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/macc.h"
22 #include "frontends/verilog/verilog_frontend.h"
23 #include "backends/ilang/ilang_backend.h"
30 std::vector
<int> RTLIL::IdString::global_refcount_storage_
;
31 std::vector
<char*> RTLIL::IdString::global_id_storage_
;
32 std::map
<char*, int, RTLIL::IdString::char_ptr_cmp
> RTLIL::IdString::global_id_index_
;
33 std::vector
<int> RTLIL::IdString::global_free_idx_list_
;
37 flags
= RTLIL::CONST_FLAG_NONE
;
40 RTLIL::Const::Const(std::string str
)
42 flags
= RTLIL::CONST_FLAG_STRING
;
43 for (int i
= str
.size()-1; i
>= 0; i
--) {
44 unsigned char ch
= str
[i
];
45 for (int j
= 0; j
< 8; j
++) {
46 bits
.push_back((ch
& 1) != 0 ? RTLIL::S1
: RTLIL::S0
);
52 RTLIL::Const::Const(int val
, int width
)
54 flags
= RTLIL::CONST_FLAG_NONE
;
55 for (int i
= 0; i
< width
; i
++) {
56 bits
.push_back((val
& 1) != 0 ? RTLIL::S1
: RTLIL::S0
);
61 RTLIL::Const::Const(RTLIL::State bit
, int width
)
63 flags
= RTLIL::CONST_FLAG_NONE
;
64 for (int i
= 0; i
< width
; i
++)
68 RTLIL::Const::Const(const std::vector
<bool> &bits
)
70 flags
= RTLIL::CONST_FLAG_NONE
;
72 this->bits
.push_back(b
? RTLIL::S1
: RTLIL::S0
);
75 bool RTLIL::Const::operator <(const RTLIL::Const
&other
) const
77 if (bits
.size() != other
.bits
.size())
78 return bits
.size() < other
.bits
.size();
79 for (size_t i
= 0; i
< bits
.size(); i
++)
80 if (bits
[i
] != other
.bits
[i
])
81 return bits
[i
] < other
.bits
[i
];
85 bool RTLIL::Const::operator ==(const RTLIL::Const
&other
) const
87 return bits
== other
.bits
;
90 bool RTLIL::Const::operator !=(const RTLIL::Const
&other
) const
92 return bits
!= other
.bits
;
95 bool RTLIL::Const::as_bool() const
97 for (size_t i
= 0; i
< bits
.size(); i
++)
98 if (bits
[i
] == RTLIL::S1
)
103 int RTLIL::Const::as_int(bool is_signed
) const
106 for (size_t i
= 0; i
< bits
.size() && i
< 32; i
++)
107 if (bits
[i
] == RTLIL::S1
)
109 if (is_signed
&& bits
.back() == RTLIL::S1
)
110 for (size_t i
= bits
.size(); i
< 32; i
++)
115 std::string
RTLIL::Const::as_string() const
118 for (size_t i
= bits
.size(); i
> 0; i
--)
120 case S0
: ret
+= "0"; break;
121 case S1
: ret
+= "1"; break;
122 case Sx
: ret
+= "x"; break;
123 case Sz
: ret
+= "z"; break;
124 case Sa
: ret
+= "-"; break;
125 case Sm
: ret
+= "m"; break;
130 std::string
RTLIL::Const::decode_string() const
133 std::vector
<char> string_chars
;
134 for (int i
= 0; i
< int (bits
.size()); i
+= 8) {
136 for (int j
= 0; j
< 8 && i
+ j
< int (bits
.size()); j
++)
137 if (bits
[i
+ j
] == RTLIL::State::S1
)
140 string_chars
.push_back(ch
);
142 for (int i
= int (string_chars
.size()) - 1; i
>= 0; i
--)
143 string
+= string_chars
[i
];
147 bool RTLIL::Selection::selected_module(RTLIL::IdString mod_name
) const
151 if (selected_modules
.count(mod_name
) > 0)
153 if (selected_members
.count(mod_name
) > 0)
158 bool RTLIL::Selection::selected_whole_module(RTLIL::IdString mod_name
) const
162 if (selected_modules
.count(mod_name
) > 0)
167 bool RTLIL::Selection::selected_member(RTLIL::IdString mod_name
, RTLIL::IdString memb_name
) const
171 if (selected_modules
.count(mod_name
) > 0)
173 if (selected_members
.count(mod_name
) > 0)
174 if (selected_members
.at(mod_name
).count(memb_name
) > 0)
179 void RTLIL::Selection::optimize(RTLIL::Design
*design
)
181 if (full_selection
) {
182 selected_modules
.clear();
183 selected_members
.clear();
187 std::vector
<RTLIL::IdString
> del_list
, add_list
;
190 for (auto mod_name
: selected_modules
) {
191 if (design
->modules_
.count(mod_name
) == 0)
192 del_list
.push_back(mod_name
);
193 selected_members
.erase(mod_name
);
195 for (auto mod_name
: del_list
)
196 selected_modules
.erase(mod_name
);
199 for (auto &it
: selected_members
)
200 if (design
->modules_
.count(it
.first
) == 0)
201 del_list
.push_back(it
.first
);
202 for (auto mod_name
: del_list
)
203 selected_members
.erase(mod_name
);
205 for (auto &it
: selected_members
) {
207 for (auto memb_name
: it
.second
)
208 if (design
->modules_
[it
.first
]->count_id(memb_name
) == 0)
209 del_list
.push_back(memb_name
);
210 for (auto memb_name
: del_list
)
211 it
.second
.erase(memb_name
);
216 for (auto &it
: selected_members
)
217 if (it
.second
.size() == 0)
218 del_list
.push_back(it
.first
);
219 else if (it
.second
.size() == design
->modules_
[it
.first
]->wires_
.size() + design
->modules_
[it
.first
]->memories
.size() +
220 design
->modules_
[it
.first
]->cells_
.size() + design
->modules_
[it
.first
]->processes
.size())
221 add_list
.push_back(it
.first
);
222 for (auto mod_name
: del_list
)
223 selected_members
.erase(mod_name
);
224 for (auto mod_name
: add_list
) {
225 selected_members
.erase(mod_name
);
226 selected_modules
.insert(mod_name
);
229 if (selected_modules
.size() == design
->modules_
.size()) {
230 full_selection
= true;
231 selected_modules
.clear();
232 selected_members
.clear();
236 RTLIL::Design::Design()
238 refcount_modules_
= 0;
239 selection_stack
.push_back(RTLIL::Selection());
242 RTLIL::Design::~Design()
244 for (auto it
= modules_
.begin(); it
!= modules_
.end(); it
++)
248 RTLIL::ObjRange
<RTLIL::Module
*> RTLIL::Design::modules()
250 return RTLIL::ObjRange
<RTLIL::Module
*>(&modules_
, &refcount_modules_
);
253 RTLIL::Module
*RTLIL::Design::module(RTLIL::IdString name
)
255 return modules_
.count(name
) ? modules_
.at(name
) : NULL
;
258 void RTLIL::Design::add(RTLIL::Module
*module
)
260 log_assert(modules_
.count(module
->name
) == 0);
261 log_assert(refcount_modules_
== 0);
262 modules_
[module
->name
] = module
;
263 module
->design
= this;
265 for (auto mon
: monitors
)
266 mon
->notify_module_add(module
);
269 RTLIL::Module
*RTLIL::Design::addModule(RTLIL::IdString name
)
271 log_assert(modules_
.count(name
) == 0);
272 log_assert(refcount_modules_
== 0);
274 RTLIL::Module
*module
= new RTLIL::Module
;
275 modules_
[name
] = module
;
276 module
->design
= this;
279 for (auto mon
: monitors
)
280 mon
->notify_module_add(module
);
285 void RTLIL::Design::scratchpad_unset(std::string varname
)
287 scratchpad
.erase(varname
);
290 void RTLIL::Design::scratchpad_set_int(std::string varname
, int value
)
292 scratchpad
[varname
] = stringf("%d", value
);
295 void RTLIL::Design::scratchpad_set_bool(std::string varname
, bool value
)
297 scratchpad
[varname
] = value
? "true" : "false";
300 void RTLIL::Design::scratchpad_set_string(std::string varname
, std::string value
)
302 scratchpad
[varname
] = value
;
305 int RTLIL::Design::scratchpad_get_int(std::string varname
, int default_value
) const
307 if (scratchpad
.count(varname
) == 0)
308 return default_value
;
310 std::string str
= scratchpad
.at(varname
);
312 if (str
== "0" || str
== "false")
315 if (str
== "1" || str
== "true")
318 char *endptr
= nullptr;
319 long int parsed_value
= strtol(str
.c_str(), &endptr
, 10);
320 return *endptr
? default_value
: parsed_value
;
323 bool RTLIL::Design::scratchpad_get_bool(std::string varname
, bool default_value
) const
325 if (scratchpad
.count(varname
) == 0)
326 return default_value
;
328 std::string str
= scratchpad
.at(varname
);
330 if (str
== "0" || str
== "false")
333 if (str
== "1" || str
== "true")
336 return default_value
;
339 std::string
RTLIL::Design::scratchpad_get_string(std::string varname
, std::string default_value
) const
341 if (scratchpad
.count(varname
) == 0)
342 return default_value
;
343 return scratchpad
.at(varname
);
346 void RTLIL::Design::remove(RTLIL::Module
*module
)
348 for (auto mon
: monitors
)
349 mon
->notify_module_del(module
);
351 log_assert(modules_
.at(module
->name
) == module
);
352 modules_
.erase(module
->name
);
356 void RTLIL::Design::check()
359 for (auto &it
: modules_
) {
360 log_assert(this == it
.second
->design
);
361 log_assert(it
.first
== it
.second
->name
);
362 log_assert(!it
.first
.empty());
368 void RTLIL::Design::optimize()
370 for (auto &it
: modules_
)
371 it
.second
->optimize();
372 for (auto &it
: selection_stack
)
374 for (auto &it
: selection_vars
)
375 it
.second
.optimize(this);
378 bool RTLIL::Design::selected_module(RTLIL::IdString mod_name
) const
380 if (!selected_active_module
.empty() && mod_name
!= selected_active_module
)
382 if (selection_stack
.size() == 0)
384 return selection_stack
.back().selected_module(mod_name
);
387 bool RTLIL::Design::selected_whole_module(RTLIL::IdString mod_name
) const
389 if (!selected_active_module
.empty() && mod_name
!= selected_active_module
)
391 if (selection_stack
.size() == 0)
393 return selection_stack
.back().selected_whole_module(mod_name
);
396 bool RTLIL::Design::selected_member(RTLIL::IdString mod_name
, RTLIL::IdString memb_name
) const
398 if (!selected_active_module
.empty() && mod_name
!= selected_active_module
)
400 if (selection_stack
.size() == 0)
402 return selection_stack
.back().selected_member(mod_name
, memb_name
);
405 bool RTLIL::Design::selected_module(RTLIL::Module
*mod
) const
407 return selected_module(mod
->name
);
410 bool RTLIL::Design::selected_whole_module(RTLIL::Module
*mod
) const
412 return selected_whole_module(mod
->name
);
415 std::vector
<RTLIL::Module
*> RTLIL::Design::selected_modules() const
417 std::vector
<RTLIL::Module
*> result
;
418 result
.reserve(modules_
.size());
419 for (auto &it
: modules_
)
420 if (selected_module(it
.first
))
421 result
.push_back(it
.second
);
425 std::vector
<RTLIL::Module
*> RTLIL::Design::selected_whole_modules() const
427 std::vector
<RTLIL::Module
*> result
;
428 result
.reserve(modules_
.size());
429 for (auto &it
: modules_
)
430 if (selected_whole_module(it
.first
))
431 result
.push_back(it
.second
);
435 std::vector
<RTLIL::Module
