Remove enum from control.v using find&replace

This should be functionally identical
This commit is contained in:
Aadi Desai 2020-12-19 15:40:29 +00:00
parent 0d731c74b2
commit 76fbc7d5c4

View file

@ -14,200 +14,136 @@ module mips_cpu_control(
output logic CtrlSpcRegWriteEn
);
typedef enum logic[5:0]{
SPECIAL = 6'd0,
REGIMM = 6'd1,
J = 6'd2,
JAL = 6'd3,
BEQ = 6'd4,
BNE = 6'd5,
BLEZ = 6'd6,
BGTZ = 6'd7,
ADDI = 6'd8,
ADDIU = 6'd9,
SLTI = 6'd10,
SLTIU = 6'd11,
ANDI = 6'd12,
ORI = 6'd13,
XORI = 6'd14,
LUI = 6'd15,
LB = 6'd32,
LH = 6'd33,
LWL = 6'd34,
LW = 6'd35,
LBU = 6'd36,
LHU = 6'd37,
LWR = 6'd38,
SB = 6'd40,
SH = 6'd41,
SW = 6'd43
} op_enum;
op_enum op;
logic[5:0] op, funct;
logic[4:0] rt;
typedef enum logic[5:0]{
SLL = 6'd0,
SRL = 6'd2,
SRA = 6'd3,
SLLV = 6'd4,
SRLV = 6'd6,
SRAV = 6'd7,
JR = 6'd8,
JALR = 6'd9,
MFLO = 6'd18,
MFHI = 6'd16,
MTHI = 6'd17,
MTLO = 6'd19,
MULT = 6'd24,
MULTU = 6'd25,
DIV = 6'd26,
DIVU = 6'd27,
ADDU = 6'd33,
SUBU = 6'd35,
AND = 6'd36,
OR = 6'd37,
XOR = 6'd38,
SLT = 6'd42,
SLTU = 6'd43
} funct_enum;
funct_enum funct;
typedef enum logic[4:0]{
BLTZ = 5'd0,
BGEZ = 5'd1,
BLTZAL = 5'd16,
BGEZAL = 5'd17
} rt_enum;
rt_enum rt;
always @(*) begin
assign op = Instr[31:26];
assign funct = Instr[5:0];
assign rt = Instr[20:16];
always @(*) begin
//CtrlRegDst logic
if((op==ADDIU) || (op==ANDI) || (op==LB) || (op==LBU) || (op==LH) || (op==LHU) || (op==LUI) || (op==LW) || (op==LWL) || (op==LWR) || (op==ORI) || (op==SLTI) || (op==SLTIU) || (op==XORI))begin
if((op==6'd9) || (op==6'd12) || (op==6'd32) || (op==6'd36) || (op==6'd33) || (op==6'd37) || (op==6'd15) || (op==6'd35) || (op==6'd34) || (op==6'd38) || (op==6'd13) || (op==6'd10) || (op==6'd11) || (op==6'd14))begin
CtrlRegDst = 2'd0; //Write address comes from rt
end else if ((op==SPECIAL)&&((funct==ADDU) || (funct==AND) || (funct==JALR) || (funct==MFLO) || (funct==MFHI) || (funct==OR) || (funct==SLL) || (funct==SLLV) || (funct==SLT) || (funct==SLTU) || (funct==SRA) || (funct==SRAV) || (funct==SRL) || (funct==SRLV) || (funct==SUBU) || (funct==XOR)))begin
end else if ((op==6'd0)&&((funct==6'd33) || (funct==6'd36) || (funct==6'd9) || (funct==6'd18) || (funct==6'd16) || (funct==6'd37) || (funct==6'd0) || (funct==6'd4) || (funct==6'd42) || (funct==6'd43) || (funct==6'd3) || (funct==6'd7) || (funct==6'd2) || (funct==6'd6) || (funct==6'd35) || (funct==6'd38)))begin
CtrlRegDst = 2'd1; //Write address comes from rd
end else if ((op == JAL) || ((op==REGIMM)&&((rt==BGEZAL) || (rt==BLTZAL))))begin
end else if ((op == 6'd3) || ((op==6'd1)&&((rt==5'd17) || (rt==5'd16))))begin
CtrlRegDst = 2'd2; //const reg 31, for writing to the link register
end else begin CtrlRegDst = 1'bx; end//Not all instructions are encompassed so, added incase for debug purposes
//CtrlPC logic
if(ALUCond && ((op==BEQ) || (op==BGTZ) || (op==BLEZ) || (op==BNE) || ((op==REGIMM)&&((rt==BGEZ) || (rt==BGEZAL) || (rt==BLTZ) || (rt==BLTZAL)))))begin
if(ALUCond && ((op==6'd4) || (op==6'd7) || (op==6'd6) || (op==6'd5) || ((op==6'd1)&&((rt==5'd1) || (rt==5'd17) || (rt==5'd0) || (rt==5'd16)))))begin
CtrlPC = 2'd1; // Branches - Jumps relative to PC
end else if((op==J) || (op==JAL))begin
CtrlPC = 2'd2; // Jumps within 256MB Region using 26-bit immediate in J type instruction
end else if((op==SPECIAL)&&((funct==JR) || (funct==JALR)))begin
end else if((op==6'd2) || (op==6'd3))begin
CtrlPC = 2'd2; // Jumps within 256MB Region using 26-bit immediate in 6'd2 type instruction
end else if((op==6'd0)&&((funct==6'd8) || (funct==6'd9)))begin
CtrlPC = 2'd3; // Jumps using Register.
