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|
/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
*
* 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.
*
* 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.
*
* Note that RTLIL processes can't always be mapped easily to a Verilog
* process. Therefore this frontend should only be used to export a
* Verilog netlist (i.e. after the "proc" pass has converted all processes
* to logic networks and registers).
*
*/
#include "verilog_backend.h"
#include "kernel/register.h"
#include "kernel/celltypes.h"
#include "kernel/log.h"
#include <assert.h>
#include <string>
#include <sstream>
#include <set>
#include <map>
namespace {
bool norename, noattr, attr2comment, noexpr;
int auto_name_counter, auto_name_offset, auto_name_digits;
std::map<std::string, int> auto_name_map;
std::set<std::string> reg_wires;
CellTypes reg_ct;
RTLIL::Module *active_module;
void reset_auto_counter_id(const std::string &id, bool may_rename)
{
const char *str = id.c_str();
if (*str == '$' && may_rename && !norename)
auto_name_map[id] = auto_name_counter++;
if (str[0] != '_' && str[1] != 0)
return;
for (int i = 0; str[i] != 0; i++) {
if (str[i] == '_')
continue;
if (str[i] < '0' || str[i] > '9')
return;
}
int num = atoi(str+1);
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++)
reset_auto_counter_id(it->second->name, true);
for (auto it = module->cells.begin(); it != module->cells.end(); it++) {
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++)
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++;
for (auto it = auto_name_map.begin(); it != auto_name_map.end(); it++)
log(" renaming `%s' to `_%0*d_'.\n", it->first.c_str(), auto_name_digits, auto_name_offset + it->second);
}
std::string id(std::string internal_id, bool may_rename = true)
{
const char *str = internal_id.c_str();
bool do_escape = false;
if (may_rename && auto_name_map.count(internal_id) != 0) {
char buffer[100];
snprintf(buffer, 100, "_%0*d_", auto_name_digits, auto_name_offset + auto_name_map[internal_id]);
return std::string(buffer);
}
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;
}
if (do_escape)
return "\\" + std::string(str) + " ";
return std::string(str);
}
bool is_reg_wire(RTLIL::SigSpec sig, std::string ®_name)
{
sig.optimize();
if (sig.chunks.size() != 1 || sig.chunks[0].wire == NULL)
return false;
if (reg_wires.count(sig.chunks[0].wire->name) == 0)
return false;
reg_name = id(sig.chunks[0].wire->name);
if (sig.width != sig.chunks[0].wire->width) {
if (sig.width == 1)
reg_name += stringf("[%d]", sig.chunks[0].wire->start_offset + sig.chunks[0].offset);
else
reg_name += stringf("[%d]", sig.chunks[0].wire->start_offset + sig.chunks[0].offset + sig.chunks[0].width - 1,
sig.chunks[0].wire->start_offset + sig.chunks[0].offset);
}
return true;
}
void dump_const(FILE *f, RTLIL::Const &data, int width = -1, int offset = 0, bool no_decimal = false)
{
if (width < 0)
width = data.bits.size() - offset;
if (data.str.empty() || width != (int)data.bits.size()) {
if (width == 32 && !no_decimal) {
uint32_t val = 0;
for (int i = offset+width-1; i >= offset; i--) {
assert(i < (int)data.bits.size());
