def run8(): measure=("extent") seed = randint(0,1000000) rf = randomFact(NumberFact, measure, rseed=seed) magnitude = rf.magnitude scale = rf.scale # print(rf.render) # test = NumberFact.objects.filter().order_by("value")[0:10]# # for item in test: # print(item.render, item.magnitude, item.value) # print(bracketNumber(NumberFact, "481", 3, "extent")) # for i in range(-3,24,3): # print(i, bracketNumber(NumberFact, "1.25", i, measure)) # print(i+1,bracketNumber(NumberFact, "12.5", i, measure)) # print(i+2,bracketNumber(NumberFact, "125", i, measure)) # for i in range(-3,24,3): # print(i, bracketNumber(NumberFact, "1.0", i, measure)) # print(i+1,bracketNumber(NumberFact, "10.0", i, measure)) # print(i+2,bracketNumber(NumberFact, "100.0", i, measure)) for i in range(-3,18,3): print(i, bracketNumber(NumberFact, "1.0", i, measure)) print(i,bracketNumber(NumberFact, "2.0", i, measure)) print(i,bracketNumber(NumberFact, "4.0", i, measure)) print(i,bracketNumber(NumberFact, "8.0", i, measure)) print(i,bracketNumber(NumberFact, "16.0", i, measure)) print(i,bracketNumber(NumberFact, "32.0", i, measure)) print(i,bracketNumber(NumberFact, "64.0", i, measure)) print(i,bracketNumber(NumberFact, "125.0", i, measure)) print(i,bracketNumber(NumberFact, "250.0", i, measure)) print(i,bracketNumber(NumberFact, "500.0", i, measure))
def run(): measure = ("extent") seed = randint(0, 1000000) rf = randomFact(NumberFact, measure, rseed=seed) magnitude = rf.magnitude scale = rf.scale # print(rf.render) # test = NumberFact.objects.filter().order_by("value")[0:10]# # for item in test: # print(item.render, item.magnitude, item.value) # print(bracketNumber(NumberFact, "481", 3, "extent")) # for i in range(-3,24,3): # print(i, bracketNumber(NumberFact, "1.25", i, measure)) # print(i+1,bracketNumber(NumberFact, "12.5", i, measure)) # print(i+2,bracketNumber(NumberFact, "125", i, measure)) # for i in range(-3,24,3): # print(i, bracketNumber(NumberFact, "1.0", i, measure)) # print(i+1,bracketNumber(NumberFact, "10.0", i, measure)) # print(i+2,bracketNumber(NumberFact, "100.0", i, measure)) for i in range(-3, 18, 3): print(i, bracketNumber(NumberFact, "1.0", i, measure)) print(i, bracketNumber(NumberFact, "2.0", i, measure)) print(i, bracketNumber(NumberFact, "4.0", i, measure)) print(i, bracketNumber(NumberFact, "8.0", i, measure)) print(i, bracketNumber(NumberFact, "16.0", i, measure)) print(i, bracketNumber(NumberFact, "32.0", i, measure)) print(i, bracketNumber(NumberFact, "64.0", i, measure)) print(i, bracketNumber(NumberFact, "125.0", i, measure)) print(i, bracketNumber(NumberFact, "250.0", i, measure)) print(i, bracketNumber(NumberFact, "500.0", i, measure))
def run12(): klass = NumberFact measure=("extent") seed = randint(0,1000000) rf = randomFact(NumberFact, measure, rseed=seed) print(rf.render) print(rf.measure) facts = neatFacts(klass, rf) for fact in facts: # print(fact["comparison"], fact["fact2"].render2) print(fact) print(fact["fact2"].measure)
def run12(): klass = NumberFact measure = ("extent") seed = randint(0, 1000000) rf = randomFact(NumberFact, measure, rseed=seed) print(rf.render) print(rf.measure) facts = neatFacts(klass, rf) for fact in facts: # print(fact["comparison"], fact["fact2"].render2) print(fact) print(fact["fact2"].measure)
def run7(): measure=("area") seed = randint(0,1000000) rf = randomFact(NumberFact, measure, rseed=seed) print(rf.render) bestComparisons, tolerance, score = numberFactsLikeThis(NumberFact, rf, rseed=seed) print(tolerance, score) for fact in bestComparisons: print(fact.render_folk) print(fact.magnitude) print(fact.scale) print(fact.permlink) biggest = biggestNumberFact(bestComparisons) print(">>>", biggest.render)
def run7(): measure = ("extent") seed = randint(0, 1000000) rf = randomFact(NumberFact, measure, rseed=seed) print(rf.render) bestComparisons, tolerance, score = numberFactsLikeThis(NumberFact, rf, rseed=seed) print(tolerance, score) for fact in bestComparisons: print(fact.render) print(fact.magnitude) print(fact.scale) biggest = biggestNumberFact(bestComparisons) print(">>>", biggest.render)
def run13(): klass = NumberFact measure=("extent") seed = randint(0,1000000) rf = randomFact(NumberFact, measure, rseed=seed) print(rf.render_folk)
def run13(): klass = NumberFact measure = ("extent") seed = randint(0, 1000000) rf = randomFact(NumberFact, measure, rseed=seed) print(rf.render_folk)