proglangs/agtest
1
0
Fork 0
Code Issues Pull requests Projects Releases Wiki Activity

tabs -> spaces

Browse source
This commit is contained in:
Michael Zhang 2021-06-14 15:52:53 -05:00
parent 8c687c4d1c
commit 6e7563c84c
Signed by: michael
GPG key ID: BDA47A31A3C8EE6B
6 changed files with 304 additions and 304 deletions
Show stats Download patch file Download diff file Expand all files Collapse all files

220
agast.py
View file

@ -4,148 +4,148 @@ from lark import Transformer, Tree, Token
T = TypeVar("T")
class Ast:
# def __new__(cls: Type[Ast], name: str, bases: Tuple[type], namespace: Dict[str, Any]) -> Ast:
# x = super().__new__(cls, name, bases, namespace)
# x.id = cls.__gen()
# return x
id: str
n = 0
@classmethod
def __gen(cls, name: str = "") -> str:
newid = cls.n
cls.n += 1
return f"_a{newid}{name}"
def __init__(self) -> None:
self.id = self.__gen()
# def __new__(cls: Type[Ast], name: str, bases: Tuple[type], namespace: Dict[str, Any]) -> Ast:
# x = super().__new__(cls, name, bases, namespace)
# x.id = cls.__gen()
# return x
id: str
n = 0
@classmethod
def __gen(cls, name: str = "") -> str:
newid = cls.n
cls.n += 1
return f"_a{newid}{name}"
def __init__(self) -> None:
self.id = self.__gen()
class Decl:
name: str
name: str
class IfaceRef(str): pass
class IfaceField:
def __init__(self, name: str, ty: str):
self.name = name
self.ty = ty
def __init__(self, name: str, ty: str):
self.name = name
self.ty = ty
class Iface(Decl):
def __init__(self, name: str, fields: List[IfaceField]):
self.name = name
self.fields = fields
def __init__(self, name: str, fields: List[IfaceField]):
self.name = name
self.fields = fields
class Expr(Ast):
def __init__(self) -> None:
super().__init__()
def __init__(self) -> None:
super().__init__()
class NodeRef: pass
class NodeRefByName(NodeRef, str):
def __init__(self, name: str):
self.name = name
def __repr__(self) -> str: return f"NodeRefByName({self.name})"
def __init__(self, name: str):
self.name = name
def __repr__(self) -> str: return f"NodeRefByName({self.name})"
class Sym: pass
class SymRename(Sym):
def __init__(self, name: str, ty: NodeRef):
self.name = name
self.ty = ty
def __repr__(self) -> str: return f"SymRename({self.name} : {self.ty})"
def __init__(self, name: str, ty: NodeRef):
self.name = name
self.ty = ty
def __repr__(self) -> str: return f"SymRename({self.name} : {self.ty})"
class Equation:
def __init__(self, lhs: Expr, rhs: Expr):
self.lhs = lhs
self.rhs = rhs
def __repr__(self) -> str: return f"{self.lhs} = {self.rhs}"
def __init__(self, lhs: Expr, rhs: Expr):
self.lhs = lhs
self.rhs = rhs
def __repr__(self) -> str: return f"{self.lhs} = {self.rhs}"
class Variant:
def __init__(self, prod: List[Sym], equations: List[Equation]):
self.prod = prod
self.equations = equations
def __repr__(self) -> str: return f"Variant({self.prod}, {self.equations})"
def __init__(self, prod: List[Sym], equations: List[Equation]):
self.prod = prod
self.equations = equations
def __repr__(self) -> str: return f"Variant({self.prod}, {self.equations})"
class Node(Decl):
def __init__(self, name: str, ifaces: List[IfaceRef], variants: List[Variant]):
self.name = name
self.ifaces = ifaces
self.variants = variants
def __init__(self, name: str, ifaces: List[IfaceRef], variants: List[Variant]):
self.name = name
self.ifaces = ifaces
self.variants = variants
class ExprDot(Expr):
def __init__(self, left: Expr, right: str):
super().__init__()
self.left = left
self.right = right
def __repr__(self) -> str: return f"{self.left}.{self.right}"
def __init__(self, left: Expr, right: str):
super().__init__()
self.left = left
self.right = right
def __repr__(self) -> str: return f"{self.left}.{self.right}"
class ExprAdd(Expr):
def __init__(self, left: Expr, right: Expr):
super().__init__()
self.left = left
self.right = right
def __repr__(self) -> str: return f"{self.left} + {self.right}"
def __init__(self, left: Expr, right: Expr):
super().__init__()
self.left = left
self.right = right
def __repr__(self) -> str: return f"{self.left} + {self.right}"
class ExprMul(Expr):
def __init__(self, left: Expr, right: Expr):
super().__init__()
self.left = left
self.right = right
def __repr__(self) -> str: return f"{self.left} * {self.right}"
def __init__(self, left: Expr, right: Expr):
super().__init__()
self.left = left
self.right = right
def __repr__(self) -> str: return f"{self.left} * {self.right}"
class ExprCall(Expr):
