/* * Copyright (c) 1998-2013 Stephen Williams * * This source code is free software; you can redistribute it * and/or modify it in source code form under the terms of the GNU * General Public License as published by the Free Software * Foundation; either version 2 of the License, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ # include "config.h" # include # include "target.h" # include target_t::~target_t() { } void target_t::scope(const NetScope*) { } void target_t::convert_module_ports(const NetScope*) { } bool target_t::branch(const NetBranch*obj) { cerr << obj->get_fileline() << ": error: target (" << typeid(*this).name() << "): Unhandled branch." << endl; return false; } bool target_t::class_type(const NetScope*, netclass_t*obj) { cerr << "<>:0" << ": error: target (" << typeid(*this).name() << "): Unhandled class_type <" << obj << ">." << endl; return false; } void target_t::event(const NetEvent*ev) { cerr << ev->get_fileline() << ": error: target (" << typeid(*this).name() << "): Unhandled event <" << ev->name() << ">." << endl; } bool target_t::enumeration(const NetScope*, netenum_t*obj) { cerr << "<>:0" << ": error: target (" << typeid(*this).name() << "): Unhandled enumeration <" << obj << ">." << endl; return false; } bool target_t::signal_paths(const NetNet*) { return true; } bool target_t::func_def(const NetScope*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled function definition." << endl; return false; } void target_t::task_def(const NetScope*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled task definition." << endl; } void target_t::logic(const NetLogic*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled logic gate" << endl; } bool target_t::tran(const NetTran*) { cerr << "target (" << typeid(*this).name() << "): " << "TRAN devices not supported." << endl; return false; } bool target_t::bufz(const NetBUFZ*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled continuous assign (BUFZ)." << endl; return false; } void target_t::udp(const NetUDP*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled UDP." << endl; } bool target_t::ureduce(const NetUReduce*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled unary reduction logic gate." << endl; return false; } void target_t::lpm_abs(const NetAbs*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetAbs." << endl; } void target_t::lpm_add_sub(const NetAddSub*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetAddSub." << endl; } bool target_t::lpm_array_dq(const NetArrayDq*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetArrayDq." << endl; return false; } bool target_t::lpm_cast_int2(const NetCastInt2*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetCastInt2." << endl; return false; } bool target_t::lpm_cast_int4(const NetCastInt4*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetCastInt4." << endl; return false; } bool target_t::lpm_cast_real(const NetCastReal*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetCastReal." << endl; return false; } void target_t::lpm_clshift(const NetCLShift*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetCLShift." << endl; } void target_t::lpm_compare(const NetCompare*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetCompare." << endl; } void target_t::lpm_divide(const NetDivide*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetDivide." << endl; } void target_t::lpm_modulo(const NetModulo*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetModulo." << endl; } void target_t::lpm_ff(const NetFF*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetFF." << endl; } void target_t::lpm_mult(const NetMult*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetMult." << endl; } void target_t::lpm_mux(const NetMux*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetMux." << endl; } void target_t::lpm_pow(const NetPow*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetPow." << endl; } bool target_t::concat(const NetConcat*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetConcat." << endl; return false; } bool target_t::part_select(const NetPartSelect*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetPartSelect." << endl; return false; } bool target_t::replicate(const NetReplicate*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetReplicate." << endl; return false; } void target_t::net_case_cmp(const NetCaseCmp*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled case compare node." << endl; } bool target_t::net_const(const NetConst*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled CONSTANT node." << endl; return false; } bool target_t::net_sysfunction(const NetSysFunc*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetSysFunc node." << endl; return false; } bool target_t::net_function(const NetUserFunc*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetUserFunc node." << endl; return false; } bool target_t::net_literal(const NetLiteral*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled LITERAL node." << endl; return false; } void target_t::net_probe(const NetEvProbe*net) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled probe trigger node" << endl; net->dump_node(cerr, 4); } bool target_t::sign_extend(const NetSignExtend*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetSignExtend node." << endl; return false; } bool target_t::substitute(const NetSubstitute*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled NetSubstitute node." << endl; return false; } bool target_t::process(const NetProcTop*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled process(NetProcTop)." << endl; return false; } bool target_t::process(const NetAnalogTop*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled process(NetAnalogTop)." << endl; return false; } void target_t::proc_alloc(const NetAlloc*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled proc_alloc." << endl; } bool target_t::proc_assign(const NetAssign*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled procedural