ASCII-Plot the equation

Question

You are given a polynomial function, in the following format:

\$x = (c_0 * y^0) + (c_1 * y^1) + (c_2 * y^2) + ... + (c_n * y^n)\$

where \$c_n\$ stands for the coefficient of the \$n^{th}\$ power of \$y\$

You have to plot the equation on a \$10 * 10\$ ASCII matrix. The value must be floored to an integer before plotting. If \$y < 0\$ or \$y > 9\$, then do not plot. For simplicity, we are assuming the top left corner to be \$(0,0)\$.

A . represents an empty space, and * represents a point on the graph. You can choose any characters to represent both of the things as per your convenience but do mention what you use in your answer.

You may take the input as a list/array of coefficients, or, as a string in the above specified format.

Examples:

Input -> x = (1 * y^1)
Output ->
*.........
.*........
..*.......
...*......
....*.....
.....*....
......*...
.......*..
........*.
.........*

Input -> x = (9 * y^0) + (-1 * y^1)
Output ->
.........*
........*.
.......*..
......*...
.....*....
....*.....
...*......
..*.......
.*........
*.........

Input -> x = (0.10 * y^2)
Output ->
*.........
*.........
*.........
*.........
.*........
..*.......
...*......
....*.....
......*...
........*.

Input -> x = (3 * y^1)
*.........
...*......
......*...
.........*
..........
..........
..........
..........
..........
..........

Hint: eval can be helpful here.

Inspired by a clash of code problem from https://www.codingame.com/

Answer 1

APL (Dyalog Unicode), 15 bytes

Full program. Takes list of coefficients in descending order. Returns Binary matrix. Requires 0-based indexing (⎕IO←0).

a∘.=⍨⌊⎕⊥⍨⍪a←⍳10

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⍳10 indices 0…9

a← store as a

⍪ make into column vector

⎕⊥⍨ prompt for coefficients and evaluate the them as digits in base each-element-of-a

⌊ floor

a∘.=⍨ equality table with a horizontally

Answer 2

Factor + math.polynomials, 73 bytes

[ 10 iota dup -rot '[ _ polyval 1 /i _ [ = pprint ] with each nl ] each ]

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Takes a sequence of coefficients from low to high. polyval handles the actual evaluation of the polynomial; the rest is just data plumbing and output.

1 /i is to convert from a float to integer, as it is shorter than >integer (and floor doesn't produce an integer in Factor [AND 1 /i = is shorter than number= by 1 byte]). I found a locals solution that was the same length, but couldn't save any bytes. You can save 2 bytes by using a modern version of Factor with tuck, but meh.

Prints t for a point on the graph and f for empty space.

Answer 3

Charcoal, 10 bytes

Ｅχ⭆χ⁼λ⌊↨ιθ

Try it online! Takes input as a list of coefficients (in order of highest power of y down to 1) and outputs a binary matrix. Explanation:

 χ          Predefined variable 10
Ｅ           Map over implicit range
   χ        Predefined variable 10
  ⭆         Map over implicit range and join
         θ  Input coefficients
        ι   Outer index
       ↨    Evaluate polynomial
      ⌊     Floor
     λ      Inner index
    ⁼       Do they equal?
            Implicitly print

Answer 4

J, 15 bytes

-2 thanks to Jonah!

(<.@p.=/])i.@10

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Execute the left function with i.@10 (0 1 2 … 9) as the right argument. <.@p. apply polynomial (thanks J for the built-in!) to each i.@10, floor and compare each result to i.@10 with =/.

Answer 5

JavaScript (ES7),  87 85 83  81 bytes

Expects an array of coefficients, from lowest to highest.

a=>(g=x=>y>9?'':`
*.`[x>9?x=++y-y:a.reduce((p,c,i)=>p+c*y**i)^x++?2:1]+g(x))(y=0)

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Commented

a => (                   // a[] = input array of coefficients
  g = x =>               // g is a recursive function taking x
  y > 9 ?                // if this is the end of the graph:
    ''                   //   stop the recursion
  :                      // else:
    `\n*.`[              //   lookup string: 0 = '\n', 1 = '*', 2 = '.'
      x > 9 ?            //   if this is the end of the row:
        x = ++y - y      //     increment y, set x to 0, yield 0
      :                  //   else:
        a.reduce(        //     compute P(y)
          (p, c, i) =>   //       which is the sum of all
          p + c * y ** i //       a[i] * y ** i
        ) ^ x++          //     test whether floor(P(y)) = x
        ? 2              //     and yield 2 if it's not
        : 1              //     or 1 if it is
    ] +                  //
    g(x)                 //   do a recursive call
)(y = 0)                 // initial call with x = y = 0

Answer 6

Stax, 20 bytes

éR▒Å╗←û%╞.A◄→⌐‼²GÑd,

Run and debug it

Very long, partly due to floor not working on integers.

uses 1 and 0 as the display chars.

