2 * yosys -- Yosys Open SYnthesis Suite
4 * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
6 * Permission to use, copy, modify, and/or distribute this software for any
7 * purpose with or without fee is hereby granted, provided that the above
8 * copyright notice and this permission notice appear in all copies.
10 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
11 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
12 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
13 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
14 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
15 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
16 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
20 #include "kernel/yosys.h"
21 #include "kernel/sigtools.h"
24 PRIVATE_NAMESPACE_BEGIN
28 virtual ~ShregmapTech() { }
29 virtual void init(const Module
* /*module*/, const SigMap
&/*sigmap*/) {}
30 virtual void non_chain_user(const SigBit
&/*bit*/, const Cell
* /*cell*/, IdString
/*port*/) {}
31 virtual bool analyze(vector
<int> &taps
, const vector
<SigBit
> &qbits
) = 0;
32 virtual bool fixup(Cell
*cell
, dict
<int, SigBit
> &taps
) = 0;
35 struct ShregmapOptions
38 int keep_before
, keep_after
;
39 bool zinit
, init
, params
, ffe
;
40 dict
<IdString
, pair
<IdString
, IdString
>> ffcells
;
57 struct ShregmapTechGreenpak4
: ShregmapTech
59 bool analyze(vector
<int> &taps
, const vector
<SigBit
> &/*qbits*/)
61 if (GetSize(taps
) > 2 && taps
[0] == 0 && taps
[2] < 17) {
66 if (GetSize(taps
) > 2)
69 if (taps
.back() > 16) return false;
74 bool fixup(Cell
*cell
, dict
<int, SigBit
> &taps
)
76 auto D
= cell
->getPort("\\D");
77 auto C
= cell
->getPort("\\C");
79 auto newcell
= cell
->module
->addCell(NEW_ID
, "\\GP_SHREG");
80 newcell
->setPort("\\nRST", State::S1
);
81 newcell
->setPort("\\CLK", C
);
82 newcell
->setPort("\\IN", D
);
85 for (auto tap
: taps
) {
86 newcell
->setPort(i
? "\\OUTB" : "\\OUTA", tap
.second
);
87 newcell
->setParam(i
? "\\OUTB_TAP" : "\\OUTA_TAP", tap
.first
+ 1);
91 cell
->setParam("\\OUTA_INVERT", 0);
96 struct ShregmapTechXilinx7
: ShregmapTech
98 dict
<SigBit
, std::tuple
<Cell
*,int,int>> sigbit_to_shiftx_offset
;
99 const ShregmapOptions
&opts
;
101 ShregmapTechXilinx7(const ShregmapOptions
&opts
) : opts(opts
) {}
103 virtual void init(const Module
* module
, const SigMap
&sigmap
) override
105 for (const auto &i
: module
->cells_
) {
106 auto cell
= i
.second
;
107 if (cell
->type
== "$shiftx") {
108 if (cell
->getParam("\\Y_WIDTH") != 1) continue;
110 for (auto bit
: sigmap(cell
->getPort("\\A")))
111 sigbit_to_shiftx_offset
[bit
] = std::make_tuple(cell
, j
++, 0);
112 log_assert(j
== cell
->getParam("\\A_WIDTH").as_int());
114 else if (cell
->type
== "$mux") {
116 for (auto bit
: sigmap(cell
->getPort("\\A")))
117 sigbit_to_shiftx_offset
[bit
] = std::make_tuple(cell
, 0, j
++);
119 for (auto bit
: sigmap(cell
->getPort("\\B")))
120 sigbit_to_shiftx_offset
[bit
] = std::make_tuple(cell
, 1, j
++);
125 virtual void non_chain_user(const SigBit
&bit
, const Cell
*cell
, IdString port
) override
127 auto it
= sigbit_to_shiftx_offset
.find(bit
);
128 if (it
== sigbit_to_shiftx_offset
.end())
131 if (cell
->type
== "$shiftx" && port
== "\\A")
133 if (cell
