2 * yosys -- Yosys Open SYnthesis Suite
4 * Copyright (C) 2012 Claire Xenia Wolf <claire@yosyshq.com>
5 * 2019 Eddie Hung <eddie@fpgeh.com>
7 * Permission to use, copy, modify, and/or distribute this software for any
8 * purpose with or without fee is hereby granted, provided that the above
9 * copyright notice and this permission notice appear in all copies.
11 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
12 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
13 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
14 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
15 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
16 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
17 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
21 // https://stackoverflow.com/a/46137633
24 #define bswap32 _byteswap_ulong
25 #elif defined(__APPLE__)
26 #include <libkern/OSByteOrder.h>
27 #define bswap32 OSSwapInt32
28 #elif defined(__GNUC__)
29 #define bswap32 __builtin_bswap32
32 inline static uint32_t bswap32(uint32_t x
)
34 // https://stackoverflow.com/a/27796212
35 register uint32_t value
= number_to_be_reversed
;
36 uint8_t lolo
= (value
>> 0) & 0xFF;
37 uint8_t lohi
= (value
>> 8) & 0xFF;
38 uint8_t hilo
= (value
>> 16) & 0xFF;
39 uint8_t hihi
= (value
>> 24) & 0xFF;
47 #include "kernel/yosys.h"
48 #include "kernel/sigtools.h"
49 #include "kernel/utils.h"
50 #include "kernel/timinginfo.h"
53 PRIVATE_NAMESPACE_BEGIN
55 inline int32_t to_big_endian(int32_t i32
) {
56 #if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__
58 #elif __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__
61 #error "Unknown endianness"
65 void aiger_encode(std::ostream
&f
, int x
)
70 f
.put((x
& 0x7f) | 0x80);
83 dict
<SigBit
, State
> init_map
;
84 pool
<SigBit
> input_bits
, output_bits
;
85 dict
<SigBit
, SigBit
> not_map
, alias_map
;
86 dict
<SigBit
, pair
<SigBit
, SigBit
>> and_map
;
87 vector
<SigBit
> ci_bits
, co_bits
;
88 vector
<Cell
*> ff_list
;
89 dict
<SigBit
, float> arrival_times
;
91 vector
<pair
<int, int>> aig_gates
;
92 vector
<int> aig_outputs
;
93 int aig_m
= 0, aig_i
= 0, aig_l
= 0, aig_o
= 0, aig_a
= 0;
95 dict
<SigBit
, int> aig_map
;
96 dict
<SigBit
, int> ordered_outputs
;
98 vector
<Cell
*> box_list
;
100 int mkgate(int a0
, int a1
)
103 aig_gates
.push_back(a0
> a1
? make_pair(a0
, a1
) : make_pair(a1
, a0
));
107 int bit2aig(SigBit bit
)
109 auto it
= aig_map
.find(bit
);
110 if (it
!= aig_map
.end()) {
111 log_assert(it
->second
>= 0);
115 // NB: Cannot use iterator returned from aig_map.insert()
116 // since this function is called recursively
119 if (not_map
.count(bit
)) {
120 a
= bit2aig(not_map
.at(bit
)) ^ 1;
122 if (and_map
.count(bit
)) {
123 auto args
= and_map
.at(bit
);
124 int a0
= bit2aig(args
.first
);
125 int a1
= bit2aig(args
.second
);
128 if (alias_map
.count(bit
)) {
129 a
= bit2aig(alias_map
.at(bit
));
132 if (bit
== State::Sx
|| bit
== State::Sz
) {
133 log_debug("Design contains 'x' or 'z' bits. Treating as 1'b0.\n");
134 a
= aig_map
.at(State::S0
);
142 XAigerWriter(Module
*module
, bool dff_mode
) : design(module
->design
), module(module
), sigmap(module
)
144 pool
<SigBit
> undriven_bits
;
145 pool
<SigBit
> unused_bits
;
