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sdfsdg.sttf
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sdfsdg.sttf
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{"links":[{"end":"RenderOutput","filter":"Linear","slot":0,"start":"Shader","wrapMode":"Repeat"},{"end":"Shader1","filter":"Mipmap","slot":0,"start":"Texture","wrapMode":"Repeat"},{"end":"Shader","filter":"Linear","slot":0,"start":"Shader1","wrapMode":"Clamp"}],"metadata":{"Author":"MinimilisticBits","Description":"sdg","Name":"Playing around shader","ShaderToyURL":"https://www.shadertoy.com/view/NdscDf"},"nodes":[{"class":"RenderOutput","name":"RenderOutput"},{"class":"GLSLShader","name":"Shader","source":"\n\n//NOT MY CODE//////////////////////\nvec3 ACESFilm(vec3 x)\n{\n float a = 2.51;\n float b = 0.03;\n float c = 2.43;\n float d = 0.59;\n float e = 0.14;\n return clamp((x*(a*x+b))/(x*(c*x+d)+e), 0.,1.);\n}\n//////////////////////////////////\n\nvec3 blur(vec2 uv, float r){\nvec3 c = vec3(0.);\nuv *= iResolution.xy;\nfloat iter = 0.;\nfor(int i = 0; i < 10; i++){\n for(int k = 0; k < 10; k++){\n float x = float(k)-5.;\n float y = float(i)-5.;\n x*=r;\n y*=r;\n //float bok = texture(iChannel1, vec2(0.5)+((vec2(x,y)*6.)/iResolution.xy)).y;\n vec4 c2 = texture(iChannel0, (uv+vec2(x,y))/iResolution.xy).xyzw;\n vec3 col = c2.xyz;\n col = clamp(col,0.,1.);\n //if(length(col) > 0.6)col*=1.2;\n c += col;\n iter+=1.;\n }\n}\nc/=iter;\nreturn c;\n} \n\n\nvec3 blur2(vec2 p,float dist){\np*=iResolution.xy;\n vec3 s;\n \n vec3 div = vec3(0.);\n //vec2 off = vec2(0.0, r);\n float k = 0.61803398875;\n for(int i = 0; i < 150; i++){\n float m = float(i)*0.01;\n float r = 2.*3.14159*k*float(i);\n vec2 coords = vec2(m*cos(r), m*sin(r))*dist;\n vec4 c2 = texture(iChannel0, (p+coords)/iResolution.xy).xyzw;\n vec3 c = c2.xyz / (c2.w+1.);\n //c = c*c *1.8;\n vec3 bok = pow(c,vec3(4.));\n s+=c*bok;\n div += bok;\n }\n \n s/=div;\n \n return s;\n \n}\n\nvoid mainImage( out vec4 fragColor, in vec2 fragCoord )\n{\n // Normalized pixel coordinates (from 0 to 1)\n vec2 uv = fragCoord/iResolution.xy;\n //vec3 col = texture(iChannel0, uv).xyz;\n // Output to screen\n vec3 col = blur2(uv, length((uv*2.0-1.0)*5.));\n float off = texture(iChannel0, uv).w;\n vec3 rad;\n vec2 offset2 = (fragCoord - iResolution.xy/2.)*1.;\n for(int i = 0; i < 20; i++){\n vec2 offset = fragCoord + offset2*smoothstep(0.,15.-length(uv*2.0-1.)*1.5, float(i)/20.)*1.;\n rad.x += texture(iChannel0, (offset+offset2*0.034)/iResolution.xy).x;\n rad.y += texture(iChannel0, (offset)/iResolution.xy).y;\n rad.z += texture(iChannel0, (offset-offset2*0.034)/iResolution.xy).z;\n\n }\n rad /= 16.;\n \n col += rad*0.8;\n col = clamp(col, 0., 1.);\n col = vec3(1.)