]> Joshua Wise's Git repositories - firearm.git/blobdiff - Decode.v
Add wires for ALU.
[firearm.git] / Decode.v
index 42ae993020203e08b3b908acbdddc40930bab1bd..d07b95a7d1d8f4e3b59fc48e4bfbaaf45f70011f 100644 (file)
--- a/Decode.v
+++ b/Decode.v
@@ -10,34 +10,40 @@ module Decode(
        output reg [31:0] op2,
        output reg carry,
 
-       output [3:0] read_0,
-       output [3:0] read_1,
-       output [3:0] read_2,
+       output reg [3:0] read_0,
+       output reg [3:0] read_1,
+       output reg [3:0] read_2,
        input [31:0] rdata_0,
        input [31:0] rdata_1,
        input [31:0] rdata_2
        );
 
-       wire [31:0] regs0, regs1, regs2, rpc;
-       wire [31:0] op0_out, op1_out, op2_out;
-       wire carry_out;
+       wire [31:0] regs0, regs1, regs2;
+       reg [31:0] rpc;
+       reg [31:0] op0_out, op1_out, op2_out;
+       reg carry_out;
 
        /* shifter stuff */
        wire [31:0] shift_oper;
        wire [31:0] shift_res;
        wire shift_cflag_out;
+       wire [31:0] rotate_res;
 
        assign regs0 = (read_0 == 4'b1111) ? rpc : rdata_0;
        assign regs1 = (read_1 == 4'b1111) ? rpc : rdata_1;
        assign regs2 = rdata_2; /* use regs2 for things that cannot be r15 */
 
-       IHATEARMSHIFT blowme(.insn(insn),
-                            .operand(regs1),
-                            .reg_amt(regs2),
-                            .cflag_in(incpsr[`CPSR_C]),
-                            .res(shift_res),
-                            .cflag_out(shift_cflag_out));
-       
+       IREALLYHATEARMSHIFT blowme(.insn(insn),
+                                  .operand(regs1),
+                                  .reg_amt(regs2),
+                                  .cflag_in(incpsr[`CPSR_C]),
+                                  .res(shift_res),
+                                  .cflag_out(shift_cflag_out));
+
+       SuckLessRotator whirr(.oper({24'b0, insn[7:0]}),
+                             .amt(insn[11:8]),
+                             .res(rotate_res));
+
        always @(*)
                casez (insn)
                32'b????000000??????????????1001????,   /* Multiply -- must come before ALU, because it pattern matches a specific case of ALU */
@@ -152,7 +158,7 @@ module Decode(
                end
                 32'b????00?10?1010001111????????????: begin /* MSR (Transfer register or immediate to PSR, flag bits only) */
                        if(insn[25]) begin     /* the constant case */
-                               op0_out = ({24'b0, insn[7:0]} >> {insn[11:8], 1'b0}) | ({24'b0, insn[7:0]} << (5'b0 - {insn[11:8], 1'b0}));
+                               op0_out = rotate_res;
                        end else begin
                                op0_out = regs0;
                        end
@@ -161,7 +167,7 @@ module Decode(
                        op0_out = regs0;
                        if(insn[25]) begin     /* the constant case */
                                carry_out = incpsr[`CPSR_C];
-                               op1_out = ({24'b0, insn[7:0]} >> {insn[11:8], 1'b0}) | ({24'b0, insn[7:0]} << (5'b0 - {insn[11:8], 1'b0}));
+                               op1_out = rotate_res;
                        end else begin
                                carry_out = shift_cflag_out;
                                op1_out = shift_res;
@@ -226,50 +232,109 @@ module Decode(
 
 endmodule
 
-module IHATEARMSHIFT(
+module IREALLYHATEARMSHIFT(
        input [31:0] insn,
        input [31:0] operand,
        input [31:0] reg_amt,
        input cflag_in,
-       output [31:0] res,
-       output cflag_out
+       output reg [31:0] res,
+       output reg cflag_out
 );
        wire [5:0] shift_amt;
-       wire elanus;
+       reg is_arith, is_rot;
+       wire rshift_cout;
+       wire [31:0] rshift_res;
+
+       assign shift_amt = insn[4] ? {|reg_amt[7:5], reg_amt[4:0]}     /* reg-specified shift */
+                                  : {insn[11:7] == 5'b0, insn[11:7]}; /* immediate shift */
 
+       SuckLessShifter biteme(.oper(operand),
+                              .carryin(cflag_in),
+                              .amt(shift_amt),
+                              .is_arith(is_arith),
+                              .is_rot(is_rot),
+                              .res(rshift_res),
+                              .carryout(rshift_cout));
 