*> RTLIL::Design::selected_whole_modules_warn() const
437 std::vector
<RTLIL::Module
*> result
;
438 result
.reserve(modules_
.size());
439 for (auto &it
: modules_
)
440 if (selected_whole_module(it
.first
))
441 result
.push_back(it
.second
);
442 else if (selected_module(it
.first
))
443 log("Warning: Ignoring partially selected module %s.\n", log_id(it
.first
));
447 RTLIL::Module::Module()
454 RTLIL::Module::~Module()
456 for (auto it
= wires_
.begin(); it
!= wires_
.end(); it
++)
458 for (auto it
= memories
.begin(); it
!= memories
.end(); it
++)
460 for (auto it
= cells_
.begin(); it
!= cells_
.end(); it
++)
462 for (auto it
= processes
.begin(); it
!= processes
.end(); it
++)
466 RTLIL::IdString
RTLIL::Module::derive(RTLIL::Design
*, std::map
<RTLIL::IdString
, RTLIL::Const
>)
468 log_error("Module `%s' is used with parameters but is not parametric!\n", id2cstr(name
));
471 size_t RTLIL::Module::count_id(RTLIL::IdString id
)
473 return wires_
.count(id
) + memories
.count(id
) + cells_
.count(id
) + processes
.count(id
);
478 struct InternalCellChecker
480 RTLIL::Module
*module
;
482 std::set
<RTLIL::IdString
> expected_params
, expected_ports
;
484 InternalCellChecker(RTLIL::Module
*module
, RTLIL::Cell
*cell
) : module(module
), cell(cell
) { }
486 void error(int linenr
)
488 std::stringstream buf
;
489 ILANG_BACKEND::dump_cell(buf
, " ", cell
);
491 log_error("Found error in internal cell %s%s%s (%s) at %s:%d:\n%s",
492 module
? module
->name
.c_str() : "", module
? "." : "",
493 cell
->name
.c_str(), cell
->type
.c_str(), __FILE__
, linenr
, buf
.str().c_str());
496 int param(const char *name
)
498 if (cell
->parameters
.count(name
) == 0)
500 expected_params
.insert(name
);
501 return cell
->parameters
.at(name
).as_int();
504 int param_bool(const char *name
)
507 if (cell
->parameters
.at(name
).bits
.size() > 32)
509 if (v
!= 0 && v
!= 1)
514 void param_bits(const char *name
, int width
)
517 if (int(cell
->parameters
.at(name
).bits
.size()) != width
)
521 void port(const char *name
, int width
)
523 if (!cell
->hasPort(name
))
525 if (cell
->getPort(name
).size() != width
)
527 expected_ports
.insert(name
);
530 void check_expected(bool check_matched_sign
= true)
532 for (auto ¶
: cell
->parameters
)
533 if (expected_params
.count(para
.first
) == 0)
535 for (auto &conn
: cell
->connections())
536 if (expected_ports
.count(conn
.first
) == 0)
539 if (expected_params
.count("\\A_SIGNED") != 0 && expected_params
.count("\\B_SIGNED") && check_matched_sign
) {
540 bool a_is_signed
= param("\\A_SIGNED") != 0;
541 bool b_is_signed
= param("\\B_SIGNED") != 0;
542 if (a_is_signed
!= b_is_signed
)
547 void check_gate(const char *ports
)
549 if (cell
->parameters
.size() != 0)
552 for (const char *p
= ports
; *p
; p
++) {
553 char portname
[3] = { '\\', *p
, 0 };
554 if (!cell
->hasPort(portname
))
556 if (cell
->getPort(portname
).size() != 1)
560 for (auto &conn
: cell
->connections()) {
561 if (conn
.first
.size() != 2 || conn
.first
[0] != '\\')
563 if (strchr(ports
, conn
.first
[1]) == NULL
)
570 if (cell
->type
.substr(0, 1) != "$" || cell
->type
.substr(0, 3) == "$__" || cell
->type
.substr(0, 8) == "$paramod" ||
571 cell
->type
.substr(0, 9) == "$verific$" || cell
->type
.substr(0, 7) == "$array:" || cell
->type
.substr(0, 8) == "$extern:")
574 if (cell
->type
.in("$not", "$pos", "$neg")) {
575 param_bool("\\A_SIGNED");
576 port("\\A", param("\\A_WIDTH"));
577 port("\\Y", param("\\Y_WIDTH"));
582 if (cell
->type
.in("$and", "$or", "$xor", "$xnor")) {
583 param_bool("\\A_SIGNED");
584 param_bool("\\B_SIGNED");
585 port("\\A", param("\\A_WIDTH"));
586 port("\\B", param("\\B_WIDTH"));
587 port("\\Y", param("\\Y_WIDTH"));
592 if (cell
->type
.in("$reduce_and", "$reduce_or", "$reduce_xor", "$reduce_xnor", "$reduce_bool")) {
593 param_bool("\\A_SIGNED");
594 port("\\A", param("\\A_WIDTH"));
595 port("\\Y", param("\\Y_WIDTH"));
600 if (cell
->type
.in("$shl", "$shr", "$sshl", "$sshr", "$shift", "$shiftx")) {
601 param_bool("\\A_SIGNED");
602 param_bool("\\B_SIGNED");
603 port("\\A", param("\\A_WIDTH"));
604 port("\\B", param("\\B_WIDTH"));
605 port("\\Y", param("\\Y_WIDTH"));
606 check_expected(false);
610 if (cell
->type
.in("$lt", "$le", "$eq", "$ne", "$eqx", "$nex", "$ge", "$gt")) {
611 param_bool("\\A_SIGNED");
612 param_bool("\\B_SIGNED");
613 port("\\A", param("\\A_WIDTH"));
614 port("\\B", param("\\B_WIDTH"));
615 port("\\Y", param("\\Y_WIDTH"));
620 if (cell
->type
.in("$add", "$sub", "$mul", "$div", "$mod", "$pow")) {
621 param_bool("\\A_SIGNED");
622 param_bool("\\B_SIGNED");
623 port("\\A", param("\\A_WIDTH"));
624 port("\\B", param("\\B_WIDTH"));
625 port("\\Y", param("\\Y_WIDTH"));
626 check_expected(cell
->type
!= "$pow");
630 if (cell
->type
== "$fa") {
631 port("\\A", param("\\WIDTH"));
632 port("\\B", param("\\WIDTH"));
633 port("\\C", param("\\WIDTH"));
634 port("\\X", param("\\WIDTH"));
635 port("\\Y", param("\\WIDTH"));
640 if (cell
->type
== "$lcu") {
641 port("\\P", param("\\WIDTH"));
642 port("\\G", param("\\WIDTH"));
644 port("\\CO", param("\\WIDTH"));
649 if (cell
->type
== "$alu") {
650 param_bool("\\A_SIGNED");
651 param_bool("\\B_SIGNED");
652 port("\\A", param("\\A_WIDTH"));
653 port("\\B", param("\\B_WIDTH"));
656 port("\\X", param("\\Y_WIDTH"));
657 port("\\Y", param("\\Y_WIDTH"));
658 port("\\CO", param("\\Y_WIDTH"));
663 if (cell
->type
== "$macc") {
665 param("\\CONFIG_WIDTH");
666 port("\\A", param("\\A_WIDTH"));
667 port("\\B", param("\\B_WIDTH"));
668 port("\\Y", param("\\Y_WIDTH"));
670 Macc().from_cell(cell
);
674 if (cell
->type
== "$logic_not") {
675 param_bool("\\A_SIGNED");
676 port("\\A", param("\\A_WIDTH"));
677 port("\\Y", param("\\Y_WIDTH"));
682 if (cell
->type
== "$logic_and" || cell
->type
== "$logic_or") {
683 param_bool("\\A_SIGNED");
684 param_bool("\\B_SIGNED");
685 port("\\A", param("\\A_WIDTH"));
686 port("\\B", param("\\B_WIDTH"));
687 port("\\Y", param("\\Y_WIDTH"));
688 check_expected(false);
692 if (cell
->type
== "$slice") {
694 port("\\A", param("\\A_WIDTH"));
695 port("\\Y", param("\\Y_WIDTH"));
696 if (param("\\OFFSET") + param("\\Y_WIDTH") > param("\\A_WIDTH"))
702 if (cell
->type
== "$concat") {
703 port("\\A", param("\\A_WIDTH"));
704 port("\\B", param("\\B_WIDTH"));
705 port("\\Y", param("\\A_WIDTH") + param("\\B_WIDTH"));
710 if (cell
->type
== "$mux") {
711 port("\\A", param("\\WIDTH"));
712 port("\\B", param("\\WIDTH"));
714 port("\\Y", param("\\WIDTH"));
719 if (cell
->type
== "$pmux") {
720 port("\\A", param("\\WIDTH"));
721 port("\\B", param("\\WIDTH") * param("\\S_WIDTH"));
722 port("\\S", param("\\S_WIDTH"));
723 port("\\Y", param("\\WIDTH"));
728 if (cell
->type
== "$lut") {
730 port("\\A", param("\\WIDTH"));
736 if (cell
->type
== "$sr") {
737 param_bool("\\SET_POLARITY");
738 param_bool("\\CLR_POLARITY");
739 port("\\SET", param("\\WIDTH"));
740 port("\\CLR", param("\\WIDTH"));
741 port("\\Q", param("\\WIDTH"));
746 if (cell
->type
== "$dff") {
747 param_bool("\\CLK_POLARITY");
749 port("\\D", param("\\WIDTH"));
750 port("\\Q", param("\\WIDTH"));
755 if (cell
->type
== "$dffsr") {
756 param_bool("\\CLK_POLARITY");
757 param_bool("\\SET_POLARITY");
758 param_bool("\\CLR_POLARITY");
760 port("\\SET", param("\\WIDTH"));
761 port("\\CLR", param("\\WIDTH"));
762 port("\\D", param("\\WIDTH"));
763 port("\\Q", param("\\WIDTH"));
768 if (cell
->type
== "$adff") {
769 param_bool("\\CLK_POLARITY");
770 param_bool("\\ARST_POLARITY");
771 param_bits("\\ARST_VALUE", param("\\WIDTH"));
774 port("\\D", param("\\WIDTH"));
775 port("\\Q", param("\\WIDTH"));
780 if (cell
->type
== "$dlatch") {
781 param_bool("\\EN_POLARITY");
783 port("\\D", param("\\WIDTH"));
784 port("\\Q", param("\\WIDTH"));
789 if (cell
->type
== "$dlatchsr") {
790 param_bool("\\EN_POLARITY");
791 param_bool("\\SET_POLARITY");
792 param_bool("\\CLR_POLARITY");
794 port("\\SET", param("\\WIDTH"));
795 port("\\CLR", param("\\WIDTH"));
796 port("\\D", param("\\WIDTH"));
797 port("\\Q", param("\\WIDTH"));
802 if (cell
->type
== "$fsm") {
804 param_bool("\\CLK_POLARITY");
805 param_bool("\\ARST_POLARITY");
806 param("\\STATE_BITS");
807 param("\\STATE_NUM");
808 param("\\STATE_NUM_LOG2");
809 param("\\STATE_RST");
810 param_bits("\\STATE_TABLE", param("\\STATE_BITS") * param("\\STATE_NUM"));
811 param("\\TRANS_NUM");
812 param_bits("\\TRANS_TABLE", param("\\TRANS_NUM") * (2*param("\\STATE_NUM_LOG2") + param("\\CTRL_IN_WIDTH") + param("\\CTRL_OUT_WIDTH")));
815 port("\\CTRL_IN", param("\\CTRL_IN_WIDTH"));
816 port("\\CTRL_OUT", param("\\CTRL_OUT_WIDTH"));
821 if (cell
->type
== "$memrd") {
823 param_bool("\\CLK_ENABLE");
824 param_bool("\\CLK_POLARITY");
825 param_bool("\\TRANSPARENT");
827 port("\\ADDR", param("\\ABITS"));
828 port("\\DATA", param("\\WIDTH"));
833 if (cell
->type
== "$memwr") {
835 param_bool("\\CLK_ENABLE");
836 param_bool("\\CLK_POLARITY");
839 port("\\EN", param("\\WIDTH"));
840 port("\\ADDR", param("\\ABITS"));
841 port("\\DATA", param("\\WIDTH"));
846 if (cell
->type
== "$mem") {
850 param_bits("\\RD_CLK_ENABLE", param("\\RD_PORTS"));
851 param_bits("\\RD_CLK_POLARITY", param("\\RD_PORTS"));
852 param_bits("\\RD_TRANSPARENT", param("\\RD_PORTS"));
853 param_bits("\\WR_CLK_ENABLE", param("\\WR_PORTS"));
854 param_bits("\\WR_CLK_POLARITY", param("\\WR_PORTS"));
855 port("\\RD_CLK", param("\\RD_PORTS"));
856 port("\\RD_ADDR", param("\\RD_PORTS") * param("\\ABITS"));
857 port("\\RD_DATA", param("\\RD_PORTS") * param("\\WIDTH"));
858 port("\\WR_CLK", param("\\WR_PORTS"));
859 port("\\WR_EN", param("\\WR_PORTS") * param("\\WIDTH"));
860 port("\\WR_ADDR", param("\\WR_PORTS") * param("\\ABITS"));