147 // promote public wires
148 for (auto wire
: module
->wires())
149 if (wire
->name
.isPublic())
152 // promote input wires
153 for (auto wire
: module
->wires())
154 if (wire
->port_input
)
157 // promote keep wires
158 for (auto wire
: module
->wires())
159 if (wire
->get_bool_attribute(ID::keep
))
162 for (auto wire
: module
->wires()) {
163 auto it
= wire
->attributes
.find(ID::init
);
164 for (int i
= 0; i
< GetSize(wire
); i
++)
166 SigBit
wirebit(wire
, i
);
167 SigBit bit
= sigmap(wirebit
);
169 if (bit
.wire
== nullptr) {
170 if (wire
->port_output
) {
171 aig_map
[wirebit
] = (bit
== State::S1
) ? 1 : 0;
172 output_bits
.insert(wirebit
);
177 undriven_bits
.insert(bit
);
178 unused_bits
.insert(bit
);
180 if (wire
->port_input
)
181 input_bits
.insert(bit
);
183 bool keep
= wire
->get_bool_attribute(ID::keep
);
184 if (wire
->port_output
|| keep
) {
186 alias_map
[wirebit
] = bit
;
187 output_bits
.insert(wirebit
);
190 if (it
!= wire
->attributes
.end()) {
191 auto s
= it
->second
[i
];
192 if (s
!= State::Sx
) {
193 auto r
= init_map
.insert(std::make_pair(bit
, it
->second
[i
]));
194 if (!r
.second
&& r
.first
->second
!= it
->second
[i
])
195 log_error("Bit '%s' has a conflicting (* init *) value.\n", log_signal(bit
));
203 for (auto cell
: module
->cells()) {
204 if (!cell
->has_keep_attr()) {
205 if (cell
->type
== ID($_NOT_
))
207 SigBit A
= sigmap(cell
->getPort(ID::A
).as_bit());
208 SigBit Y
= sigmap(cell
->getPort(ID::Y
).as_bit());
209 unused_bits
.erase(A
);
210 undriven_bits
.erase(Y
);
215 if (cell
->type
== ID($_AND_
))
217 SigBit A
= sigmap(cell
->getPort(ID::A
).as_bit());
218 SigBit B
= sigmap(cell
->getPort(ID::B
).as_bit());
219 SigBit Y
= sigmap(cell
->getPort(ID::Y
).as_bit());
220 unused_bits
.erase(A
);
221 unused_bits
.erase(B
);
222 undriven_bits
.erase(Y
);
223 and_map
[Y
] = make_pair(A
, B
);
227 if (dff_mode
&& cell
->type
.in(ID($_DFF_N_
), ID($_DFF_P_
)) && !cell
->get_bool_attribute(ID::abc9_keep
))
229 SigBit D
= sigmap(cell
->getPort(ID::D
).as_bit());
230 SigBit Q
= sigmap(cell
->getPort(ID::Q
).as_bit());
231 unused_bits
.erase(D
);
232 undriven_bits
.erase(Q
);
234 ff_list
.emplace_back(cell
);
238 if (cell
->type
.in(ID($specify2
), ID($specify3
), ID($specrule
)))
242 RTLIL::Module
* inst_module
= design
->module(cell
->type
);
243 if (inst_module
&& inst_module
->get_blackbox_attribute()) {
244 bool abc9_flop
= false;
246 auto it
= cell
->attributes
.find(ID::abc9_box_seq
);
247 if (it
!= cell
->attributes
.end()) {
248 log_assert(!cell
->has_keep_attr());
249 log_assert(cell
->parameters
.empty());
250 int abc9_box_seq
= it
->second
.as_int();
251 if (GetSize(box_list
) <= abc9_box_seq
)
252 box_list
.resize(abc9_box_seq
+1);
253 box_list
[abc9_box_seq
] = cell
;
254 // Only flop boxes may have arrival times
255 // (all others are combinatorial)
256 log_assert(cell
->parameters
.empty());
257 abc9_flop
= inst_module
->get_bool_attribute(ID::abc9_flop
);
262 if (!timing
.count(inst_module
->name
))
263 timing
.setup_module(inst_module
);
264 auto &t
= timing
.at(inst_module
->name
).arrival
;
265 for (const auto &conn
: cell
->connections()) {
266 auto port_wire
= inst_module
->wire(conn
.first
);
267 if (!port_wire
->port_output
