void EmitCSyms::emitSymImp() { UINFO(6,__FUNCTION__<<": "<<endl); string filename = v3Global.opt.makeDir()+"/"+symClassName()+".cpp"; AstCFile* cfilep = newCFile(filename, true/*slow*/, true/*source*/); cfilep->support(true); V3OutCFile cf (filename); m_ofp = &cf; ofp()->putsHeader(); puts("// DESCR" "IPTION: Verilator output: Symbol table implementation internals\n"); puts("\n"); // Includes puts("#include \""+symClassName()+".h\"\n"); for (AstNodeModule* nodep = v3Global.rootp()->modulesp(); nodep; nodep=nodep->nextp()->castNodeModule()) { puts("#include \""+modClassName(nodep)+".h\"\n"); } //puts("\n// GLOBALS\n"); puts("\n// FUNCTIONS\n"); puts(symClassName()+"::"+symClassName()+"("+topClassName()+"* topp, const char* namep)\n"); puts("\t// Setup locals\n"); puts("\t: __Vm_namep(namep)\n"); // No leak, as we get destroyed when the top is destroyed puts("\t, __Vm_activity(false)\n"); puts("\t, __Vm_didInit(false)\n"); puts("\t// Setup submodule names\n"); char comma=','; for (vector<ScopeModPair>::iterator it = m_scopes.begin(); it != m_scopes.end(); ++it) { AstScope* scopep = it->first; AstNodeModule* modp = it->second; if (modp->isTop()) { } else { ofp()->printf("\t%c %-30s ", comma, scopep->nameDotless().c_str()); puts("(Verilated::catName(topp->name(),"); // The "." is added by catName putsQuoted(scopep->prettyName()); puts("))\n"); comma=','; } } puts("{\n"); puts("// Pointer to top level\n"); puts("TOPp = topp;\n"); puts("// Setup each module's pointers to their submodules\n"); for (vector<ScopeModPair>::iterator it = m_scopes.begin(); it != m_scopes.end(); ++it) { AstScope* scopep = it->first; AstNodeModule* modp = it->second; if (!modp->isTop()) { string arrow = scopep->name(); string::size_type pos; while ((pos=arrow.find(".")) != string::npos) { arrow.replace(pos, 1, "->"); } if (arrow.substr(0,5) == "TOP->") arrow.replace(0,5,"TOPp->"); ofp()->printf("%-30s ", arrow.c_str()); puts(" = &"); puts(scopep->nameDotless()+";\n"); } } puts("// Setup each module's pointer back to symbol table (for public functions)\n"); puts("TOPp->__Vconfigure(this, true);\n"); for (vector<ScopeModPair>::iterator it = m_scopes.begin(); it != m_scopes.end(); ++it) { AstScope* scopep = it->first; AstNodeModule* modp = it->second; if (!modp->isTop()) { // first is used by AstCoverDecl's call to __vlCoverInsert bool first = !modp->user1(); modp->user1(true); puts(scopep->nameDotless()+".__Vconfigure(this, " +(first?"true":"false") +");\n"); } } puts("// Setup scope names\n"); for (ScopeNames::iterator it = m_scopeNames.begin(); it != m_scopeNames.end(); ++it) { puts("__Vscope_"+it->second.m_symName+".configure(this,name(),"); putsQuoted(it->second.m_prettyName); puts(");\n"); } if (v3Global.dpi()) { puts("// Setup export functions\n"); puts("for (int __Vfinal=0; __Vfinal<2; __Vfinal++) {\n"); for (ScopeFuncs::iterator it = m_scopeFuncs.begin(); it != m_scopeFuncs.end(); ++it) { AstScopeName* scopep = it->second.m_scopep; AstCFunc* funcp = it->second.m_funcp; AstNodeModule* modp = it->second.m_modp; if (funcp->dpiExport()) { puts("__Vscope_"+scopep->scopeSymName()+".exportInsert(__Vfinal,"); putsQuoted(funcp->cname()); puts(", (void*)(&"); puts(modClassName(modp)); puts("::"); puts(funcp->name()); puts("));\n"); } } // It would be less code if each module inserted its own variables. // Someday. For now public isn't common. for (ScopeVars::iterator it = m_scopeVars.begin(); it != m_scopeVars.end(); ++it) { AstNodeModule* modp = it->second.m_modp; AstScope* scopep = it->second.m_scopep; AstVar* varp = it->second.m_varp; // int pdim=0; int udim=0; string bounds; if (AstBasicDType* basicp = varp->basicp()) { // Range is always first, it's not in "C" order if (basicp->isRanged()) { bounds += " ,"; bounds += cvtToStr(basicp->msb()); bounds += ","; bounds += cvtToStr(basicp->lsb()); pdim++; } for (AstNodeDType* dtypep=varp->dtypep(); dtypep; ) { dtypep = dtypep->skipRefp(); // Skip AstRefDType/AstTypedef, or return same node if (AstNodeArrayDType* adtypep = dtypep->castNodeArrayDType()) { bounds += " ,"; bounds += cvtToStr(adtypep->msb()); bounds += ","; bounds += cvtToStr(adtypep->lsb()); if (dtypep->castPackArrayDType()) pdim++; else udim++; dtypep = adtypep->subDTypep(); } else break; // AstBasicDType - nothing below, 1 } } // if (pdim>1 || udim>1) { puts("//UNSUP "); // VerilatedImp can't deal with >2d or packed arrays } puts("__Vscope_"+it->second.m_scopeName+".varInsert(__Vfinal,"); putsQuoted(it->second.m_varBasePretty); puts(", &("); if (modp->isTop()) { puts(scopep->nameDotless()); puts("p->"); } else { puts(scopep->nameDotless()); puts("."); } puts(varp->name()); puts("), "); puts(varp->vlEnumType()); // VLVT_UINT32 etc puts(","); puts(varp->vlEnumDir()); // VLVD_IN etc if (varp->isSigUserRWPublic()) puts("|VLVF_PUB_RW"); else if (varp->isSigUserRdPublic()) puts("|VLVF_PUB_RD"); puts(","); puts(cvtToStr(pdim+udim)); puts(bounds); puts(");\n"); } puts("}\n"); } puts("}\n"); if (v3Global.opt.savable() ) { puts("\n"); for (int de=0; de<2; ++de) { string classname = de ? "VerilatedDeserialize" : "VerilatedSerialize"; string funcname = de ? "__Vdeserialize" : "__Vserialize"; string op = de ? ">>" : "<<"; puts("void "+symClassName()+"::"+funcname+"("+classname+"& os) {\n"); puts( "// LOCAL STATE\n"); // __Vm_namep presumably already correct puts( "os"+op+"__Vm_activity;\n"); puts( "os"+op+"__Vm_didInit;\n"); puts( "// SUBCELL STATE\n"); for (vector<ScopeModPair>::iterator it = m_scopes.begin(); it != m_scopes.end(); ++it) { AstScope* scopep = it->first; AstNodeModule* modp = it->second; if (!modp->isTop()) { puts( scopep->nameDotless()+"."+funcname+"(os);\n"); } } puts("}\n"); } } }
