Commit 7729b1cf by SergeyDegtyar

New tests for closed issues and open bugs.

parent e6e0dae3
...@@ -493,6 +493,58 @@ $(eval $(call template,issue_01284,issue_01284)) ...@@ -493,6 +493,58 @@ $(eval $(call template,issue_01284,issue_01284))
#issue_01329 #issue_01329
$(eval $(call template,issue_01329,issue_01329)) $(eval $(call template,issue_01329,issue_01329))
#issue_01364
$(eval $(call template,issue_01364,issue_01364))
#issue_01372
$(eval $(call template,issue_01372,issue_01372))
#Still open bugs (should be failed):
#issue_00329
$(eval $(call template,issue_00329,issue_00329))
#issue_00623
$(eval $(call template,issue_00623,issue_00623))
#issue_00656
$(eval $(call template,issue_00656,issue_00656))
#issue_01014
$(eval $(call template,issue_01014,issue_01014))
#issue_01126
$(eval $(call template,issue_01126,issue_01126))
#issue_01161
$(eval $(call template,issue_01161,issue_01161))
#issue_01193
$(eval $(call template,issue_01193,issue_01193))
#issue_01206
$(eval $(call template,issue_01206,issue_01206))
#issue_01216
$(eval $(call template,issue_01216,issue_01216))
#issue_01217
$(eval $(call template,issue_01217,issue_01217))
#issue_01225
$(eval $(call template,issue_01225,issue_01225))
#issue_01259
$(eval $(call template,issue_01259,issue_01259))
#issue_01291
$(eval $(call template,issue_01291,issue_01291))
#issue_01360
$(eval $(call template,issue_01360,issue_01360))
......
module hb_exp
#(parameter
HRQW=32,
HRSW=32,
RSTRT=0,
REND=7,
ADDRW = 3,
NTGT=REND-RSTRT+1,
ADDR_COMP = 0,
BASE_ADDR_VEC = 0,
ADDR_MASK_VEC = 0,
DFF_SAMPLES = 1
)(
input clk,
input areset_n,
input init_exp_rq,
input [ADDRW-1:0] init_exp_addr,
input [HRQW-1:0] init_exp_data,
input [NTGT-1:0] tgt_exp_ack,
input [NTGT-1:0] tgt_exp_err,
input [NTGT*HRSW-1:0] tgt_exp_data
);
wire [NTGT-1:0] exp_tgt_rq_samp_int ;
wire [NTGT-1:0] tgt_sel;
generate
if(ADDR_COMP==0) begin: GEN_IND_TREE
assign tgt_sel = addr_dec(init_hb_addr_ff);
end
else begin: GEN_REG_TREE
assign tgt_sel = addr_dec_comp(init_hb_addr_ff,BASE_ADDR_VEC,ADDR_MASK_VEC);
end
endgenerate
assign exp_tgt_rq_samp_int = {NTGT{init_exp_rq_ff}} & tgt_sel;
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
// Functions
function [NTGT-1:0] addr_dec(input [ADDRW-1:0] f_addr);
integer i_tgt;
reg [NTGT-1:0] tgt_tmp;
begin
tgt_tmp={NTGT{1'b0}};
for(i_tgt=RSTRT;i_tgt<=REND;i_tgt=i_tgt+1) begin
if(f_addr==i_tgt) begin
tgt_tmp[i_tgt]=1'b1;
end
end
addr_dec=tgt_tmp;
end
endfunction
function [NTGT-1:0] addr_dec_comp(input [ADDRW-1:0] f_addr,input [NTGT*ADDRW-1:0] base_addr_in,input [NTGT*ADDRW-1:0] mask_in);
integer i_tgt;
reg [NTGT-1:0] tgt_tmp;
reg [ADDRW-1:0] base_addr_arr [NTGT-1:0];
reg [ADDRW-1:0] addr_mask_arr [NTGT-1:0];
reg [ADDRW-1:0] end_addr_arr [NTGT-1:0];
begin
for(i_tgt=RSTRT;i_tgt<=REND;i_tgt=i_tgt+1) begin
base_addr_arr[i_tgt]=base_addr_in[i_tgt*ADDRW +: ADDRW];
addr_mask_arr[i_tgt]=mask_in[i_tgt*ADDRW +: ADDRW];
end_addr_arr[i_tgt]=base_addr_arr[i_tgt] + addr_mask_arr[i_tgt];
