Simplify opt_expr tests using equiv_opt

diff --git a/tests/opt/opt_expr.ys b/tests/opt/opt_expr.ys
index 0c61ac8816c5d9435d438c5fdbb988827d76f389..9f3c0a1cdf0e8f50b1a92e0432143418e96f40ce 100644 (file)
--- a/tests/opt/opt_expr.ys
+++ b/tests/opt/opt_expr.ys
@@ -6,24 +6,16 @@ endmodule
 EOT
 
 hierarchy -auto-top
-proc
-design -save gold
 
-opt_expr -fine
-wreduce
+equiv_opt -assert opt_expr -fine
+design -load postopt
 
+wreduce
 select -assert-count 1 t:$add r:A_WIDTH=4 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i
 
-design -stash gate
-
-design -import gold -as gold
-design -import gate -as gate
-
-miter -equiv -flatten -make_assert -make_outputs gold gate miter
-sat -verify -prove-asserts -show-ports miter
-
 ##########
 
+design -reset
 read_verilog <<EOT
 module opt_expr_add_signed_test(input signed [3:0] i, input signed [7:0] j, output signed [8:0] o);
     assign o = (i << 4) + j;
@@ -31,24 +23,16 @@ endmodule
 EOT
 
 hierarchy -auto-top
-proc
-design -save gold
 
-opt_expr -fine
-wreduce
+equiv_opt -assert opt_expr -fine
+design -load postopt
 
+wreduce
 select -assert-count 1 t:$add r:A_WIDTH=4 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i
 
-design -stash gate
-
-design -import gold -as gold
-design -import gate -as gate
-
-miter -equiv -flatten -make_assert -make_outputs gold gate miter
-sat -verify -prove-asserts -show-ports miter
-
 ##########
 
+design -reset
 read_verilog <<EOT
 module opt_expr_sub_test1(input [3:0] i, input [7:0] j, output [8:0] o);
     assign o = j - (i << 4);
@@ -56,24 +40,16 @@ endmodule
 EOT
 
 hierarchy -auto-top
-proc
-design -save gold
 
-opt_expr -fine
-wreduce
+equiv_opt -assert opt_expr -fine
+design -load postopt
 
+wreduce
 select -assert-count 1 t:$sub r:A_WIDTH=4 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i
 
-design -stash gate
-
-design -import gold -as gold
-design -import gate -as gate
-
-miter -equiv -flatten -make_assert -make_outputs gold gate miter
-sat -verify -prove-asserts -show-ports miter
-
 ##########
 
+design -reset
 read_verilog <<EOT
 module opt_expr_sub_signed_test1(input signed [3:0] i, input signed [7:0] j, output signed [8:0] o);
     assign o = j - (i << 4);
@@ -81,24 +57,16 @@ endmodule
 EOT
 
 hierarchy -auto-top
-proc
-design -save gold
 
-opt_expr -fine
-wreduce
+equiv_opt -assert opt_expr -fine
+design -load postopt
 
+wreduce
 select -assert-count 1 t:$sub r:A_WIDTH=4 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i
 
-design -stash gate
-
-design -import gold -as gold
-design -import gate -as gate
-
-miter -equiv -flatten -make_assert -make_outputs gold gate miter
-sat -verify -prove-asserts -show-ports miter
-
 ##########
 
+design -reset
 read_verilog <<EOT
 module opt_expr_sub_test2(input [3:0] i, input [7:0] j, output [8:0] o);
     assign o = (i << 4) - j;
@@ -106,24 +74,16 @@ endmodule
 EOT
 
 hierarchy -auto-top
-proc
-design -save gold
 
-opt_expr -fine
-wreduce
+equiv_opt -assert opt_expr -fine
+design -load postopt
 
+wreduce
 select -assert-count 1 t:$sub r:A_WIDTH=8 r:B_WIDTH=8 r:Y_WIDTH=9 %i %i %i
 
-design -stash gate
-
-design -import gold -as gold
-design -import gate -as gate
-
-miter -equiv -flatten -make_assert -make_outputs gold gate miter
-sat -verify -prove-asserts -show-ports miter
-
 ##########
 
+design -reset
 read_verilog <<EOT
 module opt_expr_sub_test4(input [3:0] i, output [8:0] o);
     assign o = 5'b00010 - i;
@@ -131,18 +91,9 @@ endmodule
 EOT
 
 hierarchy -auto-top
-proc
-design -save gold
 
-opt_expr -fine
-wreduce
+equiv_opt -assert opt_expr -fine
+design -load postopt
 
+wreduce
 select -assert-count 1 t:$sub r:A_WIDTH=2 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i
-
-design -stash gate
-
-design -import gold -as gold
-design -import gate -as gate
-
-miter -equiv -flatten -make_assert -make_outputs gold gate miter
-sat -verify -prove-asserts -show-ports miter