Difference between revisions of "Autograph"
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* the width of the line | * the width of the line | ||
It is targeted to beginners in asymptote who don't want to learn all of it, but still want to make nice graphs. | It is targeted to beginners in asymptote who don't want to learn all of it, but still want to make nice graphs. | ||
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+ | This code is currently developed by PythonNut, a AoPS user. The changes are kept on his blog. | ||
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==Examples== | ==Examples== | ||
Some pretty graphs: | Some pretty graphs: |
Revision as of 18:48, 30 July 2011
Autograph
Autograph is a piece of code written in Asymptote that graphs functions. The user must only set the function, and optionally
- the x and y maximums and minimums
- the color of the graph line
- the density of the ticks
- whether to show the grid or not
- wether to mark lattice points or not
- the ratio of x to y
- the width of the line
It is targeted to beginners in asymptote who don't want to learn all of it, but still want to make nice graphs.
This code is currently developed by PythonNut, a AoPS user. The changes are kept on his blog.
Examples
Some pretty graphs:
The code
The code is:
/* AUTO-GRAPH V-4 beta by PythonNut*/ /* Customizations: feel free to edit */ import math; import graph; /* x maximum and minimum */ int X_max = 10; int X_min =-10; /* y maximum and minimum */ int Y_max = 10; int Y_min = -10; /* linewidth */ real line_width = 0.75; /* graph color */ pen graph_color = heavygreen; /* special */ bool mark_lattice = false; bool show_grid = true; real X_tick_density = 1; real Y_tick_density = 1; real ratio = 1; real resolution = 0.0001; int size = 300; /* graph function */ real f(real x) { return 2x^3-6x^2+3x-1; /* type function to be graphed here */ } /* The Code. Do not disturb unless you know what you are doing */ bool ib(real t){ return (Y_min <= f(t) && f(t) <= Y_max); } size(size);unitsize(size*ratio,size);Label l;l.p=fontsize(6); xaxis("$x$",X_min,X_max,Ticks(l,X_tick_density,(X_tick_density/2),NoZero),Arrows); yaxis("$y$",Y_min,Y_max,Ticks(l,Y_tick_density,(Y_tick_density/2),NoZero),Arrows);// if (show_grid){add(shift(X_min,Y_min)*grid(X_max-X_min,Y_max-Y_min));} real t, T1, T2; for (T1 = X_min ; T1 <= X_max ; T1 += resolution){ while (! ib(T1) && T1 <= X_max){T1 += resolution;} if(T1 > X_max){break;} T2 = T1; while ( ib(T1) && T1 <= X_max){T1 += resolution;} T1 -= resolution; draw(graph(f,T2,T1,n=2400),graph_color+linewidth(line_width),Arrows); } if (mark_lattice){ for (t = X_min; t <= X_max; ++t){ if (f(t)%1==0 && ib(t)){ dot((t,f(t)),graph_color+linewidth(line_width*4)); } } } dot((0,0));
Autograph Micro
Autograph micro is a version of autograph made to fit in the AoPS classroom character limit.
[asy]int X=10,x=-10,Y=10,y=-10; real f(real x){return 11*sin(x);} size(300); Label l;l.p=fontsize(6);dot((0,0)); xaxis(x,X,Ticks(l,1.0,0.5));yaxis(y,Y,Ticks(l,1.0,0.5)); add(shift(x,y)*grid(X-x,Y-y)); draw(graph(f,x,X,n=2400),heavygreen+linewidth(1),Arrows); clip((x,y)--(x,Y)--(X,Y)--(X,y)--cycle);[/asy]
Autograph implicit
Autograph implicit Is a version of Autograph used to graph implicit functions such as The code is
[asy] /* AUTO-GRAPH implict by PythonNut*/ /* Customizations: feel free to edit */ import math; import graph; import contour; /* x maximum and minimum */ int X_max = 10; int X_min =-10; /* y maximum and minimum */ int Y_max = 10; int Y_min = -10; /* graph color */ pen graph_line = heavygreen+linewidth(0.75); /* special */ bool show_grid = true; real X_tick_density = 1; real Y_tick_density = 1; real ratio = 1; int size = 300; real value = 2.5; /* value to set to */ /* graph function */ real f(real x, real y) { return x^13+5*x^5*y^3+x*y^5+y^5; /* type function to be graphed here */ } /* The Code. Do not disturb unless you know what you are doing */ size(size);unitsize(size*ratio,size);Label l;l.p=fontsize(6); xaxis("$x$",X_min,X_max,Ticks(l,X_tick_density,(X_tick_density/2),NoZero),Arrows); yaxis("$y$",Y_min,Y_max,Ticks(l,Y_tick_density,(Y_tick_density/2),NoZero),Arrows);// if (show_grid){add(shift(X_min,Y_min)*grid(X_max-X_min,Y_max-Y_min));} draw(contour(f,(X_min,Y_min),(X_max,Y_max), new real[] {value}),graph_line);[/asy]