include function _lsystem_recurse(s, rules, lev) = lev<=0? s : _lsystem_recurse([ for ( i = 0, slen = len(s), sout = ""; i <= slen; ch = s[i], found = search([ch], rules)[0], sout = str(sout, i==slen? "" : found==[]? ch : rules[found][1]), i = i + 1 ) if (i==slen) sout ][0], rules, lev-1); function _lsystem_to_turtle(s, step=1, angle=90, startang=0) = concat( startang? ["left", startang] : [], ["angle", angle, "length", step], [ for ( i = 0, slen = len(s); i <= slen; ch = s[i], cmd = (ch=="A" || ch=="B" || ch=="F")? ["move"] : (ch=="+")? ["left"] : (ch=="-")? ["right"] : [], i=i+1 ) if(i>0 && cmd!=[]) each cmd ] ); function lsystem_turtle(basis, rules, levels=5, step=1, angle=90, startang=0) = turtle(_lsystem_to_turtle(_lsystem_recurse(basis, rules, levels), step=step, angle=angle, startang=startang)); function dragon_curve (levels=9, step=1) = lsystem_turtle(levels=levels, step=step, angle=90, "FX", [["X", "X+YF+"], ["Y", "-FX-Y"]]); function terdragon_curve (levels=7, step=1) = lsystem_turtle(levels=levels, step=step, angle=120, "F", [["F", "F+F-F"]]); function twindragon_curve (levels=11, step=1) = lsystem_turtle(levels=levels, step=step, angle=90, "FX+FX+", [["X", "X+YF"], ["Y","FX-Y"]]); function moore_curve (levels=4, step=1) = lsystem_turtle(levels=levels, step=step, angle=90, "LFL+F+LFL", [["L", "-RF+LFL+FR-"], ["R", "+LF-RFR-FL+"]]); function hilbert_curve (levels=4, step=1) = lsystem_turtle(levels=levels, step=step, angle=90, "X", [["X","-YF+XFX+FY-"], ["Y","+XF-YFY-FX+"]]); function gosper_curve (levels=4, step=1) = lsystem_turtle(levels=levels, step=step, angle=60, "A", [["A", "A-B--B+A++AA+B-"], ["B", "+A-BB--B-A++A+B"]]); function quadratic_gosper (levels=2, step=1) = lsystem_turtle(levels=levels, step=step, angle=90, "-YF", [["X", "XFX-YF-YF+FX+FX-YF-YFFX+YF+FXFXYF-FX+YF+FXFX+YF-FXYF-YF-FX+FX+YFYF-"], ["Y", "+FXFX-YF-YF+FX+FXYF+FX-YFYF-FX-YF+FXYFYF-FX-YFFX+FX+YF-YF-FX+FX+YFY"]]); function peano_curve (levels=4, step=1) = lsystem_turtle(levels=levels, step=step, angle=90, "X", [["X","XFYFX+F+YFXFY-F-XFYFX"], ["Y","YFXFY-F-XFYFX+F+YFXFY"]]); function koch_snowflake (levels=4, step=1) = lsystem_turtle(levels=levels, step=step, angle=60, "F++F++F", [["F","F-F++F-F"]]); function sierpinski_arrowhead(levels=6, step=1) = lsystem_turtle(levels=levels, step=step, angle=60, "A", [["A", "B-A-B"], ["B","A+B+A"]]); function sierpinski_triangle (levels=4, step=1) = lsystem_turtle(levels=levels, step=step, angle=120, "A-B-B", [["A","A-B+A+B-A"], ["B","BB"]]); function square_sierpinski (levels=5, step=1) = lsystem_turtle(levels=levels, step=step, angle=90, "F+XF+F+XF", [["X","XF-F+F-XF+F+XF-F+F-X"]]); function cesaro_curve (levels=4, step=1) = lsystem_turtle(levels=levels, step=step, angle=85, "F", [["F","F+F--F+F"]]); function paul_bourke1 (levels=3, step=1) = lsystem_turtle(levels=levels, step=step, angle=90, "F+F+F+F+", [["F","F+F-F-FF+F+F-F"]]); function paul_bourke_triangle(levels=6, step=1) = lsystem_turtle(levels=levels, step=step, angle=120, "F+F+F", [["F","F-F+F"]]); function paul_bourke_crystal (levels=4, step=1) = lsystem_turtle(levels=levels, step=step, angle=90, "F+F+F+F", [["F","FF+F++F+F"]]); function space_filling_tree (levels=4, step=1) = lsystem_turtle(levels=levels, step=step, angle=90, "X", [["X","FX++F-FX++F-FX++F-FX++F-"],["F", "FF"]], startang=45); function krishna_anklets (levels=6, step=1) = lsystem_turtle(levels=levels, step=step, angle=45, "-X--X", [["X","XFX--XFX"]]); points = hilbert_curve(levels=5, step=100/pow(2,5)); stroke(points, width=1); // vim: expandtab tabstop=4 shiftwidth=4 softtabstop=4 nowrap