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new tessellation samples
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1
tessellations/README.txt
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1
tessellations/README.txt
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go to https://github.com/zenorogue/tes-catalog for more!
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7
tessellations/affine/affine-fathauer-1-1-1.tes
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7
tessellations/affine/affine-fathauer-1-1-1.tes
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## Fathauer triangle spiral, family 1, m=1, n=3
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a2.
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angleunit(deg)
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let(fi = (1+sqrt(5))/2)
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let(one = test(1/fi + 1/fi^2))
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tile(1,36,fi,36,1/fi,180,1/fi^2,108)
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conway("(0 2)(1 3)")
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7
tessellations/affine/affine-square.tes
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7
tessellations/affine/affine-square.tes
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## square grid with affine transformations
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a2.
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angleunit(deg)
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tile(1,90,1,90,1,90,1,90)
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conway("[0 2](1 3)")
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# in the direction '0-2', stretch them by 1% and shear them by 50% (note that the direction is mirrored)
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stretch_shear(1.5, 0.5, 0, 0)
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7
tessellations/affine/golden-spiral.tes
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7
tessellations/affine/golden-spiral.tes
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## Golden Spiral as an affine tessellation
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a2.
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angleunit(deg)
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let(fi = (1+sqrt(5))/2)
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let(one = test(1/fi + 1/fi^3 + 1/fi^4))
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tile(1,90,1,90,1,90,1/fi,180,1/fi^4,180,1/fi^3,90)
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conway("(0 3)(1 4)(2 5)")
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12
tessellations/sample/brickwork.tes
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12
tessellations/sample/brickwork.tes
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## brickwork
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## a simple test
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e2.
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angleunit(deg)
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# 1's are edge lengths, and 0s and 90s are external angles, given in angleunits (i.e. degrees)
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tile(1,180,1,90,1,90,1,180,1,90,1,90)
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# consecutive edges in 'tile' description are numbered: 0, 1, 2, 3, 4, 5
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# consecutive tile types are numbered: 0, 1, 2, ... (here there is just one type)
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# the last 0 means that there is no mirroring
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c(0,0,0,3,0)
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c(0,1,0,4,0)
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c(0,2,0,5,0)
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54
tessellations/sample/circlelimit3.tes
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54
tessellations/sample/circlelimit3.tes
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## Escher's Circle Limit III
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## Instructions:
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## load this;
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## load Escher's Circle Limit III in the texture mode;
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## "scale/rotate the texture" until centers of octagons coincide with center of Escher's squares;
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## you may "select master triangles" and pick triangles closer to the center;
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## enable the texture
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h2.
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angleunit(2*pi/3)
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distunit(edge(8,3))
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unittile(1,1,1,1,1,1,1,1) # YG
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unittile(1,1,1,1,1,1,1,1) # YB
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unittile(1,1,1,1,1,1,1,1) # YR
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unittile(1,1,1,1,1,1,1,1) # RG
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unittile(1,1,1,1,1,1,1,1) # RB
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unittile(1,1,1,1,1,1,1,1) # GB
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c(0,0,3,1,0)
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c(0,1,5,2,0)
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c(0,2,1,3,0)
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c(0,3,2,2,0)
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c(1,0,5,1,0)
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c(1,1,4,0,0)
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c(1,2,2,3,0)
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c(2,0,4,3,0)
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c(2,1,3,2,0)
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c(3,0,5,3,0)
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c(3,3,4,2,0)
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c(4,1,5,0,0)
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c(0,4,3,5,0)
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c(0,5,5,6,0)
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c(0,6,1,7,0)
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c(0,7,2,6,0)
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c(1,4,5,5,0)
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c(1,5,4,4,0)
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c(1,6,2,7,0)
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c(2,4,4,7,0)
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c(2,5,3,6,0)
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c(3,4,5,7,0)
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c(3,7,4,6,0)
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c(4,5,5,4,0)
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# these lines repeat connections from (0123) to (4567), and also tell the texture mode that four triangles should be repeated twice
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# (put them after specifying connections); however, it works better without them
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# repeat(0, 2)
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# repeat(1, 2)
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# repeat(2, 2)
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# repeat(3, 2)
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# repeat(4, 2)
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# repeat(5, 2)
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62
tessellations/sample/circlelimit3b.tes
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62
tessellations/sample/circlelimit3b.tes
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## Escher's Circle Limit III, mapped to {12,3}
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## After mapping circlelimit3.tes, change the tes file to this one
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h2.