if (data.bits[i] != RTLIL::S0 && data.bits[i] != RTLIL::S1)
goto dump_bits;
if (data.bits[i] == RTLIL::S1)
val |= 1 << (i - offset);
}
fprintf(f, "%d", (int)val);
} else {
dump_bits:
fprintf(f, "%d'b", width);
for (int i = offset+width-1; i >= offset; i--) {
assert(i < (int)data.bits.size());
switch (data.bits[i]) {
case RTLIL::S0: fprintf(f, "0"); break;
case RTLIL::S1: fprintf(f, "1"); break;
case RTLIL::Sx: fprintf(f, "x"); break;
case RTLIL::Sz: fprintf(f, "z"); break;
case RTLIL::Sa: fprintf(f, "z"); break;
case RTLIL::Sm: log_error("Found marker state in final netlist.");
}
}
}
} else {
fprintf(f, "\"");
for (size_t i = 0; i < data.str.size(); i++) {
if (data.str[i] == '\n')
fprintf(f, "\\n");
else if (data.str[i] == '\t')
fprintf(f, "\\t");
else if (data.str[i] < 32)
fprintf(f, "\\%03o", data.str[i]);
else if (data.str[i] == '"')
fprintf(f, "\\\"");
else
fputc(data.str[i], f);
}
fprintf(f, "\"");
}
}
void dump_sigchunk(FILE *f, RTLIL::SigChunk &chunk, bool no_decimal = false)
{
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)
fprintf(f, "%s", id(chunk.wire->name).c_str());
else if (chunk.width == 1)
fprintf(f, "%s[%d]", id(chunk.wire->name).c_str(), chunk.offset + chunk.wire->start_offset);
else
fprintf(f, "%s[%d:%d]", id(chunk.wire->name).c_str(),
chunk.offset + chunk.wire->start_offset + chunk.width - 1,
chunk.offset + chunk.wire->start_offset);
}
}
void dump_sigspec(FILE *f, RTLIL::SigSpec &sig)
{
if (sig.chunks.size() == 1) {
dump_sigchunk(f, sig.chunks[0]);
} else {
fprintf(f, "{ ");
for (auto it = sig.chunks.rbegin(); it != sig.chunks.rend(); it++) {
if (it != sig.chunks.rbegin())
fprintf(f, ", ");
dump_sigchunk(f, *it, true);
}
fprintf(f, " }");
}
}
void dump_attributes(FILE *f, std::string indent, std::map<RTLIL::IdString, RTLIL::Const> &attributes, char term = '\n')
{
if (noattr)
return;
for (auto it = attributes.begin(); it != attributes.end(); it++) {
fprintf(f, "%s" "%s %s", indent.c_str(), attr2comment ? "/*" : "(*", id(it->first).c_str());
if (it->second.bits.size() > 0) {
fprintf(f, " = ");
dump_const(f, it->second);
}
fprintf(f, " %s%c", attr2comment ? "*/" : "*)", term);
}
}
void dump_wire(FILE *f, std::string indent, RTLIL::Wire *wire)
{
dump_attributes(f, indent, wire->attributes);
if (wire->port_input && !wire->port_output)
fprintf(f, "%s" "input %s", indent.c_str(), reg_wires.count(wire->name) ? "reg " : "");
else if (!wire->port_input && wire->port_output)
fprintf(f, "%s" "output %s", indent.c_str(), reg_wires.count(wire->name) ? "reg " : "");
else if (wire->port_input && wire->port_output)
fprintf(f, "%s" "inout %s", indent.c_str(), reg_wires.count(wire->name) ? "reg " : "");
else
fprintf(f, "%s" "%s ", indent.c_str(), reg_wires.count(wire->name) ? "reg" : "wire");
if (wire->width != 1)
fprintf(f, "[%d:%d] ", wire->width - 1 + wire->start_offset, wire->start_offset);
fprintf(f, "%s;\n", id(wire->name).c_str());
}
void dump_memory(FILE *f, std::string indent, RTLIL::Memory *memory)
{
dump_attributes(f, indent, memory->attributes);
fprintf(f, "%s" "reg [%d:0] %s [%d:0];\n", indent.c_str(), memory->width-1, id(memory->name).c_str(), memory->size-1);
}
void dump_cell_expr_port(FILE *f, RTLIL::Cell *cell, std::string port, bool gen_signed = true)
