Example #1
0
def select_unassigned_variable(csp: list,
                               assignment: set,
                               method=0) -> variable:
    """
    csp is the list of variables that are to be selected
    method is the method type in which they are selected
        0:random #the default option
        1:minimum-remaining value
        2:minimum-remaining value together with degree
    """
    if (method not in range(3)):
        return "method out of bounds"

    if (method == 0):
        y = rdint(0, len(csp) - 1)  #rdint is inclusive, hence the -1
        var = csp[y]
        while (var in assignment):
            y = rdint(0, len(csp) - 1)  #rdint is inclusive, hence the -1
            var = csp[y]
        return var

    elif (method == 1):
        #1:minimum-remaining value
        least_domain = math.inf
        low_var = None
        for var in csp:
            if (var not in assignment):
                dm_size = var.domain_size()
                if (dm_size == 0):
                    return False
                if (dm_size < least_domain):
                    least_domain = dm_size
                    low_var = var
        return low_var

    elif (method == 2):
        #2:minimum-remaining value together with degree
        #the degree of the node works as a tie breaker, otherwise it works
        #just like minimum remaining value
        least_domain = math.inf
        low_var = None
        for var in csp:
            if (var not in assignment):
                dm_size = var.domain_size()
                if (dm_size == 0):
                    return False
                if (dm_size < least_domain):
                    least_domain = dm_size
                    low_var = var
                elif (dm_size == least_domain
                      and var.constraint_size() > low_var.constraint_size()):
                    least_domain = dm_size
                    low_var = var
        return low_var
 def getVertifyImg(self):
     x_start = 2
     y_start = 0
     for i in range(self.num):
         x = x_start + i * int(self.width / (self.num))
         y = rdint(y_start, int(self.height / 3))
         self.drawText((x, y), self.get_random_char(),
                       self.get_random_Color())
     self.drawLine(3)
     self.drawPoint(60)
     return self.img
Example #3
0
def dice_throw():
    """Simulates two dice throws.
    :return: Random number between 2 and 12
    """
    return rdint(1, 6) + rdint(1, 6)
 def rotate(self):
     deg = int(self.height / 3)  # 旋转角度
     self.img = self.img.rotate(rdint(0, deg), expand=0)
 def get_random_xy(self):
     x = rdint(0, int(self.width))
     y = rdint(0, int(self.height))
     return x, y
 def get_random_Color(self):
     c1 = rdint(50, 150)
     c2 = rdint(50, 150)
     c3 = rdint(50, 150)
     return c1, c2, c3
Example #7
0
#!/usr/bin/python
from random import randint as rdint

nums = [(rdint(0, 100), rdint(0, 100)) for i in range(10)]
print(nums)


def pythagoras(lis):
    for i in range(len(lis)):
        m, n = lis[i]
        a = 2 * m * n
        b = m**2 - n**2
        c = m**2 + n**2
        print("m = %s, n= %s" % (m, n))
        print("a = %s, b = %s, c = %s" % (a, b, c))
        print("c^2 = a^2 + b^2")
        print("%s  =  %s +  %s" % (c**2, a**2, b**2))
        print("%s  =  %s" % (c**2, a**2 + b**2))
        print("-" * 10)
    return


print(pythagoras(nums))
'''
Built In Modules
    São módulos que já vem por padrão no como uma biblioteca integrada do Python.
'''

# https://docs.python.org/3/py-modindex.html #

from random import randint as rdint

print(rdint(0, 10))