yosys/backends/verilog/verilog_backend.cc

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
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*
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* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
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*
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* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* ---
*
* A simple and straightforward Verilog backend.
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*
*/
#include "kernel/register.h"
#include "kernel/celltypes.h"
#include "kernel/log.h"
#include "kernel/sigtools.h"
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#include <string>
#include <sstream>
#include <set>
#include <map>
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USING_YOSYS_NAMESPACE
PRIVATE_NAMESPACE_BEGIN
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bool verbose, norename, noattr, attr2comment, noexpr, nodec, nohex, nostr, defparam, decimal, siminit;
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int auto_name_counter, auto_name_offset, auto_name_digits;
std::map<RTLIL::IdString, int> auto_name_map;
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std::set<RTLIL::IdString> reg_wires, reg_ct;
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std::string auto_prefix;
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RTLIL::Module *active_module;
dict<RTLIL::SigBit, RTLIL::State> active_initdata;
SigMap active_sigmap;
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void reset_auto_counter_id(RTLIL::IdString id, bool may_rename)
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{
const char *str = id.c_str();
if (*str == '$' && may_rename && !norename)
auto_name_map[id] = auto_name_counter++;
if (str[0] != '\\' || str[1] != '_' || str[2] == 0)
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return;
for (int i = 2; str[i] != 0; i++) {
if (str[i] == '_' && str[i+1] == 0)
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continue;
if (str[i] < '0' || str[i] > '9')
return;
}
int num = atoi(str+2);
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if (num >= auto_name_offset)
auto_name_offset = num + 1;
}
void reset_auto_counter(RTLIL::Module *module)
{
auto_name_map.clear();
auto_name_counter = 0;
auto_name_offset = 0;
reset_auto_counter_id(module->name, false);
for (auto it = module->wires_.begin(); it != module->wires_.end(); ++it)
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reset_auto_counter_id(it->second->name, true);
for (auto it = module->cells_.begin(); it != module->cells_.end(); ++it) {
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reset_auto_counter_id(it->second->name, true);
reset_auto_counter_id(it->second->type, false);
}
for (auto it = module->processes.begin(); it != module->processes.end(); ++it)
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reset_auto_counter_id(it->second->name, false);
auto_name_digits = 1;
for (size_t i = 10; i < auto_name_offset + auto_name_map.size(); i = i*10)
auto_name_digits++;
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if (verbose)
for (auto it = auto_name_map.begin(); it != auto_name_map.end(); ++it)
log(" renaming `%s' to `%s_%0*d_'.\n", it->first.c_str(), auto_prefix.c_str(), auto_name_digits, auto_name_offset + it->second);
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}
std::string next_auto_id()
{
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return stringf("%s_%0*d_", auto_prefix.c_str(), auto_name_digits, auto_name_offset + auto_name_counter++);
}
std::string id(RTLIL::IdString internal_id, bool may_rename = true)
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{
const char *str = internal_id.c_str();
bool do_escape = false;
if (may_rename && auto_name_map.count(internal_id) != 0)
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return stringf("%s_%0*d_", auto_prefix.c_str(), auto_name_digits, auto_name_offset + auto_name_map[internal_id]);
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if (*str == '\\')
str++;
if ('0' <= *str && *str <= '9')
do_escape = true;
for (int i = 0; str[i]; i++)
{
if ('0' <= str[i] && str[i] <= '9')
continue;
if ('a' <= str[i] && str[i] <= 'z')
continue;
if ('A' <= str[i] && str[i] <= 'Z')
continue;
if (str[i] == '_')
continue;
do_escape = true;
break;
}
const pool<string> keywords = {
// IEEE 1800-2017 Annex B
"accept_on", "alias", "always", "always_comb", "always_ff", "always_latch", "and", "assert", "assign", "assume", "automatic", "before",
"begin", "bind", "bins", "binsof", "bit", "break", "buf", "bufif0", "bufif1", "byte", "case", "casex", "casez", "cell", "chandle",
"checker", "class", "clocking", "cmos", "config", "const", "constraint", "context", "continue", "cover", "covergroup", "coverpoint",
"cross", "deassign", "default", "defparam", "design", "disable", "dist", "do", "edge", "else", "end", "endcase", "endchecker",
"endclass", "endclocking", "endconfig", "endfunction", "endgenerate", "endgroup", "endinterface", "endmodule", "endpackage",
"endprimitive", "endprogram", "endproperty", "endsequence", "endspecify", "endtable", "endtask", "enum", "event", "eventually",
"expect", "export", "extends", "extern", "final", "first_match", "for", "force", "foreach", "forever", "fork", "forkjoin", "function",
"generate", "genvar", "global", "highz0", "highz1", "if", "iff", "ifnone", "ignore_bins", "illegal_bins", "implements", "implies",
"import", "incdir", "include", "initial", "inout", "input", "inside", "instance", "int", "integer", "interconnect", "interface",
"intersect", "join", "join_any", "join_none", "large", "let", "liblist", "library", "local", "localparam", "logic", "longint",
"macromodule", "matches", "medium", "modport", "module", "nand", "negedge", "nettype", "new", "nexttime", "nmos", "nor",
"noshowcancelled", "not", "notif0", "notif1", "null", "or", "output", "package", "packed", "parameter", "pmos", "posedge", "primitive",
"priority", "program", "property", "protected", "pull0", "pull1", "pulldown", "pullup", "pulsestyle_ondetect", "pulsestyle_onevent",
"pure", "rand", "randc", "randcase", "randsequence", "rcmos", "real", "realtime", "ref", "reg", "reject_on", "release", "repeat",
"restrict", "return", "rnmos", "rpmos", "rtran", "rtranif0", "rtranif1", "s_always", "s_eventually", "s_nexttime", "s_until",
"s_until_with", "scalared", "sequence", "shortint", "shortreal", "showcancelled", "signed", "small", "soft", "solve", "specify",
"specparam", "static", "string", "strong", "strong0", "strong1", "struct", "super", "supply0", "supply1", "sync_accept_on",
"sync_reject_on", "table", "tagged", "task", "this", "throughout", "time", "timeprecision", "timeunit", "tran", "tranif0", "tranif1",
"tri", "tri0", "tri1", "triand", "trior", "trireg", "type", "typedef", "union", "unique", "unique0", "unsigned", "until", "until_with",
"untyped", "use", "uwire", "var", "vectored", "virtual", "void", "wait", "wait_order", "wand", "weak", "weak0", "weak1", "while",
"wildcard", "wire", "with", "within", "wor", "xnor", "xor",
};
if (keywords.count(str))
do_escape = true;
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if (do_escape)
return "\\" + std::string(str) + " ";
return std::string(str);
}
bool is_reg_wire(RTLIL::SigSpec sig, std::string &reg_name)
{
if (!sig.is_chunk() || sig.as_chunk().wire == NULL)
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return false;
RTLIL::SigChunk chunk = sig.as_chunk();
if (reg_wires.count(chunk.wire->name) == 0)
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return false;
reg_name = id(chunk.wire->name);
if (sig.size() != chunk.wire->width) {
if (sig.size() == 1)
reg_name += stringf("[%d]", chunk.wire->start_offset + chunk.offset);
else if (chunk.wire->upto)
reg_name += stringf("[%d:%d]", (chunk.wire->width - (chunk.offset + chunk.width - 1) - 1) + chunk.wire->start_offset,
(chunk.wire->width - chunk.offset - 1) + chunk.wire->start_offset);
