def gradient_descent(xs, ys, alpha, tolerance, iterations):
m = len(xs)
if m == len(ys):
for row in xs:
row.insert(0,1)
ranges = get_ranges(xs)
r = len(xs[0])
thetas = [None] * r
list_cost_functions = []
cost_function = NULL
for n in range(0, r):
thetas[n] = random.uniform(-1, 1)
for n in range(0, iterations):
new_cost_function = 0
for j in range(0, r):
theta = 0
for i in range(0, m):
sumh = 0
for h in range(0, r):
sumh += xs[i][h] * thetas[h]
theta += ((sumh - ys[i][0]) * xs[i][j])
theta = alpha * theta / m
thetas[j] = thetas[j] - theta
new_cost_function = get_cost_function(thetas, xs, ys)
list_cost_functions.append(str(new_cost_function))
if cost_function != NULL and abs(cost_function - new_cost_function) <= tolerance:
break
cost_function = new_cost_function;
files.writeFile("costFunction", list_cost_functions)
return thetas
return NULL
def saveValue(self,name,value):
'''
Save a value with the name name and the value value.
'''
debug.add('saving value '+str(name),value)
# create a file assocation for the name to store the value
if name not in self.names:
debug.add('name not in self.names')
# create a counter for the generated filename
counter=0
# seed value for while loop
newName = (str(counter)+'.value')
# find a filename that does not already exist in
# the database directory
while newName in listdir(self.path):
# increment the counter
counter+=1
# iterate the value
newName=(str(counter)+'.value')
debug.add('newname',newName)
# set the metadata value for the filepaths in this table instance
self.namePaths[name]=pathJoin(self.path,newName)
# write the newly created name assocation to table metadata on disk
writeFile(pathJoin(self.path,'names.table'),pickle(self.namePaths))
debug.add('namePaths',self.namePaths)
# update the length and names attributes
self.names=self.namePaths.keys()
self.length=len(self.names)
# saves a table changes back onto the disk
fileData=writeFile(self.namePaths[name],pickle(value))
return fileData
def deleteValue(self, name):
'''
Delete a value with name name.
'''
# clean up names to avoid stupid
debug.add('deleting value ', name)
# figure out the path to the named value file
if name in self.names:
filePath = self.namePaths[name]
# remove the metadata entry
del self.namePaths[name]
# write changes to database metadata file
writeFile(pathJoin(self.path, 'names.table'),
pickle(self.namePaths))
# update the length and names attributes
self.names = self.namePaths.keys()
self.length = len(self.names)
else:
return False
if pathExists(filePath):
# remove the file accocated with the value
removeFile(filePath)
return True
else:
return False
def __init__(self,path):
'''
DB table to store things as files and directories. This is
designed to reduce ram usage when reading things from large
databases. Specifically this is designed for caches.
# variables #
.path
The path on the filesystem where the table is stored.
.names
Gives you a list containing the names of all stored
values as strings.
.namePaths
Gives you a dict where the keys are the names and
the value is the path of that value database file
.length
The length of names stored in this table
'''
# path of the root of the cache, this is where files
# will be stored on the system
self.path=path
# create the paths if they do not exist
if not pathExists(self.path):
makedirs(self.path)
debug.add('table path',self.path)
# the path prefix is for tables stored in tables
self.pathPrefix=''
# tables are stored as files
tempTable=[]
# array of all the value names stored on table
namesPath=pathJoin(self.path,'names.table')
# if no namepaths exist create them
if not pathExists(pathJoin(namesPath)):
# write the new value to the system
writeFile(namesPath,pickle(dict()))
# load the name paths
self.namePaths=unpickle(loadFile(namesPath))
debug.add('self.namePaths',self.namePaths)
# create a array of all the names of values stored
self.names=self.namePaths.keys()
debug.add('self.names',self.names)
# length of all the values stored on the table
self.length=len(self.names)
debug.add('self.length',self.length)
# the protected list is a array of names that are
# protected from limit cleaning
protectedPath=pathJoin(self.path,'protected.table')
if pathExists(pathJoin(protectedPath)):
# load the list
self.protectedList=unpickle(loadFile(protectedPath))
else:
# create a blank list
self.protectedList=[]
# limit value to limit the number of values
# load the limit value from file if it exists
limitPath=pathJoin(self.path,'limit.table')
if pathExists(pathJoin(limitPath)):
self.limit=unpickle(loadFile(limitPath))
else:
self.limit=None
def makengram(country, n, source):
directory = "PycharmProjects\\TVSeries\\txt"
global ngrams
for filename in os.listdir(directory+source):
#split each file in the country-specific directory into ngrams
if filename[0] == ".":
#skip the files that are of no use to us
print "skipping", filename
continue
print "running", filename
# content = file.readFile(directory+source+"/"+filename)
content = open(directory+source+"/"+filename, 'r')
print str(content)
#first we have to spit each file into individual words
words = nltk.word_tokenize(content)
#then we can run the proper nltk function on the list of words to get the ngrams
if n == 1:
ngrams += words
elif n == 2:
ngrams += nltk.bigrams(words)
elif n == 3:
ngrams += nltk.trigrams(words)
else:
ngrams += nltk.util.ngrams(words, n)
#save the list of ngrams in a text file that can easily be read by python later
print "saving %s%s%s%dgrams.txt" % (directory, source, country, n)
files.writeFile("%s%s%s%dgrams.txt" % (directory, source, country, n), (pickle.dumps(ngrams)))
print "saved."