861 port("\\WR_DATA", param("\\WR_PORTS") * param("\\WIDTH"));
866 if (cell
->type
== "$assert") {
873 if (cell
->type
== "$_BUF_") { check_gate("AY"); return; }
874 if (cell
->type
== "$_NOT_") { check_gate("AY"); return; }
875 if (cell
->type
== "$_AND_") { check_gate("ABY"); return; }
876 if (cell
->type
== "$_NAND_") { check_gate("ABY"); return; }
877 if (cell
->type
== "$_OR_") { check_gate("ABY"); return; }
878 if (cell
->type
== "$_NOR_") { check_gate("ABY"); return; }
879 if (cell
->type
== "$_XOR_") { check_gate("ABY"); return; }
880 if (cell
->type
== "$_XNOR_") { check_gate("ABY"); return; }
881 if (cell
->type
== "$_MUX_") { check_gate("ABSY"); return; }
882 if (cell
->type
== "$_AOI3_") { check_gate("ABCY"); return; }
883 if (cell
->type
== "$_OAI3_") { check_gate("ABCY"); return; }
884 if (cell
->type
== "$_AOI4_") { check_gate("ABCDY"); return; }
885 if (cell
->type
== "$_OAI4_") { check_gate("ABCDY"); return; }
887 if (cell
->type
== "$_SR_NN_") { check_gate("SRQ"); return; }
888 if (cell
->type
== "$_SR_NP_") { check_gate("SRQ"); return; }
889 if (cell
->type
== "$_SR_PN_") { check_gate("SRQ"); return; }
890 if (cell
->type
== "$_SR_PP_") { check_gate("SRQ"); return; }
892 if (cell
->type
== "$_DFF_N_") { check_gate("DQC"); return; }
893 if (cell
->type
== "$_DFF_P_") { check_gate("DQC"); return; }
895 if (cell
->type
== "$_DFF_NN0_") { check_gate("DQCR"); return; }
896 if (cell
->type
== "$_DFF_NN1_") { check_gate("DQCR"); return; }
897 if (cell
->type
== "$_DFF_NP0_") { check_gate("DQCR"); return; }
898 if (cell
->type
== "$_DFF_NP1_") { check_gate("DQCR"); return; }
899 if (cell
->type
== "$_DFF_PN0_") { check_gate("DQCR"); return; }
900 if (cell
->type
== "$_DFF_PN1_") { check_gate("DQCR"); return; }
901 if (cell
->type
== "$_DFF_PP0_") { check_gate("DQCR"); return; }
902 if (cell
->type
== "$_DFF_PP1_") { check_gate("DQCR"); return; }
904 if (cell
->type
== "$_DFFSR_NNN_") { check_gate("CSRDQ"); return; }
905 if (cell
->type
== "$_DFFSR_NNP_") { check_gate("CSRDQ"); return; }
906 if (cell
->type
== "$_DFFSR_NPN_") { check_gate("CSRDQ"); return; }
907 if (cell
->type
== "$_DFFSR_NPP_") { check_gate("CSRDQ"); return; }
908 if (cell
->type
== "$_DFFSR_PNN_") { check_gate("CSRDQ"); return; }
909 if (cell
->type
== "$_DFFSR_PNP_") { check_gate("CSRDQ"); return; }
910 if (cell
->type
== "$_DFFSR_PPN_") { check_gate("CSRDQ"); return; }
911 if (cell
->type
== "$_DFFSR_PPP_") { check_gate("CSRDQ"); return; }
913 if (cell
->type
== "$_DLATCH_N_") { check_gate("EDQ"); return; }
914 if (cell
->type
== "$_DLATCH_P_") { check_gate("EDQ"); return; }
916 if (cell
->type
== "$_DLATCHSR_NNN_") { check_gate("ESRDQ"); return; }
917 if (cell
->type
== "$_DLATCHSR_NNP_") { check_gate("ESRDQ"); return; }
918 if (cell
->type
== "$_DLATCHSR_NPN_") { check_gate("ESRDQ"); return; }
919 if (cell
->type
== "$_DLATCHSR_NPP_") { check_gate("ESRDQ"); return; }
920 if (cell
->type
== "$_DLATCHSR_PNN_") { check_gate("ESRDQ"); return; }
921 if (cell
->type
== "$_DLATCHSR_PNP_") { check_gate("ESRDQ"); return; }
922 if (cell
->type
== "$_DLATCHSR_PPN_") { check_gate("ESRDQ"); return; }
923 if (cell
->type
== "$_DLATCHSR_PPP_") { check_gate("ESRDQ"); return; }
931 void RTLIL::Module::check()
934 std::vector
<bool> ports_declared
;
935 for (auto &it
: wires_
) {
936 log_assert(this == it
.second
->module
);
937 log_assert(it
.first
== it
.second
->name
);
938 log_assert(!it
.first
.empty());
939 log_assert(it
.second
->width
>= 0);
940 log_assert(it
.second
->port_id
>= 0);
941 for (auto &it2
: it
.second
->attributes
)
942 log_assert(!it2
.first
.empty());
943 if (it
.second
->port_id
) {
944 log_assert(GetSize(ports
) >= it
.second
->port_id
);
945 log_assert(ports
.at(it
.second
->port_id
-1) == it
.first
);
946 log_assert(it
.second
->port_input
|| it
.second
->port_output
);
947 if (GetSize(ports_declared
) < it
.second
->port_id
)
948 ports_declared
.resize(it
.second
->port_id
);
949 log_assert(ports_declared
[it
.second
->port_id
-1] == false);
950 ports_declared
[it
.second
->port_id
-1] = true;
952 log_assert(!it
.second
->port_input
&& !it
.second
->port_output
);
954 for (auto port_declared
: ports_declared
)
955 log_assert(port_declared
== true);
956 log_assert(GetSize(ports
) == GetSize(ports_declared
));
958 for (auto &it
: memories
) {
959 log_assert(it
.first
== it
.second
->name
);
960 log_assert(!it
.first
.empty());
961 log_assert(it
.second
->width
>= 0);
962 log_assert(it
.second
->size
>= 0);
963 for (auto &it2
: it
.second
->attributes
)
964 log_assert(!it2
.first
.empty());
967 for (auto &it
: cells_
) {
968 log_assert(this == it
.second
->module
);
969 log_assert(it
.first
== it
.second
->name
);
970 log_assert(!it
.first
.empty());
971 log_assert(!it
.second
->type
.empty());
972 for (auto &it2
: it
.second
->connections()) {
973 log_assert(!it2
.first
.empty());
976 for (auto &it2
: it
.second
->attributes
)
977 log_assert(!it2
.first
.empty());
978 for (auto &it2
: it
.second
->parameters
)
979 log_assert(!it2
.first
.empty());
980 InternalCellChecker
checker(this, it
.second
);
984 for (auto &it
: processes
) {
985 log_assert(it
.first
== it
.second
->name
);
986 log_assert(!it
.first
.empty());
987 // FIXME: More checks here..
990 for (auto &it
: connections_
) {
991 log_assert(it
.first
.size() == it
.second
.size());
996 for (auto &it
: attributes
)
997 log_assert(!it
.first
.empty());
1001 void RTLIL::Module::optimize()
1005 void RTLIL::Module::cloneInto(RTLIL::Module
*new_mod
) const
1007 log_assert(new_mod
->refcount_wires_
== 0);
1008 log_assert(new_mod
->refcount_cells_
== 0);
1010 new_mod
->connections_
= connections_
;
1011 new_mod
->attributes
= attributes
;
1013 for (auto &it
: wires_
)
1014 new_mod
->addWire(it
.first
, it
.second
);
1016 for (auto &it
: memories
)
1017 new_mod
->memories
[it
.first
] = new RTLIL::Memory(*it
.second
);
1019 for (auto &it
: cells_
)
1020 new_mod
->addCell(it
.first
, it
.second
);
1022 for (auto &it
: processes
)
1023 new_mod
->processes
[it
.first
] = it
.second
->clone();
1025 struct RewriteSigSpecWorker
1028 void operator()(RTLIL::SigSpec
&sig
)
1030 std::vector
<RTLIL::SigChunk
> chunks
= sig
.chunks();
1031 for (auto &c
: chunks
)
1033 c
.wire
= mod
->wires_
.at(c
.wire
->name
);
1038 RewriteSigSpecWorker rewriteSigSpecWorker
;
1039 rewriteSigSpecWorker
.mod
= new_mod
;
1040 new_mod
->rewrite_sigspecs(rewriteSigSpecWorker
);
1041 new_mod
->fixup_ports();
1044 RTLIL::Module
*RTLIL::Module::clone() const
1046 RTLIL::Module
*new_mod
= new RTLIL::Module
;
1047 new_mod
->name
= name
;
1052 bool RTLIL::Module::has_memories() const
1054 return !memories
.empty();
1057 bool RTLIL::Module::has_processes() const
1059 return !processes
.empty();
1062 bool RTLIL::Module::has_memories_warn() const
1064 if (!memories
.empty())
1065 log("Warning: Ignoring module %s because it contains memories (run 'memory' command first).\n", log_id(this));
1066 return !memories
.empty();
1069 bool RTLIL::Module::has_processes_warn() const
1071 if (!processes
.empty())
1072 log("Warning: Ignoring module %s because it contains processes (run 'proc' command first).\n", log_id(this));
1073 return !processes
.empty();
1076 std::vector
<RTLIL::Wire
*> RTLIL::Module::selected_wires() const
1078 std::vector
<RTLIL::Wire
*> result
;
1079 result
.reserve(wires_
.size());
1080 for (auto &it
: wires_
)
1081 if (design
->selected(this, it
.second
))
1082 result
.push_back(it
.second
);
1086 std::vector
<RTLIL::Cell
*> RTLIL::Module::selected_cells() const
1088 std::vector
<RTLIL::Cell
*> result
;
1089 result
.reserve(wires_
.size());
1090 for (auto &it
: cells_
)
1091 if (design
->selected(this, it
.second
))
1092 result
.push_back(it
.second
);
1096 void RTLIL::Module::add(RTLIL::Wire
*wire
)
1098 log_assert(!wire
->name
.empty());
1099 log_assert(count_id(wire
->name
) == 0);
1100 log_assert(refcount_wires_
== 0);
1101 wires_
[wire
->name
] = wire
;
1102 wire
->module
= this;
1105 void RTLIL::Module::add(RTLIL::Cell
*cell
)
1107 log_assert(!cell
->name
.empty());
1108 log_assert(count_id(cell
->name
) == 0);
1109 log_assert(refcount_cells_
== 0);
1110 cells_
[cell
->name
] = cell
;
1111 cell
->module
= this;
1115 struct DeleteWireWorker
1117 RTLIL::Module
*module
;
1118 const std::set
<RTLIL::Wire
*> *wires_p
;
1120 void operator()(RTLIL::SigSpec
&sig
) {
1121 std::vector
<RTLIL::SigChunk
> chunks
= sig
;
1122 for (auto &c
: chunks
)
1123 if (c
.wire
!= NULL
&& wires_p
->count(c
.wire
)) {
1124 c
.wire
= module
->addWire(NEW_ID
, c
.width
);
1133 void RTLIL::Module::remove(RTLIL::Wire
*wire
)
1135 std::setPort
<RTLIL::Wire
*> wires_
;
1136 wires_
.insert(wire
);
1141 void RTLIL::Module::remove(const std::set
<RTLIL::Wire
*> &wires
)
1143 log_assert(refcount_wires_
== 0);
1145 DeleteWireWorker delete_wire_worker
;
1146 delete_wire_worker
.module
= this;
1147 delete_wire_worker
.wires_p
= &wires
;
1148 rewrite_sigspecs(delete_wire_worker
);
1150 for (auto &it
: wires
) {
1151 log_assert(wires_
.count(it
->name
) != 0);
1152 wires_
.erase(it
->name
);
1157 void RTLIL::Module::remove(RTLIL::Cell
*cell
)
1159 while (!cell
->connections_
.empty())
1160 cell
->unsetPort(cell
->connections_
.begin()->first
);
1162 log_assert(cells_
.count(cell
->name
) != 0);
1163 log_assert(refcount_cells_
== 0);
1164 cells_
.erase(cell
->name
);
1168 void RTLIL::Module::rename(RTLIL::Wire
*wire
, RTLIL::IdString new_name
)
1170 log_assert(wires_
[wire
->name
] == wire
);
1171 log_assert(refcount_wires_
== 0);
1172 wires_
.erase(wire
->name
);
1173 wire
->name
= new_name
;
1177 void RTLIL::Module::rename(RTLIL::Cell
*cell
, RTLIL::IdString new_name
)
1179 log_assert(cells_
