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scad.hpp

scad.hpp 7.2 KB
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  1. #pragma once
    2. 

  2. // AUTOGENERATED FILE - DO NOT EDIT
    3. 

  3. const char* threads_SCAD = "function segments (diameter) = min (50, max (ceil (diameter*6), 25));\n"
    4. 

  4. "module metric_thread (diameter=8, pitch=1, length=1, internal=false, n_starts=1,\n"
    5. 

  5. "thread_size=-1, groove=false, square=false, rectangle=0,\n"
    6. 

  6. "angle=30, taper=0, leadin=0, leadfac=1.0, test=false)\n"
    7. 

  7. "{\n"
    8. 

  8. "local_thread_size = thread_size == -1 ? pitch : thread_size;\n"
    9. 

  9. "local_rectangle = rectangle ? rectangle : 1;\n"
    10. 

  10. "n_segments = segments (diameter);\n"
    11. 

  11. "h = (test && ! internal) ? 0 : (square || rectangle) ? local_thread_size*local_rectangle/2 : local_thread_size / (2 * tan(angle));\n"
    12. 

  12. "h_fac1 = (square || rectangle) ? 0.90 : 0.625;\n"
    13. 

  13. "h_fac2 = (square || rectangle) ? 0.95 : 5.3/8;\n"
    14. 

  14. "tapered_diameter = diameter - length*taper;\n"
    15. 

  15. "difference () {\n"
    16. 

  16. "union () {\n"
    17. 

  17. "if (! groove) {\n"
    18. 

  18. "if (! test) {\n"
    19. 

  19. "metric_thread_turns (diameter, pitch, length, internal, n_starts,\n"
    20. 

  20. "local_thread_size, groove, square, rectangle, angle,\n"
    21. 

  21. "taper);\n"
    22. 

  22. "}\n"
    23. 

  23. "}\n"
    24. 

  24. "difference () {\n"
    25. 

  25. "if (groove) {\n"
    26. 

  26. "cylinder (r1=diameter/2, r2=tapered_diameter/2,\n"
    27. 

  27. "h=length, $fn=n_segments);\n"
    28. 

  28. "} else if (internal) {\n"
    29. 

  29. "cylinder (r1=diameter/2 - h*h_fac1, r2=tapered_diameter/2 - h*h_fac1,\n"
    30. 

  30. "h=length, $fn=n_segments);\n"
    31. 

  31. "} else {\n"
    32. 

  32. "cylinder (r1=diameter/2 - h*h_fac2, r2=tapered_diameter/2 - h*h_fac2,\n"
    33. 

  33. "h=length, $fn=n_segments);\n"
    34. 

  34. "}\n"
    35. 

  35. "if (groove) {\n"
    36. 

  36. "if (! test) {\n"
    37. 

  37. "metric_thread_turns (diameter, pitch, length, internal, n_starts,\n"
    38. 

  38. "local_thread_size, groove, square, rectangle,\n"
    39. 

  39. "angle, taper);\n"
    40. 

  40. "}\n"
    41. 

  41. "}\n"
    42. 

  42. "}\n"
    43. 

  43. "if (internal) {\n"
    44. 

  44. "if (leadin == 2 || leadin == 3) {\n"
    45. 

  45. "cylinder (r1=diameter/2, r2=diameter/2 - h*h_fac1*leadfac, h=h*h_fac1*leadfac,\n"
    46. 

  46. "$fn=n_segments);\n"
    47. 

  47. "}\n"
    48. 

  48. "if (leadin == 1 || leadin == 2) {\n"
    49. 

  49. "translate ([0, 0, length + 0.05 - h*h_fac1*leadfac]) {\n"
    50. 

  50. "cylinder (r1=tapered_diameter/2 - h*h_fac1*leadfac, h=h*h_fac1*leadfac,\n"
    51. 

  51. "r2=tapered_diameter/2,\n"
    52. 

  52. "$fn=n_segments);\n"
    53. 

  53. "}\n"
    54. 

  54. "}\n"
    55. 

  55. "}\n"
    56. 

  56. "}\n"
    57. 

  57. "if (! internal) {\n"
    58. 

  58. "if (leadin == 2 || leadin == 3) {\n"
    59. 

  59. "difference () {\n"
    60. 

  60. "cylinder (r=diameter/2 + 1, h=h*h_fac1*leadfac, $fn=n_segments);\n"
    61. 

  61. "cylinder (r2=diameter/2, r1=diameter/2 - h*h_fac1*leadfac, h=h*h_fac1*leadfac,\n"
    62. 

  62. "$fn=n_segments);\n"
    63. 

  63. "}\n"
    64. 

  64. "}\n"
    65. 

  65. "if (leadin == 1 || leadin == 2) {\n"
    66. 

  66. "translate ([0, 0, length + 0.05 - h*h_fac1*leadfac]) {\n"
    67. 

  67. "difference () {\n"
    68. 