return
def saveValue(self, name, value):
'''
Save a value with the name name and the value value.
'''
debug.add('saving value ' + str(name), value)
# create a file assocation for the name to store the value
if name not in self.names:
debug.add('name not in self.names')
# create a counter for the generated filename
counter = 0
# seed value for while loop
newName = (str(counter) + '.value')
# find a filename that does not already exist in
# the database directory
while newName in listdir(self.path):
# increment the counter
counter += 1
# iterate the value
newName = (str(counter) + '.value')
debug.add('newname', newName)
# set the metadata value for the filepaths in this table instance
self.namePaths[name] = pathJoin(self.path, newName)
# write the newly created name assocation to table metadata on disk
writeFile(pathJoin(self.path, 'names.table'),
pickle(self.namePaths))
debug.add('namePaths', self.namePaths)
# update the length and names attributes
self.names = self.namePaths.keys()
self.length = len(self.names)
# saves a table changes back onto the disk
fileData = writeFile(self.namePaths[name], pickle(value))
return fileData
def makengram(country, n, source):
directory = "PycharmProjects\\TVSeries\\txt"
global ngrams
for filename in os.listdir(directory + source):
#split each file in the country-specific directory into ngrams
if filename[0] == ".":
#skip the files that are of no use to us
print "skipping", filename
continue
print "running", filename
# content = file.readFile(directory+source+"/"+filename)
content = open(directory + source + "/" + filename, 'r')
print str(content)
#first we have to spit each file into individual words
words = nltk.word_tokenize(content)
#then we can run the proper nltk function on the list of words to get the ngrams
if n == 1:
ngrams += words
elif n == 2:
ngrams += nltk.bigrams(words)
elif n == 3:
ngrams += nltk.trigrams(words)
else:
ngrams += nltk.util.ngrams(words, n)
#save the list of ngrams in a text file that can easily be read by python later
print "saving %s%s%s%dgrams.txt" % (directory, source, country, n)
files.writeFile("%s%s%s%dgrams.txt" % (directory, source, country, n),
(pickle.dumps(ngrams)))
print "saved."
return
def __init__(self, path):
'''
DB table to store things as files and directories. This is
designed to reduce ram usage when reading things from large
databases. Specifically this is designed for caches.
# variables #
.path
The path on the filesystem where the table is stored.
.names
Gives you a list containing the names of all stored
values as strings.
.namePaths
Gives you a dict where the keys are the names and
the value is the path of that value database file
.length
The length of names stored in this table
'''
# path of the root of the cache, this is where files
# will be stored on the system
self.path = path
# create the paths if they do not exist
if not pathExists(self.path):
makedirs(self.path)
debug.add('table path', self.path)
# the path prefix is for tables stored in tables
self.pathPrefix = ''
# tables are stored as files
tempTable = []
# array of all the value names stored on table
namesPath = pathJoin(self.path, 'names.table')
# if no namepaths exist create them
if not pathExists(pathJoin(namesPath)):
# write the new value to the system
writeFile(namesPath, pickle(dict()))
# load the name paths
self.namePaths = unpickle(loadFile(namesPath))
debug.add('self.namePaths', self.namePaths)
# create a array of all the names of values stored
self.names = self.namePaths.keys()
debug.add('self.names', self.names)
# length of all the values stored on the table
self.length = len(self.names)
debug.add('self.length', self.length)
# the protected list is a array of names that are
# protected from limit cleaning
protectedPath = pathJoin(self.path, 'protected.table')
if pathExists(pathJoin(protectedPath)):
# load the list
self.protectedList = unpickle(loadFile(protectedPath))
else:
# create a blank list
self.protectedList = []
# limit value to limit the number of values
# load the limit value from file if it exists
limitPath = pathJoin(self.path, 'limit.table')
if pathExists(pathJoin(limitPath)):
self.limit = unpickle(loadFile(limitPath))
else:
self.limit = None
def concatenatefiles(country, dictsizes, xgram, source):
for dictsize in dictsizes:
ngrams = files.readFile("subtitles/%stxts/dictsizes/%dgram/%s%s%dgramdict%d.txt"
% (country, xgram, source if source=="lowercase" else "",
country, xgram, dictsize))
for filename in os.listdir("subtitles/%stxts/%s" % (country, source)):
print "concatenating %s %dgram %d with %s" % (source, xgram, dictsize, filename)
content = files.readFile(os.path.join("subtitles/%stxts/%s" % (country, source),filename))
concatenated = ngrams + "\n\n" + content
dest = ("subtitles/%stxts/dictsizes/%dgram/%sunzipped/%sdict%d"
% (country, xgram, source if source=="lowercase" else "",
country, dictsize))
if not os.path.exists(dest):
os.mkdir(dest)
files.writeFile(os.path.join(dest, filename), concatenated)
return
def makedict(country, n, lengths):
print ("loading ngrams from subtitles/%stxts/lowercase%s%dgrams.txt" % (country, country , n))
ngrams = pickle.loads(files.readFile("subtitles/%stxts/lowercase%s%dgrams.txt" % (country, country, n)))
#find the frequencies of all the ngrams
print "determining frequency..."
