2024-05-01 05:48:04 -05:00
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/*
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* yosys -- Yosys Open SYnthesis Suite
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*
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* Copyright (C) 2024 Emily Schmidt <emily@yosyshq.com>
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*
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* Permission to use, copy, modify, and/or distribute this software for any
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* purpose with or without fee is hereby granted, provided that the above
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* 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
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* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
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* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
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* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
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* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
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* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
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* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
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*
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*/
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#include "kernel/yosys.h"
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2024-06-20 10:40:02 -05:00
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#include "kernel/functionalir.h"
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#include <ctype.h>
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USING_YOSYS_NAMESPACE
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PRIVATE_NAMESPACE_BEGIN
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const char *reserved_keywords[] = {
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"alignas","alignof","and","and_eq","asm","atomic_cancel","atomic_commit",
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"atomic_noexcept","auto","bitand","bitor","bool","break","case",
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"catch","char","char16_t","char32_t","char8_t","class","co_await",
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"co_return","co_yield","compl","concept","const","const_cast","consteval",
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"constexpr","constinit","continue","decltype","default","delete",
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"do","double","dynamic_cast","else","enum","explicit","export",
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"extern","false","float","for","friend","goto","if","inline",
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"int","long","mutable","namespace","new","noexcept","not","not_eq",
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"nullptr","operator","or","or_eq","private","protected","public",
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"reflexpr","register","reinterpret_cast","requires","return","short",
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"signed","sizeof","static","static_log_assert","static_cast","struct",
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"switch","synchronized","template","this","thread_local","throw",
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"true","try","typedef","typeid","typename","union","unsigned",
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"using","virtual","void","volatile","wchar_t","while","xor","xor_eq",
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nullptr
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};
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2024-07-10 08:28:48 -05:00
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template<typename Id> struct CxxScope : public FunctionalTools::Scope<Id> {
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CxxScope() {
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for(const char **p = reserved_keywords; *p != nullptr; p++)
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this->reserve(*p);
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}
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bool is_character_legal(char c) override {
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return isascii(c) && (isalnum(c) || c == '_' || c == '$');
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}
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};
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struct CxxType {
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FunctionalIR::Sort sort;
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CxxType(FunctionalIR::Sort sort) : sort(sort) {}
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std::string to_string() const {
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if(sort.is_memory()) {
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return stringf("Memory<%d, %d>", sort.addr_width(), sort.data_width());
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} else if(sort.is_signal()) {
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return stringf("Signal<%d>", sort.width());
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} else {
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log_error("unknown sort");
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}
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}
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};
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2024-07-04 04:22:51 -05:00
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using CxxWriter = FunctionalTools::Writer;
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struct CxxStruct {
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std::string name;
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dict<IdString, CxxType> types;
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CxxScope<IdString> scope;
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CxxStruct(std::string name) : name(name)
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{
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scope.reserve("fn");
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scope.reserve("visit");
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}
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void insert(IdString name, CxxType type) {
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scope(name, name);
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types.insert({name, type});
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}
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void print(CxxWriter &f) {
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f.print("\tstruct {} {{\n", name);
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for (auto p : types) {
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f.print("\t\t{} {};\n", p.second.to_string(), scope(p.first, p.first));
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}
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f.print("\n\t\ttemplate <typename T> void visit(T &&fn) {{\n");
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for (auto p : types) {
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f.print("\t\t\tfn(\"{}\", {});\n", RTLIL::unescape_id(p.first), scope(p.first, p.first));
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}
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f.print("\t\t}}\n");
