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//----------------------------------------------------------------------// Copyright 2007-2011 Mentor Graphics Corporation// Copyright 2007-2010 Cadence Design Systems, Inc.// Copyright 2010 Synopsys, Inc.// All Rights Reserved Worldwide//// Licensed under the Apache License, Version 2.0 (the// "License"); you may not use this file except in// compliance with the License. You may obtain a copy of// the License at//// http://www.apache.org/licenses/LICENSE-2.0//// Unless required by applicable law or agreed to in// writing, software distributed under the License is// distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR// CONDITIONS OF ANY KIND, either express or implied. See// the License for the specific language governing// permissions and limitations under the License.//----------------------------------------------------------------------//-----------------------------------------------------------------------------//// Title: TLM Implementation Port Declaration Macros//// The TLM implementation declaration macros provide a way for components// to provide multiple implementation ports of the same implementation// interface. When an implementation port is defined using the built-in// set of imps, there must be exactly one implementation of the interface.//// For example, if a component needs to provide a put implementation then// it would have an implementation port defined like:////| class mycomp extends uvm_component;//| uvm_put_imp#(data_type, mycomp) put_imp;//| ...//| virtual task put (data_type t);//| ...//| endtask//| endclass//// There are times, however, when you need more than one implementation// for an interface. This set of declarations allow you to easily create// a new implementation class to allow for multiple implementations. Although// the new implementation class is a different class, it can be bound to// the same types of exports and ports as the original class. Extending// the put example above, let's say that mycomp needs to provide two put// implementation ports. In that case, you would do something like:////| //Define two new put interfaces which are compatible with uvm_put_ports//| //and uvm_put_exports.//|//| `uvm_put_imp_decl(_1)//| `uvm_put_imp_decl(_2)//|//| class my_put_imp#(type T=int) extends uvm_component;//| uvm_put_imp_1#(T,my_put_imp#(T)) put_imp1;//| uvm_put_imp_2#(T,my_put_imp#(T)) put_imp2;//| ...//| function void put_1 (input T t);//| //puts coming into put_imp1//| ...//| endfunction//| function void put_2(input T t);//| //puts coming into put_imp2//| ...//| endfunction//| endclass//// The important thing to note is that each `uvm_<interface>_imp_decl creates a// new class of type uvm_<interface>_imp<suffix>, where suffix is the input// argument to the macro. For this reason, you will typically want to put// these macros in a separate package to avoid collisions and to allow// sharing of the definitions.