3 use IEEE.std_logic_1164.all;
4 use IEEE.numeric_std.all;
6 use work.common_pkg.all;
7 --use work.core_extension.all;
12 type status_rec is record
19 subtype status_t is byte_t;
20 --type alu_interal_rec is record
22 --end record alu_internal_rec;
24 type alu_result_rec is record
25 result : gp_register_t;
26 result_addr : gp_addr_t;
29 --stackpointer : gp_register_t;
36 --new_val : std_logic;
43 end record alu_result_rec;
45 constant SHIFT_WIDTH : integer := 4; --log2c(gp_register_t'length);
47 constant COND_ZERO : condition_t := "0001";
48 constant COND_NZERO : condition_t := "0000";
49 constant COND_NOFLO : condition_t := "0010";
50 constant COND_OFLO : condition_t := "0011";
51 constant COND_NCARRY : condition_t := "0100";
52 constant COND_CARRY : condition_t := "0101";
53 constant COND_NSIGN : condition_t := "0110";
54 constant COND_SIGN : condition_t := "0111";
56 constant COND_ABOVE : condition_t := "1000";
57 constant COND_BEQ: condition_t := "1001";
58 constant COND_GEQ : condition_t := "1010";
59 constant COND_LT : condition_t := "1011";
60 constant COND_GT : condition_t := "1100";
62 constant COND_LEQ : condition_t := "1101";
63 constant COND_ALWAYS : condition_t := "1110";
64 constant COND_NEVER : condition_t := "1111";
66 function add_oflo(l_neg, r_neg, res_neg : std_logic) return std_logic;
67 -- function addsub_op(left_operand, right_operand : gp_register_t; sub, addc : std_logic; alu_result : alu_result_rec) return alu_result_rec;
69 -- function and_op(left_operand, right_operand : gp_register_t; alu_result : alu_result_rec) return alu_result_rec;
70 -- function or_op(left_operand, right_operand : gp_register_t; alu_result : alu_result_rec) return alu_result_rec;
71 -- function xor_op(left_operand, right_operand : gp_register_t; alu_result : alu_result_rec) return alu_result_rec;
73 -- function shift_op(left_operand, right_operand : gp_register_t; arith,sleft,carry : std_logic ;alu_result : alu_result_rec) return alu_result_rec;
76 --some modules won't need all inputs
83 cond : in condition_t;
84 op_group : in op_info_t;
85 left_operand : in gp_register_t;
86 right_operand : in gp_register_t;
87 displacement : in gp_register_t;
88 prog_cnt : in instr_addr_t;
89 op_detail : in op_opt_t;
90 alu_state : in alu_result_rec;
91 alu_result : out alu_result_rec;
92 addr : out word_t; --memaddr
93 data : out gp_register_t --mem data --ureg
99 package body alu_pkg is
101 function add_oflo(l_neg, r_neg , res_neg: std_logic) return std_logic is
103 return (l_neg AND r_neg AND not(res_neg)) OR
104 (not(l_neg) AND not(r_neg) AND res_neg);
105 end function add_oflo;
107 -- function addsub_op(left_operand, right_operand : gp_register_t; sub, addc : std_logic; alu_result : alu_result_rec) return alu_result_rec is
108 -- variable alu_result_out : alu_result_rec;
109 -- variable complement : gp_register_t;
110 -- variable carry_res : unsigned(gp_register_t'length downto 0);
111 -- variable tmp_right_operand : unsigned(gp_register_t'length downto 0);
112 -- variable oflo1, oflo2, l_neg, r_neg : std_logic;
113 -- variable addcarry : unsigned(carry_res'range);
115 -- alu_result_out := alu_result;
117 -- addcarry := (others =>'0');
118 -- addcarry(0) := unsigned(alu_result.status.carry and addc);
120 -- complement := inc(not(right_operand));
121 -- l_neg := left_operand(gp_register_t'high);
123 -- carry_res := unsigned('0' & left_operand)+addcarry;
124 -- oflo1 := add_oflo(l_neg,'0',std_logic_vector(carry_res)(gp_register_t'high));
127 -- tmp_right_operand := unsigned('0' & complement);
129 -- tmp_right_operand := unsigned('0' & right_operand);
132 -- l_neg := std_logic_vector(carry_res)(gp_register_t'high);
133 -- r_neg := std_logic_vector(tmp_right_operand)(gp_register_t'high);
135 -- carry_res := carry_res + tmp_right_operand;
136 -- oflo2 := add_oflo(l_neg,r_neg,std_logic_vector(carry_res)(gp_register_t'high));
139 -- alu_result_out.result := std_logic_vector(carry_res)(gp_register_t'range);
140 -- alu_result_out.status.carry := std_logic_vector(carry_res)(carry_res'high);
143 -- alu_result_out.status.carry := oflo1 or oflo2;
145 -- --sign will be set globally.
146 -- --zero will be set globally.
148 -- return alu_result_out;
149 -- end function addsub_op;
151 -- function and_op(left_operand, right_operand : gp_register_t; alu_result : alu_result_rec) return alu_result_rec is
152 -- variable alu_result_out : alu_result_rec;
154 -- alu_result_out := alu_result;
155 -- alu_result_out.result := left_operand and right_operand;
156 -- end function and_op;
158 -- function or_op(left_operand, right_operand : gp_register_t; alu_result : alu_result_rec) return alu_result_rec is
159 -- variable alu_result_out : alu_result_rec;
161 -- alu_result_out := alu_result;
162 -- alu_result_out.result := left_operand or right_operand;
163 -- end function or_op;
165 -- function xor_op(left_operand, right_operand : gp_register_t; alu_result : alu_result_rec) return alu_result_rec is
166 -- variable alu_result_out : alu_result_rec;
168 -- alu_result_out := alu_result;
169 -- alu_result_out.result := left_operand xor right_operand;
170 -- end function xor_op;
172 -- function shift_op(left_operand, right_operand : gp_register_t; arith,rs,carry : std_logic ;alu_result : alu_result_rec) return alu_result_rec is
173 -- variable alu_result_out : alu_result_rec;
174 -- variable tmp_shift : bit_vector(gp_register_t'length+1 downto 0);
175 -- variable tmp_sb : std_logic;
177 -- alu_result_out := alu_result;
180 -- tmp_sb := (carry and alu_result.status.carry and not(arith)) or (arith and left_operand(gp_register_t'high));
181 -- tmp_shift := bit_vector(tmp_sb & left_operand & alu_result.status.carry);
182 -- tmp_shift := tmp_shift sra to_integer(unsigned(right_operand)(SHIFT_WIDTH-1 downto 0));
184 -- alu_result_out.status.carry := std_logic_vector(tmp_shift)(0);
186 -- tmp_sb := (carry and alu_result.status.carry and not(arith));
187 -- tmp_shift := bit_vector(alu_result.status.carry & left_operand & tmp_sb);
188 -- tmp_shift := tmp_shift sla to_integer(unsigned(right_operand)(SHIFT_WIDTH-1 downto 0));
190 -- alu_result_out.status.carry := std_logic_vector(tmp_shift)(tmp_shift'high);
193 -- alu_result_out.result := std_logic_vector(tmp_shift)(gp_register_t'length downto 1);
195 -- end function shift_op;
197 end package body alu_pkg;