end
tgt_tmp={NTGT{1'b0}};
for(i_tgt=RSTRT;i_tgt<=REND;i_tgt=i_tgt+1) begin
if((f_addr>=base_addr_arr[i_tgt])&&(f_addr<=end_addr_arr[i_tgt])) begin
tgt_tmp[i_tgt]=1'b1;
end
end
addr_dec_comp=tgt_tmp;
end
endfunction
endmodule
module bidirtest (
A, EO, Q, BI
);
inout BI;
output Q;
input A;
input EO;
assign BI = (EO == 1'b1) ? A : 1'bz;
assign Q = BI;
endmodule
module yosys_genblk_scoping #(
parameter WIDTH = 6
)
(
input [WIDTH-1:0] a_i,
input [WIDTH-1:0] b_i,
output [WIDTH-1:0] z_o
);
genvar g;
generate
for (g = 0; g < WIDTH; g = g + 1) begin
if(g > 2) begin//: blk_true
wire tmp;
assign tmp = a_i[g] || b_i[g];
assign z_o[g] = tmp;
end
else begin
assign z_o[g] = a_i[g] && b_i[g];
end
end
endgenerate
endmodule
module top (input [7:0] data, output [7:0] out);
genvar n;
generate
for (n=7; n>=0; n=n-1) begin
assign out[n] = data[7-n];
end
endgenerate
endmodule
module test(c);
input [9:0] c;
function integer a(input integer b);
begin
a = b+1;
end
endfunction
localparam f = 5;
wire [a(f)-1:0] d;
//wire [a(f)-1:0] d1;
assign d = c[a(f)-1:0]; // wrong behavior
localparam e = a(f);
//assign d1 = c[e-1:0]; // correct behavior
endmodule
module error_design(a, b, z0, z1);
input a;
input b;
output z0, z1;
assign z0 = a;
assign z0 = b;
assign z1 = b;
endmodule
module test (input e, a, output reg b);
always_comb
if (e)
b = a;
endmodule
autoidx 1
attribute \top 1
module \top
wire width 1073741824 $1
wire width 1073741824 $2
process $group_0
sync init
end
connect $1 $2
end
module top (hz100, pb, ss7, ss6, ss5, ss4, ss3, ss2, ss1, ss0, left, right, red, green, blue);
input hz100;
input [20:0] pb;
output [7:0] ss7;
output [7:0] ss6;
output [7:0] ss5;
output [7:0] ss4;
output [7:0] ss3;
output [7:0] ss2;
output [7:0] ss1;
output [7:0] ss0;
output [7:0] left;
output [7:0] right;
output red;
output green;
output blue;
reg [4:0] op;
reg [31:0] save;
reg [31:0] entry;
reg [31:0] nextresult;
wire [31:0] source = displaysave ? save : entry;
assign {left,right} = source[15:0];
wire [4:0] key;
wire pressed;
scankey sk(.clk(hz100), .strobe(pressed), .out(key), .in(pb));
always @ (posedge pressed)
begin
casez (key)
5'b0????: begin
entry <= {28'b0,key[3:0]};
end
5'b1????: begin
save <= nextresult;
op <= key;
end
endcase
end
always @(*)
case (op)
0: nextresult = entry;
default: nextresult = save;
endcase
endmodule
module scankey(clk, in, out, strobe);
input wire clk;
output wire [4:0] out;
output wire strobe;
input wire [20:0] in;
wire active;
reg [4:0] highest;
reg [1:0] delay;
always @(posedge clk)
delay <= delay<<1 | active;
assign strobe = delay[1];
assign {active,out} = in[20] == 1 ? 6'b110100 :
in[19] == 1 ? 6'b110011 :
in[18] == 1 ? 6'b110010 :
in[17] == 1 ? 6'b110001 :
in[16] == 1 ? 6'b110000 :
in[15] == 1 ? 6'b101111 :
in[14] == 1 ? 6'b101110 :
in[13] == 1 ? 6'b101101 :
in[12] == 1 ? 6'b101100 :
in[11] == 1 ? 6'b101011 :
in[10] == 1 ? 6'b101010 :
in[ 9] == 1 ? 6'b101001 :
in[ 8] == 1 ? 6'b101000 :
in[ 7] == 1 ? 6'b100111 :