fdist = nltk.FreqDist(ngrams)
for length in lengths:
#make a plaintext dictionary for each length in lengths
top = fdist.keys()[:length]
topstr = plaintext(top, n)
#save each dictionary
print ("saving to subtitles/%stxts/dictsizes/%dgram/lowercase%s%dgramdict%d.txt"
% (country, n, country, n, length))
files.writeFile("subtitles/%stxts/dictsizes/%dgram/lowercase%s%dgramdict%d.txt"
% (country, n, country, n, length), topstr)
return
def setProtected(self,name): ''' Set a name in the table to be protected from removal because of limits. ''' # generate the filepath to the protected values # list filePath=pathJoin(self.path,'protected.table') # check if the path exists if pathExists(filePath): # read the protected list from the file protectedList=unpickle(loadFile(filePath)) else: # create the list and append the name protectedList=[] # append the new value to the list protectedList.append(name) # pickle the protected list for storage protectedList=pickle(protectedList) # write the changes back to the protected list writeFile(filePath,protectedList)
def setLimit(self, limit):
'''
Set the limit of values that are stored in this table.
This ignores protected values.
'''
# write the limit value to the limit file in the table
filePath = pathJoin(self.path, 'limit.table')
# set the limit in this instance
self.limit = limit
# write the new limit back to the storage
success = writeFile(filePath, limit)
return success
def setProtected(self, name):
'''
Set a name in the table to be protected from removal
because of limits.
'''
# generate the filepath to the protected values
# list
filePath = pathJoin(self.path, 'protected.table')
# check if the path exists
if pathExists(filePath):
# read the protected list from the file
protectedList = unpickle(loadFile(filePath))
else:
# create the list and append the name
protectedList = []
# append the new value to the list
protectedList.append(name)
# pickle the protected list for storage
protectedList = pickle(protectedList)
# write the changes back to the protected list
writeFile(filePath, protectedList)
def setLimit(self,limit): ''' Set the limit of values that are stored in this table. This ignores protected values. ''' # write the limit value to the limit file in the table filePath=pathJoin(self.path,'limit.table') # set the limit in this instance self.limit=limit # write the new limit back to the storage success=writeFile(filePath,limit) return success
def concatenatefiles(country, dictsizes, xgram, source):
for dictsize in dictsizes:
ngrams = files.readFile(
"subtitles/%stxts/dictsizes/%dgram/%s%s%dgramdict%d.txt" %
(country, xgram, source if source == "lowercase" else "", country,
xgram, dictsize))
for filename in os.listdir("subtitles/%stxts/%s" % (country, source)):
print "concatenating %s %dgram %d with %s" % (source, xgram,
dictsize, filename)
content = files.readFile(
os.path.join("subtitles/%stxts/%s" % (country, source),
filename))
concatenated = ngrams + "\n\n" + content
dest = ("subtitles/%stxts/dictsizes/%dgram/%sunzipped/%sdict%d" %
(country, xgram, source if source == "lowercase" else "",
country, dictsize))
if not os.path.exists(dest):
os.mkdir(dest)
files.writeFile(os.path.join(dest, filename), concatenated)
return
def makedict(country, n, lengths):
print("loading ngrams from subtitles/%stxts/lowercase%s%dgrams.txt" %
(country, country, n))
ngrams = pickle.loads(
files.readFile("subtitles/%stxts/lowercase%s%dgrams.txt" %
(country, country, n)))
#find the frequencies of all the ngrams
print "determining frequency..."
fdist = nltk.FreqDist(ngrams)
for length in lengths:
#make a plaintext dictionary for each length in lengths
top = fdist.keys()[:length]
topstr = plaintext(top, n)
#save each dictionary
print(
"saving to subtitles/%stxts/dictsizes/%dgram/lowercase%s%dgramdict%d.txt"
% (country, n, country, n, length))
files.writeFile(
"subtitles/%stxts/dictsizes/%dgram/lowercase%s%dgramdict%d.txt" %
(country, n, country, n, length), topstr)
return
def deleteValue(self,name):
'''
Delete a value with name name.
