lolengine
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lol
의 미러 https://github.com/lolengine/lol
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lol/test/easy_mesh_dictionnary.js

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  1. //-------------------------------------------------------------------------

  2. //Command vars operations

  3. //-------------------------------------------------------------------------

  4. CmdVar("[ ]", ["Opens a new context,\nevery operations between the braces will only be done to the vertices added since the start of this context."]);

  5. CmdVar("float", ["Fraction value", "0.0"]);

  6. CmdVar("int", ["No decimal value", "0"]);

  7. CmdVar("bool", ["Boolean value", "true/false", "1/0"]);

  8. CmdVar("color", ["Red/Green/Blue/{Alpha}",

  9.                 "HEXA: #ABC{D}", "      #AABBCC{DD}",

  10.                 "FLOAT: f f f f", "      (f f f f)", "      (f)"]);

  11. CmdVar("vec3", ["X/Y/Z as float", " f f f", "(f f f)", "(f)"]);

  12. 

  13. //-------------------------------------------------------------------------

  14. //Mesh CSG operations

  15. //-------------------------------------------------------------------------

  16. CmdType(["csgu",  "csgunion"], "Performs a Union operation as (mesh0_Outside + mesh1_Outside)");

  17. CmdType(["csgs",  "csgsubstract"], "Performs a Substract operation as (mesh0_Outside + mesh1_Inside-inverted)");

  18. CmdType(["csgsl", "csgsubstractloss"], "Performs a Substract operation without keeping the mesh1 part");

  19. CmdType(["csga",  "csgand"], "Performs an And operation as (mesh0_Inside + mesh1_Inside)");

  20. CmdType(["csgx",  "csgxor"], "Performs a Xor operation as (m0_Outside/m0_Inside-inverted + m1_Outside/m1_Inside-inverted)");

  21. 

  22. //-------------------------------------------------------------------------

  23. //Mesh Base operations

  24. //-------------------------------------------------------------------------

  25. CmdType(["tsw", "scalewinding"], "When activated, on negative-scaling,\nnormal-vector correction will not occur");

  26. CmdType(["sc",  "setcolor"], "Set A color", [CmdArg("color", "color")]);

  27. CmdType(["scb", "setbgcolor"], "Set B color", [CmdArg("color", "color")]);

  28. 

  29. //-------------------------------------------------------------------------

  30. //Mesh transform operations

  31. //-------------------------------------------------------------------------

  32. CmdType(["tx",   "translatex"], "Translate vertices along the X axis", [CmdArg("float", "n")]);

  33. CmdType(["ty",   "translatey"], "Translate vertices along the Y axis", [CmdArg("float", "n")]);

  34. CmdType(["tz",   "translatez"], "Translate vertices along the Z axis", [CmdArg("float", "n")]);

  35. CmdType(["t",    "translate"], "Translate vertices", [CmdArg("vec3", "v")]);

  36. CmdType(["rx",   "rotatex"], "Rotate vertices along the X axis", [CmdArg("float", "degree")]);

  37. CmdType(["ry",   "rotatey"], "Rotate vertices along the Y axis", [CmdArg("float", "degree")]);

  38. CmdType(["rz",   "rotatez"], "Rotate vertices along the Z axis", [CmdArg("float", "degree")]);

  39. CmdType(["r",    "rotate"], "Rotate vertices along the given axis", [CmdArg("float", "degree"), CmdArg("vec3", "axis")]);

  40. CmdType(["rj",   "radialjitter"], "Randomly move vertices along Origin-to-vertex as f(vtx) = vtx + o2v * (1.0 + rand(r))", [CmdArg("float", "r")]);

  41. CmdType(["tax",  "taperx"], "multiply axis y/z by f(x)\nf(z) = z * (1.0 + (nz * f(x) + xoff))\nf(x) = absolute ? abs_x : x", [CmdArg("float", "ny"), CmdArg("float", "nz"), CmdArg("float", "xoff", "0.0"), CmdArg("bool", "absolute", "true")]);

  42. CmdType(["tay",  "tapery"], "multiply axis x/z by f(y)\nf(x) = x * (1.0 + (nx * f(y) + yoff))\nf(y) = absolute ? abs_y : y", [CmdArg("float", "nx"), CmdArg("float", "nz"), CmdArg("float", "yoff", "0.0"), CmdArg("bool", "absolute", "true")]);

  43. CmdType(["taz",  "taperz"], "multiply axis x/y by f(z)\nf(y) = y * (1.0 + (ny * f(z) + zoff))\nf(z) = absolute ? abs_z : z", [CmdArg("float", "nx"), CmdArg("float", "ny"), CmdArg("float", "zoff", "0.0"), CmdArg("bool", "absolute", "true")]);

  44. CmdType(["twx",  "twistx"], "Twist vertices around x axis with x as rotation value\nf(p) = (RotateX(x * t + toff) * p)", [CmdArg("float", "t"), CmdArg("float", "toff", "0.0")]);

