tests/opt/opt_expr.ys - third_party/yosys - Git at Google


 read_verilog <<EOT
 module opt_expr_add_test(input [3:0] i, input [7:0] j, output [8:0] o);
     assign o = (i << 4) + j;
 endmodule
 EOT

 equiv_opt -assert opt_expr -fine
 design -load postopt

 select -assert-count 1 t:$add r:A_WIDTH=5 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i

 ##########

 # alumacc version of above
 design -reset
 read_verilog <<EOT
 module opt_expr_add_test(input [3:0] i, input [7:0] j, output [8:0] o);
     assign o = (i << 4) + j;
 endmodule
 EOT

 alumacc
 equiv_opt -assert opt_expr -fine
 design -load postopt

 select -assert-count 1 t:$alu r:A_WIDTH=4 r:B_WIDTH=5 r:Y_WIDTH=5 %i %i %i

 ##########

 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;
 endmodule
 EOT

 equiv_opt -assert opt_expr -fine
 design -load postopt

 select -assert-count 1 t:$add r:A_WIDTH=5 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i

 ##########

 # alumacc version of above
 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;
 endmodule
 EOT

 alumacc
 equiv_opt -assert opt_expr -fine
 design -load postopt

 select -assert-count 1 t:$alu r:A_WIDTH=4 r:B_WIDTH=5 r:Y_WIDTH=5 %i %i %i

 ##########

 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);
 endmodule
 EOT

 equiv_opt -assert opt_expr -fine
 design -load postopt

 select -assert-count 1 t:$sub r:A_WIDTH=4 r:B_WIDTH=5 r:Y_WIDTH=5 %i %i %i

 ##########

 # alumacc version of above
 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);
 endmodule
 EOT

 alumacc
 equiv_opt -assert opt_expr -fine
 design -load postopt

 dump
 select -assert-count 1 t:$alu r:A_WIDTH=4 r:B_WIDTH=5 r:Y_WIDTH=5 %i %i %i

 ##########

 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);
 endmodule
 EOT

 equiv_opt -assert opt_expr -fine
 design -load postopt

 select -assert-count 1 t:$sub r:A_WIDTH=4 r:B_WIDTH=5 r:Y_WIDTH=5 %i %i %i

 ##########

 # alumacc version of above
 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);
 endmodule
 EOT

 alumacc
 equiv_opt -assert opt_expr -fine
 design -load postopt

 select -assert-count 1 t:$alu r:A_WIDTH=4 r:B_WIDTH=5 r:Y_WIDTH=5 %i %i %i

 ##########

 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;
 endmodule
 EOT

 equiv_opt -assert opt_expr -fine
 design -load postopt

 select -assert-count 1 t:$sub r:A_WIDTH=9 r:B_WIDTH=8 r:Y_WIDTH=9 %i %i %i

 ##########

 # alumacc version of above
 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;
 endmodule
 EOT

 alumacc
 opt_expr -fine
 equiv_opt -assert opt_expr -fine
 design -load postopt

 select -assert-count 1 t:$alu r:A_WIDTH=9 r:B_WIDTH=8 r:Y_WIDTH=9 %i %i %i

 ##########

 design -reset
 read_verilog <<EOT
 module opt_expr_sub_test4(input [3:0] i, output [8:0] o);
     assign o = 5'b00010 - i;
 endmodule
 EOT

 wreduce
 equiv_opt -assert opt_expr -fine
 design -load postopt

 select -assert-count 1 t:$sub r:A_WIDTH=2 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i

 ##########

 # alumacc version of above
 design -reset
 read_verilog <<EOT
 module opt_expr_sub_test4(input [3:0] i, output [8:0] o);
     assign o = 5'b00010 - i;
 endmodule
 EOT

 wreduce
 alumacc
 equiv_opt -assert opt_expr -fine
 design -load postopt

 select -assert-count 1 t:$alu r:A_WIDTH=2 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i