{
if (gen_signed && cell->parameters.count("\\" + port + "_SIGNED") > 0 && cell->parameters["\\" + port + "_SIGNED"].as_bool()) {
fprintf(f, "$signed(");
dump_sigspec(f, cell->connections["\\" + port]);
fprintf(f, ")");
} else
dump_sigspec(f, cell->connections["\\" + port]);
}
std::string cellname(RTLIL::Cell *cell)
{
if (!norename && cell->name[0] == '$' && reg_ct.cell_known(cell->type) && cell->connections.count("\\Q") > 0)
{
RTLIL::SigSpec sig = cell->connections["\\Q"];
if (sig.width != 1 || sig.is_fully_const())
goto no_special_reg_name;
sig.optimize();
RTLIL::Wire *wire = sig.chunks[0].wire;
if (wire->name[0] != '\\')
goto no_special_reg_name;
std::string cell_name = wire->name;
size_t pos = cell_name.find('[');
if (pos != std::string::npos)
cell_name = cell_name.substr(0, pos) + "_reg" + cell_name.substr(pos);
else
cell_name = cell_name + "_reg";
if (wire->width != 1)
cell_name += stringf("[%d]", wire->start_offset + sig.chunks[0].offset);
if (active_module && active_module->count_id(cell_name) > 0)
goto no_special_reg_name;
return id(cell_name);
}
else
{
no_special_reg_name:
return id(cell->name).c_str();
}
}
void dump_cell_expr_uniop(FILE *f, std::string indent, RTLIL::Cell *cell, std::string op)
{
fprintf(f, "%s" "assign ", indent.c_str());
dump_sigspec(f, cell->connections["\\Y"]);
fprintf(f, " = %s ", op.c_str());
dump_attributes(f, "", cell->attributes, ' ');
dump_cell_expr_port(f, cell, "A", true);
fprintf(f, ";\n");
}
void dump_cell_expr_binop(FILE *f, std::string indent, RTLIL::Cell *cell, std::string op)
{
fprintf(f, "%s" "assign ", indent.c_str());
dump_sigspec(f, cell->connections["\\Y"]);
fprintf(f, " = ");
dump_cell_expr_port(f, cell, "A", true);
fprintf(f, " %s ", op.c_str());
dump_attributes(f, "", cell->attributes, ' ');
dump_cell_expr_port(f, cell, "B", true);
fprintf(f, ";\n");
}
bool dump_cell_expr(FILE *f, std::string indent, RTLIL::Cell *cell)
{
if (cell->type == "$_INV_") {
fprintf(f, "%s" "assign ", indent.c_str());
dump_sigspec(f, cell->connections["\\Y"]);
fprintf(f, " = ");
fprintf(f, "~");
dump_attributes(f, "", cell->attributes, ' ');
dump_cell_expr_port(f, cell, "A", false);
fprintf(f, ";\n");
return true;
}
if (cell->type == "$_AND_" || cell->type == "$_OR_" || cell->type == "$_XOR_") {
fprintf(f, "%s" "assign ", indent.c_str());
dump_sigspec(f, cell->connections["\\Y"]);
fprintf(f, " = ");
dump_cell_expr_port(f, cell, "A", false);
fprintf(f, " ");
if (cell->type == "$_AND_")
fprintf(f, "&");
if (cell->type == "$_OR_")
fprintf(f, "|");
if (cell->type == "$_XOR_")
fprintf(f, "^");
dump_attributes(f, "", cell->attributes, ' ');
fprintf(f, " ");
dump_cell_expr_port(f, cell, "B", false);
fprintf(f, ";\n");
return true;
}
if (cell->type == "$_MUX_") {
fprintf(f, "%s" "assign ", indent.c_str());
dump_sigspec(f, cell->connections["\\Y"]);
fprintf(f, " = ");
dump_cell_expr_port(f, cell, "S", false);
fprintf(f, " ? ");
dump_attributes(f, "", cell->attributes, ' ');
dump_cell_expr_port(f, cell, "B", false);
fprintf(f, " : ");
dump_cell_expr_port(f, cell, "A", false);
fprintf(f, ";\n");
return true;
}
if (cell->type.substr(0, 6) == "$_DFF_")
{
std::string reg_name = cellname(cell);