->type
== "$mux" && (port
== "\\A" || port
== "\\B"))
136 sigbit_to_shiftx_offset
.erase(it
);
139 virtual bool analyze(vector
<int> &taps
, const vector
<SigBit
> &qbits
) override
141 if (GetSize(taps
) == 1)
142 return taps
[0] >= opts
.minlen
-1 && sigbit_to_shiftx_offset
.count(qbits
[0]);
144 if (taps
.back() < opts
.minlen
-1)
147 Cell
*shiftx
= nullptr;
149 for (int i
= 0; i
< GetSize(taps
); ++i
) {
150 auto it
= sigbit_to_shiftx_offset
.find(qbits
[i
]);
151 if (it
== sigbit_to_shiftx_offset
.end())
154 // Check taps are sequential
157 // Check taps are not connected to a shift register,
158 // or sequential to the same shift register
161 std::tie(shiftx
,offset
,group
) = it
->second
;
166 Cell
*shiftx_
= std::get
<0>(it
->second
);
167 if (shiftx_
!= shiftx
)
169 int offset
= std::get
<1>(it
->second
);
172 int group_
= std::get
<2>(it
->second
);
179 // Only map if $shiftx exclusively covers the shift register
180 if (shiftx
->type
== "$shiftx") {
181 if (GetSize(taps
) > shiftx
->getParam("\\A_WIDTH").as_int())
183 // Due to padding the most significant bits of A may be 1'bx,
184 // and if so, discount them
185 if (GetSize(taps
) < shiftx
->getParam("\\A_WIDTH").as_int()) {
186 const SigSpec A
= shiftx
->getPort("\\A");
187 const int A_width
= shiftx
->getParam("\\A_WIDTH").as_int();
188 for (int i
= GetSize(taps
); i
< A_width
; ++i
)
189 if (A
[i
] != RTLIL::Sx
) return false;
191 else if (GetSize(taps
) != shiftx
->getParam("\\A_WIDTH").as_int())
194 else if (shiftx
->type
== "$mux") {
195 if (GetSize(taps
) != 2)
203 virtual bool fixup(Cell
*cell
, dict
<int, SigBit
> &taps
) override
205 const auto &tap
= *taps
.begin();
206 auto bit
= tap
.second
;
208 auto it
= sigbit_to_shiftx_offset
.find(bit
);
209 log_assert(it
!= sigbit_to_shiftx_offset
.end());
211 auto newcell
= cell
->module
->addCell(NEW_ID
, "$__XILINX_SHREG_");
212 newcell
->set_src_attribute(cell
->get_src_attribute());
213 newcell
->setParam("\\DEPTH", cell
->getParam("\\DEPTH"));
214 newcell
->setParam("\\INIT", cell
->getParam("\\INIT"));
215 newcell
->setParam("\\CLKPOL", cell
->getParam("\\CLKPOL"));
216 newcell
->setParam("\\ENPOL", cell
->getParam("\\ENPOL"));
218 newcell
->setPort("\\C", cell
->getPort("\\C"));
219 newcell
->setPort("\\D", cell
->getPort("\\D"));
220 if (cell
->hasPort("\\E"))
221 newcell
->setPort("\\E", cell
->getPort("\\E"));
223 Cell
* shiftx
= std::get
<0>(it
->second
);
224 RTLIL::SigSpec l_wire
, q_wire
;
225 if (shiftx
->type
== "$shiftx") {
226 l_wire
= shiftx
->getPort("\\B");
227 q_wire
= shiftx
->getPort("\\Y");
228 shiftx
->setPort("\\Y", cell
->module
->addWire(NEW_ID
));
230 else if (shiftx
->type
== "$mux") {
231 l_wire
= shiftx
->getPort("\\S");
232 q_wire
= shiftx
->getPort("\\Y");
233 shiftx
->setPort("\\Y", cell
->module
->addWire(NEW_ID
));
237 newcell
->setPort("\\Q", q_wire
);
238 newcell
->setPort("\\L", l_wire
);
245 struct ShregmapWorker
250 const ShregmapOptions
&opts
;
251 int dff_count
, shreg_count
;
253 pool
<Cell
*> remove_cells
;
254 pool
<SigBit
> remove_init
;
256 dict
<SigBit
, bool> sigbit_init
;
257 dict
<SigBit
, Cell
*> sigbit_chain_next
;
258 dict
<SigBit
, Cell
*> sigbit_chain_prev
;
259 pool
<SigBit
> sigbit_with_non_chain_users
;
260 pool
<Cell