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angleunit(2*pi/3)
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distunit(edge(12,3))
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unittile(1,1,1,1,1,1,1,1,1,1,1,1) # YG
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unittile(1,1,1,1,1,1,1,1,1,1,1,1) # YB
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unittile(1,1,1,1,1,1,1,1,1,1,1,1) # YR
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unittile(1,1,1,1,1,1,1,1,1,1,1,1) # RG
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unittile(1,1,1,1,1,1,1,1,1,1,1,1) # RB
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unittile(1,1,1,1,1,1,1,1,1,1,1,1) # GB
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c(0,0,3,1,0)
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c(0,1,5,2,0)
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c(0,2,1,3,0)
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c(0,3,2,2,0)
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c(1,0,5,1,0)
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c(1,1,4,0,0)
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c(1,2,2,3,0)
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c(2,0,4,3,0)
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c(2,1,3,2,0)
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c(3,0,5,3,0)
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c(3,3,4,2,0)
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c(4,1,5,0,0)
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c(0,4,3,5,0)
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c(0,5,5,6,0)
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c(0,6,1,7,0)
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c(0,7,2,6,0)
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c(1,4,5,5,0)
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c(1,5,4,4,0)
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c(1,6,2,7,0)
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c(2,4,4,7,0)
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c(2,5,3,6,0)
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c(3,4,5,7,0)
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c(3,7,4,6,0)
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c(4,5,5,4,0)
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c(0,8,3,9,0)
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c(0,9,5,10,0)
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c(0,10,1,11,0)
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c(0,11,2,10,0)
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c(1,8,5,9,0)
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c(1,9,4,8,0)
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c(1,10,2,11,0)
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c(2,8,4,11,0)
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c(2,9,3,10,0)
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c(3,8,5,11,0)
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c(3,11,4,10,0)
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c(4,9,5,8,0)
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# these lines repeat connections from (0123) to (4567), and also tell the texture mode that four triangles should be repeated twice
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# (put them after specifying connections); however, it works better without them
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# repeat(0, 2)
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# repeat(1, 2)
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# repeat(2, 2)
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# repeat(3, 2)
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# repeat(4, 2)
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# repeat(5, 2)
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28
tessellations/sample/circlelimit3c.tes
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28
tessellations/sample/circlelimit3c.tes
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## Escher's Circle Limit III, mapped to sphere
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## After mapping circlelimit3.tes, change the tes file to this one
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s2.
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angleunit(2*pi/3)
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distunit(1)
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distunit(edge(4,3))
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unittile(1,1,1,1) # YG
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unittile(1,1,1,1) # YB
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unittile(1,1,1,1) # YR
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unittile(1,1,1,1) # RG
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unittile(1,1,1,1) # RB
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unittile(1,1,1,1) # GB
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c(0,0,3,1,0)
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c(0,1,5,2,0)
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c(0,2,1,3,0)
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c(0,3,2,2,0)
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c(1,0,5,1,0)
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c(1,1,4,0,0)
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c(1,2,2,3,0)
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c(2,0,4,3,0)
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c(2,1,3,2,0)
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c(3,0,5,3,0)
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c(3,3,4,2,0)
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c(4,1,5,0,0)
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9
tessellations/sample/floret.tes
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9
tessellations/sample/floret.tes
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## floret-like tiling
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## from Marek14's post in HyperRogue discord
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e2.
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angleunit(deg)
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tile(1,60,3,120,1,120,1,60,1,240,1,180,1,120)
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c(0,0,0,6,0)
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c(0,1,0,1,0)
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c(0,2,0,5,0)
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c(0,3,0,4,0)
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8
tessellations/sample/hexiamond.tes
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8
tessellations/sample/hexiamond.tes
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## {3,7} hexiamond
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h2.
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angleunit(2*pi/7)
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distunit(edge(3,7))
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unittile(1,3,1,4,1,3,1,4)
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conway("(0 1)(2 3)(4 5)(6 7)")
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sublines(1)
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# warning: this one is "nonorientable"
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26
tessellations/sample/hr-standard-tiling.tes
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26
tessellations/sample/hr-standard-tiling.tes
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## HyperRogue standard tiling
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h2.
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# we compute the edge length of the Archimedean tessellation we are using
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distunit(arcmedge(6,6,7))
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# note: subsequent results of arcmedge are given in terms of distunit
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# regangle(A,B) returns the internal angle of a B-gon with sidelength A
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let(u6 = regangle(1, 6))
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let(u7 = regangle(1, 7))
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unittile(u6,u6,u6,u6,u6,u6)
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unittile(u7,u7,u7,u7,u7,u7,u7)
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c(0,0,0,0,0)
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c(0,2,0,2,0)
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c(0,4,0,4,0)
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c(0,1,1,0,0)
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c(0,3,1,1,0)
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c(0,5,1,2,0)
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c(0,1,1,3,0)
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c(0,3,1,4,0)
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c(0,5,1,5,0)
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c(0,1,1,6,0)
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11
tessellations/sample/marek313.tes
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11
tessellations/sample/marek313.tes
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## {3,13} pentiamond
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## from Marek14's post in HyperRogue discord
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h2.