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else
reg_name += stringf("[%d:%d]", chunk.wire->start_offset + chunk.offset + chunk.width - 1,
chunk.wire->start_offset + chunk.offset);
}
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return true;
}
void dump_const(std::ostream &f, const RTLIL::Const &data, int width = -1, int offset = 0, bool no_decimal = false, bool set_signed = false, bool escape_comment = false)
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{
if (width < 0)
width = data.bits.size() - offset;
if (width == 0) {
f << "\"\"";
return;
}
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if (nostr)
goto dump_hex;
if ((data.flags & RTLIL::CONST_FLAG_STRING) == 0 || width != (int)data.bits.size()) {
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if (width == 32 && !no_decimal && !nodec) {
int32_t val = 0;
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for (int i = offset+width-1; i >= offset; i--) {
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log_assert(i < (int)data.bits.size());
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if (data.bits[i] != RTLIL::S0 && data.bits[i] != RTLIL::S1)
goto dump_hex;
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if (data.bits[i] == RTLIL::S1)
val |= 1 << (i - offset);
}
if (decimal)
f << stringf("%d", val);
else if (set_signed && val < 0)
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f << stringf("-32'sd%u", -val);
else
f << stringf("32'%sd%u", set_signed ? "s" : "", val);
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} else {
dump_hex:
if (nohex)
goto dump_bin;
vector<char> bin_digits, hex_digits;
for (int i = offset; i < offset+width; i++) {
log_assert(i < (int)data.bits.size());
switch (data.bits[i]) {
case RTLIL::S0: bin_digits.push_back('0'); break;
case RTLIL::S1: bin_digits.push_back('1'); break;
case RTLIL::Sx: bin_digits.push_back('x'); break;
case RTLIL::Sz: bin_digits.push_back('z'); break;
case RTLIL::Sa: bin_digits.push_back('z'); break;
case RTLIL::Sm: log_error("Found marker state in final netlist.");
}
}
if (GetSize(bin_digits) == 0)
goto dump_bin;
while (GetSize(bin_digits) % 4 != 0)
if (bin_digits.back() == '1')
bin_digits.push_back('0');
else
bin_digits.push_back(bin_digits.back());
for (int i = 0; i < GetSize(bin_digits); i += 4)
{
char bit_3 = bin_digits[i+3];
char bit_2 = bin_digits[i+2];
char bit_1 = bin_digits[i+1];
char bit_0 = bin_digits[i+0];
if (bit_3 == 'x' || bit_2 == 'x' || bit_1 == 'x' || bit_0 == 'x') {
if (bit_3 != 'x' || bit_2 != 'x' || bit_1 != 'x' || bit_0 != 'x')
goto dump_bin;
hex_digits.push_back('x');
continue;
}
if (bit_3 == 'z' || bit_2 == 'z' || bit_1 == 'z' || bit_0 == 'z') {
if (bit_3 != 'z' || bit_2 != 'z' || bit_1 != 'z' || bit_0 != 'z')
goto dump_bin;
hex_digits.push_back('z');
continue;
}
int val = 8*(bit_3 - '0') + 4*(bit_2 - '0') + 2*(bit_1 - '0') + (bit_0 - '0');
hex_digits.push_back(val < 10 ? '0' + val : 'a' + val - 10);
}
f << stringf("%d'%sh", width, set_signed ? "s" : "");
for (int i = GetSize(hex_digits)-1; i >= 0; i--)
f << hex_digits[i];
}
if (0) {
dump_bin:
f << stringf("%d'%sb", width, set_signed ? "s" : "");
if (width == 0)
f << stringf("0");
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for (int i = offset+width-1; i >= offset; i--) {
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log_assert(i < (int)data.bits.size());
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switch (data.bits[i]) {
case RTLIL::S0: f << stringf("0"); break;
case RTLIL::S1: f << stringf("1"); break;
case RTLIL::Sx: f << stringf("x"); break;
case RTLIL::Sz: f << stringf("z"); break;
case RTLIL::Sa: f << stringf("z"); break;
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case RTLIL::Sm: log_error("Found marker state in final netlist.");
}
}
}
} else {
f << stringf("\"");
std::string str = data.decode_string();
for (size_t i = 0; i < str.size(); i++) {
if (str[i] == '\n')
f << stringf("\\n");
else if (str[i] == '\t')
f << stringf("\\t");
else if (str[i] < 32)
f << stringf("\\%03o", str[i]);
else if (str[i] == '"')
f << stringf("\\\"");
else if (str[i] == '\\')
f << stringf("\\\\");
else if (str[i] == '/' && escape_comment && i > 0 && str[i-1] == '*')
f << stringf("\\/");
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else
f << str[i];
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}
f << stringf("\"");
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}
}
void dump_reg_init(std::ostream &f, SigSpec sig)
{
Const initval;
bool gotinit = false;
for (auto bit : active_sigmap(sig)) {
if (active_initdata.count(bit)) {
initval.bits.push_back(active_initdata.at(bit));
gotinit = true;
} else {
initval.bits.push_back(State::Sx);
}
}
if (gotinit) {
f << " = ";
dump_const(f, initval);
}
}
void dump_sigchunk(std::ostream &f, const RTLIL::SigChunk &chunk, bool no_decimal = false)
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{
if (chunk.wire == NULL) {
dump_const(f, chunk.data, chunk.width, chunk.offset, no_decimal);
} else {
if (chunk.width == chunk.wire->width && chunk.offset == 0) {
f << stringf("%s", id(chunk.wire->name).c_str());
} else if (chunk.width == 1) {
if (chunk.wire->upto)
f << stringf("%s[%d]", id(chunk.wire->name).c_str(), (chunk.wire->width - chunk.offset - 1) + chunk.wire->start_offset);
else
f << stringf("%s[%d]", id(chunk.wire->name).c_str(), chunk.offset + chunk.wire->start_offset);
} else {
if (chunk.wire->upto)
f << stringf("%s[%d:%d]", id(chunk.wire->name).c_str(),
(chunk.wire->width - (chunk.offset + chunk.width - 1) - 1) + chunk.wire->start_offset,
(chunk.wire->width - chunk.offset - 1) + chunk.wire->start_offset);
else
f << stringf("%s[%d:%d]", id(chunk.wire->name).c_str(),
(chunk.offset + chunk.width - 1) + chunk.wire->start_offset,
chunk.offset + chunk.wire->start_offset);
}
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}
}
void dump_sigspec(std::ostream &f, const RTLIL::SigSpec &sig)
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{
if (GetSize(sig) == 0) {
f << "\"\"";
return;
}
if (sig.is_chunk()) {
dump_sigchunk(f, sig.as_chunk());
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} else {
f << stringf("{ ");
for (auto it = sig.chunks().rbegin(); it != sig.chunks().rend(); ++it) {
if (it != sig.chunks().rbegin())
f << stringf(", ");
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dump_sigchunk(f, *it, true);
}
f << stringf(" }");
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}
}
void dump_attributes(std::ostream &f, std::string indent, dict<RTLIL::IdString, RTLIL::Const> &attributes, char term = '\n', bool modattr = false)
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{
if (noattr)
return;
for (auto it = attributes.begin(); it != attributes.end(); ++it) {
f << stringf("%s" "%s %s", indent.c_str(), attr2comment ? "/*" : "(*", id(it->first).c_str());
f << stringf(" = ");
if (modattr && (it->second == Const(0, 1) || it->second == Const(0)))
f << stringf(" 0 ");
else if (modattr && (it->second == Const(1, 1) || it->second == Const(1)))
f << stringf(" 1 ");
else
dump_const(f, it->second, -1, 0, false, false, attr2comment);
f << stringf(" %s%c", attr2comment ? "*/" : "*)", term);
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}
}
void dump_wire(std::ostream &f, std::string indent, RTLIL::Wire *wire)
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{
dump_attributes(f, indent, wire->attributes);
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#if 0
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if (wire->port_input && !wire->port_output)
f << stringf("%s" "input %s", indent.c_str(), reg_wires.count(wire->name) ? "reg " : "");
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else if (!wire->port_input && wire->port_output)
f << stringf("%s" "output %s", indent.c_str(), reg_wires.count(wire->name) ? "reg " : "");
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else if (wire->port_input && wire->port_output)