def __init__(self, func: Expr, args: List[Expr]):
super().__init__()
self.func = func
self.args = args
def __repr__(self) -> str: return f"{self.func}({self.args})"
def __init__(self, func: Expr, args: List[Expr]):
super().__init__()
self.func = func
self.args = args
def __repr__(self) -> str: return f"{self.func}({self.args})"
class ExprName(Expr):
def __init__(self, name: str):
super().__init__()
self.name = name
def __repr__(self) -> str: return f"{self.name}"
def __init__(self, name: str):
super().__init__()
self.name = name
def __repr__(self) -> str: return f"{self.name}"
class Parser(Transformer[List[Decl]]):
def program(self, items: List[Decl]) -> List[Decl]: return items
def program(self, items: List[Decl]) -> List[Decl]: return items
# interfaces
def iface(self, items: List[Any]) -> Iface:
[name, fields] = items
return Iface(name, fields)
def iface_field(self, items: List[str]) -> IfaceField:
[name, ty] = items
return IfaceField(name, ty)
def iface_ref(self, items: List[str]) -> str: return items[0]
def iface_refs(self, items: List[IfaceRef]) -> List[IfaceRef]: return items
# interfaces
def iface(self, items: List[Any]) -> Iface:
[name, fields] = items
return Iface(name, fields)
def iface_field(self, items: List[str]) -> IfaceField:
[name, ty] = items
return IfaceField(name, ty)
def iface_ref(self, items: List[str]) -> str: return items[0]
def iface_refs(self, items: List[IfaceRef]) -> List[IfaceRef]: return items
# nodes
def node(self, items: List[Any]) -> Node:
[name, ifaces, variants] = items
return Node(name, ifaces, variants)
def node_ref_name(self, items: List[str]) -> NodeRefByName: return NodeRefByName(items[0])
# nodes
def node(self, items: List[Any]) -> Node:
[name, ifaces, variants] = items
return Node(name, ifaces, variants)
def node_ref_name(self, items: List[str]) -> NodeRefByName: return NodeRefByName(items[0])
# variants
def variants(self, items: List[Variant]) -> List[Variant]: return items
def variant(self, items: List[Any]) -> Variant:
[prod, equations] = items
return Variant(prod, equations)
def prod(self, items: List[Sym]) -> List[Sym]: return items
# variants
def variants(self, items: List[Variant]) -> List[Variant]: return items
def variant(self, items: List[Any]) -> Variant:
[prod, equations] = items
return Variant(prod, equations)
def prod(self, items: List[Sym]) -> List[Sym]: return items
def sym_rename(self, items: List[Any]) -> Sym: return SymRename(items[0], items[1])
def sym_rename(self, items: List[Any]) -> Sym: return SymRename(items[0], items[1])
# equations
def equations(self, items: List[Equation]) -> List[Equation]: return items
def equation_semi(self, items: List[Equation]) -> Equation: return items[0]
def equation(self, items: List[Expr]) -> Equation: return Equation(items[0], items[1])
# equations
def equations(self, items: List[Equation]) -> List[Equation]: return items
def equation_semi(self, items: List[Equation]) -> Equation: return items[0]
def equation(self, items: List[Expr]) -> Equation: return Equation(items[0], items[1])
# expr
def expr_dot(self, items: List[Any]) -> Expr:
[left, right] = items
return ExprDot(left, right)
def expr_add(self, items: List[Expr]) -> Expr:
[left, right] = items
return ExprAdd(left, right)
def expr_mul(self, items: List[Expr]) -> Expr:
[left, right] = items
return ExprMul(left, right)
def expr_call(self, items: List[Expr]) -> Expr:
[func, args] = items
# TODO: args should be a list of exprs -_ -
return ExprCall(func, [args])
def expr_name(self, items: List[str]) -> Expr:
return ExprName(items[0])
# expr
def expr_dot(self, items: List[Any]) -> Expr:
[left, right] = items
return ExprDot(left, right)
def expr_add(self, items: List[Expr]) -> Expr:
[left, right] = items
return ExprAdd(left, right)
def expr_mul(self, items: List[Expr]) -> Expr:
[left, right] = items
return ExprMul(left, right)
def expr_call(self, items: List[Expr]) -> Expr:
[func, args] = items
# TODO: args should be a list of exprs -_ -
return ExprCall(func, [args])
def expr_name(self, items: List[str]) -> Expr:
return ExprName(items[0])
def sep_trail(self, items: List[Tree]) -> List[T]:
return list(map(lambda it: cast(T, it), items))
def sep_trail(self, items: List[Tree]) -> List[T]:
return list(map(lambda it: cast(T, it), items))
def ident(self, items: List[Token]) -> str: return cast(str, items[0].value)
def ident(self, items: List[Token]) -> str: return cast(str, items[0].value)

