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[/] [t6507lp/] [trunk/] [rtl/] [verilog/] [t6507lp_alu.v] - Rev 230
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//////////////////////////////////////////////////////////////////////////// //// //// //// T6507LP IP Core //// //// //// //// This file is part of the T6507LP project //// //// http://www.opencores.org/cores/t6507lp/ //// //// //// //// Description //// //// 6507 ALU //// //// //// //// To Do: //// //// - Search for TODO //// //// //// //// Author(s): //// //// - Gabriel Oshiro Zardo, gabrieloshiro@gmail.com //// //// - Samuel Nascimento Pagliarini (creep), snpagliarini@gmail.com //// //// //// //////////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2001 Authors and OPENCORES.ORG //// //// //// //// This source file may be used and distributed without //// //// restriction provided that this copyright statement is not //// //// removed from the file and that any derivative work contains //// //// the original copyright notice and the associated disclaimer. //// //// //// //// This source file is free software; you can redistribute it //// //// and/or modify it under the terms of the GNU Lesser General //// //// Public License as published by the Free Software Foundation; //// //// either version 2.1 of the License, or (at your option) any //// //// later version. //// //// //// //// This source is distributed in the hope that it will be //// //// useful, but WITHOUT ANY WARRANTY; without even the implied //// //// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR //// //// PURPOSE. See the GNU Lesser General Public License for more //// //// details. //// //// //// //// You should have received a copy of the GNU Lesser General //// //// Public License along with this source; if not, download it //// //// from http://www.opencores.org/lgpl.shtml //// //// //// //////////////////////////////////////////////////////////////////////////// `include "timescale.v" module t6507lp_alu( clk, reset_n, alu_enable, alu_result, alu_status, alu_opcode, alu_a, alu_x, alu_y ); input wire clk; input wire reset_n; input wire alu_enable; input wire [7:0] alu_opcode; input wire [7:0] alu_a; output reg [7:0] alu_result; output reg [7:0] alu_status; output reg [7:0] alu_x; output reg [7:0] alu_y; reg [7:0] A; reg [7:0] STATUS; reg [7:0] result; reg [7:0] op1; reg [7:0] op2; reg [7:0] bcdl; reg [7:0] bcdh; reg [7:0] bcdh2; reg [7:0] AL; reg [7:0] AH; reg C_aux; reg sign; `include "t6507lp_package.v" always @ (posedge clk or negedge reset_n) begin if (reset_n == 0) begin alu_result <= 0; alu_status[C] <= 0; alu_status[N] <= 0; alu_status[V] <= 0; alu_status[5] <= 1; alu_status[Z] <= 1; alu_status[I] <= 0; alu_status[B] <= 0; alu_status[D] <= 0; A <= 0; alu_x <= 0; alu_y <= 0; end else if ( alu_enable == 1 ) begin case (alu_opcode) ADC_IMM, ADC_ZPG, ADC_ZPX, ADC_ABS, ADC_ABX, ADC_ABY, ADC_IDX, ADC_IDY, AND_IMM, AND_ZPG, AND_ZPX, AND_ABS, AND_ABX, AND_ABY, AND_IDX, AND_IDY, ASL_ACC, EOR_IMM, EOR_ZPG, EOR_ZPX, EOR_ABS, EOR_ABX, EOR_ABY, EOR_IDX, EOR_IDY, LSR_ACC, ORA_IMM, ORA_ZPG, ORA_ZPX, ORA_ABS, ORA_ABX, ORA_ABY, ORA_IDX, ORA_IDY, ROL_ACC, ROR_ACC, SBC_IMM, SBC_ZPG, SBC_ZPX, SBC_ABS, SBC_ABX, SBC_ABY, SBC_IDX, SBC_IDY, LDA_IMM, LDA_ZPG, LDA_ZPX, LDA_ABS, LDA_ABX, LDA_ABY, LDA_IDX, LDA_IDY, PLA_IMP : begin A <= result; alu_result <= result; alu_status <= STATUS; end LDX_IMM, LDX_ZPG, LDX_ZPY, LDX_ABS, LDX_ABY, TAX_IMP, TSX_IMP, INX_IMP, DEX_IMP : begin alu_x <= result; alu_status <= STATUS; end TXS_IMP : begin alu_x <= result; end TXA_IMP, TYA_IMP : begin A <= result; alu_status <= STATUS; end LDY_IMM, LDY_ZPG, LDY_ZPX, LDY_ABS, LDY_ABX, TAY_IMP, INY_IMP, DEY_IMP : begin