in[ 6] == 1 ? 6'b100110 :
in[ 5] == 1 ? 6'b100101 :
in[ 4] == 1 ? 6'b100100 :
in[ 3] == 1 ? 6'b100011 :
in[ 2] == 1 ? 6'b100010 :
in[ 1] == 1 ? 6'b100001 :
in[ 0] == 1 ? 6'b100000 : 6'b000000;
endmodule
`default_nettype none
module mcve2(david);
output reg david;
always @(*)
goliath = 4;
always @(*)
david = goliath;
endmodule
`default_nettype wire
module top(inout pin, input dout, sel, output din);
assign pin = sel ? dout : 1'bz;
assign din = pin;
endmodule
module top();
parameter W = 10;
wire [W-1:0] x;
empty #(.W(W)) empty_inst(.x(x));
endmodule
module empty#(parameter W = 0)(output wire [W-1:0] x);
endmodule
module frozen(clk, out);
input clk;
output reg out;
always @(posedge clk) begin
out <= out;
end
endmodule // frozen
module top(input clk);
MyInterface MyInterfaceInstance();
endmodule
interface MyInterface();
logic not_an_empty_interface;
endinterface
module top();
wire o;
wire a;
wire b;
wire [3:0] i;
assign o = i == 4'hb ? a:b;
endmodule
////////////////////////////////////////////////////////////////////////////////
//
////////////////////////////////////////////////////////////////////////////////
//
`default_nettype none
//
module mcvesix(i_clk, i_bits, o_char);
input wire i_clk;
input wire [6:0] i_bits;
output reg [7:0] o_char;
reg [6:0] remap [0:127];
integer k, newv;
always @(*) begin
for(k=0; k<128; k=k+1)
begin
newv = 0;
// `define BROKEN_CODE
`ifdef BROKEN_CODE
if (k[6])
`else
if (k >= 64)
`endif
newv = 7'h0a;
else
newv = k;
remap[k] = newv;
end
end
initial o_char = 8'h00;
always @(posedge i_clk)
o_char <= { 1'b0, remap[i_bits] };
`ifdef FORMAL
reg [7:0] f_char;
//
// Here's the old encoding that "worked"
//
initial f_char = 8'h00;
always @(posedge i_clk)
begin
if (i_bits[6])
f_char <= 8'h0a;
else
f_char <= i_bits[6:0];
end
//
// Now let's prove that the two encodings are equivalent
always @(*)
assert(f_char == o_char);
`endif
endmodule
...@@ -128,7 +128,21 @@ elif [ "$1" = "issue_00502" ] ||\ ...@@ -128,7 +128,21 @@ elif [ "$1" = "issue_00502" ] ||\
[ "$1" = "issue_01231" ] ||\ [ "$1" = "issue_01231" ] ||\
[ "$1" = "issue_01243" ] ||\ [ "$1" = "issue_01243" ] ||\
[ "$1" = "issue_01273" ] ||\ [ "$1" = "issue_01273" ] ||\
[ "$1" = "issue_01329" ]; then [ "$1" = "issue_01329" ] ||\
[ "$1" = "issue_01364" ] ||\
[ "$1" = "issue_01372" ] ||\
[ "$1" = "issue_00329" ] ||\
[ "$1" = "issue_00623" ] ||\
[ "$1" = "issue_01014" ] ||\
[ "$1" = "issue_01126" ] ||\
[ "$1" = "issue_01161" ] ||\
[ "$1" = "issue_01193" ] ||\
[ "$1" = "issue_01206" ] ||\
[ "$1" = "issue_01216" ] ||\
[ "$1" = "issue_01217" ] ||\
[ "$1" = "issue_01225" ] ||\
[ "$1" = "issue_01259" ] ||\
[ "$1" = "issue_01291" ]; then
expected_string="" expected_string=""
expected="1" expected="1"
...@@ -257,7 +271,8 @@ elif [ "$1" = "issue_00502" ] ||\ ...@@ -257,7 +271,8 @@ elif [ "$1" = "issue_00502" ] ||\
expected_string="Executing FLATTEN pass (flatten design)." expected_string="Executing FLATTEN pass (flatten design)."