f << stringf("%s" "inout %s", indent.c_str(), reg_wires.count(wire->name) ? "reg " : "");
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else
f << stringf("%s" "%s ", indent.c_str(), reg_wires.count(wire->name) ? "reg" : "wire");
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if (wire->width != 1)
f << stringf("[%d:%d] ", wire->width - 1 + wire->start_offset, wire->start_offset);
f << stringf("%s;\n", id(wire->name).c_str());
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#else
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// do not use Verilog-2k "output reg" syntax in Verilog export
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std::string range = "";
if (wire->width != 1) {
if (wire->upto)
range = stringf(" [%d:%d]", wire->start_offset, wire->width - 1 + wire->start_offset);
else
range = stringf(" [%d:%d]", wire->width - 1 + wire->start_offset, wire->start_offset);
}
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if (wire->port_input && !wire->port_output)
f << stringf("%s" "input%s %s;\n", indent.c_str(), range.c_str(), id(wire->name).c_str());
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if (!wire->port_input && wire->port_output)
f << stringf("%s" "output%s %s;\n", indent.c_str(), range.c_str(), id(wire->name).c_str());
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if (wire->port_input && wire->port_output)
f << stringf("%s" "inout%s %s;\n", indent.c_str(), range.c_str(), id(wire->name).c_str());
if (reg_wires.count(wire->name)) {
f << stringf("%s" "reg%s %s", indent.c_str(), range.c_str(), id(wire->name).c_str());
if (wire->attributes.count("\\init")) {
f << stringf(" = ");
dump_const(f, wire->attributes.at("\\init"));
}
f << stringf(";\n");
} else if (!wire->port_input && !wire->port_output)
f << stringf("%s" "wire%s %s;\n", indent.c_str(), range.c_str(), id(wire->name).c_str());
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#endif
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}
void dump_memory(std::ostream &f, std::string indent, RTLIL::Memory *memory)
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{
dump_attributes(f, indent, memory->attributes);
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f << stringf("%s" "reg [%d:0] %s [%d:%d];\n", indent.c_str(), memory->width-1, id(memory->name).c_str(), memory->size+memory->start_offset-1, memory->start_offset);
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}
void dump_cell_expr_port(std::ostream &f, RTLIL::Cell *cell, std::string port, bool gen_signed = true)
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{
if (gen_signed && cell->parameters.count("\\" + port + "_SIGNED") > 0 && cell->parameters["\\" + port + "_SIGNED"].as_bool()) {
f << stringf("$signed(");
dump_sigspec(f, cell->getPort("\\" + port));
f << stringf(")");
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} else
dump_sigspec(f, cell->getPort("\\" + port));
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}
std::string cellname(RTLIL::Cell *cell)
{
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if (!norename && cell->name[0] == '$' && reg_ct.count(cell->type) && cell->hasPort("\\Q"))
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{
RTLIL::SigSpec sig = cell->getPort("\\Q");
if (GetSize(sig) != 1 || sig.is_fully_const())
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goto no_special_reg_name;
RTLIL::Wire *wire = sig[0].wire;
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if (wire->name[0] != '\\')
goto no_special_reg_name;
std::string cell_name = wire->name.str();
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size_t pos = cell_name.find('[');
if (pos != std::string::npos)
cell_name = cell_name.substr(0, pos) + "_reg" + cell_name.substr(pos);
else
cell_name = cell_name + "_reg";
if (wire->width != 1)
cell_name += stringf("[%d]", wire->start_offset + sig[0].offset);
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if (active_module && active_module->count_id(cell_name) > 0)
goto no_special_reg_name;
return id(cell_name);
}
else
{
no_special_reg_name:
return id(cell->name).c_str();
}
}
void dump_cell_expr_uniop(std::ostream &f, std::string indent, RTLIL::Cell *cell, std::string op)
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{
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = %s ", op.c_str());
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dump_attributes(f, "", cell->attributes, ' ');
dump_cell_expr_port(f, cell, "A", true);
f << stringf(";\n");
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}
void dump_cell_expr_binop(std::ostream &f, std::string indent, RTLIL::Cell *cell, std::string op)
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{
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = ");
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dump_cell_expr_port(f, cell, "A", true);
f << stringf(" %s ", op.c_str());
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dump_attributes(f, "", cell->attributes, ' ');
dump_cell_expr_port(f, cell, "B", true);
f << stringf(";\n");
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}
bool dump_cell_expr(std::ostream &f, std::string indent, RTLIL::Cell *cell)
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{
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if (cell->type == "$_NOT_") {
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = ");
f << stringf("~");
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dump_attributes(f, "", cell->attributes, ' ');
dump_cell_expr_port(f, cell, "A", false);
f << stringf(";\n");
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return true;
}
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if (cell->type.in("$_AND_", "$_NAND_", "$_OR_", "$_NOR_", "$_XOR_", "$_XNOR_", "$_ANDNOT_", "$_ORNOT_")) {
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = ");
if (cell->type.in("$_NAND_", "$_NOR_", "$_XNOR_"))
f << stringf("~(");
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dump_cell_expr_port(f, cell, "A", false);
f << stringf(" ");
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if (cell->type.in("$_AND_", "$_NAND_", "$_ANDNOT_"))
f << stringf("&");
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if (cell->type.in("$_OR_", "$_NOR_", "$_ORNOT_"))
f << stringf("|");
if (cell->type.in("$_XOR_", "$_XNOR_"))
f << stringf("^");
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dump_attributes(f, "", cell->attributes, ' ');
f << stringf(" ");
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if (cell->type.in("$_ANDNOT_", "$_ORNOT_"))
f << stringf("~(");
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dump_cell_expr_port(f, cell, "B", false);
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if (cell->type.in("$_NAND_", "$_NOR_", "$_XNOR_", "$_ANDNOT_", "$_ORNOT_"))
f << stringf(")");
f << stringf(";\n");
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return true;
}
if (cell->type == "$_MUX_") {
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = ");
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dump_cell_expr_port(f, cell, "S", false);
f << stringf(" ? ");
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dump_attributes(f, "", cell->attributes, ' ');
dump_cell_expr_port(f, cell, "B", false);
f << stringf(" : ");
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dump_cell_expr_port(f, cell, "A", false);
f << stringf(";\n");
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return true;
}
if (cell->type.in("$_AOI3_", "$_OAI3_")) {
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = ~((");
dump_cell_expr_port(f, cell, "A", false);
f << stringf(cell->type == "$_AOI3_" ? " & " : " | ");
dump_cell_expr_port(f, cell, "B", false);
f << stringf(cell->type == "$_AOI3_" ? ") |" : ") &");
dump_attributes(f, "", cell->attributes, ' ');
f << stringf(" ");
dump_cell_expr_port(f, cell, "C", false);
f << stringf(");\n");
return true;
}
if (cell->type.in("$_AOI4_", "$_OAI4_")) {