)
270 for (int i
= 0; i
< GetSize(conn
.second
); i
++) {
271 auto d
= t
.at(TimingInfo::NameBit(conn
.first
,i
), 0);
277 static std::set
<std::tuple
<IdString
,IdString
,int>> seen
;
278 if (seen
.emplace(inst_module
->name
, conn
.first
, i
).second
) log("%s.%s[%d] abc9_arrival = %d\n",
279 log_id(cell
->type
), log_id(conn
.first
), i
, d
);
282 arrival_times
[conn
.second
[i
]] = d
;
290 bool cell_known
= inst_module
|| cell
->known();
291 for (const auto &c
: cell
->connections()) {
292 if (c
.second
.is_fully_const()) continue;
293 auto port_wire
= inst_module
? inst_module
->wire(c
.first
) : nullptr;
294 auto is_input
= (port_wire
&& port_wire
->port_input
) || !cell_known
|| cell
->input(c
.first
);
295 auto is_output
= (port_wire
&& port_wire
->port_output
) || !cell_known
|| cell
->output(c
.first
);
296 if (!is_input
&& !is_output
)
297 log_error("Connection '%s' on cell '%s' (type '%s') not recognised!\n", log_id(c
.first
), log_id(cell
), log_id(cell
->type
));
300 for (auto b
: c
.second
) {
303 // Do not add as PO if bit is already a PI
304 if (input_bits
.count(b
))
306 if (!w
->port_output
|| !cell_known
) {
307 SigBit I
= sigmap(b
);
310 output_bits
.insert(b
);
315 //log_warning("Unsupported cell type: %s (%s)\n", log_id(cell->type), log_id(cell));
318 dict
<IdString
, std::vector
<IdString
>> box_ports
;
319 for (auto cell
: box_list
) {
322 RTLIL::Module
* box_module
= design
->module(cell
->type
);
323 log_assert(box_module
);
324 log_assert(box_module
->has_attribute(ID::abc9_box_id
));
326 auto r
= box_ports
.insert(cell
->type
);
328 // Make carry in the last PI, and carry out the last PO
329 // since ABC requires it this way
330 IdString carry_in
, carry_out
;
331 for (const auto &port_name
: box_module
->ports
) {
332 auto w
= box_module
->wire(port_name
);
334 if (w
->get_bool_attribute(ID::abc9_carry
)) {
336 if (carry_in
!= IdString())
337 log_error("Module '%s' contains more than one 'abc9_carry' input port.\n", log_id(box_module
));
338 carry_in
= port_name
;
340 if (w
->port_output
) {
341 if (carry_out
!= IdString())
342 log_error("Module '%s' contains more than one 'abc9_carry' output port.\n", log_id(box_module
));
343 carry_out
= port_name
;
347 r
.first
->second
.push_back(port_name
);
350 if (carry_in
!= IdString() && carry_out
== IdString())
351 log_error("Module '%s' contains an 'abc9_carry' input port but no output port.\n", log_id(box_module
));
352 if (carry_in
== IdString() && carry_out
!= IdString())
353 log_error("Module '%s' contains an 'abc9_carry' output port but no input port.\n", log_id(box_module
));
354 if (carry_in
!= IdString()) {
355 r
.first
->second
.push_back(carry_in
);
356 r
.first
->second
.push_back(carry_out
);
360 for (auto port_name
: r
.first
->second
) {
361 auto w
= box_module
->wire(port_name
);
363 auto rhs
= cell
->connections_
.at(port_name
, SigSpec());
364 rhs
.append(Const(State::Sx
, GetSize(w
)-GetSize(rhs
)));
367 SigBit I
= sigmap(b
);
372 alias_map
[b
] = State::S0
;
376 co_bits
.emplace_back(b
);
377 unused_bits
.erase(I
);
380 for (const auto &b
: rhs
) {
381 SigBit O
= sigmap(b
);
384 ci_bits
.emplace_back(b
);
385 undriven_bits
.erase(O
);
390 for (auto bit
: input_bits
)
391 undriven_bits