end else begin CtrlPC = 2'd0; end // No jumps or branches, just increment to next word
//CtrlMemRead and CtrlMemtoReg logic -- Interesting quirk that they have the same logic where both are concerned. Makes sense bc you'd only want to select the read data out when the memory itself is read enabled.
if((op==LB) || (op==LBU) || (op==LH) || (op==LHU) || (op==LW) || (op==LWL) || (op==LWR))begin
if((op==6'd32) || (op==6'd36) || (op==6'd33) || (op==6'd37) || (op==6'd35) || (op==6'd34) || (op==6'd38))begin
CtrlMemRead = 1;//Memory is read enabled
CtrlMemtoReg = 3'd1;//write data port of regfile is fed from data memory
end else if ((op==ADDIU) || (op==ANDI) || (op==ORI) || (op==LUI) || (op==SLTI) || (op==SLTIU) || (op==XORI) || ((op==SPECIAL)&&((funct==ADDU) || (funct==AND) || (funct==OR) || (funct==SLL) || (funct==SLLV) || (funct==SLT) || (funct==SLTU) || (funct==SRA) || (funct==SRAV) || (funct==SRL) || (funct==SRLV) || (funct==SUBU) || (funct==XOR))))begin
end else if ((op==6'd9) || (op==6'd12) || (op==6'd13) || (op==6'd15) || (op==6'd10) || (op==6'd11) || (op==6'd14) || ((op==6'd0)&&((funct==6'd33) || (funct==6'd36) || (funct==6'd37) || (funct==6'd0) || (funct==6'd4) || (funct==6'd42) || (funct==6'd43) || (funct==6'd3) || (funct==6'd7) || (funct==6'd2) || (funct==6'd6) || (funct==6'd35) || (funct==6'd38))))begin
CtrlMemRead = 0;//Memory is read disabled
CtrlMemtoReg = 3'd0;//write data port of regfile is fed from ALURes
end else if ((op==JAL) || ((op==SPECIAL)&&(funct == JALR)) || ((op==REGIMM)&&((rt==BGEZAL) || (rt==BLTZAL))))begin
end else if ((op==6'd3) || ((op==6'd0)&&(funct == 6'd9)) || ((op==6'd1)&&((rt==5'd17) || (rt==5'd16))))begin
CtrlMemtoReg = 3'd2;//write data port of regfile is fed from PC + 8
end else if ((op==SPECIAL)&&(funct == MFHI))begin
end else if ((op==6'd0)&&(funct == 6'd16))begin
CtrlMemtoReg = 3'd3;//write data port of regfile is fed from ALUHi
end else if ((op==SPECIAL)&&(funct == MFLO))begin
end else if ((op==6'd0)&&(funct == 6'd18))begin
CtrlMemtoReg = 3'd4;//write data port of regfile is fed from ALULo
end else if (((op==SPECIAL)&&(funct == JR)) || (op == BEQ) || (op==SW) ||((op==REGIMM)&&(rt==BGEZ)) || (op==BGTZ) || ((op==REGIMM)&&(rt==BLTZ)) || (op==BLEZ) || (op==BNE) || (op==J) || ((op==SPECIAL)&&(funct==MTHI)) || ((op==SPECIAL)&&(funct==MTLO)) || ((op==SPECIAL)&&(funct==MULT)) || ((op==SPECIAL)&&(funct==MULTU)) || ((op==SPECIAL)&&(funct==DIV)) || ((op==SPECIAL)&&(funct==DIVU)) || (op==SB) || (op==SH))begin
end else if (((op==6'd0)&&(funct == 6'd8)) || (op == 6'd4) || (op==6'd43) ||((op==6'd1)&&(rt==5'd1)) || (op==6'd7) || ((op==6'd1)&&(rt==5'd0)) || (op==6'd6) || (op==6'd5) || (op==6'd2) || ((op==6'd0)&&(funct==6'd17)) || ((op==6'd0)&&(funct==6'd19)) || ((op==6'd0)&&(funct==6'd24)) || ((op==6'd0)&&(funct==6'd25)) || ((op==6'd0)&&(funct==6'd26)) || ((op==6'd0)&&(funct==6'd27)) || (op==6'd40) || (op==6'd41))begin