[cell
->name
] == cell
);
1180 log_assert(refcount_wires_
== 0);
1181 cells_
.erase(cell
->name
);
1182 cell
->name
= new_name
;
1186 void RTLIL::Module::rename(RTLIL::IdString old_name
, RTLIL::IdString new_name
)
1188 log_assert(count_id(old_name
) != 0);
1189 if (wires_
.count(old_name
))
1190 rename(wires_
.at(old_name
), new_name
);
1191 else if (cells_
.count(old_name
))
1192 rename(cells_
.at(old_name
), new_name
);
1197 void RTLIL::Module::swap_names(RTLIL::Wire
*w1
, RTLIL::Wire
*w2
)
1199 log_assert(wires_
[w1
->name
] == w1
);
1200 log_assert(wires_
[w2
->name
] == w2
);
1201 log_assert(refcount_wires_
== 0);
1203 wires_
.erase(w1
->name
);
1204 wires_
.erase(w2
->name
);
1206 std::swap(w1
->name
, w2
->name
);
1208 wires_
[w1
->name
] = w1
;
1209 wires_
[w2
->name
] = w2
;
1212 void RTLIL::Module::swap_names(RTLIL::Cell
*c1
, RTLIL::Cell
*c2
)
1214 log_assert(cells_
[c1
->name
] == c1
);
1215 log_assert(cells_
[c2
->name
] == c2
);
1216 log_assert(refcount_cells_
== 0);
1218 cells_
.erase(c1
->name
);
1219 cells_
.erase(c2
->name
);
1221 std::swap(c1
->name
, c2
->name
);
1223 cells_
[c1
->name
] = c1
;
1224 cells_
[c2
->name
] = c2
;
1227 RTLIL::IdString
RTLIL::Module::uniquify(RTLIL::IdString name
)
1230 return uniquify(name
, index
);
1233 RTLIL::IdString
RTLIL::Module::uniquify(RTLIL::IdString name
, int &index
)
1236 if (count_id(name
) == 0)
1242 RTLIL::IdString new_name
= stringf("%s_%d", name
.c_str(), index
);
1243 if (count_id(new_name
) == 0)
1249 static bool fixup_ports_compare(const RTLIL::Wire
*a
, const RTLIL::Wire
*b
)
1251 if (a
->port_id
&& !b
->port_id
)
1253 if (!a
->port_id
&& b
->port_id
)
1256 if (a
->port_id
== b
->port_id
)
1257 return a
->name
< b
->name
;
1258 return a
->port_id
< b
->port_id
;
1261 void RTLIL::Module::connect(const RTLIL::SigSig
&conn
)
1263 for (auto mon
: monitors
)
1264 mon
->notify_connect(this, conn
);
1267 for (auto mon
: design
->monitors
)
1268 mon
->notify_connect(this, conn
);
1270 connections_
.push_back(conn
);
1273 void RTLIL::Module::connect(const RTLIL::SigSpec
&lhs
, const RTLIL::SigSpec
&rhs
)
1275 connect(RTLIL::SigSig(lhs
, rhs
));
1278 void RTLIL::Module::new_connections(const std::vector
<RTLIL::SigSig
> &new_conn
)
1280 for (auto mon
: monitors
)
1281 mon
->notify_connect(this, new_conn
);
1284 for (auto mon
: design
->monitors
)
1285 mon
->notify_connect(this, new_conn
);
1287 connections_
= new_conn
;
1290 const std::vector
<RTLIL::SigSig
> &RTLIL::Module::connections() const
1292 return connections_
;
1295 void RTLIL::Module::fixup_ports()
1297 std::vector
<RTLIL::Wire
*> all_ports
;
1299 for (auto &w
: wires_
)
1300 if (w
.second
->port_input
|| w
.second
->port_output
)
1301 all_ports
.push_back(w
.second
);
1303 w
.second
->port_id
= 0;
1305 std::sort(all_ports
.begin(), all_ports
.end(), fixup_ports_compare
);
1308 for (size_t i
= 0; i
< all_ports
.size(); i
++) {
1309 ports
.push_back(all_ports
[i
]->name
);
1310 all_ports
[i
]->port_id
= i
+1;
1314 RTLIL::Wire
*RTLIL::Module::addWire(RTLIL::IdString name
, int width
)
1316 RTLIL::Wire
*wire
= new RTLIL::Wire
;
1318 wire
->width
= width
;
1323 RTLIL::Wire
*RTLIL::Module::addWire(RTLIL::IdString name
, const RTLIL::Wire
*other
)
1325 RTLIL::Wire
*wire
= addWire(name
);
1326 wire
->width
= other
->width
;
1327 wire
->start_offset
= other
->start_offset
;
1328 wire
->port_id
= other
->port_id
;
1329 wire
->port_input
= other
->port_input
;
1330 wire
->port_output
= other
->port_output
;
1331 wire
->upto
= other
->upto
;
1332 wire
->attributes
= other
->attributes
;
1336 RTLIL::Cell
*RTLIL::Module::addCell(RTLIL::IdString name
, RTLIL::IdString type
)
1338 RTLIL::Cell
*cell
= new RTLIL::Cell
;
1345 RTLIL::Cell
*RTLIL::Module::addCell(RTLIL::IdString name
, const RTLIL::Cell
*other
)
1347 RTLIL::Cell
*cell
= addCell(name
, other
->type
);
1348 cell
->connections_
= other
->connections_
;
1349 cell
->parameters
= other
->parameters
;
1350 cell
->attributes
= other
->attributes
;
1354 #define DEF_METHOD(_func, _y_size, _type) \
1355 RTLIL::Cell* RTLIL::Module::add ## _func(RTLIL::IdString name, RTLIL::SigSpec sig_a, RTLIL::SigSpec sig_y, bool is_signed) { \
1356 RTLIL::Cell *cell = addCell(name, _type); \
1357 cell->parameters["\\A_SIGNED"] = is_signed; \
1358 cell->parameters["\\A_WIDTH"] = sig_a.size(); \
1359 cell->parameters["\\Y_WIDTH"] = sig_y.size(); \
1360 cell->setPort("\\A", sig_a); \
1361 cell->setPort("\\Y", sig_y); \
1364 RTLIL::SigSpec RTLIL::Module::_func(RTLIL::IdString name, RTLIL::SigSpec sig_a, bool is_signed) { \
1365 RTLIL::SigSpec sig_y = addWire(NEW_ID, _y_size); \
1366 add ## _func(name, sig_a, sig_y, is_signed); \
1369 DEF_METHOD(Not
, sig_a
.size(), "$not")
1370 DEF_METHOD(Pos
, sig_a
.size(), "$pos")
1371 DEF_METHOD(Neg
, sig_a
.size(), "$neg")
1372 DEF_METHOD(ReduceAnd
, 1, "$reduce_and")
1373 DEF_METHOD(ReduceOr
, 1, "$reduce_or")
1374 DEF_METHOD(ReduceXor
, 1, "$reduce_xor")
1375 DEF_METHOD(ReduceXnor
, 1, "$reduce_xnor")
1376 DEF_METHOD(ReduceBool
, 1, "$reduce_bool")
1377 DEF_METHOD(LogicNot
, 1, "$logic_not")
1380 #define DEF_METHOD(_func, _y_size, _type) \
1381 RTLIL::Cell* RTLIL::Module::add ## _func(RTLIL::IdString name, RTLIL::SigSpec sig_a, RTLIL::SigSpec sig_b, RTLIL::SigSpec sig_y, bool is_signed) { \
1382 RTLIL::Cell *cell = addCell(name, _type); \
1383 cell->parameters["\\A_SIGNED"] = is_signed; \
1384 cell->parameters["\\B_SIGNED"] = is_signed; \
1385 cell->parameters["\\A_WIDTH"] = sig_a.size(); \
1386 cell->parameters["\\B_WIDTH"] = sig_b.size(); \
1387 cell->parameters["\\Y_WIDTH"] = sig_y.size(); \
1388 cell->setPort("\\A", sig_a); \
1389 cell->setPort("\\B", sig_b); \
1390 cell->setPort("\\Y", sig_y); \
1393 RTLIL::SigSpec RTLIL::Module::_func(RTLIL::IdString name, RTLIL::SigSpec sig_a, RTLIL::SigSpec sig_b, bool is_signed) { \
1394 RTLIL::SigSpec sig_y = addWire(NEW_ID, _y_size); \
1395 add ## _func(name, sig_a, sig_b, sig_y, is_signed); \
1398 DEF_METHOD(And
, std::max(sig_a
.size(), sig_b
.size()), "$and")
1399 DEF_METHOD(Or
, std::max(sig_a
.size(), sig_b
.size()), "$or")
1400 DEF_METHOD(Xor
, std::max(sig_a
.size(), sig_b
.size()), "$xor")
1401 DEF_METHOD(Xnor
, std::max(sig_a
.size(), sig_b
.size()), "$xnor")
1402 DEF_METHOD(Shl
, sig_a
.size(), "$shl")
1403 DEF_METHOD(Shr
, sig_a
.size(), "$shr")
1404 DEF_METHOD(Sshl
, sig_a
.size(), "$sshl")
1405 DEF_METHOD(Sshr
, sig_a
.size(), "$sshr")
1406 DEF_METHOD(Shift
, sig_a
.size(), "$shift")
1407 DEF_METHOD(Shiftx
, sig_a
.size(), "$shiftx")
1408 DEF_METHOD(Lt
, 1, "$lt")
1409 DEF_METHOD(Le
, 1, "$le")
1410 DEF_METHOD(Eq
, 1, "$eq")
1411 DEF_METHOD(Ne
, 1, "$ne")
1412 DEF_METHOD(Eqx
, 1, "$eqx")
1413 DEF_METHOD(Nex
, 1, "$nex")
1414 DEF_METHOD(Ge
, 1, "$ge")
1415 DEF_METHOD(Gt
, 1, "$gt")
1416 DEF_METHOD(Add
, std::max(sig_a
.size(), sig_b
.size()), "$add")
1417 DEF_METHOD(Sub
, std::max(sig_a
.size(), sig_b
.size()), "$sub")
1418 DEF_METHOD(Mul
, std::max(sig_a
.size(), sig_b
.size()), "$mul")
1419 DEF_METHOD(Div
, std::max(sig_a
.size(), sig_b
.size()), "$div")
1420 DEF_METHOD(Mod
, std::max(sig_a
.size(), sig_b
.size()), "$mod")
1421 DEF_METHOD(LogicAnd
, 1, "$logic_and")
1422 DEF_METHOD(LogicOr
, 1, "$logic_or")
1425 #define DEF_METHOD(_func, _type, _pmux) \
1426 RTLIL::Cell* RTLIL::Module::add ## _func(RTLIL::IdString name, RTLIL::SigSpec sig_a, RTLIL::SigSpec sig_b, RTLIL::SigSpec sig_s, RTLIL::SigSpec sig_y) { \
1427 RTLIL::Cell *cell = addCell(name, _type); \
1428 cell->parameters["\\WIDTH"] = sig_a.size(); \
1429 if (_pmux) cell->parameters["\\S_WIDTH"] = sig_s.size(); \
1430 cell->setPort("\\A", sig_a); \
1431 cell->setPort("\\B", sig_b); \
1432 cell->setPort("\\S", sig_s); \
1433 cell->setPort("\\Y", sig_y); \
1436 RTLIL::SigSpec RTLIL::Module::_func(RTLIL::IdString name, RTLIL::SigSpec sig_a, RTLIL::SigSpec sig_b, RTLIL::SigSpec sig_s) { \
1437 RTLIL::SigSpec sig_y = addWire(NEW_ID, sig_a.size()); \
1438 add ## _func(name, sig_a, sig_b, sig_s, sig_y); \
1441 DEF_METHOD(Mux
, "$mux", 0)
1442 DEF_METHOD(Pmux
, "$pmux", 1)
1445 #define DEF_METHOD_2(_func, _type, _P1, _P2) \
1446 RTLIL::Cell* RTLIL::Module::add ## _func(RTLIL::IdString name, RTLIL::SigBit sig1, RTLIL::SigBit sig2) { \
1447 RTLIL::Cell *cell = addCell(name, _type); \
1448 cell->setPort("\\" #_P1, sig1); \
1449 cell->setPort("\\" #_P2, sig2); \
1452 RTLIL::SigBit RTLIL::Module::_func(RTLIL::IdString name, RTLIL::SigBit sig1) { \
1453 RTLIL::SigBit sig2 = addWire(NEW_ID); \
1454 add ## _func(name, sig1, sig2); \
1457 #define DEF_METHOD_3(_func, _type, _P1, _P2, _P3) \
1458 RTLIL::Cell* RTLIL::Module::add ## _func(RTLIL::IdString name, RTLIL::SigBit sig1, RTLIL::SigBit sig2, RTLIL::SigBit sig3) { \
1459 RTLIL::Cell *cell = addCell(name, _type); \
1460 cell->setPort("\\" #_P1, sig1); \
1461 cell->setPort("\\" #_P2, sig2); \
1462 cell->setPort("\\" #_P3, sig3); \
1465 RTLIL::SigBit RTLIL::Module::_func(RTLIL::IdString name, RTLIL::SigBit sig1, RTLIL::SigBit sig2) { \
1466 RTLIL::SigBit sig3 = addWire(NEW_ID); \
1467 add ## _func(name, sig1, sig2, sig3); \
1470 #define DEF_METHOD_4(_func, _type, _P1, _P2, _P3, _P4) \
1471 RTLIL::Cell* RTLIL::Module::add ## _func(RTLIL::IdString name, RTLIL::SigBit sig1, RTLIL::SigBit sig2, RTLIL::SigBit sig3, RTLIL::SigBit sig4) { \
1472 RTLIL::Cell *cell = addCell(name, _type); \
1473 cell->setPort("\\" #_P1, sig1); \
1474 cell->setPort("\\" #_P2, sig2); \
1475 cell->setPort("\\" #_P3, sig3); \
1476 cell->setPort("\\" #_P4, sig4); \
1479 RTLIL::SigBit RTLIL::Module::_func(RTLIL::IdString name, RTLIL::SigBit sig1, RTLIL::SigBit sig2, RTLIL::SigBit sig3) { \
1480 RTLIL::SigBit sig4 = addWire(NEW_ID); \
1481 add ## _func(name, sig1, sig2, sig3, sig4); \
