readme, fixup
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fdb.lua
2
fdb.lua
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@ -3,7 +3,7 @@
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local ORDER = 100
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local binCoefs = {}
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--memoized binonmial coefficient
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local function Choose( n, k )
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if k < 1 then return 1 end
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if n < 1 then return 0 end
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22
main.lua
22
main.lua
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@ -72,17 +72,24 @@ local function PlotFunction( f, color )
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love.graphics.translate( - plot.x, - plot.y )
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love.graphics.setLineWidth( 0.003 * (plot.X - plot.x) )
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love.graphics.setColor( 0.5, 0.5, 0.5, 0.3 )
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love.graphics.line( -10, -10, 10, 10 )
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love.graphics.line( -10, 0, 10, 0 )
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love.graphics.line( 0, -10, 0, 10 )
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if color then love.graphics.setColor( color ) end
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love.graphics.line( plot.inverse and inverse or points )
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love.graphics.circle( "fill", a, a, 0.003 * (plot.X - plot.x) )
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love.graphics.pop()
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love.graphics.setFont( love.graphics.getFont( 48 ) )
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love.graphics.print( a )
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love.graphics.print( plot.fdbOrder, 0, 15 )
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love.graphics.print( f(a), 0, 30 )
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love.graphics.print( f(-1.0), 0, 45 )
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love.graphics.setColor( 1,1,1,1 )
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love.graphics.setFont( love.graphics.getFont( 48 ) )
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end
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end
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@ -92,7 +99,7 @@ love.wheelmoved = function( x, y )
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end
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love.mousepressed = function(x, y, button)
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--plot.inverse = not( plot.inverse )
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plot.inverse = not( plot.inverse )
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plot.fdbOrder = plot.fdbOrder + (( button == 1 ) and 1 or -1 )
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return love.keypressed()
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end
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@ -116,18 +123,15 @@ love.keypressed = function( key, code )
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love.draw = nil
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local f, df, fn = Poly( FaaDiBruno( a, plot.fdbOrder ) )
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--PlotFunction( f, {1, 0, 0, 0.3} ) --Function in red.
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--PlotFunction( df, {0, 1, 0, 0.3} ) --First derivative in green.
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--local lowF, lowDF = Poly( FaaDiBruno( a, 15 ) )
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--PlotFunction( lowF, {1, 0, 0, 0.3} ) --Function in red.
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--PlotFunction( lowDF, {0, 1, 0, 0.3} ) --First derivative in green.
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PlotFunction( f, {1, 0, 0, 0.7} ) --Function in red.
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PlotFunction( df, {0, 1, 0, 0.7} ) --First derivative in green.
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--PlotFunction( function(x) return df( f ( x ) ) end, {0, 0, 1, 0.3})
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--PlotFunction( function(x) return f( df ( x ) ) end, {1, 1, 1, 0.3})
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--PlotFunction( function(x) return x end, {1, 1, 1, 0.3})
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local af, an = Poly( Ansatz.coefs )
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PlotFunction( af, {1,1,1, 0.3} )
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PlotFunction( an, {1,1,1, 0.3} )
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--PlotFunction( af, {1,1,1, 0.3} )
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--PlotFunction( an, {1,1,1, 0.3} )
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PlotFunction( Ansatz.dpo, {1, 1, 1, 0.3} )
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PlotFunction( Ansatz.pos, {1,1,1,0.3} )
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end
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@ -0,0 +1,23 @@
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Bespoke script for calculating and plotting some series solutions
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of the functional equation f'( f( x ) ) = x.
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Idea: suppose f has fixed point p,
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apply the chain rule to functional equation
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get values of f's derivatives at p
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get truncated taylor series expansion of f at p,
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plot series to get some idea about values, convergence.
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We use Faa Di Bruno's formula for iterated derivatives, in terms of Bell numbers.
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We also plot the "ansatz" solution, i.e. the solution of the form x -> a * x ^ b where a and b are positive.
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Uses LOVE as a dependency for its plotting: https://love2d.org
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Solution is plotted in red, first derivative is plotted in green.
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Keys:
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Q - Increase p
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E - Decrease p
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WASD - Translate view
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Z - Zoom in
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C - Zoom out
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F - Increase order of series expansion
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R - Decrease order
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