.erase(bit
);
392 for (auto bit
: output_bits
)
393 unused_bits
.erase(sigmap(bit
));
394 for (auto bit
: unused_bits
)
395 undriven_bits
.erase(bit
);
397 // Make all undriven bits a primary input
398 for (auto bit
: undriven_bits
) {
399 input_bits
.insert(bit
);
400 undriven_bits
.erase(bit
);
403 struct sort_by_port_id
{
404 bool operator()(const RTLIL::SigBit
& a
, const RTLIL::SigBit
& b
) const {
405 return a
.wire
->port_id
< b
.wire
->port_id
||
406 (a
.wire
->port_id
== b
.wire
->port_id
&& a
.offset
< b
.offset
);
409 input_bits
.sort(sort_by_port_id());
410 output_bits
.sort(sort_by_port_id());
412 aig_map
[State::S0
] = 0;
413 aig_map
[State::S1
] = 1;
415 for (const auto &bit
: input_bits
) {
417 log_assert(!aig_map
.count(bit
));
418 aig_map
[bit
] = 2*aig_m
;
421 for (auto cell
: ff_list
) {
422 const SigBit
&q
= sigmap(cell
->getPort(ID::Q
));
424 log_assert(!aig_map
.count(q
));
425 aig_map
[q
] = 2*aig_m
;
428 for (auto &bit
: ci_bits
) {
430 // 1'bx may exist here due to a box output
431 // that has been padded to its full width
432 if (bit
== State::Sx
)
434 if (aig_map
.count(bit
))
435 log_error("Visited AIG node more than once; this could be a combinatorial loop that has not been broken\n");
436 aig_map
[bit
] = 2*aig_m
;
439 for (auto bit
: co_bits
) {
440 ordered_outputs
[bit
] = aig_o
++;
441 aig_outputs
.push_back(bit2aig(bit
));
444 for (const auto &bit
: output_bits
) {
445 ordered_outputs
[bit
] = aig_o
++;
447 // Unlike bit2aig() which checks aig_map first for
448 // inout/scc bits, since aig_map will point to
449 // the PI, first attempt to find the NOT/AND driver
450 // before resorting to an aig_map lookup (which
451 // could be another PO)
452 if (input_bits
.count(bit
)) {
453 if (not_map
.count(bit
)) {
454 aig
= bit2aig(not_map
.at(bit
)) ^ 1;
455 } else if (and_map
.count(bit
)) {
456 auto args
= and_map
.at(bit
);
457 int a0
= bit2aig(args
.first
);
458 int a1
= bit2aig(args
.second
);
459 aig
= mkgate(a0
, a1
);
462 aig
= aig_map
.at(bit
);
466 aig_outputs
.push_back(aig
);
469 for (auto cell
: ff_list
) {
470 const SigBit
&d
= sigmap(cell
->getPort(ID::D
));
472 aig_outputs
.push_back(aig_map
.at(d
));
476 void write_aiger(std::ostream
&f
, bool ascii_mode
)
479 int aig_obcj
= aig_obc
;
480 int aig_obcjf
= aig_obcj
;
482 log_assert(aig_m
== aig_i
+ aig_l
+ aig_a
);
483 log_assert(aig_obcjf
== GetSize(aig_outputs
));
485 f
<< stringf("%s %d %d %d %d %d", ascii_mode
? "aag" : "aig", aig_m
, aig_i
, aig_l
, aig_o
, aig_a
);
490 for (int i
= 0; i
< aig_i
; i
++)
491 f
<< stringf("%d\n", 2*i
+2);
493 for (int i
= 0; i
< aig_obc
; i
++)
494 f
<< stringf("%d\n", aig_outputs
.at(i
));
496 for (int i
= aig_obc
; i
< aig_obcj
; i
++)
499 for (int i
= aig_obc
; i
< aig_obcj
; i
++)
500 f
<< stringf("%d\n", aig_outputs
.at(i
));
502 for (int i
= aig_obcj
; i
< aig_obcjf
; i
++)
503 f
<< stringf("%d\n", aig_outputs
.at(i
));
505 for (int i
= 0; i
< aig_a
; i
++)
506 f
<< stringf("%d %d %d\n", 2*(aig_i
+aig_l
+i
)+2, aig_gates
.at(i
).first
, aig_gates
.at(i
).second
);
510 for (int i
= 0; i
< aig_obc
; i
++)
511 f
<< stringf("%d\n", aig_outputs
.at(i
));
513 for (int i
= aig_obc
; i
< aig_obcj
; i
++)
516 for (int i
= aig_obc
; i
< aig_obcj
; i
++)
517 f