1484 #define DEF_METHOD_5(_func, _type, _P1, _P2, _P3, _P4, _P5) \
1485 RTLIL::Cell* RTLIL::Module::add ## _func(RTLIL::IdString name, RTLIL::SigBit sig1, RTLIL::SigBit sig2, RTLIL::SigBit sig3, RTLIL::SigBit sig4, RTLIL::SigBit sig5) { \
1486 RTLIL::Cell *cell = addCell(name, _type); \
1487 cell->setPort("\\" #_P1, sig1); \
1488 cell->setPort("\\" #_P2, sig2); \
1489 cell->setPort("\\" #_P3, sig3); \
1490 cell->setPort("\\" #_P4, sig4); \
1491 cell->setPort("\\" #_P5, sig5); \
1494 RTLIL::SigBit RTLIL::Module::_func(RTLIL::IdString name, RTLIL::SigBit sig1, RTLIL::SigBit sig2, RTLIL::SigBit sig3, RTLIL::SigBit sig4) { \
1495 RTLIL::SigBit sig5 = addWire(NEW_ID); \
1496 add ## _func(name, sig1, sig2, sig3, sig4, sig5); \
1499 DEF_METHOD_2(NotGate
, "$_NOT_", A
, Y
)
1500 DEF_METHOD_3(AndGate
, "$_AND_", A
, B
, Y
)
1501 DEF_METHOD_3(NandGate
, "$_NAND_", A
, B
, Y
)
1502 DEF_METHOD_3(OrGate
, "$_OR_", A
, B
, Y
)
1503 DEF_METHOD_3(NorGate
, "$_NOR_", A
, B
, Y
)
1504 DEF_METHOD_3(XorGate
, "$_XOR_", A
, B
, Y
)
1505 DEF_METHOD_3(XnorGate
, "$_XNOR_", A
, B
, Y
)
1506 DEF_METHOD_4(MuxGate
, "$_MUX_", A
, B
, S
, Y
)
1507 DEF_METHOD_4(Aoi3Gate
, "$_AOI3_", A
, B
, C
, Y
)
1508 DEF_METHOD_4(Oai3Gate
, "$_OAI3_", A
, B
, C
, Y
)
1509 DEF_METHOD_5(Aoi4Gate
, "$_AOI4_", A
, B
, C
, D
, Y
)
1510 DEF_METHOD_5(Oai4Gate
, "$_OAI4_", A
, B
, C
, D
, Y
)
1516 RTLIL::Cell
* RTLIL::Module::addPow(RTLIL::IdString name
, RTLIL::SigSpec sig_a
, RTLIL::SigSpec sig_b
, RTLIL::SigSpec sig_y
, bool a_signed
, bool b_signed
)
1518 RTLIL::Cell
*cell
= addCell(name
, "$pow");
1519 cell
->parameters
["\\A_SIGNED"] = a_signed
;
1520 cell
->parameters
["\\B_SIGNED"] = b_signed
;
1521 cell
->parameters
["\\A_WIDTH"] = sig_a
.size();
1522 cell
->parameters
["\\B_WIDTH"] = sig_b
.size();
1523 cell
->parameters
["\\Y_WIDTH"] = sig_y
.size();
1524 cell
->setPort("\\A", sig_a
);
1525 cell
->setPort("\\B", sig_b
);
1526 cell
->setPort("\\Y", sig_y
);
1530 RTLIL::Cell
* RTLIL::Module::addSlice(RTLIL::IdString name
, RTLIL::SigSpec sig_a
, RTLIL::SigSpec sig_y
, RTLIL::Const offset
)
1532 RTLIL::Cell
*cell
= addCell(name
, "$slice");
1533 cell
->parameters
["\\A_WIDTH"] = sig_a
.size();
1534 cell
->parameters
["\\Y_WIDTH"] = sig_y
.size();
1535 cell
->parameters
["\\OFFSET"] = offset
;
1536 cell
->setPort("\\A", sig_a
);
1537 cell
->setPort("\\Y", sig_y
);
1541 RTLIL::Cell
* RTLIL::Module::addConcat(RTLIL::IdString name
, RTLIL::SigSpec sig_a
, RTLIL::SigSpec sig_b
, RTLIL::SigSpec sig_y
)
1543 RTLIL::Cell
*cell
= addCell(name
, "$concat");
1544 cell
->parameters
["\\A_WIDTH"] = sig_a
.size();
1545 cell
->parameters
["\\B_WIDTH"] = sig_b
.size();
1546 cell
->setPort("\\A", sig_a
);
1547 cell
->setPort("\\B", sig_b
);
1548 cell
->setPort("\\Y", sig_y
);
1552 RTLIL::Cell
* RTLIL::Module::addLut(RTLIL::IdString name
, RTLIL::SigSpec sig_i
, RTLIL::SigSpec sig_o
, RTLIL::Const lut
)
1554 RTLIL::Cell
*cell
= addCell(name
, "$lut");
1555 cell
->parameters
["\\LUT"] = lut
;
1556 cell
->parameters
["\\WIDTH"] = sig_i
.size();
1557 cell
->setPort("\\A", sig_i
);
1558 cell
->setPort("\\Y", sig_o
);
1562 RTLIL::Cell
* RTLIL::Module::addAssert(RTLIL::IdString name
, RTLIL::SigSpec sig_a
, RTLIL::SigSpec sig_en
)
1564 RTLIL::Cell
*cell
= addCell(name
, "$assert");
1565 cell
->setPort("\\A", sig_a
);
1566 cell
->setPort("\\EN", sig_en
);
1570 RTLIL::Cell
* RTLIL::Module::addSr(RTLIL::IdString name
, RTLIL::SigSpec sig_set
, RTLIL::SigSpec sig_clr
, RTLIL::SigSpec sig_q
, bool set_polarity
, bool clr_polarity
)
1572 RTLIL::Cell
*cell
= addCell(name
, "$sr");
1573 cell
->parameters
["\\SET_POLARITY"] = set_polarity
;
1574 cell
->parameters
["\\CLR_POLARITY"] = clr_polarity
;
1575 cell
->parameters
["\\WIDTH"] = sig_q
.size();
1576 cell
->setPort("\\SET", sig_set
);
1577 cell
->setPort("\\CLR", sig_clr
);
1578 cell
->setPort("\\Q", sig_q
);
1582 RTLIL::Cell
* RTLIL::Module::addDff(RTLIL::IdString name
, RTLIL::SigSpec sig_clk
, RTLIL::SigSpec sig_d
, RTLIL::SigSpec sig_q
, bool clk_polarity
)
1584 RTLIL::Cell
*cell
= addCell(name
, "$dff");
1585 cell
->parameters
["\\CLK_POLARITY"] = clk_polarity
;
1586 cell
->parameters
["\\WIDTH"] = sig_q
.size();
1587 cell
->setPort("\\CLK", sig_clk
);
1588 cell
->setPort("\\D", sig_d
);
1589 cell
->setPort("\\Q", sig_q
);
1593 RTLIL::Cell
* RTLIL::Module::addDffsr(RTLIL::IdString name
, RTLIL::SigSpec sig_clk
, RTLIL::SigSpec sig_set
, RTLIL::SigSpec sig_clr
,
1594 RTLIL::SigSpec sig_d
, RTLIL::SigSpec sig_q
, bool clk_polarity
, bool set_polarity
, bool clr_polarity
)
1596 RTLIL::Cell
*cell
= addCell(name
, "$dffsr");
1597 cell
->parameters
["\\CLK_POLARITY"] = clk_polarity
;
1598 cell
->parameters
["\\SET_POLARITY"] = set_polarity
;
1599 cell
->parameters
["\\CLR_POLARITY"] = clr_polarity
;
1600 cell
->parameters
["\\WIDTH"] = sig_q
.size();
1601 cell
->setPort("\\CLK", sig_clk
);
1602 cell
->setPort("\\SET", sig_set
);
1603 cell
->setPort("\\CLR", sig_clr
);
1604 cell
->setPort("\\D", sig_d
);
1605 cell
->setPort("\\Q", sig_q
);
1609 RTLIL::Cell
* RTLIL::Module::addAdff(RTLIL::IdString name
, RTLIL::SigSpec sig_clk
, RTLIL::SigSpec sig_arst
, RTLIL::SigSpec sig_d
, RTLIL::SigSpec sig_q
,
1610 RTLIL::Const arst_value
, bool clk_polarity
, bool arst_polarity
)
1612 RTLIL::Cell
*cell
= addCell(name
, "$adff");
1613 cell
->parameters
["\\CLK_POLARITY"] = clk_polarity
;
1614 cell
->parameters
["\\ARST_POLARITY"] = arst_polarity
;
1615 cell
->parameters
["\\ARST_VALUE"] = arst_value
;
1616 cell
->parameters
["\\WIDTH"] = sig_q
.size();
1617 cell
->setPort("\\CLK", sig_clk
);
1618 cell
->setPort("\\ARST", sig_arst
);
1619 cell
->setPort("\\D", sig_d
);
1620 cell
->setPort("\\Q", sig_q
);
1624 RTLIL::Cell
* RTLIL::Module::addDlatch(RTLIL::IdString name
, RTLIL::SigSpec sig_en
, RTLIL::SigSpec sig_d
, RTLIL::SigSpec sig_q
, bool en_polarity
)
1626 RTLIL::Cell
*cell
= addCell(name
, "$dlatch");
1627 cell
->parameters
["\\EN_POLARITY"] = en_polarity
;
1628 cell
->parameters
["\\WIDTH"] = sig_q
.size();
1629 cell
->setPort("\\EN", sig_en
);
1630 cell
->setPort("\\D", sig_d
);
1631 cell
->setPort("\\Q", sig_q
);
1635 RTLIL::Cell
* RTLIL::Module::addDlatchsr(RTLIL::IdString name
, RTLIL::SigSpec sig_en
, RTLIL::SigSpec sig_set
, RTLIL::SigSpec sig_clr
,
1636 RTLIL::SigSpec sig_d
, RTLIL::SigSpec sig_q
, bool en_polarity
, bool set_polarity
, bool clr_polarity
)
1638 RTLIL::Cell
*cell
= addCell(name
, "$dlatchsr");
1639 cell
->parameters
["\\EN_POLARITY"] = en_polarity
;
1640 cell
->parameters
["\\SET_POLARITY"] = set_polarity
;
1641 cell
->parameters
["\\CLR_POLARITY"] = clr_polarity
;
1642 cell
->parameters
["\\WIDTH"] = sig_q
.size();
1643 cell
->setPort("\\EN", sig_en
);
1644 cell
->setPort("\\SET", sig_set
);
1645 cell
->setPort("\\CLR", sig_clr
);
1646 cell
->setPort("\\D", sig_d
);
1647 cell
->setPort("\\Q", sig_q
);
1651 RTLIL::Cell
* RTLIL::Module::addDffGate(RTLIL::IdString name
, RTLIL::SigSpec sig_clk
, RTLIL::SigSpec sig_d
, RTLIL::SigSpec sig_q
, bool clk_polarity
)
1653 RTLIL::Cell
*cell
= addCell(name
, stringf("$_DFF_%c_", clk_polarity
? 'P' : 'N'));
1654 cell
->setPort("\\C", sig_clk
);
1655 cell
->setPort("\\D", sig_d
);
1656 cell
->setPort("\\Q", sig_q
);
1660 RTLIL::Cell
* RTLIL::Module::addDffsrGate(RTLIL::IdString name
, RTLIL::SigSpec sig_clk
, RTLIL::SigSpec sig_set
, RTLIL::SigSpec sig_clr
,
1661 RTLIL::SigSpec sig_d
, RTLIL::SigSpec sig_q
, bool clk_polarity
, bool set_polarity
, bool clr_polarity
)
1663 RTLIL::Cell
*cell
= addCell(name
, stringf("$_DFFSR_%c%c%c_", clk_polarity
? 'P' : 'N', set_polarity
? 'P' : 'N', clr_polarity
? 'P' : 'N'));
1664 cell
->setPort("\\C", sig_clk
);
1665 cell
->setPort("\\S", sig_set
);
1666 cell
->setPort("\\R", sig_clr
);
1667 cell
->setPort("\\D", sig_d
);
1668 cell
->setPort("\\Q", sig_q
);
1672 RTLIL::Cell
* RTLIL::Module::addAdffGate(RTLIL::IdString name
, RTLIL::SigSpec sig_clk
, RTLIL::SigSpec sig_arst
, RTLIL::SigSpec sig_d
, RTLIL::SigSpec sig_q
,
1673 bool arst_value
, bool clk_polarity
, bool arst_polarity
)
1675 RTLIL::Cell
*cell
= addCell(name
, stringf("$_DFF_%c%c%c_", clk_polarity
? 'P' : 'N', arst_polarity
? 'P' : 'N', arst_value
? '1' : '0'));
1676 cell
->setPort("\\C", sig_clk
);
1677 cell
->setPort("\\R", sig_arst
);
1678 cell
->setPort("\\D", sig_d
);
1679 cell
->setPort("\\Q", sig_q
);
1683 RTLIL::Cell
* RTLIL::Module::addDlatchGate(RTLIL::IdString name
, RTLIL::SigSpec sig_en
, RTLIL::SigSpec sig_d
, RTLIL::SigSpec sig_q
, bool en_polarity
)
1685 RTLIL::Cell
*cell
= addCell(name
, stringf("$_DLATCH_%c_", en_polarity
? 'P' : 'N'));
1686 cell
->setPort("\\E", sig_en
);
1687 cell
->setPort("\\D", sig_d
);
1688 cell
->setPort("\\Q", sig_q
);
1692 RTLIL::Cell
* RTLIL::Module::addDlatchsrGate(RTLIL::IdString name
, RTLIL::SigSpec sig_en
, RTLIL::SigSpec sig_set
, RTLIL::SigSpec sig_clr
,
1693 RTLIL::SigSpec sig_d
, RTLIL::SigSpec sig_q
, bool en_polarity
, bool set_polarity
, bool clr_polarity
)
1695 RTLIL::Cell
*cell
= addCell(name
, stringf("$_DLATCHSR_%c%c%c_", en_polarity
? 'P' : 'N', set_polarity
? 'P' : 'N', clr_polarity
? 'P' : 'N'));
1696 cell
->setPort("\\E", sig_en
);
1697 cell
->setPort("\\S", sig_set
);
1698 cell
->setPort("\\R", sig_clr
);
1699 cell
->setPort("\\D", sig_d
);
1700 cell
->setPort("\\Q", sig_q
);
1712 port_output
= false;
1716 RTLIL::Memory::Memory()
1722 RTLIL::Cell::Cell() : module(nullptr)
1726 bool RTLIL::Cell::hasPort(RTLIL::IdString portname
) const
1728 return connections_
.count(portname
) != 0;
1731 void RTLIL::Cell::unsetPort(RTLIL::IdString portname
)
1733 RTLIL::SigSpec signal
;
1734 auto conn_it
= connections_
.find(portname
);
1736 if (conn_it