elif [ "$1" = "issue_01223" ]; then elif [ "$1" = "issue_01223" ]; then
expected_string=" Executing CHECK pass (checking for obvious problems)." expected_string=" Executing CHECK pass (checking for obvious problems)."
elif [ "$1" = "issue_01231" ]; then elif [ "$1" = "issue_01231" ] ||\
[ "$1" = "issue_01364" ]; then
expected_string="Successfully finished Verilog frontend." expected_string="Successfully finished Verilog frontend."
elif [ "$1" = "issue_01243" ]; then elif [ "$1" = "issue_01243" ]; then
expected_string="assign y = reg_assign;" expected_string="assign y = reg_assign;"
...@@ -265,6 +280,40 @@ elif [ "$1" = "issue_00502" ] ||\ ...@@ -265,6 +280,40 @@ elif [ "$1" = "issue_00502" ] ||\
expected_string="\$_MUX8_ 9" expected_string="\$_MUX8_ 9"
elif [ "$1" = "issue_01329" ]; then elif [ "$1" = "issue_01329" ]; then
expected_string="\$mux 1" expected_string="\$mux 1"
elif [ "$1" = "issue_01372" ]; then
expected_string="input \\[1:0\\] s"
elif [ "$1" = "issue_00329" ]; then
expected_string="wire \\[-1"
elif [ "$1" = "issue_00623" ]; then
expected_string="IOBUF _4_"
elif [ "$1" = "issue_00656" ]; then
expected_string="Successfully finished Verilog frontend."
elif [ "$1" = "issue_01014" ]; then
expected_string="Successfully finished Verilog frontend."
elif [ "$1" = "issue_01126" ]; then
expected_string="assign d = c\\[5:0\\]"
elif [ "$1" = "issue_01161" ]; then
expected_string="assign z0 = b"
elif [ "$1" = "issue_01193" ]; then
expected_string="cell \$dlatch"
expected="0"
elif [ "$1" = "issue_01206" ]; then
expected_string="Executing PROC_INIT pass"
elif [ "$1" = "issue_01216" ]; then
expected_string="ERROR: Assert"
expected="0"
elif [ "$1" = "issue_01217" ]; then
expected_string="is implicitly declared."
expected="0"
elif [ "$1" = "issue_01225" ]; then
expected_string="cell \OBUFT"
elif [ "$1" = "issue_01259" ]; then
expected_string="Executing SMT2 backend"
elif [ "$1" = "issue_01291" ]; then
expected_string="connect \\\out 1'x"
expected="0"
elif [ "$1" = "issue_01360" ]; then
expected_string="Executing BLIF backend"
fi fi
if [ "$1" = "issue_01118" ]; then if [ "$1" = "issue_01118" ]; then
......
read_verilog -mem2reg ../top.v
write_verilog result.log
read_verilog ../top.v
tribuf -logic
synth -top bidirtest
iopadmap -bits -inpad IBUF O:PAD -outpad OBUF I:PAD -tinoutpad IOBUF ENA:O:I:PAD bidirtest
write_verilog -noattr result.log
tee -o result.log read_verilog ../top.v
tee -o result.log read_verilog ../top.v
synth
write_verilog synth.v
read_verilog ../top.v
write_verilog result.log
#write_json test_synth.json
read_verilog ../top.v
hierarchy
proc
write_ilang error_design.proc.il
show -format svg -prefix error_design.proc error_design
write_verilog result_old.log
opt_clean
write_ilang error_design.opt_clean.il
show -format svg -prefix error_design.opt_clean error_design
write_verilog result.log
read_verilog -sv ../top.v
proc
tee -o result.log dump
read_ilang ../top.il
tee -o result.log proc_init
read_verilog ../top.v
tee -o result.log synth_ice40 -top top
tee -o result.log write_blif test.blif
tee -o result.log read_verilog ../top.v
tee -o result.log read_verilog ../top.v
synth_xilinx
tee -o result.log dump
tee -o result.log read_verilog ../top.v
hierarchy -top top
tee -o result.log write_smt2
tee -o result.log read_verilog ../top.v
prep -top frozen
tee -o result.log dump
read_verilog -sv ../top.v;
tee -o result.log synth_ice40 -blif out.blif
tee -o result.log read_verilog ../top.v
read -define BROKEN_CODE
read -formal ../top.v
prep -top mcvesix
write_verilog result.log
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