bool out_is_reg_wire = is_reg_wire(cell->connections["\\Q"], reg_name);
if (!out_is_reg_wire)
fprintf(f, "%s" "reg %s;\n", indent.c_str(), reg_name.c_str());
dump_attributes(f, indent, cell->attributes);
fprintf(f, "%s" "always @(%sedge ", indent.c_str(), cell->type[6] == 'P' ? "pos" : "neg");
dump_sigspec(f, cell->connections["\\C"]);
if (cell->type[7] != '_') {
fprintf(f, " or %sedge ", cell->type[7] == 'P' ? "pos" : "neg");
dump_sigspec(f, cell->connections["\\R"]);
}
fprintf(f, ")\n");
if (cell->type[7] != '_') {
fprintf(f, "%s" " if (%s", indent.c_str(), cell->type[7] == 'P' ? "" : "!");
dump_sigspec(f, cell->connections["\\R"]);
fprintf(f, ")\n");
fprintf(f, "%s" " %s <= %c;\n", indent.c_str(), reg_name.c_str(), cell->type[8]);
fprintf(f, "%s" " else\n", indent.c_str());
}
fprintf(f, "%s" " %s <= ", indent.c_str(), reg_name.c_str());
dump_cell_expr_port(f, cell, "D", false);
fprintf(f, ";\n");
if (!out_is_reg_wire) {
fprintf(f, "%s" "assign ", indent.c_str());
dump_sigspec(f, cell->connections["\\Q"]);
fprintf(f, " = %s;\n", reg_name.c_str());
}
return true;
}
#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("$ge", ">=")
HANDLE_BINOP("$gt", ">")
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("$logic_or", "||")
#undef HANDLE_UNIOP
#undef HANDLE_BINOP
if (cell->type == "$mux" || cell->type == "$pmux" || cell->type == "$pmux_safe")
{
int width = cell->parameters["\\WIDTH"].as_int();
int s_width = cell->connections["\\S"].width;
std::string reg_name = cellname(cell);
fprintf(f, "%s" "reg [%d:0] %s;\n", indent.c_str(), width-1, reg_name.c_str());
dump_attributes(f, indent, cell->attributes);
if (!noattr)
fprintf(f, "%s" "(* parallel_case *)\n", indent.c_str());
fprintf(f, "%s" "always @*\n", indent.c_str());
fprintf(f, "%s" " casez (", indent.c_str());
dump_sigspec(f, cell->connections["\\S"]);
fprintf(f, noattr ? ") // synopsys parallel_case\n" : ")\n");
for (int i = 0; i < s_width; i++)
{
fprintf(f, "%s" " %d'b", indent.c_str(), s_width);
for (int j = s_width-1; j >= 0; j--)
fprintf(f, "%c", j == i ? '1' : cell->type == "$pmux_safe" ? '0' : '?');
fprintf(f, ":\n");
fprintf(f, "%s" " %s = ", indent.c_str(), reg_name.c_str());
RTLIL::SigSpec s = cell->connections["\\B"].extract(i * width, width);
dump_sigspec(f, s);
fprintf(f, ";\n");
}
fprintf(f, "%s" " default:\n", indent.c_str());
fprintf(f, "%s" " %s = ", indent.c_str(), reg_name.c_str());
dump_sigspec(f, cell->connections["\\A"]);
fprintf(f, ";\n");
fprintf(f, "%s" " endcase\n", indent.c_str());
fprintf(f, "%s" "assign ", indent.c_str());
dump_sigspec(f, cell->connections["\\Y"]);
fprintf(f, " = %s;\n", reg_name.c_str());
return true;
}
if (cell->type == "$dff" || cell->type == "$adff")
{
RTLIL::SigSpec sig_clk, sig_arst, val_arst;
bool pol_clk, pol_arst = false;
sig_clk = cell->connections["\\CLK"];
pol_clk = cell->parameters["\\CLK_POLARITY"].as_bool();
if (cell->type == "$adff") {
sig_arst = cell->connections["\\ARST"];
pol_arst = cell->parameters["\\ARST_POLARITY"].as_bool();
val_arst = RTLIL::SigSpec(cell->parameters["\\ARST_VALUE"]);
}
std::string reg_name = cellname(cell);
bool out_is_reg_wire = is_reg_wire(cell->connections["\\Q"], reg_name);
if (!out_is_reg_wire)