alu_y <= result; alu_status <= STATUS; end CMP_IMM, CMP_ZPG, CMP_ZPX, CMP_ABS, CMP_ABX, CMP_ABY, CMP_IDX, CMP_IDY, CPX_IMM, CPX_ZPG, CPX_ABS, CPY_IMM, CPY_ZPG, CPY_ABS : begin alu_status <= STATUS; end PHA_IMP, STA_ZPG, STA_ZPX, STA_ABS, STA_ABX, STA_ABY, STA_IDX, STA_IDY : begin alu_result <= result; end STX_ZPG, STX_ZPY, STX_ABS : begin alu_x <= result; end STY_ZPG, STY_ZPX, STY_ABS : begin alu_y <= result; end SEC_IMP : begin alu_status[C] <= 1; end SED_IMP : begin alu_status[D] <= 1; end SEI_IMP : begin alu_status[I] <= 1; end CLC_IMP : begin alu_status[C] <= 0; end CLD_IMP : begin alu_status[D] <= 0; end CLI_IMP : begin alu_status[I] <= 0; end CLV_IMP : begin alu_status[V] <= 0; end BRK_IMP : begin alu_status[B] <= 1; end PLP_IMP, RTI_IMP : begin alu_status[C] <= alu_a[C]; alu_status[Z] <= alu_a[Z]; alu_status[I] <= alu_a[I]; alu_status[D] <= alu_a[D]; alu_status[B] <= alu_a[B]; alu_status[V] <= alu_a[V]; alu_status[N] <= alu_a[N]; alu_status[5] <= 1; end BIT_ZPG, BIT_ABS : begin alu_status[Z] <= STATUS[Z]; alu_status[V] <= alu_a[6]; alu_status[N] <= alu_a[7]; end INC_ZPG, INC_ZPX, INC_ABS, INC_ABX, DEC_ZPG, DEC_ZPX, DEC_ABS, DEC_ABX, ASL_ZPG, ASL_ZPX, ASL_ABS, ASL_ABX, LSR_ZPG, LSR_ZPX, LSR_ABS, LSR_ABX, ROL_ZPG, ROL_ZPX, ROL_ABS, ROL_ABX, ROR_ZPG, ROR_ZPX, ROR_ABS, ROR_ABX : begin alu_result <= result; alu_status <= STATUS; end default : begin end endcase end end always @ (*) begin if (alu_enable == 1) begin op1 = A; op2 = alu_a; result = A; STATUS[N] = alu_status[N]; STATUS[C] = alu_status[C]; STATUS[V] = alu_status[V]; STATUS[B] = alu_status[B]; STATUS[I] = alu_status[I]; STATUS[D] = alu_status[D]; STATUS[Z] = alu_status[Z]; STATUS[5] = 1; bcdl = 0; bcdh = 0; bcdh2 = 0; AL = 0; AH = 0; sign = op2[7]; case (alu_opcode) // BIT - Bit Test BIT_ZPG, BIT_ABS: begin result = A & alu_a; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // PLA - Pull Accumulator PLA_IMP : begin result = alu_a; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // TAX - Transfer Accumulator to X // TAY - Transfer Accumulator to Y // PHA - Push Accumulator // STA - Store Accumulator TAX_IMP, TAY_IMP, PHA_IMP, STA_ZPG, STA_ZPX, STA_ABS, STA_ABX, STA_ABY, STA_IDX, STA_IDY : begin result = A; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // STX - Store X Register // TXA - Transfer X to Accumulator // TXS - Transfer X to Stack pointer STX_ZPG, STX_ZPY, STX_ABS, TXA_IMP, TXS_IMP : begin result = alu_x; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // STY - Store Y Register // TYA - Transfer Y to Accumulator STY_ZPG, STY_ZPX, STY_ABS, TYA_IMP : begin result = alu_y; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // INC - Increment memory INC_ZPG, INC_ZPX, INC_ABS, INC_ABX : begin result = alu_a + 1; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // INX - Increment X Register INX_IMP: begin result = alu_x + 1; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // INY - Increment Y Register INY_IMP : begin result = alu_y + 1; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // DEC - Decrement memory DEC_ZPG, DEC_ZPX, DEC_ABS, DEC_ABX : begin result = alu_a - 1; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // DEX - Decrement X register DEX_IMP: begin result = alu_x - 1; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // DEY - Decrement Y Register DEY_IMP: begin result = alu_y - 1; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // ADC - Add with carry ADC_IMM, ADC_ZPG, ADC_ZPX, ADC_ABS, ADC_ABX, ADC_ABY, ADC_IDX, ADC_IDY : begin if (!alu_status[D]) begin {STATUS[C],result} = op1 + op2 + alu_status[C]; STATUS[N] = result[7]; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[V] = ((op1[7] == op2[7]) && (op1[7] != result[7])) ? 