litex/migen/fhdl/tools.py

from copy import copy

from migen.fhdl.structure import *
from migen.fhdl.structure import _Operator, _Slice, _Assign, _StatementList, _ArrayProxy

def list_signals(node):
	if node is None:
		return set()
	elif isinstance(node, Constant):
		return set()
	elif isinstance(node, Signal):
		return {node}
	elif isinstance(node, _Operator):
		l = list(map(list_signals, node.operands))
		return set().union(*l)
	elif isinstance(node, _Slice):
		return list_signals(node.value)
	elif isinstance(node, Cat):
		l = list(map(list_signals, node.l))
		return set().union(*l)
	elif isinstance(node, Replicate):
		return list_signals(node.v)
	elif isinstance(node, _Assign):
		return list_signals(node.l) | list_signals(node.r)
	elif isinstance(node, _StatementList):
		l = list(map(list_signals, node.l))
		return set().union(*l)
	elif isinstance(node, If):
		return list_signals(node.cond) | list_signals(node.t) | list_signals(node.f)
	elif isinstance(node, Case):
		l = list(map(lambda x: list_signals(x[1]), node.cases))
		return list_signals(node.test).union(*l).union(list_signals(node.default))
	elif isinstance(node, Fragment):
		return list_signals(node.comb) | list_signals(node.sync)
	else:
		raise TypeError

def list_targets(node):
	if node is None:
		return set()
	elif isinstance(node, Signal):
		return {node}
	elif isinstance(node, _Slice):
		return list_targets(node.value)
	elif isinstance(node, Cat):
		l = list(map(list_targets, node.l))
		return set().union(*l)
	elif isinstance(node, _Assign):
		return list_targets(node.l)
	elif isinstance(node, _StatementList):
		l = list(map(list_targets, node.l))
		return set().union(*l)
	elif isinstance(node, If):
		return list_targets(node.t) | list_targets(node.f)
	elif isinstance(node, Case):
		l = list(map(lambda x: list_targets(x[1]), node.cases))
		return list_targets(node.default).union(*l)
	elif isinstance(node, Fragment):
		return list_targets(node.comb) | list_targets(node.sync)
	else:
		raise TypeError

def group_by_targets(sl):
	groups = []
	for statement in sl.l:
		targets = list_targets(statement)
		processed = False
		for g in groups:
			if not targets.isdisjoint(g[0]):
				g[0].update(targets)
				g[1].append(statement)
				processed = True
				break
		if not processed:
			groups.append((targets, [statement]))
	return groups

def list_inst_ios(i, ins, outs, inouts):
	if isinstance(i, Fragment):
		return list_inst_ios(i.instances, ins, outs, inouts)
	else:
		l = []
		for x in i:
			if ins:
				l += x.ins.values()
			if outs:
				l += x.outs.values()
			if inouts:
				l += x.inouts.values()
		return set(l)

def list_mem_ios(m, ins, outs):
	if isinstance(m, Fragment):
		return list_mem_ios(m.memories, ins, outs)
	else:
		s = set()
		def add(*sigs):
			for sig in sigs:
				if sig is not None:
					s.add(sig)
		for x in m:
			for p in x.ports:
				if ins:
					add(p.adr, p.we, p.dat_w, p.re)
				if outs:
					add(p.dat_r)
		return s

def is_variable(node):
	if isinstance(node, Signal):
		return node.variable
	elif isinstance(node, _Slice):
		return is_variable(node.value)
	elif isinstance(node, Cat):
		arevars = list(map(is_variable, node.l))
		r = arevars[0]
		for x in arevars:
			if x != r:
				raise TypeError
		return r
	else:
		raise TypeError

def insert_reset(rst, sl):
	targets = list_targets(sl)
	resetcode = [t.eq(t.reset) for t in targets]
	return If(rst, *resetcode).Else(*sl.l)

