yosys/passes/pmgen/xilinx_srl.pmg

254 lines
6.8 KiB
Plaintext

pattern fixed
state <IdString> clk_port en_port
udata <vector<Cell*>> chain longest_chain
udata <pool<Cell*>> non_first_cells
udata <int> minlen
udata <dict<std::pair<IdString,IdString>,Const>> default_params
code
non_first_cells.clear();
subpattern(setup);
endcode
match first
select first->type.in($_DFF_N_, $_DFF_P_, $_DFFE_NN_, $_DFFE_NP_, $_DFFE_PN_, $_DFFE_PP_, \FDRE, \FDRE_1)
select !first->has_keep_attr()
filter !non_first_cells.count(first)
//generate
// SigSpec A = module->addWire(NEW_ID);
// SigSpec B = module->addWire(NEW_ID);
// SigSpec Y = module->addWire(NEW_ID);
// switch (rng(3))
// {
// case 0:
// module->addAndGate(NEW_ID, A, B, Y);
// break;
// case 1:
// module->addOrGate(NEW_ID, A, B, Y);
// break;
// case 2:
// module->addXorGate(NEW_ID, A, B, Y);
// break;
// }
endmatch
code clk_port en_port
if (first->type.in($_DFF_N_, $_DFF_P_, $_DFFE_NN_, $_DFFE_NP_, $_DFFE_PN_, $_DFFE_PP_, \FDRE, \FDRE_1))
clk_port = \C;
else log_abort();
if (first->type.in($_DFF_N_, $_DFF_P_))
en_port = IdString();
else if (first->type.in($_DFFE_NN_, $_DFFE_NP_, $_DFFE_PN_, $_DFFE_PP_))
en_port = \E;
else if (first->type.in(\FDRE, \FDRE_1))
en_port = \CE;
else log_abort();
longest_chain.clear();
chain.push_back(first);
subpattern(tail);
finally
chain.pop_back();
log_assert(chain.empty());
if (GetSize(longest_chain) >= minlen)
accept;
endcode
// ------------------------------------------------------------------
subpattern setup
arg clk_port
arg en_port
match first
select first->type.in($_DFF_N_, $_DFF_P_, $_DFFE_NN_, $_DFFE_NP_, $_DFFE_PN_, $_DFFE_PP_, \FDRE, \FDRE_1)
select !first->has_keep_attr()
endmatch
code clk_port en_port
if (first->type.in($_DFF_N_, $_DFF_P_, $_DFFE_NN_, $_DFFE_NP_, $_DFFE_PN_, $_DFFE_PP_, \FDRE, \FDRE_1))
clk_port = \C;
else log_abort();
if (first->type.in($_DFF_N_, $_DFF_P_))
en_port = IdString();
else if (first->type.in($_DFFE_NN_, $_DFFE_NP_, $_DFFE_PN_, $_DFFE_PP_))
en_port = \E;
else if (first->type.in(\FDRE, \FDRE_1))
en_port = \CE;
else log_abort();
if (first->type.in(\FDRE, \FDRE_1)) {
SigBit R = port(first, \R);
if (first->type == \FDRE) {
auto inverted = first->parameters.at(\IS_R_INVERTED, default_params.at(std::make_pair(first->type,\IS_R_INVERTED))).as_bool();
if (!inverted && R != State::S0)
reject;
if (inverted && R != State::S1)
reject;
}
else if (first->type == \FDRE_1) {
if (R == State::S0)
reject;
}
else log_abort();
}
endcode
match next
select next->type.in($_DFF_N_, $_DFF_P_, $_DFFE_NN_, $_DFFE_NP_, $_DFFE_PN_, $_DFFE_PP_, \FDRE, \FDRE_1)
select !next->has_keep_attr()
select !port(next, \D)[0].wire->get_bool_attribute(\keep)
select nusers(port(next, \Q)) == 2
index <IdString> next->type === first->type
index <SigBit> port(next, \Q) === port(first, \D)
filter port(next, clk_port) == port(first, clk_port)
filter en_port == IdString() || port(next, en_port) == port(first, en_port)
endmatch
code
if (next->type.in(\FDRE, \FDRE_1)) {
for (auto p : { \R })
if (port(next, p) != port(first, p))
reject;
if (next->type == \FDRE) {
for (auto p : { \IS_C_INVERTED, \IS_D_INVERTED, \IS_R_INVERTED }) {
auto n = next->parameters.at(p, default_params.at(std::make_pair(next->type,p)));
auto f = first->parameters.at(p, default_params.at(std::make_pair(first->type,p)));
if (n != f)
reject;
}
}
}
non_first_cells.insert(next);