1 : 0; end else begin AL = op1[3:0] + op2[3:0] + alu_status[C]; AH = op1[7:4] + op2[7:4]; STATUS[Z] = (AL == 0 && AH == 0) ? 1 : 0; if (AL > 9) begin bcdl = AL - 6; bcdh = AH + 1; end else begin bcdl = AL; bcdh = AH; end STATUS[N] = bcdh[3]; STATUS[V] = ((op1[7] == op2[7]) && (op1[7] != bcdh[3])) ? 1 : 0; if (bcdh > 9) begin bcdh2 = bcdh + 6; end else begin bcdh2 = bcdh; end STATUS[C] = bcdh2[4] || bcdh2[5]; result = {bcdh2[3:0],bcdl[3:0]}; end end // AND - Logical AND AND_IMM, AND_ZPG, AND_ZPX, AND_ABS, AND_ABX, AND_ABY, AND_IDX, AND_IDY : begin result = A & alu_a; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // CMP - Compare CMP_IMM, CMP_ZPG, CMP_ZPX, CMP_ABS, CMP_ABX, CMP_ABY, CMP_IDX, CMP_IDY : begin result = A - alu_a; STATUS[C] = (A >= alu_a) ? 1 : 0; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // EOR - Exclusive OR EOR_IMM, EOR_ZPG, EOR_ZPX, EOR_ABS, EOR_ABX, EOR_ABY, EOR_IDX, EOR_IDY : begin result = A ^ alu_a; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // LDA - Load Accumulator // LDX - Load X Register // LDY - Load Y Register // TSX - Transfer Stack Pointer to X LDA_IMM, LDA_ZPG, LDA_ZPX, LDA_ABS, LDA_ABX, LDA_ABY, LDA_IDX, LDA_IDY, LDX_IMM, LDX_ZPG, LDX_ZPY, LDX_ABS, LDX_ABY, LDY_IMM, LDY_ZPG, LDY_ZPX, LDY_ABS, LDY_ABX, TSX_IMP : begin result = alu_a; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // ORA - Logical OR ORA_IMM, ORA_ZPG, ORA_ZPX, ORA_ABS, ORA_ABX, ORA_ABY, ORA_IDX, ORA_IDY : begin result = A | alu_a; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // SBC - Subtract with Carry SBC_IMM, SBC_ZPG, SBC_ZPX, SBC_ABS, SBC_ABX, SBC_ABY, SBC_IDX, SBC_IDY : begin result = op1 - op2 - (1 - alu_status[C]); STATUS[N] = result[7]; STATUS[V] = ((op1[7] == op2[7]) && (op1[7] == result[7])) ? 1 : 0; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[C] = ~result[7]; if (alu_status[D]) begin AL = op1[3:0] - op2[3:0] - (1 - alu_status[C]); AH = op1[7:4] - op2[7:4]; if (AL[4]) begin bcdl = AL - 6; bcdh = AH - 1; end else begin bcdl = AL; bcdh = AH; end if (bcdh[4]) begin bcdh2 = bcdh - 6; end else begin bcdh2 = bcdh; end result = {bcdh2[3:0],bcdl[3:0]}; end end // ASL - Arithmetic Shift Left ASL_ACC : begin {STATUS[C],result} = {A,1'b0}; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end ASL_ZPG, ASL_ZPX, ASL_ABS, ASL_ABX : begin {STATUS[C],result} = {alu_a,1'b0}; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // LSR - Logical Shift Right LSR_ACC: begin {result,STATUS[C]} = {1'b0,A}; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end LSR_ZPG, LSR_ZPX, LSR_ABS, LSR_ABX : begin {result,STATUS[C]} = {1'b0,alu_a}; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // ROL - Rotate Left ROL_ACC : begin {STATUS[C],result} = {A,alu_status[C]}; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end ROL_ZPG, ROL_ZPX, ROL_ABS, ROL_ABX : begin {STATUS[C],result} = {alu_a,alu_status[C]}; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // ROR - Rotate Right ROR_ACC : begin {result,STATUS[C]} = {alu_status[C],A}; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end ROR_ZPG, ROR_ZPX, ROR_ABS, ROR_ABX : begin {result, STATUS[C]} = {alu_status[C], alu_a}; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // CPX - Compare X Register CPX_IMM, CPX_ZPG, CPX_ABS : begin result = alu_x - alu_a; STATUS[C] = (alu_x >= alu_a) ? 1 : 0; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end // CPY - Compare Y Register CPY_IMM, CPY_ZPG, CPY_ABS : begin result = alu_y - alu_a; STATUS[C] = (alu_y >= alu_a) ? 1 : 0; STATUS[Z] = (result == 0) ? 1 : 0; STATUS[N] = result[7]; end default: begin end endcase end end endmodule
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