  68. "cylinder (r=diameter/2 + 1, h=h*h_fac1*leadfac, $fn=n_segments);\n"
    69. 

  69. "cylinder (r1=tapered_diameter/2, r2=tapered_diameter/2 - h*h_fac1*leadfac, h=h*h_fac1*leadfac,\n"
    70. 

  70. "$fn=n_segments);\n"
    71. 

  71. "}\n"
    72. 

  72. "}\n"
    73. 

  73. "}\n"
    74. 

  74. "}\n"
    75. 

  75. "}\n"
    76. 

  76. "}\n"
    77. 

  77. "module english_thread (diameter=0.25, threads_per_inch=20, length=1,\n"
    78. 

  78. "internal=false, n_starts=1, thread_size=-1, groove=false,\n"
    79. 

  79. "square=false, rectangle=0, angle=30, taper=0, leadin=0,\n"
    80. 

  80. "leadfac=1.0, test=false)\n"
    81. 

  81. "{\n"
    82. 

  82. "mm_diameter = diameter*25.4;\n"
    83. 

  83. "mm_pitch = (1.0/threads_per_inch)*25.4;\n"
    84. 

  84. "mm_length = length*25.4;\n"
    85. 

  85. "echo (str (\"mm_diameter: \", mm_diameter));\n"
    86. 

  86. "echo (str (\"mm_pitch: \", mm_pitch));\n"
    87. 

  87. "echo (str (\"mm_length: \", mm_length));\n"
    88. 

  88. "metric_thread (mm_diameter, mm_pitch, mm_length, internal, n_starts,\n"
    89. 

  89. "thread_size, groove, square, rectangle, angle, taper, leadin,\n"
    90. 

  90. "leadfac, test);\n"
    91. 

  91. "}\n"
    92. 

  92. "module metric_thread_turns (diameter, pitch, length, internal, n_starts,\n"
    93. 

  93. "thread_size, groove, square, rectangle, angle,\n"
    94. 

  94. "taper)\n"
    95. 

  95. "{\n"
    96. 

  96. "n_turns = floor (length/pitch);\n"
    97. 

  97. "intersection () {\n"
    98. 

  98. "for (i=[-1*n_starts : n_turns+1]) {\n"
    99. 

  99. "translate ([0, 0, i*pitch]) {\n"
    100. 

  100. "metric_thread_turn (diameter, pitch, internal, n_starts,\n"
    101. 

  101. "thread_size, groove, square, rectangle, angle,\n"
    102. 

  102. "taper, i*pitch);\n"
    103. 

  103. "}\n"
    104. 

  104. "}\n"
    105. 

  105. "translate ([0, 0, length/2]) {\n"
    106. 

  106. "cube ([diameter*3, diameter*3, length], center=true);\n"
    107. 

  107. "}\n"
    108. 

  108. "}\n"
    109. 

  109. "}\n"
    110. 

  110. "module metric_thread_turn (diameter, pitch, internal, n_starts, thread_size,\n"
    111. 

  111. "groove, square, rectangle, angle, taper, z)\n"
    112. 

  112. "{\n"
    113. 

  113. "n_segments = segments (diameter);\n"
    114. 

  114. "fraction_circle = 1.0/n_segments;\n"
    115. 

  115. "for (i=[0 : n_segments-1]) {\n"
    116. 

  116. "rotate ([0, 0, i*360*fraction_circle]) {\n"
    117. 

  117. "translate ([0, 0, i*n_starts*pitch*fraction_circle]) {\n"
    118. 

  118. "thread_polyhedron ((diameter - taper*(z + i*n_starts*pitch*fraction_circle))/2,\n"
    119. 

  119. "pitch, internal, n_starts, thread_size, groove,\n"
    120. 

  120. "square, rectangle, angle);\n"
    121. 

  121. "}\n"
    122. 

  122. "}\n"
    123. 

  123. "}\n"
    124. 

  124. "}\n"
    125. 

  125. "module thread_polyhedron (radius, pitch, internal, n_starts, thread_size,\n"
    126. 

  126. "groove, square, rectangle, angle)\n"
    127. 

  127. "{\n"
    128. 

  128. "n_segments = segments (radius*2);\n"
    129. 

  129. "fraction_circle = 1.0/n_segments;\n"
    130. 

  130. "local_rectangle = rectangle ? rectangle : 1;\n"
    131. 

  131. "h = (square || rectangle) ? thread_size*local_rectangle/2 : thread_size / (2 * tan(angle));\n"
    132. 

  132. "outer_r = radius + (internal ? h/20 : 0); // Adds internal relief.\n"
    133. 

  133. "h_fac1 = (square || rectangle) ? 1.1 : 0.875;\n"
    134. 

  134. "inner_r = radius - h*h_fac1; // Does NOT do Dmin_truncation - do later with\n"
    135. 

  135. "translate_y = groove ? outer_r + inner_r : 0;\n"
    136. 

  136. "reflect_x   = groove ? 1 : 0;\n"
    137. 

