Created
June 20, 2011 16:49
-
-
Save reusee/1035975 to your computer and use it in GitHub Desktop.
Python to php translator, compile python script to php
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
import ast | |
from cStringIO import StringIO | |
import sys | |
INFSTR = '1e308' | |
def interleave(inter, f, seq): | |
seq = iter(seq) | |
try: | |
f(next(seq)) | |
except StopIteration: | |
pass | |
else: | |
for x in seq: | |
inter() | |
f(x) | |
class PythonToPhp: | |
def __init__(self, source, indent = 0): | |
tree = ast.parse(source) | |
self.code = StringIO() | |
self.tabstop = 2 | |
self._indent = indent | |
self.dispatch(tree) | |
def get_code(self): | |
return self.code.getvalue() | |
def fill(self, text = ''): | |
self.code.write('\n%s%s' % (' ' * self.tabstop * self._indent, text)) | |
def write(self, text): | |
self.code.write(text) | |
def enter(self): | |
self.code.write(' {') | |
self._indent += 1 | |
def leave(self): | |
self._indent -= 1 | |
self.fill('}') | |
def error(self, msg): | |
print msg | |
sys.exit() | |
def dispatch(self, tree): | |
if isinstance(tree, list): | |
for t in tree: | |
self.dispatch(t) | |
return | |
meth = getattr(self, '_%s' % tree.__class__.__name__) | |
return meth(tree) | |
########## Transform Methods ########## | |
def _Module(self, tree): | |
for stmt in tree.body: | |
self.dispatch(stmt) | |
### Statement ### | |
def _Expr(self, tree): | |
self.fill() | |
self.dispatch(tree.value) | |
self.write(';') | |
def _Import(self, t): | |
self.error('import not supported') | |
def _ImportFrom(self, t): | |
self.error('import not supported') | |
def _Assign(self, t): | |
self.fill() | |
for target in t.targets: | |
if isinstance(target, ast.Tuple): | |
self._lvalue_tuple(target) | |
else: | |
self.dispatch(target) | |
self.write(' = ') | |
self.dispatch(t.value) | |
self.write(';') | |
def _AugAssign(self, t): | |
self.fill() | |
self.dispatch(t.target) | |
name = t.op.__class__.__name__ | |
if name == 'Pow': | |
self.write(' = pow(') | |
self.dispatch(t.target) | |
self.write(', ') | |
self.dispatch(t.value) | |
self.write(');') | |
elif name == 'FloorDiv': | |
self.write(' = floor(') | |
self.dispatch(t.target) | |
self.write(' / ') | |
self.dispatch(t.value) | |
self.write(');') | |
else: | |
self.write(' %s= ' % self.binop[t.op.__class__.__name__]) | |
self.dispatch(t.value) | |
self.write(';') | |
def _Return(self, t): | |
self.fill('return') | |
if t.value: | |
self.write(' ') | |
self.dispatch(t.value) | |
self.write(';') | |
def _Pass(self, t): | |
self.fill(';') | |
def _Break(self, t): | |
self.fill('break;') | |
def _Continue(self, t): | |
self.fill('continue;') | |
def _Delete(self, t): | |
for target in t.targets: | |
self.fill('unset(') | |
self.dispatch(target) | |
self.write(');') | |
def _Assert(self, t): | |
self.fill('assert(') | |
self.dispatch(t.test) | |
self.write(');') | |
def _Exec(self, t): | |
self.fill('eval(') | |
self.dispatch(t.body) | |
self.write(');') | |
def _Print(self, t): | |
self.fill('echo ') | |
sep = '' | |
for e in t.values: | |
self.write(sep) | |
self.dispatch(e) | |
sep = ', ' | |
if t.nl: | |
self.write(sep) | |
self.write("'<br />'") | |
self.write(';') | |
def _Global(self, t): | |
self.fill('global ') | |
interleave(lambda: self.write(', '), self.write, t.names) | |
self.write(';') | |
def _Yield(self, t): | |
self.error('yield not supported') | |
def _Raise(self, t): | |
self.error('Exceptions not supported') | |
def _TryExcept(self, t): | |