-exp(-1.3*col);\n\n //NOT MY CODE//////////////////\n vec3 a = vec3(0.3,0.3,0.4)-0.4;\n col = mix(col, smoothstep(0.,1.,col),a);\n //////////////////////////////\n // Output to screen\n vec3 aa = vec3(1.0,1.1,1.1);\n col = sqrt(col/aa);\n col = (1.0/((1.0)+exp(-(10.)*(col-0.5))));\ncol = pow(col, vec3(1.5))*1.8;\n//col = pow(col, vec3(0.7,0.8,0.9));\ncol = ACESFilm(col);\n col = pow(col, vec3(1./2.2));\n \n fragColor = vec4(col,1.0);\n}\n\n","type":"Image"},{"class":"GLSLShader","name":"Shader1","source":"float ring(vec2 p, vec2 s){\nreturn length(normalize(p)*s.x - p)-s.y;\n}\n\nfloat box(vec2 p, vec2 s){\nvec2 a = abs(p)-s;\nreturn max(a.x,a.y);\n}\n\nvec3 pal(float es, vec3 a){\nreturn 0.5 + 0.5*cos(2.0*3.14159*es + a);\n}\nconst float pi = 3.14159;\nvec2 rot(vec2 a, float c){\nfloat g = c;\nfloat l = length(a);\na = normalize(a);\nfloat ang = atan(a.y,a.x)+g; \nreturn vec2(l*cos(ang),l*sin(ang));\n}\n\n//NOT MY CODE\nuint wang_hash(inout uint seed)\n{\n seed = uint(seed ^ uint(61)) ^ uint(seed >> uint(16));\n seed *= uint(9);\n seed = seed ^ (seed >> 4);\n seed *= uint(0x27d4eb2d);\n seed = seed ^ (seed >> 15);\n return seed;\n}\n \nfloat rndf(inout uint state)\n{\n return float(wang_hash(state)) / 4294967296.0;\n}\n/////////////\n\nfloat escape = 0.;\nfloat jb(vec3 p){\n float s=3., e;\n s*=e=3./min(dot(p,p),50.);\n p=abs(p)*e;\n escape = 0.;\n for(int i=0;i++<17;){\n p=vec3(2,4,2)-abs(p-vec3(2,4,2)),\n s*=e=8./min(dot(p,p),10.),\n p=abs(p)*e;\n escape += exp(-0.2*dot(p,p));\n }\n return min(length(p.xz)-.1,p.y)/s;\n}\n\nfloat jb3(vec3 p){\n float s=3., e;\n s*=e=3./min(dot(p,p),50.);\n p=abs(p)*e;\n escape = 0.;\n for(int i=0;i++<17;){\n p=vec3(2,4,2)-abs(p-vec3(2,4,2)),\n s*=e=8./min(dot(p,p),10.),\n p=abs(p)*e;\n escape += exp(-0.2*dot(p,p));\n }\n return min(length(p.xz)-.1,p.y)/s;\n}\n\n float DEmine(vec3 p0){\nvec4 p = vec4(p0, 1.);\nescape = 0.;\nfor(int i = 0; i < 7; i++){\np*=4.79;\np.xyz = mod(p.xyz-1.5, 3.)-1.5;\nfloat m = length(p.xyz);\n\np/=dot(p.xyz,p.xyz)+mod(m, 1.);\nescape += exp(-0.2*dot(p.xyz,p.xyz));\n}\n\nreturn length(p.xyz)/p.w;\n}\nvoid sphere_fold(inout vec3 z, inout float dz) {\n float fixed_radius2 = 1.9;\n float min_radius2 = .1;\n float r2 = dot(z, z);\n if(r2 < min_radius2) {\n float temp = (fixed_radius2 / min_radius2);\n z *= temp; dz *= temp;\n }else if(r2 < fixed_radius2) {\n float temp = (fixed_radius2 / r2);\n z *= temp; dz *= temp;\n }\n}\n\nfloat de22( vec3 p ){\n vec3 CSize = vec3(1., 1.7, 1.);\n p = p.xzy;\n float scale = 1.1;\n for( int i=0; i < 8;i++ ){\n p = 2.0*clamp(p, -CSize, CSize) - p;\n float r2 = dot(p,p+sin(p.z*.3));\n float k = max((2.)