228
aggen.py
View file

@ -9,132 +9,132 @@ global i
i = 0
class GenResult:
def __init__(self, pd: str = "", ex: str = ""):
self.parser_data = pd
self.extra = ex
def __init__(self, pd: str = "", ex: str = ""):
self.parser_data = pd
self.extra = ex
def gen(program: List[Decl]) -> GenResult:
res = GenResult()
def gen(prefix: str = "", suffix: str = "") -> str:
global i
presan = re.sub("[^0-9a-zA-Z]+", "_", prefix)
sufsan = re.sub("[^0-9a-zA-Z]+", "_", suffix)
i += 1
return f"{presan}{i}{sufsan}"
def v(name: str) -> str:
return f"__ag_{name}"
res = GenResult()
def gen(prefix: str = "", suffix: str = "") -> str:
global i
presan = re.sub("[^0-9a-zA-Z]+", "_", prefix)
sufsan = re.sub("[^0-9a-zA-Z]+", "_", suffix)
i += 1
return f"{presan}{i}{sufsan}"
def v(name: str) -> str:
return f"__ag_{name}"
# builtins
builtins: Dict[str, str] = {
"parseInt": "",
}
# builtins
builtins: Dict[str, str] = {
"parseInt": "",
}
# collect a list of name -> iface declarations
ifaces: Dict[str, Iface] = dict(
map(lambda c: (c.name, cast(Iface, c)),
filter(lambda c: isinstance(c, Iface),
program)))
# list of node -> iface mappings
what_ifaces: Dict[str, Set[str]] = dict()
what_fields: Dict[str, Dict[str, str]] = dict()
for node in filter(lambda c: isinstance(c, Node), program):
node = cast(Node, node)
# all_fields = dict()
what_ifaces[node.name] = set(node.ifaces)
this_fields = dict()
for iface in node.ifaces:
fields = ifaces[iface].fields
for field in fields:
if field.name in this_fields:
raise Exception("duplicate field name")
this_fields[field.name] = field.ty
what_fields[node.name] = this_fields
print("what_ifaces:", what_ifaces)
print("what_fields:", what_fields)
# collect a list of name -> iface declarations
ifaces: Dict[str, Iface] = dict(
map(lambda c: (c.name, cast(Iface, c)),
filter(lambda c: isinstance(c, Iface),
program)))
# list of node -> iface mappings
what_ifaces: Dict[str, Set[str]] = dict()
what_fields: Dict[str, Dict[str, str]] = dict()
for node in filter(lambda c: isinstance(c, Node), program):
node = cast(Node, node)
# all_fields = dict()
what_ifaces[node.name] = set(node.ifaces)
this_fields = dict()
for iface in node.ifaces:
fields = ifaces[iface].fields
for field in fields:
if field.name in this_fields:
raise Exception("duplicate field name")
this_fields[field.name] = field.ty
what_fields[node.name] = this_fields
print("what_ifaces:", what_ifaces)
print("what_fields:", what_fields)
# a high-level dictionary of productions; this has sub-productions
# that should be further expanded at a later step before converting
# into lark code
productions_hi: Dict[str, Union[str, List[str]]] = dict()
# a high-level dictionary of productions; this has sub-productions
# that should be further expanded at a later step before converting
# into lark code
productions_hi: Dict[str, Union[str, List[str]]] = dict()
# TODO: this should probably not be inlined here, but i'll move it
# out once i get more info into the 'env'
def collect_required_thunks(env: List[Tuple[str, NodeRef]], expr: Expr) -> Dict[str, str]:
names = dict(env)
print(f"collect_required_thunks({expr})", expr.__class__)
if isinstance(expr, ExprDot):
return collect_required_thunks(env, expr.left)
elif isinstance(expr, ExprMul):
a = collect_required_thunks(env, expr.left)
b = collect_required_thunks(env, expr.right)
a.update(b)
return a
elif isinstance(expr, ExprAdd):
a = collect_required_thunks(env, expr.left)
b = collect_required_thunks(env, expr.right)
a.update(b)
return a
elif isinstance(expr, ExprCall):
return collect_required_thunks(env, expr.func)
elif isinstance(expr, ExprName):
if expr.name not in names and expr.name not in builtins:
raise Exception(f"unbound name '{expr.name}'")