'''
# clean up names to avoid stupid
debug.add('deleting value ',name)
# figure out the path to the named value file
if name in self.names:
filePath=self.namePaths[name]
# remove the metadata entry
del self.namePaths[name]
# write changes to database metadata file
writeFile(pathJoin(self.path,'names.table'),pickle(self.namePaths))
# update the length and names attributes
self.names=self.namePaths.keys()
self.length=len(self.names)
else:
return False
if pathExists(filePath):
# remove the file accocated with the value
removeFile(filePath)
return True
else:
return False
print("----------------------------")
"""
Em um sistema:
AX = B <==> LUX = B
onde X é uma matriz de mesma ordem de A
e B é uma matriz identidade de mesma ordem de A
Então X é a inversa de A
"""
# Calcula a matriz inversa
B = matrizInversa(L, U, B)
print("Matriz Inversa de A")
imprimeMatriz(B)
det = calculaDeterminante(U,columns)
if (contadorPermut%2)>0:
det=det*(-1)
print("Valor do determinante")
print(det)
# Escreve a matriz em um arquivo texto
writeFile(B,det)
U, L, B = gauss(matriz, B)
print("----------------------------\n")
print("Matriz L")
imprimeMatriz(U)
print("Matriz U")
imprimeMatriz(L)
print("----------------------------")
"""
Em um sistema:
AX = B <==> LUX = B
onde X é uma matriz de mesma ordem de A
e B é uma matriz identidade de mesma ordem de A
Então X é a inversa de A
"""
# Calcula a matriz inversa
B = matrizInversa(L, U, B)
print("Matriz Inversa de A")
imprimeMatriz(B)
# Escreve a matriz em um arquivo texto
writeFile(B)
values["bottom"] = rows[-1][2]
if columnSlices[0][0] != "":
values["left"] = columns[0][2]
if columnSlices[-1][0] != "":
values["right"] = columns[-1][2]
template = "fullbox"
if len(rows) == 1:
template = "horizontalbox"
elif len(columns) == 1:
template = "verticalbox"
scriptPath = os.path.dirname(os.path.realpath(sys.argv[0]))
htmlTestTemplate = readFile(scriptPath+"/templates/testbox.html")
htmlTemplate = readFile(scriptPath+"/templates/"+template+".html")
scssTemplate = readFile(scriptPath+"/templates/"+template+".scss")
html = pystache.render(htmlTemplate, values)
scss = pystache.render(scssTemplate, values)
htmlTest = pystache.render(htmlTestTemplate,
{"name": boxName, "html": html})
writeFile(filename+"-test.html", htmlTest)
writeFile(filename+".html", html)
writeFile(filename+".scss", scss)
print "Creating CSS file from SCSS..."
with open(filename+".css", "w") as file:
subprocess.call(["sass", filename+".scss"], stdout=file)
print "Done"
cropped.save(dirName+"/"+name+extension)
namedFiles.append((identifier,name+extension,area))
css = ""
innerhtml = ""
scriptPath = os.path.dirname(os.path.realpath(sys.argv[0]))
cssTemplate = readFile(scriptPath+"/templates/imageArea.css")
htmlTemplate = readFile(scriptPath+"/templates/testbox.html")
for (identifier,filename,area) in namedFiles:
css += pystache.render(cssTemplate, {
"identifier": identifier,
"filename": filename,
"left": area.bounds[0],
"top": area.bounds[1],
"width": area.bounds[2]-area.bounds[0],
"height": area.bounds[3]-area.bounds[1],
"right": imageWidth-area.bounds[2],
"bottom": imageHeight-area.bounds[3]
})
if identifier[0] == '.':
innerhtml += "<div class='"+identifier[1:]+"'></div>\n"
else:
innerhtml += "<div id='"+identifier[1:]+"'></div>\n"
html = pystache.render(htmlTemplate, {"name": os.path.basename(targetFilename), "html": innerhtml})
writeFile(targetFilename+".css",css)
writeFile(targetFilename+".html",html)
