Beispiel #1
0
def valid_changes(array):
    valid = []
    for i in range(len(array)):
        possible_changes = expr.find_changes(str(array[i]))
        for j in range(len(possible_changes)):
            section = possible_changes[j]
            for k in range(len(section)):
                if len(section[1]) != 0:
                    part = section[1]
                    if len(part) > 0:
                        for m in range(len(part)):
                            change = part[m]
                            if change[1] != []:
                                #print(change)
                                valid.append(change)
    output = []
    for element in array:
        element = element.replace(" ", "")
        #print("element: "+str(element))
        for change in valid:
            #print("change: " + str(change))
            if element == change[1][0]:
                if not (change in output):
                    output.append(change)
                break
    for change in valid:
        if not (change in output):
            output.append(change)
    return output
Beispiel #2
0
def valid_changes(array):
    valid = []
    for i in range(len(array)):
        possible_changes = expr.find_changes(str(array[i]))
        for j in range(len(possible_changes)):
            section = possible_changes[j]
            for k in range(len(section)):
                if len(section[1]) != 0:
                    part = section[1]
                    if len(part)>0:
                        for m in range(len(part)):
                           change = part[m]
                           if change[1] != []:
                               #print(change)
                               valid.append(change)
    output = []
    for element in array:
        element = element.replace(" ","")
        #print("element: "+str(element))
        for change in valid:
            #print("change: " + str(change))
            if element==change[1][0]:
               if not(change in output):
                  output.append(change)
               break
    for change in valid:
        if not(change in output):
            output.append(change)
    return output
Beispiel #3
0
        #print("jumble: " + str(jumble))
        return tree
    #print(changes[0])
    #print("change being made: " + str(changes[0][1]))
    replacement = do_math(changes[0])
    #print("replacement: " + str(replacement))
    simplified = simplified.replace(changes[0][1][0], replacement)
    #print("current: "+str(simplified))
    new_tree = eqsim.reparse(simplified)
    return simplify_expression(new_tree)


tree = eqsim.parse()

possible_matches = expr.look_for_match(str(tree))
possible_changes = expr.find_changes(str(tree))
#print("possible matches: " + str(possible_matches))

#BFSarray = BFS(tree)
#DFSarray = DFS(tree)

#print("BFS: " + str(BFSarray))
#print("DFS: " + str(DFSarray))

#changeA = valid_changes(DFSarray)
#changeB = valid_changes(BFSarray)

#print("A: " + str(changeA))
#print("B: " + str(changeB))
#valid_moves = []
new_tree = simplify_expression(copy.copy(tree))
Beispiel #4
0
linear = "27 = 3*x + 15 "
sine = "sin(y + 3*s + 15)"
cosi = "cos(z + 1 - 16)"
tang = "tan(q + 4)"
sinesq = "sin(y * pi)^2"
cosisq = "cos(z - 16)^2"
tangsq = "tan(d + 5)^2"
logr = "log(a+b+c)"
inv = "inv(a-x+b)"

test_expressions = [quad1, quad2,quad3,foil, linear, sine, cosi, tang, sinesq, cosisq, tangsq, logr, inv]

for test1 in test_expressions:
    print("Testing: " + str(test1))
    match_array = expr.look_for_match(test1)
    print("Possible Matches: "+str(match_array))
    print

for test2 in test_expressions:
    print("Testing: " + str(test2))
    change_array = expr.find_changes(test2)
    print("Possible Changes: "+str(change_array))
    print

for test3 in test_expressions:
    print("Testing: " + str(test3))
    expr.find_parts(test3)
    print

print(test_expressions[6])
Beispiel #5
0
       #jumble = math.associative_jumble(str(tree))
       #print("jumble: " + str(jumble)) 
       return tree
    #print(changes[0])
    #print("change being made: " + str(changes[0][1]))
    replacement = do_math(changes[0])
    #print("replacement: " + str(replacement))
    simplified = simplified.replace(changes[0][1][0],replacement)
    #print("current: "+str(simplified))
    new_tree = eqsim.reparse(simplified)
    return simplify_expression(new_tree)

tree = eqsim.parse()

possible_matches = expr.look_for_match(str(tree))
possible_changes = expr.find_changes(str(tree))
#print("possible matches: " + str(possible_matches)) 

#BFSarray = BFS(tree)
#DFSarray = DFS(tree)

#print("BFS: " + str(BFSarray))
#print("DFS: " + str(DFSarray))


#changeA = valid_changes(DFSarray)
#changeB = valid_changes(BFSarray)
    
#print("A: " + str(changeA))
#print("B: " + str(changeB))
#valid_moves = []