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angleunit(2*pi/13)
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distunit(edge(3,13))
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tile(1,2,1,3,1,2,1,1,1,3,1,3,1,1)
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c(0,0,0,6,0)
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c(0,1,0,1,0)
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c(0,2,0,2,0)
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c(0,3,0,4,0)
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c(0,5,0,5,0)
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28
tessellations/sample/marjorie-rice.tes
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28
tessellations/sample/marjorie-rice.tes
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## Marjorie Rice tiling
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## see: "Marjorie Rice and the MAA tiling", Doris Schattschneider
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e2.
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angleunit(deg)
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let(u=sqrt(3)/3)
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tile(1, 150, u, 120, u, 90, 1, 120, 1, 60)
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tile(1, 150, u, 120, u, 90, 1, 120, 1, 60)
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tile(1, 150, u, 120, u, 90, 1, 120, 1, 60)
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#c(0,0,0,4,0)
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#c(0,3,2,3,0)
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#c(0,1,2,2,0)
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#c(0,2,1,1,0)
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#c(2,1,1,2,0)
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#c(1,0,2,4,0)
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#c(2,0,2,0,0)
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#c(1,3,1,4,0)
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# in Conway notation, tile #k can be identified with k primes or with @k
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conway("(0 4)(3 3'')(1 2'')(2 1')(1'' 2')(0' 4'')(0'')(3' 4')")
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# affect Vineyard/Zebra/Land of Power
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line(0)
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# heptagon role (affects e.g. Graveyard)
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grave(1)
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# draw sublines in the grid, for every pair of vertices in distance of 1 distunit
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sublines(1)
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20
tessellations/sample/sliders.tes
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20
tessellations/sample/sliders.tes
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## triangle alpha-beta-gamma, where alpha+beta+gamma = 120 degrees
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##
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## You can change alpha, beta, and gamma using 'tessellation sliders' in the geometry experiments menu.
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##
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h2.
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angleunit(deg)
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slider(a,40,0,120)
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slider(b,40,0,120)
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let(c = 120-a-b)
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let(ea=edge_angles(a,b,c))
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let(eb=edge_angles(b,c,a))
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let(ec=edge_angles(c,a,b))
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tile(ea, b, ec, a, eb, c)
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conway("(0)(1)(2)")
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cscale(.75)
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21
tessellations/sample/sliders2.tes
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21
tessellations/sample/sliders2.tes
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## triangle alpha-beta-gamma, where alpha+beta+gamma = 120 degrees
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##
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## You can change alpha, beta, and gamma using 'tessellation sliders' in the geometry experiments menu.
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##
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## You can choose all three angles. Sliders are not allowed to change the structure of the map,
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## so if they do not add up to 120 degrees, they will not match.
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##
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h2.
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angleunit(deg)
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slider(a,40,0,120)
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slider(b,40,0,120)
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slider(c,40,0,120)
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let(ea=edge_angles(a,b,c))
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let(eb=edge_angles(b,c,a))
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let(ec=edge_angles(c,a,b))
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tile(ea, b, ec, a, eb, c)
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conway("(0)(1)(2)")
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22
tessellations/sample/star.tes
Normal file
22
tessellations/sample/star.tes
Normal file
@ -0,0 +1,22 @@
|
|||||||
|
## {4,6}, tromino 1S, solution 1
|
||||||
|
s2.
|
||||||
|
|
||||||
|
# we compute the edge length
|
||||||
|
#distunit(edge(5/2,3))
|
||||||
|
#distunit(edge(5,5/2))
|
||||||
|
distunit(edge(5/2,5))
|
||||||
|
|
||||||
|
# note: subsequent results of arcmedge are given in terms of distunit
|
||||||
|
|
||||||
|
# regangle(A,B) returns the internal angle of a B-gon with sidelength A
|
||||||
|
|
||||||
|
|
||||||
|
#let(u5 = 2*pi/3)
|
||||||
|
#let(u5 = 4*pi/5)
|
||||||
|
let(u5 = 2*pi/5)
|
||||||
|
|
||||||
|
unittile(u5,u5,u5,u5,u5)
|
||||||
|
|
||||||
|
c(0,0,0,0,0)
|
||||||
|
c(0,1,0,3,0)
|
||||||
|
c(0,2,0,4,0)
|
12
tessellations/sample/twothree.tes
Normal file
12
tessellations/sample/twothree.tes
Normal file
@ -0,0 +1,12 @@
|
|||||||
|
## two-three tiling
|
||||||
|
## from Marek14's post in HyperRogue discord
|
||||||
|
e2.
|
||||||
|
angleunit(deg)
|
||||||
|
tile(1,90,2,90,1,90,2,90)
|
||||||
|
tile(1,90,1,180,1,180,1,90,1,90,1,180,2,90)
|
||||||
|
c(0,3,0,3,0)
|
||||||
|
c(0,0,1,2,0)
|
||||||
|
c(0,1,1,6,0)
|
||||||
|
c(0,2,1,3,0)
|
||||||
|
c(1,0,1,1,0)
|
||||||
|
c(1,4,1,5,0)
|
Loading…
Reference in New Issue
Block a user