read_verilog -specify specify.v prep cd test select t:$specify2 -assert-count 0 select t:$specify3 -assert-count 1 select t:$specrule -assert-count 2 cd test2 select t:$specify2 -assert-count 2 select t:$specify3 -assert-count 0 select t:$specrule -assert-count 0 cd write_verilog specify.out design -stash gold read_verilog -specify specify.out prep cd test select t:$specify2 -assert-count 0 select t:$specify3 -assert-count 1 select t:$specrule -assert-count 2 cd test2 select t:$specify2 -assert-count 2 select t:$specify3 -assert-count 0 select t:$specrule -assert-count 0 cd design -stash gate design -copy-from gold -as gold test design -copy-from gate -as gate test rename -hide rename -enumerate -pattern A_% t:$specify3 rename -enumerate -pattern B_% t:$specrule r:TYPE=$setup %i rename -enumerate -pattern C_% t:$specrule r:TYPE=$hold %i select n:A_* -assert-count 2 select n:B_* -assert-count 2 select n:C_* -assert-count 2 equiv_make gold gate equiv hierarchy -top equiv equiv_struct equiv_induct -seq 5 equiv_status -assert design -reset design -copy-from gold -as gold test2 design -copy-from gate -as gate test2 rename -hide rename -enumerate -pattern A_% t:$specify2 r:T_RISE_TYP=1 %i rename -enumerate -pattern B_% t:$specify2 n:A_* %d select n:A_* -assert-count 2 select n:B_* -assert-count 2 equiv_make gold gate equiv hierarchy -top equiv equiv_struct equiv_induct -seq 5 equiv_status -assert design -reset read_verilog specify.v