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f.print("\t}};\n\n");
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};
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std::string operator[](IdString field) {
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return scope(field, field);
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}
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};
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std::string cxx_const(RTLIL::Const const &value) {
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std::stringstream ss;
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ss << "Signal<" << value.size() << ">(" << std::hex << std::showbase;
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if(value.size() > 32) ss << "{";
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for(int i = 0; i < value.size(); i += 32) {
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if(i > 0) ss << ", ";
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ss << value.extract(i, 32).as_int();
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}
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if(value.size() > 32) ss << "}";
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ss << ")";
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return ss.str();
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}
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2024-07-17 05:53:42 -05:00
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template<class NodePrinter> struct CxxPrintVisitor : public FunctionalIR::AbstractVisitor<void> {
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using Node = FunctionalIR::Node;
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CxxWriter &f;
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NodePrinter np;
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CxxStruct &input_struct;
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CxxStruct &state_struct;
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CxxPrintVisitor(CxxWriter &f, NodePrinter np, CxxStruct &input_struct, CxxStruct &state_struct) : f(f), np(np), input_struct(input_struct), state_struct(state_struct) { }
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template<typename... Args> void print(const char *fmt, Args&&... args) {
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f.print_with(np, fmt, std::forward<Args>(args)...);
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}
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void buf(Node, Node n) override { print("{}", n); }
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void slice(Node, Node a, int offset, int out_width) override { print("{0}.slice<{2}>({1})", a, offset, out_width); }
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void zero_extend(Node, Node a, int out_width) override { print("{}.zero_extend<{}>()", a, out_width); }
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void sign_extend(Node, Node a, int out_width) override { print("{}.sign_extend<{}>()", a, out_width); }
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void concat(Node, Node a, Node b) override { print("{}.concat({})", a, b); }
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void add(Node, Node a, Node b) override { print("{} + {}", a, b); }
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void sub(Node, Node a, Node b) override { print("{} - {}", a, b); }
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void mul(Node, Node a, Node b) override { print("{} * {}", a, b); }
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void unsigned_div(Node, Node a, Node b) override { print("{} / {}", a, b); }
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void unsigned_mod(Node, Node a, Node b) override { print("{} % {}", a, b); }
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void bitwise_and(Node, Node a, Node b) override { print("{} & {}", a, b); }
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void bitwise_or(Node, Node a, Node b) override { print("{} | {}", a, b); }
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void bitwise_xor(Node, Node a, Node b) override { print("{} ^ {}", a, b); }
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void bitwise_not(Node, Node a) override { print("~{}", a); }
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void unary_minus(Node, Node a) override { print("-{}", a); }
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void reduce_and(Node, Node a) override { print("{}.all()", a); }
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void reduce_or(Node, Node a) override { print("{}.any()", a); }
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void reduce_xor(Node, Node a) override { print("{}.parity()", a); }
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void equal(Node, Node a, Node b) override { print("{} == {}", a, b); }
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void not_equal(Node, Node a, Node b) override { print("{} != {}", a, b); }
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void signed_greater_than(Node, Node a, Node b) override { print("{}.signed_greater_than({})", a, b); }
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void signed_greater_equal(Node, Node a, Node b) override { print("{}.signed_greater_equal({})", a, b); }
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void unsigned_greater_than(Node, Node a, Node b) override { print("{} > {}", a, b); }
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void unsigned_greater_equal(Node, Node a, Node b) override { print("{} >= {}", a, b); }
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void logical_shift_left(Node, Node a, Node b) override { print("{} << {}", a, b); }
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void logical_shift_right(Node, Node a, Node b) override { print("{} >> {}", a, b); }
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void arithmetic_shift_right(Node, Node a, Node b) override { print("{}.arithmetic_shift_right({})", a, b); }
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void mux(Node, Node a, Node b, Node s) override { print("{2}.any() ? {1} : {0}", a, b, s); }
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void constant(Node, RTLIL::Const const & value) override { print("{}", cxx_const(value)); }
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void input(Node, IdString name) override { print("input.{}", input_struct[name]); }
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void state(Node, IdString name) override { print("current_state.{}", state_struct[name]); }
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void memory_read(Node, Node mem, Node addr) override { print("{}.read({})", mem, addr); }
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void memory_write(Node, Node mem, Node addr, Node data) override { print("{}.write({}, {})", mem, addr, data); }
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};
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2024-06-27 07:16:57 -05:00
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struct CxxModule {
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FunctionalIR ir;
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CxxStruct input_struct, output_struct, state_struct;
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std::string module_name;
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explicit CxxModule(Module *module) :
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ir(FunctionalIR::from_module(module)),
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input_struct("Inputs"),
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output_struct("Outputs"),