 ###########

 design -reset
 read_verilog -icells <<EOT
 module opt_expr_alu_test_ci0_bi0(input [7:0] a, input [3:0] b, output [8:0] x, y, co);
     \$alu #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(8), .B_WIDTH(8), .Y_WIDTH(9)) alu (.A(a), .B({b, 4'b0000}), .CI(1'b0), .BI(1'b0), .X(x), .Y(y), .CO(co));
 endmodule
 EOT
 check

 equiv_opt -assert opt_expr -fine
 design -load postopt
 select -assert-count 1 t:$alu r:A_WIDTH=4 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i

 ###########

 design -reset
 read_verilog -icells <<EOT
 module opt_expr_alu_test_ci1_bi1(input [7:0] a, input [3:0] b, output [8:0] x, y, co);
     \$alu #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(8), .B_WIDTH(8), .Y_WIDTH(9)) alu (.A(a), .B({b, 4'b0000}), .CI(1'b1), .BI(1'b1), .X(x), .Y(y), .CO(co));
 endmodule
 EOT
 check

 equiv_opt -assert opt_expr -fine
 design -load postopt
 select -assert-count 1 t:$alu r:A_WIDTH=4 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i

 ###########

 design -reset
 read_verilog -icells <<EOT
 module opt_expr_alu_test_ci0_bi1(input [7:0] a, input [3:0] b, output [8:0] x, y, co);
     \$alu #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(8), .B_WIDTH(8), .Y_WIDTH(9)) alu (.A(a), .B({b, 4'b0000}), .CI(1'b0), .BI(1'b1), .X(x), .Y(y), .CO(co));
 endmodule
 EOT
 check

 equiv_opt -assert opt_expr -fine
 design -load postopt
 select -assert-count 1 t:$alu r:A_WIDTH=8 r:B_WIDTH=8 r:Y_WIDTH=9 %i %i %i

 ###########

 design -reset
 read_verilog -icells <<EOT
 module opt_expr_shiftx_1bit(input [2:0] a, input [1:0] b, output y);
     \$shiftx #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(4), .B_WIDTH(2), .Y_WIDTH(1)) shiftx (.A({1'bx,a}), .B(b), .Y(y));
 endmodule
 EOT
 check

 equiv_opt -assert opt_expr
 design -load postopt
 select -assert-count 1 t:$shiftx r:A_WIDTH=3 %i

 ###########

 design -reset
 read_verilog -icells <<EOT
 module opt_expr_shiftx_3bit(input [9:0] a, input [3:0] b, output [2:0] y);
     \$shiftx #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(14), .B_WIDTH(4), .Y_WIDTH(3)) shiftx (.A({4'bxx00,a}), .B(b), .Y(y));
 endmodule
 EOT
 check

 equiv_opt -assert opt_expr
 design -load postopt
 select -assert-count 1 t:$shiftx r:A_WIDTH=12 %i

 ###########

 design -reset
 read_verilog -icells <<EOT
 module opt_expr_shift_1bit(input [2:0] a, input [1:0] b, output y);
     \$shift #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(4), .B_WIDTH(2), .Y_WIDTH(1)) shift (.A({1'b0,a}), .B(b), .Y(y));
 endmodule
 EOT
 check

 equiv_opt -assert opt_expr
 design -load postopt
 select -assert-count 1 t:$shift r:A_WIDTH=3 %i

 ###########

 design -reset
 read_verilog -icells <<EOT
 module opt_expr_shift_3bit(input [9:0] a, input [3:0] b, output [2:0] y);
     \$shift #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(14), .B_WIDTH(4), .Y_WIDTH(3)) shift (.A({4'b0x0x,a}), .B(b), .Y(y));
 endmodule
 EOT
 check

 equiv_opt -assert opt_expr
 design -load postopt
 select -assert-count 1 t:$shift r:A_WIDTH=10 %i

 ###########

 design -reset
 read_verilog -icells <<EOT
 module opt_expr_shift_3bit_keepdc(input [9:0] a, input [3:0] b, output [2:0] y);
     \$shift #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(14), .B_WIDTH(4), .Y_WIDTH(3)) shift (.A({4'b0x0x,a}), .B(b), .Y(y));
 endmodule
 EOT
 check

 equiv_opt -assert opt_expr -keepdc
 design -load postopt
 select -assert-count 1 t:$shift r:A_WIDTH=13 %i

	read_verilog <<EOT
	module opt_expr_add_test(input [3:0] i, input [7:0] j, output [8:0] o);
	assign o = (i << 4) + j;
	endmodule
	EOT

	equiv_opt -assert opt_expr -fine
	design -load postopt

	select -assert-count 1 t:$add r:A_WIDTH=5 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i