Answer 7

Python 3, 86 bytes

lambda l,r=range(10):[[i==sum(c*x**n for n,c in enumerate(l))//1for i in r]for x in r]

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Takes a list of coefficients in ascending power. Outputs a list of lists of booleans.

Answer 8

C (gcc), ^{164 \$\cdots\$ 123} 111 bytes

Saved 2 bytes thanks to att!!!

y;i;f(l,n,x)float*l,x;{for(y=-1;x=y++<9;i=x>=1&x<11?x:0,puts("         *"+10-i))for(i=n;i--;)x+=l[i]*pow(y,i);}

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Uses the space ( ) character for background and an asterisk (*) for plot points.

Answer 9

Haskell, 200 bytes

p[]x=0;p(s:r)x=x*p r x+s
q f=[[b$map(subtract y.p f)[x,x+1/4..x+3/4]|y<-n]|x<-n]
b=(['⠀'..]!!).a.map c
n=[0..9]
c x|x<0=[0,0]|x<0.5=[1,0]|x<1=[0,1]|x>0=[0,0]
a[[l,r]]=l*8+r*16
a([l,r]:s)=2*a s+l+r*8

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The function q takes a list of polynomial-coefficients and generates braille dot-matrix characters. Example:

x = + (0.0 * y^0) + (0.0 * y^1) + (0.1 * y^2)
⡇⠀⠀⠀⠀⠀⠀⠀⠀⠀
⡇⠀⠀⠀⠀⠀⠀⠀⠀⠀
⢱⠀⠀⠀⠀⠀⠀⠀⠀⠀
⠈⡆⠀⠀⠀⠀⠀⠀⠀⠀
⠀⠘⡄⠀⠀⠀⠀⠀⠀⠀
⠀⠀⠘⡄⠀⠀⠀⠀⠀⠀
⠀⠀⠀⠘⢄⠀⠀⠀⠀⠀
⠀⠀⠀⠀⠈⠢⡀⠀⠀⠀
⠀⠀⠀⠀⠀⠀⠑⢄⠀⠀
⠀⠀⠀⠀⠀⠀⠀⠀⠑⢄

Answer 10

Python 3, 112 bytes

def f(l,*m):
 for x in range(10):
  try:m=[*m,[0]*10];m[x][int(sum(y*x**z for y,z in l))]=1
  except:1
 return m

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-15 bytes thanks to @UnrelatedString

-3 bytes thanks to @ophact

Answer 11

Jelly, 10 8 7 bytes

⁵ḶɓḅḞ=€

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-2 bytes because the output format was loosened, then I noticed another golf in the course of writing the explanation

-1 byte because why the hell didn't I already try that?

Input as coefficients in descending order of power, output as binary matrix.

⁵Ḷɓ        Let [0 .. 9] be the right argument to the following dyadic link:
   ḅ       evaluate the polynomial at each y in [0 .. 9],
    Ḟ      and floor each result.
      €    For each result,
     =     is it equal to each x in [0 .. 9]?

Answer 12

Wolfram Language (Mathematica), 46 43 bytes

0<=#<1&/@(#-r)&/@FromDigits[#,r=0~Range~9]&

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Input coefficients in descending order. Returns a 10x10 boolean matrix.

Answer 13

Ruby, 78 bytes

->c{(a=0..9).map{|y|a.map{|x|z=1;x==c.reduce{|s,x|s+x*z*=y}.to_i ? ?*:?.}*''}}

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Returns an array of 10 strings

Ruby, 67 bytes

->c{(a=0..9).map{|y|a.map{|x|z=1;x==c.reduce{|s,x|s+x*z*=y}.to_i}}}

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Return a matrix of booleans

Answer 14

Pari/GP, 42 bytes

p->matrix(10,,y,x,y--;floor(eval(p))==x--)

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