*> chain_start_cells
;
262 void make_sigbit_chain_next_prev()
264 for (auto wire
: module
->wires())
266 if (wire
->port_output
|| wire
->get_bool_attribute("\\keep")) {
267 for (auto bit
: sigmap(wire
)) {
268 sigbit_with_non_chain_users
.insert(bit
);
269 if (opts
.tech
) opts
.tech
->non_chain_user(bit
, nullptr, {});
273 if (wire
->attributes
.count("\\init")) {
274 SigSpec initsig
= sigmap(wire
);
275 Const initval
= wire
->attributes
.at("\\init");
276 for (int i
= 0; i
< GetSize(initsig
) && i
< GetSize(initval
); i
++)
277 if (initval
[i
] == State::S0
&& !opts
.zinit
)
278 sigbit_init
[initsig
[i
]] = false;
279 else if (initval
[i
] == State::S1
)
280 sigbit_init
[initsig
[i
]] = true;
284 for (auto cell
: module
->cells())
286 if (opts
.ffcells
.count(cell
->type
) && !cell
->get_bool_attribute("\\keep"))
288 IdString d_port
= opts
.ffcells
.at(cell
->type
).first
;
289 IdString q_port
= opts
.ffcells
.at(cell
->type
).second
;
291 SigBit d_bit
= sigmap(cell
->getPort(d_port
).as_bit());
292 SigBit q_bit
= sigmap(cell
->getPort(q_port
).as_bit());
294 if (opts
.init
|| sigbit_init
.count(q_bit
) == 0)
296 auto r
= sigbit_chain_next
.insert(std::make_pair(d_bit
, cell
));
298 sigbit_with_non_chain_users
.insert(d_bit
);
299 Wire
*wire
= module
->addWire(NEW_ID
);
300 module
->connect(wire
, d_bit
);
301 sigbit_chain_next
.insert(std::make_pair(wire
, cell
));
304 sigbit_chain_prev
[q_bit
] = cell
;
309 for (auto conn
: cell
->connections())
310 if (cell
->input(conn
.first
))
311 for (auto bit
: sigmap(conn
.second
)) {
312 sigbit_with_non_chain_users
.insert(bit
);
313 if (opts
.tech
) opts
.tech
->non_chain_user(bit
, cell
, conn
.first
);
318 void find_chain_start_cells()
320 for (auto it
: sigbit_chain_next
)
322 if (opts
.tech
== nullptr && sigbit_with_non_chain_users
.count(it
.first
))
325 if (sigbit_chain_prev
.count(it
.first
) != 0)
327 Cell
*c1
= sigbit_chain_prev
.at(it
.first
);
328 Cell
*c2
= it
.second
;
330 if (c1
->type
!= c2
->type
)
333 if (c1
->parameters
!= c2
->parameters
)
336 IdString d_port
= opts
.ffcells
.at(c1
->type
).first
;
337 IdString q_port
= opts
.ffcells
.at(c1
->type
).second
;
339 auto c1_conn
= c1
->connections();
340 auto c2_conn
= c1
->connections();
342 c1_conn
.erase(d_port
);
343 c1_conn
.erase(q_port
);
345 c2_conn
.erase(d_port
);
346 c2_conn
.erase(q_port
);
348 if (c1_conn
!= c2_conn
)
355 chain_start_cells
.insert(it
.second
);
359 vector
<Cell
*> create_chain(Cell
*start_cell
)
363 Cell
*c
= start_cell
;
368 IdString q_port
= opts
.ffcells
.at(c
->type
).second
;
369 SigBit q_bit
= sigmap(c
->getPort(q_port
).as_bit());
371 if (sigbit_chain_next
.count(q_bit
) == 0)
374 c
= sigbit_chain_next
.at(q_bit
);
375 if (chain_start_cells
.count(c
) != 0)
382 void process_chain(vector
<Cell
*> &chain
)
384 if (GetSize(chain
) < opts
.keep_before
+ opts
.minlen
+ opts
.keep_after
)
387 int cursor
= opts
.keep_before
;
388 while (cursor
< GetSize(chain
) - opts
.keep_after
)
390 int depth
= GetSize(chain
) - opts
.keep_after
- cursor
;
393 depth
= std::min(opts
.maxlen
, depth
);
395 Cell
*first_cell
= chain
[cursor
];
396 IdString q_port
= opts
.ffcells
.at(first_cell
->type
).second
;
397 dict
<int, SigBit
> taps_dict
;
401 vector
<SigBit
> qbits
;
