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Galerkin FEM for elliptic PDEs
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FEM4EllipticPDE/examples/grav/sphere.geo

sphere.geo 4.2KB
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  1. /* This file is part of Lemma, a geophysical modelling and inversion API.

  2.  * More information is available at http://lemmasoftware.org

  3.  */

  4. 

  5. /* This Source Code Form is subject to the terms of the Mozilla Public

  6.  * License, v. 2.0. If a copy of the MPL was not distributed with this

  7.  * file, You can obtain one at http://mozilla.org/MPL/2.0/.

  8.  */

  9. 

  10. radius = 2.25;     // Radius of the damn thing

  11. lc = radius/6;     //  0.25;   // Target element size

  12. 

  13. // Total Solution Space

  14. Box = 3*radius; // The down side of potential

  15. X0 = -Box;

  16. X1 =  Box;

  17. Y0 = -Box;

  18. Y1 =  Box;

  19. Z0 = -Box;

  20. Z1 =  Box;

  21. 

  22. cellSize=radius/6; ///10;

  23. dd = 0 ; //  1e-5; //cellSize; // .01;

  24. pio2=Pi/2;

  25. 

  26. 

  27. /////////////////////////////////////

  28. // Large Bounding box

  29. pp = newp;

  30. Point(pp)    = {X0, Y0, Z0, lc};

  31. Point(pp+1)  = {X1, Y0, Z0, lc};

  32. Point(pp+2)  = {X1, Y1, Z0, lc};

  33. Point(pp+3)  = {X0, Y1, Z0, lc};

  34. 

  35. 

  36. lv = newl;

  37. Line(lv) = {pp,pp+1};

  38. Line(lv+1) = {pp+1,pp+2};

  39. Line(lv+2) = {pp+2,pp+3};

  40. Line(lv+3) = {pp+3,pp};

  41. Line Loop(lv+4) = {lv, lv+1, lv+2, lv+3};

  42. 

  43. // Hard coded doom

  44. Plane Surface(125) = {lv+4};

  45. 

  46. //v = newv;

  47. v[] = Extrude {0, 0, Z1-Z0} { Surface{125}; };

  48. 

  49. // Calculate offset effect

  50. theta = Asin(dd/radius);

  51. rr = radius * Cos(theta);

  52. 

  53. ///////////////////////////////////

  54. // Positive half sphere

  55. // create inner 1/8 shell

  56. p0 = newp;

  57. Point(p0)   = {      0,   0,       0, cellSize}; // origin

  58. Point(p0+1) = {    -rr,   0,      dd, cellSize};

  59. Point(p0+2) = {      0,  rr,      dd, cellSize};

  60. Point(p0+3) = {      0,   0,  radius, cellSize};

  61. Point(p0+4) = {      0,   0,      dd, cellSize}; // origin

  62. 

  63. c0 = newc;

  64. Circle(c0  ) = {p0+1, p0+4, p0+2};       // Tricky, This one needs to be offset!

  65. Circle(c0+1) = {p0+3, p0, p0+1};

  66. Circle(c0+2) = {p0+3, p0, p0+2};

  67. 

  68. Line Loop(10) = {c0, -(c0+2), c0+1} ;

  69. Ruled Surface (60) = {10};

  70. 

  71. ////////////////////////////////////////////////////////////

  72. // Negative half sphere

  73. p = newp;

  74. Point(  p) = {      0,      0,            0, cellSize};

  75. Point(p+1) = {    -rr,      0,          -dd, cellSize};

  76. Point(p+2) = {      0,     rr,          -dd, cellSize};

  77. Point(p+3) = {      0,      0,      -radius, cellSize};

  78. Point(p+4) = {      0,      0,          -dd, cellSize};

  79. 

  80. cc = newc;

  81. Circle(cc  ) = {p+1, p+4, p+2};

  82. Circle(cc+1) = {p+3, p,   p+1};

  83. Circle(cc+2) = {p+3, p,   p+2};

  84. 

  85. Circle(cc+3) = {p+3, p, p+2};

  86. Circle(cc+4) = {p+3, p, p+2};

  87. Circle(cc+5) = {p+3, p, p+2};

  88. 

  89. ccl = newl;

  90. Line(ccl) = { p0+3, p+3 };

  91. 

  92. Line Loop(11) = {cc, -(cc+2), cc+1} ;

  93. Ruled Surface (61) = {11};

  94. 

  95. // create remaining 7/8 inner shells

  96. t1[] = Rotate {{0,0,1},{0,0,0},pio2  } {Duplicata{Surface{60};}};

  97. t2[] = Rotate {{0,0,1},{0,0,0},pio2*2} {Duplicata{Surface{60};}};

  98. t3[] = Rotate {{0,0,1},{0,0,0},pio2*3} {Duplicata{Surface{60};}};

  99. //

  100. t4[] = Rotate {{0,0,1},{0,0,0},pio2  } {Duplicata{Surface{61};}};

  101. t5[] = Rotate {{0,0,1},{0,0,0},pio2*2} {Duplicata{Surface{61};}};

  102. t6[] = Rotate {{0,0,1},{0,0,0},pio2*3} {Duplicata{Surface{61};}};

  103. 

  104. /* This is GOOD */

  105. Surface{60} In Volume{v[1]};

  106. Surface{t1[0]} In Volume{v[1]};

  107. Surface{t2[0]} In Volume{v[1]};

  108. Surface{t3[0]} In Volume{v[1]};

  109. 

  110. Surface{61} In Volume{v[1]};

  111. Surface{t4[0]} In Volume{v[1]};

  112. Surface{t5[0]} In Volume{v[1]};

  113. Surface{t6[0]} In Volume{v[1]};

  114. 

  115. ///////////////////////////////////////////////

  116. // Attractor Field

  117. 

  118. // Field[1] = Attractor;

  119. // Field[1].NodesList = {p}; //0, p0+1, p0+2, p0+3, p0+4, p, p+1, p+2, p+3, p+4};

  120. //

  121. // Field[2] = MathEval;

  122. // Field[2].F = Sprintf("(2.25 - F1)^1.01 + %g", radius/10 );  // WORKS

  123. //

  124. // Field[3] = MathEval;

  125. // Field[3].F = Sprintf("(12.25 - F1)^1.01 + %g", radius/5 );  // WORKS

  126. //

  127. // Field[4] = MathEval;

  128. // Field[4].F = Sprintf("(22.25 - F1)^1.01 + %g", radius );  // WORKS

  129. //

  130. // Field[5] = MathEval;

  131. // Field[5].F = Sprintf("(42.25 - F1)^1.01 + %g", radius*5 );  // WORKS

  132. //

  133. // //Field[2].F = Sprintf("(%g - F1)^2 + %g", radius, 2*cellSize );

  134. // //Background Field = 2;

  135. //

  136. // // Finally, let's use the minimum of all the fields as the background mesh field

  137. // Field[7] = Min;

  138. // Field[7].FieldsList = {2, 3, 4, 5};

  139. // Background Field = 7;

  140. 

  141. // Don't extend the elements sizes from the boundary inside the domain

  142. //Mesh.CharacteristicLengthExtendFromBoundary = 0;

  143. 

  144. Physical Volume(1) = {v[1]};

  145. 

  146. // To create the mesh run

  147. // gmsh sphere.gmsh -2 -v 0 -format msh -o sphere.msh

  148. //gmsh -3 -format msh1 -o outfile.msh sphere.geo