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = ~((");
dump_cell_expr_port(f, cell, "A", false);
f << stringf(cell->type == "$_AOI4_" ? " & " : " | ");
dump_cell_expr_port(f, cell, "B", false);
f << stringf(cell->type == "$_AOI4_" ? ") |" : ") &");
dump_attributes(f, "", cell->attributes, ' ');
f << stringf(" (");
dump_cell_expr_port(f, cell, "C", false);
f << stringf(cell->type == "$_AOI4_" ? " & " : " | ");
dump_cell_expr_port(f, cell, "D", false);
f << stringf("));\n");
return true;
}
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if (cell->type.substr(0, 6) == "$_DFF_")
{
std::string reg_name = cellname(cell);
bool out_is_reg_wire = is_reg_wire(cell->getPort("\\Q"), reg_name);
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if (!out_is_reg_wire) {
f << stringf("%s" "reg %s", indent.c_str(), reg_name.c_str());
dump_reg_init(f, cell->getPort("\\Q"));
f << ";\n";
}
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dump_attributes(f, indent, cell->attributes);
f << stringf("%s" "always @(%sedge ", indent.c_str(), cell->type[6] == 'P' ? "pos" : "neg");
dump_sigspec(f, cell->getPort("\\C"));
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if (cell->type[7] != '_') {
f << stringf(" or %sedge ", cell->type[7] == 'P' ? "pos" : "neg");
dump_sigspec(f, cell->getPort("\\R"));
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}
f << stringf(")\n");
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if (cell->type[7] != '_') {
f << stringf("%s" " if (%s", indent.c_str(), cell->type[7] == 'P' ? "" : "!");
dump_sigspec(f, cell->getPort("\\R"));
f << stringf(")\n");
f << stringf("%s" " %s <= %c;\n", indent.c_str(), reg_name.c_str(), cell->type[8]);
f << stringf("%s" " else\n", indent.c_str());
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}
f << stringf("%s" " %s <= ", indent.c_str(), reg_name.c_str());
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dump_cell_expr_port(f, cell, "D", false);
f << stringf(";\n");
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if (!out_is_reg_wire) {
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Q"));
f << stringf(" = %s;\n", reg_name.c_str());
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}
return true;
}
if (cell->type.substr(0, 8) == "$_DFFSR_")
{
char pol_c = cell->type[8], pol_s = cell->type[9], pol_r = cell->type[10];
std::string reg_name = cellname(cell);
bool out_is_reg_wire = is_reg_wire(cell->getPort("\\Q"), reg_name);
if (!out_is_reg_wire) {
f << stringf("%s" "reg %s", indent.c_str(), reg_name.c_str());
dump_reg_init(f, cell->getPort("\\Q"));
f << ";\n";
}
dump_attributes(f, indent, cell->attributes);
f << stringf("%s" "always @(%sedge ", indent.c_str(), pol_c == 'P' ? "pos" : "neg");
dump_sigspec(f, cell->getPort("\\C"));
f << stringf(" or %sedge ", pol_s == 'P' ? "pos" : "neg");
dump_sigspec(f, cell->getPort("\\S"));
f << stringf(" or %sedge ", pol_r == 'P' ? "pos" : "neg");
dump_sigspec(f, cell->getPort("\\R"));
f << stringf(")\n");
f << stringf("%s" " if (%s", indent.c_str(), pol_r == 'P' ? "" : "!");
dump_sigspec(f, cell->getPort("\\R"));
f << stringf(")\n");
f << stringf("%s" " %s <= 0;\n", indent.c_str(), reg_name.c_str());
f << stringf("%s" " else if (%s", indent.c_str(), pol_s == 'P' ? "" : "!");
dump_sigspec(f, cell->getPort("\\S"));
f << stringf(")\n");
f << stringf("%s" " %s <= 1;\n", indent.c_str(), reg_name.c_str());
f << stringf("%s" " else\n", indent.c_str());
f << stringf("%s" " %s <= ", indent.c_str(), reg_name.c_str());
dump_cell_expr_port(f, cell, "D", false);
f << stringf(";\n");
if (!out_is_reg_wire) {
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Q"));
f << stringf(" = %s;\n", reg_name.c_str());
}
return true;
}
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#define HANDLE_UNIOP(_type, _operator) \
if (cell->type ==_type) { dump_cell_expr_uniop(f, indent, cell, _operator); return true; }
#define HANDLE_BINOP(_type, _operator) \
if (cell->type ==_type) { dump_cell_expr_binop(f, indent, cell, _operator); return true; }
HANDLE_UNIOP("$not", "~")
HANDLE_UNIOP("$pos", "+")
HANDLE_UNIOP("$neg", "-")
HANDLE_BINOP("$and", "&")
HANDLE_BINOP("$or", "|")
HANDLE_BINOP("$xor", "^")
HANDLE_BINOP("$xnor", "~^")
HANDLE_UNIOP("$reduce_and", "&")
HANDLE_UNIOP("$reduce_or", "|")
HANDLE_UNIOP("$reduce_xor", "^")
HANDLE_UNIOP("$reduce_xnor", "~^")
HANDLE_UNIOP("$reduce_bool", "|")
HANDLE_BINOP("$shl", "<<")
HANDLE_BINOP("$shr", ">>")
HANDLE_BINOP("$sshl", "<<<")
HANDLE_BINOP("$sshr", ">>>")
HANDLE_BINOP("$lt", "<")
HANDLE_BINOP("$le", "<=")
HANDLE_BINOP("$eq", "==")
HANDLE_BINOP("$ne", "!=")
HANDLE_BINOP("$eqx", "===")
HANDLE_BINOP("$nex", "!==")
HANDLE_BINOP("$ge", ">=")
HANDLE_BINOP("$gt", ">")
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HANDLE_BINOP("$add", "+")
HANDLE_BINOP("$sub", "-")
HANDLE_BINOP("$mul", "*")
HANDLE_BINOP("$div", "/")
HANDLE_BINOP("$mod", "%")
HANDLE_BINOP("$pow", "**")
HANDLE_UNIOP("$logic_not", "!")
HANDLE_BINOP("$logic_and", "&&")
HANDLE_BINOP("$logic_or", "||")
#undef HANDLE_UNIOP
#undef HANDLE_BINOP
if (cell->type == "$shift")
{
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = ");
if (cell->getParam("\\B_SIGNED").as_bool())
{
f << stringf("$signed(");
dump_sigspec(f, cell->getPort("\\B"));
f << stringf(")");
f << stringf(" < 0 ? ");
dump_sigspec(f, cell->getPort("\\A"));
f << stringf(" << - ");
dump_sigspec(f, cell->getPort("\\B"));
f << stringf(" : ");
dump_sigspec(f, cell->getPort("\\A"));
f << stringf(" >> ");
dump_sigspec(f, cell->getPort("\\B"));
}
else
{
dump_sigspec(f, cell->getPort("\\A"));
f << stringf(" >> ");
dump_sigspec(f, cell->getPort("\\B"));
}
f << stringf(";\n");
return true;
}
if (cell->type == "$shiftx")
{
std::string temp_id = next_auto_id();
f << stringf("%s" "wire [%d:0] %s = ", indent.c_str(), GetSize(cell->getPort("\\A"))-1, temp_id.c_str());
dump_sigspec(f, cell->getPort("\\A"));
f << stringf(";\n");
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = %s[", temp_id.c_str());
if (cell->getParam("\\B_SIGNED").as_bool())
f << stringf("$signed(");
dump_sigspec(f, cell->getPort("\\B"));
if (cell->getParam("\\B_SIGNED").as_bool())
f << stringf(")");
f << stringf(" +: %d", cell->getParam("\\Y_WIDTH").as_int());
f << stringf("];\n");
return true;
}
if (cell->type == "$mux")
{
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = ");
dump_sigspec(f, cell->getPort("\\S"));
f << stringf(" ? ");
dump_attributes(f, "", cell->attributes, ' ');
dump_sigspec(f, cell->getPort("\\B"));
f << stringf(" : ");
dump_sigspec(f, cell->getPort("\\A"));
f << stringf(";\n");
return true;
}
if (cell->type == "$pmux" || cell->type == "$pmux_safe")
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{
int width = cell->parameters["\\WIDTH"].as_int();
int s_width = cell->getPort("\\S").size();
std::string func_name = cellname(cell);
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f << stringf("%s" "function [%d:0] %s;\n", indent.c_str(), width-1, func_name.c_str());
f << stringf("%s" " input [%d:0] a;\n", indent.c_str(), width-1);
f << stringf("%s" " input [%d:0] b;\n", indent.c_str(), s_width*width-1);
f << stringf("%s" " input [%d:0] s;\n", indent.c_str(), s_width-1);
dump_attributes(f, indent + " ", cell->attributes);
if (cell->type != "$pmux_safe" && !noattr)
f << stringf("%s" " (* parallel_case *)\n", indent.c_str());
f << stringf("%s" " casez (s)", indent.c_str());
if (cell->type != "$pmux_safe")
f << stringf(noattr ? " // synopsys parallel_case\n" : "\n");
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for (int i = 0; i < s_width; i++)
{
f << stringf("%s" " %d'b", indent.c_str(), s_width);
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for (int j = s_width-1; j >= 0; j--)
f << stringf("%c", j == i ? '1' : cell->type == "$pmux_safe" ? '0' : '?');
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f << stringf(":\n");
f << stringf("%s" " %s = b[%d:%d];\n", indent.c_str(), func_name.c_str(), (i+1)*width-1, i*width);