//-----------------------------------------------------------------------------// MACRO: `uvm_blocking_put_imp_decl////| `uvm_blocking_put_imp_decl(SFX)//// Define the class uvm_blocking_put_impSFX for providing blocking put// implementations. ~SFX~ is the suffix for the new class type.`define uvm_blocking_put_imp_decl(SFX) \class uvm_blocking_put_imp``SFX #(type T=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(T,T)); \`UVM_IMP_COMMON(`UVM_TLM_BLOCKING_PUT_MASK,`"uvm_blocking_put_imp``SFX`",IMP) \`UVM_BLOCKING_PUT_IMP_SFX(SFX, m_imp, T, t) \endclass// MACRO: `uvm_nonblocking_put_imp_decl////| `uvm_nonblocking_put_imp_decl(SFX)//// Define the class uvm_nonblocking_put_impSFX for providing non-blocking// put implementations. ~SFX~ is the suffix for the new class type.`define uvm_nonblocking_put_imp_decl(SFX) \class uvm_nonblocking_put_imp``SFX #(type T=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(T,T)); \`UVM_IMP_COMMON(`UVM_TLM_NONBLOCKING_PUT_MASK,`"uvm_nonblocking_put_imp``SFX`",IMP) \`UVM_NONBLOCKING_PUT_IMP_SFX( SFX, m_imp, T, t) \endclass// MACRO: `uvm_put_imp_decl////| `uvm_put_imp_decl(SFX)//// Define the class uvm_put_impSFX for providing both blocking and// non-blocking put implementations. ~SFX~ is the suffix for the new class// type.`define uvm_put_imp_decl(SFX) \class uvm_put_imp``SFX #(type T=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(T,T)); \`UVM_IMP_COMMON(`UVM_TLM_PUT_MASK,`"uvm_put_imp``SFX`",IMP) \`UVM_BLOCKING_PUT_IMP_SFX(SFX, m_imp, T, t) \`UVM_NONBLOCKING_PUT_IMP_SFX(SFX, m_imp, T, t) \endclass// MACRO: `uvm_blocking_get_imp_decl////| `uvm_blocking_get_imp_decl(SFX)//// Define the class uvm_blocking_get_impSFX for providing blocking get// implementations. ~SFX~ is the suffix for the new class type.`define uvm_blocking_get_imp_decl(SFX) \class uvm_blocking_get_imp``SFX #(type T=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(T,T)); \`UVM_IMP_COMMON(`UVM_TLM_BLOCKING_GET_MASK,`"uvm_blocking_get_imp``SFX`",IMP) \`UVM_BLOCKING_GET_IMP_SFX(SFX, m_imp, T, t) \endclass// MACRO: `uvm_nonblocking_get_imp_decl////| `uvm_nonblocking_get_imp_decl(SFX)//// Define the class uvm_nonblocking_get_impSFX for providing non-blocking// get implementations. ~SFX~ is the suffix for the new class type.`define uvm_nonblocking_get_imp_decl(SFX) \class uvm_nonblocking_get_imp``SFX #(type T=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(T,T)); \`UVM_IMP_COMMON(`UVM_TLM_NONBLOCKING_GET_MASK,`"uvm_nonblocking_get_imp``SFX`",IMP) \`UVM_NONBLOCKING_GET_IMP_SFX(SFX, m_imp, T, t) \endclass// MACRO: `uvm_get_imp_decl////| `uvm_get_imp_decl(SFX)//// Define the class uvm_get_impSFX for providing both blocking and// non-blocking get implementations. ~SFX~ is the suffix for the new class// type.