mirror of
https://github.com/sxpert/hp-saturn
synced 2024-12-27 09:58:16 +01:00
837 lines
No EOL
21 KiB
Verilog
837 lines
No EOL
21 KiB
Verilog
/*
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(c) Raphaël Jacquot 2019
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This file is part of hp_saturn.
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hp_saturn is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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any later version.
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hp_saturn is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with Foobar. If not, see <https://www.gnu.org/licenses/>.
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*/
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/******************************************************************************
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*
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* Instruction decoder module
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*
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*****************************************************************************/
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`include "def-fields.v"
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`include "def-alu.v"
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module saturn_decoder(
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i_clk, i_reset, i_cycles, i_en_dbg, i_en_dec,
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i_bus_load_pc, i_stalled,
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i_pc, i_nibble,
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i_reg_p,
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o_inc_pc, o_push, o_pop,
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o_dec_error,
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`ifdef SIM
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o_unimplemented,
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`endif
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o_alu_debug,
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o_ins_addr, o_ins_decoded,
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o_fields_table, o_field, o_field_valid, o_field_start, o_field_last,
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o_imm_value,
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o_alu_op, o_alu_no_stall, o_reg_dest, o_reg_src1, o_reg_src2,
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o_ins_rtn, o_set_xm, o_en_intr,
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o_set_carry, o_test_carry, o_carry_val,
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o_ins_set_mode, o_mode_dec,
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o_ins_alu_op, o_ins_test_go,
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o_ins_reset, o_ins_config,
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o_ins_mem_xfr, o_xfr_dir_out,
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o_dbg_nibbles, o_dbg_nb_nbls, o_mem_load, o_mem_pos
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);
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/*
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* module input / output ports
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*/
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input wire [0:0] i_clk;
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input wire [0:0] i_reset;
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input wire [31:0] i_cycles;
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input wire [0:0] i_en_dbg;
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input wire [0:0] i_en_dec;
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input wire [0:0] i_bus_load_pc;
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input wire [0:0] i_stalled;
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input wire [19:0] i_pc;
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input wire [3:0] i_nibble;
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input wire [3:0] i_reg_p;
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output reg [0:0] o_inc_pc;
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output reg [0:0] o_push;
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output reg [0:0] o_pop;
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output reg [0:0] o_dec_error;
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`ifdef SIM
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output reg [0:0] o_unimplemented;
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`endif
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output reg [0:0] o_alu_debug;
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// instructions related outputs
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output reg [19:0] o_ins_addr;
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output reg [0:0] o_ins_decoded;
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output reg [1:0] o_fields_table;
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output reg [3:0] o_field;
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output reg o_field_valid;
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output reg [3:0] o_field_start;
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output reg [3:0] o_field_last;
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output reg [3:0] o_imm_value;
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output reg [4:0] o_alu_op;
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output reg [0:0] o_alu_no_stall;
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output reg [4:0] o_reg_dest;
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output reg [4:0] o_reg_src1;
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output reg [4:0] o_reg_src2;
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// rtn specific
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output reg [0:0] o_ins_rtn;
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output reg [0:0] o_set_xm;
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output reg [0:0] o_set_carry;
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output reg [0:0] o_test_carry;
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output reg [0:0] o_carry_val;
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output reg [0:0] o_en_intr;
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// setdec/hex
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output reg [0:0] o_ins_set_mode;
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output reg [0:0] o_mode_dec;
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// alu_operations
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output reg [0:0] o_ins_alu_op;
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output reg [0:0] o_ins_test_go;
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// bus operations
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output reg [0:0] o_ins_reset;
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output reg [0:0] o_ins_config;
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output reg [0:0] o_ins_mem_xfr;
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output reg [0:0] o_xfr_dir_out;
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/* data used by the debugger
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*
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*/
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output reg [(21*4-1):0] o_dbg_nibbles;
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output reg [4:0] o_dbg_nb_nbls;
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output reg [63:0] o_mem_load;
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output reg [4:0] o_mem_pos;
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/*
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* state registers
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*/
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reg [31:0] inst_counter;
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reg [0:0] next_nibble;
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reg [4:0] inst_cycles;
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reg inval_opcode_regs;
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initial begin
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`ifdef SIM