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}
f << stringf("%s" " default:\n", indent.c_str());
f << stringf("%s" " %s = a;\n", indent.c_str(), func_name.c_str());
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f << stringf("%s" " endcase\n", indent.c_str());
f << stringf("%s" "endfunction\n", indent.c_str());
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = %s(", func_name.c_str());
dump_sigspec(f, cell->getPort("\\A"));
f << stringf(", ");
dump_sigspec(f, cell->getPort("\\B"));
f << stringf(", ");
dump_sigspec(f, cell->getPort("\\S"));
f << stringf(");\n");
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return true;
}
if (cell->type == "$tribuf")
{
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = ");
dump_sigspec(f, cell->getPort("\\EN"));
f << stringf(" ? ");
dump_sigspec(f, cell->getPort("\\A"));
f << stringf(" : %d'bz;\n", cell->parameters.at("\\WIDTH").as_int());
return true;
}
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if (cell->type == "$slice")
{
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = ");
dump_sigspec(f, cell->getPort("\\A"));
f << stringf(" >> %d;\n", cell->parameters.at("\\OFFSET").as_int());
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return true;
}
if (cell->type == "$concat")
{
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = { ");
dump_sigspec(f, cell->getPort("\\B"));
f << stringf(" , ");
dump_sigspec(f, cell->getPort("\\A"));
f << stringf(" };\n");
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return true;
}
if (cell->type == "$lut")
{
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Y"));
f << stringf(" = ");
dump_const(f, cell->parameters.at("\\LUT"));
f << stringf(" >> ");
dump_attributes(f, "", cell->attributes, ' ');
dump_sigspec(f, cell->getPort("\\A"));
f << stringf(";\n");
return true;
}
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if (cell->type == "$dffsr")
{
SigSpec sig_clk = cell->getPort("\\CLK");
SigSpec sig_set = cell->getPort("\\SET");
SigSpec sig_clr = cell->getPort("\\CLR");
SigSpec sig_d = cell->getPort("\\D");
SigSpec sig_q = cell->getPort("\\Q");
int width = cell->parameters["\\WIDTH"].as_int();
bool pol_clk = cell->parameters["\\CLK_POLARITY"].as_bool();
bool pol_set = cell->parameters["\\SET_POLARITY"].as_bool();
bool pol_clr = cell->parameters["\\CLR_POLARITY"].as_bool();
std::string reg_name = cellname(cell);
bool out_is_reg_wire = is_reg_wire(sig_q, reg_name);
if (!out_is_reg_wire) {
f << stringf("%s" "reg [%d:0] %s", indent.c_str(), width-1, reg_name.c_str());
dump_reg_init(f, sig_q);
f << ";\n";
}
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for (int i = 0; i < width; i++) {
f << stringf("%s" "always @(%sedge ", indent.c_str(), pol_clk ? "pos" : "neg");
dump_sigspec(f, sig_clk);
f << stringf(", %sedge ", pol_set ? "pos" : "neg");
dump_sigspec(f, sig_set);
f << stringf(", %sedge ", pol_clr ? "pos" : "neg");
dump_sigspec(f, sig_clr);
f << stringf(")\n");
f << stringf("%s" " if (%s", indent.c_str(), pol_clr ? "" : "!");
dump_sigspec(f, sig_clr);
f << stringf(") %s[%d] <= 1'b0;\n", reg_name.c_str(), i);
f << stringf("%s" " else if (%s", indent.c_str(), pol_set ? "" : "!");
dump_sigspec(f, sig_set);
f << stringf(") %s[%d] <= 1'b1;\n", reg_name.c_str(), i);
f << stringf("%s" " else %s[%d] <= ", indent.c_str(), reg_name.c_str(), i);
dump_sigspec(f, sig_d[i]);
f << stringf(";\n");
}
if (!out_is_reg_wire) {
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, sig_q);
f << stringf(" = %s;\n", reg_name.c_str());
}
return true;
}
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if (cell->type == "$dff" || cell->type == "$adff" || cell->type == "$dffe")
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{
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RTLIL::SigSpec sig_clk, sig_arst, sig_en, val_arst;
bool pol_clk, pol_arst = false, pol_en = false;
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sig_clk = cell->getPort("\\CLK");
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pol_clk = cell->parameters["\\CLK_POLARITY"].as_bool();
if (cell->type == "$adff") {
sig_arst = cell->getPort("\\ARST");
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pol_arst = cell->parameters["\\ARST_POLARITY"].as_bool();
val_arst = RTLIL::SigSpec(cell->parameters["\\ARST_VALUE"]);
}
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if (cell->type == "$dffe") {
sig_en = cell->getPort("\\EN");
pol_en = cell->parameters["\\EN_POLARITY"].as_bool();
}
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std::string reg_name = cellname(cell);
bool out_is_reg_wire = is_reg_wire(cell->getPort("\\Q"), reg_name);
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if (!out_is_reg_wire) {
f << stringf("%s" "reg [%d:0] %s", indent.c_str(), cell->parameters["\\WIDTH"].as_int()-1, reg_name.c_str());
dump_reg_init(f, cell->getPort("\\Q"));
f << ";\n";
}
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f << stringf("%s" "always @(%sedge ", indent.c_str(), pol_clk ? "pos" : "neg");
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dump_sigspec(f, sig_clk);
if (cell->type == "$adff") {
f << stringf(" or %sedge ", pol_arst ? "pos" : "neg");
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dump_sigspec(f, sig_arst);
}
f << stringf(")\n");
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if (cell->type == "$adff") {
f << stringf("%s" " if (%s", indent.c_str(), pol_arst ? "" : "!");
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dump_sigspec(f, sig_arst);
f << stringf(")\n");
f << stringf("%s" " %s <= ", indent.c_str(), reg_name.c_str());
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dump_sigspec(f, val_arst);
f << stringf(";\n");
f << stringf("%s" " else\n", indent.c_str());
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}
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if (cell->type == "$dffe") {
f << stringf("%s" " if (%s", indent.c_str(), pol_en ? "" : "!");
dump_sigspec(f, sig_en);
f << stringf(")\n");
}
f << stringf("%s" " %s <= ", indent.c_str(), reg_name.c_str());
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dump_cell_expr_port(f, cell, "D", false);
f << stringf(";\n");
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if (!out_is_reg_wire) {
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Q"));
f << stringf(" = %s;\n", reg_name.c_str());
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}
return true;
}
if (cell->type == "$dlatch")
{
RTLIL::SigSpec sig_en;
bool pol_en = false;
sig_en = cell->getPort("\\EN");
pol_en = cell->parameters["\\EN_POLARITY"].as_bool();
std::string reg_name = cellname(cell);
bool out_is_reg_wire = is_reg_wire(cell->getPort("\\Q"), reg_name);
if (!out_is_reg_wire) {
f << stringf("%s" "reg [%d:0] %s", indent.c_str(), cell->parameters["\\WIDTH"].as_int()-1, reg_name.c_str());
dump_reg_init(f, cell->getPort("\\Q"));
f << ";\n";
}
f << stringf("%s" "always @*\n", indent.c_str());
f << stringf("%s" " if (%s", indent.c_str(), pol_en ? "" : "!");
dump_sigspec(f, sig_en);
f << stringf(")\n");
f << stringf("%s" " %s = ", indent.c_str(), reg_name.c_str());
dump_cell_expr_port(f, cell, "D", false);
f << stringf(";\n");
if (!out_is_reg_wire) {
f << stringf("%s" "assign ", indent.c_str());
dump_sigspec(f, cell->getPort("\\Q"));
f << stringf(" = %s;\n", reg_name.c_str());
}
return true;
}
if (cell->type == "$mem")
{
RTLIL::IdString memid = cell->parameters["\\MEMID"].decode_string();
std::string mem_id = id(cell->parameters["\\MEMID"].decode_string());
int abits = cell->parameters["\\ABITS"].as_int();
int size = cell->parameters["\\SIZE"].as_int();
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int offset = cell->parameters["\\OFFSET"].as_int();
int width = cell->parameters["\\WIDTH"].as_int();
bool use_init = !(RTLIL::SigSpec(cell->parameters["\\INIT"]).is_fully_undef());
// for memory block make something like:
// reg [7:0] memid [3:0];
// initial begin
// memid[0] = ...