CtrlMemRead = 0;//Read disabled during jump
end else begin CtrlMemRead = 1'bx;end//Not all instructions are encompassed so, added incase for debug purposes
//CtrlALUOp Logic
if((op==ADDIU) || ((op==SPECIAL)&&(funct==ADDU)))begin
if((op==6'd9) || ((op==6'd0)&&(funct==6'd33)))begin
CtrlALUOp = 5'd0; //ADD from ALUOps
end else if((op==ANDI) || ((op==SPECIAL)&&(funct==AND)))begin
CtrlALUOp = 5'd4;//AND from ALUOps
end else if(op==BEQ) begin
end else if((op==6'd12) || ((op==6'd0)&&(funct==6'd36)))begin
CtrlALUOp = 5'd4;//6'd36 from ALUOps
end else if(op==6'd4) begin
CtrlALUOp = 5'd13;//EQ from ALUOps
end else if((op==REGIMM)&&((rt==BGEZ) || (rt==BGEZAL)))begin
end else if((op==6'd1)&&((rt==5'd1) || (rt==5'd17)))begin
CtrlALUOp = 5'd17;//GEQ from ALUOps
end else if(op==BGTZ)begin
end else if(op==6'd7)begin
CtrlALUOp = 5'd16;//GRT from ALUOps
end else if(op==BLEZ)begin
end else if(op==6'd6)begin
CtrlALUOp = 5'd15;//LEQ from ALUOps
end else if((op==REGIMM)&&((rt==BLTZ) || (rt==BLTZAL)))begin
end else if((op==6'd1)&&((rt==5'd0) || (rt==5'd16)))begin
CtrlALUOp = 5'd14;//LES from ALUOps
end else if(op==BNE)begin
end else if(op==6'd5)begin
CtrlALUOp = 5'd18;//NEQ from ALUOps
end else if((op==SPECIAL)&&(funct==DIV))begin
CtrlALUOp = 5'd3;//DIV from ALUOps
end else if((op==SPECIAL)&&(funct==DIVU))begin
CtrlALUOp = 5'd23;//DIVU from ALUOps
end else if((op==LB) || (op==LBU) || (op==LH) || (op==LHU) || (op==LW) || (op==LWL) || (op==LWR) || (op==SB) || (op==SH) || (op==SW))begin
end else if((op==6'd0)&&(funct==6'd26))begin
CtrlALUOp = 5'd3;//6'd26 from ALUOps
end else if((op==6'd0)&&(funct==6'd27))begin
CtrlALUOp = 5'd23;//6'd27 from ALUOps
end else if((op==6'd32) || (op==6'd36) || (op==6'd33) || (op==6'd37) || (op==6'd35) || (op==6'd34) || (op==6'd38) || (op==6'd40) || (op==6'd41) || (op==6'd43))begin
CtrlALUOp = 5'd0;//ADD from ALUOps
end else if(op==LUI)begin
CtrlALUOp = 5'd7;//SLL from ALUOps
end else if((op==SPECIAL)&&((funct==MTHI)))begin
CtrlALUOp = 5'd24;//MTHI from ALUOps
end else if((op==SPECIAL)&&((funct==MTLO)))begin
CtrlALUOp = 5'd25;//MTLO from ALUOps
end else if((op==SPECIAL)&&(funct==MULT))begin
end else if(op==6'd15)begin
CtrlALUOp = 5'd7;//6'd0 from ALUOps
end else if((op==6'd0)&&((funct==6'd17)))begin
CtrlALUOp = 5'd24;//6'd17 from ALUOps
end else if((op==6'd0)&&((funct==6'd19)))begin
CtrlALUOp = 5'd25;//6'd19 from ALUOps
end else if((op==6'd0)&&(funct==6'd24))begin
CtrlALUOp = 5'd2;//MUL from ALUOps
end else if((op==SPECIAL)&&(funct==MULTU))begin
end else if((op==6'd0)&&(funct==6'd25))begin
CtrlALUOp = 5'd22;//MULU from ALUOps
end else if((op==ORI) || ((op==SPECIAL)&&(funct==OR)))begin
CtrlALUOp = 5'd5;//OR from ALUOps
end else if((op==SPECIAL)&&(funct==SLL))begin
CtrlALUOp = 5'd7;//SLL from ALUOps
end else if((op==SPECIAL)&&(funct==SLLV))begin
CtrlALUOp = 5'd8;//SLLV from ALUOps
end else if((op==SPECIAL)&&(funct==SRA))begin