404 for (int i
= 0; i
< depth
; i
++)
406 Cell
*cell
= chain
[cursor
+i
];
407 auto qbit
= sigmap(cell
->getPort(q_port
));
408 qbits
.push_back(qbit
);
410 if (sigbit_with_non_chain_users
.count(qbit
))
416 if (taps
.empty() || taps
.back() < depth
-1)
417 taps
.push_back(depth
-1);
419 if (opts
.tech
->analyze(taps
, qbits
))
427 for (auto tap
: taps
) {
428 taps_dict
[tap
] = qbits
.at(tap
);
429 log_assert(depth
< tap
+1);
439 Cell
*last_cell
= chain
[cursor
+depth
-1];
441 log("Converting %s.%s ... %s.%s to a shift register with depth %d.\n",
442 log_id(module
), log_id(first_cell
), log_id(module
), log_id(last_cell
), depth
);
447 string shreg_cell_type_str
= "$__SHREG";
449 shreg_cell_type_str
+= "_";
451 if (first_cell
->type
[1] != '_')
452 shreg_cell_type_str
+= "_";
453 shreg_cell_type_str
+= first_cell
->type
.substr(1);
457 vector
<State
> initval
;
458 for (int i
= depth
-1; i
>= 0; i
--) {
459 SigBit bit
= sigmap(chain
[cursor
+i
]->getPort(q_port
).as_bit());
460 if (sigbit_init
.count(bit
) == 0)
461 initval
.push_back(State::Sx
);
462 else if (sigbit_init
.at(bit
))
463 initval
.push_back(State::S1
);
465 initval
.push_back(State::S0
);
466 remove_init
.insert(bit
);
468 first_cell
->setParam("\\INIT", initval
);
472 for (int i
= depth
-1; i
>= 0; i
--) {
473 SigBit bit
= sigmap(chain
[cursor
+i
]->getPort(q_port
).as_bit());
474 remove_init
.insert(bit
);
479 int param_clkpol
= -1;
482 if (first_cell
->type
== "$_DFF_N_") param_clkpol
= 0;
483 if (first_cell
->type
== "$_DFF_P_") param_clkpol
= 1;
485 if (first_cell
->type
== "$_DFFE_NN_") param_clkpol
= 0, param_enpol
= 0;
486 if (first_cell
->type
== "$_DFFE_NP_") param_clkpol
= 0, param_enpol
= 1;
487 if (first_cell
->type
== "$_DFFE_PN_") param_clkpol
= 1, param_enpol
= 0;
488 if (first_cell
->type
== "$_DFFE_PP_") param_clkpol
= 1, param_enpol
= 1;
490 log_assert(param_clkpol
>= 0);
491 first_cell
->setParam("\\CLKPOL", param_clkpol
);
492 if (opts
.ffe
) first_cell
->setParam("\\ENPOL", param_enpol
);
495 first_cell
->type
= shreg_cell_type_str
;
496 first_cell
->setPort(q_port
, last_cell
->getPort(q_port
));
497 first_cell
->setParam("\\DEPTH", depth
);
499 if (opts
.tech
!= nullptr && !opts
.tech
->fixup(first_cell
, taps_dict
))
500 remove_cells
.insert(first_cell
);
502 for (int i
= 1; i
< depth
; i
++)
503 remove_cells
.insert(chain
[cursor
+i
]);
510 for (auto cell
: remove_cells
)
511 module
->remove(cell
);
513 for (auto wire
: module
->wires())
515 if (wire
->attributes
.count("\\init") == 0)
518 SigSpec initsig
= sigmap(wire
);
519 Const
&initval
= wire
->attributes
.at("\\init");
521 for (int i
= 0; i
< GetSize(initsig
) && i
< GetSize(initval
); i
++)
522 if (remove_init
.count(initsig
[i
]))
523 initval
[i
] = State::Sx
;
525 if (SigSpec(initval
).is_fully_undef())
526 wire
->attributes
.erase("\\init");
529 remove_cells
.clear();
530 sigbit_chain_next
.clear();
531 sigbit_chain_prev
.clear();
532 chain_start_cells
.clear();
535 ShregmapWorker(Module
*module
, const ShregmapOptions
&opts
) :
536 module(module
), sigmap(module
), opts(opts
), dff_count(0), shreg_count(0)
539 opts
.tech
->init(module
, sigmap
);
541 make_sigbit_chain_next_prev();
542 find_chain_start_cells();
544 for (auto c
: chain_start_cells