// end
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f << stringf("%s" "reg [%d:%d] %s [%d:%d];\n", indent.c_str(), width-1, 0, mem_id.c_str(), size+offset-1, offset);
if (use_init)
{
f << stringf("%s" "initial begin\n", indent.c_str());
for (int i=0; i<size; i++)
{
f << stringf("%s" " %s[%d] = ", indent.c_str(), mem_id.c_str(), i);
dump_const(f, cell->parameters["\\INIT"].extract(i*width, width));
f << stringf(";\n");
}
f << stringf("%s" "end\n", indent.c_str());
}
// create a map : "edge clk" -> expressions within that clock domain
dict<std::string, std::vector<std::string>> clk_to_lof_body;
clk_to_lof_body[""] = std::vector<std::string>();
std::string clk_domain_str;
// create a list of reg declarations
std::vector<std::string> lof_reg_declarations;
int nread_ports = cell->parameters["\\RD_PORTS"].as_int();
RTLIL::SigSpec sig_rd_clk, sig_rd_en, sig_rd_data, sig_rd_addr;
bool use_rd_clk, rd_clk_posedge, rd_transparent;
// read ports
for (int i=0; i < nread_ports; i++)
{
sig_rd_clk = cell->getPort("\\RD_CLK").extract(i);
sig_rd_en = cell->getPort("\\RD_EN").extract(i);
sig_rd_data = cell->getPort("\\RD_DATA").extract(i*width, width);
sig_rd_addr = cell->getPort("\\RD_ADDR").extract(i*abits, abits);
use_rd_clk = cell->parameters["\\RD_CLK_ENABLE"].extract(i).as_bool();
rd_clk_posedge = cell->parameters["\\RD_CLK_POLARITY"].extract(i).as_bool();
rd_transparent = cell->parameters["\\RD_TRANSPARENT"].extract(i).as_bool();
if (use_rd_clk)
{
{
std::ostringstream os;
dump_sigspec(os, sig_rd_clk);
clk_domain_str = stringf("%sedge %s", rd_clk_posedge ? "pos" : "neg", os.str().c_str());
if( clk_to_lof_body.count(clk_domain_str) == 0 )
clk_to_lof_body[clk_domain_str] = std::vector<std::string>();
}
if (!rd_transparent)
{
// for clocked read ports make something like:
// reg [..] temp_id;
// always @(posedge clk)
// if (rd_en) temp_id <= array_reg[r_addr];
// assign r_data = temp_id;
std::string temp_id = next_auto_id();
lof_reg_declarations.push_back( stringf("reg [%d:0] %s;\n", sig_rd_data.size() - 1, temp_id.c_str()) );
{
std::ostringstream os;
if (sig_rd_en != RTLIL::SigBit(true))
{
os << stringf("if (");
dump_sigspec(os, sig_rd_en);
os << stringf(") ");
}
os << stringf("%s <= %s[", temp_id.c_str(), mem_id.c_str());
dump_sigspec(os, sig_rd_addr);
os << stringf("];\n");
clk_to_lof_body[clk_domain_str].push_back(os.str());
}
{
std::ostringstream os;
dump_sigspec(os, sig_rd_data);
std::string line = stringf("assign %s = %s;\n", os.str().c_str(), temp_id.c_str());
clk_to_lof_body[""].push_back(line);
}
}
else
{
// for rd-transparent read-ports make something like:
// reg [..] temp_id;
// always @(posedge clk)
// temp_id <= r_addr;
// assign r_data = array_reg[temp_id];
std::string temp_id = next_auto_id();
lof_reg_declarations.push_back( stringf("reg [%d:0] %s;\n", sig_rd_addr.size() - 1, temp_id.c_str()) );
{
std::ostringstream os;
dump_sigspec(os, sig_rd_addr);
std::string line = stringf("%s <= %s;\n", temp_id.c_str(), os.str().c_str());
clk_to_lof_body[clk_domain_str].push_back(line);
}
{
std::ostringstream os;
dump_sigspec(os, sig_rd_data);
std::string line = stringf("assign %s = %s[%s];\n", os.str().c_str(), mem_id.c_str(), temp_id.c_str());
clk_to_lof_body[""].push_back(line);
}
}
} else {
// for non-clocked read-ports make something like:
// assign r_data = array_reg[r_addr];
std::ostringstream os, os2;
dump_sigspec(os, sig_rd_data);
dump_sigspec(os2, sig_rd_addr);
std::string line = stringf("assign %s = %s[%s];\n", os.str().c_str(), mem_id.c_str(), os2.str().c_str());
clk_to_lof_body[""].push_back(line);
}
}
int nwrite_ports = cell->parameters["\\WR_PORTS"].as_int();
RTLIL::SigSpec sig_wr_clk, sig_wr_data, sig_wr_addr, sig_wr_en;
bool wr_clk_posedge;
// write ports
for (int i=0; i < nwrite_ports; i++)
{
sig_wr_clk = cell->getPort("\\WR_CLK").extract(i);
sig_wr_data = cell->getPort("\\WR_DATA").extract(i*width, width);
sig_wr_addr = cell->getPort("\\WR_ADDR").extract(i*abits, abits);
sig_wr_en = cell->getPort("\\WR_EN").extract(i*width, width);
wr_clk_posedge = cell->parameters["\\WR_CLK_POLARITY"].extract(i).as_bool();
{
std::ostringstream os;
dump_sigspec(os, sig_wr_clk);
clk_domain_str = stringf("%sedge %s", wr_clk_posedge ? "pos" : "neg", os.str().c_str());
if( clk_to_lof_body.count(clk_domain_str) == 0 )
clk_to_lof_body[clk_domain_str] = std::vector<std::string>();
}
// make something like:
// always @(posedge clk)
// if (wr_en_bit) memid[w_addr][??] <= w_data[??];
// ...
for (int i = 0; i < GetSize(sig_wr_en); i++)
{
int start_i = i, width = 1;
SigBit wen_bit = sig_wr_en[i];
while (i+1 < GetSize(sig_wr_en) && active_sigmap(sig_wr_en[i+1]) == active_sigmap(wen_bit))
i++, width++;
if (wen_bit == State::S0)
continue;
std::ostringstream os;
if (wen_bit != State::S1)
{
os << stringf("if (");
dump_sigspec(os, wen_bit);
os << stringf(") ");
}
os << stringf("%s[", mem_id.c_str());
dump_sigspec(os, sig_wr_addr);
if (width == GetSize(sig_wr_en))
os << stringf("] <= ");
else
os << stringf("][%d:%d] <= ", i, start_i);
dump_sigspec(os, sig_wr_data.extract(start_i, width));
os << stringf(";\n");
clk_to_lof_body[clk_domain_str].push_back(os.str());
}
}
// Output Verilog that looks something like this:
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// reg [..] _3_;
// always @(posedge CLK2) begin
// _3_ <= memory[D1ADDR];
// if (A1EN)
// memory[A1ADDR] <= A1DATA;
// if (A2EN)
// memory[A2ADDR] <= A2DATA;
// ...
// end
// always @(negedge CLK1) begin
// if (C1EN)
// memory[C1ADDR] <= C1DATA;
// end
// ...
// assign D1DATA = _3_;
// assign D2DATA <= memory[D2ADDR];
// the reg ... definitions
for(auto &reg : lof_reg_declarations)
{
f << stringf("%s" "%s", indent.c_str(), reg.c_str());
}
// the block of expressions by clock domain
for(auto &pair : clk_to_lof_body)
{
std::string clk_domain = pair.first;
std::vector<std::string> lof_lines = pair.second;
if( clk_domain != "")
{
f << stringf("%s" "always @(%s) begin\n", indent.c_str(), clk_domain.c_str());
for(auto &line : lof_lines)
f << stringf("%s%s" "%s", indent.c_str(), indent.c_str(), line.c_str());
f << stringf("%s" "end\n", indent.c_str());
}
else
{
// the non-clocked assignments
for(auto &line : lof_lines)
f << stringf("%s" "%s", indent.c_str(), line.c_str());
}
}
return true;
}
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// FIXME: $_SR_[PN][PN]_, $_DLATCH_[PN]_, $_DLATCHSR_[PN][PN][PN]_
// FIXME: $sr, $dlatch, $memrd, $memwr, $fsm
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return false;
}
void dump_cell(std::ostream &f, std::string indent, RTLIL::Cell *cell)
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{
if (cell->type[0] == '$' && !noexpr) {
if (dump_cell_expr(f, indent, cell))
return;
}
dump_attributes(f, indent, cell->attributes);
f << stringf("%s" "%s", indent.c_str(), id(cell->type, false).c_str());
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if (!defparam && cell->parameters.size() > 0) {
f << stringf(" #(");
for (auto it = cell->parameters.begin(); it != cell->parameters.end(); ++it) {
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if (it != cell->parameters.begin())
f << stringf(",");
f << stringf("\n%s .%s(", indent.c_str(), id(it->first).c_str());
bool is_signed = (it->second.flags & RTLIL::CONST_FLAG_SIGNED) != 0;
dump_const(f, it->second, -1, 0, false, is_signed);
f << stringf(")");
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}
f << stringf("\n%s" ")", indent.c_str());
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}
std::string cell_name = cellname(cell);
if (cell_name != id(cell->name))
f << stringf(" %s /* %s */ (", cell_name.c_str(), id(cell->name).c_str());
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else
f << stringf(" %s (", cell_name.c_str());
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bool first_arg = true;
std::set<RTLIL::IdString> numbered_ports;
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for (int i = 1; true; i++) {
char str[16];
snprintf(str, 16, "$%d", i);
for (auto it = cell->connections().begin(); it != cell->connections().end(); ++it) {
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if (it->first != str)
continue;
if (!first_arg)
f << stringf(",");
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first_arg = false;
f << stringf("\n%s ", indent.c_str());
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dump_sigspec(f, it->second);
numbered_ports.insert(it->first);
goto found_numbered_port;
}
break;
found_numbered_port:;
}
for (auto it = cell->connections().begin(); it != cell->connections().end(); ++it) {
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if (numbered_ports.count(it->first))
continue;
if (!first_arg)
f << stringf(",");
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first_arg = false;
f << stringf("\n%s .%s(", indent.c_str(), id(it->first).c_str());
if (it->second.size() > 0)
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dump_sigspec(f, it->second);
f << stringf(")");
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}
f << stringf("\n%s" ");\n", indent.c_str());
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if (defparam && cell->parameters.size() > 0) {
2016-07-30 05:46:06 -05:00
