Mercurial > p > roundup > code
view roundup/mlink_expr.py @ 7471:a4987f5ebee0
Add padding around code examples.
They were all squished against the edges of the box. This makes them
less squished and prevents overlap of bottom scroll bar with the bottom
row of text.
| author | John Rouillard <rouilj@ieee.org> |
|---|---|
| date | Thu, 08 Jun 2023 01:33:16 -0400 |
| parents | 87af08c75695 |
| children | 741ea8a86012 |
line wrap: on
line source
# # Copyright: 2010 Intevation GmbH. # 2021 Ralf Schlatterbeck, rsc@runtux.com. # # This module is Free Software under the Roundup licensing, # see the COPYING.txt file coming with Roundup. # class Binary: def __init__(self, x, y): self.x = x self.y = y def visit(self, visitor): self.x.visit(visitor) self.y.visit(visitor) class Unary: def __init__(self, x): self.x = x def generate(self, atom): return atom(self) def visit(self, visitor): self.x.visit(visitor) class Equals(Unary): def evaluate(self, v): return self.x in v def visit(self, visitor): visitor(self) class Empty(Unary): def evaluate(self, v): return not v def visit(self, visitor): visitor(self) class Not(Unary): def evaluate(self, v): return not self.x.evaluate(v) def generate(self, atom): return "NOT(%s)" % self.x.generate(atom) class Or(Binary): def evaluate(self, v): return self.x.evaluate(v) or self.y.evaluate(v) def generate(self, atom): return "(%s)OR(%s)" % ( self.x.generate(atom), self.y.generate(atom)) class And(Binary): def evaluate(self, v): return self.x.evaluate(v) and self.y.evaluate(v) def generate(self, atom): return "(%s)AND(%s)" % ( self.x.generate(atom), self.y.generate(atom)) def compile_expression(opcodes): stack = [] push, pop = stack.append, stack.pop for opcode in opcodes: if opcode == -1: push(Empty(opcode)) # noqa: E271,E701 elif opcode == -2: push(Not(pop())) # noqa: E701 elif opcode == -3: push(And(pop(), pop())) # noqa: E701 elif opcode == -4: push(Or(pop(), pop())) # noqa: E701 else: push(Equals(opcode)) # noqa: E701 return pop() class Expression: def __init__(self, v, is_link=False): try: opcodes = [int(x) for x in v] if min(opcodes) >= -1: raise ValueError() compiled = compile_expression(opcodes) if is_link: self.evaluate = lambda x: compiled.evaluate( x and [int(x)] or []) else: self.evaluate = lambda x: compiled.evaluate([int(y) for y in x]) except (ValueError, TypeError): if is_link: v = [None if x == '-1' else x for x in v] self.evaluate = lambda x: x in v elif '-1' in v: v = [x for x in v if int(x) > 0] self.evaluate = lambda x: bool(set(x) & set(v)) or not x else: self.evaluate = lambda x: bool(set(x) & set(v)) except BaseException: raise