port (
sys_clk : in std_logic;
sys_res_n : in std_logic;
-
--button
btn_a : in std_logic;
-
--uart_tx
tx_data : out std_logic_vector(7 downto 0);
tx_new : out std_logic;
tx_done : in std_logic;
-
--uart_rx
rx_data : in std_logic_vector(7 downto 0);
rx_new : in std_logic;
-
-- History
- d_zeile : out hzeile;
- d_spalte : out hspalte;
- d_get : out std_logic;
- d_done : in std_logic;
- d_char : in hbyte
+ pc_zeile : out hzeile;
+ pc_spalte : out hspalte;
+ pc_get : out std_logic;
+ pc_done : in std_logic;
+ pc_char : in hbyte
);
end entity pc_communication;
architecture beh of pc_communication is
- signal push_history, push_history_next : std_logic;
-
- signal spalte, spalte_next : integer range 1 to hspalte_max + 1;
- signal zeile , zeile_next : integer range 1 to hzeile_max + 1;
- signal spalte_up, spalte_up_next : std_logic;
+ signal spalte, spalte_next : integer range 1 to HSPALTE_MAX + 2;
+ signal zeile , zeile_next : integer range 0 to HZEILE_MAX + 1;
signal get, get_next : std_logic;
signal new_i, new_i_next : std_logic;
- signal tx_done_i, tx_done_i_next : std_logic;
signal tx_data_i, tx_data_i_next : std_logic_vector (7 downto 0);
- signal d_done_i : std_logic;
- signal s_done, s_done_next : std_logic;
- signal char, char_next : hbyte;
- signal char_en : std_logic;
- type STATE_PC is (IDLE, FETCH, FORWARD, DONE);
+ type STATE_PC is (IDLE, FETCH, FORWARD, UART_DONE, CR, CR_WAIT,
+ NL, NL_WAIT, PRINT_NO1, PRINT_NO1_WAIT, PRINT_NO2, PRINT_NO2_WAIT,
+ PRINT_NO3, PRINT_NO3_WAIT, PRINT_NO4, PRINT_NO4_WAIT, PRINT_NO5,
+ PRINT_NO5_WAIT, PRINT_NO6);
signal state, state_next : STATE_PC ;
-
begin
-
-
- d_zeile <= hzeile(std_logic_vector(to_unsigned(zeile,7)));
- d_spalte <= hspalte(std_logic_vector(to_unsigned(spalte,7)));
- d_get <= get;
- char_next <= d_char;
+ pc_zeile <= hzeile(std_logic_vector(to_unsigned(zeile,7)));
+ pc_spalte <= hspalte(std_logic_vector(to_unsigned(spalte,7)));
+ pc_get <= get;
tx_new <= new_i;
- d_done_i <= d_done;
- tx_done_i_next <= tx_done;
tx_data <= tx_data_i;
sync: process (sys_clk, sys_res_n)
begin
if sys_res_n = '0' then
state <= IDLE;
- push_history <= '0';
spalte <= 1;
- zeile <= 1;
+ zeile <= 0;
get <= '0';
new_i <= '0';
- tx_data_i <= "00000000";
- spalte_up <= '0';
- tx_done_i <= '0';
- s_done <= '0';
+ tx_data_i <= x"00";
elsif rising_edge(sys_clk) then
- push_history <= push_history_next;
spalte <= spalte_next;
zeile <= zeile_next;
state <= state_next;
get <= get_next;
new_i <= new_i_next;
- tx_done_i <= tx_done_i_next;
tx_data_i <= tx_data_i_next;
- spalte_up <= spalte_up_next;
- s_done <= s_done_next;
- if (char_en = '1') then
- char <= char_next;
- end if;
end if;
end process sync;
- async_push_history : process (rx_new, rx_data, btn_a)
- begin
- if rx_new = '1' then
- if rx_data = X"41" then
- push_history_next <= '1';
- else
- push_history_next <= '0';
- end if;
- elsif btn_a = '1' then
- push_history_next <= '1';
- else
- push_history_next <= '0';
- end if;
- end process async_push_history;
-
- output_pc : process (state, zeile, spalte, char, tx_done_i, spalte_up)
+ process (state, zeile, spalte, tx_data_i, tx_done, pc_char, rx_new, btn_a,
+ pc_done, rx_data)
+ variable tmp : std_logic_vector(6 downto 0);
begin
get_next <= '0';
new_i_next <= '0';
-
- spalte_up_next <= '0';
- s_done_next <= '0';
spalte_next <= spalte;
zeile_next <= zeile;
tx_data_i_next <= tx_data_i;
- if spalte_up = '1' then
- if spalte = hspalte_max then
- if zeile = hzeile_max then
- spalte_next <= 1;
- zeile_next <= 1;
- s_done_next <= '1';
- else
- spalte_next <= 1;
- zeile_next <= zeile + 1;
- end if;
- else
- spalte_next <= spalte + 1; --overflow here!
