library ieee; use ieee.std_logic_1164.all; package QueueP is -- simple queue protected type -- inspired by noasic article http://noasic.com/blog/a-simple-fifo-using-vhdl-protected-types/ type t_simple_queue is protected procedure push (data : in std_logic_vector); procedure pop (data : out std_logic_vector); impure function is_empty return boolean; impure function is_full return boolean; impure function fillstate return natural; impure function freeslots return natural; end protected t_simple_queue; -- linked list queue type t_list_queue is protected procedure push (data : in std_logic_vector); procedure pop (data : out std_logic_vector); impure function is_empty return boolean; impure function is_full return boolean; impure function fillstate return natural; impure function freeslots return natural; end protected t_list_queue; end package QueueP; package body QueueP is type t_simple_queue is protected body constant C_QUEUE_DEPTH : natural := 64; constant C_QUEUE_WIDTH : natural := 64; type t_queue_array is array (0 to C_QUEUE_DEPTH-1) of std_logic_vector(C_QUEUE_WIDTH-1 downto 0); variable v_queue : t_queue_array := (others => (others => '0')); variable v_count : natural range 0 to t_queue_array'length := 0; variable v_head : natural range 0 to t_queue_array'high := 0; variable v_tail : natural range 0 to t_queue_array'high := 0; -- write one entry into queue procedure push (data : in std_logic_vector) is begin assert not(is_full) report "push into full queue -> discarded" severity failure; v_queue(v_head) := data; v_head := (v_head + 1) mod t_queue_array'length; v_count := v_count + 1; end procedure push; -- read one entry from queue procedure pop (data : out std_logic_vector) is begin assert not(is_empty) report "pop from empty queue -> discarded" severity failure; data := v_queue(v_tail); v_tail := (v_tail + 1) mod t_queue_array'length; v_count := v_count - 1; end procedure pop; -- returns true if queue is empty, false otherwise impure function is_empty return boolean is begin return v_count = 0; end function is_empty; -- returns true if queue is full, false otherwise impure function is_full return boolean is begin return v_count = t_queue_array'length; end function is_full; -- returns number of filled slots in queue impure function fillstate return natural is begin return v_count; end function fillstate; -- returns number of free slots in queue impure function freeslots return natural is begin return t_queue_array'length - v_count; end function freeslots; end protected body t_simple_queue; type t_list_queue is protected body constant C_QUEUE_DEPTH : natural := 64; constant C_QUEUE_WIDTH : natural := 64; type t_entry; type t_entry_ptr is access t_entry; type t_entry is record data : std_logic_vector(C_QUEUE_WIDTH-1 downto 0); last_entry : t_entry_ptr; next_entry : t_entry_ptr; end record t_entry; variable v_head : t_entry_ptr; variable v_tail : t_entry_ptr; variable v_count : natural range 0 to C_QUEUE_DEPTH := 0; -- write one entry into queue procedure push (data : in std_logic_vector) is begin assert not(is_full) report "push into full queue -> discarded" severity failure; if(v_head /= null) then v_head := new t_entry'(data, v_head, null); v_head.last_entry.next_entry := v_head; else v_head := new t_entry'(data, null, null); v_tail := v_head; end if; v_count := v_count + 1; end procedure push; -- read one entry from queue procedure pop (data : out std_logic_vector) is variable v_entry : t_entry_ptr; begin assert not(is_empty) report "pop from empty queue -> discarded" severity failure; data := v_tail.data; v_entry := v_tail; v_tail := v_tail.next_entry; deallocate(v_entry); v_count := v_count - 1; end procedure pop; -- returns true if queue is empty, false otherwise impure function is_empty return boolean is begin return v_tail = null; end function is_empty; -- returns true if queue is full, false otherwise impure function is_full return boolean is begin return v_count = C_QUEUE_DEPTH; end function is_full; -- returns number of filled slots in queue impure function fillstate return natural is begin return v_count; end function fillstate; -- returns number of free slots in queue impure function freeslots return natural is begin return C_QUEUE_DEPTH - v_count; end function freeslots; end protected body t_list_queue; end package body QueueP;