def value_bv(v):
	if isinstance(v, Constant):
		return v.bv
	elif isinstance(v, Signal):
		return v.bv
	elif isinstance(v, _Operator):
		obv = map(value_bv, v.operands)
		if v.op == "+" or v.op == "-":
			return BV(max(obv[0].width, obv[1].width) + 1,
				obv[0].signed and obv[1].signed)
		elif v.op == "*":
			signed = obv[0].signed and obv[1].signed
			if signed:
				return BV(obv[0].width + obv[1].width - 1, signed)
			else:
				return BV(obv[0].width + obv[1].width, signed)
		elif v.op == "<<" or v.op == ">>":
			return obv[0].bv
		elif v.op == "&" or v.op == "^" or v.op == "|":
			return BV(max(obv[0].width, obv[1].width),
				obv[0].signed and obv[1].signed)
		elif v.op == "<" or v.op == "<=" or v.op == "==" or v.op == "!=" \
		  or v.op == ">" or v.op == ">=":
			  return BV(1)
		else:
			raise TypeError
	elif isinstance(v, _Slice):
		return BV(v.stop - v.start, value_bv(v.value).signed)
	elif isinstance(v, Cat):
		return BV(sum(value_bv(sv).width for sv in v.l))
	elif isinstance(v, Replicate):
		return BV(value_bv(v.v).width*v.n)
	elif isinstance(v, _ArrayProxy):
		bvc = map(value_bv, v.choices)
		return BV(max(bv.width for bv in bvc), any(bv.signed for bv in bvc))
	else:
		raise TypeError

def _lower_arrays_values(vl):
	r = []
	extra_comb = []
	for v in vl:
		v2, e = _lower_arrays_value(v)
		extra_comb += e
		r.append(v2)
	return r, extra_comb

def _lower_arrays_value(v):
	if isinstance(v, Constant):
		return v, []
	elif isinstance(v, Signal):
		return v, []
	elif isinstance(v, _Operator):
		op2, e = _lower_arrays_values(v.operands)
		return _Operator(v.op, op2), e
	elif isinstance(v, _Slice):
		v2, e = _lower_arrays_value(v.value)
		return _Slice(v2, v.start, v.stop), e
	elif isinstance(v, Cat):
		l2, e = _lower_arrays_values(v.l)
		return Cat(*l2), e
	elif isinstance(v, Replicate):
		v2, e = _lower_arrays_value(v.v)
		return Replicate(v2, v.n), e
	elif isinstance(v, _ArrayProxy):
		choices2, e = _lower_arrays_values(v.choices)
		array_muxed = Signal(value_bv(v))
		cases = [[Constant(n), _Assign(array_muxed, choice)]
			for n, choice in enumerate(choices2)]
		cases[-1][0] = Default()
		e.append(Case(v.key, *cases))
		return array_muxed, e

def _lower_arrays_assign(l, r):
	extra_comb = []
	if isinstance(l, _ArrayProxy):
		k, e = _lower_arrays_value(l.key)
		extra_comb += e
		cases = []
		for n, choice in enumerate(l.choices):
			assign, e = _lower_arrays_assign(choice, r)
			extra_comb += e
			cases.append([Constant(n), assign])
		cases[-1][0] = Default()
		return Case(k, *cases), extra_comb
	else:
		return _Assign(l, r), extra_comb
		
def _lower_arrays_sl(sl):
	result = _StatementList()
	rs = result.l
	extra_comb = []
	for statement in sl.l:
		if isinstance(statement, _Assign):
			r, e = _lower_arrays_value(statement.r)
			extra_comb += e
			r, e = _lower_arrays_assign(statement.l, r)
			extra_comb += e
			rs.append(r)
		elif isinstance(statement, If):
			cond, e = _lower_arrays_value(statement.cond)
			extra_comb += e
			t, e = _lower_arrays_sl(statement.t)
			extra_comb += e
			f, e = _lower_arrays_sl(statement.f)
			extra_comb += e
			i = If(cond)
			i.t = t
			i.f = f
			rs.append(i)
		elif isinstance(statement, Case):
			test, e = _lower_arrays_value(statement.test)
			extra_comb += e
			c = Case(test)
			for cond, csl in statement.cases:
				stmts, e = _lower_arrays_sl(csl)
				extra_comb += e
				c.cases.append((cond, stmts))
			if statement.default is not None:
				c.default, e = _lower_arrays_sl(statement.default)
				extra_comb += e
			rs.append(c)
		elif statement is not None:
			raise TypeError
	return result, extra_comb

def lower_arrays(f):
	f = copy(f)
	f.comb, ec1 = _lower_arrays_sl(f.comb)
	f.sync, ec2 = _lower_arrays_sl(f.sync)
	f.comb.l += ec1 + ec2
	return f
fhdl: arrays (TODO: use correct BV for intermediate signals) 2012-07-09 09:16:38 -04:00			`from copy import copy`