-       /* might want to write our own damn shifter that does arithmetic/logical efficiently and stuff */
        always @(*)
-               if(insn[4]) begin
-                       shift_amt = {|reg_amt[7:5], reg_amt[4:0]};
-                       elanus = 1'b1;
-               end else begin
-                       shift_amt = {insn[11:7] == 5'b0, insn[11:7]};
-                       elanus = 1'b0;
+               case (insn[6:5])
+               `SHIFT_LSL: begin
+                       /* meaningless */
+                       is_rot = 1'b0;
+                       is_arith = 1'b0;
                end
-       
+               `SHIFT_LSR: begin
+                       is_rot = 1'b0;
+                       is_arith = 1'b0;
+               end
+               `SHIFT_ASR: begin
+                       is_rot = 1'b0;
+                       is_arith = 1'b1;
+               end
+               `SHIFT_ROR: begin
+                       is_rot = 1'b1;
+                       is_arith = 1'b0;
+               end
+               endcase
+
        always @(*)
                case (insn[6:5]) /* shift type */
-               `SHIFT_LSL: begin
-                       {cflag_out, res} = {cflag_in, operand} << {elanus & shift_amt[5], shift_amt[4:0]};
-               end
+               `SHIFT_LSL:
+                       {cflag_out, res} = {cflag_in, operand} << {insn[4] & shift_amt[5], shift_amt[4:0]};
                `SHIFT_LSR: begin
-                       {res, cflag_out} = {operand, cflag_in} >> shift_amt;
+                       res = rshift_res;
+                       cflag_out = rshift_cout;
                end
                `SHIFT_ASR: begin
-                       {res, cflag_out} = {operand, cflag_in} >> shift_amt | (operand[31] ? ~(33'h1FFFFFFFF >> shift_amt) : 33'b0);
+                       res = rshift_res;
+                       cflag_out = rshift_cout;
                end
                `SHIFT_ROR: begin
-                       if(!elanus && shift_amt[4:0] == 5'b0) begin /* RRX x.x */
+                       if(!insn[4] && shift_amt[4:0] == 5'b0) begin /* RRX x.x */
                                res = {cflag_in, operand[31:1]};
                                cflag_out = operand[0];
-                       end else if(shift_amt == 6'b0) begin
-                               res = operand;
-                               cflag_out = cflag_in;
                        end else begin
-                               res = operand >> shift_amt[4:0] | operand << (5'b0 - shift_amt[4:0]);
-                               cflag_out = operand[shift_amt[4:0] - 5'b1];
+                               res = rshift_res;
+                               cflag_out = rshift_cout;
                        end
                end
                endcase
 endmodule
+
+module SuckLessShifter(
+       input [31:0] oper,
+       input carryin,
+       input [5:0] amt,
+       input is_arith,
+       input is_rot,
+       output wire [31:0] res,
+       output wire carryout
+);
+
+       wire [32:0] stage1, stage2, stage3, stage4, stage5;
+
+       wire pushbits = is_arith & oper[31];
+
+       /* do a barrel shift */
+       assign stage1 = amt[5] ? {is_rot ? oper : {32{pushbits}}, oper[31]} : {oper, carryin};
+       assign stage2 = amt[4] ? {is_rot ? stage1[16:1] : {16{pushbits}}, stage1[32:17], stage1[16]} : stage1;
+       assign stage3 = amt[3] ? {is_rot ? stage2[8:1] : {8{pushbits}}, stage2[32:9], stage2[8]} : stage2;
+       assign stage4 = amt[2] ? {is_rot ? stage3[4:1] : {4{pushbits}}, stage3[32:5], stage3[4]} : stage3;
+       assign stage5 = amt[1] ? {is_rot ? stage4[2:1] : {2{pushbits}}, stage4[32:3], stage4[2]} : stage4;
+       assign {res, carryout} = amt[0] ? {is_rot ? stage5[1] : pushbits, stage5[32:2], stage5[1]} : stage5;
+
+endmodule
+
+module SuckLessRotator(
+       input [31:0] oper,
+       input [3:0] amt,
+       output wire [31:0] res
+);
+
+       wire [31:0] stage1, stage2, stage3;
+       assign stage1 = amt[3] ? {oper[15:0], oper[31:16]} : oper;
+       assign stage2 = amt[2] ? {stage1[7:0], stage1[31:8]} : stage1;
+       assign stage3 = amt[1] ? {stage2[3:0], stage2[31:4]} : stage2;
+       assign res    = amt[0] ? {stage3[1:0], stage3[31:2]} : stage3;
+
+endmodule
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