self.error('Exceptions not supported') | |
def _TryFinally(self, t): | |
self.error('Exceptions not supported') | |
def _ExceptHandler(self, t): | |
self.error('Exceptions not supported') | |
def _ClassDef(self, t): | |
self.error('Class not supported') | |
def _FunctionDef(self, t): | |
self.fill('function ' + t.name + '(') | |
self.dispatch(t.args) | |
self.write(')') | |
self.enter() | |
self.dispatch(t.body) | |
self.leave() | |
def _For(self, t): | |
self.fill('foreach (') | |
self.dispatch(t.iter) | |
self.write(' as ') | |
self.dispatch(t.target) | |
self.write(')') | |
self.enter() | |
self.dispatch(t.body) | |
self.leave() | |
if t.orelse: | |
self.error('else clause for for statement not supported') | |
def _If(self, t): | |
self.fill("if (") | |
self.dispatch(t.test) | |
self.write(')') | |
self.enter() | |
self.dispatch(t.body) | |
self.leave() | |
# collapse nested ifs into equivalent elifs. | |
while (t.orelse and len(t.orelse) == 1 and | |
isinstance(t.orelse[0], ast.If)): | |
t = t.orelse[0] | |
self.fill("elseif (") | |
self.dispatch(t.test) | |
self.write(')') | |
self.enter() | |
self.dispatch(t.body) | |
self.leave() | |
# final else | |
if t.orelse: | |
self.fill("else") | |
self.enter() | |
self.dispatch(t.orelse) | |
self.leave() | |
def _While(self, t): | |
self.fill("while (") | |
self.dispatch(t.test) | |
self.write(')') | |
self.enter() | |
self.dispatch(t.body) | |
self.leave() | |
if t.orelse: | |
self.error('else clause for while statement not supported') | |
def _With(self, t): | |
self.error('with statement not supported') | |
### Expression ### | |
def _Str(self, t): | |
self.write(repr(t.s)) | |
def _Name(self, t): | |
if t.id == 'True': | |
self.write('true') | |
elif t.id == 'False': | |
self.write('false') | |
elif t.id == 'None': | |
self.write('null') | |
else: | |
self.write('$%s' % t.id) | |
def _Repr(self, t): | |
self.write('var_export(') | |
self.dispatch(t.value) | |
self.write(", true)") | |
def _Num(self, t): | |
repr_n = repr(t.n) | |
if repr_n.startswith('-'): | |
self.write('(') | |
self.write(repr_n.replace('inf', INFSTR)) | |
if repr_n.startswith('-'): | |
self.write(')') | |
def _List(self, t): | |
self.write('array(') | |
interleave(lambda: self.write(", "), self.dispatch, t.elts) | |
self.write(')') | |
def _ListComp(self, t): | |
if len(t.generators) > 1: | |
self.error('multiple generators in comprehension not supported') | |
generator = t.generators.pop() | |
self._comprehension(generator, 'left') | |
self.dispatch(t.elt) | |
self._comprehension(generator, 'right') | |
def _comprehension(self, t, part = 'left'): | |
if part == 'left': | |
if t.ifs: | |
self.write('array_filter(array_map(function(') | |
else: | |
self.write('array_map(function(') | |
self.dispatch(t.target) | |
self.write(') { return ') | |
elif part == 'right': | |
self.write('; }, ') | |
self.dispatch(t.iter) | |
if t.ifs: | |
self.write('), function(') | |
self.dispatch(t.target) | |
self.write(') { return ') | |
for if_clause in t.ifs: | |
self.dispatch(if_clause) | |
self.write('; })') | |
else: | |
self.write(')') | |
def _GeneratorExp(self, t): | |
if len(t.generators) > 1: | |
self.error('multiple generators in comprehension not supported') | |
generator = t.generators.pop() | |
self._comprehension(generator, 'left') | |
self.dispatch(t.elt) | |
self._comprehension(generator, 'right') | |
def _SetComp(self, t): | |
if len(t.generators) > 1: | |
self.error('multiple generators in comprehension not supported') | |
self.write('array_unique(') | |
