def pattern_023(): # Simple pattern generation using division and string matching. source_numbers = [ 53, 279, 505, 731, 957, 1183, 1409, 1635, 1861, 2087, 2313, 2539, 2765, 2991, 3217, 3443, 3669, 3895, 4121, 4347, 4573, 4799, 5025, 5251, 5477, 5703, 5929, 6155, 6381, 6607, 6833, 7059, 7285, 7511, 7737, 7963, 8189, 8415, 8641, 8867, 9093, 9319, 9545, 9771, 9997 ] display_char = '.' another_set = [] for i in source_numbers: another_set.append(math.sqrt(i) * 1.81) # Chart setup and display _common.chart_setup(plt) plt.xlabel('source numbers, N') plt.ylabel('Sq Root of N * 1.81') plt.scatter(source_numbers, another_set, marker=display_char) plt.title(_common.function_name(), fontsize=14) plt.savefig( _common.PATH_TO_PLOTS + \ _common.function_name() + \ '.png') plt.show() plt.clf()
def pattern_013(): # Simple pattern generation using division and string matching. # Parameters pattern_match = 9 number_generator = math.e range_start = 1 range_end = 10000 display_char = '.' # Lists for each axis list_of_candidates = [] list_of_numbers = [] # # Looping logic and string building for i in range(range_start, range_end): candidate = Decimal(i / number_generator) % 1 if str(candidate).find(str(pattern_match)) > -1: list_of_candidates.append(candidate) list_of_numbers.append(i) # Chart setup and display _common.chart_setup(plt) plt.xlabel('Occurances of ' + str(pattern_match) + " within N÷" + str(round(number_generator, 2))) plt.ylabel('Range of N') plt.scatter(list_of_candidates, list_of_numbers, marker=display_char) plt.title(_common.function_name(), fontsize=14) plt.savefig( _common.PATH_TO_PLOTS + \ _common.function_name() + \ '-' + str(pattern_match) + \ '-' + str(round(number_generator, 2)) + \ '.png') plt.show() plt.clf()
def pattern_021_generator(): # Simple pattern generation using division and string matching. for j in range(0,1000): # Parameters pattern_match = 13579 number_generator = 1.0 + j/1000 range_start = 1 range_end = 10000 display_char = '.' # Lists for each axis list_of_candidates = [] list_of_numbers = [] # # Looping logic and string building for i in range(range_start, range_end): candidate = Decimal(i/number_generator) % 1 if str(candidate).find( str(pattern_match) ) > -1: list_of_candidates.append( candidate ) list_of_numbers.append( i ) print( str(i) + ' / ' + str(candidate) ) # Chart setup and display if len(list_of_candidates) > 0: # don't plot if no values _common.chart_setup(plt) plt.xlabel('Occurances of ' + \ str(pattern_match) + \ " within N÷" + \ str(round(number_generator, 2)) ) plt.ylabel('Range of N') plt.scatter(list_of_candidates, list_of_numbers, marker=display_char) plt.title(_common.function_name(), fontsize=14) plt.savefig( _common.PATH_TO_PLOTS + \ _common.function_name() + \ '-' + str(pattern_match) + \ '-' + str(round(number_generator, 3)) + \ '-' + str(j) + \ '.png') # plt.show() # commented out, otherwise you will need to manually dismiss each new plot plt.clf()