<< stringf("%d\n", aig_outputs
.at(i
));
519 for (int i
= aig_obcj
; i
< aig_obcjf
; i
++)
520 f
<< stringf("%d\n", aig_outputs
.at(i
));
522 for (int i
= 0; i
< aig_a
; i
++) {
523 int lhs
= 2*(aig_i
+aig_l
+i
)+2;
524 int rhs0
= aig_gates
.at(i
).first
;
525 int rhs1
= aig_gates
.at(i
).second
;
526 int delta0
= lhs
- rhs0
;
527 int delta1
= rhs0
- rhs1
;
528 aiger_encode(f
, delta0
);
529 aiger_encode(f
, delta1
);
535 auto write_buffer
= [](std::stringstream
&buffer
, int i32
) {
536 int32_t i32_be
= to_big_endian(i32
);
537 buffer
.write(reinterpret_cast<const char*>(&i32_be
), sizeof(i32_be
));
539 std::stringstream h_buffer
;
540 auto write_h_buffer
= std::bind(write_buffer
, std::ref(h_buffer
), std::placeholders::_1
);
542 log_debug("ciNum = %d\n", GetSize(input_bits
) + GetSize(ff_list
) + GetSize(ci_bits
));
543 write_h_buffer(GetSize(input_bits
) + GetSize(ff_list
) + GetSize(ci_bits
));
544 log_debug("coNum = %d\n", GetSize(output_bits
) + GetSize(ff_list
) + GetSize(co_bits
));
545 write_h_buffer(GetSize(output_bits
) + GetSize(ff_list
) + GetSize(co_bits
));
546 log_debug("piNum = %d\n", GetSize(input_bits
) + GetSize(ff_list
));
547 write_h_buffer(GetSize(input_bits
) + GetSize(ff_list
));
548 log_debug("poNum = %d\n", GetSize(output_bits
) + GetSize(ff_list
));
549 write_h_buffer(GetSize(output_bits
) + GetSize(ff_list
));
550 log_debug("boxNum = %d\n", GetSize(box_list
));
551 write_h_buffer(GetSize(box_list
));
553 auto write_buffer_float
= [](std::stringstream
&buffer
, float f32
) {
554 buffer
.write(reinterpret_cast<const char*>(&f32
), sizeof(f32
));
556 std::stringstream i_buffer
;
557 auto write_i_buffer
= std::bind(write_buffer_float
, std::ref(i_buffer
), std::placeholders::_1
);
558 for (auto bit
: input_bits
)
559 write_i_buffer(arrival_times
.at(bit
, 0));
560 //std::stringstream o_buffer;
561 //auto write_o_buffer = std::bind(write_buffer_float, std::ref(o_buffer), std::placeholders::_1);
562 //for (auto bit : output_bits)
563 // write_o_buffer(0);
565 if (!box_list
.empty() || !ff_list
.empty()) {
566 dict
<IdString
, std::tuple
<int,int,int>> cell_cache
;
569 for (auto cell
: box_list
) {
571 log_assert(cell
->parameters
.empty());
573 auto r
= cell_cache
.insert(cell
->type
);
574 auto &v
= r
.first
->second
;
576 RTLIL::Module
* box_module
= design
->module(cell
->type
);
577 log_assert(box_module
);
579 int box_inputs
= 0, box_outputs
= 0;
580 for (auto port_name
: box_module
->ports
) {
581 RTLIL::Wire
*w
= box_module
->wire(port_name
);
584 box_inputs
+= GetSize(w
);
586 box_outputs
+= GetSize(w
);
589 std::get
<0>(v
) = box_inputs
;
590 std::get
<1>(v
) = box_outputs
;
591 std::get
<2>(v
) = box_module
->attributes
.at(ID::abc9_box_id
).as_int();
594 write_h_buffer(std::get
<0>(v
));
595 write_h_buffer(std::get
<1>(v
));
596 write_h_buffer(std::get
<2>(v
));
597 write_h_buffer(box_count
++);
600 std::stringstream r_buffer
;
601 auto write_r_buffer
= std::bind(write_buffer
, std::ref(r_buffer
), std::placeholders::_1
);
602 log_debug("flopNum = %d\n", GetSize(ff_list
));
603 write_r_buffer(ff_list
.size());
605 std::stringstream s_buffer
;
606 auto write_s_buffer
= std::bind(write_buffer
, std::ref(s_buffer
), std::placeholders::_1
);