`define uvm_get_imp_decl(SFX) \class uvm_get_imp``SFX #(type T=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(T,T)); \`UVM_IMP_COMMON(`UVM_TLM_GET_MASK,`"uvm_get_imp``SFX`",IMP) \`UVM_BLOCKING_GET_IMP_SFX(SFX, m_imp, T, t) \`UVM_NONBLOCKING_GET_IMP_SFX(SFX, m_imp, T, t) \endclass// MACRO: `uvm_blocking_peek_imp_decl////| `uvm_blocking_peek_imp_decl(SFX)//// Define the class uvm_blocking_peek_impSFX for providing blocking peek// implementations. ~SFX~ is the suffix for the new class type.`define uvm_blocking_peek_imp_decl(SFX) \class uvm_blocking_peek_imp``SFX #(type T=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(T,T)); \`UVM_IMP_COMMON(`UVM_TLM_BLOCKING_PEEK_MASK,`"uvm_blocking_peek_imp``SFX`",IMP) \`UVM_BLOCKING_PEEK_IMP_SFX(SFX, m_imp, T, t) \endclass// MACRO: `uvm_nonblocking_peek_imp_decl////| `uvm_nonblocking_peek_imp_decl(SFX)//// Define the class uvm_nonblocking_peek_impSFX for providing non-blocking// peek implementations. ~SFX~ is the suffix for the new class type.`define uvm_nonblocking_peek_imp_decl(SFX) \class uvm_nonblocking_peek_imp``SFX #(type T=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(T,T)); \`UVM_IMP_COMMON(`UVM_TLM_NONBLOCKING_PEEK_MASK,`"uvm_nonblocking_peek_imp``SFX`",IMP) \`UVM_NONBLOCKING_PEEK_IMP_SFX(SFX, m_imp, T, t) \endclass// MACRO: `uvm_peek_imp_decl////| `uvm_peek_imp_decl(SFX)//// Define the class uvm_peek_impSFX for providing both blocking and// non-blocking peek implementations. ~SFX~ is the suffix for the new class// type.`define uvm_peek_imp_decl(SFX) \class uvm_peek_imp``SFX #(type T=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(T,T)); \`UVM_IMP_COMMON(`UVM_TLM_PEEK_MASK,`"uvm_peek_imp``SFX`",IMP) \`UVM_BLOCKING_PEEK_IMP_SFX(SFX, m_imp, T, t) \`UVM_NONBLOCKING_PEEK_IMP_SFX(SFX, m_imp, T, t) \endclass// MACRO: `uvm_blocking_get_peek_imp_decl////| `uvm_blocking_get_peek_imp_decl(SFX)//// Define the class uvm_blocking_get_peek_impSFX for providing the// blocking get_peek implementation.`define uvm_blocking_get_peek_imp_decl(SFX) \class uvm_blocking_get_peek_imp``SFX #(type T=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(T,T)); \`UVM_IMP_COMMON(`UVM_TLM_BLOCKING_GET_PEEK_MASK,`"uvm_blocking_get_peek_imp``SFX`",IMP) \`UVM_BLOCKING_GET_IMP_SFX(SFX, m_imp, T, t) \`UVM_BLOCKING_PEEK_IMP_SFX(SFX, m_imp, T, t) \endclass// MACRO: `uvm_nonblocking_get_peek_imp_decl////| `uvm_nonblocking_get_peek_imp_decl(SFX)//// Define the class uvm_nonblocking_get_peek_impSFX for providing non-blocking// get_peek implementation.`define uvm_nonblocking_get_peek_imp_decl(SFX) \class uvm_nonblocking_get_peek_imp``SFX #(type T=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(T,T)); \`UVM_IMP_COMMON(`UVM_TLM_NONBLOCKING_GET_PEEK_MASK,`"uvm_nonblocking_get_peek_imp``SFX`",IMP) \`UVM_NONBLOCKING_GET_IMP_SFX(SFX, m_imp, T, t) \`UVM_NONBLOCKING_PEEK_IMP_SFX(SFX, m_imp, T, t) \endclass// MACRO: `uvm_get_peek_imp_decl////| `uvm_get_peek_imp_decl(SFX)//// Define the class uvm_get_peek_impSFX for providing both blocking and// non-blocking get_peek implementations. ~SFX~ is the suffix for the new class// type.