return dict()
raise Exception(f"unhandled {expr.__class__}")
# TODO: this should probably not be inlined here, but i'll move it
# out once i get more info into the 'env'
def collect_required_thunks(env: List[Tuple[str, NodeRef]], expr: Expr) -> Dict[str, str]:
names = dict(env)
print(f"collect_required_thunks({expr})", expr.__class__)
if isinstance(expr, ExprDot):
return collect_required_thunks(env, expr.left)
elif isinstance(expr, ExprMul):
a = collect_required_thunks(env, expr.left)
b = collect_required_thunks(env, expr.right)
a.update(b)
return a
elif isinstance(expr, ExprAdd):
a = collect_required_thunks(env, expr.left)
b = collect_required_thunks(env, expr.right)
a.update(b)
return a
elif isinstance(expr, ExprCall):
return collect_required_thunks(env, expr.func)
elif isinstance(expr, ExprName):
if expr.name not in names and expr.name not in builtins:
raise Exception(f"unbound name '{expr.name}'")
return dict()
raise Exception(f"unhandled {expr.__class__}")
for node in filter(lambda c: isinstance(c, Node), program):
node = cast(Node, node)
n_class_name = gen(node.name)
class_decl = textwrap.dedent(f"""
class {v(n_class_name)}: pass
""")
res.extra += class_decl
for node in filter(lambda c: isinstance(c, Node), program):
node = cast(Node, node)
n_class_name = gen(node.name)
class_decl = textwrap.dedent(f"""
class {v(n_class_name)}: pass
""")
res.extra += class_decl
print(node.name, node.ifaces)
print(node.name, node.ifaces)
for variant in node.variants:
v_class_name = gen(f"{n_class_name}_var")
class_decl = textwrap.dedent(f"""
class {v(v_class_name)}({v(n_class_name)}):
''' '''
pass
""")
res.extra += class_decl
for variant in node.variants:
v_class_name = gen(f"{n_class_name}_var")
class_decl = textwrap.dedent(f"""
class {v(v_class_name)}({v(n_class_name)}):
''' '''
pass
""")
res.extra += class_decl
prod_name = gen(node.name)
print(prod_name)
prod_name = gen(node.name)
print(prod_name)
# create an environment for checking the equations based on
# the production
env: List[Tuple[str, NodeRef]] = list()
for sym in variant.prod:
if isinstance(sym, SymRename):
env.append((sym.name, sym.ty))
print(env)
# for each of the equations, find out what the equation is
# trying to compute, and generate a thunk corresponding to
# that value.
for eq in variant.equations:
eq_name = gen(f"eq_{node.name}")
thunk_name = gen(f"thunk_{node.name}")
# create an environment for checking the equations based on
# the production
env: List[Tuple[str, NodeRef]] = list()
for sym in variant.prod:
if isinstance(sym, SymRename):
env.append((sym.name, sym.ty))
print(env)
# for each of the equations, find out what the equation is
# trying to compute, and generate a thunk corresponding to
# that value.
for eq in variant.equations:
eq_name = gen(f"eq_{node.name}")
thunk_name = gen(f"thunk_{node.name}")
print("RHS", eq.rhs, eq.rhs.id)
collect_required_thunks(copy.deepcopy(env), eq.rhs)
print("RHS", eq.rhs, eq.rhs.id)
collect_required_thunks(copy.deepcopy(env), eq.rhs)
func_impl = textwrap.dedent(f"""
def {eq_name}() -> None:
''' {repr(eq)} '''
pass
def {thunk_name}() -> Thunk[None]:
return Thunk({eq_name})
""")
print(f"```py\n{func_impl}\n```")
res.extra += func_impl
func_impl = textwrap.dedent(f"""
def {eq_name}() -> None:
''' {repr(eq)} '''
pass
def {thunk_name}() -> Thunk[None]:
return Thunk({eq_name})
""")
print(f"```py\n{func_impl}\n```")
res.extra += func_impl
# this is a "type alias" that connects it to one of the generated
# names above
res.extra += f"{node.name} = {v(n_class_name)}"
# this is a "type alias" that connects it to one of the generated
# names above
res.extra += f"{node.name} = {v(n_class_name)}"
return res
return res