607 write_s_buffer(ff_list
.size());
609 dict
<SigSpec
, int> clk_to_mergeability
;
610 for (const auto cell
: ff_list
) {
611 const SigBit
&d
= sigmap(cell
->getPort(ID::D
));
612 const SigBit
&q
= sigmap(cell
->getPort(ID::Q
));
614 SigSpec clk_and_pol
{sigmap(cell
->getPort(ID::C
)), cell
->type
[6] == 'P' ? State::S1
: State::S0
};
615 auto r
= clk_to_mergeability
.insert(std::make_pair(clk_and_pol
, clk_to_mergeability
.size()+1));
616 int mergeability
= r
.first
->second
;
617 log_assert(mergeability
> 0);
618 write_r_buffer(mergeability
);
620 State init
= init_map
.at(q
, State::Sx
);
621 log_debug("Cell '%s' (type %s) has (* init *) value '%s'.\n", log_id(cell
), log_id(cell
->type
), log_signal(init
));
622 if (init
== State::S1
)
624 else if (init
== State::S0
)
627 log_assert(init
== State::Sx
);
631 // Use arrival time from output of flop box
632 write_i_buffer(arrival_times
.at(d
, 0));
637 std::string buffer_str
= r_buffer
.str();
638 int32_t buffer_size_be
= to_big_endian(buffer_str
.size());
639 f
.write(reinterpret_cast<const char*>(&buffer_size_be
), sizeof(buffer_size_be
));
640 f
.write(buffer_str
.data(), buffer_str
.size());
643 buffer_str
= s_buffer
.str();
644 buffer_size_be
= to_big_endian(buffer_str
.size());
645 f
.write(reinterpret_cast<const char*>(&buffer_size_be
), sizeof(buffer_size_be
));
646 f
.write(buffer_str
.data(), buffer_str
.size());
648 RTLIL::Design
*holes_design
;
649 auto it
= saved_designs
.find("$abc9_holes");
650 if (it
!= saved_designs
.end())
651 holes_design
= it
->second
;
653 holes_design
= nullptr;
654 RTLIL::Module
*holes_module
= holes_design
? holes_design
->module(module
->name
) : nullptr;
656 std::stringstream a_buffer
;
657 XAigerWriter
writer(holes_module
, false /* dff_mode */);
658 writer
.write_aiger(a_buffer
, false /*ascii_mode*/);
661 std::string buffer_str
= a_buffer
.str();
662 int32_t buffer_size_be
= to_big_endian(buffer_str
.size());
663 f
.write(reinterpret_cast<const char*>(&buffer_size_be
), sizeof(buffer_size_be
));
664 f
.write(buffer_str
.data(), buffer_str
.size());
669 std::string buffer_str
= h_buffer
.str();
670 int32_t buffer_size_be
= to_big_endian(buffer_str
.size());
671 f
.write(reinterpret_cast<const char*>(&buffer_size_be
), sizeof(buffer_size_be
));
672 f
.write(buffer_str
.data(), buffer_str
.size());
675 buffer_str
= i_buffer
.str();
676 buffer_size_be
= to_big_endian(buffer_str
.size());
677 f
.write(reinterpret_cast<const char*>(&buffer_size_be
), sizeof(buffer_size_be
));
678 f
.write(buffer_str
.data(), buffer_str
.size());
680 //buffer_str = o_buffer.str();
681 //buffer_size_be = to_big_endian(buffer_str.size());
682 //f.write(reinterpret_cast<const char*>(&buffer_size_be), sizeof(buffer_size_be));
683 //f.write(buffer_str.data(), buffer_str.size());
685 f
<< stringf("Generated by %s\n", yosys_version_str
);
687 design
->scratchpad_set_int("write_xaiger.num_ands", and_map
.size());
688 design
->scratchpad_set_int("write_xaiger.num_wires", aig_map
.size());
689 design
->scratchpad_set_int("write_xaiger.num_inputs", input_bits
.size());
690 design
->scratchpad_set_int("write_xaiger.num_outputs", output_bits
.size());
693 void write_map(std::ostream
&f
)
695 dict
<int, string
> input_lines
;