for (auto it = cell->parameters.begin(); it != cell->parameters.end(); ++it) {
f << stringf("%sdefparam %s.%s = ", indent.c_str(), cell_name.c_str(), id(it->first).c_str());
bool is_signed = (it->second.flags & RTLIL::CONST_FLAG_SIGNED) != 0;
dump_const(f, it->second, -1, 0, false, is_signed);
f << stringf(";\n");
}
}
if (siminit && reg_ct.count(cell->type) && cell->hasPort("\\Q")) {
std::stringstream ss;
dump_reg_init(ss, cell->getPort("\\Q"));
if (!ss.str().empty()) {
f << stringf("%sinitial %s.Q", indent.c_str(), cell_name.c_str());
f << ss.str();
f << ";\n";
}
}
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}
void dump_conn(std::ostream &f, std::string indent, const RTLIL::SigSpec &left, const RTLIL::SigSpec &right)
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{
f << stringf("%s" "assign ", indent.c_str());
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dump_sigspec(f, left);
f << stringf(" = ");
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dump_sigspec(f, right);
f << stringf(";\n");
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}
void dump_proc_switch(std::ostream &f, std::string indent, RTLIL::SwitchRule *sw);
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void dump_case_body(std::ostream &f, std::string indent, RTLIL::CaseRule *cs, bool omit_trailing_begin = false)
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{
int number_of_stmts = cs->switches.size() + cs->actions.size();
if (!omit_trailing_begin && number_of_stmts >= 2)
f << stringf("%s" "begin\n", indent.c_str());
2013-01-05 04:13:26 -06:00
for (auto it = cs->actions.begin(); it != cs->actions.end(); ++it) {
if (it->first.size() == 0)
2013-01-05 04:13:26 -06:00
continue;
f << stringf("%s ", indent.c_str());
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dump_sigspec(f, it->first);
f << stringf(" = ");
2013-01-05 04:13:26 -06:00
dump_sigspec(f, it->second);
f << stringf(";\n");
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}
for (auto it = cs->switches.begin(); it != cs->switches.end(); ++it)
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dump_proc_switch(f, indent + " ", *it);
if (!omit_trailing_begin && number_of_stmts == 0)
f << stringf("%s /* empty */;\n", indent.c_str());
2013-01-05 04:13:26 -06:00
if (omit_trailing_begin || number_of_stmts >= 2)
f << stringf("%s" "end\n", indent.c_str());
2013-01-05 04:13:26 -06:00
}
void dump_proc_switch(std::ostream &f, std::string indent, RTLIL::SwitchRule *sw)
2013-01-05 04:13:26 -06:00
{
if (sw->signal.size() == 0) {
f << stringf("%s" "begin\n", indent.c_str());
for (auto it = sw->cases.begin(); it != sw->cases.end(); ++it) {
2013-01-05 04:13:26 -06:00
if ((*it)->compare.size() == 0)
dump_case_body(f, indent + " ", *it);
}
f << stringf("%s" "end\n", indent.c_str());
2013-01-05 04:13:26 -06:00
return;
}
f << stringf("%s" "casez (", indent.c_str());
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dump_sigspec(f, sw->signal);
f << stringf(")\n");
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bool got_default = false;
for (auto it = sw->cases.begin(); it != sw->cases.end(); ++it) {
if ((*it)->compare.size() == 0) {
if (got_default)
continue;
f << stringf("%s default", indent.c_str());
got_default = true;
} else {
f << stringf("%s ", indent.c_str());
2013-01-05 04:13:26 -06:00
for (size_t i = 0; i < (*it)->compare.size(); i++) {
if (i > 0)
f << stringf(", ");
2013-01-05 04:13:26 -06:00
dump_sigspec(f, (*it)->compare[i]);
}
}
f << stringf(":\n");
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dump_case_body(f, indent + " ", *it);
}
f << stringf("%s" "endcase\n", indent.c_str());
2013-01-05 04:13:26 -06:00
}
void case_body_find_regs(RTLIL::CaseRule *cs)
{
for (auto it = cs->switches.begin(); it != cs->switches.end(); ++it)
2013-01-05 04:13:26 -06:00
for (auto it2 = (*it)->cases.begin(); it2 != (*it)->cases.end(); it2++)
case_body_find_regs(*it2);
for (auto it = cs->actions.begin(); it != cs->actions.end(); ++it) {
for (auto &c : it->first.chunks())
if (c.wire != NULL)
reg_wires.insert(c.wire->name);
2013-01-05 04:13:26 -06:00
}
}
void dump_process(std::ostream &f, std::string indent, RTLIL::Process *proc, bool find_regs = false)
2013-01-05 04:13:26 -06:00
{
if (find_regs) {
case_body_find_regs(&proc->root_case);
for (auto it = proc->syncs.begin(); it != proc->syncs.end(); ++it)
2013-01-05 04:13:26 -06:00
for (auto it2 = (*it)->actions.begin(); it2 != (*it)->actions.end(); it2++) {
for (auto &c : it2->first.chunks())
if (c.wire != NULL)
reg_wires.insert(c.wire->name);
2013-01-05 04:13:26 -06:00
}
return;
}
f << stringf("%s" "always @* begin\n", indent.c_str());
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dump_case_body(f, indent, &proc->root_case, true);
std::string backup_indent = indent;
for (size_t i = 0; i < proc->syncs.size(); i++)
{
RTLIL::SyncRule *sync = proc->syncs[i];
indent = backup_indent;
if (sync->type == RTLIL::STa) {
f << stringf("%s" "always @* begin\n", indent.c_str());
} else if (sync->type == RTLIL::STi) {
f << stringf("%s" "initial begin\n", indent.c_str());
2013-01-05 04:13:26 -06:00
} else {
f << stringf("%s" "always @(", indent.c_str());
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if (sync->type == RTLIL::STp || sync->type == RTLIL::ST1)
f << stringf("posedge ");
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if (sync->type == RTLIL::STn || sync->type == RTLIL::ST0)
f << stringf("negedge ");
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dump_sigspec(f, sync->signal);
f << stringf(") begin\n");
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}
std::string ends = indent + "end\n";
indent += " ";
if (sync->type == RTLIL::ST0 || sync->type == RTLIL::ST1) {
f << stringf("%s" "if (%s", indent.c_str(), sync->type == RTLIL::ST0 ? "!" : "");
2013-01-05 04:13:26 -06:00
dump_sigspec(f, sync->signal);
f << stringf(") begin\n");
2013-01-05 04:13:26 -06:00
ends = indent + "end\n" + ends;
indent += " ";
}
if (sync->type == RTLIL::STp || sync->type == RTLIL::STn) {
for (size_t j = 0; j < proc->syncs.size(); j++) {
RTLIL::SyncRule *sync2 = proc->syncs[j];
if (sync2->type == RTLIL::ST0 || sync2->type == RTLIL::ST1) {
f << stringf("%s" "if (%s", indent.c_str(), sync2->type == RTLIL::ST1 ? "!" : "");
2013-01-05 04:13:26 -06:00
dump_sigspec(f, sync2->signal);
f << stringf(") begin\n");
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ends = indent + "end\n" + ends;
indent += " ";
}
}
}
for (auto it = sync->actions.begin(); it != sync->actions.end(); ++it) {
if (it->first.size() == 0)
2013-01-05 04:13:26 -06:00
continue;
f << stringf("%s ", indent.c_str());
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dump_sigspec(f, it->first);
f << stringf(" <= ");
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dump_sigspec(f, it->second);
f << stringf(";\n");
2013-01-05 04:13:26 -06:00
}
f << stringf("%s", ends.c_str());
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}
}
void dump_module(std::ostream &f, std::string indent, RTLIL::Module *module)
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{
reg_wires.clear();
reset_auto_counter(module);
active_module = module;
active_sigmap.set(module);
active_initdata.clear();
for (auto wire : module->wires())
if (wire->attributes.count("\\init")) {
SigSpec sig = active_sigmap(wire);
Const val = wire->attributes.at("\\init");
for (int i = 0; i < GetSize(sig) && i < GetSize(val); i++)
active_initdata[sig[i]] = val.bits.at(i);
}
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if (!module->processes.empty())
log_warning("Module %s contains unmapped RTLIL processes. RTLIL processes\n"
"can't always be mapped directly to Verilog always blocks. Unintended\n"
"changes in simulation behavior are possible! Use \"proc\" to convert\n"
2018-12-12 22:36:02 -06:00
"processes to logic networks and registers.\n", log_id(module));
f << stringf("\n");
for (auto it = module->processes.begin(); it != module->processes.end(); ++it)
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dump_process(f, indent + " ", it->second, true);
if (!noexpr)
{
std::set<std::pair<RTLIL::Wire*,int>> reg_bits;
for (auto &it : module->cells_)
2013-01-05 04:13:26 -06:00
{
RTLIL::Cell *cell = it.second;
2014-08-14 08:46:51 -05:00
if (!reg_ct.count(cell->type) || !cell->hasPort("\\Q"))
2013-01-05 04:13:26 -06:00
continue;
RTLIL::SigSpec sig = cell->getPort("\\Q");
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if (sig.is_chunk()) {
RTLIL::SigChunk chunk = sig.as_chunk();
if (chunk.wire != NULL)
for (int i = 0; i < chunk.width; i++)
reg_bits.insert(std::pair<RTLIL::Wire*,int>(chunk.wire, chunk.offset+i));
}
2013-01-05 04:13:26 -06:00
}
for (auto &it : module->wires_)
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{
RTLIL::Wire *wire = it.second;
for (int i = 0; i < wire->width; i++)
if (reg_bits.count(std::pair<RTLIL::Wire*,int>(wire, i)) == 0)
goto this_wire_aint_reg;
if (wire->width)
reg_wires.insert(wire->name);
2013-01-05 04:13:26 -06:00
this_wire_aint_reg:;
}
}
dump_attributes(f, indent, module->attributes, '\n', true);
f << stringf("%s" "module %s(", indent.c_str(), id(module->name, false).c_str());
2013-01-05 04:13:26 -06:00
bool keep_running = true;
for (int port_id = 1; keep_running; port_id++) {