generator = t.generators.pop() | |
self._comprehension(generator, 'left') | |
self.dispatch(t.elt) | |
self._comprehension(generator, 'right') | |
self.write(')') | |
def _DictComp(self, t): | |
self.error('dict comprehension not supported') | |
def _IfExp(self, t): | |
self.write("((") | |
self.dispatch(t.test) | |
self.write(') ? (') | |
self.dispatch(t.body) | |
self.write(') : (') | |
self.dispatch(t.orelse) | |
self.write('))') | |
def _Set(self, t): | |
assert(t.elts) # should be at least one element | |
self.write('array_unique(array(') | |
interleave(lambda: self.write(", "), self.dispatch, t.elts) | |
self.write('))') | |
def _Dict(self, t): | |
self.write('array(') | |
def write_pair(pair): | |
k, v = pair | |
self.dispatch(k) | |
self.write(' => ') | |
self.dispatch(v) | |
interleave(lambda: self.write(', '), write_pair, zip(t.keys, t.values)) | |
self.write(')') | |
def _Tuple(self, t): | |
self.write('array(') | |
interleave(lambda: self.write(", "), self.dispatch, t.elts) | |
self.write(')') | |
def _lvalue_tuple(self, t): | |
self.write('list(') | |
interleave(lambda: self.write(", "), self.dispatch, t.elts) | |
self.write(')') | |
unop = {"Invert":"~", "Not": "!", "UAdd":"+", "USub":"-"} | |
def _UnaryOp(self, t): | |
self.write("(") | |
self.write(self.unop[t.op.__class__.__name__]) | |
self.write(" ") | |
if isinstance(t.op, ast.USub) and isinstance(t.operand, ast.Num): | |
self.write("(") | |
self.dispatch(t.operand) | |
self.write(")") | |
else: | |
self.dispatch(t.operand) | |
self.write(")") | |
binop = { | |
"Add":"+", | |
"Sub":"-", | |
"Mult":"*", | |
"Div":"/", | |
"Mod":"%", | |
"LShift":"<<", | |
"RShift":">>", | |
"BitOr":"|", | |
"BitXor":"^", | |
"BitAnd":"&", | |
} | |
def _BinOp(self, t): | |
name = t.op.__class__.__name__ | |
if name == 'Pow': | |
self.write("(pow(") | |
self.dispatch(t.left) | |
self.write(', ') | |
self.dispatch(t.right) | |
self.write('))') | |
elif name == 'FloorDiv': | |
self.write('(floor(') | |
self.dispatch(t.left) | |
self.write(' / ') | |
self.dispatch(t.right) | |
self.write('))') | |
elif name == 'Mod' and isinstance(t.left, ast.Str): | |
self.write('sprintf(') | |
self.dispatch(t.left) | |
self.write(', ') | |
if isinstance(t.right, ast.Str): | |
self.dispatch(t.right) | |
elif isinstance(t.right, ast.Tuple): | |
interleave(lambda: self.write(", "), self.dispatch, t.right.elts) | |
else: | |
self.error('impossible string substript error') | |
self.write(')') | |
else: | |
self.write("(") | |
self.dispatch(t.left) | |
self.write(" " + self.binop[name] + " ") | |
self.dispatch(t.right) | |
self.write(")") | |
cmpops = { | |
"Eq":"==", | |
"NotEq":"!=", | |
"Lt":"<", | |
"LtE":"<=", | |
"Gt":">", | |
"GtE":">=", | |
"Is":"===", | |
"IsNot":"!==", | |
} | |
def _Compare(self, t): | |
name = t.ops[0].__class__.__name__ | |
self.write("(") | |
if name == 'In': | |
comparator = t.comparators.pop() | |
self.write('in_array(') | |
self.dispatch(t.left) | |
self.write(', ') | |
self.dispatch(comparator) | |
self.write(') || array_key_exists(') | |
self.dispatch(t.left) | |
self.write(', ') | |
self.dispatch(comparator) | |
self.write(')') | |
elif name == 'NotIn': | |
comparator = t.comparators.pop() | |
self.write('!in_array(') | |
self.dispatch(t.left) | |
self.write(', ') | |
self.dispatch(comparator) | |
self.write(') && !array_key_exists(') | |
self.dispatch(t.left) | |
self.write(', ') | |
self.dispatch(comparator) | |
self.write(')') | |
else: | |
self.dispatch(t.left) | |
