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securityos/node_modules/butterchurn-presets/presets/converted/martin - adrift on a dead p...

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2024-09-06 15:32:35 +00:00
{"version":2,"baseVals":{"rating":5,"gammaadj":1.98,"decay":0.5,"echo_zoom":1,"echo_alpha":0.5,"echo_orient":3,"wave_mode":1,"darken":1,"wave_a":0.001,"warpanimspeed":1.459,"warpscale":2.007,"zoom":0.9999,"warp":0.01,"sx":0.9999,"wave_r":0,"wave_g":0,"wave_b":0,"ob_size":0,"ob_a":0.7,"ib_size":0.26,"mv_a":0,"b1ed":0},"shapes":[{"baseVals":{"enabled":1,"sides":100,"textured":1,"rad":2.66717,"a":0.4,"a2":0.4,"border_a":0},"init_eqs_eel":"","frame_eqs_eel":"r = sin(q1);\ng = sin(q1*1.1);\nb = sin(q1*1.4);\nr2 = sin(q1*1.25);\ng2 = sin(q1*1.45);\nb2 = sin(q1*1.12);"},{"baseVals":{"enabled":0},"init_eqs_eel":"","frame_eqs_eel":""},{"baseVals":{"enabled":0},"init_eqs_eel":"","frame_eqs_eel":""},{"baseVals":{"enabled":0},"init_eqs_eel":"","frame_eqs_eel":""}],"waves":[{"baseVals":{"enabled":1,"thick":1,"additive":1,"scaling":0.88026,"smoothing":1,"a":0.2},"init_eqs_eel":"","frame_eqs_eel":"","point_eqs_eel":"u = abs(cos(q1*0.1))*3.14159;\nv = abs(cos(q1*0.015))*3.14159*2;\ns = sample*3.14*100;\nss = sample*6.28*1000;\n\n//draw\nxs = 0.5*sin(s)*cos(ss)*equal(q5,0) +\n(0.6 + 0.1*cos(s))*cos(ss)*equal(q5,1) +\n0.5*sin(s)*cos(ss)*equal(q5,2);\nys = 0.5*sin(s)*sin(ss)*equal(q5,0) +\n(0.6 + 0.1*cos(s))*sin(ss)*equal(q5,1) +\n0.5*sin(s)*sin(ss)*equal(q5,2);\nzs = 0.5*cos(s)*equal(q5,0) +\n0.1*sin(s)*equal(q5,1) +\n0.5*sin(s)*equal(q5,2);\n\n\n\nxtor = (0.6 + 0.1*cos(s))*cos(ss);\nytor = (0.6 + 0.1*cos(s))*sin(ss);\nztor = 0.1*sin(s);\n\n\n//rotate x axis\nangle = q1*0.3;\nyx = ys*cos(angle) - zs*sin(angle);\nzx = ys*sin(angle) + zs*cos(angle);\nxx = xs;\n\n//rotate y axis\nangle2 = q1*0.5;\nxd = xx*cos(angle2) - zx*sin(angle2);\nzd = xx*sin(angle2) + zx*cos(angle2);\nyd = yx;\n\n//rotaye z axis\nangle3 = q1*0.41;\nxn = xd*cos(angle3) - yd*sin(angle3);\nyn = xd*sin(angle3) + yd*cos(angle3);\n\nzd = zd + 2;\n\n//do that falloff effect\npeek1 = (value1 + value2)*10;\n\n//if sample louder set that to level else decrement level\nlevel = if(above(peek1,level),peek1,level - 0.00025);\nlevel = if(below(level,0),0,level);\n\n//add to z\nzd = zd + 2 + level;\n\n\nx = xn*zd*0.05 + 0.5;\ny = yn*zd*0.05*1.2 + 0.5;\n\n\nr = 0.5 + 0.5*sin(q1*1.2 + x + x);\ng = 0.5 + 0.5*sin(q1*1.5 + x + y);\nb = 0.5 + 0.5*sin(q1*1.36 + y + y);"},{"baseVals":{"enabled":1,"thick":1,"additive":1,"scaling":0.88026,"smoothing":1,"a":0.2},"init_eqs_eel":"","frame_eqs_eel":"","point_eqs_eel":"u = abs(cos(q1*0.1))*3.14159;\nv = abs(cos(q1*0.015))*3.14159*2;\ns = sample*3.14*100;\nss = sample*6.28*1000;\n\n//draw\nxs = 0.5*sin(s)*cos(ss)*equal(q5,2) +\n(0.6 + 0.1*cos(s))*cos(ss)*equal(q5,0) +\n0.5*sin(s)*cos(ss)*equal(q5,1);\nys = 0.5*sin(s)*sin(ss)*equal(q5,2) +\n(0.6 + 0.1*cos(s))*sin(ss)*equal(q5,0) +\n0.5*sin(s)*sin(ss)*equal(q5,1);\nzs = 0.5*cos(s)*equal(q5,2) +\n0.1*sin(s)*equal(q5,0) +\n0.5*sin(s)*equal(q5,1);\n\n\nxtor = (0.6 + 0.1*cos(s))*cos(ss);\nytor = (0.6 + 0.1*cos(s))*sin(ss);\nztor = 0.1*sin(s);\n\n\n//rotate x axis\nangle = q1*0.3;\nyx = ys*cos(angle) - zs*sin(angle);\nzx = ys*sin(angle) + zs*cos(angle);\nxx = xs;\n\n//rotate y axis\nangle2 = q1*0.5;\nxd = xx*cos(angle2) - zx*sin(angle2);\nzd = xx*sin(angle2) + zx*cos(angle2);\nyd = yx;\n\n//rotaye z axis\nangle3 = q1*0.41;\nxn = xd*cos(angle3) - yd*sin(angle3);\nyn = xd*sin(angle3) + yd*cos(angle3);\n\nzd = zd + 2;\n\n//do that falloff effect\npeek1 = (value1 + value2)*10;\n\n//if sample louder set that to level else decrement level\nlevel = if(above(peek1,level),peek1,level - 0.00025);\nlevel = if(below(level,0),0,level);\n\n//add to z\nzd = zd + 2 + level;\n\n\nx = xn*zd*0.05 + 0.5;\ny = yn*zd*0.05*1.2 + 0.5;\n\n\nr = 0.5 + 0.5*sin(q1*1.2 + x + x);\ng = 0.5 + 0.5*sin(q1*1.5 + x + y);\nb = 0.5 + 0.5*sin(q1*1.16 + y + y);"},{"baseVals":{"spectrum":1,"additive":1,"a":0.5,"enabled":0},"init_eqs_eel":"","frame_eqs_eel":"","point_eqs_eel":"u = abs(cos(q1*0.1))*3.14159;\nv = abs(cos(q1*0.015))*3.14159*2;\ns = sample*3.14;\nss = sample*6.28*100;\n\n//draw\nxs = 0.5*sin(s)*cos(ss);\nys = 0.5*sin(s)*sin(ss);\nzs = 0.5*sin(s);\n\n\n//plot x,y,z to point on circle\n//smp=sample*6.283;\n//xp=sin(smp )*0.30;\n//yp=c