  45. CmdType(["twy",  "twisty"], "Twist vertices around y axis with y as rotation value\nf(p) = (RotateY(y * t + toff) * p)", [CmdArg("float", "t"), CmdArg("float", "toff", "0.0")]);

  46. CmdType(["twz",  "twistz"], "Twist vertices around z axis with z as rotation value\nf(p) = (RotateZ(z * t + toff) * p)", [CmdArg("float", "t"), CmdArg("float", "toff", "0.0")]);

  47. CmdType(["shx",  "shearx"], "Shear vertices using x value as shear quantity\nf(z) = z + (nz * f(x) + xoff)\nf(x) = absolute ? abs_x : x", [CmdArg("float", "ny"), CmdArg("float", "nz"), CmdArg("float", "xoff", "0.0"), CmdArg("bool", "absolute", "true")]);

  48. CmdType(["shy",  "sheary"], "Shear vertices using y value as shear quantity\nf(x) = x + (nx * f(y) + yoff)\nf(y) = absolute ? abs_y : y", [CmdArg("float", "nx"), CmdArg("float", "nz"), CmdArg("float", "yoff", "0.0"), CmdArg("bool", "absolute", "true")]);

  49. CmdType(["shz",  "shearz"], "Shear vertices using z value as shear quantity\nf(y) = y + (ny * f(z) + zoff)\nf(z) = absolute ? abs_z : z", [CmdArg("float", "nx"), CmdArg("float", "ny"), CmdArg("float", "zoff", "0.0"), CmdArg("bool", "absolute", "true")]);

  50. CmdType(["stx",  "stretchx"], "Stretch vertices using x value as stretch quantity\nf(z) = z + (pow(x, nz) + xoff)", [CmdArg("float", "ny"), CmdArg("float", "nz"), CmdArg("float", "xoff", "0.0")]);

  51. CmdType(["sty",  "stretchy"], "Stretch vertices using y value as stretch quantity\nf(x) = x + (pow(y, nx) + yoff)", [CmdArg("float", "nx"), CmdArg("float", "nz"), CmdArg("float", "yoff", "0.0")]);

  52. CmdType(["stz",  "stretchz"], "Stretch vertices using z value as stretch quantity\nf(y) = y + (pow(z, ny) + zoff)", [CmdArg("float", "nx"), CmdArg("float", "ny"), CmdArg("float", "zoff", "0.0")]);

  53. CmdType(["bdxy", "bendxy"], "Bend vertices using x as bend quantity along y axis\nf(p) = (RotateY(x * t + toff) * p)", [CmdArg("float", "t"), CmdArg("float", "toff", "0.0")]);

  54. CmdType(["bdxz", "bendxz"], "Bend vertices using x as bend quantity along z axis\nf(p) = (RotateZ(x * t + toff) * p)", [CmdArg("float", "t"), CmdArg("float", "toff", "0.0")]);

  55. CmdType(["bdyx", "bendyx"], "Bend vertices using y as bend quantity along x axis\nf(p) = (RotateX(y * t + toff) * p)", [CmdArg("float", "t"), CmdArg("float", "toff", "0.0")]);

  56. CmdType(["bdyz", "bendyz"], "Bend vertices using y as bend quantity along z axis\nf(p) = (RotateZ(y * t + toff) * p)", [CmdArg("float", "t"), CmdArg("float", "toff", "0.0")]);

  57. CmdType(["bdzx", "bendzx"], "Bend vertices using z as bend quantity along x axis\nf(p) = (RotateX(z * t + toff) * p)", [CmdArg("float", "t"), CmdArg("float", "toff", "0.0")]);

  58. CmdType(["bdzy", "bendzy"], "Bend vertices using z as bend quantity along y axis\nf(p) = (RotateY(z * t + toff) * p)", [CmdArg("float", "t"), CmdArg("float", "toff", "0.0")]);

  59. CmdType(["sx",   "scalex"], "Scale vertices", [CmdArg("vec3", "s")]);

  60. CmdType(["sy",   "scaley"], "Scale vertices", [CmdArg("vec3", "s")]);

  61. CmdType(["sz",   "scalez"], "Scale vertices", [CmdArg("vec3", "s")]);

  62. CmdType(["s",    "scale"], "Uniformly Scale vertices", [CmdArg("float", "s")]);

  63. CmdType(["mx",   "mirrorx"], "Mirror vertices through X-plane");

  64. CmdType(["my",   "mirrory"], "Mirror vertices through Y-plane");

  65. CmdType(["mz",   "mirrorz"], "Mirror vertices through Z-plane");

  66. CmdType(["ch",   "chamfer"], "DOES NOT WORK: Performs a chamfer operation", [CmdArg("float", "f")]);

  67. CmdType(["splt", "splittriangle"], "split triangles in 4 smaller ones", [CmdArg("int", "pass")]);

  68. CmdType(["smth", "smooth"], "Smooth the mesh by subdivising it", [CmdArg("int", "pass"), CmdArg("int", "split_per_pass"), CmdArg("int", "smooth_per_pass")]);

  69. 

