forked from M-Labs/artiq
compiler: unbreak casts to int32/int64.
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@ -126,10 +126,10 @@ def fn_int():
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return types.TConstructor(TInt())
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def fn_int32():
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return types.TConstructor(TInt32())
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return types.TBuiltinFunction("int32")
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def fn_int64():
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return types.TConstructor(TInt64())
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return types.TBuiltinFunction("int64")
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def fn_float():
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return types.TConstructor(TFloat())
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@ -14,6 +14,8 @@ def globals():
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"list": builtins.fn_list(),
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"array": builtins.fn_array(),
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"range": builtins.fn_range(),
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"int32": builtins.fn_int32(),
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"int64": builtins.fn_int64(),
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# Exception constructors
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"Exception": builtins.fn_Exception(),
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@ -1599,7 +1599,8 @@ class ARTIQIRGenerator(algorithm.Visitor):
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return self.coerce_to_bool(arg)
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else:
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assert False
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elif types.is_builtin(typ, "int"):
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elif types.is_builtin(typ, "int") or \
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types.is_builtin(typ, "int32") or types.is_builtin(typ, "int64"):
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if len(node.args) == 0 and len(node.keywords) == 0:
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return ir.Constant(0, node.type)
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elif len(node.args) == 1 and \
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@ -622,14 +622,28 @@ class Inferencer(algorithm.Visitor):
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self._unify(node.type, builtins.TBool(),
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node.loc, None)
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elif types.is_builtin(typ, "int"):
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valid_forms = lambda: [
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valid_form("int() -> numpy.int?"),
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valid_form("int(x:'a) -> numpy.int?"),
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valid_form("int(x:'a, width=?) -> numpy.int?")
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]
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elif types.is_builtin(typ, "int") or \
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types.is_builtin(typ, "int32") or types.is_builtin(typ, "int64"):
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if types.is_builtin(typ, "int"):
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valid_forms = lambda: [
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valid_form("int() -> numpy.int?"),
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valid_form("int(x:'a) -> numpy.int? where 'a is numeric")
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]
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result_typ = builtins.TInt()
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elif types.is_builtin(typ, "int32"):
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valid_forms = lambda: [
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valid_form("numpy.int32() -> numpy.int32"),
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valid_form("numpy.int32(x:'a) -> numpy.int32 where 'a is numeric")
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]
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result_typ = builtins.TInt32()
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elif types.is_builtin(typ, "int64"):
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valid_forms = lambda: [
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valid_form("numpy.int64() -> numpy.int64"),
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valid_form("numpy.int64(x:'a) -> numpy.int64 where 'a is numeric")
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]
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result_typ = builtins.TInt64()
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self._unify(node.type, builtins.TInt(),
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self._unify(node.type, result_typ,
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node.loc, None)
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if len(node.args) == 0 and len(node.keywords) == 0:
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@ -639,20 +653,7 @@ class Inferencer(algorithm.Visitor):
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pass # undetermined yet
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elif len(node.args) == 1 and len(node.keywords) == 0 and \
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builtins.is_numeric(node.args[0].type):
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self._unify(node.type, builtins.TInt(),
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node.loc, None)
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elif len(node.args) == 1 and len(node.keywords) == 1 and \
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builtins.is_numeric(node.args[0].type) and \
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node.keywords[0].arg == 'width':
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width = node.keywords[0].value
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if not (isinstance(width, asttyped.NumT) and isinstance(width.n, int)):
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diag = diagnostic.Diagnostic("error",
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"the width argument of int() must be an integer literal", {},
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node.keywords[0].loc)
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self.engine.process(diag)
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return
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self._unify(node.type, builtins.TInt(types.TValue(width.n)),
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self._unify(node.type, result_typ,
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node.loc, None)
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else:
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diagnose(valid_forms())
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@ -13,8 +13,8 @@ int()
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# CHECK-L: int:<constructor int>(1.0:float):numpy.int?
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int(1.0)
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# CHECK-L: int:<constructor int>(1.0:float, width=64:numpy.int?):numpy.int64
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int(1.0, width=64)
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# CHECK-L: int64:<function int64>(1.0:float):numpy.int64
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int64(1.0)
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# CHECK-L: float:<constructor float {}>():float
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float()
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@ -0,0 +1,5 @@
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# RUN: %python -m artiq.compiler.testbench.inferencer +mono %s >%t
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# RUN: OutputCheck %s --file-to-check=%t
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# CHECK-L: numpy.int64
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int64(2)**32
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@ -1,10 +1,6 @@
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# RUN: %python -m artiq.compiler.testbench.inferencer +diag %s >%t
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# RUN: OutputCheck %s --file-to-check=%t
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a = 1
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# CHECK-L: ${LINE:+1}: error: the width argument of int() must be an integer literal
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int(1.0, width=a)
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# CHECK-L: ${LINE:+1}: error: the argument of len() must be of an iterable type
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len(1)
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@ -7,7 +7,7 @@ assert bool() is False
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assert int() is 0
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assert int(1.0) is 1
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#ARTIQ#assert int(1, width=64) << 40 is 1099511627776
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#ARTIQ#assert int64(1) << 40 is 1099511627776
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#ARTIQ#assert float() is 0.0
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#ARTIQ#assert float(1) is 1.0
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