fhdl: simpler syntax 2011-12-16 15:30:14 -05:00			`from migen.fhdl.structure import *`
fhdl: arrays (TODO: use correct BV for intermediate signals) 2012-07-09 09:16:38 -04:00			`from migen.fhdl.structure import _Operator, _Slice, _Assign, _StatementList, _ArrayProxy`
Reset insertion 2011-12-04 16:41:50 -05:00
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`def list_signals(node):`
fhdl: allow None statements 2012-01-15 11:45:54 -05:00			`if node is None:`
			`return set()`
			`elif isinstance(node, Constant):`
Reset insertion 2011-12-04 16:41:50 -05:00			`return set()`
			`elif isinstance(node, Signal):`
			`return {node}`
fhdl: simpler syntax 2011-12-16 15:30:14 -05:00			`elif isinstance(node, _Operator):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`l = list(map(list_signals, node.operands))`
Reset insertion 2011-12-04 16:41:50 -05:00			`return set().union(*l)`
Consistent names 2011-12-21 16:57:07 -05:00			`elif isinstance(node, _Slice):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`return list_signals(node.value)`
Reset insertion 2011-12-04 16:41:50 -05:00			`elif isinstance(node, Cat):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`l = list(map(list_signals, node.l))`
Reset insertion 2011-12-04 16:41:50 -05:00			`return set().union(*l)`
fhdl: replication support 2011-12-09 07:11:34 -05:00			`elif isinstance(node, Replicate):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`return list_signals(node.v)`
Consistent names 2011-12-21 16:57:07 -05:00			`elif isinstance(node, _Assign):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`return list_signals(node.l) \| list_signals(node.r)`
Consistent names 2011-12-21 16:57:07 -05:00			`elif isinstance(node, _StatementList):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`l = list(map(list_signals, node.l))`
Reset insertion 2011-12-04 16:41:50 -05:00			`return set().union(*l)`
			`elif isinstance(node, If):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`return list_signals(node.cond) \| list_signals(node.t) \| list_signals(node.f)`
Case support + register bank generator 2011-12-05 11:43:56 -05:00			`elif isinstance(node, Case):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`l = list(map(lambda x: list_signals(x[1]), node.cases))`
			`return list_signals(node.test).union(*l).union(list_signals(node.default))`
Reset insertion 2011-12-04 16:41:50 -05:00			`elif isinstance(node, Fragment):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`return list_signals(node.comb) \| list_signals(node.sync)`
Reset insertion 2011-12-04 16:41:50 -05:00			`else:`
			`raise TypeError`

Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`def list_targets(node):`
fhdl: allow None statements 2012-01-15 11:45:54 -05:00			`if node is None:`
			`return set()`
			`elif isinstance(node, Signal):`
Reset insertion 2011-12-04 16:41:50 -05:00			`return {node}`
Consistent names 2011-12-21 16:57:07 -05:00			`elif isinstance(node, _Slice):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`return list_targets(node.value)`
Reset insertion 2011-12-04 16:41:50 -05:00			`elif isinstance(node, Cat):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`l = list(map(list_targets, node.l))`
Reset insertion 2011-12-04 16:41:50 -05:00			`return set().union(*l)`
Consistent names 2011-12-21 16:57:07 -05:00			`elif isinstance(node, _Assign):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`return list_targets(node.l)`
Consistent names 2011-12-21 16:57:07 -05:00			`elif isinstance(node, _StatementList):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`l = list(map(list_targets, node.l))`
Reset insertion 2011-12-04 16:41:50 -05:00			`return set().union(*l)`
			`elif isinstance(node, If):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`return list_targets(node.t) \| list_targets(node.f)`
Case support + register bank generator 2011-12-05 11:43:56 -05:00			`elif isinstance(node, Case):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`l = list(map(lambda x: list_targets(x[1]), node.cases))`
			`return list_targets(node.default).union(*l)`
Instance support 2011-12-08 10:35:32 -05:00			`elif isinstance(node, Fragment):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`return list_targets(node.comb) \| list_targets(node.sync)`
Reset insertion 2011-12-04 16:41:50 -05:00			`else:`
			`raise TypeError`

verilog: split comb block, use assign statements 2012-01-07 06:19:06 -05:00			`def group_by_targets(sl):`
			`groups = []`
			`for statement in sl.l:`
			`targets = list_targets(statement)`
			`processed = False`
			`for g in groups:`
			`if not targets.isdisjoint(g[0]):`
			`g[0].update(targets)`
			`g[1].append(statement)`
			`processed = True`
			`break`
			`if not processed:`
			`groups.append((targets, [statement]))`
			`return groups`