  70. //-------------------------------------------------------------------------

  71. //Mesh shape operations

  72. //-------------------------------------------------------------------------

  73. CmdType(["ac", "addcylinder"], "Cylinder centered on (0,0,0) with BBox:\nMin: [-.5 * max(d1, d2),-.5 * h,-.5 * max(d1, d2)]\nMax: [ .5 * max(d1, d2), .5 * h,  .5 * max(d1, d2)]",

  74.                              [CmdArg("int", "nsides"), CmdArg("float", "h"), CmdArg("float", "d1"), CmdArg("float", "d2"),

  75.                               CmdArg("bool", "dualsides", "false"), CmdArg("bool", "smooth", "false"), CmdArg("bool", "close", "false")]);

  76. CmdType(["asph", "addsphere"], "Sphere centered on (0,0,0) with BBox:\nMin: [-.5 * d]\nMax: [ .5 * d]", [CmdArg("int", "ndivisions"), CmdArg("float", "d")]);

  77. CmdType(["acap", "addcapsule"], "Capsule centered on (0,0,0) with BBox:\nMin: [-.5 * d,-(.5 * d + h),-.5 * d]\nMax: [ .5 * d, (.5 * d + h), .5 * d]", [CmdArg("int", "ndivisions"), CmdArg("float", "h"), CmdArg("float", "d")]);

  78. CmdType(["ato", "addtorus"], "Torus centered on (0,0,0) with BBox:\nMax: [-.5 * d2]\nMax: [ .5 * d2]", [CmdArg("int", "ndivisions"), CmdArg("float", "d1"), CmdArg("float", "d2")]);

  79. CmdType(["ab", "addbox"], "Box centered on (0,0,0) with BBox:\nMin: [-.5 * size]\nMax: [ .5 * size]", [CmdArg("vec3", "size"), CmdArg("float", "chamf", "0.0")]);

  80. CmdType(["ascb", "addsmoothchamfbox"], "Box centered on (0,0,0) with BBox:\nMin: [-.5 * size]\nMax: [ .5 * size]", [CmdArg("vec3", "size"), CmdArg("float", "chamf")]);

  81. CmdType(["afcb", "addflatchamfbox"], "Box centered on (0,0,0) with BBox:\nMin: [-.5 * size]\nMax: [ .5 * size]", [CmdArg("vec3", "size"), CmdArg("float", "chamf")]);

  82. CmdType(["as", "addstar"], "Append a Star centered on (0,0,0)\nContained in a disc of max(d1, d2) diameter.",

  83.                             [CmdArg("int", "nbranches"), CmdArg("float", "d1"), CmdArg("float", "d2"),

  84.                              CmdArg("bool", "fade", "false"), CmdArg("bool", "fade2", "false")]);

  85. CmdType(["aes", "addexpandedstar"], "Star centered on (0,0,0)\nContained in a disc of max(max(d1, d2), max(d1 + extrad, d2 + extrad)) diameter.\nExpanded star branches use Color2.",

  86.                             [CmdArg("int", "nbranches"), CmdArg("float", "d1"), CmdArg("float", "d2"), CmdArg("float", "extrad", "0.0")]);

  87. CmdType(["ad", "adddisc"], "Disc centered on (0,0,0) with d diameter.", [CmdArg("int", "nsides"), CmdArg("float", "d"), CmdArg("bool", "fade", "false")]);

  88. CmdType(["at", "addtriangle"], "Triangle centered on (0,0,0)\nContained in a disc of d diameter.", [CmdArg("float", "d"), CmdArg("bool", "fade", "false")]);

  89. CmdType(["aq", "addquad"], "Quad centered on (0,0,0) with BBox:\nMin: [-size * .5f, 0,-size * .5f]\nMax: [ size * .5f, 0, size * .5f]", [CmdArg("float", "size"), CmdArg("bool", "fade", "false")]);

  90. CmdType(["acg", "addcog"], "Gear centered on (0,0,0) with BBox:\nMin: [-.5 * max(d1, d2),-.5 * h,-.5 * max(d1, d2)]\nMax: [ .5 * max(d1, d2), .5 * h, .5 * max(d1, d2)]",

  91.                             [CmdArg("float", "h"), CmdArg("float", "d10"), CmdArg("float", "d20"), CmdArg("float", "d1"), CmdArg("float", "d2"), CmdArg("float", "d12"), CmdArg("float", "d22"),

  92.                              CmdArg("float", "sidemul", "1.0"), CmdArg("bool", "offset", "false")]);