for o, e in zip(t.ops, t.comparators): | |
self.write(" " + self.cmpops[o.__class__.__name__] + " ") | |
self.dispatch(e) | |
self.write(")") | |
boolops = {ast.And: '&&', ast.Or: '||'} | |
def _BoolOp(self, t): | |
self.write("(") | |
s = " %s " % self.boolops[t.op.__class__] | |
interleave(lambda: self.write(s), self.dispatch, t.values) | |
self.write(")") | |
def _Attribute(self,t): | |
self.dispatch(t.value) | |
self.write("->") | |
self.write(t.attr) | |
def _func_name(self, t): | |
self.write('%s' % t.id) | |
def _Call(self, t): | |
self._func_name(t.func) | |
self.write("(") | |
comma = False | |
for e in t.args: | |
if comma: self.write(", ") | |
else: comma = True | |
self.dispatch(e) | |
for e in t.keywords: | |
if comma: self.write(", ") | |
else: comma = True | |
self.dispatch(e) | |
if t.starargs: | |
self.error('function vararg not supported') | |
if t.kwargs: | |
self.error('function kwarg not supported') | |
self.write(")") | |
def _Subscript(self, t): | |
if isinstance(t.slice, ast.Index): | |
#self.dispatch(t.value) | |
#self.write("[") | |
#self.dispatch(t.slice) | |
#self.write("]") | |
self.write('pyphp_subscript(') | |
self.dispatch(t.value) | |
self.write(', ') | |
self.dispatch(t.slice) | |
self.write(')') | |
elif isinstance(t.slice, ast.Slice): | |
self.write('array_slice(') | |
self.dispatch(t.value) | |
self.write(', ') | |
self.dispatch(t.slice) | |
self.write(')') | |
def _Ellipsis(self, t): | |
self.error('ellipsis not supported') | |
def _Index(self, t): | |
self.dispatch(t.value) | |
def _Slice(self, t): | |
if t.lower: | |
self.dispatch(t.lower) | |
else: | |
self.write('0') | |
if t.upper: | |
self.write(", ") | |
self.write('(') | |
self.dispatch(t.upper) | |
self.write(' - ') | |
if t.lower: | |
self.dispatch(t.lower) | |
else: | |
self.write('0') | |
self.write(')') | |
if t.step: | |
self.error('slice step not supported') | |
def _ExtSlice(self, t): | |
self.error('extslice not supported') | |
#interleave(lambda: self.write(', '), self.dispatch, t.dims) | |
### Others ### | |
def _arguments(self, t): | |
first = True | |
defaults = [None] * (len(t.args) - len(t.defaults)) + t.defaults | |
for a,d in zip(t.args, defaults): | |
if first: first = False | |
else: self.write(", ") | |
self.dispatch(a), | |
if d: | |
self.write(" = ") | |
self.dispatch(d) | |
if t.vararg: | |
self.error('function vararg not supported') | |
if t.kwarg: | |
self.error('function kwarg not supported') | |
def _keyword(self, t): | |
self.write('$%s' % t.arg) | |
self.write(" = ") | |
self.dispatch(t.value) | |
def _Lambda(self, t): | |
self.write("(") | |
self.write("function(") | |
self.dispatch(t.args) | |
self.write(") {") | |
self.dispatch(t.body) | |
self.write("})") | |
def _alias(self, t): | |
self.error('alias not supported') |
import requests
print('################################################################\n'
'Simple Program in Python to use certificate generated for Get API\n'
'################################################################\n'
'Please get ready the GET API URL\n')
try:
request_url = input("Enter URL to continue: ")
response = requests.get(request_url, cert=('/Users/Ming/SampleCode/cert.pem', '/Users/Ming/SampleCode/key.pem')
)
print("Status Code: ", response.status_code)
print(response.json())
except:
print("Please check whether input URL or certificate path is valid")
Sign up for free
to join this conversation on GitHub.
Already have an account?
Sign in to comment
How can I use this script? please explain.