`define uvm_get_peek_imp_decl(SFX) \class uvm_get_peek_imp``SFX #(type T=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(T,T)); \`UVM_IMP_COMMON(`UVM_TLM_GET_PEEK_MASK,`"uvm_get_peek_imp``SFX`",IMP) \`UVM_BLOCKING_GET_IMP_SFX(SFX, m_imp, T, t) \`UVM_NONBLOCKING_GET_IMP_SFX(SFX, m_imp, T, t) \`UVM_BLOCKING_PEEK_IMP_SFX(SFX, m_imp, T, t) \`UVM_NONBLOCKING_PEEK_IMP_SFX(SFX, m_imp, T, t) \endclass// MACRO: `uvm_blocking_master_imp_decl////| `uvm_blocking_master_imp_decl(SFX)//// Define the class uvm_blocking_master_impSFX for providing the// blocking master implementation.`define uvm_blocking_master_imp_decl(SFX) \class uvm_blocking_master_imp``SFX #(type REQ=int, type RSP=int, type IMP=int, \type REQ_IMP=IMP, type RSP_IMP=IMP) \extends uvm_port_base #(uvm_tlm_if_base #(REQ, RSP)); \typedef IMP this_imp_type; \typedef REQ_IMP this_req_type; \typedef RSP_IMP this_rsp_type; \`UVM_MS_IMP_COMMON(`UVM_TLM_BLOCKING_MASTER_MASK,`"uvm_blocking_master_imp``SFX`") \\`UVM_BLOCKING_PUT_IMP_SFX(SFX, m_req_imp, REQ, t) // req \\`UVM_BLOCKING_GET_IMP_SFX(SFX, m_rsp_imp, RSP, t) // rsp \`UVM_BLOCKING_PEEK_IMP_SFX(SFX, m_rsp_imp, RSP, t) // rsp \\endclass// MACRO: `uvm_nonblocking_master_imp_decl////| `uvm_nonblocking_master_imp_decl(SFX)//// Define the class uvm_nonblocking_master_impSFX for providing the// non-blocking master implementation.`define uvm_nonblocking_master_imp_decl(SFX) \class uvm_nonblocking_master_imp``SFX #(type REQ=int, type RSP=int, type IMP=int, \type REQ_IMP=IMP, type RSP_IMP=IMP) \extends uvm_port_base #(uvm_tlm_if_base #(REQ, RSP)); \typedef IMP this_imp_type; \typedef REQ_IMP this_req_type; \typedef RSP_IMP this_rsp_type; \`UVM_MS_IMP_COMMON(`UVM_TLM_NONBLOCKING_MASTER_MASK,`"uvm_nonblocking_master_imp``SFX`") \\`UVM_NONBLOCKING_PUT_IMP_SFX(SFX, m_req_imp, REQ, t) // req \\`UVM_NONBLOCKING_GET_IMP_SFX(SFX, m_rsp_imp, RSP, t) // rsp \`UVM_NONBLOCKING_PEEK_IMP_SFX(SFX, m_rsp_imp, RSP, t) // rsp \\endclass// MACRO: `uvm_master_imp_decl////| `uvm_master_imp_decl(SFX)//// Define the class uvm_master_impSFX for providing both blocking and// non-blocking master implementations. ~SFX~ is the suffix for the new class// type.`define uvm_master_imp_decl(SFX) \class uvm_master_imp``SFX #(type REQ=int, type RSP=int, type IMP=int, \type REQ_IMP=IMP, type RSP_IMP=IMP) \extends uvm_port_base #(uvm_tlm_if_base #(REQ, RSP)); \typedef IMP this_imp_type; \typedef REQ_IMP this_req_type; \typedef RSP_IMP this_rsp_type; \`UVM_MS_IMP_COMMON(`UVM_TLM_MASTER_MASK,`"uvm_master_imp``SFX`") \\`UVM_BLOCKING_PUT_IMP_SFX(SFX, m_req_imp, REQ, t) // req \`UVM_NONBLOCKING_PUT_IMP_SFX(SFX, m_req_imp, REQ, t) // req \\`UVM_BLOCKING_GET_IMP_SFX(SFX, m_rsp_imp, RSP, t) // rsp \`UVM_BLOCKING_PEEK_IMP_SFX(SFX, m_rsp_imp, RSP, t) // rsp \`UVM_NONBLOCKING_GET_IMP_SFX(SFX, m_rsp_imp, RSP, t) // rsp \`UVM_NONBLOCKING_PEEK_IMP_SFX(SFX, m_rsp_imp, RSP, t) // rsp \\endclass// MACRO: `uvm_blocking_slave_imp_decl////| `uvm_blocking_slave_imp_decl(SFX)//// Define the class uvm_blocking_slave_impSFX for providing the// blocking slave implementation.