void EmitCSyms::emitSymHdr() { UINFO(6,__FUNCTION__<<": "<<endl); string filename = v3Global.opt.makeDir()+"/"+symClassName()+".h"; newCFile(filename, true/*slow*/, false/*source*/); V3OutCFile hf (filename); m_ofp = &hf; ofp()->putsHeader(); puts("// DESCR" "IPTION: Verilator output: Symbol table internal header\n"); puts("//\n"); puts("// Internal details; most calling programs do not need this header\n"); puts("\n"); puts("#ifndef _"+symClassName()+"_H_\n"); puts("#define _"+symClassName()+"_H_\n"); puts("\n"); if (optSystemPerl()) puts("#include \"systemperl.h\"\n"); else if (optSystemC()) puts("#include \"systemc.h\"\n"); if (optSystemPerl() || optSystemC()) { puts("#include \"verilated_sc.h\"\n"); } if (v3Global.needHeavy()) { puts("#include \"verilated_heavy.h\"\n"); } else { puts("#include \"verilated.h\"\n"); } // for puts("\n// INCLUDE MODULE CLASSES\n"); for (AstNodeModule* nodep = v3Global.rootp()->modulesp(); nodep; nodep=nodep->nextp()->castNodeModule()) { puts("#include \""+modClassName(nodep)+".h\"\n"); } if (v3Global.dpi()) { puts ("\n// DPI TYPES for DPI Export callbacks (Internal use)\n"); map<string,int> types; // Remove duplicates and sort for (ScopeFuncs::iterator it = m_scopeFuncs.begin(); it != m_scopeFuncs.end(); ++it) { AstCFunc* funcp = it->second.m_funcp; if (funcp->dpiExport()) { string cbtype = v3Global.opt.prefix()+"__Vcb_"+funcp->cname()+"_t"; types["typedef void (*"+cbtype+") ("+cFuncArgs(funcp)+");\n"] = 1; } } for (map<string,int>::iterator it = types.begin(); it != types.end(); ++it) { puts(it->first); } } puts("\n// SYMS CLASS\n"); puts((string)"class "+symClassName()+" : public VerilatedSyms {\n"); ofp()->putsPrivate(false); // public: puts("\n// LOCAL STATE\n"); ofp()->putAlign(V3OutFile::AL_AUTO, sizeof(vluint64_t)); puts("const char* __Vm_namep;\n"); // Must be before subcells, as constructor order needed before _vlCoverInsert. ofp()->putAlign(V3OutFile::AL_AUTO, sizeof(bool)); puts("bool\t__Vm_activity;\t\t///< Used by trace routines to determine change occurred\n"); ofp()->putAlign(V3OutFile::AL_AUTO, sizeof(bool)); puts("bool\t__Vm_didInit;\n"); ofp()->putAlign(V3OutFile::AL_AUTO, sizeof(vluint64_t)); puts("\n// SUBCELL STATE\n"); for (vector<ScopeModPair>::iterator it = m_scopes.begin(); it != m_scopes.end(); ++it) { AstScope* scopep = it->first; AstNodeModule* modp = it->second; if (modp->isTop()) { ofp()->printf("%-30s ", (modClassName(modp)+"*").c_str()); puts(scopep->nameDotless()+"p;\n"); } else { ofp()->printf("%-30s ", (modClassName(modp)+"").c_str()); puts(scopep->nameDotless()+";\n"); } } puts("\n// COVERAGE\n"); if (m_coverBins) { ofp()->putAlign(V3OutFile::AL_AUTO, sizeof(uint32_t)); puts("uint32_t\t__Vcoverage["); puts(cvtToStr(m_coverBins)); puts("];\n"); } puts("\n// SCOPE NAMES\n"); for (ScopeNames::iterator it = m_scopeNames.begin(); it != m_scopeNames.end(); ++it) { puts("VerilatedScope __Vscope_"+it->second.m_symName+";\n"); } puts("\n// CREATORS\n"); puts(symClassName()+"("+topClassName()+"* topp, const char* namep);\n"); puts((string)"~"+symClassName()+"() {};\n"); puts("\n// METHODS\n"); puts("inline const char* name() { return __Vm_namep; }\n"); puts("inline bool getClearActivity() { bool r=__Vm_activity; __Vm_activity=false; return r;}\n"); if (v3Global.opt.savable() ) { puts("void __Vserialize(VerilatedSerialize& os);\n"); puts("void __Vdeserialize(VerilatedDeserialize& os);\n"); } puts("\n"); puts("} VL_ATTR_ALIGNED(64);\n"); puts("\n"); puts("#endif /*guard*/\n"); }