78
agmain.py
View file

@ -9,47 +9,47 @@ from aggen import *
p = Lark(open("grammar.lark").read(), start="program", parser="lalr")
if __name__ == "__main__":
with open("arith.ag") as f:
data = f.read()
with open("arith.ag") as f:
data = f.read()
cst = p.parse(data)
cst = p.parse(data)
trans = Parser()
ast = trans.transform(cst)
print("ast", ast)
trans = Parser()
ast = trans.transform(cst)
print("ast", ast)
res = gen(ast)
res = gen(ast)
if not os.path.exists("gen"):
os.makedirs("gen")
with open("gen/arith.py", "w") as f:
fmt_str = textwrap.dedent("""
__all__ = ["parse"]
from typing import Generic, TypeVar, Optional, Callable, Dict, Any
from lark import Lark, Transformer
T = TypeVar('T')
builtins: Dict[str, Any] = {{
"parseInt": lambda s: int(s)
}}
class Thunk(Generic[T]):
''' A thunk represents a value that may be computed lazily. '''
value: Optional[T]
def __init__(self, func: Callable[[], T]):
self.func = func
self.value = None
def get(self) -> T:
if self.value is None:
self.value = self.func()
return self.value
parser = Lark('''start:
{pd}''')
class Trans(Transformer[None]):
pass
{ex}
def parse(input: str) -> None:
print(input)
""")
f.write(fmt_str.format(pd=res.parser_data, ex=res.extra))
if not os.path.exists("gen"):
os.makedirs("gen")
with open("gen/arith.py", "w") as f:
fmt_str = textwrap.dedent("""
__all__ = ["parse"]
from typing import Generic, TypeVar, Optional, Callable, Dict, Any
from lark import Lark, Transformer
T = TypeVar('T')
builtins: Dict[str, Any] = {{
"parseInt": lambda s: int(s)
}}
class Thunk(Generic[T]):
''' A thunk represents a value that may be computed lazily. '''
value: Optional[T]
def __init__(self, func: Callable[[], T]):
self.func = func
self.value = None
def get(self) -> T:
if self.value is None:
self.value = self.func()
return self.value
parser = Lark('''start:
{pd}''')
class Trans(Transformer[None]):
pass
{ex}
def parse(input: str) -> None:
print(input)
""")
f.write(fmt_str.format(pd=res.parser_data, ex=res.extra))
mod = importlib.import_module("gen.arith")
mod.parse("1 + 2 * 3") # type: ignore
mod = importlib.import_module("gen.arith")
mod.parse("1 + 2 * 3") # type: ignore