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// $monitor({"i_clk %b | i_reset %b | i_cycles %d | i_en_dec %b | i_en_exec %b |",
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// " next_nibble %b | instr_start %b | i_nibble %h"},
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// i_clk, i_reset, i_cycles, i_en_dec, i_en_exec, next_nibble,
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// instr_start, i_nibble);
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// $monitor("i_en_dec %b | i_cycles %d | nb %h | cont %b | b0x %b | rtn %b | sxm %b | sc %b | cv %b",
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// i_en_dec, i_cycles, i_nibble, next_nibble, block_0x, ins_rtn, set_xm, set_carry, carry_val);
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`endif
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end
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`include "saturn_decoder_debugger.v"
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/******************************************************************************
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*
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* handles part of the instruction decoding,
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* acts as the main FSM
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*
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*****************************************************************************/
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// general variables
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reg use_fields_tbl;
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wire count_cycles;
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wire decoder_active;
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// wire decoder_stalled;
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wire do_on_first_nibble;
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wire do_on_other_nibbles;
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assign count_cycles = !i_reset && i_en_dec && (next_nibble || i_stalled);
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assign decoder_active = !i_reset && i_en_dec && !i_stalled;
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// assign decoder_stalled = !i_reset && i_en_dec && i_stalled;
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assign do_on_first_nibble = decoder_active && !next_nibble;
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assign do_on_other_nibbles = decoder_active && next_nibble;
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// all regs and wires for the decoder states
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`include "saturn_decoder_block_vars.v"
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/*
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* variables specific to a particular use
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*/
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reg [4:0] mem_load_max;
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/* most instructions are groupped by sets of 4 with
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* varrying series of registers that are common
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* this generates all the required series from i_nibble
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*/
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wire [4:0] dbg_write_pos;
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assign dbg_write_pos = (!next_nibble?0:o_dbg_nb_nbls);
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always @(posedge i_clk) begin
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if (i_reset) begin
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inst_cycles <= 0;
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inst_counter <= 0;
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next_nibble <= 0;
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use_fields_tbl <= 0;
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o_inc_pc <= 1;
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o_dec_error <= 0;
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`ifdef SIM
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o_unimplemented <= 0;
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`endif
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o_alu_debug <= 0;
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o_ins_decoded <= 0;
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o_alu_op <= 0;
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o_ins_rtn <= 0;
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o_push <= 0;
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o_pop <= 0;
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o_ins_set_mode <= 0;
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o_ins_reset <= 0;
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o_ins_config <= 0;
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o_ins_mem_xfr <= 0;
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o_xfr_dir_out <= 0;
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o_test_carry <= 0;
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end
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if (decoder_active) begin
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/*
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* stuff that is always done
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*/
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`ifdef SIM
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// $display("DEC_RUN 2: nibble %h", i_nibble);
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`endif
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o_inc_pc <= 1; // may be set to 0 later
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o_dbg_nibbles[dbg_write_pos*4+:4] <= i_nibble;
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o_dbg_nb_nbls <= o_dbg_nb_nbls + 1;
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end
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// if (decoder_stalled) begin
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// $display("DEC_STAL 2:");
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// end
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if (count_cycles) begin
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inst_cycles <= inst_cycles + 1;
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end
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/*
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* cleanup
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*/
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if (do_on_first_nibble) begin
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inst_counter <= inst_counter + 1;
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inst_cycles <= 1;
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next_nibble <= 1;
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use_fields_tbl <= 0;
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o_alu_debug <= 0;
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o_push <= 0;
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o_pop <= 0;
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o_ins_decoded <= 0;
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`ifdef SIM
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o_unimplemented <= 1;
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`endif
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// store the address where the instruction starts
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o_ins_addr <= i_pc;
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// decoder subroutine states
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block_load_reg_imm <= 0;
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// cleanup fields table variables
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go_fields_table <= 0;
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o_fields_table <= 3;
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o_alu_op <= 0;
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o_alu_no_stall <= 0;
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o_ins_rtn <= 0;
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o_set_xm <= 0;
