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diff +multiblock/+domain/Annulus.m @ 1328:3a286d2d1939 feature/D2_boundary_opt

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Merge with feature/FMMlabb
author Vidar Stiernström <vidar.stiernstrom@it.uu.se>
date Mon, 14 Feb 2022 11:14:46 +0100
parents 4d472d020ccf
children 09a5783a3d37
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/+multiblock/+domain/Annulus.m	Mon Feb 14 11:14:46 2022 +0100
@@ -0,0 +1,74 @@
+classdef Annulus < multiblock.DefCurvilinear
+    properties
+        r_inner % Radii of inner disk
+        c_inner % Center of inner disk
+        r_outer % Radii of outer disk
+        c_outer % Radii of outer disk
+    end
+
+    methods
+        function obj = Annulus(r_inner, c_inner, r_outer, c_outer)
+            default_arg('r_inner', 0.3);
+            default_arg('c_inner', [0; 0]);
+            default_arg('r_outer', 1)
+            default_arg('c_outer', [0; 0]);
+            % Assert that the problem is well-defined
+            d = norm(c_outer-c_inner,2);
+            assert(r_inner > 0, 'Inner radius must be greater than zero');
+            assert(r_outer > d+r_inner, 'Inner disk not contained in outer disk');
+            
+            cir_out_A = parametrization.Curve.circle(c_outer,r_outer,[-pi/2 pi/2]);
+            cir_in_A = parametrization.Curve.circle(c_inner,r_inner,[pi/2 -pi/2]);
+            
+            cir_out_B = parametrization.Curve.circle(c_outer,r_outer,[pi/2 3*pi/2]);
+            cir_in_B = parametrization.Curve.circle(c_inner,r_inner,[3*pi/2 pi/2]);
+
+            c0_out = cir_out_A(0);
+            c1_out = cir_out_A(1);
+            
+            c0_in_A = cir_in_A(1);
+            c1_in_A = cir_in_A(0);
+            
+            c0_out_B = cir_out_B(0);
+            c1_out_B = cir_out_B(1);
+            
+            c0_in_B = cir_in_B(1);
+            c1_in_B = cir_in_B(0);
+
+
+            sp2_A = parametrization.Curve.line(c0_in_A,c0_out);
+            sp3_A = parametrization.Curve.line(c1_in_A,c1_out);
+            
+            sp2_B = parametrization.Curve.line(c0_in_B,c0_out_B);
+            sp3_B = parametrization.Curve.line(c1_in_B,c1_out_B);
+
+
+            A = parametrization.Ti(sp2_A, cir_out_A, sp3_A.reverse, cir_in_A); 
+            B = parametrization.Ti(sp2_B , cir_out_B,sp3_B.reverse, cir_in_B );
+            
+            blocks = {A,B};
+            blocksNames = {'A','B'};
+
+            conn = cell(2,2);
+
+            conn{1,2} = {'n','s'};
+            conn{2,1} = {'n','s'};
+
+            boundaryGroups = struct();
+            boundaryGroups.out = multiblock.BoundaryGroup({{1,'e'},{2,'e'}});
+            boundaryGroups.in = multiblock.BoundaryGroup({{1,'w'},{2,'w'}});
+            boundaryGroups.all = multiblock.BoundaryGroup({{1,'e'},{2,'w'},{1,'w'},{2,'e'}});
+
+            obj = obj@multiblock.DefCurvilinear(blocks, conn, boundaryGroups, blocksNames);
+
+            obj.r_inner = r_inner;
+            obj.r_outer = r_outer;
+            obj.c_inner = c_inner;
+            obj.c_outer = c_outer;
+        end
+
+        function ms = getGridSizes(obj, m)
+            ms = {[m m], [m m]};
+        end
+    end
+end