) {
545 vector
<Cell
*> chain
= create_chain(c
);
546 process_chain(chain
);
553 struct ShregmapPass
: public Pass
{
554 ShregmapPass() : Pass("shregmap", "map shift registers") { }
555 void help() YS_OVERRIDE
557 // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
559 log(" shregmap [options] [selection]\n");
561 log("This pass converts chains of $_DFF_[NP]_ gates to target specific shift register\n");
562 log("primitives. The generated shift register will be of type $__SHREG_DFF_[NP]_ and\n");
563 log("will use the same interface as the original $_DFF_*_ cells. The cell parameter\n");
564 log("'DEPTH' will contain the depth of the shift register. Use a target-specific\n");
565 log("'techmap' map file to convert those cells to the actual target cells.\n");
568 log(" minimum length of shift register (default = 2)\n");
569 log(" (this is the length after -keep_before and -keep_after)\n");
572 log(" maximum length of shift register (default = no limit)\n");
573 log(" larger chains will be mapped to multiple shift register instances\n");
575 log(" -keep_before N\n");
576 log(" number of DFFs to keep before the shift register (default = 0)\n");
578 log(" -keep_after N\n");
579 log(" number of DFFs to keep after the shift register (default = 0)\n");
581 log(" -clkpol pos|neg|any\n");
582 log(" limit match to only positive or negative edge clocks. (default = any)\n");
584 log(" -enpol pos|neg|none|any_or_none|any\n");
585 log(" limit match to FFs with the specified enable polarity. (default = none)\n");
587 log(" -match <cell_type>[:<d_port_name>:<q_port_name>]\n");
588 log(" match the specified cells instead of $_DFF_N_ and $_DFF_P_. If\n");
589 log(" ':<d_port_name>:<q_port_name>' is omitted then 'D' and 'Q' is used\n");
590 log(" by default. E.g. the option '-clkpol pos' is just an alias for\n");
591 log(" '-match $_DFF_P_', which is an alias for '-match $_DFF_P_:D:Q'.\n");
594 log(" instead of encoding the clock and enable polarity in the cell name by\n");
595 log(" deriving from the original cell name, simply name all generated cells\n");
596 log(" $__SHREG_ and use CLKPOL and ENPOL parameters. An ENPOL value of 2 is\n");
597 log(" used to denote cells without enable input. The ENPOL parameter is\n");
598 log(" omitted when '-enpol none' (or no -enpol option) is passed.\n");
601 log(" assume the shift register is automatically zero-initialized, so it\n");
602 log(" becomes legal to merge zero initialized FFs into the shift register.\n");
605 log(" map initialized registers to the shift reg, add an INIT parameter to\n");
606 log(" generated cells with the initialization value. (first bit to shift out\n");
607 log(" in LSB position)\n");
609 log(" -tech greenpak4\n");
610 log(" map to greenpak4 shift registers.\n");
612 log(" -tech xilinx\n");
613 log(" map to xilinx dynamic-length shift registers.\n");
616 void execute(std::vector
<std::string
> args
, RTLIL::Design
*design
) YS_OVERRIDE
618 ShregmapOptions opts
;
619 string clkpol
, enpol
;
621 log_header(design
, "Executing SHREGMAP pass (map shift registers).\n");
624 for (argidx
= 1; argidx
< args
.size(); argidx
++)
626 if (args
[argidx
] == "-clkpol" && argidx
+1 < args
.size()) {
627 clkpol
= args
[++argidx
];
630 if (args
[argidx
