, H2 h, Q1 q, string text)
{
Q1 q2 = e.L();
q2.A(h);
H2 h2 = h.A();
E1 e2 = this.A.A(this.A, text);
try
{
if (!this.A(e, h, q.b(), text))
{
throw new InvalidOperationException();
}
int num = -1;
if (!this.A(q, ref num, h2))
{
throw new InvalidOperationException();
}
this.A.A(e2);
}
catch (Exception ex)
{
this.A.a(e2);
e.C();
n1.A(ex);
}
return(true);
}
private static void L(object obj, CancelEventArgs cancelEventArgs)
{
e2 e = e2.A.Tag as e2;
if (e != null)
{
global::c.a a = e.L().A();
H2 h = e.L().A();
e.l();
if (h != null)
{
e.L().A(h);
return;
}
e.L().A(a);
}
}
private new void A(e2 e, Point point)
{
if (this.A)
{
e.L().A();
}
e2.L(e, point);
}
private void A(object obj, EventArgs eventArgs)
{
e2 e = this.A as e2;
if (e != null)
{
u.A(this, e.RectangleToScreen(e.L(this.A.E())));
}
}
public bool a(e2 e, H2 h, F f, string text)
{
try
{
if (h == null)
{
throw new l1();
}
if (h.a() == 0)
{
throw new l1();
}
if (h.A() == null)
{
throw new l1();
}
}
catch (Exception ex)
{
n1.A(ex);
return(false);
}
byte[] array = this.A(e.A());
g1 g = new g1(this.A, e, array, text);
bool flag = false;
try
{
e.L().A(e.L(), f);
flag = true;
}
catch (Exception ex2)
{
g.a();
e.C();
n1.A(ex2);
}
if (flag)
{
flag = this.A(e, g);
}
return(flag);
}
private void a(s1 s)
{
this.A.A(s);
e2 e = s as e2;
if (e != null)
{
e.L(this.A().E());
}
}
public void A(h2 h, e2 e)
{
this.A = h;
this.A = e;
if (e.L().J())
{
this.d();
return;
}
this.D();
}
public virtual void C(MouseEventArgs mouseEventArgs)
{
if (this.A != null && this.A.Control)
{
int num = 120;
int num2 = 5;
e2 expr_20 = this.A;
expr_20.L(expr_20.L() + mouseEventArgs.Delta * num2 / num);
this.A.C();
return;
}
if (this.A != null && this.A.Shift)
{
this.A.AutoScrollPosition = new Point(-mouseEventArgs.Delta / 2 - this.A.AutoScrollPosition.X, -this.A.AutoScrollPosition.Y);
this.A.C();
return;
}
this.A.AutoScrollPosition = new Point(-this.A.AutoScrollPosition.X, -mouseEventArgs.Delta / 2 - this.A.AutoScrollPosition.Y);
this.A.C();
}
private bool A(e2 e)
{
if (e.L().A().A())
{
string text = "Die Größe des Diagrammrasters ist auf {0}x{1} beschränkt.\n";
text += "Stellen Sie umfangreiche Abläufe besser\n";
text += "durch mehrere kleine Teildiagramme da.";
text = string.Format(text, k1.a.Width, k1.a.Height);
v.A(e, text);
return(true);
}
return(false);
}
public void A(e2 e, D.A a)
{
D.A a2 = a;
if (K1.A().A().SmartConnectionDClick)
{
a2 = Q1.A(a);
if (a2 != null && a2 != a)
{
e.L().A(a2);
}
}
this.a(e, a2);
}
public void A(h2 h, e2 e, d.a a)
{
this.A = h;
this.A = e;
this.A = a;
if (e.L().J())
{
this.d();
return;
}
this.D();
this.A.A(h);
foreach (Type current in this.A.Keys)
{
x x = this.A[current];
x.A(a.GetType() != (Type)x.A());
}
}
public void A(e2 e, d.a a, G2 g)
{
byte[] array = this.A(e.A());
g1 g2 = new g1(this.A, e, array, "Verbindung einfügen");
bool flag = false;
try
{
flag = e.L().A(a, g, false);
}
catch (Exception ex)
{
g2.a();
e.C();
n1.A(ex);
}
if (flag)
{
flag = this.A.A(g2);
}
}
public static Bitmap L(e2 e, Rectangle rectangle)
{
if (rectangle.Width <= 0 || rectangle.Height <= 0)
{
return(null);
}
Bitmap bitmap = new Bitmap(rectangle.Width, rectangle.Height);
Matrix matrix = new Matrix();
float num = e.J();
matrix.Translate((float)(e.AutoScrollPosition.X - rectangle.X), (float)(e.AutoScrollPosition.Y - rectangle.Y));
matrix.Scale(num, num);
Graphics graphics = Graphics.FromImage(bitmap);
graphics.Transform = matrix;
B1 b = e.A().G(e, graphics, a1.Clip, true);
b.A().SetClip(e.l(rectangle));
e.L(b);
return(bitmap);
}
public void A(e2 e, d.a a)
{
d1 d = null;
