- BlackJack(21点)游戏
BlackJack即我们所熟悉的21点游戏,这是一种扑克牌游戏。
玩这个游戏需要一副扑克牌。从2个花到10个花的牌值就是牌花的点数,而A的牌值可以为1或者11.
- Verilog实现思路:
参考J.BHASKER的《Verilog HDL入门》,实现思路如下:
程序的输入包括牌值信号card_value,位宽为4,发牌准备信号card_rdy,以及时钟信号clock.
程序的输出包括获胜信号win,失败信号lost,以及准备好接收新牌信号request_card,这个信号的作用在于反馈回输入,牌值累加已经完成,可以发牌。
此外,内部处理需要当前状态信号bj_state,牌值总和信号total,位宽为5,牌值保存信号current_card_value,位宽为4,以及一个非常重要的A值的判别信号ace_as_11,其值为真是A作11,其值为假时,A作1.
采用状态机方式描绘这个程序,一共需要8个状态,分别为:
INITIAL_ST:初始状态,完成信号归零。
GETCARD_ST:接牌状态,card_rdy为高时,将牌值存储在内部信号内。
REMCARD_ST:将牌移走,进行运算。
ADD_ST:牌值累加,累加结果放在total信号内。
CHECK_ST:检查输赢状态。如果total信号值低于17,转入GETCARD_ST,再接收新牌;如果total信号值高于等于17,低于22,则判为赢,转入WIN_ST状态;否则进入BACKUP_ST状态,将A值置为1,再进行判断。
BACKUP_ST:这个状态中total值高于21,此时判断ace_as_11信号,其为高则total作减10处理,否则,判定为负。
LOST_ST: lost信号输出为高,并将程序置为准备好接收新牌,等待发牌准备完成信号。
WIN_ST: win信号输出为高,并将程序置为准备好接收新牌,等待发牌准备完成信号。
- 代码
`timescale 1ns/1ns
module blackjack(card_rdy,card_value,request_card,win,lost,clock);
input card_rdy,clock;
input [0:3] card_value;
output win,lost,request_card;
parameter INITIAL_ST = 0,GETCARD_ST = 1, REMCARD_ST = 2,ADD_ST = 3, CHECK_ST = 4,
WIN_ST = 5,BACKUP_ST = 6, LOST_ST = 7;
reg request_card,win,lost;
reg [0:2] bj_state;
reg [0:3] current_card_value;
reg [0:4] total;
reg ace_as_11;
always @(negedge clock)
case(bj_state)
INITIAL_ST:
begin
total <= 0;
ace_as_11 <= 0;
win <= 0;
lost <= 0;
bj_state <= GETCARD_ST;
end
GETCARD_ST:
begin
request_card <= 1;
if(card_rdy)
begin
current_card_value <= card_value;
bj_state <= REMCARD_ST;
end
end
REMCARD_ST:
if(card_rdy)
request_card <= 0;
else
bj_state <= ADD_ST;
ADD_ST:
begin
if(~ace_as_11 && current_card_value)
begin
current_card_value <= 11;
ace_as_11 <= 1;
end
total <= total + current_card_value;
bj_state <= CHECK_ST;
end
CHECK_ST:
if(total < 17)
bj_state <= GETCARD_ST;
else
begin
if(total < 22)
bj_state <= WIN_ST;
else
bj_state <= BACKUP_ST;
end
BACKUP_ST:
if(ace_as_11)
begin
total <= total - 10;
ace_as_11 <= 0;
bj_state <= CHECK_ST;
end
else
bj_state <= LOST_ST;
LOST_ST:
begin
lost <= 1;
request_card <= 1;
if(card_rdy)
bj_state <= INITIAL_ST;
end
WIN_ST:
begin
win <= 1;
request_card <= 1;
if(card_rdy)
bj_state <= INITIAL_ST;
end
default: bj_state <= INITIAL_ST;
endcase
endmodule
module blackjack_tb;
reg clock,card_rdy;
reg [0:3]card_value;
wire win,lost,request_card;
blackjack U1(.card_rdy(card_rdy),.clock(clock),.card_value(card_value),.win(win),.lost(lost),.request_card(request_card));
always #50 clock = !clock;
initial
begin
clock = 0;
card_rdy = 0;
card_value = 4'b0;
wait(request_card == 1)
begin
#50 card_rdy = 1;
card_value = 3;
#200 card_rdy =0;
end
wait(request_card == 1)
begin
#50 card_rdy = 1;
card_value = 4;
#200 card_rdy =0;
end
wait(request_card == 1)
begin
#50 card_rdy = 1;
card_value = 5;
#200 card_rdy =0;
end
wait(request_card == 1)
begin
#50 card_rdy = 1;
card_value = 1;
#200 card_rdy =0;
end
wait(request_card == 1)
begin
#50 card_rdy = 1;
card_value = 8;
#200 card_rdy =0;
end
end
endmodule
