def generate_graph(obj):
obj = [obj[i] for i in xrange(len(obj)) if not not obj[i].strip()]
flags = [
0, 0, 0, 0, 0, 0, 0, 0, 0
] # while_,do_while_,for_TO,for_IN,func_,if_,select_,switch_,with_
for line in obj:
print line
# Ajustar con Kernel.ExtractKeywords // Cuidado con el orden -> Do While antes de While y demás ..#
if ex.is_do_while(line): flags[1] = 1
if ex.is_while(line): flags[0] = 1
if ex.is_for_to(line): flags[2] = 1
if ex.is_for_in(line): flags[3] = 1
if ex.is_func(line): flags[4] = 1
if ex.is_if(line): flags[5] = 1
if ex.is_select(line): flags[6] = 1
if ex.is_switch(line): flags[7] = 1
if ex.is_with(line): flags[8] = 1
if ex.is_end_while(line): flags[0] = 0
if ex.is_until(line): flags[1] = 0
if ex.is_next(line):
if flags[2] == 1: flags[2] = 0 # Si es TO #
else: flags[3] = 0 # Si es IN #
if ex.is_end_func(line): flags[4] = 0
if ex.is_end_if(line): flags[5] = 0
if ex.is_end_select(line): flags[6] = 0
if ex.is_end_switch(line): flags[7] = 0
if ex.is_end_with(line): flags[8] = 0
raw_input()
print flags
def generate_graph(obj):
obj = [obj[i] for i in xrange(len(obj)) if not not obj[i].strip()]
flags = [0,0,0,0,0,0,0,0,0] # while_,do_while_,for_TO,for_IN,func_,if_,select_,switch_,with_
for line in obj:
print line
# Ajustar con Kernel.ExtractKeywords // Cuidado con el orden -> Do While antes de While y demás ..#
if ex.is_do_while(line): flags[1] = 1
if ex.is_while(line): flags[0] = 1
if ex.is_for_to(line): flags[2] = 1
if ex.is_for_in(line): flags[3] = 1
if ex.is_func(line): flags[4] = 1
if ex.is_if(line): flags[5] = 1
if ex.is_select(line): flags[6] = 1
if ex.is_switch(line): flags[7] = 1
if ex.is_with(line): flags[8] = 1
if ex.is_end_while(line): flags[0] = 0
if ex.is_until(line): flags[1] = 0
if ex.is_next(line):
if flags[2]==1: flags[2] = 0 # Si es TO #
else: flags[3] = 0 # Si es IN #
if ex.is_end_func(line): flags[4] = 0
if ex.is_end_if(line): flags[5] = 0
if ex.is_end_select(line): flags[6] = 0
if ex.is_end_switch(line): flags[7] = 0
if ex.is_end_with(line): flags[8] = 0
raw_input()
print flags
def add_true_guard_statements(obj,n_true_guard_statements_min_left=1,n_true_guard_statements_max_left=2,
n_true_guard_statements_min_right=1,n_true_guard_statements_max_right=2):
for i in xrange(len(obj)):
n_guard_statements_left = randint(min(n_true_guard_statements_min_left,n_true_guard_statements_max_left),
max(n_true_guard_statements_min_left,n_true_guard_statements_max_left))
n_guard_statements_right = randint(min(n_true_guard_statements_min_right,n_true_guard_statements_max_right),
max(n_true_guard_statements_min_right,n_true_guard_statements_max_right))
is_if = ex.is_if(obj[i])
is_else_if = ex.is_else_if(obj[i])
is_while = ex.is_while(obj[i])
is_until = ex.is_until(obj[i])
if is_if or is_else_if or is_while or is_until:
true_guard_statements_left = [Utils.generate_true_statement(n_min_value=100,n_max_value=300) for j in xrange(n_guard_statements_left)]
true_guard_statements_right = [Utils.generate_true_statement(n_min_value=100,n_max_value=300) for j in xrange(n_guard_statements_right)]
if is_if or is_else_if: obj[i] = add_true_guard_statements_if(obj[i],n_guard_statements_left,
true_guard_statements_left,
n_guard_statements_right,
true_guard_statements_right)
if is_while or is_until: obj[i] = add_true_guard_statements_while(obj[i],n_guard_statements_left,
true_guard_statements_left,
n_guard_statements_right,
true_guard_statements_right)
return obj