/(r2), .5);\n p *= k; scale *= k;\n }\n float l = length(p.xy);\n float rxy = l - 1.0;\n float n = l * p.z;\n rxy = max(rxy, (n) / 8.);\n return (rxy) / abs(scale);\n }\n/////////////////////////////////////\nfloat DEeerr(vec3 p0){\n//p0 = mod(p0, 2.)-1.;\n vec4 p = vec4(p0, 1.);\n escape = 0.;\n //p.xyz=1.0-abs(abs(p.xyz+sin(p.xyz)*1.)-1.);\n\n if(p.x < p.z)p.xz = p.zx;\n if(p.z > p.y)p.zy = p.yz;\n if(p.y > p.x)p.yx = p.xy;\n\n for(int i = 0; i < 12; i++){\n //if(p.x > p.z)p.xz = p.zx;\n //if(p.z > p.y)p.zy = p.yz;\n if(p.y > p.x)p.yx = p.xy;\n // p.xyz = abs(p.xyz);\n\n //box_fold(p.xyz);\n sphere_fold(p.xyz,p.w);\n //p.xyz = abs(p.xyz);\n uint seed = uint(p.x+p.y+p.z);\n p*=(1.9/clamp(dot(p.xyz,p.xyz),0.,1.0));\n p.xyz=abs(p.xyz)-vec3(3.5,.5,3.3);\n //p*=1.2;\np.yxz -= sin(float(i)*1.)*0.9;\n escape += exp(-0.2*dot(p.xyz,p.xyz));\n //vec3 norm = normalize(p.xyz);\n //float theta = acos(norm.z/length(norm.xyz));\n //float phi = atan(norm.y/norm.x);\n //escape = min(max(theta,phi),escape);\n }\n float m = 1.5;\n p.xyz-=clamp(p.xyz,-m,m);\nreturn (length(p.xyz)/p.w)*0.5;\n}\nfloat newde(vec3 p0){\nvec4 p = vec4(p0, 1.);\nescape = 0.;\np.xz = (p.x > p.z)?p.zx:p.xz;\n//p.yz = (p.y > p.z)?p.zy:p.yz;\np.xy = (p.x > p.y)?p.yx:p.xy;\n\nfor(int i = 0; i < 12; i++){\n//p = abs(p);\n//p.xz = (p.x > p.z)?p.zx:p.xz;\n//p.yz = (p.y > p.z)?p.zy:p.yz;\n//p.xy = (p.x > p.y)?p.yx:p.xy;\n\np.xyz = mod(p.xyz-1., 2.)-1.;\np *= 1.1/clamp(dot(p.xyz,p.xyz),0.,1.2);\n//p.xyz -= vec3(2.,0.4,0.6);\nescape += exp(-0.2*dot(p.xyz,p.xyz));\n}\np/=p.w;\nreturn abs(p.x)*0.25;\n}\n\nfloat fractal(vec3 p0){\n//p0 = mod(p0, 2.)-1.;\n vec4 p = vec4(p0, 1.);\n escape = 0.;\n p.xyz=abs(p.xyz);\n uint seed = uint(p.x+p.y+p.z);\n if(p.x < p.z)p.xz = p.zx;\n if(p.z > p.y)p.zy = p.yz;\n if(p.y > p.x)p.yx = p.xy;\n for(int i = 0; i < 12; i++){\n if(p.x < p.z)p.xz = p.zx;\n if(p.z < p.y)p.zy = p.yz;\n if(p.y < p.x)p.yx = p.xy;\n \n p.xyz = abs(p.xyz);\n\n p*=((1.4+rndf(seed)*0.1)/clamp(dot(p.xyz,p.xyz),0.5,1.));\n p.xyz-=vec3(0.2+rndf(seed)*0.2,0.6-rndf(seed)*0.3,2.3);\n p*=1.2-rndf(seed)*0.4;\n\n escape += exp(-0.2*dot(p.xyz,p.xyz));\n //vec3 norm = normalize(p.xyz);\n //float theta = acos(norm.z/length(norm.xyz));\n //float phi = atan(norm.y/norm.x);\n //escape = min(max(theta,phi),escape);\n }\n float m = 1.5;\n p.xyz-=clamp(p.xyz,-m,m);\nreturn (length(p.xyz)/p.w)*0.5;\n}\n\nfloat fractal_de46(vec3 p){\n float s = 2.;\n float e = 0.;\n escape = 0.;\n for(int j=0;++j<7;){\n p.xz=abs(p.xz)-2.3,\n p.z>p.x?p=p.zyx:p,\n p.z=1.5-abs(p.z-1.3+sin(p.z)*.2),\n p.y>p.x?p=p.yxz:p,\n p.x=3.-abs(p.x-5.+sin(p.x*3.)*.2),\n p.y>p.x?p=p.yxz:p,\n p.y=.9-abs(p.y-.4),\n e=12.*clamp(.3/min(dot(p,p),1.),.0,1.)+\n 2.