mirror of https://github.com/m-labs/artiq.git
transforms: quantize time before interleaving
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@ -2,6 +2,7 @@ import os
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from artiq.transforms.inline import inline
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from artiq.transforms.lower_units import lower_units
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from artiq.transforms.quantize_time import quantize_time
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from artiq.transforms.remove_inter_assigns import remove_inter_assigns
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from artiq.transforms.fold_constants import fold_constants
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from artiq.transforms.remove_dead_code import remove_dead_code
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@ -54,6 +55,9 @@ class Core:
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remove_inter_assigns(func_def)
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debug_unparse("remove_inter_assigns_1", func_def)
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quantize_time(func_def, self.runtime_env.ref_period)
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debug_unparse("quantize_time", func_def)
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fold_constants(func_def)
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debug_unparse("fold_constants_1", func_def)
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@ -63,9 +67,7 @@ class Core:
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interleave(func_def)
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debug_unparse("interleave", func_def)
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lower_time(func_def,
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getattr(self.runtime_env, "initial_time", 0),
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self.runtime_env.ref_period)
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lower_time(func_def, getattr(self.runtime_env, "initial_time", 0))
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debug_unparse("lower_time", func_def)
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remove_inter_assigns(func_def)
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@ -1,64 +1,29 @@
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"""This transform implements time management functions (delay/now/at)
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using an accumulator 'now' and simple replacement rules:
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delay(t) -> now += t
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now() -> now
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at(t) -> now = t
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Time parameters must be quantized to integers before running this transform.
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The accumulator is initialized to an int64 value at the beginning of the
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output function.
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"""
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import ast
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from artiq.transforms.tools import value_to_ast
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from artiq.language.core import int64
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def _time_to_cycles(ref_period, node):
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divided = ast.copy_location(
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ast.BinOp(left=node,
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op=ast.Div(),
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right=value_to_ast(ref_period)),
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node)
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return ast.copy_location(
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ast.Call(func=ast.Name("round64", ast.Load()),
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args=[divided],
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keywords=[], starargs=[], kwargs=[]),
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divided)
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def _time_to_cycles_opt(ref_period, node):
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if (isinstance(node, ast.Call)
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and isinstance(node.func, ast.Name)
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and node.func.id == "cycles_to_time"):
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return node.args[0]
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else:
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return _time_to_cycles(ref_period, node)
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def _cycles_to_time(ref_period, node):
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return ast.copy_location(
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ast.BinOp(left=node,
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op=ast.Mult(),
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right=value_to_ast(ref_period)),
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node)
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class _TimeLowerer(ast.NodeTransformer):
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def __init__(self, ref_period):
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self.ref_period = ref_period
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def visit_Call(self, node):
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# optimize time_to_cycles(now()) -> now
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if (isinstance(node.func, ast.Name)
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and node.func.id == "time_to_cycles"
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and isinstance(node.args[0], ast.Call)
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and isinstance(node.args[0].func, ast.Name)
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and node.args[0].func.id == "now"):
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if isinstance(node.func, ast.Name) and node.func.id == "now":
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return ast.copy_location(ast.Name("now", ast.Load()), node)
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self.generic_visit(node)
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if isinstance(node.func, ast.Name):
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funcname = node.func.id
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if funcname == "now":
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return _cycles_to_time(
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self.ref_period,
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ast.copy_location(ast.Name("now", ast.Load()), node))
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elif funcname == "time_to_cycles":
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return _time_to_cycles(self.ref_period, node.args[0])
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elif funcname == "cycles_to_time":
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return _cycles_to_time(self.ref_period, node.args[0])
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return node
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else:
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self.generic_visit(node)
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return node
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def visit_Expr(self, node):
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r = node
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@ -69,23 +34,19 @@ class _TimeLowerer(ast.NodeTransformer):
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r = ast.copy_location(
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ast.AugAssign(target=ast.Name("now", ast.Store()),
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op=ast.Add(),
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value=_time_to_cycles_opt(
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self.ref_period,
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node.value.args[0])),
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value=node.value.args[0]),
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node)
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elif funcname == "at":
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r = ast.copy_location(
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ast.Assign(targets=[ast.Name("now", ast.Store())],
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value=_time_to_cycles_opt(
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self.ref_period,
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node.value.args[0])),
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value=node.value.args[0]),
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node)
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self.generic_visit(r)
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return r
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def lower_time(func_def, initial_time, ref_period):
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_TimeLowerer(ref_period).visit(func_def)
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def lower_time(func_def, initial_time):
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_TimeLowerer().visit(func_def)
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func_def.body.insert(0, ast.copy_location(
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ast.Assign(targets=[ast.Name("now", ast.Store())],
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value=value_to_ast(int64(initial_time))),
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@ -0,0 +1,82 @@
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"""This transform turns calls to delay/now/at that use non-integer time
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expressed in seconds into calls that use int64 time expressed in multiples of
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ref_period.
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It does so by inserting multiplication/division/rounding operations around
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those calls.
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The time_to_cycles and cycles_to_time core language functions are also
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implemented here.
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"""
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import ast
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from artiq.transforms.tools import value_to_ast
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def _call_now(node):
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return ast.copy_location(
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ast.Call(func=ast.Name("now", ast.Load()),
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args=[], keywords=[], starargs=[], kwargs=[]),
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node)
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def _time_to_cycles(ref_period, node):
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divided = ast.copy_location(
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ast.BinOp(left=node,
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op=ast.Div(),
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right=value_to_ast(ref_period)),
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node)
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return ast.copy_location(
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ast.Call(func=ast.Name("round64", ast.Load()),
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args=[divided],
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keywords=[], starargs=[], kwargs=[]),
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divided)
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def _cycles_to_time(ref_period, node):
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return ast.copy_location(
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ast.BinOp(left=node,
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op=ast.Mult(),
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right=value_to_ast(ref_period)),
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node)
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class _TimeQuantizer(ast.NodeTransformer):
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def __init__(self, ref_period):
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self.ref_period = ref_period
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def visit_Call(self, node):
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funcname = node.func.id
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if funcname == "now":
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return _cycles_to_time(self.ref_period, _call_now(node))
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elif funcname == "delay" or funcname == "at":
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if (isinstance(node.args[0], ast.Call)
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and node.args[0].func.id == "cycles_to_time"):
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# optimize:
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# delay/at(cycles_to_time(x)) -> delay/at(x)
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node.args[0] = self.visit(node.args[0].args[0])
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else:
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node.args[0] = _time_to_cycles(self.ref_period,
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self.visit(node.args[0]))
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return node
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elif funcname == "time_to_cycles":
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if (isinstance(node.args[0], ast.Call)
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and node.args[0].func.id == "now"):
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# optimize:
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# time_to_cycles(now()) -> now()
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return _call_now(node)
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else:
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return _time_to_cycles(self.ref_period,
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self.visit(node.args[0]))
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elif funcname == "cycles_to_time":
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return _cycles_to_time(self.ref_period,
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self.visit(node.args[0]))
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else:
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self.generic_visit(node)
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return node
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def quantize_time(func_def, ref_period):
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_TimeQuantizer(ref_period).visit(func_def)
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