Differences between revisions 30 and 39 (spanning 9 versions)
Revision 30 as of 2012-05-09 04:05:55
Size: 10286
Editor: jason
Comment:
Revision 39 as of 2019-04-06 17:00:55
Size: 12801
Editor: chapoton
Comment:
Deletions are marked like this. Additions are marked like this.
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    print globals()[system].eval(code)     print(globals()[system].eval(code))
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def minkdemo(list1,list2): def minkdemo(list1, list2):
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    Returns the Minkowski sum of two lists.     Return the Minkowski sum of two lists.
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            temp = [stuff1[i] + stuff2[i] for i in range(len(stuff1))]
            output.append(temp)		             output.append([a + b for a, b in zip(stuff1, stuff2)])
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@interact
def minksumvis(x1tri = slider(-1,1,1/10,0, label = 'Triangle point x coord.'), yb = slider(1,4,1/10,2, label = 'Blue point y coord.')):
    t_list = [[1,0],[x1tri,1],[0,0]]
@interact
def minksumvis(x1tri=slider(-1,1,1/10,0, label='Triangle point x coord.'), yb=slider(1,4,1/10,2, label='Blue point y coord.')):
    t_list = [[1,0], [x1tri,1], [0,0]]
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    for an_edge in p12poly.vertex_adjacencies():
        edge_lines += line([verts[an_edge[0]], verts[an_edge[1][0]]])
        edge_lines += line([verts[an_edge[0]], verts[an_edge[1][1]]])		     for v0, v1 in p12poly.graph().edges(False):
       edge_lines += line([v0, v1])
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%python
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}}}
Put in separate cell:
{{{#!sagecell
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== Another Interactive Venn Diagram ==
by Jane Long (adapted from http://wiki.sagemath.org/interact/misc)

This interact models a problem in which a certain number of people are surveyed to see if they participate in three different activities (running, biking, and swimming). Users can indicate the numbers of people in each category, from 0 to 100. Returns a graphic of a labeled Venn diagram with the number of people in each region. Returns an explanatory error message if user input is inconsistent.

{{{#!sagecell
@interact
def _(T=slider([0..100],default=100,label='People surveyed'),X=slider([0..100],default=28,label='Run'), Y=slider([0..100],default=33,label='Bike'), Z=slider([0..100],default=59,label='Swim'),XY=slider([0..100],default=16,label='Run and Bike'),XZ=slider([0..100],default=13,label='Run and Swim'),YZ=slider([0..100],default=12,label='Bike and Swim'),XYZ=slider([0..100],default=7,label='Run, Bike, and Swim')):
   
    centers = [(cos(n*2*pi/3), sin(n*2*pi/3)) for n in [0,1,2]]
    scale = 1.7
    clr = ['yellow', 'blue', 'green']
    G = Graphics()
    for i in range(3):
        G += circle(centers[i], scale, rgbcolor=clr[i],
             fill=True, alpha=0.3)
    for i in range(3):
        G += circle(centers[i], scale, rgbcolor='black')
   
    # Label sets
    G += text('Run',(3,0),rgbcolor='black')
    G += text('Bike',(-1,3),rgbcolor='black')
    G += text('Swim',(-1,-3),rgbcolor='black')
   
    # Plot pairs of intersections
    ZX=XZ-XYZ
    G += text(ZX, (1.3*cos(2*2*pi/3 + pi/3), 1.3*sin(2*2*pi/3 + pi/3)), rgbcolor='black')
    YX=XY-XYZ
    G += text(YX, (1.3*cos(0*2*pi/3 + pi/3), 1.3*sin(0*2*pi/3 + pi/3)), rgbcolor='black')
    ZY=YZ-XYZ
    G += text(ZY, (1.3*cos(1*2*pi/3 + pi/3), 1.3*sin(1*2*pi/3 + pi/3)), rgbcolor='black')
  
    # Plot what is in one but neither other
    XX=X-ZX-YX-XYZ
    G += text(XX, (1.5*centers[0][0],1.7*centers[0][1]), rgbcolor='black')
    YY=Y-ZY-YX-XYZ
    G += text(YY, (1.5*centers[1][0],1.7*centers[1][1]), rgbcolor='black')
    ZZ=Z-ZY-ZX-XYZ
    G += text(ZZ, (1.5*centers[2][0],1.7*centers[2][1]), rgbcolor='black')
 
    # Plot intersection of all three
    G += text(XYZ, (0,0), rgbcolor='black')
   
    # Indicate number not in X, in Y, or in Z
    C = T-XX-YY-ZZ-ZX-ZY-YX-XYZ
    G += text(C,(3,-3),rgbcolor='black')
    
    # Check reasonableness before displaying result
    if XYZ>XY or XYZ>XZ or XYZ>YZ or XY>X or XY>Y or XZ>X or XZ>Z or YZ>Y or YZ>Z or C<0 or XYZ<0 or XZ<0 or YZ<0 or XY<0 or X<0 or Y<0 or Z<0:
        print('This situation is impossible! (Why?)')
    else:
        G.show(aspect_ratio=1, axes=False)
}}}
{{attachment:vennjhl.png}}

Sage Interactions - Miscellaneous

goto interact main page

Contents

  1. Sage Interactions - Miscellaneous
    1. Hearing a trigonometric identity
    2. Karplus-Strong algorithm for plucked and percussive sound generation
    3. An Interactive Venn Diagram
    4. Unreadable code
    5. Profile a snippet of code
      1. Evaluate a bit of code in a given system
    6. Minkowski Sum
    7. Cellular Automata
    8. Another Interactive Venn Diagram

Hearing a trigonometric identity

by Marshall Hampton. When the two frequencies are well separated, we hear the right hand side of the identity. When they start getting close, we hear the higher-pitched factor in the left-hand side modulated by the lower-pitched envelope.

sinsound.png

Karplus-Strong algorithm for plucked and percussive sound generation

by Marshall Hampton

KarplusStrong.png

An Interactive Venn Diagram

veng.png

Unreadable code

by Igor Tolkov

unreadable.png

Profile a snippet of code

profile.png

Evaluate a bit of code in a given system

by William Stein (there is no way yet to make the text box big):

evalsys.png

Minkowski Sum

by Marshall Hampton

minksum.png

Cellular Automata

by Pablo Angulo, Eviatar Bach

cellular2.png

Another Interactive Venn Diagram

by Jane Long (adapted from http://wiki.sagemath.org/interact/misc)

This interact models a problem in which a certain number of people are surveyed to see if they participate in three different activities (running, biking, and swimming). Users can indicate the numbers of people in each category, from 0 to 100. Returns a graphic of a labeled Venn diagram with the number of people in each region. Returns an explanatory error message if user input is inconsistent.

vennjhl.png

interact/misc (last edited 2020-06-05 20:32:41 by mathzeta2)