`define uvm_blocking_slave_imp_decl(SFX) \class uvm_blocking_slave_imp``SFX #(type REQ=int, type RSP=int, type IMP=int, \type REQ_IMP=IMP, type RSP_IMP=IMP) \extends uvm_port_base #(uvm_tlm_if_base #(RSP, REQ)); \typedef IMP this_imp_type; \typedef REQ_IMP this_req_type; \typedef RSP_IMP this_rsp_type; \`UVM_MS_IMP_COMMON(`UVM_TLM_BLOCKING_SLAVE_MASK,`"uvm_blocking_slave_imp``SFX`") \\`UVM_BLOCKING_PUT_IMP_SFX(SFX, m_rsp_imp, RSP, t) // rsp \\`UVM_BLOCKING_GET_IMP_SFX(SFX, m_req_imp, REQ, t) // req \`UVM_BLOCKING_PEEK_IMP_SFX(SFX, m_req_imp, REQ, t) // req \\endclass// MACRO: `uvm_nonblocking_slave_imp_decl////| `uvm_nonblocking_slave_imp_decl(SFX)//// Define the class uvm_nonblocking_slave_impSFX for providing the// non-blocking slave implementation.`define uvm_nonblocking_slave_imp_decl(SFX) \class uvm_nonblocking_slave_imp``SFX #(type REQ=int, type RSP=int, type IMP=int, \type REQ_IMP=IMP, type RSP_IMP=IMP) \extends uvm_port_base #(uvm_tlm_if_base #(RSP, REQ)); \typedef IMP this_imp_type; \typedef REQ_IMP this_req_type; \typedef RSP_IMP this_rsp_type; \`UVM_MS_IMP_COMMON(`UVM_TLM_NONBLOCKING_SLAVE_MASK,`"uvm_nonblocking_slave_imp``SFX`") \\`UVM_NONBLOCKING_PUT_IMP_SFX(SFX, m_rsp_imp, RSP, t) // rsp \\`UVM_NONBLOCKING_GET_IMP_SFX(SFX, m_req_imp, REQ, t) // req \`UVM_NONBLOCKING_PEEK_IMP_SFX(SFX, m_req_imp, REQ, t) // req \\endclass// MACRO: `uvm_slave_imp_decl////| `uvm_slave_imp_decl(SFX)//// Define the class uvm_slave_impSFX for providing both blocking and// non-blocking slave implementations. ~SFX~ is the suffix for the new class// type.`define uvm_slave_imp_decl(SFX) \class uvm_slave_imp``SFX #(type REQ=int, type RSP=int, type IMP=int, \type REQ_IMP=IMP, type RSP_IMP=IMP) \extends uvm_port_base #(uvm_tlm_if_base #(RSP, REQ)); \typedef IMP this_imp_type; \typedef REQ_IMP this_req_type; \typedef RSP_IMP this_rsp_type; \`UVM_MS_IMP_COMMON(`UVM_TLM_SLAVE_MASK,`"uvm_slave_imp``SFX`") \\`UVM_BLOCKING_PUT_IMP_SFX(SFX, m_rsp_imp, RSP, t) // rsp \`UVM_NONBLOCKING_PUT_IMP_SFX(SFX, m_rsp_imp, RSP, t) // rsp \\`UVM_BLOCKING_GET_IMP_SFX(SFX, m_req_imp, REQ, t) // req \`UVM_BLOCKING_PEEK_IMP_SFX(SFX, m_req_imp, REQ, t) // req \`UVM_NONBLOCKING_GET_IMP_SFX(SFX, m_req_imp, REQ, t) // req \`UVM_NONBLOCKING_PEEK_IMP_SFX(SFX, m_req_imp, REQ, t) // req \\endclass// MACRO: `uvm_blocking_transport_imp_decl////| `uvm_blocking_transport_imp_decl(SFX)//// Define the class uvm_blocking_transport_impSFX for providing the// blocking transport implementation.