fprintf(f, "%s" "reg [%d:0] %s;\n", indent.c_str(), cell->parameters["\\WIDTH"].as_int()-1, reg_name.c_str());
fprintf(f, "%s" "always @(%sedge ", indent.c_str(), pol_clk ? "pos" : "neg");
dump_sigspec(f, sig_clk);
if (cell->type == "$adff") {
fprintf(f, " or %sedge ", pol_arst ? "pos" : "neg");
dump_sigspec(f, sig_arst);
}
fprintf(f, ")\n");
if (cell->type == "$adff") {
fprintf(f, "%s" " if (%s", indent.c_str(), pol_arst ? "" : "!");
dump_sigspec(f, sig_arst);
fprintf(f, ")\n");
fprintf(f, "%s" " %s <= ", indent.c_str(), reg_name.c_str());
dump_sigspec(f, val_arst);
fprintf(f, ";\n");
fprintf(f, "%s" " else\n", indent.c_str());
}
fprintf(f, "%s" " %s <= ", indent.c_str(), reg_name.c_str());
dump_cell_expr_port(f, cell, "D", false);
fprintf(f, ";\n");
if (!out_is_reg_wire) {
fprintf(f, "%s" "assign ", indent.c_str());
dump_sigspec(f, cell->connections["\\Q"]);
fprintf(f, " = %s;\n", reg_name.c_str());
}
return true;
}
// FIXME: $memrd, $memwr, $mem, $fsm
return false;
}
void dump_cell(FILE *f, std::string indent, RTLIL::Cell *cell)
{
if (cell->type[0] == '$' && !noexpr) {
if (dump_cell_expr(f, indent, cell))
return;
}
dump_attributes(f, indent, cell->attributes);
fprintf(f, "%s" "%s", indent.c_str(), id(cell->type, false).c_str());
if (cell->parameters.size() > 0) {
fprintf(f, " #(");
for (auto it = cell->parameters.begin(); it != cell->parameters.end(); it++) {
if (it != cell->parameters.begin())
fprintf(f, ",");
fprintf(f, "\n%s .%s(", indent.c_str(), id(it->first).c_str());
dump_const(f, it->second);
fprintf(f, ")");
}
fprintf(f, "\n%s" ")", indent.c_str());
}
std::string cell_name = cellname(cell);
if (cell_name != id(cell->name))
fprintf(f, " %s /* %s */ (", cell_name.c_str(), id(cell->name).c_str());
else
fprintf(f, " %s (", cell_name.c_str());
bool first_arg = true;
std::set<std::string> numbered_ports;
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++) {
if (it->first != str)
continue;
if (!first_arg)
fprintf(f, ",");
first_arg = false;
fprintf(f, "\n%s ", indent.c_str());
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++) {
if (numbered_ports.count(it->first))
continue;
if (!first_arg)
fprintf(f, ",");
first_arg = false;
fprintf(f, "\n%s .%s(", indent.c_str(), id(it->first).c_str());
if (it->second.width > 0)
dump_sigspec(f, it->second);
fprintf(f, ")");
}
fprintf(f, "\n%s" ");\n", indent.c_str());
}
void dump_conn(FILE *f, std::string indent, RTLIL::SigSpec &left, RTLIL::SigSpec &right)
{
fprintf(f, "%s" "assign ", indent.c_str());
dump_sigspec(f, left);
fprintf(f, " = ");
dump_sigspec(f, right);
fprintf(f, ";\n");
}
void dump_proc_switch(FILE *f, std::string indent, RTLIL::SwitchRule *sw);
void dump_case_body(FILE *f, std::string indent, RTLIL::CaseRule *cs, bool omit_trailing_begin = false)
{
int number_of_stmts = cs->switches.size() + cs->actions.size();
if (!omit_trailing_begin && number_of_stmts >= 2)
fprintf(f, "%s" "begin\n", indent.c_str());
for (auto it = cs->actions.begin(); it != cs->actions.end(); it++) {
if (it->first.width == 0)
continue;
fprintf(f, "%s ", indent.c_str());
dump_sigspec(f, it->first);
fprintf(f, " = ");
dump_sigspec(f, it->second);
fprintf(f, ";\n");
}
