-from nmigen import Signal, Cat, Const, Mux, Module, Array
-from nmigen.cli import verilog, rtlil
-from nmigen.hdl.rec import Record, Layout
-
-from collections.abc import Sequence
-
-
-class PrevControl:
- """ contains signals that come *from* the previous stage (both in and out)
- * i_valid: previous stage indicating all incoming data is valid.
- may be a multi-bit signal, where all bits are required
- to be asserted to indicate "valid".
- * o_ready: output to next stage indicating readiness to accept data
- * i_data : an input - added by the user of this class
- """
-
- def __init__(self, i_width=1):
- self.i_valid = Signal(i_width, name="p_i_valid") # prev >>in self
- self.o_ready = Signal(name="p_o_ready") # prev <<out self
-
- def connect_in(self, prev):
- """ helper function to connect stage to an input source. do not
- use to connect stage-to-stage!
- """
- return [self.i_valid.eq(prev.i_valid),
- prev.o_ready.eq(self.o_ready),
- eq(self.i_data, prev.i_data),
- ]
-
- def i_valid_logic(self):
- vlen = len(self.i_valid)
- if vlen > 1: # multi-bit case: valid only when i_valid is all 1s
- all1s = Const(-1, (len(self.i_valid), False))
- return self.i_valid == all1s
- # single-bit i_valid case
- return self.i_valid
-
-
-class NextControl:
- """ contains the signals that go *to* the next stage (both in and out)
- * o_valid: output indicating to next stage that data is valid
- * i_ready: input from next stage indicating that it can accept data
- * o_data : an output - added by the user of this class
- """
- def __init__(self):
- self.o_valid = Signal(name="n_o_valid") # self out>> next
- self.i_ready = Signal(name="n_i_ready") # self <<in next
-
- def connect_to_next(self, nxt):
- """ helper function to connect to the next stage data/valid/ready.
- data/valid is passed *TO* nxt, and ready comes *IN* from nxt.
- """
- return [nxt.i_valid.eq(self.o_valid),
- self.i_ready.eq(nxt.o_ready),
- eq(nxt.i_data, self.o_data),
- ]
-
- def connect_out(self, nxt):
- """ helper function to connect stage to an output source. do not
- use to connect stage-to-stage!
- """
- return [nxt.o_valid.eq(self.o_valid),
- self.i_ready.eq(nxt.i_ready),
- eq(nxt.o_data, self.o_data),
- ]
-
-
-def eq(o, i):
- """ makes signals equal: a helper routine which identifies if it is being
- passed a list (or tuple) of objects, or signals, or Records, and calls
- the objects' eq function.
-
- complex objects (classes) can be used: they must follow the
- convention of having an eq member function, which takes the
- responsibility of further calling eq and returning a list of
- eq assignments
-
- Record is a special (unusual, recursive) case, where the input may be
- specified as a dictionary (which may contain further dictionaries,
- recursively), where the field names of the dictionary must match
- the Record's field spec. Alternatively, an object with the same
- member names as the Record may be assigned: it does not have to
- *be* a Record.
- """
- if not isinstance(o, Sequence):
- o, i = [o], [i]
- res = []
- for (ao, ai) in zip(o, i):
- #print ("eq", ao, ai)
- if isinstance(ao, Record):
- for idx, (field_name, field_shape, _) in enumerate(ao.layout):
- if isinstance(field_shape, Layout):
- val = ai.fields
- else:
- val = ai
- if hasattr(val, field_name): # check for attribute
- val = getattr(val, field_name)
- else:
- val = val[field_name] # dictionary-style specification
- rres = eq(ao.fields[field_name], val)
- res += rres
- else:
- rres = ao.eq(ai)
- if not isinstance(rres, Sequence):
- rres = [rres]
- res += rres
- return res
-
-
-class StageChain:
- """ pass in a list of stages, and they will automatically be
- chained together via their input and output specs into a
- combinatorial chain.
-
- * input to this class will be the input of the first stage
- * output of first stage goes into input of second
- * output of second goes into input into third (etc. etc.)
- * the output of this class will be the output of the last stage
- """
- def __init__(self, chain):
- self.chain = chain
-
- def ispec(self):
- return self.chain[0].ispec()
-
- def ospec(self):
- return self.chain[-1].ospec()
-
- def setup(self, m, i):
- for (idx, c) in enumerate(self.chain):
- if hasattr(c, "setup"):
- c.setup(m, i) # stage may have some module stuff
- o = self.chain[idx].ospec() # only the last assignment survives
- m.d.comb += eq(o, c.process(i)) # process input into "o"
- if idx != len(self.chain)-1:
- ni = self.chain[idx+1].ispec() # becomes new input on next loop
- m.d.comb += eq(ni, o) # assign output to next input
- i = ni
- self.o = o # last loop is the output
-
- def process(self, i):
- return self.o
-
-
-class PipelineBase:
- """ Common functions for Pipeline API
- """
- def __init__(self, stage, in_multi=None, p_len=1, n_len=1):
- """ pass in a "stage" which may be either a static class or a class
- instance, which has four functions (one optional):
- * ispec: returns input signals according to the input specification
- * ispec: returns output signals to the output specification
- * process: takes an input instance and returns processed data
- * setup: performs any module linkage if the stage uses one.
-
- User must also:
- * add i_data member to PrevControl and
- * add o_data member to NextControl
- """
- self.stage = stage
-
- # set up input and output IO ACK (prev/next ready/valid)
- p = []
- n = []
- for i in range(p_len):
- p.append(PrevControl(in_multi))
- for i in range(n_len):
- n.append(NextControl())
- if p_len > 1:
- self.p = Array(p)
- else:
- self.p = p
- if n_len > 1:
- self.n = Array(n)
- else:
- self.n = n