CtrlALUOp = 5'd11;//SRA from ALUOps
end else if((op==SPECIAL)&&(funct==SRAV))begin
CtrlALUOp = 5'd12;//SRAV from ALUOps
end else if((op==SPECIAL)&&(funct==SRL))begin
CtrlALUOp = 5'd9;//SRL from ALUOps
end else if((op==SPECIAL)&&(funct==SRLV))begin
CtrlALUOp = 5'd10;//SRLV from ALUOps
end else if((op==SLTI) || ((op==SPECIAL)&&(funct==SLT)))begin
CtrlALUOp = 5'd20;//SLT from ALUOps
end else if((op==SLTIU) || ((op==SPECIAL)&&(funct==SLTU)))begin
CtrlALUOp = 5'd21;//SLTU from ALUOps
end else if((op==SPECIAL)&&(funct==SUBU))begin
end else if((op==6'd13) || ((op==6'd0)&&(funct==6'd37)))begin
CtrlALUOp = 5'd5;//6'd37 from ALUOps
end else if((op==6'd0)&&(funct==6'd0))begin
CtrlALUOp = 5'd7;//6'd0 from ALUOps
end else if((op==6'd0)&&(funct==6'd4))begin
CtrlALUOp = 5'd8;//6'd4 from ALUOps
end else if((op==6'd0)&&(funct==6'd3))begin
CtrlALUOp = 5'd11;//6'd3 from ALUOps
end else if((op==6'd0)&&(funct==6'd7))begin
CtrlALUOp = 5'd12;//6'd7 from ALUOps
end else if((op==6'd0)&&(funct==6'd2))begin
CtrlALUOp = 5'd9;//6'd2 from ALUOps
end else if((op==6'd0)&&(funct==6'd6))begin
CtrlALUOp = 5'd10;//6'd6 from ALUOps
end else if((op==6'd10) || ((op==6'd0)&&(funct==6'd42)))begin
CtrlALUOp = 5'd20;//6'd42 from ALUOps
end else if((op==6'd11) || ((op==6'd0)&&(funct==6'd43)))begin
CtrlALUOp = 5'd21;//6'd43 from ALUOps
end else if((op==6'd0)&&(funct==6'd35))begin
CtrlALUOp = 5'd1;//SUB from ALUOps
end else if((op==XORI) || ((op==SPECIAL)&&(funct==XOR)))begin
CtrlALUOp = 5'd6;//XOR from ALUOps
end else if((op==6'd14) || ((op==6'd0)&&(funct==6'd38)))begin
CtrlALUOp = 5'd6;//6'd38 from ALUOps
end else begin
CtrlALUOp = 5'bxxxxx;
end
//Ctrlshamt logic
if((op==SPECIAL)&&((funct==SRA) || (funct==SRL) || (funct==SLL)))begin
if((op==6'd0)&&((funct==6'd3) || (funct==6'd2) || (funct==6'd0)))begin
Ctrlshamt = Instr[10:6];// Shift amount piped in from the instruction
end else if(op == LUI)begin
Ctrlshamt = 5'd16;//Used specifically to implement LUI as the instruction itslef does not include shamt
end else if(op == 6'd15)begin
Ctrlshamt = 5'd16;//Used specifically to implement 6'd15 as the instruction itslef does not include shamt
end else begin Ctrlshamt = 5'bxxxxx;end
//CtrlMemWrite logic
if((op==SB) || (op==SH) || (op==SW))begin
if((op==6'd40) || (op==6'd41) || (op==6'd43))begin
CtrlMemWrite = 1;//Memory is write enabled
end else begin CtrlMemWrite = 0;end//default is 0 to ensure no accidental overwriting.
//CtrlSpcRegWriteEn logic
if((op==SPECIAL)&&((funct==MTHI) || (funct==MTLO) || (funct==MULT) || (funct==MULTU) || (funct==DIV) || (funct==DIVU)))begin
if((op==6'd0)&&((funct==6'd17) || (funct==6'd19) || (funct==6'd24) || (funct==6'd25) || (funct==6'd26) || (funct==6'd27)))begin
CtrlSpcRegWriteEn = 1;//Special register Hi and Lo are write enabled
end else begin CtrlSpcRegWriteEn = 0;end//default is 0 to ensure no accidental overwriting.