*clamp(.1/min(dot(p,p),1.),.0,1.),\n p=e*p-vec3(7,1,1),\n s*=e;\n escape+=exp(-0.2*dot(p,p));\n }\n return length(p)/s;\n}\n\nfloat jb2(vec3 p){\n p.xz=fract(p.xz)-.5;\n escape = 0.;\n float k=1.;\n float s=0.;\n for(int i=0;i++<12;){\n s=2./clamp(dot(p,p),.1,1.),\n p=abs(p)*s-vec3(.4,5,.5),\n k*=s;\n escape += exp(-0.2*dot(p,p));\n }\n \n\n return length(p)/k-.001;\n}\nvec2 hash2( vec2 p )\n{\n\treturn textureLod( iChannel0, (p+0.5)/256.0, 0.0 ).xy;\n}\nvec2 voronoi(vec2 p){\nvec2 f = floor(p);\nvec2 res = vec2(8.);\nfor(int i = 0; i < 9; i++){\nvec2 coords = f + vec2(mod(float(i),3.)-1., float(i/3)-1.);\nvec2 o = hash2( coords );\no = 0.5 + 0.4*sin(6.2831*o );\nvec2 pos = (coords+o);\nfloat d = dot(pos-p,pos-p);\nif( d < res.x )\n{\n res.y = res.x;\n res.x = d;\n}\nelse if( d < res.y )\n{\n res.y = d;\n}\n}\nreturn res;\n}\n\nvec3 lens(vec2 p, vec2 mouse,inout uint k){\nvec3 col = vec3(exp(-20.*length(mouse-p)));\ncol += exp(-20.*length(-mouse*rndf(k)*0.5-p));\ncol += exp(-ring(-mouse*0.4-p, vec2(0.7, 0.01))*20.)\n*sin(texture(iChannel0, normalize(p*rndf(k))).x);\ncol *= pal(exp(-length(-mouse*rndf(k)*0.9-p)), vec3(0.9,0.5,0.9));\nfor(int i = 0;i < 5; i++){\ncol += exp(-ring(mouse*2.*(0.1+float(i)/5.0)-p, vec2(0.1-float(i)/15.0, 0.001*float(i+1)))*20.);\n}\ncol *= pal(length(mouse*rndf(k)-p), vec3(0.9,0.5,0.4))*0.4;//\n//col += exp(-length(mouse-p))*vec3(0.9,0.6,0.2)\n//*sin(texture(iChannel0, normalize(mouse-p)).x)*exp(-length(mouse-p)*5.)*2.;\n//col += exp(-length(mouse-p)*10.)*2.;\n//col *= pal(length(-mouse-p)*10., vec3(0.9,0.4,0.9));\ncol += exp(-(abs(box(-mouse*rndf(k)-p, vec2(0.1)))+0.2)*20.);\ncol += exp(-jb3((vec3(p*2.,iTime*0.4))/2.)*1000.);\ncol *= pal(escape, vec3(0.9,0.4,0.2));\n\ncol += exp(-voronoi(p).x*200.);\ncol *= pal(escape, vec3(0.9,0.4,0.2));\n\nreturn col;\n}\n\nvoid mainImage( out vec4 fragColor, in vec2 fragCoord )\n{\n // Normalized pixel coordinates (from 0 to 1)\n vec2 uv = fragCoord/iResolution.xy;\n ///NOT MY CODE///\n uint r = uint(uint(fragCoord.x) * uint(1973) \n + uint(fragCoord.y) * uint(9277) \n + uint(iFrame) * uint(26699)) | uint(1);\n \n ///////////////\n \n \nuv = uv * 2.0 - 1.0;\nuv.x *= 1.3;\nuv.y /= 1.3;\nuv *= 3.5;\n // Time varying pixel color\n vec2 mouse = iMouse.xy / iResolution.xy;\n mouse = mouse * 2.0 - 1.0;\n vec3 col = vec3(0.);\n \n for(int i = 0; i < 15; i++){\n uint k = uint(i+1);\n float offset = rndf(k);\n col += lens(rot(uv*(rndf(k)+0.04), offset*iTime), vec2(cos(offset*2.*3.14159+iTime), sin(offset*2.*3.14159-iTime)), k)*offset*0.4;\n }\n\n // Output to screen\n fragColor = vec4(col,1.0);\n}\n\n\n","type":"Image"},{"class":"Texture","data":"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