`define uvm_blocking_transport_imp_decl(SFX) \class uvm_blocking_transport_imp``SFX #(type REQ=int, type RSP=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(REQ, RSP)); \`UVM_IMP_COMMON(`UVM_TLM_BLOCKING_TRANSPORT_MASK,`"uvm_blocking_transport_imp``SFX`",IMP) \`UVM_BLOCKING_TRANSPORT_IMP_SFX(SFX, m_imp, REQ, RSP, req, rsp) \endclass// MACRO: `uvm_nonblocking_transport_imp_decl////| `uvm_nonblocking_transport_imp_decl(SFX)//// Define the class uvm_nonblocking_transport_impSFX for providing the// non-blocking transport implementation.`define uvm_nonblocking_transport_imp_decl(SFX) \class uvm_nonblocking_transport_imp``SFX #(type REQ=int, type RSP=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(REQ, RSP)); \`UVM_IMP_COMMON(`UVM_TLM_NONBLOCKING_TRANSPORT_MASK,`"uvm_nonblocking_transport_imp``SFX`",IMP) \`UVM_NONBLOCKING_TRANSPORT_IMP_SFX(SFX, m_imp, REQ, RSP, req, rsp) \endclass`define uvm_non_blocking_transport_imp_decl(SFX) \`uvm_nonblocking_transport_imp_decl(SFX)// MACRO: `uvm_transport_imp_decl////| `uvm_transport_imp_decl(SFX)//// Define the class uvm_transport_impSFX for providing both blocking and// non-blocking transport implementations. ~SFX~ is the suffix for the new class// type.`define uvm_transport_imp_decl(SFX) \class uvm_transport_imp``SFX #(type REQ=int, type RSP=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(REQ, RSP)); \`UVM_IMP_COMMON(`UVM_TLM_TRANSPORT_MASK,`"uvm_transport_imp``SFX`",IMP) \`UVM_BLOCKING_TRANSPORT_IMP_SFX(SFX, m_imp, REQ, RSP, req, rsp) \`UVM_NONBLOCKING_TRANSPORT_IMP_SFX(SFX, m_imp, REQ, RSP, req, rsp) \endclass// MACRO: `uvm_analysis_imp_decl////| `uvm_analysis_imp_decl(SFX)//// Define the class uvm_analysis_impSFX for providing an analysis// implementation. ~SFX~ is the suffix for the new class type. The analysis// implementation is the write function. The `uvm_analysis_imp_decl allows// for a scoreboard (or other analysis component) to support input from many// places. For example:////| `uvm_analysis_imp_decl(_ingress)//| `uvm_analysis_imp_decl(_egress)//|//| class myscoreboard extends uvm_component;//| uvm_analysis_imp_ingress#(mydata, myscoreboard) ingress;//| uvm_analysis_imp_egress#(mydata, myscoreboard) egress;//| mydata ingress_list[$];//| ...//|//| function new(string name, uvm_component parent);//| super.new(name,parent);//| ingress = new("ingress", this);//| egress = new("egress", this);//| endfunction//|//| function void write_ingress(mydata t);//| ingress_list.push_back(t);//| endfunction//|//| function void write_egress(mydata t);//| find_match_in_ingress_list(t);//| endfunction//|//| function void find_match_in_ingress_list(mydata t);//| //implement scoreboarding for this particular dut//| ...