- zeile_next <= zeile;
- end if;
- end if;
-
+ state_next <= state;
case state is
when IDLE =>
- null;
- when FETCH =>
- get_next <= '1';
- char_en <= '1';
- when FORWARD =>
- char_en <= '0';
- tx_data_i_next <= char;
- new_i_next <= '1';
- if (tx_done_i = '1') then
- spalte_up_next <= '1';
+ zeile_next <= 0;
+ spalte_next <= 1;
+ if ((rx_new = '1' and rx_data = x"41") or btn_a = '0') and tx_done = '0' then
+ state_next <= PRINT_NO1;
end if;
- when DONE =>
- null;
- end case;
- end process output_pc;
-
- next_state_pc : process (rx_new, btn_a, d_done, tx_done_i, s_done)
- begin
- case state is
- when IDLE =>
- if rx_new = '1' or btn_a = '1' then
+ when PRINT_NO1 =>
+ tx_data_i_next <= x"28"; -- '('
+ new_i_next <= '1';
+ if tx_done = '1' then
+ state_next <= PRINT_NO1_WAIT;
+ end if;
+ when PRINT_NO1_WAIT =>
+ if tx_done = '0' then
+ state_next <= PRINT_NO2;
+ end if;
+ when PRINT_NO2 =>
+ tx_data_i_next <= zeile2char(std_logic_vector(to_unsigned(zeile,7)), 1);
+ new_i_next <= '1';
+ if tx_done = '1' then
+ state_next <= PRINT_NO2_WAIT;
+ end if;
+ when PRINT_NO2_WAIT =>
+ if tx_done = '0' then
+ state_next <= PRINT_NO3;
+ end if;
+ when PRINT_NO3 =>
+ tx_data_i_next <= zeile2char(std_logic_vector(to_unsigned(zeile,7)), 2);
+ new_i_next <= '1';
+ if tx_done = '1' then
+ state_next <= PRINT_NO3_WAIT;
+ end if;
+ when PRINT_NO3_WAIT =>
+ if tx_done = '0' then
+ state_next <= PRINT_NO4;
+ end if;
+ when PRINT_NO4 =>
+ tx_data_i_next <= x"29"; -- ')'
+ new_i_next <= '1';
+ if tx_done = '1' then
+ state_next <= PRINT_NO4_WAIT;
+ end if;
+ when PRINT_NO4_WAIT =>
+ if tx_done = '0' then
+ state_next <= PRINT_NO5;
+ end if;
+ when PRINT_NO5 =>
+ tx_data_i_next <= x"24"; -- '$'
+ new_i_next <= '1';
+ if tx_done = '1' then
+ state_next <= PRINT_NO5_WAIT;
+ end if;
+ when PRINT_NO5_WAIT =>
+ if tx_done = '0' then
+ state_next <= PRINT_NO6;
+ end if;
+ when PRINT_NO6 =>
+ tx_data_i_next <= x"20"; -- ' '
+ new_i_next <= '1';
+ if tx_done = '1' then
state_next <= FETCH;
end if;
+
when FETCH =>
- if (d_done = '1') then
+ get_next <= '1';
+ if pc_done = '1' and tx_done = '0' then
state_next <= FORWARD;
- elsif (s_done = '1') then
- state_next <= IDLE;
+ if pc_char = x"00" then
+ state_next <= UART_DONE;
+ end if;
end if;
when FORWARD =>
- if (tx_done_i = '1') then
+ tx_data_i_next <= pc_char;
+ new_i_next <= '1';
+ -- halte pc_get weiterhin high sodass pc_char garantiert
+ -- gleicht bleibt (blockiert history!)
+ get_next <= '1';
+ if tx_done = '1' then
+ state_next <= UART_DONE;
+ end if;
+ when UART_DONE =>
+ if tx_done = '0' then
state_next <= FETCH;
+ spalte_next <= spalte + 1;
+ if spalte = HSPALTE_MAX + 1 then
+ state_next <= NL;
+ spalte_next <= 1;
+ zeile_next <= zeile + 1;
+ end if;
+ end if;
+ when NL =>
+ tx_data_i_next <= x"0a";
+ new_i_next <= '1';
+ if tx_done = '1' then
+ state_next <= NL_WAIT;
+ end if;
+ when NL_WAIT =>
+ if tx_done = '0' then
+ state_next <= CR;
+ end if;
+ when CR =>
+ tx_data_i_next <= x"0d";
+ new_i_next <= '1';
+ if tx_done = '1' then
+ state_next <= CR_WAIT;
+ end if;
+ when CR_WAIT =>
+ if tx_done = '0' then
+ tmp := std_logic_vector(to_unsigned(zeile,7));
+ if tmp(0) = '0' then
+ -- es handelt sich um eingabe im naechsten schritt
+ -- => print zeilennummer
+ state_next <= PRINT_NO1;
+ else
+ state_next <= FETCH;
+ end if;
+ end if;
+ if zeile = HZEILE_MAX then
+ state_next <= IDLE;
end if;
- when DONE =>
- state_next <= IDLE;
end case;
- end process next_state_pc;
-
+ end process;
end architecture beh;