Example Pictures Generated Using Picasso

Beholder

perlinBW(atan([ 0.45075966636004616, -0.48259520096401376, -0.0480345861040292 ] - x) / (y - perlinBW(perlinColor(y, x), [ -0.8769444236401625, 0.020908333085439823, -0.345652722399062 ])), perlinBW(perlinBW(atan([ 0.45075966636004616, -0.48259520096401376, -0.0480345861040292 ] - x) / (y - perlinBW(perlinColor(y, x), [ -0.8769444236401625, 0.020908333085439823, -0.345652722399062 ])), [ -0.4931001920624658, -0.8372106125944161, -0.3537758878746999 ]) / perlinBW(atan([ 0.45075966636004616, -0.48259520096401376, -0.0480345861040292 ] - x) / perlinBW(perlinColor(y, x), [ -0.8769444236401625, 0.020908333085439823, -0.345652722399062 ]), clamp(x)), perlinBW(atan([ 0.45075966636004616, -0.48259520096401376, -0.0480345861040292 ]) / (y - perlinBW(perlinColor(y, x), [ -0.8769444236401625, 0.020908333085439823, -0.345652722399062 ])), clamp(x))))

Birth of Color

sin(log(atan(x) / log( [ 0.5969982517066919, 0.8007698879754397, 0.79637077865578 ] * atan(perlinColor(x, yCrCbtoRGB(perlinColor(x, y)))) + y)))

Deep Spiral

log(perlinColor([ -0.36734469291976724, -0.9150423098806968, 0.07524 ], x / y + log(y)) / x + perlinBW([ 0.9158778736602271, 0.024810118460516728, -0.982811204940155 ], [ -0.8415425389275062, -0.7577420709938816, -0.100551545 ]))

Flying Carpet

sin(atan(x) / (y - perlinColor(perlinBW(x, y) * y, x)))

Hyperspace

log((x + [ -0.5225768504498232, -0.39351880740123124, -0.0585699927935716 ]) / perlinBW(y - log(log(x)) / clamp([ 0.6293157049933864, -0.28090379436053126, -0.44114704396782 ] + y), x + abs(x) - y))

Microbes

x + perlinColor(clamp(x), [ -0.13040989434230177, -0.2903680828023354, 0.25261911177503 ] / perlinBW(perlinColor(x, perlinColor(y + x, clamp(x))) / [ 0.6951294780551633, -0.4788895501451147, -0.67919766050699 ], cos(abs(y) - x)))

North Cross (cross6)

log(perlinColor([ 0.21300519241850902, 0.5800138495258065, -0.8363151257794 ], perlinColor([ 0.039703599218741115, -0.21065821734209034, -0.66615128939 ], sin([ -0.9821835722889416, 0.46380606624096044, -0.2270566034 ] - clamp([ 0.001277544071706549, -0.5295006067899626, -0.8340280559 ])))) / perlinBW(perlinBW(y, x), perlinBW(x - x - x, y)))

Thread

perlinColor(perlinColor([ -0.36734469291976724, -0.9150423098806968, 0.07524211120501 ], y) / (x + perlinBW(y, [ -0.8415425389275062, -0.7577420709938816, -0.100551545870646 ])), perlinBW([ -0.009096271245687904, -0.7451071415879813, 0.04746417445893169 ] + y, exp(x)))

Vortex

log(((perlinBW(clamp([ 0.5078174305464065, 0.982268102468085, -0.8363576656054 ]), wrap(x)) * (([ 0.6338800343751045, 0.6582121471242826, -0.76733486849055 ] / x) + cos(x))) / perlinBW(clamp(y), wrap(x))))