//CtrlALUSrc logic
if((op==ADDIU) || (op==LUI) || (op==SLTI) || (op==SLTIU) || (op==LB) || (op==LBU) || (op==LH) || (op==LHU) || (op==LW) || (op==LWL) || (op==LWR) || (op==SB) || (op==SH) || (op==SW))begin
if((op==6'd9) || (op==6'd15) || (op==6'd10) || (op==6'd11) || (op==6'd32) || (op==6'd36) || (op==6'd33) || (op==6'd37) || (op==6'd35) || (op==6'd34) || (op==6'd38) || (op==6'd40) || (op==6'd41) || (op==6'd43))begin
CtrlALUSrc = 1;//ALU Bus B is fed from the 16-bit immediate sign extended to 32-bit value taken from Instr[15-0]
end else if((op==BEQ) || (op==BGTZ) || (op==BLEZ) || (op==BNE) || ((op==SPECIAL)&&((funct==ADDU) || (funct==AND) || (funct==DIV) || (funct==DIVU) || (funct==MULT) || (funct==MULTU) || (funct==OR) || (funct==SLL) || (funct==SLLV) || (funct==SLT) || (funct==SLTU) || (funct==SRA) || (funct==SRAV) || (funct==SRL) || (funct==SRLV) || (funct==SUBU) || (funct==XOR))) || ((op==REGIMM)&&((rt==BGEZ) || (rt==BGEZAL) || (rt==BLTZ) || (rt==BLTZAL))))begin
end else if((op==6'd4) || (op==6'd7) || (op==6'd6) || (op==6'd5) || ((op==6'd0)&&((funct==6'd33) || (funct==6'd36) || (funct==6'd26) || (funct==6'd27) || (funct==6'd24) || (funct==6'd25) || (funct==6'd37) || (funct==6'd0) || (funct==6'd4) || (funct==6'd42) || (funct==6'd43) || (funct==6'd3) || (funct==6'd7) || (funct==6'd2) || (funct==6'd6) || (funct==6'd35) || (funct==6'd38))) || ((op==6'd1)&&((rt==5'd1) || (rt==5'd17) || (rt==5'd0) || (rt==5'd16))))begin
CtrlALUSrc = 0;///ALU Bus B is fed from rt.
end else if ((op==ORI) || (op==ANDI) || (op==XORI)) begin
end else if ((op==6'd13) || (op==6'd12) || (op==6'd14)) begin
CtrlALUSrc = 2;
end else begin CtrlALUSrc = 1'bx;end
//CtrlRegWrite logic
if((op==ADDIU) || (op==ANDI) || (op==LB) || (op==LBU) || (op==LH) || (op==LHU) || (op==LUI) || (op==LW) || (op==LWL) || (op==LWR) || (op==ORI) || (op==JAL) || (op==SLTI) || (op==XORI) || ((op==REGIMM)&&((rt==BGEZAL) || (rt==BLTZAL))) || ((op==SPECIAL)&&((funct==ADDU) || (funct==AND) || (funct==MFLO) || (funct==MFHI) || (funct==OR) || (funct==SLL) || (funct==SLLV) || (funct==SLT) || (funct==SLTU) || (funct==SRA) || (funct==SRAV) || (funct==SRL) || (funct==SRLV) || (funct==SUBU) || (funct==JALR) || (funct==XOR)))) begin
if((op==6'd9) || (op==6'd12) || (op==6'd32) || (op==6'd36) || (op==6'd33) || (op==6'd37) || (op==6'd15) || (op==6'd35) || (op==6'd34) || (op==6'd38) || (op==6'd13) || (op==6'd3) || (op==6'd10) || (op==6'd14) || ((op==6'd1)&&((rt==5'd17) || (rt==5'd16))) || ((op==6'd0)&&((funct==6'd33) || (funct==6'd36) || (funct==6'd18) || (funct==6'd16) || (funct==6'd37) || (funct==6'd0) || (funct==6'd4) || (funct==6'd42) || (funct==6'd43) || (funct==6'd3) || (funct==6'd7) || (funct==6'd2) || (funct==6'd6) || (funct==6'd35) || (funct==6'd9) || (funct==6'd38)))) begin
CtrlRegWrite = 1;//The Registers are Write Enabled
end else begin CtrlRegWrite = 0;end // The Registers are Write Disabled
end