assignment." << endl; return false; } void target_t::proc_assign_nb(const NetAssignNB*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled non-blocking assignment." << endl; } bool target_t::proc_block(const NetBlock*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled proc_block." << endl; return false; } void target_t::proc_case(const NetCase*cur) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled case:" << endl; cur->dump(cerr, 6); } bool target_t::proc_cassign(const NetCAssign*dev) { cerr << "target (" << typeid(*this).name() << "): "; cerr << dev->get_fileline(); cerr << ": Target does not support procedural continuous assignment." << endl; return false; } bool target_t::proc_condit(const NetCondit*condit) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled conditional:" << endl; condit->dump(cerr, 6); return false; } bool target_t::proc_contribution(const NetContribution*net) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled contribution:" << endl; net->dump(cerr, 6); return false; } bool target_t::proc_deassign(const NetDeassign*dev) { cerr << dev->get_fileline() << ": internal error: " << "target (" << typeid(*this).name() << "): " << "Unhandled proc_deassign." << endl; return false; } bool target_t::proc_delay(const NetPDelay*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled proc_delay." << endl; return false; } bool target_t::proc_disable(const NetDisable*obj) { cerr << obj->get_fileline() << ": internal error: " << "target (" << typeid(*this).name() << "): " << "does not support disable statements." << endl; return false; } void target_t::proc_do_while(const NetDoWhile*net) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled do/while:" << endl; net->dump(cerr, 6); } bool target_t::proc_force(const NetForce*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled proc_force." << endl; return false; } void target_t::proc_forever(const NetForever*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled proc_forever." << endl; } void target_t::proc_free(const NetFree*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled proc_free." << endl; } bool target_t::proc_release(const NetRelease*dev) { cerr << dev->get_fileline() << ": internal error: " << "target (" << typeid(*this).name() << "): " << "Unhandled proc_release." << endl; return false; } void target_t::proc_repeat(const NetRepeat*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled proc_repeat." << endl; } bool target_t::proc_trigger(const NetEvTrig*tr) { cerr << tr->get_fileline() << ": error: target (" << typeid(*this).name() << "): Unhandled event trigger." << endl; return false; } void target_t::proc_stask(const NetSTask*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled proc_stask." << endl; } void target_t::proc_utask(const NetUTask*) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled proc_utask." << endl; } bool target_t::proc_wait(const NetEvWait*tr) { cerr << tr->get_fileline() << ": error: target (" << typeid(*this).name() << "): Unhandled event wait." << endl; return false; } void target_t::proc_while(const NetWhile*net) { cerr << "target (" << typeid(*this).name() << "): " "Unhandled while:" << endl; net->dump(cerr, 6); } int target_t::end_design(const Design*) { return 0; } expr_scan_t::~expr_scan_t() { } void expr_scan_t::expr_access_func(const NetEAccess*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_access_func." << endl; } void expr_scan_t::expr_array_pattern(const NetEArrayPattern*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_array_pattern." << endl; } void expr_scan_t::expr_const(const NetEConst*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_const." << endl; } void expr_scan_t::expr_last(const NetELast*exp) { cerr << exp->get_fileline() << ": expr_scan_t(" << typeid(*this).name() << "): " << "unhandled expr_last." << endl; } void expr_scan_t::expr_new(const NetENew*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_new." << endl; } void expr_scan_t::expr_null(const NetENull*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_null." << endl; } void expr_scan_t::expr_param(const NetEConstParam*that) { expr_const(that); } void expr_scan_t::expr_property(const NetEProperty*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_property." << endl; } void expr_scan_t::expr_creal(const NetECReal*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_creal." << endl; } void expr_scan_t::expr_rparam(const NetECRealParam*that) { expr_creal(that); } void expr_scan_t::expr_concat(const NetEConcat*that) { cerr << that->get_fileline() << ": expr_scan_t (" << typeid(*this).name() << "): unhandled expr_concat." << endl; } void expr_scan_t::expr_event(const NetEEvent*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_event." << endl; } void expr_scan_t::expr_netenum(const NetENetenum*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_netenum." << endl; } void expr_scan_t::expr_scope(const NetEScope*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_scope." << endl; } void expr_scan_t::expr_scopy(const NetEShallowCopy*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_scopy." << endl; } void expr_scan_t::expr_select(const NetESelect*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_select." << endl; } void expr_scan_t::expr_sfunc(const NetESFunc*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_sfunc." << endl; } void expr_scan_t::expr_signal(const NetESignal*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_signal." << endl; } void expr_scan_t::expr_ternary(const NetETernary*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_ternary." << endl; } void expr_scan_t::expr_ufunc(const NetEUFunc*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled function call." << endl; } void expr_scan_t::expr_unary(const NetEUnary*) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_unary." << endl; } void expr_scan_t::expr_binary(const NetEBinary*ex) { cerr << "expr_scan_t (" << typeid(*this).name() << "): " "unhandled expr_binary: " <<*ex << endl; }