private static bool smethod_7(Class448 A_0, Class887 A_1, bool A_2)
{
if (A_0.method_17(A_2 ? A_1.method_4() : A_1.method_2()))
{
smethod_8(A_0, A_1, A_2);
return(true);
}
return(false);
}
private static bool smethod_6(Class448 A_0, Class887 A_1, bool A_2, int A_3)
{
if (A_0.method_17(A_2 ? A_1.method_4() : A_1.method_2()))
{
(A_2 ? A_1.method_0().method_20(A_3) : A_1.method_1().method_20(A_3)).method_1(VertexType.Intersection);
smethod_8(A_2 ? A_1.method_18(A_3) : A_1.method_19(A_3), A_2 ? A_1.method_20(A_3) : A_1.method_21(A_3), A_2 ? A_1.method_2() : A_1.method_4(), A_2 ? A_1.method_4() : A_1.method_2());
A_1.method_9(true);
return(true);
}
return(false);
}
private static void smethod_4(Class887 A_0, Class448 A_1, int A_2, int A_3)
{
PointF[] tfArray = new PointF[1];
A_0.method_5(A_0.method_1().method_20(A_3).method_2());
Class448 class2 = smethod_7(A_0.method_1(), A_3, A_0.method_4());
if (!smethod_5(A_1, class2, A_0, A_2, A_3))
{
bool flag = Class448.smethod_5(A_1, class2, tfArray, true);
A_0.method_7(tfArray[0]);
if ((flag && !A_0.method_6().Equals(class2.method_16())) && !A_0.method_6().Equals(A_1.method_16()))
{
smethod_8(A_0.method_18(A_2), A_0.method_20(A_2), A_0.method_2(), tfArray[0]);
smethod_8(A_0.method_19(A_3), A_0.method_21(A_3), A_0.method_4(), tfArray[0]);
A_0.method_9(true);
}
}
}
private static bool smethod_3(Class722 A_0, Class722 A_1)
{
if ((A_0.method_19() < 3) || (A_1.method_19() < 3))
{
return(false);
}
Class887 class2 = new Class887(A_0, A_1);
for (int i = 0; i < A_0.method_19(); i++)
{
class2.method_3(A_0.method_20(i).method_2());
Class448 class3 = smethod_7(A_0, i, class2.method_2());
for (int j = 0; j < A_1.method_19(); j++)
{
smethod_4(class2, class3, i, j);
}
}
if (class2.method_8())
{
smethod_9(class2, true);
smethod_9(class2, false);
}
return(class2.method_8());
}
private static void smethod_8(Class448 A_0, Class887 A_1, bool A_2)
{
A_1.method_9(true);
Class886 class2 = A_2 ? A_1.method_1().method_20(A_1.method_14()) : A_1.method_0().method_20(A_1.method_10());
class2.method_1(VertexType.Intersection);
if (!smethod_9(A_0, A_1, A_2, true, class2) && !smethod_9(A_0, A_1, A_2, false, class2))
{
smethod_11(A_2 ? A_1.method_18(A_1.method_10()) : A_1.method_19(A_1.method_14()), A_2 ? A_1.method_20(A_1.method_10()) : A_1.method_21(A_1.method_14()), A_2 ? A_1.method_2() : A_1.method_4(), A_2 ? A_1.method_4() : A_1.method_2());
}
}
private static void smethod_5(Class887 A_0, Class448 A_1)
{
A_0.method_5(A_0.method_1().method_20(A_0.method_14()).method_2());
A_0.method_17(A_0.method_1().method_10(A_0.method_14() + 1));
Class448 class2 = smethod_10(A_0.method_1(), A_0.method_14());
if (!smethod_6(A_1, class2, A_0))
{
PointF[] tfArray = new PointF[1];
bool flag = Class448.smethod_5(A_1, class2, tfArray, true);
A_0.method_7(tfArray[0]);
if ((flag && !spr.ᜀ(A_0.method_6(), class2.method_16())) && !spr.ᜀ(A_0.method_6(), A_1.method_16()))
{
smethod_11(A_0.method_18(A_0.method_10()), A_0.method_20(A_0.method_10()), A_0.method_2(), tfArray[0]);
smethod_11(A_0.method_19(A_0.method_14()), A_0.method_21(A_0.method_14()), A_0.method_4(), tfArray[0]);
A_0.method_9(true);
}
}
}