bool flag = a is global::b.b || a is global::b.a;
if (flag)
{
d = new f1(this.A, e.A(), "Diagrammname");
}
else
{
d = new I1(this.A, e, e.A(), a, "Symbol bearbeiten");
}
bool flag2 = false;
bool flag3 = false;
try
{
flag3 = e.L(a, out flag2);
}
catch (Exception ex)
{
d.a();
e.C();
n1.A(ex);
}
if (flag3)
{
bool flag4 = this.A.A(d);
if (flag4)
{
e.d(a);
}
if (flag2 && a is d.B)
{
e.l();
this.A(a.c());
}
}
}
public bool A(e2 e, H2 h, string text, string text2)
{
byte[] array = this.A(e.A());
g1 g = new g1(this.A, e, array, text2);
bool flag = false;
try
{
e.L().A(h, text);
flag = true;
}
catch (Exception ex)
{
g.a();
n1.A(ex);
}
if (flag)
{
flag = this.A.A(g);
}
e.C();
return(flag);
}
public void A(h2 h, e2 e, bool flag)
{
this.A = h;
if (h == null || h.F())
{
this.d();
return;
}
this.A = e;
if (e == null)
{
throw new l1();
}
m m = m.A();
int num = 0;
if (m.A(typeof(H2)) && !H2.A(m, out num))
{
throw new l1();
}
this.D();
R1 r = q1.A().A(h);
i1 i = r.A();
k k = e.L();
this.A.A(i.A() && (k.A() || flag));
this.a.A(i.a() && (k.A() || flag));
this.c.A(k.a() && (k.C() || e.L(k.A())));
this.D.A(k.A() == null);
this.d.A(k.A() != null && this.c.A() && Q1.A(k.A().GetType()));
this.E.A(k.E() && k.e());
this.e.A(k.E());
this.F.A(m.A().A(typeof(H2)));
this.f.A(k.e());
this.C.A(k.f());
bool flag2 = false;
if (k.a() && k.b())
{
this.E(new object[]
{
"Symbol"
});
}
else
{
if (k.a() && k.C())
{
flag2 = true;
this.E(new object[]
{
"Verbindung"
});
this.c.A(new object[]
{
"Verbindungtext"
});
this.E.A(false);
this.e.A(false);
}
else
{
this.E(new object[]
{
"Auswahl"
});
}
}
if (num == 1)
{
this.F.A(new object[]
{
"Symbol"
});
}
else
{
if (num > 1)
{
this.F.A(new object[]
{
"Auswahl"
});
}
}
this.A.A(new object[]
{
i.A() ? (": " + i.A()) : ""
});
this.a.A(new object[]
{
i.a() ? (": " + i.a()) : ""
});
this.B.A(false);
this.b.A(false);
bool flag3 = false;
if (k.a() && k.A() is d.B)
{
d.a a = k.A();
this.B.A(new object[]
{
a.c()
});
this.b.A(new object[]
{
a.c()
});
p1 p = e.L(a, false);
if (p != null)
{
if (p != e.A())
{
this.b.A(true);
this.b.A(a);
flag3 = true;
}
}
else
{
this.B.A(true);
this.B.A(a.c());
}
}
if (this.d.A())
{
U.A().A(h, e, k.A());
}
this.b();
if (!flag3)
{
this.b.a(false);
}
if (flag)
{
this.A.a(true);
this.a.a(true);
}
if (this.D.A() && this.D.a())
{
t.A().A(h, e);
}
else
{
t.A().d();
}
if (this.E.A() || this.e.A() || this.F.A() || this.f.A())
{
this.E.a(!flag2);
this.e.a(!flag2);
this.F.a(true);
this.f.a(true);
}
}
public bool A(e2 e, Type type, F f)
{
byte[] array = this.A(e.A());
string text = (f.a() != null) ? "Symbol umwandeln" : "Symbol einfügen";
g1 g = new g1(this.A, e, array, text);
bool flag = false;
bool flag2 = false;
d.a a = null;
try
{
d.a a2 = f.a();
a = e.L().A(type, f);
string text2 = (a is d.A) ? "" : a.c();
if (a2 != null && a2.d())
{
text2 = Regex.Replace("" + a2.c(), "(\\s){1,}", " ").Trim();
if (a is D.b || a is global::C.c)
{
Type type2 = (a is D.b) ? typeof(global::C.c) : typeof(D.b);
string text3 = e.L().A(type2).Split(new char[]
{
' '
})[0];
string newValue = e.L().A(a.GetType()).Split(new char[]
{
' '
})[0];
if (text2.StartsWith(text3))
{
text2 = text2.Replace(text3, newValue);
}
}
if (a is d.B && text2.Length > 64)
{
text2 = text2.Substring(0, 64);
}
}
if (a.d())
{
e.L().A(a);
if (!(a is d.A))
{
a.D(text2);
}
if (!e.L(a, text2, out flag, false))
{
throw new L1();
}
}
flag2 = true;
}
catch (Exception ex)
{
g.a();
if (!(ex is L1))
{
n1.A(ex);
}
}
if (flag2)
{
flag2 = this.A(e, g);
}
if (flag2 && flag && a is d.B)
{
e.l();
this.A(a.c());
}
e.C();
return(flag2);
}