keep_running = false;
for (auto it = module->wires_.begin(); it != module->wires_.end(); ++it) {
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RTLIL::Wire *wire = it->second;
if (wire->port_id == port_id) {
if (port_id != 1)
f << stringf(", ");
f << stringf("%s", id(wire->name).c_str());
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keep_running = true;
continue;
}
}
}
f << stringf(");\n");
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for (auto it = module->wires_.begin(); it != module->wires_.end(); ++it)
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dump_wire(f, indent + " ", it->second);
for (auto it = module->memories.begin(); it != module->memories.end(); ++it)
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dump_memory(f, indent + " ", it->second);
for (auto it = module->cells_.begin(); it != module->cells_.end(); ++it)
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dump_cell(f, indent + " ", it->second);
for (auto it = module->processes.begin(); it != module->processes.end(); ++it)
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dump_process(f, indent + " ", it->second);
for (auto it = module->connections().begin(); it != module->connections().end(); ++it)
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dump_conn(f, indent + " ", it->first, it->second);
f << stringf("%s" "endmodule\n", indent.c_str());
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active_module = NULL;
active_sigmap.clear();
active_initdata.clear();
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}
struct VerilogBackend : public Backend {
VerilogBackend() : Backend("verilog", "write design to Verilog file") { }
void help() YS_OVERRIDE
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{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
log("\n");
log(" write_verilog [options] [filename]\n");
log("\n");
log("Write the current design to a Verilog file.\n");
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log("\n");
log(" -norename\n");
log(" without this option all internal object names (the ones with a dollar\n");
log(" instead of a backslash prefix) are changed to short names in the\n");
log(" format '_<number>_'.\n");
log("\n");
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log(" -renameprefix <prefix>\n");
log(" insert this prefix in front of auto-generated instance names\n");
log("\n");
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log(" -noattr\n");
log(" with this option no attributes are included in the output\n");
log("\n");
log(" -attr2comment\n");
log(" with this option attributes are included as comments in the output\n");
log("\n");
log(" -noexpr\n");
log(" without this option all internal cells are converted to Verilog\n");
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log(" expressions.\n");
log("\n");
log(" -siminit\n");
log(" add initial statements with hierarchical refs to initialize FFs when\n");
log(" in -noexpr mode.\n");
log("\n");
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log(" -nodec\n");
log(" 32-bit constant values are by default dumped as decimal numbers,\n");
log(" not bit pattern. This option deactivates this feature and instead\n");
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log(" will write out all constants in binary.\n");
log("\n");
log(" -decimal\n");
log(" dump 32-bit constants in decimal and without size and radix\n");
log("\n");
log(" -nohex\n");
log(" constant values that are compatible with hex output are usually\n");
log(" dumped as hex values. This option deactivates this feature and\n");
log(" instead will write out all constants in binary.\n");
log("\n");
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log(" -nostr\n");
log(" Parameters and attributes that are specified as strings in the\n");
log(" original input will be output as strings by this back-end. This\n");
log(" deactivates this feature and instead will write string constants\n");
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log(" as binary numbers.\n");
log("\n");
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log(" -defparam\n");
log(" Use 'defparam' statements instead of the Verilog-2001 syntax for\n");
log(" cell parameters.\n");
log("\n");
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log(" -blackboxes\n");
log(" usually modules with the 'blackbox' attribute are ignored. with\n");
log(" this option set only the modules with the 'blackbox' attribute\n");
log(" are written to the output file.\n");
log("\n");
log(" -selected\n");
log(" only write selected modules. modules must be selected entirely or\n");
log(" not at all.\n");
log("\n");
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log(" -v\n");
log(" verbose output (print new names of all renamed wires and cells)\n");
log("\n");
log("Note that RTLIL processes can't always be mapped directly to Verilog\n");
log("always blocks. This frontend should only be used to export an RTLIL\n");
log("netlist, i.e. after the \"proc\" pass has been used to convert all\n");
log("processes to logic networks and registers. A warning is generated when\n");
log("this command is called on a design with RTLIL processes.\n");
log("\n");
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}
void execute(std::ostream *&f, std::string filename, std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE
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{
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log_header(design, "Executing Verilog backend.\n");
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verbose = false;
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norename = false;
noattr = false;
attr2comment = false;
noexpr = false;
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nodec = false;
nohex = false;
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nostr = false;
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defparam = false;
decimal = false;
siminit = false;
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auto_prefix = "";
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bool blackboxes = false;
bool selected = false;
auto_name_map.clear();
reg_wires.clear();
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reg_ct.clear();
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reg_ct.insert("$dff");
reg_ct.insert("$adff");
reg_ct.insert("$dffe");
reg_ct.insert("$dlatch");
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reg_ct.insert("$_DFF_N_");
reg_ct.insert("$_DFF_P_");
reg_ct.insert("$_DFF_NN0_");
reg_ct.insert("$_DFF_NN1_");
reg_ct.insert("$_DFF_NP0_");
reg_ct.insert("$_DFF_NP1_");
reg_ct.insert("$_DFF_PN0_");
reg_ct.insert("$_DFF_PN1_");
reg_ct.insert("$_DFF_PP0_");
reg_ct.insert("$_DFF_PP1_");
reg_ct.insert("$_DFFSR_NNN_");
reg_ct.insert("$_DFFSR_NNP_");
reg_ct.insert("$_DFFSR_NPN_");
reg_ct.insert("$_DFFSR_NPP_");
reg_ct.insert("$_DFFSR_PNN_");
reg_ct.insert("$_DFFSR_PNP_");
reg_ct.insert("$_DFFSR_PPN_");
reg_ct.insert("$_DFFSR_PPP_");
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size_t argidx;
for (argidx = 1; argidx < args.size(); argidx++) {
std::string arg = args[argidx];
if (arg == "-norename") {
norename = true;
continue;
}
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if (arg == "-renameprefix" && argidx+1 < args.size()) {
auto_prefix = args[++argidx];
continue;
}
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if (arg == "-noattr") {
noattr = true;
continue;
}
if (arg == "-attr2comment") {
attr2comment = true;
continue;
}
if (arg == "-noexpr") {
noexpr = true;
continue;
}
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if (arg == "-nodec") {
nodec = true;
continue;
}
if (arg == "-nohex") {
nohex = true;
continue;
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}
if (arg == "-nostr") {
nostr = true;
continue;
}
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if (arg == "-defparam") {
defparam = true;
continue;
}
if (arg == "-decimal") {
decimal = true;
continue;
}
if (arg == "-siminit") {
siminit = true;
continue;
}
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if (arg == "-blackboxes") {
blackboxes = true;
continue;
}
if (arg == "-selected") {
selected = true;
continue;
}
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if (arg == "-v") {
verbose = true;
continue;
}
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break;
}
extra_args(f, filename, args, argidx);
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design->sort();
*f << stringf("/* Generated by %s */\n", yosys_version_str);
for (auto it = design->modules_.begin(); it != design->modules_.end(); ++it) {
if (it->second->get_blackbox_attribute() != blackboxes)
continue;
if (selected && !design->selected_whole_module(it->first)) {
if (design->selected_module(it->first))
log_cmd_error("Can't handle partially selected module %s!\n", RTLIL::id2cstr(it->first));
continue;
}
log("Dumping module `%s'.\n", it->first.c_str());
dump_module(*f, "", it->second);
}
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auto_name_map.clear();
reg_wires.clear();
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reg_ct.clear();
}
} VerilogBackend;
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PRIVATE_NAMESPACE_END