696 dict
<int, string
> output_lines
;
698 for (auto wire
: module
->wires())
700 for (int i
= 0; i
< GetSize(wire
); i
++)
702 RTLIL::SigBit
b(wire
, i
);
703 if (input_bits
.count(b
)) {
704 int a
= aig_map
.at(b
);
705 log_assert((a
& 1) == 0);
706 input_lines
[a
] += stringf("input %d %d %s\n", (a
>> 1)-1, wire
->start_offset
+i
, log_id(wire
));
709 if (output_bits
.count(b
)) {
710 int o
= ordered_outputs
.at(b
);
711 output_lines
[o
] += stringf("output %d %d %s\n", o
- GetSize(co_bits
), wire
->start_offset
+i
, log_id(wire
));
717 for (auto &it
: input_lines
)
719 log_assert(input_lines
.size() == input_bits
.size());
722 for (auto cell
: box_list
)
723 f
<< stringf("box %d %d %s\n", box_count
++, 0, log_id(cell
->name
));
726 for (auto &it
: output_lines
)
728 log_assert(output_lines
.size() == output_bits
.size());
732 struct XAigerBackend
: public Backend
{
733 XAigerBackend() : Backend("xaiger", "write design to XAIGER file") { }
736 // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
738 log(" write_xaiger [options] [filename]\n");
740 log("Write the top module (according to the (* top *) attribute or if only one module\n");
741 log("is currently selected) to an XAIGER file. Any non $_NOT_, $_AND_, (optionally\n");
742 log("$_DFF_N_, $_DFF_P_), or non (* abc9_box *) cells will be converted into psuedo-\n");
743 log("inputs and pseudo-outputs. Whitebox contents will be taken from the equivalent\n");
744 log("module in the '$abc9_holes' design, if it exists.\n");
747 log(" write ASCII version of AIGER format\n");
749 log(" -map <filename>\n");
750 log(" write an extra file with port and box symbols\n");
753 log(" write $_DFF_[NP]_ cells\n");
756 void execute(std::ostream
*&f
, std::string filename
, std::vector
<std::string
> args
, RTLIL::Design
*design
) override
758 bool ascii_mode
= false, dff_mode
= false;
759 std::string map_filename
;
761 log_header(design
, "Executing XAIGER backend.\n");
764 for (argidx
= 1; argidx
< args
.size(); argidx
++)
766 if (args
[argidx
] == "-ascii") {
770 if (map_filename
.empty() && args
[argidx
] == "-map" && argidx
+1 < args
.size()) {
771 map_filename
= args
[++argidx
];
774 if (args
[argidx
] == "-dff") {
780 extra_args(f
, filename
, args
, argidx
, !ascii_mode
);
782 Module
*top_module
= design
->top_module();
784 if (top_module
== nullptr)
785 log_error("Can't find top module in current design!\n");
787 if (!design
->selected_whole_module(top_module
))
788 log_cmd_error("Can't handle partially selected module %s!\n", log_id(top_module
));
790 if (!top_module
->processes
.empty())
791 log_error("Found unmapped processes in module %s: unmapped processes are not supported in XAIGER backend!\n", log_id(top_module
));
792 if (!top_module
->memories
.empty())
793 log_error("Found unmapped memories in module %s: unmapped memories are not supported in XAIGER backend!\n", log_id(top_module
));
795 XAigerWriter
writer(top_module
, dff_mode
);
796 writer
.write_aiger(*f
, ascii_mode
);
798 if (!map_filename
.empty()) {
800 mapf
.open(map_filename
.c_str(), std::ofstream::trunc
);
802 log_error("Can't open file `%s' for writing: %s\n", map_filename
.c_str(), strerror(errno
));
803 writer
.write_map(mapf
);
808 PRIVATE_NAMESPACE_END