for (auto it = cs->switches.begin(); it != cs->switches.end(); it++)
dump_proc_switch(f, indent + " ", *it);
if (!omit_trailing_begin && number_of_stmts == 0)
fprintf(f, "%s /* empty */;\n", indent.c_str());
if (omit_trailing_begin || number_of_stmts >= 2)
fprintf(f, "%s" "end\n", indent.c_str());
}
void dump_proc_switch(FILE *f, std::string indent, RTLIL::SwitchRule *sw)
{
if (sw->signal.width == 0) {
fprintf(f, "%s" "begin\n", indent.c_str());
for (auto it = sw->cases.begin(); it != sw->cases.end(); it++) {
if ((*it)->compare.size() == 0)
dump_case_body(f, indent + " ", *it);
}
fprintf(f, "%s" "end\n", indent.c_str());
return;
}
fprintf(f, "%s" "casez (", indent.c_str());
dump_sigspec(f, sw->signal);
fprintf(f, ")\n");
for (auto it = sw->cases.begin(); it != sw->cases.end(); it++) {
fprintf(f, "%s ", indent.c_str());
if ((*it)->compare.size() == 0)
fprintf(f, "default");
else {
for (size_t i = 0; i < (*it)->compare.size(); i++) {
if (i > 0)
fprintf(f, ", ");
dump_sigspec(f, (*it)->compare[i]);
}
}
fprintf(f, ":\n");
dump_case_body(f, indent + " ", *it);
}
fprintf(f, "%s" "endcase\n", indent.c_str());
}
void case_body_find_regs(RTLIL::CaseRule *cs)
{
for (auto it = cs->switches.begin(); it != cs->switches.end(); it++)
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 (size_t i = 0; i < it->first.chunks.size(); i++)
if (it->first.chunks[i].wire)
reg_wires.insert(it->first.chunks[i].wire->name);
}
}
void dump_process(FILE *f, std::string indent, RTLIL::Process *proc, bool find_regs = false)
{
if (find_regs) {
case_body_find_regs(&proc->root_case);
for (auto it = proc->syncs.begin(); it != proc->syncs.end(); it++)
for (auto it2 = (*it)->actions.begin(); it2 != (*it)->actions.end(); it2++) {
for (size_t i = 0; i < it2->first.chunks.size(); i++)
if (it2->first.chunks[i].wire)
reg_wires.insert(it2->first.chunks[i].wire->name);
}
return;
}
fprintf(f, "%s" "always @* begin\n", indent.c_str());
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) {
fprintf(f, "%s" "always @* begin\n", indent.c_str());
} else {
fprintf(f, "%s" "always @(", indent.c_str());
if (sync->type == RTLIL::STp || sync->type == RTLIL::ST1)
fprintf(f, "posedge ");
if (sync->type == RTLIL::STn || sync->type == RTLIL::ST0)
fprintf(f, "negedge ");
dump_sigspec(f, sync->signal);
fprintf(f, ") begin\n");
}
std::string ends = indent + "end\n";
indent += " ";
if (sync->type == RTLIL::ST0 || sync->type == RTLIL::ST1) {
fprintf(f, "%s" "if (%s", indent.c_str(), sync->type == RTLIL::ST0 ? "!" : "");
dump_sigspec(f, sync->signal);
fprintf(f, ") begin\n");
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) {
fprintf(f, "%s" "if (%s", indent.c_str(), sync2->type == RTLIL::ST1 ? "!" : "");
dump_sigspec(f, sync2->signal);
fprintf(f, ") begin\n");
ends = indent + "end\n" + ends;
indent += " ";
}
}
}
for (auto it = sync->actions.begin(); it != sync->actions.end(); it++) {
if (it->first.width == 0)
continue;
fprintf(f, "%s ", indent.c_str());
dump_sigspec(f, it->first);
fprintf(f, " <= ");
dump_sigspec(f, it->second);
fprintf(f, ";\n");
}
fprintf(f, "%s", ends.c_str());
}
}
void dump_module(FILE *f, std::string indent, RTLIL::Module *module)
{
reg_wires.clear();
reset_auto_counter(module);