!= connections_
.end())
1738 for (auto mon
: module
->monitors
)
1739 mon
->notify_connect(this, conn_it
->first
, conn_it
->second
, signal
);
1742 for (auto mon
: module
->design
->monitors
)
1743 mon
->notify_connect(this, conn_it
->first
, conn_it
->second
, signal
);
1745 connections_
.erase(conn_it
);
1749 void RTLIL::Cell::setPort(RTLIL::IdString portname
, RTLIL::SigSpec signal
)
1751 auto conn_it
= connections_
.find(portname
);
1753 if (conn_it
== connections_
.end()) {
1754 connections_
[portname
] = RTLIL::SigSpec();
1755 conn_it
= connections_
.find(portname
);
1756 log_assert(conn_it
!= connections_
.end());
1759 for (auto mon
: module
->monitors
)
1760 mon
->notify_connect(this, conn_it
->first
, conn_it
->second
, signal
);
1763 for (auto mon
: module
->design
->monitors
)
1764 mon
->notify_connect(this, conn_it
->first
, conn_it
->second
, signal
);
1766 conn_it
->second
= signal
;
1769 const RTLIL::SigSpec
&RTLIL::Cell::getPort(RTLIL::IdString portname
) const
1771 return connections_
.at(portname
);
1774 const std::map
<RTLIL::IdString
, RTLIL::SigSpec
> &RTLIL::Cell::connections() const
1776 return connections_
;
1779 bool RTLIL::Cell::hasParam(RTLIL::IdString paramname
) const
1781 return parameters
.count(paramname
) != 0;
1784 void RTLIL::Cell::unsetParam(RTLIL::IdString paramname
)
1786 parameters
.erase(paramname
);
1789 void RTLIL::Cell::setParam(RTLIL::IdString paramname
, RTLIL::Const value
)
1791 parameters
[paramname
] = value
;
1794 const RTLIL::Const
&RTLIL::Cell::getParam(RTLIL::IdString paramname
) const
1796 return parameters
.at(paramname
);
1799 void RTLIL::Cell::check()
1802 InternalCellChecker
checker(NULL
, this);
1807 void RTLIL::Cell::fixup_parameters(bool set_a_signed
, bool set_b_signed
)
1809 if (type
.substr(0, 1) != "$" || type
.substr(0, 2) == "$_" || type
.substr(0, 8) == "$paramod" ||
1810 type
.substr(0, 9) == "$verific$" || type
.substr(0, 7) == "$array:" || type
.substr(0, 8) == "$extern:")
1813 if (type
== "$mux" || type
== "$pmux") {
1814 parameters
["\\WIDTH"] = GetSize(connections_
["\\Y"]);
1815 if (type
== "$pmux")
1816 parameters
["\\S_WIDTH"] = GetSize(connections_
["\\S"]);
1821 if (type
== "$lut") {
1822 parameters
["\\WIDTH"] = GetSize(connections_
["\\A"]);
1826 if (type
== "$fa") {
1827 parameters
["\\WIDTH"] = GetSize(connections_
["\\Y"]);
1831 if (type
== "$lcu") {
1832 parameters
["\\WIDTH"] = GetSize(connections_
["\\CO"]);
1836 bool signedness_ab
= !type
.in("$slice", "$concat", "$macc");
1838 if (connections_
.count("\\A")) {
1839 if (signedness_ab
) {
1841 parameters
["\\A_SIGNED"] = true;
1842 else if (parameters
.count("\\A_SIGNED") == 0)
1843 parameters
["\\A_SIGNED"] = false;
1845 parameters
["\\A_WIDTH"] = GetSize(connections_
["\\A"]);
1848 if (connections_
.count("\\B")) {
1849 if (signedness_ab
) {
1851 parameters
["\\B_SIGNED"] = true;
1852 else if (parameters
.count("\\B_SIGNED") == 0)
1853 parameters
["\\B_SIGNED"] = false;
1855 parameters
["\\B_WIDTH"] = GetSize(connections_
["\\B"]);
1858 if (connections_
.count("\\Y"))
1859 parameters
["\\Y_WIDTH"] = GetSize(connections_
["\\Y"]);
1864 RTLIL::SigChunk::SigChunk()
1871 RTLIL::SigChunk::SigChunk(const RTLIL::Const
&value
)
1875 width
= GetSize(data
);
1879 RTLIL::SigChunk::SigChunk(RTLIL::Wire
*wire
)
1881 log_assert(wire
!= nullptr);
1883 this->width
= wire
->width
;
1887 RTLIL::SigChunk::SigChunk(RTLIL::Wire
*wire
, int offset
, int width
)
1889 log_assert(wire
!= nullptr);
1891 this->width
= width
;
1892 this->offset
= offset
;
1895 RTLIL::SigChunk::SigChunk(const std::string
&str
)
1898 data
= RTLIL::Const(str
).bits
;
1899 width
= GetSize(data
);
1903 RTLIL::SigChunk::SigChunk(int val
, int width
)
1906 data
= RTLIL::Const(val
, width
).bits
;
1907 this->width
= GetSize(data
);
1911 RTLIL::SigChunk::SigChunk(RTLIL::State bit
, int width
)
1914 data
= RTLIL::Const(bit
, width
).bits
;
1915 this->width
= GetSize(data
);
1919 RTLIL::SigChunk::SigChunk(RTLIL::SigBit bit
)
1924 data
= RTLIL::Const(bit
.data
).bits
;
1926 offset
= bit
.offset
;
1930 RTLIL::SigChunk
RTLIL::SigChunk::extract(int offset
, int length
) const
1932 RTLIL::SigChunk ret
;
1935 ret
.offset
= this->offset
+ offset
;
1938 for (int i
= 0; i
< length
; i
++)
1939 ret
.data
.push_back(data
[offset
+i
]);
1945 bool RTLIL::SigChunk::operator <(const RTLIL::SigChunk
&other
) const
1947 if (wire
&& other
.wire
)
1948 if (wire
->name
!= other
.wire
->name
)
1949 return wire
->name
< other
.wire
->name
;
1951 if (wire
!= other
.wire
)
1952 return wire
< other
.wire
;
1954 if (offset
!= other
.offset
)
1955 return offset
< other
.offset
;
1957 if (width
!= other
.width
)
1958 return width
< other
.width
;
1960 return data
< other
.data
;
1963 bool RTLIL::SigChunk::operator ==(const RTLIL::SigChunk
&other
) const
1965 return wire
== other
.wire
&& width
== other
.width
&& offset
== other
.offset
&& data
== other
.data
;
1968 bool RTLIL::SigChunk::operator !=(const RTLIL::SigChunk
&other
) const
1975 RTLIL::SigSpec::SigSpec()
1981 RTLIL::SigSpec::SigSpec(const RTLIL::SigSpec
&other
)
1986 RTLIL::SigSpec::SigSpec(std::initializer_list
<RTLIL::SigSpec
> parts
)
1988 cover("kernel.rtlil.sigspec.init.list");
1993 std::vector
<RTLIL::SigSpec
> parts_vec(parts
.begin(), parts
.end());
1994 for (auto it
= parts_vec
.rbegin(); it
!= parts_vec
.rend(); it
++)
1998 const RTLIL::SigSpec
&RTLIL::SigSpec::operator=(const RTLIL::SigSpec
&other
)
2000 cover("kernel.rtlil.sigspec.assign");
2002 width_
= other
.width_
;
2003 hash_
= other
.hash_
;
2004 chunks_
= other
.chunks_
;
2007 if (!other
.bits_
.empty())
2009 RTLIL::SigChunk
*last
= NULL
;
2010 int last_end_offset
= 0;
2012 for (auto &bit
: other
.bits_
) {
2013 if (last
&& bit
.wire
== last
->wire
) {
2014 if (bit
.wire
== NULL
) {
2015 last
->data
.push_back(bit
.data
);
2018 } else if (last_end_offset
== bit
.offset
) {
2024 chunks_
.push_back(bit
);
2025 last
= &chunks_
.back();
2026 last_end_offset
= bit
.offset
+ 1;
2035 RTLIL::SigSpec::SigSpec(const RTLIL::Const
&value
)
2037 cover("kernel.rtlil.sigspec.init.const");
2039 chunks_
.push_back(RTLIL::SigChunk(value
));
2040 width_
= chunks_
.back().width
;
2045 RTLIL::SigSpec::SigSpec(const RTLIL::SigChunk
&chunk
)
2047 cover("kernel.rtlil.sigspec.init.chunk");
2049 chunks_
.push_back(chunk
);
2050 width_
= chunks_
.back().width
;
2055 RTLIL::SigSpec::SigSpec(RTLIL::Wire
*wire
)
2057 cover("kernel.rtlil.sigspec.init.wire");
2059 chunks_
.push_back(RTLIL::SigChunk(wire
));
2060 width_
= chunks_
.back().width
;
2065 RTLIL::SigSpec::SigSpec(RTLIL::Wire
*wire
, int offset
, int width
)
2067 cover("kernel.rtlil.sigspec.init.wire_part");
2069 chunks_
.push_back(RTLIL::SigChunk(wire
, offset
, width
));
2070 width_
= chunks_
.back().width
;
2075 RTLIL::SigSpec::SigSpec(const std::string
&str
)
2077 cover("kernel.rtlil.sigspec.init.str");
2079 chunks_
.push_back(RTLIL::SigChunk(str
));
2080 width_
= chunks_
.back().width
;
2085 RTLIL::SigSpec::SigSpec(int val
, int width
)
2087 cover("kernel.rtlil.sigspec.init.int");
2089 chunks_
.push_back(RTLIL::SigChunk(val
, width
));
2095 RTLIL::SigSpec::SigSpec(RTLIL::State bit
, int width
)
2097 cover("kernel.rtlil.sigspec.init.state");
2099 chunks_
.push_back(RTLIL::SigChunk(bit
, width
));
2105 RTLIL::SigSpec::SigSpec(RTLIL::SigBit bit
, int width
)
2107 cover("kernel.rtlil.sigspec.init.bit");
2109 if (bit
.wire
== NULL
)
2110 chunks_
.push_back(RTLIL::SigChunk(bit
.data
, width
));
2112 for (int i
= 0; i
< width
; i
++)
2113 chunks_
.push_back(bit
);
2119 RTLIL::SigSpec::SigSpec(std::vector
<RTLIL::SigChunk
> chunks
)
2121 cover("kernel.rtlil.sigspec.init.stdvec_chunks");
2125 for (auto &c
: chunks
)
2130 RTLIL::SigSpec::SigSpec(std::vector
<RTLIL::SigBit
> bits
)
2132 cover("kernel.rtlil.sigspec.init.stdvec_bits");
2136 for (auto &bit
: bits
)
2141 RTLIL::SigSpec::SigSpec(std::set
<RTLIL::SigBit
> bits
)
2143 cover("kernel.rtlil.sigspec.init.stdset_bits");
2147 for (auto &bit
: bits
)
2152 void RTLIL::SigSpec::pack() const
2154 RTLIL::SigSpec
*that
= (RTLIL::SigSpec
*)this;
2156 if (that
->bits_
.empty())
2159 cover("kernel.rtlil.sigspec.convert.pack");
2160 log_assert(that
->chunks_
.empty());
2162 std::vector
<RTLIL::SigBit
> old_bits
;
2163 old_bits
.swap(that
->bits_
);
2165 RTLIL::SigChunk
*last
= NULL
;
2166 int last_end_offset
= 0;
2168 for (auto &bit
: old_bits
) {
2169 if (last
&& bit
.wire
== last
->wire
) {
2170 if (bit
.wire
== NULL
) {
2171 last
->data
.push_back(bit
.data
);
2174 } else if (last_end_offset
== bit
.offset
) {
2180 that
->chunks_
.push_back(bit
);
2181 last
= &that
->chunks_
.back();
2182 last_end_offset
= bit
.offset
+ 1;
2188 void RTLIL::SigSpec::unpack() const
2190 RTLIL::SigSpec
*that
= (RTLIL::SigSpec
*)this;
2192 if (that
->chunks_
.empty())
2195 cover("kernel.rtlil.sigspec.convert.unpack");
2196 log_assert(that
->bits_
.empty());
2198 that
->bits_
.reserve(that
->width_
);
2199 for (auto &c
: that
->chunks_
)
2200 for (int i
= 0; i
< c
.width
; i
++)
2201 that
->bits_
.push_back(RTLIL::SigBit(c
, i
));
2203 that
->chunks_
.clear();
2207 #define DJB2(_hash, _value) (_hash) = (((_hash) << 5) + (_hash)) + (_value)
2209 void RTLIL::SigSpec::hash() const
2211 RTLIL::SigSpec
*that
= (RTLIL::SigSpec
*)this;
2213 if (that
->hash_
!= 0)
2216 cover("kernel.rtlil.sigspec.hash");
2220 for (auto &c
: that
->chunks_
)
2221 if (c
.wire
== NULL
) {
2222 for (auto &v
: c
.data
)
2223 DJB2(that
->hash_
, v
);
2225 DJB2(that
->hash_
, c
.wire
->name
.index_
);
2226 DJB2(that
->hash_
, c
.offset
);
2227 DJB2(that
->hash_
, c
.width
);
2230 if (that
->hash_
== 0)
2234 void RTLIL::SigSpec::sort()
2237 cover("kernel.rtlil.sigspec.sort");