  137. "x_incr_outer = (! groove ? outer_r : inner_r) * fraction_circle * 2 * PI * 1.02;\n"
    138. 

  138. "x_incr_inner = (! groove ? inner_r : outer_r) * fraction_circle * 2 * PI * 1.02;\n"
    139. 

  139. "z_incr = n_starts * pitch * fraction_circle * 1.005;\n"
    140. 

  140. "x1_outer = outer_r * fraction_circle * 2 * PI;\n"
    141. 

  141. "z0_outer = (outer_r - inner_r) * tan(angle);\n"
    142. 

  142. "z1_outer = z0_outer + z_incr;\n"
    143. 

  143. "bottom = internal ? 0.235 : 0.25;\n"
    144. 

  144. "top    = internal ? 0.765 : 0.75;\n"
    145. 

  145. "translate ([0, translate_y, 0]) {\n"
    146. 

  146. "mirror ([reflect_x, 0, 0]) {\n"
    147. 

  147. "if (square || rectangle) {\n"
    148. 

  148. "polyhedron (\n"
    149. 

  149. "points = [\n"
    150. 

  150. "[-x_incr_inner/2, -inner_r, bottom*thread_size],         // [0]\n"
    151. 

  151. "[x_incr_inner/2, -inner_r, bottom*thread_size + z_incr], // [1]\n"
    152. 

  152. "[x_incr_inner/2, -inner_r, top*thread_size + z_incr],    // [2]\n"
    153. 

  153. "[-x_incr_inner/2, -inner_r, top*thread_size],            // [3]\n"
    154. 

  154. "[-x_incr_outer/2, -outer_r, bottom*thread_size],         // [4]\n"
    155. 

  155. "[x_incr_outer/2, -outer_r, bottom*thread_size + z_incr], // [5]\n"
    156. 

  156. "[x_incr_outer/2, -outer_r, top*thread_size + z_incr],    // [6]\n"
    157. 

  157. "[-x_incr_outer/2, -outer_r, top*thread_size]             // [7]\n"
    158. 

  158. "],\n"
    159. 

  159. "faces = [\n"
    160. 

  160. "[0, 3, 7, 4],  // This-side trapezoid\n"
    161. 

  161. "[1, 5, 6, 2],  // Back-side trapezoid\n"
    162. 

  162. "[0, 1, 2, 3],  // Inner rectangle\n"
    163. 

  163. "[4, 7, 6, 5],  // Outer rectangle\n"
    164. 

  164. "[7, 2, 6],     // Upper rectangle, bottom\n"
    165. 

  165. "[7, 3, 2],     // Upper rectangle, top\n"
    166. 

  166. "[0, 5, 1],     // Lower rectangle, bottom\n"
    167. 

  167. "[0, 4, 5]      // Lower rectangle, top\n"
    168. 

  168. "]\n"
    169. 

  169. ");\n"
    170. 

  170. "} else {\n"
    171. 

  171. "polyhedron (\n"
    172. 

  172. "points = [\n"
    173. 

  173. "[-x_incr_inner/2, -inner_r, 0],                        // [0]\n"
    174. 

  174. "[x_incr_inner/2, -inner_r, z_incr],                    // [1]\n"
    175. 

  175. "[x_incr_inner/2, -inner_r, thread_size + z_incr],      // [2]\n"
    176. 

  176. "[-x_incr_inner/2, -inner_r, thread_size],              // [3]\n"
    177. 

  177. "[-x_incr_outer/2, -outer_r, z0_outer],                 // [4]\n"
    178. 

  178. "[x_incr_outer/2, -outer_r, z0_outer + z_incr],         // [5]\n"
    179. 

  179. "[x_incr_outer/2, -outer_r, thread_size - z0_outer + z_incr], // [6]\n"
    180. 

  180. "[-x_incr_outer/2, -outer_r, thread_size - z0_outer]    // [7]\n"
    181. 

  181. "],\n"
    182. 

  182. "faces = [\n"
    183. 

  183. "[0, 3, 7, 4],  // This-side trapezoid\n"
    184. 

  184. "[1, 5, 6, 2],  // Back-side trapezoid\n"
    185. 

  185. "[0, 1, 2, 3],  // Inner rectangle\n"
    186. 

  186. "[4, 7, 6, 5],  // Outer rectangle\n"
    187. 

  187. "[7, 2, 6],     // Upper rectangle, bottom\n"
    188. 

  188. "[7, 3, 2],     // Upper rectangle, top\n"
    189. 

  189. "[0, 5, 1],     // Lower rectangle, bottom\n"
    190. 

  190. "[0, 4, 5]      // Lower rectangle, top\n"
    191. 

  191. "]\n"
    192. 

  192. ");\n"
    193. 

  193. "}\n"
    194. 

  194. "}\n"
    195. 

  195. "}\n"
    196. 

  196. "}\n"
    197. 

  197. ;
    198.