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pass line id to inject_cb

devel
Stefan Holst 10 months ago
parent
commit
68e8cb844a
  1. 20
      src/kyupy/logic_sim.py

20
src/kyupy/logic_sim.py

@ -51,7 +51,7 @@ class LogicSim(sim.SimOps):
""" """
self.c[self.pippi_c_locs] = self.s[0, self.pippi_s_locs, :self.mdim] self.c[self.pippi_c_locs] = self.s[0, self.pippi_s_locs, :self.mdim]
def c_prop(self, inject_cb=None): def c_prop(self, sims=None, inject_cb=None):
"""Propagate the input values through the combinational circuit towards the outputs. """Propagate the input values through the combinational circuit towards the outputs.
Performs all logic operations in topological order. Performs all logic operations in topological order.
@ -69,8 +69,8 @@ class LogicSim(sim.SimOps):
if inject_cb is None: if inject_cb is None:
_prop_cpu(self.ops, self.c_locs, self.c) _prop_cpu(self.ops, self.c_locs, self.c)
else: else:
for op, o0, i0, i1, i2, i3 in self.ops[:,:6]: for op, o0l, i0l, i1l, i2l, i3l in self.ops[:,:6]:
o0, i0, i1, i2, i3 = [self.c_locs[x] for x in (o0, i0, i1, i2, i3)] o0, i0, i1, i2, i3 = [self.c_locs[x] for x in (o0l, i0l, i1l, i2l, i3l)]
if op == sim.BUF1: self.c[o0]=self.c[i0] if op == sim.BUF1: self.c[o0]=self.c[i0]
elif op == sim.INV1: self.c[o0] = ~self.c[i0] elif op == sim.INV1: self.c[o0] = ~self.c[i0]
elif op == sim.AND2: self.c[o0] = self.c[i0] & self.c[i1] elif op == sim.AND2: self.c[o0] = self.c[i0] & self.c[i1]
@ -105,10 +105,10 @@ class LogicSim(sim.SimOps):
elif op == sim.OAI211:self.c[o0] = ~((self.c[i0] | self.c[i1]) & self.c[i2] & self.c[i3]) elif op == sim.OAI211:self.c[o0] = ~((self.c[i0] | self.c[i1]) & self.c[i2] & self.c[i3])
elif op == sim.MUX21: self.c[o0] = (self.c[i0] & ~self.c[i2]) | (self.c[i1] & self.c[i2]) elif op == sim.MUX21: self.c[o0] = (self.c[i0] & ~self.c[i2]) | (self.c[i1] & self.c[i2])
else: print(f'unknown op {op}') else: print(f'unknown op {op}')
inject_cb(o0, self.c[o0]) inject_cb(o0l, self.c[o0])
elif self.m == 4: elif self.m == 4:
for op, o0, i0, i1, i2, i3 in self.ops[:,:6]: for op, o0l, i0l, i1l, i2l, i3l in self.ops[:,:6]:
o0, i0, i1, i2, i3 = [self.c_locs[x] for x in (o0, i0, i1, i2, i3)] o0, i0, i1, i2, i3 = [self.c_locs[x] for x in (o0l, i0l, i1l, i2l, i3l)]
if op == sim.BUF1: self.c[o0]=self.c[i0] if op == sim.BUF1: self.c[o0]=self.c[i0]
elif op == sim.INV1: logic.bp4v_not(self.c[o0], self.c[i0]) elif op == sim.INV1: logic.bp4v_not(self.c[o0], self.c[i0])
elif op == sim.AND2: logic.bp4v_and(self.c[o0], self.c[i0], self.c[i1]) elif op == sim.AND2: logic.bp4v_and(self.c[o0], self.c[i0], self.c[i1])
@ -181,10 +181,10 @@ class LogicSim(sim.SimOps):
logic.bp4v_and(self.c[t1], self.c[i1], self.c[i2]) logic.bp4v_and(self.c[t1], self.c[i1], self.c[i2])
logic.bp4v_or(self.c[o0], self.c[t0], self.c[t1]) logic.bp4v_or(self.c[o0], self.c[t0], self.c[t1])
else: print(f'unknown op {op}') else: print(f'unknown op {op}')
if inject_cb is not None: inject_cb(o0, self.c[o0]) if inject_cb is not None: inject_cb(o0l, self.c[o0])
else: else:
for op, o0, i0, i1, i2, i3 in self.ops[:,:6]: for op, o0l, i0l, i1l, i2l, i3l in self.ops[:,:6]:
o0, i0, i1, i2, i3 = [self.c_locs[x] for x in (o0, i0, i1, i2, i3)] o0, i0, i1, i2, i3 = [self.c_locs[x] for x in (o0l, i0l, i1l, i2l, i3l)]
if op == sim.BUF1: self.c[o0]=self.c[i0] if op == sim.BUF1: self.c[o0]=self.c[i0]
elif op == sim.INV1: logic.bp8v_not(self.c[o0], self.c[i0]) elif op == sim.INV1: logic.bp8v_not(self.c[o0], self.c[i0])
elif op == sim.AND2: logic.bp8v_and(self.c[o0], self.c[i0], self.c[i1]) elif op == sim.AND2: logic.bp8v_and(self.c[o0], self.c[i0], self.c[i1])
@ -257,7 +257,7 @@ class LogicSim(sim.SimOps):
logic.bp8v_and(self.c[t1], self.c[i1], self.c[i2]) logic.bp8v_and(self.c[t1], self.c[i1], self.c[i2])
logic.bp8v_or(self.c[o0], self.c[t0], self.c[t1]) logic.bp8v_or(self.c[o0], self.c[t0], self.c[t1])
else: print(f'unknown op {op}') else: print(f'unknown op {op}')
if inject_cb is not None: inject_cb(o0, self.c[o0]) if inject_cb is not None: inject_cb(o0l, self.c[o0])
def c_to_s(self): def c_to_s(self):
"""Copies (captures) the results of the combinational portion to ``s[1]``. """Copies (captures) the results of the combinational portion to ``s[1]``.

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