endcode
// ------------------------------------------------------------------
subpattern tail
arg first
arg clk_port
arg en_port
match next
semioptional
select next->type.in($_DFF_N_, $_DFF_P_, $_DFFE_NN_, $_DFFE_NP_, $_DFFE_PN_, $_DFFE_PP_, \FDRE, \FDRE_1)
select !next->has_keep_attr()
select !port(next, \D)[0].wire->get_bool_attribute(\keep)
select nusers(port(next, \Q)) == 2
index <IdString> next->type === chain.back()->type
index <SigBit> port(next, \Q) === port(chain.back(), \D)
filter port(next, clk_port) == port(first, clk_port)
filter en_port == IdString() || port(next, en_port) == port(first, en_port)
//generate 10
// SigSpec A = module->addWire(NEW_ID);
// SigSpec B = module->addWire(NEW_ID);
// SigSpec Y = port(chain.back().first, chain.back().second);
// Cell *c = module->addAndGate(NEW_ID, A, B, Y);
// c->type = chain.back().first->type;
endmatch
code
if (next) {
chain.push_back(next);
if (next->type.in(\FDRE, \FDRE_1)) {
for (auto p : { \R })
if (port(next, p) != port(first, p))
reject;
if (next->type == \FDRE) {
for (auto p : { \IS_C_INVERTED, \IS_D_INVERTED, \IS_R_INVERTED }) {
auto n = next->parameters.at(p, default_params.at(std::make_pair(next->type,p)));
auto f = first->parameters.at(p, default_params.at(std::make_pair(first->type,p)));
if (n != f)
reject;
}
}
}
subpattern(tail);
} else {
if (GetSize(chain) > GetSize(longest_chain))
longest_chain = chain;
}
finally
if (next)
chain.pop_back();
endcode
// -----------
pattern variable
state <IdString> clk_port
state <int> shiftx_width
state <int> slice
udata <int> minlen
udata <vector<pair<Cell*,int>>> chain
match shiftx
select shiftx->type.in($shiftx)
select !shiftx->has_keep_attr()
select param(shiftx, \Y_WIDTH).as_int() == 1
filter param(shiftx, \A_WIDTH).as_int() >= minlen
endmatch
code shiftx_width
shiftx_width = param(shiftx, \A_WIDTH).as_int();
endcode
match first
select first->type.in($_DFF_N_, $_DFF_P_, $_DFFE_NN_, $_DFFE_NP_, $_DFFE_PN_, $_DFFE_PP_, $dff, $dffe)
select !first->has_keep_attr()
slice idx GetSize(port(first, \Q))
select nusers(port(first, \Q)[idx]) <= 2
index <SigBit> port(first, \Q)[idx] === port(shiftx, \A)[shiftx_width-1]
set slice idx
endmatch
code clk_port
if (first->type.in($_DFF_N_, $_DFF_P_, $_DFFE_NN_, $_DFFE_NP_, $_DFFE_PN_, $_DFFE_PP_))
clk_port = \C;
else if (first->type.in($dff, $dffe))
clk_port = \CLK;
else log_abort();
chain.emplace_back(first, slice);
subpattern(tail);
finally
if (GetSize(chain) == shiftx_width)
accept;
chain.clear();
endcode
// ------------------------------------------------------------------
subpattern tail
arg first
arg shiftx
arg shiftx_width
arg slice
arg clk_port
match next
semioptional
select next->type.in($_DFF_N_, $_DFF_P_, $_DFFE_NN_, $_DFFE_NP_, $_DFFE_PN_, $_DFFE_PP_, $dff, $dffe)
select !next->has_keep_attr()
select !port(next, \D)[0].wire->get_bool_attribute(\keep)
slice idx GetSize(port(next, \Q))
select nusers(port(next, \Q)[idx]) <= 3
index <IdString> next->type === chain.back().first->type
index <SigBit> port(next, \Q)[idx] === port(chain.back().first, \D)[chain.back().second]
index <SigBit> port(next, \Q)[idx] === port(shiftx, \A)[shiftx_width-1-GetSize(chain)]
filter port(next, clk_port) == port(first, clk_port)
set slice idx
endmatch
code
if (next) {
chain.emplace_back(next, slice);
if (GetSize(chain) < shiftx_width)
subpattern(tail);
}
endcode