fhdl: support forwarding of bidirectional signals from instance ports 2012-02-16 12:34:32 -05:00			`def list_inst_ios(i, ins, outs, inouts):`
Instance support 2011-12-08 10:35:32 -05:00			`if isinstance(i, Fragment):`
fhdl: support forwarding of bidirectional signals from instance ports 2012-02-16 12:34:32 -05:00			`return list_inst_ios(i.instances, ins, outs, inouts)`
Instance support 2011-12-08 10:35:32 -05:00			`else:`
			`l = []`
			`for x in i:`
Fix instance support 2012-01-20 16:36:17 -05:00			`if ins:`
			`l += x.ins.values()`
			`if outs:`
			`l += x.outs.values()`
fhdl: support forwarding of bidirectional signals from instance ports 2012-02-16 12:34:32 -05:00			`if inouts:`
			`l += x.inouts.values()`
Instance support 2011-12-08 10:35:32 -05:00			`return set(l)`

fhdl/verilog: clean up signal classification and support memory descriptions 2012-01-27 10:54:48 -05:00			`def list_mem_ios(m, ins, outs):`
			`if isinstance(m, Fragment):`
			`return list_mem_ios(m.memories, ins, outs)`
			`else:`
			`s = set()`
			`def add(*sigs):`
			`for sig in sigs:`
			`if sig is not None:`
			`s.add(sig)`
			`for x in m:`
			`for p in x.ports:`
			`if ins:`
			`add(p.adr, p.we, p.dat_w, p.re)`
			`if outs:`
			`add(p.dat_r)`
			`return s`

Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`def is_variable(node):`
Variable conversion 2011-12-05 16:00:06 -05:00			`if isinstance(node, Signal):`
			`return node.variable`
Consistent names 2011-12-21 16:57:07 -05:00			`elif isinstance(node, _Slice):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`return is_variable(node.value)`
Variable conversion 2011-12-05 16:00:06 -05:00			`elif isinstance(node, Cat):`
Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`arevars = list(map(is_variable, node.l))`
Variable conversion 2011-12-05 16:00:06 -05:00			`r = arevars[0]`
			`for x in arevars:`
			`if x != r:`
			`raise TypeError`
			`return r`
			`else:`
			`raise TypeError`

Pay a bit more attention to PEP8 2011-12-16 10:02:55 -05:00			`def insert_reset(rst, sl):`
			`targets = list_targets(sl)`
fhdl: simpler syntax 2011-12-16 15:30:14 -05:00			`resetcode = [t.eq(t.reset) for t in targets]`
			`return If(rst, resetcode).Else(sl.l)`
fhdl: arrays (TODO: use correct BV for intermediate signals) 2012-07-09 09:16:38 -04:00
fhdl/arrays: use correct BV for intermediate signals 2012-07-11 06:06:32 -04:00			`def value_bv(v):`
			`if isinstance(v, Constant):`
			`return v.bv`
			`elif isinstance(v, Signal):`
			`return v.bv`
			`elif isinstance(v, _Operator):`
			`obv = map(value_bv, v.operands)`
			`if v.op == "+" or v.op == "-":`
			`return BV(max(obv[0].width, obv[1].width) + 1,`
			`obv[0].signed and obv[1].signed)`
			`elif v.op == "*":`
			`signed = obv[0].signed and obv[1].signed`
			`if signed:`
			`return BV(obv[0].width + obv[1].width - 1, signed)`
			`else:`
			`return BV(obv[0].width + obv[1].width, signed)`
			`elif v.op == "<<" or v.op == ">>":`
			`return obv[0].bv`
			`elif v.op == "&" or v.op == "^" or v.op == "\|":`
			`return BV(max(obv[0].width, obv[1].width),`
			`obv[0].signed and obv[1].signed)`
			`elif v.op == "<" or v.op == "<=" or v.op == "==" or v.op == "!=" \`
			`or v.op == ">" or v.op == ">=":`
			`return BV(1)`
			`else:`
			`raise TypeError`
			`elif isinstance(v, _Slice):`
			`return BV(v.stop - v.start, value_bv(v.value).signed)`
			`elif isinstance(v, Cat):`
			`return BV(sum(value_bv(sv).width for sv in v.l))`
			`elif isinstance(v, Replicate):`
			`return BV(value_bv(v.v).width*v.n)`
			`elif isinstance(v, _ArrayProxy):`
			`bvc = map(value_bv, v.choices)`
			`return BV(max(bv.width for bv in bvc), any(bv.signed for bv in bvc))`
			`else:`
			`raise TypeError`