//| endfunction//| endclass`define uvm_analysis_imp_decl(SFX) \class uvm_analysis_imp``SFX #(type T=int, type IMP=int) \extends uvm_port_base #(uvm_tlm_if_base #(T,T)); \`UVM_IMP_COMMON(`UVM_TLM_ANALYSIS_MASK,`"uvm_analysis_imp``SFX`",IMP) \function void write( input T t); \m_imp.write``SFX( t); \endfunction \\endclass// These imps are used in uvm_*_port, uvm_*_export and uvm_*_imp, using suffixes//`define UVM_BLOCKING_PUT_IMP_SFX(SFX, imp, TYPE, arg) \task put( input TYPE arg); imp.put``SFX( arg); endtask`define UVM_BLOCKING_GET_IMP_SFX(SFX, imp, TYPE, arg) \task get( output TYPE arg); imp.get``SFX( arg); endtask`define UVM_BLOCKING_PEEK_IMP_SFX(SFX, imp, TYPE, arg) \task peek( output TYPE arg);imp.peek``SFX( arg); endtask`define UVM_NONBLOCKING_PUT_IMP_SFX(SFX, imp, TYPE, arg) \function bit try_put( input TYPE arg); \if( !imp.try_put``SFX( arg)) return 0; \return 1; \endfunction \function bit can_put(); return imp.can_put``SFX(); endfunction`define UVM_NONBLOCKING_GET_IMP_SFX(SFX, imp, TYPE, arg) \function bit try_get( output TYPE arg); \if( !imp.try_get``SFX( arg)) return 0; \return 1; \endfunction \function bit can_get(); return imp.can_get``SFX(); endfunction`define UVM_NONBLOCKING_PEEK_IMP_SFX(SFX, imp, TYPE, arg) \function bit try_peek( output TYPE arg); \if( !imp.try_peek``SFX( arg)) return 0; \return 1; \endfunction \function bit can_peek(); return imp.can_peek``SFX(); endfunction`define UVM_BLOCKING_TRANSPORT_IMP_SFX(SFX, imp, REQ, RSP, req_arg, rsp_arg) \task transport( input REQ req_arg, output RSP rsp_arg); \imp.transport``SFX(req_arg, rsp_arg); \endtask`define UVM_NONBLOCKING_TRANSPORT_IMP_SFX(SFX, imp, REQ, RSP, req_arg, rsp_arg) \function bit nb_transport( input REQ req_arg, output RSP rsp_arg); \if(imp) return imp.nb_transport``SFX(req_arg, rsp_arg); \endfunction//----------------------------------------------------------------------// imp definitions//----------------------------------------------------------------------`define UVM_SEQ_ITEM_PULL_IMP(imp, REQ, RSP, req_arg, rsp_arg) \function void disable_auto_item_recording(); imp.disable_auto_item_recording(); endfunction \function bit is_auto_item_recording_enabled(); return imp.is_auto_item_recording_enabled(); endfunction \task get_next_item(output REQ req_arg); imp.get_next_item(req_arg); endtask \task try_next_item(output REQ req_arg); imp.try_next_item(req_arg); endtask \function void item_done(input RSP rsp_arg = null); imp.item_done(rsp_arg); endfunction \task wait_for_sequences(); imp.wait_for_sequences(); endtask \function bit has_do_available(); return imp.has_do_available(); endfunction \function void put_response(input RSP rsp_arg); imp.put_response(rsp_arg); endfunction \task get(output REQ req_arg); imp.get(req_arg); endtask \task peek(output REQ req_arg); imp.peek(req_arg); endtask \task put(input RSP rsp_arg); imp.put(rsp_arg); endtask// primitive interfaces`define UVM_TLM_BLOCKING_PUT_MASK (1<<0)`define UVM_TLM_BLOCKING_GET_MASK (1<<1)`define UVM_TLM_BLOCKING_PEEK_MASK (1<<2)`define UVM_TLM_BLOCKING_TRANSPORT_MASK (1<<3)`define UVM_TLM_NONBLOCKING_PUT_MASK (1<<4)`define UVM_TLM_NONBLOCKING_GET_MASK (1<<5)`define UVM_TLM_NONBLOCKING_PEEK_MASK (1<<6)`define UVM_TLM_NONBLOCKING_TRANSPORT_MASK (1<<7)`define UVM_TLM_ANALYSIS_MASK (1<<8)`define UVM_TLM_MASTER_BIT_MASK (1<<9)`define UVM_TLM_SLAVE_BIT_MASK (1<<10)// combination interfaces`define UVM_TLM_PUT_MASK (`UVM_TLM_BLOCKING_PUT_MASK | `UVM_TLM_NONBLOCKING_PUT_MASK)`define UVM_TLM_GET_MASK (`UVM_TLM_BLOCKING_GET_MASK | `UVM_TLM_NONBLOCKING_GET_MASK)`define UVM_TLM_PEEK_MASK (`UVM_TLM_BLOCKING_PEEK_MASK | `UVM_TLM_NONBLOCKING_PEEK_MASK)`define UVM_TLM_BLOCKING_GET_PEEK_MASK (`UVM_TLM_BLOCKING_GET_MASK | `UVM_TLM_BLOCKING_PEEK_MASK)`define UVM_TLM_BLOCKING_MASTER_MASK (`UVM_TLM_BLOCKING_PUT_MASK | `UVM_TLM_BLOCKING_GET_MASK | `UVM_TLM_BLOCKING_PEEK_MASK | `UVM_TLM_MASTER_BIT_MASK)`define UVM_TLM_BLOCKING_SLAVE_MASK (`UVM_TLM_BLOCKING_PUT_MASK | `UVM_TLM_BLOCKING_GET_MASK | `UVM_TLM_BLOCKING_PEEK_MASK | `UVM_TLM_SLAVE_BIT_MASK)`define UVM_TLM_NONBLOCKING_GET_PEEK_MASK (`UVM_TLM_NONBLOCKING_GET_MASK | `UVM_TLM_NONBLOCKING_PEEK_MASK)`define UVM_TLM_NONBLOCKING_MASTER_MASK (`UVM_TLM_NONBLOCKING_PUT_MASK | `UVM_TLM_NONBLOCKING_GET_MASK | `UVM_TLM_NONBLOCKING_PEEK_MASK | `UVM_TLM_MASTER_BIT_MASK)`define UVM_TLM_NONBLOCKING_SLAVE_MASK (`UVM_TLM_NONBLOCKING_PUT_MASK | `UVM_TLM_NONBLOCKING_GET_MASK | `UVM_TLM_NONBLOCKING_PEEK_MASK | `UVM_TLM_SLAVE_BIT_MASK)`define UVM_TLM_GET_PEEK_MASK (`UVM_TLM_GET_MASK | `UVM_TLM_PEEK_MASK)`define UVM_TLM_MASTER_MASK (`UVM_TLM_BLOCKING_MASTER_MASK | `UVM_TLM_NONBLOCKING_MASTER_MASK)`define UVM_TLM_SLAVE_MASK (`UVM_TLM_BLOCKING_SLAVE_MASK | `UVM_TLM_NONBLOCKING_SLAVE_MASK)`define UVM_TLM_TRANSPORT_MASK (`UVM_TLM_BLOCKING_TRANSPORT_MASK | `UVM_TLM_NONBLOCKING_TRANSPORT_MASK)`define UVM_SEQ_ITEM_GET_NEXT_ITEM_MASK (1<<0)`define UVM_SEQ_ITEM_TRY_NEXT_ITEM_MASK (1<<1)`define UVM_SEQ_ITEM_ITEM_DONE_MASK (1<<2)`define UVM_SEQ_ITEM_HAS_DO_AVAILABLE_MASK (1<<3)`define UVM_SEQ_ITEM_WAIT_FOR_SEQUENCES_MASK (1<<4)`define UVM_SEQ_ITEM_PUT_RESPONSE_MASK (1<<5)`define UVM_SEQ_ITEM_PUT_MASK (1<<6)`define UVM_SEQ_ITEM_GET_MASK (1<<7)`define UVM_SEQ_ITEM_PEEK_MASK (1<<8)`define UVM_SEQ_ITEM_PULL_MASK (`UVM_SEQ_ITEM_GET_NEXT_ITEM_MASK | `UVM_SEQ_ITEM_TRY_NEXT_ITEM_MASK | \`UVM_SEQ_ITEM_ITEM_DONE_MASK | `UVM_SEQ_ITEM_HAS_DO_AVAILABLE_MASK | \`UVM_SEQ_ITEM_WAIT_FOR_SEQUENCES_MASK | `UVM_SEQ_ITEM_PUT_RESPONSE_MASK | \`UVM_SEQ_ITEM_PUT_MASK | `UVM_SEQ_ITEM_GET_MASK | `UVM_SEQ_ITEM_PEEK_MASK)`define UVM_SEQ_ITEM_UNI_PULL_MASK (`UVM_SEQ_ITEM_GET_NEXT_ITEM_MASK | `UVM_SEQ_ITEM_TRY_NEXT_ITEM_MASK | \`UVM_SEQ_ITEM_ITEM_DONE_MASK | `UVM_SEQ_ITEM_HAS_DO_AVAILABLE_MASK | \`UVM_SEQ_ITEM_WAIT_FOR_SEQUENCES_MASK | `UVM_SEQ_ITEM_GET_MASK | \`UVM_SEQ_ITEM_PEEK_MASK)`define UVM_SEQ_ITEM_PUSH_MASK (`UVM_SEQ_ITEM_PUT_MASK)`include "tlm1/uvm_tlm_imps.svh"