	##########

	# alumacc version of above
	design -reset
	read_verilog <<EOT
	module opt_expr_add_test(input [3:0] i, input [7:0] j, output [8:0] o);
	assign o = (i << 4) + j;
	endmodule
	EOT

	alumacc
	equiv_opt -assert opt_expr -fine
	design -load postopt

	select -assert-count 1 t:$alu r:A_WIDTH=4 r:B_WIDTH=5 r:Y_WIDTH=5 %i %i %i

	##########

	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;
	endmodule
	EOT

	equiv_opt -assert opt_expr -fine
	design -load postopt

	select -assert-count 1 t:$add r:A_WIDTH=5 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i

	##########

	# alumacc version of above
	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;
	endmodule
	EOT

	alumacc
	equiv_opt -assert opt_expr -fine
	design -load postopt

	select -assert-count 1 t:$alu r:A_WIDTH=4 r:B_WIDTH=5 r:Y_WIDTH=5 %i %i %i

	##########

	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);
	endmodule
	EOT

	equiv_opt -assert opt_expr -fine
	design -load postopt

	select -assert-count 1 t:$sub r:A_WIDTH=4 r:B_WIDTH=5 r:Y_WIDTH=5 %i %i %i

	##########

	# alumacc version of above
	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);
	endmodule
	EOT

	alumacc
	equiv_opt -assert opt_expr -fine
	design -load postopt

	dump
	select -assert-count 1 t:$alu r:A_WIDTH=4 r:B_WIDTH=5 r:Y_WIDTH=5 %i %i %i

	##########

	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);
	endmodule
	EOT

	equiv_opt -assert opt_expr -fine
	design -load postopt

	select -assert-count 1 t:$sub r:A_WIDTH=4 r:B_WIDTH=5 r:Y_WIDTH=5 %i %i %i

	##########

	# alumacc version of above
	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);
	endmodule
	EOT

	alumacc
	equiv_opt -assert opt_expr -fine
	design -load postopt

	select -assert-count 1 t:$alu r:A_WIDTH=4 r:B_WIDTH=5 r:Y_WIDTH=5 %i %i %i

	##########

	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;
	endmodule
	EOT

	equiv_opt -assert opt_expr -fine
	design -load postopt

	select -assert-count 1 t:$sub r:A_WIDTH=9 r:B_WIDTH=8 r:Y_WIDTH=9 %i %i %i

	##########

	# alumacc version of above
	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;
	endmodule
	EOT

	alumacc
	opt_expr -fine
	equiv_opt -assert opt_expr -fine
	design -load postopt

	select -assert-count 1 t:$alu r:A_WIDTH=9 r:B_WIDTH=8 r:Y_WIDTH=9 %i %i %i

	##########

	design -reset
	read_verilog <<EOT
	module opt_expr_sub_test4(input [3:0] i, output [8:0] o);
	assign o = 5'b00010 - i;
	endmodule
	EOT

	wreduce
	equiv_opt -assert opt_expr -fine
	design -load postopt

	select -assert-count 1 t:$sub r:A_WIDTH=2 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i

	##########

	# alumacc version of above
	design -reset
	read_verilog <<EOT
	module opt_expr_sub_test4(input [3:0] i, output [8:0] o);
	assign o = 5'b00010 - i;
	endmodule
	EOT

	wreduce
	alumacc
	equiv_opt -assert opt_expr -fine
	design -load postopt

	select -assert-count 1 t:$alu r:A_WIDTH=2 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i

	###########

	design -reset
	read_verilog -icells <<EOT
	module opt_expr_alu_test_ci0_bi0(input [7:0] a, input [3:0] b, output [8:0] x, y, co);
	\$alu #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(8), .B_WIDTH(8), .Y_WIDTH(9)) alu (.A(a), .B({b, 4'b0000}), .CI(1'b0), .BI(1'b0), .X(x), .Y(y), .CO(co));
	endmodule
	EOT
	check

	equiv_opt -assert opt_expr -fine
	design -load postopt
	select -assert-count 1 t:$alu r:A_WIDTH=4 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i