2238 std::sort(bits_
.begin(), bits_
.end());
2241 void RTLIL::SigSpec::sort_and_unify()
2243 cover("kernel.rtlil.sigspec.sort_and_unify");
2244 *this = this->to_sigbit_set();
2247 void RTLIL::SigSpec::replace(const RTLIL::SigSpec
&pattern
, const RTLIL::SigSpec
&with
)
2249 replace(pattern
, with
, this);
2252 void RTLIL::SigSpec::replace(const RTLIL::SigSpec
&pattern
, const RTLIL::SigSpec
&with
, RTLIL::SigSpec
*other
) const
2254 log_assert(pattern
.width_
== with
.width_
);
2259 std::map
<RTLIL::SigBit
, RTLIL::SigBit
> rules
;
2261 for (int i
= 0; i
< GetSize(pattern
.bits_
); i
++)
2262 if (pattern
.bits_
[i
].wire
!= NULL
)
2263 rules
[pattern
.bits_
[i
]] = with
.bits_
[i
];
2265 replace(rules
, other
);
2268 void RTLIL::SigSpec::replace(const std::map
<RTLIL::SigBit
, RTLIL::SigBit
> &rules
)
2270 replace(rules
, this);
2273 void RTLIL::SigSpec::replace(const std::map
<RTLIL::SigBit
, RTLIL::SigBit
> &rules
, RTLIL::SigSpec
*other
) const
2275 cover("kernel.rtlil.sigspec.replace");
2277 log_assert(other
!= NULL
);
2278 log_assert(width_
== other
->width_
);
2283 for (int i
= 0; i
< GetSize(bits_
); i
++) {
2284 auto it
= rules
.find(bits_
[i
]);
2285 if (it
!= rules
.end())
2286 other
->bits_
[i
] = it
->second
;
2292 void RTLIL::SigSpec::remove(const RTLIL::SigSpec
&pattern
)
2294 remove2(pattern
, NULL
);
2297 void RTLIL::SigSpec::remove(const RTLIL::SigSpec
&pattern
, RTLIL::SigSpec
*other
) const
2299 RTLIL::SigSpec tmp
= *this;
2300 tmp
.remove2(pattern
, other
);
2303 void RTLIL::SigSpec::remove2(const RTLIL::SigSpec
&pattern
, RTLIL::SigSpec
*other
)
2305 std::set
<RTLIL::SigBit
> pattern_bits
= pattern
.to_sigbit_set();
2306 remove2(pattern_bits
, other
);
2309 void RTLIL::SigSpec::remove(const std::set
<RTLIL::SigBit
> &pattern
)
2311 remove2(pattern
, NULL
);
2314 void RTLIL::SigSpec::remove(const std::set
<RTLIL::SigBit
> &pattern
, RTLIL::SigSpec
*other
) const
2316 RTLIL::SigSpec tmp
= *this;
2317 tmp
.remove2(pattern
, other
);
2320 void RTLIL::SigSpec::remove2(const std::set
<RTLIL::SigBit
> &pattern
, RTLIL::SigSpec
*other
)
2323 cover("kernel.rtlil.sigspec.remove_other");
2325 cover("kernel.rtlil.sigspec.remove");
2329 if (other
!= NULL
) {
2330 log_assert(width_
== other
->width_
);
2334 std::vector
<RTLIL::SigBit
> new_bits
, new_other_bits
;
2336 new_bits
.resize(GetSize(bits_
));
2338 new_other_bits
.resize(GetSize(bits_
));
2341 for (int i
= 0; i
< GetSize(bits_
); i
++) {
2342 if (bits_
[i
].wire
!= NULL
&& pattern
.count(bits_
[i
]))
2345 new_other_bits
[k
] = other
->bits_
[i
];
2346 new_bits
[k
++] = bits_
[i
];
2351 new_other_bits
.resize(k
);
2353 bits_
.swap(new_bits
);
2354 width_
= GetSize(bits_
);
2356 if (other
!= NULL
) {
2357 other
->bits_
.swap(new_other_bits
);
2358 other
->width_
= GetSize(other
->bits_
);
2364 RTLIL::SigSpec
RTLIL::SigSpec::extract(const RTLIL::SigSpec
&pattern
, const RTLIL::SigSpec
*other
) const
2366 std::set
<RTLIL::SigBit
> pattern_bits
= pattern
.to_sigbit_set();
2367 return extract(pattern_bits
, other
);
2370 RTLIL::SigSpec
RTLIL::SigSpec::extract(const std::set
<RTLIL::SigBit
> &pattern
, const RTLIL::SigSpec
*other
) const
2373 cover("kernel.rtlil.sigspec.extract_other");
2375 cover("kernel.rtlil.sigspec.extract");
2377 log_assert(other
== NULL
|| width_
== other
->width_
);
2379 std::vector
<RTLIL::SigBit
> bits_match
= to_sigbit_vector();
2383 std::vector
<RTLIL::SigBit
> bits_other
= other
->to_sigbit_vector();
2384 for (int i
= 0; i
< width_
; i
++)
2385 if (bits_match
[i
].wire
&& pattern
.count(bits_match
[i
]))
2386 ret
.append_bit(bits_other
[i
]);
2388 for (int i
= 0; i
< width_
; i
++)
2389 if (bits_match
[i
].wire
&& pattern
.count(bits_match
[i
]))
2390 ret
.append_bit(bits_match
[i
]);
2397 void RTLIL::SigSpec::replace(int offset
, const RTLIL::SigSpec
&with
)
2399 cover("kernel.rtlil.sigspec.replace_pos");
2404 log_assert(offset
>= 0);
2405 log_assert(with
.width_
>= 0);
2406 log_assert(offset
+with
.width_
<= width_
);
2408 for (int i
= 0; i
< with
.width_
; i
++)
2409 bits_
.at(offset
+ i
) = with
.bits_
.at(i
);
2414 void RTLIL::SigSpec::remove_const()
2418 cover("kernel.rtlil.sigspec.remove_const.packed");
2420 std::vector
<RTLIL::SigChunk
> new_chunks
;
2421 new_chunks
.reserve(GetSize(chunks_
));
2424 for (auto &chunk
: chunks_
)
2425 if (chunk
.wire
!= NULL
) {
2426 new_chunks
.push_back(chunk
);
2427 width_
+= chunk
.width
;
2430 chunks_
.swap(new_chunks
);
2434 cover("kernel.rtlil.sigspec.remove_const.unpacked");
2436 std::vector
<RTLIL::SigBit
> new_bits
;
2437 new_bits
.reserve(width_
);
2439 for (auto &bit
: bits_
)
2440 if (bit
.wire
!= NULL
)
2441 new_bits
.push_back(bit
);
2443 bits_
.swap(new_bits
);
2444 width_
= bits_
.size();
2450 void RTLIL::SigSpec::remove(int offset
, int length
)
2452 cover("kernel.rtlil.sigspec.remove_pos");
2456 log_assert(offset
>= 0);
2457 log_assert(length
>= 0);
2458 log_assert(offset
+ length
<= width_
);
2460 bits_
.erase(bits_
.begin() + offset
, bits_
.begin() + offset
+ length
);
2461 width_
= bits_
.size();
2466 RTLIL::SigSpec
RTLIL::SigSpec::extract(int offset
, int length
) const
2469 cover("kernel.rtlil.sigspec.extract_pos");
2470 return std::vector
<RTLIL::SigBit
>(bits_
.begin() + offset
, bits_
.begin() + offset
+ length
);
2473 void RTLIL::SigSpec::append(const RTLIL::SigSpec
&signal
)
2475 if (signal
.width_
== 0)
2483 cover("kernel.rtlil.sigspec.append");
2485 if (packed() != signal
.packed()) {
2491 for (auto &other_c
: signal
.chunks_
)
2493 auto &my_last_c
= chunks_
.back();
2494 if (my_last_c
.wire
== NULL
&& other_c
.wire
== NULL
) {
2495 auto &this_data
= my_last_c
.data
;
2496 auto &other_data
= other_c
.data
;
2497 this_data
.insert(this_data
.end(), other_data
.begin(), other_data
.end());
2498 my_last_c
.width
+= other_c
.width
;
2500 if (my_last_c
.wire
== other_c
.wire
&& my_last_c
.offset
+ my_last_c
.width
== other_c
.offset
) {
2501 my_last_c
.width
+= other_c
.width
;
2503 chunks_
.push_back(other_c
);
2506 bits_
.insert(bits_
.end(), signal
.bits_
.begin(), signal
.bits_
.end());
2508 width_
+= signal
.width_
;
2512 void RTLIL::SigSpec::append_bit(const RTLIL::SigBit
&bit
)
2516 cover("kernel.rtlil.sigspec.append_bit.packed");
2518 if (chunks_
.size() == 0)
2519 chunks_
.push_back(bit
);
2521 if (bit
.wire
== NULL
)
2522 if (chunks_
.back().wire
== NULL
) {
2523 chunks_
.back().data
.push_back(bit
.data
);
2524 chunks_
.back().width
++;
2526 chunks_
.push_back(bit
);
2528 if (chunks_
.back().wire
== bit
.wire
&& chunks_
.back().offset
+ chunks_
.back().width
== bit
.offset
)
2529 chunks_
.back().width
++;
2531 chunks_
.push_back(bit
);
2535 cover("kernel.rtlil.sigspec.append_bit.unpacked");
2536 bits_
.push_back(bit
);
2543 void RTLIL::SigSpec::extend(int width
, bool is_signed
)
2545 cover("kernel.rtlil.sigspec.extend");
2550 remove(width
, width_
- width
);
2552 if (width_
< width
) {
2553 RTLIL::SigSpec padding
= width_
> 0 ? extract(width_
- 1, 1) : RTLIL::SigSpec(RTLIL::State::S0
);
2554 if (!is_signed
&& padding
!= RTLIL::SigSpec(RTLIL::State::Sx
) && padding
!= RTLIL::SigSpec(RTLIL::State::Sz
) &&
2555 padding
!= RTLIL::SigSpec(RTLIL::State::Sa
) && padding
!= RTLIL::SigSpec(RTLIL::State::Sm
))
2556 padding
= RTLIL::SigSpec(RTLIL::State::S0
);
2557 while (width_
< width
)
2562 void RTLIL::SigSpec::extend_u0(int width
, bool is_signed
)
2564 cover("kernel.rtlil.sigspec.extend_u0");
2569 remove(width
, width_
- width
);
2571 if (width_
< width
) {
2572 RTLIL::SigSpec padding
= width_
> 0 ? extract(width_
- 1, 1) : RTLIL::SigSpec(RTLIL::State::S0
);
2574 padding
= RTLIL::SigSpec(RTLIL::State::S0
);
2575 while (width_
< width
)
2581 RTLIL::SigSpec
RTLIL::SigSpec::repeat(int num
) const
2583 cover("kernel.rtlil.sigspec.repeat");
2586 for (int i
= 0; i
< num
; i
++)
2592 void RTLIL::SigSpec::check() const
2596 cover("kernel.rtlil.sigspec.check.skip");
2600 cover("kernel.rtlil.sigspec.check.packed");
2603 for (size_t i
= 0; i
< chunks_
.size(); i
++) {
2604 const RTLIL::SigChunk chunk
= chunks_
[i
];
2605 if (chunk
.wire
== NULL
) {
2607 log_assert(chunks_
[i
-1].wire
!= NULL
);
2608 log_assert(chunk
.offset
== 0);
2609 log_assert(chunk
.data
.size() == (size_t)chunk
.width
);
2611 if (i
> 0 && chunks_
[i
-1].wire
== chunk
.wire
)
2612 log_assert(chunk
.offset
!= chunks_
[i
-1].offset
+ chunks_
[i
-1].width
);
2613 log_assert(chunk
.offset
>= 0);
2614 log_assert(chunk
.width
>= 0);
2615 log_assert(chunk
.offset
+ chunk
.width
<= chunk
.wire
->width
);
2616 log_assert(chunk
.data
.size() == 0);
2620 log_assert(w
== width_
);
2621 log_assert(bits_
.empty());
2625 cover("kernel.rtlil.sigspec.check.unpacked");
2627 log_assert(width_
== GetSize(bits_
));
2628 log_assert(chunks_
.empty());
2633 bool RTLIL::SigSpec::operator <(const RTLIL::SigSpec
&other
) const
2635 cover("kernel.rtlil.sigspec.comp_lt");
2640 if (width_
!= other
.width_
)
2641 return width_
< other
.width_
;
2646 if (chunks_
.size() != other
.chunks_
.size())
2647 return chunks_
.size() < other
.chunks_
.size();
2652 if (hash_
!= other
.hash_
)
2653 return hash_
< other
.hash_
;
2655 for (size_t i
= 0; i
< chunks_
.size(); i
++)
2656 if (chunks_
[i
] != other
.chunks_
[i
]) {
2657 cover("kernel.rtlil.sigspec.comp_lt.hash_collision");
2658 return chunks_
[i
] < other
.chunks_
[i
];
2661 cover("kernel.rtlil.sigspec.comp_lt.equal");
2665 bool RTLIL::SigSpec::operator ==(const RTLIL::SigSpec
&other
) const
2667 cover("kernel.rtlil.sigspec.comp_eq");
2672 if (width_
!= other
.width_
)
2678 if (chunks_
.size() != chunks_
.size())
2684 if (hash_
!= other
.hash_
)
2687 for (size_t i
= 0; i
< chunks_
.size(); i
++)
2688 if (chunks_
