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gobyexample/third_party/pygments/tests/examplefiles/test.vhdl
Hana 9e216da9ef go.mod: add go.mod and move pygments to third_party 
After go1.16, go will use module mode by default,
even when the repository is checked out under GOPATH
or in a one-off directory. Add go.mod, go.sum to keep
this repo buildable without opting out of the module
mode.

> go mod init github.com/mmcgrana/gobyexample
> go mod tidy
> go mod vendor

In module mode, the 'vendor' directory is special
and its contents will be actively maintained by the
go command. pygments aren't the dependency the go will
know about, so it will delete the contents from vendor
directory. Move it to `third_party` directory now.

And, vendor the blackfriday package.

Note: the tutorial contents are not affected by the
change in go1.16 because all the examples in this
tutorial ask users to run the go command with the
explicit list of files to be compiled (e.g.
`go run hello-world.go` or `go build command-line-arguments.go`).
When the source list is provided, the go command does
not have to compute the build list and whether it's
running in GOPATH mode or module mode becomes irrelevant.
2021-02-15 16:45:26 -05:00

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library ieee;
use ieee.std_logic_unsigned.all;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
entity top_testbench is --test
generic ( -- test
n : integer := 8 -- test
); -- test
end top_testbench; -- test
architecture top_testbench_arch of top_testbench is
component top is
generic (
n : integer
) ;
port (
clk : in std_logic;
rst : in std_logic;
d1 : in std_logic_vector (n-1 downto 0);
d2 : in std_logic_vector (n-1 downto 0);
operation : in std_logic;
result : out std_logic_vector (2*n-1 downto 0)
);
end component;
signal clk : std_logic;
signal rst : std_logic;
signal operation : std_logic;
signal d1 : std_logic_vector (n-1 downto 0);
signal d2 : std_logic_vector (n-1 downto 0);
signal result : std_logic_vector (2*n-1 downto 0);
type test_type is ( a1, a2, a3, a4, a5, a6, a7, a8, a9, a10);
attribute enum_encoding of my_state : type is "001 010 011 100 111";
begin
TESTUNIT : top generic map (n => n)
port map (clk => clk,
rst => rst,
d1 => d1,
d2 => d2,
operation => operation,
result => result);
clock_process : process
begin
clk <= '0';
wait for 5 ns;
clk <= '1';
wait for 5 ns;
end process;
data_process : process
begin
-- test case #1
operation <= '0';
rst <= '1';
wait for 5 ns;
rst <= '0';
wait for 5 ns;
d1 <= std_logic_vector(to_unsigned(60, d1'length));
d2 <= std_logic_vector(to_unsigned(12, d2'length));
wait for 360 ns;
assert (result = std_logic_vector(to_unsigned(720, result'length)))
report "Test case #1 failed" severity error;
-- test case #2
operation <= '0';
rst <= '1';
wait for 5 ns;
rst <= '0';
wait for 5 ns;
d1 <= std_logic_vector(to_unsigned(55, d1'length));
d2 <= std_logic_vector(to_unsigned(1, d2'length));
wait for 360 ns;
assert (result = std_logic_vector(to_unsigned(55, result'length)))
report "Test case #2 failed" severity error;
-- etc
end process;
end top_testbench_arch;
configuration testbench_for_top of top_testbench is
for top_testbench_arch
for TESTUNIT : top
use entity work.top(top_arch);
end for;
end for;
end testbench_for_top;
function compare(A: std_logic, B: std_Logic) return std_logic is
constant pi : real := 3.14159;
constant half_pi : real := pi / 2.0;
constant cycle_time : time := 2 ns;
constant N, N5 : integer := 5;
begin
if (A = '0' and B = '1') then
return B;
else
return A;
end if ;
end compare;
procedure print(P : std_logic_vector(7 downto 0);
U : std_logic_vector(3 downto 0)) is
variable my_line : line;
alias swrite is write [line, string, side, width] ;
begin
swrite(my_line, "sqrt( ");
write(my_line, P);
swrite(my_line, " )= ");
write(my_line, U);
writeline(output, my_line);
end print;
entity add32csa is -- one stage of carry save adder for multiplier
port(
b : in std_logic; -- a multiplier bit
a : in std_logic_vector(31 downto 0); -- multiplicand
sum_in : in std_logic_vector(31 downto 0); -- sums from previous stage
cin : in std_logic_vector(31 downto 0); -- carrys from previous stage
sum_out : out std_logic_vector(31 downto 0); -- sums to next stage
cout : out std_logic_vector(31 downto 0)); -- carrys to next stage
end add32csa;
ARCHITECTURE circuits of add32csa IS
SIGNAL zero : STD_LOGIC_VECTOR(31 downto 0) := X"00000000";
SIGNAL aa : std_logic_vector(31 downto 0) := X"00000000";
COMPONENT fadd -- duplicates entity port
PoRT(a : in std_logic;
b : in std_logic;
cin : in std_logic;
s : out std_logic;
cout : out std_logic);
end comPonent fadd;
begin -- circuits of add32csa
aa <= a when b='1' else zero after 1 ns;
stage: for I in 0 to 31 generate
sta: fadd port map(aa(I), sum_in(I), cin(I) , sum_out(I), cout(I));
end generate stage;
end architecture circuits; -- of add32csa
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