	###########

	design -reset
	read_verilog -icells <<EOT
	module opt_expr_alu_test_ci1_bi1(input [7:0] a, input [3:0] b, output [8:0] x, y, co);
	\$alu #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(8), .B_WIDTH(8), .Y_WIDTH(9)) alu (.A(a), .B({b, 4'b0000}), .CI(1'b1), .BI(1'b1), .X(x), .Y(y), .CO(co));
	endmodule
	EOT
	check

	equiv_opt -assert opt_expr -fine
	design -load postopt
	select -assert-count 1 t:$alu r:A_WIDTH=4 r:B_WIDTH=4 r:Y_WIDTH=5 %i %i %i

	###########

	design -reset
	read_verilog -icells <<EOT
	module opt_expr_alu_test_ci0_bi1(input [7:0] a, input [3:0] b, output [8:0] x, y, co);
	\$alu #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(8), .B_WIDTH(8), .Y_WIDTH(9)) alu (.A(a), .B({b, 4'b0000}), .CI(1'b0), .BI(1'b1), .X(x), .Y(y), .CO(co));
	endmodule
	EOT
	check

	equiv_opt -assert opt_expr -fine
	design -load postopt
	select -assert-count 1 t:$alu r:A_WIDTH=8 r:B_WIDTH=8 r:Y_WIDTH=9 %i %i %i

	###########

	design -reset
	read_verilog -icells <<EOT
	module opt_expr_shiftx_1bit(input [2:0] a, input [1:0] b, output y);
	\$shiftx #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(4), .B_WIDTH(2), .Y_WIDTH(1)) shiftx (.A({1'bx,a}), .B(b), .Y(y));
	endmodule
	EOT
	check

	equiv_opt -assert opt_expr
	design -load postopt
	select -assert-count 1 t:$shiftx r:A_WIDTH=3 %i

	###########

	design -reset
	read_verilog -icells <<EOT
	module opt_expr_shiftx_3bit(input [9:0] a, input [3:0] b, output [2:0] y);
	\$shiftx #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(14), .B_WIDTH(4), .Y_WIDTH(3)) shiftx (.A({4'bxx00,a}), .B(b), .Y(y));
	endmodule
	EOT
	check

	equiv_opt -assert opt_expr
	design -load postopt
	select -assert-count 1 t:$shiftx r:A_WIDTH=12 %i

	###########

	design -reset
	read_verilog -icells <<EOT
	module opt_expr_shift_1bit(input [2:0] a, input [1:0] b, output y);
	\$shift #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(4), .B_WIDTH(2), .Y_WIDTH(1)) shift (.A({1'b0,a}), .B(b), .Y(y));
	endmodule
	EOT
	check

	equiv_opt -assert opt_expr
	design -load postopt
	select -assert-count 1 t:$shift r:A_WIDTH=3 %i

	###########

	design -reset
	read_verilog -icells <<EOT
	module opt_expr_shift_3bit(input [9:0] a, input [3:0] b, output [2:0] y);
	\$shift #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(14), .B_WIDTH(4), .Y_WIDTH(3)) shift (.A({4'b0x0x,a}), .B(b), .Y(y));
	endmodule
	EOT
	check

	equiv_opt -assert opt_expr
	design -load postopt
	select -assert-count 1 t:$shift r:A_WIDTH=10 %i

	###########

	design -reset
	read_verilog -icells <<EOT
	module opt_expr_shift_3bit_keepdc(input [9:0] a, input [3:0] b, output [2:0] y);
	\$shift #(.A_SIGNED(0), .B_SIGNED(0), .A_WIDTH(14), .B_WIDTH(4), .Y_WIDTH(3)) shift (.A({4'b0x0x,a}), .B(b), .Y(y));
	endmodule
	EOT
	check

	equiv_opt -assert opt_expr -keepdc
	design -load postopt
	select -assert-count 1 t:$shift r:A_WIDTH=13 %i