active_module = module;
for (auto it = module->processes.begin(); it != module->processes.end(); it++)
dump_process(f, indent + " ", it->second, true);
if (!noexpr)
{
std::set<std::pair<RTLIL::Wire*,int>> reg_bits;
for (auto &it : module->cells)
{
RTLIL::Cell *cell = it.second;
if (!reg_ct.cell_known(cell->type) || cell->connections.count("\\Q") == 0)
continue;
RTLIL::SigSpec sig = cell->connections["\\Q"];
sig.optimize();
if (sig.chunks.size() == 1 && sig.chunks[0].wire)
for (int i = 0; i < sig.chunks[0].width; i++)
reg_bits.insert(std::pair<RTLIL::Wire*,int>(sig.chunks[0].wire, sig.chunks[0].offset+i));
}
for (auto &it : module->wires)
{
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;
reg_wires.insert(wire->name);
this_wire_aint_reg:;
}
}
dump_attributes(f, indent, module->attributes);
fprintf(f, "%s" "module %s(", indent.c_str(), id(module->name, false).c_str());
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++) {
RTLIL::Wire *wire = it->second;
if (wire->port_id == port_id) {
if (port_id != 1)
fprintf(f, ", ");
fprintf(f, "%s", id(wire->name).c_str());
keep_running = true;
continue;
}
}
}
fprintf(f, ");\n");
for (auto it = module->wires.begin(); it != module->wires.end(); it++)
dump_wire(f, indent + " ", it->second);
for (auto it = module->memories.begin(); it != module->memories.end(); it++)
dump_memory(f, indent + " ", it->second);
for (auto it = module->cells.begin(); it != module->cells.end(); it++)
dump_cell(f, indent + " ", it->second);
for (auto it = module->processes.begin(); it != module->processes.end(); it++)
dump_process(f, indent + " ", it->second);
for (auto it = module->connections.begin(); it != module->connections.end(); it++)
dump_conn(f, indent + " ", it->first, it->second);
fprintf(f, "%s" "endmodule\n", indent.c_str());
active_module = NULL;
}
} /* namespace */
struct VerilogBackend : public Backend {
VerilogBackend() : Backend("verilog", "write design to verilog file") { }
virtual void help()
{
// |---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");
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");
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");
log(" expressions.\n");
log("\n");
}
virtual void execute(FILE *&f, std::string filename, std::vector<std::string> args, RTLIL::Design *design)
{
log_header("Executing Verilog backend.\n");
norename = false;
noattr = false;
attr2comment = false;
noexpr = false;
reg_ct.clear();
reg_ct.setup_stdcells_mem();
reg_ct.cell_types.insert("$dff");
reg_ct.cell_types.insert("$adff");
size_t argidx;
for (argidx = 1; argidx < args.size(); argidx++) {
std::string arg = args[argidx];
if (arg == "-norename") {
norename = true;
continue;
}
if (arg == "-noattr") {
noattr = true;
continue;
}
if (arg == "-attr2comment") {
attr2comment = true;
continue;
}
if (arg == "-noexpr") {
noexpr = true;
continue;
}
break;
}
extra_args(f, filename, args, argidx);
for (auto it = design->modules.begin(); it != design->modules.end(); it++) {
log("Dumping module `%s'.\n", it->first.c_str());
if (it != design->modules.begin())
fprintf(f, "\n");
dump_module(f, "", it->second);
}
reg_ct.clear();
}
} VerilogBackend;
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