fhdl: arrays (TODO: use correct BV for intermediate signals) 2012-07-09 09:16:38 -04:00			`def _lower_arrays_values(vl):`
			`r = []`
			`extra_comb = []`
			`for v in vl:`
			`v2, e = _lower_arrays_value(v)`
			`extra_comb += e`
			`r.append(v2)`
			`return r, extra_comb`
fhdl/arrays: use correct BV for intermediate signals 2012-07-11 06:06:32 -04:00
fhdl: arrays (TODO: use correct BV for intermediate signals) 2012-07-09 09:16:38 -04:00			`def _lower_arrays_value(v):`
fhdl/arrays: use correct BV for intermediate signals 2012-07-11 06:06:32 -04:00			`if isinstance(v, Constant):`
			`return v, []`
			`elif isinstance(v, Signal):`
			`return v, []`
			`elif isinstance(v, _Operator):`
fhdl: arrays (TODO: use correct BV for intermediate signals) 2012-07-09 09:16:38 -04:00			`op2, e = _lower_arrays_values(v.operands)`
			`return _Operator(v.op, op2), e`
			`elif isinstance(v, _Slice):`
			`v2, e = _lower_arrays_value(v.value)`
			`return _Slice(v2, v.start, v.stop), e`
			`elif isinstance(v, Cat):`
			`l2, e = _lower_arrays_values(v.l)`
			`return Cat(*l2), e`
			`elif isinstance(v, Replicate):`
			`v2, e = _lower_arrays_value(v.v)`
			`return Replicate(v2, v.n), e`
			`elif isinstance(v, _ArrayProxy):`
			`choices2, e = _lower_arrays_values(v.choices)`
fhdl/arrays: use correct BV for intermediate signals 2012-07-11 06:06:32 -04:00			`array_muxed = Signal(value_bv(v))`
fhdl: arrays (TODO: use correct BV for intermediate signals) 2012-07-09 09:16:38 -04:00			`cases = [[Constant(n), _Assign(array_muxed, choice)]`
			`for n, choice in enumerate(choices2)]`
			`cases[-1][0] = Default()`
			`e.append(Case(v.key, *cases))`
			`return array_muxed, e`

			`def _lower_arrays_assign(l, r):`
			`extra_comb = []`
			`if isinstance(l, _ArrayProxy):`
			`k, e = _lower_arrays_value(l.key)`
			`extra_comb += e`
			`cases = []`
			`for n, choice in enumerate(l.choices):`
			`assign, e = _lower_arrays_assign(choice, r)`
			`extra_comb += e`
			`cases.append([Constant(n), assign])`
			`cases[-1][0] = Default()`
			`return Case(k, *cases), extra_comb`
			`else:`
			`return _Assign(l, r), extra_comb`

			`def _lower_arrays_sl(sl):`
			`result = _StatementList()`
			`rs = result.l`
			`extra_comb = []`
			`for statement in sl.l:`
			`if isinstance(statement, _Assign):`
			`r, e = _lower_arrays_value(statement.r)`
			`extra_comb += e`
			`r, e = _lower_arrays_assign(statement.l, r)`
			`extra_comb += e`
			`rs.append(r)`
			`elif isinstance(statement, If):`
			`cond, e = _lower_arrays_value(statement.cond)`
			`extra_comb += e`
			`t, e = _lower_arrays_sl(statement.t)`
			`extra_comb += e`
			`f, e = _lower_arrays_sl(statement.f)`
			`extra_comb += e`
			`i = If(cond)`
			`i.t = t`
			`i.f = f`
			`rs.append(i)`
			`elif isinstance(statement, Case):`
			`test, e = _lower_arrays_value(statement.test)`
			`extra_comb += e`
			`c = Case(test)`
			`for cond, csl in statement.cases:`
			`stmts, e = _lower_arrays_sl(csl)`
			`extra_comb += e`
			`c.cases.append((cond, stmts))`
			`if statement.default is not None:`
			`c.default, e = _lower_arrays_sl(statement.default)`
			`extra_comb += e`
			`rs.append(c)`
			`elif statement is not None:`
			`raise TypeError`
			`return result, extra_comb`

			`def lower_arrays(f):`
			`f = copy(f)`
			`f.comb, ec1 = _lower_arrays_sl(f.comb)`
			`f.sync, ec2 = _lower_arrays_sl(f.sync)`
			`f.comb.l += ec1 + ec2`
			`return f`