] == "-enpol" && argidx
+1 < args
.size()) {
631 enpol
= args
[++argidx
];
634 if (args
[argidx
] == "-match" && argidx
+1 < args
.size()) {
635 vector
<string
> match_args
= split_tokens(args
[++argidx
], ":");
636 if (GetSize(match_args
) < 2)
637 match_args
.push_back("D");
638 if (GetSize(match_args
) < 3)
639 match_args
.push_back("Q");
640 IdString
id_cell_type(RTLIL::escape_id(match_args
[0]));
641 IdString
id_d_port_name(RTLIL::escape_id(match_args
[1]));
642 IdString
id_q_port_name(RTLIL::escape_id(match_args
[2]));
643 opts
.ffcells
[id_cell_type
] = make_pair(id_d_port_name
, id_q_port_name
);
646 if (args
[argidx
] == "-minlen" && argidx
+1 < args
.size()) {
647 opts
.minlen
= atoi(args
[++argidx
].c_str());
650 if (args
[argidx
] == "-maxlen" && argidx
+1 < args
.size()) {
651 opts
.maxlen
= atoi(args
[++argidx
].c_str());
654 if (args
[argidx
] == "-keep_before" && argidx
+1 < args
.size()) {
655 opts
.keep_before
= atoi(args
[++argidx
].c_str());
658 if (args
[argidx
] == "-keep_after" && argidx
+1 < args
.size()) {
659 opts
.keep_after
= atoi(args
[++argidx
].c_str());
662 if (args
[argidx
] == "-tech" && argidx
+1 < args
.size() && opts
.tech
== nullptr) {
663 string tech
= args
[++argidx
];
664 if (tech
== "greenpak4") {
667 opts
.tech
= new ShregmapTechGreenpak4
;
669 else if (tech
== "xilinx") {
672 enpol
= "any_or_none";
673 opts
.tech
= new ShregmapTechXilinx7(opts
);
680 if (args
[argidx
] == "-zinit") {
684 if (args
[argidx
] == "-init") {
688 if (args
[argidx
] == "-params") {
694 extra_args(args
, argidx
, design
);
696 if (opts
.zinit
&& opts
.init
)
697 log_cmd_error("Options -zinit and -init are exclusive!\n");
699 if (opts
.ffcells
.empty())
701 bool clk_pos
= clkpol
== "" || clkpol
== "pos" || clkpol
== "any";
702 bool clk_neg
= clkpol
== "" || clkpol
== "neg" || clkpol
== "any";
704 bool en_none
= enpol
== "" || enpol
== "none" || enpol
== "any_or_none";
705 bool en_pos
= enpol
== "pos" || enpol
== "any" || enpol
== "any_or_none";
706 bool en_neg
= enpol
== "neg" || enpol
== "any" || enpol
== "any_or_none";
708 if (clk_pos
&& en_none
)
709 opts
.ffcells
["$_DFF_P_"] = make_pair(IdString("\\D"), IdString("\\Q"));
710 if (clk_neg
&& en_none
)
711 opts
.ffcells
["$_DFF_N_"] = make_pair(IdString("\\D"), IdString("\\Q"));
713 if (clk_pos
&& en_pos
)
714 opts
.ffcells
["$_DFFE_PP_"] = make_pair(IdString("\\D"), IdString("\\Q"));
715 if (clk_pos
&& en_neg
)
716 opts
.ffcells
["$_DFFE_PN_"] = make_pair(IdString("\\D"), IdString("\\Q"));
718 if (clk_neg
&& en_pos
)
719 opts
.ffcells
["$_DFFE_NP_"] = make_pair(IdString("\\D"), IdString("\\Q"));
720 if (clk_neg
&& en_neg
)
721 opts
.ffcells
["$_DFFE_NN_"] = make_pair(IdString("\\D"), IdString("\\Q"));
723 if (en_pos
|| en_neg
)
729 log_cmd_error("Options -clkpol and -match are exclusive!\n");
731 log_cmd_error("Options -enpol and -match are exclusive!\n");
733 log_cmd_error("Options -params and -match are exclusive!\n");
739 for (auto module
: design
->selected_modules()) {
740 ShregmapWorker
worker(module
, opts
);
741 dff_count
+= worker
.dff_count
;
742 shreg_count
+= worker
.shreg_count
;
745 log("Converted %d dff cells into %d shift registers.\n", dff_count
, shreg_count
);
747 if (opts
.tech
!= nullptr) {
754 PRIVATE_NAMESPACE_END