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state_struct("State")
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{
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for (auto [name, sort] : ir.inputs())
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input_struct.insert(name, sort);
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for (auto [name, sort] : ir.outputs())
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output_struct.insert(name, sort);
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for (auto [name, sort] : ir.state())
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state_struct.insert(name, sort);
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module_name = CxxScope<int>().unique_name(module->name);
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}
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void write_header(CxxWriter &f) {
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f.print("#include \"sim.h\"\n\n");
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}
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void write_struct_def(CxxWriter &f) {
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f.print("struct {} {{\n", module_name);
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input_struct.print(f);
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output_struct.print(f);
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state_struct.print(f);
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f.print("\tstatic void eval(Inputs const &, Outputs &, State const &, State &);\n");
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f.print("\tstatic void initialize(State &);\n");
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f.print("}};\n\n");
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}
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void write_initial_def(CxxWriter &f) {
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f.print("void {0}::initialize({0}::State &state)\n{{\n", module_name);
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for (auto [name, sort] : ir.state()) {
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if (sort.is_signal())
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f.print("\tstate.{} = {};\n", state_struct[name], cxx_const(ir.get_initial_state_signal(name)));
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else if (sort.is_memory()) {
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const auto &contents = ir.get_initial_state_memory(name);
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f.print("\tstate.{}.fill({});\n", state_struct[name], cxx_const(contents.default_value()));
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for(auto range : contents)
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for(auto addr = range.base(); addr < range.limit(); addr++)
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f.print("\tstate.{}[{}] = {};\n", state_struct[name], addr, cxx_const(range[addr]));
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}
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}
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f.print("}}\n\n");
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}
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void write_eval_def(CxxWriter &f) {
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f.print("void {0}::eval({0}::Inputs const &input, {0}::Outputs &output, {0}::State const ¤t_state, {0}::State &next_state)\n{{\n", module_name);
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CxxScope<int> locals;
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locals.reserve("input");
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locals.reserve("output");
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locals.reserve("current_state");
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locals.reserve("next_state");
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auto node_name = [&](FunctionalIR::Node n) { return locals(n.id(), n.name()); };
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CxxPrintVisitor printVisitor(f, node_name, input_struct, state_struct);
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for (auto node : ir) {
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f.print("\t{} {} = ", CxxType(node.sort()).to_string(), node_name(node));
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node.visit(printVisitor);
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f.print(";\n");
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}
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for (auto [name, sort] : ir.state())
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f.print("\tnext_state.{} = {};\n", state_struct[name], node_name(ir.get_state_next_node(name)));
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for (auto [name, sort] : ir.outputs())
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f.print("\toutput.{} = {};\n", output_struct[name], node_name(ir.get_output_node(name)));
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f.print("}}\n\n");
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}
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};
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struct FunctionalCxxBackend : public Backend
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{
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FunctionalCxxBackend() : Backend("functional_cxx", "convert design to C++ using the functional backend") {}
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void help() override
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{
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// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
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log("\n");
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}
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void printCxx(std::ostream &stream, std::string, Module *module)
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{
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CxxWriter f(stream);
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CxxModule mod(module);
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mod.write_header(f);
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mod.write_struct_def(f);
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mod.write_eval_def(f);
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mod.write_initial_def(f);
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}
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void execute(std::ostream *&f, std::string filename, std::vector<std::string> args, RTLIL::Design *design) override
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{
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log_header(design, "Executing Functional C++ backend.\n");
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size_t argidx = 1;
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extra_args(f, filename, args, argidx, design);
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for (auto module : design->selected_modules()) {
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log("Dumping module `%s'.\n", module->name.c_str());
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printCxx(*f, filename, module);
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}
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}
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} FunctionalCxxBackend;
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PRIVATE_NAMESPACE_END
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