[i
] != other
.chunks_
[i
]) {
2689 cover("kernel.rtlil.sigspec.comp_eq.hash_collision");
2693 cover("kernel.rtlil.sigspec.comp_eq.equal");
2697 bool RTLIL::SigSpec::is_wire() const
2699 cover("kernel.rtlil.sigspec.is_wire");
2702 return GetSize(chunks_
) == 1 && chunks_
[0].wire
&& chunks_
[0].wire
->width
== width_
;
2705 bool RTLIL::SigSpec::is_chunk() const
2707 cover("kernel.rtlil.sigspec.is_chunk");
2710 return GetSize(chunks_
) == 1;
2713 bool RTLIL::SigSpec::is_fully_const() const
2715 cover("kernel.rtlil.sigspec.is_fully_const");
2718 for (auto it
= chunks_
.begin(); it
!= chunks_
.end(); it
++)
2719 if (it
->width
> 0 && it
->wire
!= NULL
)
2724 bool RTLIL::SigSpec::is_fully_def() const
2726 cover("kernel.rtlil.sigspec.is_fully_def");
2729 for (auto it
= chunks_
.begin(); it
!= chunks_
.end(); it
++) {
2730 if (it
->width
> 0 && it
->wire
!= NULL
)
2732 for (size_t i
= 0; i
< it
->data
.size(); i
++)
2733 if (it
->data
[i
] != RTLIL::State::S0
&& it
->data
[i
] != RTLIL::State::S1
)
2739 bool RTLIL::SigSpec::is_fully_undef() const
2741 cover("kernel.rtlil.sigspec.is_fully_undef");
2744 for (auto it
= chunks_
.begin(); it
!= chunks_
.end(); it
++) {
2745 if (it
->width
> 0 && it
->wire
!= NULL
)
2747 for (size_t i
= 0; i
< it
->data
.size(); i
++)
2748 if (it
->data
[i
] != RTLIL::State::Sx
&& it
->data
[i
] != RTLIL::State::Sz
)
2754 bool RTLIL::SigSpec::has_marked_bits() const
2756 cover("kernel.rtlil.sigspec.has_marked_bits");
2759 for (auto it
= chunks_
.begin(); it
!= chunks_
.end(); it
++)
2760 if (it
->width
> 0 && it
->wire
== NULL
) {
2761 for (size_t i
= 0; i
< it
->data
.size(); i
++)
2762 if (it
->data
[i
] == RTLIL::State::Sm
)
2768 bool RTLIL::SigSpec::as_bool() const
2770 cover("kernel.rtlil.sigspec.as_bool");
2773 log_assert(is_fully_const() && GetSize(chunks_
) <= 1);
2775 return RTLIL::Const(chunks_
[0].data
).as_bool();
2779 int RTLIL::SigSpec::as_int(bool is_signed
) const
2781 cover("kernel.rtlil.sigspec.as_int");
2784 log_assert(is_fully_const() && GetSize(chunks_
) <= 1);
2786 return RTLIL::Const(chunks_
[0].data
).as_int(is_signed
);
2790 std::string
RTLIL::SigSpec::as_string() const
2792 cover("kernel.rtlil.sigspec.as_string");
2796 for (size_t i
= chunks_
.size(); i
> 0; i
--) {
2797 const RTLIL::SigChunk
&chunk
= chunks_
[i
-1];
2798 if (chunk
.wire
!= NULL
)
2799 for (int j
= 0; j
< chunk
.width
; j
++)
2802 str
+= RTLIL::Const(chunk
.data
).as_string();
2807 RTLIL::Const
RTLIL::SigSpec::as_const() const
2809 cover("kernel.rtlil.sigspec.as_const");
2812 log_assert(is_fully_const() && GetSize(chunks_
) <= 1);
2814 return chunks_
[0].data
;
2815 return RTLIL::Const();
2818 RTLIL::Wire
*RTLIL::SigSpec::as_wire() const
2820 cover("kernel.rtlil.sigspec.as_wire");
2823 log_assert(is_wire());
2824 return chunks_
[0].wire
;
2827 RTLIL::SigChunk
RTLIL::SigSpec::as_chunk() const
2829 cover("kernel.rtlil.sigspec.as_chunk");
2832 log_assert(is_chunk());
2836 bool RTLIL::SigSpec::match(std::string pattern
) const
2838 cover("kernel.rtlil.sigspec.match");
2841 std::string str
= as_string();
2842 log_assert(pattern
.size() == str
.size());
2844 for (size_t i
= 0; i
< pattern
.size(); i
++) {
2845 if (pattern
[i
] == ' ')
2847 if (pattern
[i
] == '*') {
2848 if (str
[i
] != 'z' && str
[i
] != 'x')
2852 if (pattern
[i
] != str
[i
])
2859 std::set
<RTLIL::SigBit
> RTLIL::SigSpec::to_sigbit_set() const
2861 cover("kernel.rtlil.sigspec.to_sigbit_set");
2864 std::set
<RTLIL::SigBit
> sigbits
;
2865 for (auto &c
: chunks_
)
2866 for (int i
= 0; i
< c
.width
; i
++)
2867 sigbits
.insert(RTLIL::SigBit(c
, i
));
2871 std::vector
<RTLIL::SigBit
> RTLIL::SigSpec::to_sigbit_vector() const
2873 cover("kernel.rtlil.sigspec.to_sigbit_vector");
2879 std::map
<RTLIL::SigBit
, RTLIL::SigBit
> RTLIL::SigSpec::to_sigbit_map(const RTLIL::SigSpec
&other
) const
2881 cover("kernel.rtlil.sigspec.to_sigbit_map");
2886 log_assert(width_
== other
.width_
);
2888 std::map
<RTLIL::SigBit
, RTLIL::SigBit
> new_map
;
2889 for (int i
= 0; i
< width_
; i
++)
2890 new_map
[bits_
[i
]] = other
.bits_
[i
];
2895 RTLIL::SigBit
RTLIL::SigSpec::to_single_sigbit() const
2897 cover("kernel.rtlil.sigspec.to_single_sigbit");
2900 log_assert(width_
== 1);
2901 for (auto &c
: chunks_
)
2903 return RTLIL::SigBit(c
);
2907 static void sigspec_parse_split(std::vector
<std::string
> &tokens
, const std::string
&text
, char sep
)
2909 size_t start
= 0, end
= 0;
2910 while ((end
= text
.find(sep
, start
)) != std::string::npos
) {
2911 tokens
.push_back(text
.substr(start
, end
- start
));
2914 tokens
.push_back(text
.substr(start
));
2917 static int sigspec_parse_get_dummy_line_num()
2922 bool RTLIL::SigSpec::parse(RTLIL::SigSpec
&sig
, RTLIL::Module
*module
, std::string str
)
2924 cover("kernel.rtlil.sigspec.parse");
2926 std::vector
<std::string
> tokens
;
2927 sigspec_parse_split(tokens
, str
, ',');
2929 sig
= RTLIL::SigSpec();
2930 for (int tokidx
= int(tokens
.size())-1; tokidx
>= 0; tokidx
--)
2932 std::string netname
= tokens
[tokidx
];
2933 std::string indices
;
2935 if (netname
.size() == 0)
2938 if (('0' <= netname
[0] && netname
[0] <= '9') || netname
[0] == '\'') {
2939 cover("kernel.rtlil.sigspec.parse.const");
2940 AST::get_line_num
= sigspec_parse_get_dummy_line_num
;
2941 AST::AstNode
*ast
= VERILOG_FRONTEND::const2ast(netname
);
2944 sig
.append(RTLIL::Const(ast
->bits
));
2952 cover("kernel.rtlil.sigspec.parse.net");
2954 if (netname
[0] != '$' && netname
[0] != '\\')
2955 netname
= "\\" + netname
;
2957 if (module
->wires_
.count(netname
) == 0) {
2958 size_t indices_pos
= netname
.size()-1;
2959 if (indices_pos
> 2 && netname
[indices_pos
] == ']')
2962 while (indices_pos
> 0 && ('0' <= netname
[indices_pos
] && netname
[indices_pos
] <= '9')) indices_pos
--;
2963 if (indices_pos
> 0 && netname
[indices_pos
] == ':') {
2965 while (indices_pos
> 0 && ('0' <= netname
[indices_pos
] && netname
[indices_pos
] <= '9')) indices_pos
--;
2967 if (indices_pos
> 0 && netname
[indices_pos
] == '[') {
2968 indices
= netname
.substr(indices_pos
);
2969 netname
= netname
.substr(0, indices_pos
);
2974 if (module
->wires_
.count(netname
) == 0)
2977 RTLIL::Wire
*wire
= module
->wires_
.at(netname
);
2978 if (!indices
.empty()) {
2979 std::vector
<std::string
> index_tokens
;
2980 sigspec_parse_split(index_tokens
, indices
.substr(1, indices
.size()-2), ':');
2981 if (index_tokens
.size() == 1) {
2982 cover("kernel.rtlil.sigspec.parse.bit_sel");
2983 int a
= atoi(index_tokens
.at(0).c_str());
2984 if (a
< 0 || a
>= wire
->width
)
2986 sig
.append(RTLIL::SigSpec(wire
, a
));
2988 cover("kernel.rtlil.sigspec.parse.part_sel");
2989 int a
= atoi(index_tokens
.at(0).c_str());
2990 int b
= atoi(index_tokens
.at(1).c_str());
2995 if (a
< 0 || a
>= wire
->width
)
2997 if (b
< 0 || b
>= wire
->width
)
2999 sig
.append(RTLIL::SigSpec(wire
, a
, b
-a
+1));
3008 bool RTLIL::SigSpec::parse_sel(RTLIL::SigSpec
&sig
, RTLIL::Design
*design
, RTLIL::Module
*module
, std::string str
)
3010 if (str
.empty() || str
[0] != '@')
3011 return parse(sig
, module
, str
);
3013 cover("kernel.rtlil.sigspec.parse.sel");
3015 str
= RTLIL::escape_id(str
.substr(1));
3016 if (design
->selection_vars
.count(str
) == 0)
3019 sig
= RTLIL::SigSpec();
3020 RTLIL::Selection
&sel
= design
->selection_vars
.at(str
);
3021 for (auto &it
: module
->wires_
)
3022 if (sel
.selected_member(module
->name
, it
.first
))
3023 sig
.append(it
.second
);
3028 bool RTLIL::SigSpec::parse_rhs(const RTLIL::SigSpec
&lhs
, RTLIL::SigSpec
&sig
, RTLIL::Module
*module
, std::string str
)
3031 cover("kernel.rtlil.sigspec.parse.rhs_zeros");
3032 sig
= RTLIL::SigSpec(RTLIL::State::S0
, lhs
.width_
);
3037 cover("kernel.rtlil.sigspec.parse.rhs_ones");
3038 sig
= RTLIL::SigSpec(RTLIL::State::S1
, lhs
.width_
);
3042 if (lhs
.chunks_
.size() == 1) {
3043 char *p
= (char*)str
.c_str(), *endptr
;
3044 long int val
= strtol(p
, &endptr
, 10);
3045 if (endptr
&& endptr
!= p
&& *endptr
== 0) {
3046 sig
= RTLIL::SigSpec(val
, lhs
.width_
);
3047 cover("kernel.rtlil.sigspec.parse.rhs_dec");
3052 return parse(sig
, module
, str
);
3055 RTLIL::CaseRule::~CaseRule()
3057 for (auto it
= switches
.begin(); it
!= switches
.end(); it
++)
3061 RTLIL::CaseRule
*RTLIL::CaseRule::clone() const
3063 RTLIL::CaseRule
*new_caserule
= new RTLIL::CaseRule
;
3064 new_caserule
->compare
= compare
;
3065 new_caserule
->actions
= actions
;
3066 for (auto &it
: switches
)
3067 new_caserule
->switches
.push_back(it
->clone());
3068 return new_caserule
;
3071 RTLIL::SwitchRule::~SwitchRule()
3073 for (auto it
= cases
.begin(); it
!= cases
.end(); it
++)
3077 RTLIL::SwitchRule
*RTLIL::SwitchRule::clone() const
3079 RTLIL::SwitchRule
*new_switchrule
= new RTLIL::SwitchRule
;
3080 new_switchrule
->signal
= signal
;
3081 new_switchrule
->attributes
= attributes
;
3082 for (auto &it
: cases
)
3083 new_switchrule
->cases
.push_back(it
->clone());
3084 return new_switchrule
;
3088 RTLIL::SyncRule
*RTLIL::SyncRule::clone() const
3090 RTLIL::SyncRule
*new_syncrule
= new RTLIL::SyncRule
;
3091 new_syncrule
->type
= type
;
3092 new_syncrule
->signal
= signal
;
3093 new_syncrule
->actions
= actions
;
3094 return new_syncrule
;
3097 RTLIL::Process::~Process()
3099 for (auto it
= syncs
.begin(); it
!= syncs
.end(); it
++)
3103 RTLIL::Process
*RTLIL::Process::clone() const
3105 RTLIL::Process
*new_proc
= new RTLIL::Process
;
3107 new_proc
->name
= name
;
3108 new_proc
->attributes
= attributes
;
3110 RTLIL::CaseRule
*rc_ptr
= root_case
.clone();
3111 new_proc
->root_case
= *rc_ptr
;
3112 rc_ptr
->switches
.clear();
3115 for (auto &it
: syncs
)
3116 new_proc
->syncs
.push_back(it
->clone());