16
arith.ag
View file

@ -1,13 +1,13 @@
iface HasValue {
val: int,
val: int,
}
node Expr : HasValue {
<l:Expr> "+" <r:Expr> => {
self.val = l.val + r.val * l.val;
}
<l:Expr> "*" <r:Expr> => {
self.val = l.val * r.val;
}
<n:r"[0-9]+"> => { self.val = parseInt(n); }
<l:Expr> "+" <r:Expr> => {
self.val = l.val + r.val * l.val;
}
<l:Expr> "*" <r:Expr> => {
self.val = l.val * r.val;
}
<n:r"[0-9]+"> => { self.val = parseInt(n); }
}

30
let.ag
View file

@ -1,25 +1,25 @@
iface HasEnv {
env: Map<str, str>,
env: Map<str, str>,
}
iface HasVal {
val: str,
val: str,
}
alias Ident = /([a-zA-Z][a-zA-Z0-9_]*)|(_[a-zA-Z0-9_]+)/
node Expr : HasEnv + HasVal {
"let" <name:Ident> "=" <val:Expr> "in" <body:Expr> => {
body.env = self.env.with(name, val);
self.val = body.val;
}
<name:Ident> => {
// TODO: does env need to be referenced here?
// TODO: how to check for unbound names ahead of time
// (for self-implementation)
self.val = self.env.lookup(name);
}
<string:StringLit> => {
self.val = string;
}
"let" <name:Ident> "=" <val:Expr> "in" <body:Expr> => {
body.env = self.env.with(name, val);
self.val = body.val;
}
<name:Ident> => {
// TODO: does env need to be referenced here?
// TODO: how to check for unbound names ahead of time
// (for self-implementation)
self.val = self.env.lookup(name);
}
<string:StringLit> => {
self.val = string;
}
}

36
old.py
View file

@ -3,33 +3,33 @@ from typing import Generic, TypeVar, Optional, Callable
T = TypeVar("T")
class Thunk(Generic[T]):
value: Optional[T]
value: Optional[T]
def __init__(self, func: Callable[[], T]):
self.func = func
self.value = None
def __init__(self, func: Callable[[], T]):
self.func = func
self.value = None
def get(self) -> T:
if self.value is None:
self.value = self.func()
return self.value
def get(self) -> T:
if self.value is None:
self.value = self.func()
return self.value
class Node:
value: Thunk[int]
value: Thunk[int]
class Add(Node):
def __init__(self, left: Node, right: Node):
self.value = Thunk(lambda: left.value.get() + right.value.get())
def __init__(self, left: Node, right: Node):
self.value = Thunk(lambda: left.value.get() + right.value.get())
class Mul(Node):
def __init__(self, left: Node, right: Node):
self.value = Thunk(lambda: left.value.get() * right.value.get())
def __init__(self, left: Node, right: Node):
self.value = Thunk(lambda: left.value.get() * right.value.get())
class Lit(Node):
def __init__(self, num: int):
self.num = num
self.value = Thunk(lambda: num)
def __init__(self, num: int):
self.num = num
self.value = Thunk(lambda: num)
if __name__ == "__main__":
tree = Add(Mul(Lit(3), Lit(4)), Lit(5))
print(tree.value.get())
tree = Add(Mul(Lit(3), Lit(4)), Lit(5))
print(tree.value.get())