Python read_input_data Exemples

Exemple #1

Fichier : manhattan_tourist_problem.py Projet : vgvoleg/bioinformatics

import utils


def manhattan_tourist(n, m, s_cost, w_cost):
    s = list([0] * m for i in range(0, n))
    for i in range(1, n):
        s[i][0] = s[i - 1][0] + s_cost[i - 1][0]
    for j in range(1, m):
        s[0][j] = s[0][j - 1] + w_cost[0][j - 1]

    for i in range(1, n):
        for j in range(1, m):
            s[i][j] = max(s[i-1][j] + s_cost[i-1][j],\
                          s[i][j-1] + w_cost[i][j-1])

    return s[n - 1][m - 1]


if __name__ == '__main__':
    n, m, s_cost, w_cost = utils.read_input_data()
    result = manhattan_tourist(n, m, s_cost, w_cost)
    utils.write_output_data(result)

Exemple #2

Fichier : exchange_problem.py Projet : vgvoleg/bioinformatics

import utils


def dp_change(money, coins):
    best_num_coins = [0] * money
    for m in range(0, money):
        if m + 1 in coins:
            best_num_coins[m] = 1
            continue
        best_num_coins[m] = float('inf')
        for coin in coins:
            if m + 1 >= coin:
                a = best_num_coins[m - coin] + 1
                best_num_coins[m] = min(best_num_coins[m], a)

    return best_num_coins[money - 1]


if __name__ == '__main__':
    money, coins = utils.read_input_data()
    result = dp_change(money, coins)
    utils.write_output_data(result)

Exemple #3

Fichier : euler_path.py Projet : vgvoleg/bioinformatics

            odd_from = node
        elif from_to[node]["from"] > from_to[node]["to"]:
            odd_to = node
    if odd_from not in graph:
        graph[odd_from] = []
    graph[odd_from].append(odd_to)
    return odd_from, odd_to


def euler_path(strings):
    graph = {}
    for string in strings:
        frm = string.split(' -> ')[0]
        to = string.split(' -> ')[1].split(',')
        graph[frm] = to
    frm, to = add_extra_edge_to_graph(graph)
    cycle = []
    while not empty(graph):
        start = frm if len(cycle) == 0 \
            else max(cycle, key=lambda k: len(graph[k]))
        new_cycle = find_cycle(graph, start)
        cycle = new_cycle if len(cycle) == 0 else append_cycle(
            cycle, new_cycle)
    cycle.pop(0)
    return cycle


if __name__ == '__main__':
    strings = utils.read_input_data()
    result = euler_path(strings)
    utils.write_output_data('->'.join(result))

Exemple #4

Fichier : lcs_problem.py Projet : vgvoleg/bioinformatics

            if v[i - 1] == w[j - 1]:
                b[i][j] = "↖"
            elif s[i][j] == s[i - 1][j]:
                b[i][j] = "↑"
            else:
                b[i][j] = "←"

    substring = []
    build_substring(substring, b, v, n - 1, m - 1)

    return ''.join(substring)


def build_substring(sub, b, v, i, j):
    if i == j == 0:
        return
    if b[i][j] == "↖":
        sub.insert(0, v[i - 1])
        build_substring(sub, b, v, i - 1, j - 1)
    else:
        if b[i][j] == "↑":
            build_substring(sub, b, v, i - 1, j)
        else:
            build_substring(sub, b, v, i, j - 1)


if __name__ == '__main__':
    v, w = utils.read_input_data()
    result = lcs(v, w)
    utils.write_output_data(result)

Exemple #5

Fichier : find_motif_bnb.py Projet : vgvoleg/bioinformatics

            dna[substrings[j][i]] += 1
        score += dna[max(dna, key=dna.get)]
    return score

def bounds_and_branches_motif_search(t, n, DNA):
    string_size = len(DNA[0])
    searchTree = StartIndexesTree(n, string_size - t)
    best_score = 0
    best_subs = []
    i = 0
    while i > -1:
        substrings = utils.get_substrings_by_pos(DNA, t, searchTree.current_indexes())
        if i < n - 1:
            optimistic_score = get_score(substrings, i, t) + (n-i)*t
            if optimistic_score < best_score:
                i = searchTree.bypass_move(i)
            else:
                i = searchTree.next_vertex(i)
        else:
            score = get_score(substrings, n, t)
            if score > best_score:
                best_score = score
                best_subs = substrings[:]
            i = searchTree.next_vertex(i)
    return best_subs

if __name__ == "__main__":
    t, n, DNA = utils.read_input_data()
    result = bounds_and_branches_motif_search(t, n, DNA)
    utils.write_output_data(result)

Exemple #6

import utils


def string_spectre(k, string):
    return [''.join(string[i:i + k]) for i in range(0, len(string) - k + 1)]


if __name__ == '__main__':
    k, string = utils.read_input_data()
    result = string_spectre(k, string)
    utils.write_output_data(result)

Exemple #7

Fichier : find_motif.py Projet : vgvoleg/bioinformatics

def get_score(substrings, t_size):
    score = 0
    n = len(substrings)
    for i in range(0, t_size):
        dna = {'C': 0, 'A': 0, 'G': 0, 'T': 0}
        for j in range(0, n):
            dna[substrings[j][i]] += 1
        score += dna[max(dna, key=dna.get)]
    return score


def find_motif(t_size, n, strings):
    best_score = 0
    best_substrings = None
    string_size = len(strings[0])
    iterator = NMerIterator(n, string_size - t_size)
    while iterator.has_next():
        pos = iterator.next()
        substrings = utils.get_substrings_by_pos(strings, t_size, pos)
        score = get_score(substrings, t_size)
        if score > best_score:
            best_score = score
            best_substrings = substrings

    return best_substrings


if __name__ == '__main__':
    t_size, n, strings = utils.read_input_data()
    result = find_motif(t_size, n, strings)
    utils.write_output_data(result)