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o_set_carry <= 0;
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o_carry_val <= 0;
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o_ins_set_mode <= 0;
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o_mode_dec <= 0;
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o_ins_alu_op <= 0;
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o_ins_test_go <= 0;
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// bus instructions
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$display("cleanup instruction modes");
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o_ins_reset <= 0;
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o_ins_config <= 0;
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o_ins_mem_xfr <= 0;
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o_xfr_dir_out <= 0;
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// counters for debugger info
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o_dbg_nb_nbls <= 1;
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o_mem_pos <= 0;
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/*
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* x first nibble
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*/
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if (block_jump_test) begin
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// $display("BLOCK JUMP_TEST ON %h", i_nibble);
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o_pop <= i_nibble == 0;
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o_alu_no_stall <= 1;
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// o_alu_debug <= 1;
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o_ins_test_go <= 1;
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o_imm_value <= i_nibble;
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block_jump_test2 <= 1;
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block_jump_test <= 0;
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end else begin
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// assign block regs
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// $display("FIRST NIBBLE %h", i_nibble);
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case (i_nibble)
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4'h0: block_0x <= 1;
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4'h1: block_1x <= 1;
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4'h2: block_2x <= 1;
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4'h3: block_3x <= 1;
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4'h4, 4'h5: begin
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// 400 RTNC
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// 420 NOP3
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// 4xy GOC
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// 500 RTNNC
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// 5xy GONC
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o_alu_debug <= 1;
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o_alu_no_stall <= 1;
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o_alu_op <= `ALU_OP_JMP_REL2;
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mem_load_max <= 1;
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o_mem_pos <= 0;
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o_test_carry <= 1;
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o_carry_val <= !i_nibble[0];
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block_jmp <= 1;
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end
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4'h6, 4'h7: begin
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// 6xxx GOTO
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// 7xxx GOSUB
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o_alu_no_stall <= 1;
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o_alu_op <= `ALU_OP_JMP_REL3;
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mem_load_max <= 2;
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o_mem_pos <= 0;
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o_push <= i_nibble[0];
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block_jmp <= 1;
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`ifdef SIM
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o_unimplemented <= 0;
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`endif
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end
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4'h8: block_8x <= 1;
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4'h9: begin
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go_fields_table <= 1;
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// we don't know, safe bet is table a, but could be table b,
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// works either way, table is fixed on the next nibble
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o_fields_table <= `FT_TABLE_a;
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block_9x <= 1;
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end
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4'hA: begin
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go_fields_table <= 1;
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// we don't know, safe bet is table a, but could be table b,
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// works either way, table is fixed on the next nibble
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o_fields_table <= `FT_TABLE_a;
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block_Ax <= 1;
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end
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4'hB: begin
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go_fields_table <= 1;
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// we don't know, safe bet is table a, but could be table b,
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// works either way, table is fixed on the next nibble
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o_fields_table <= `FT_TABLE_a;
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block_Bx <= 1;
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end
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4'hC: block_Cx <= 1;
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4'hD: block_Dx <= 1;
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4'hF: block_Fx <= 1;
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default: begin
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`ifdef SIM
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$display("DEC_INIT 2: nibble %h not handled", i_nibble);
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`endif
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o_dec_error <= 1;
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end
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endcase
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end
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end
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if (do_block_jump_test2) begin
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// $display("BLOCK_JUMP_TEST_2 %h | pop %b | pop-nxt %b", i_nibble, o_pop, (i_nibble == 0) && o_pop);
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o_alu_op <= `ALU_OP_TEST_GO;
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o_imm_value <= i_nibble;
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o_ins_rtn <= (i_nibble == 0) && o_pop;
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block_jump_test2 <= 0;
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next_nibble <= 0;
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o_ins_decoded <= 1;
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end
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/******************************************************************************
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*
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* 0x
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*
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* 00 RTNSXM 08 CLRST
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* 01 RTN 09 C=ST
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* 02 RTNSC 0A ST=C
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* 03 RTNCC 0B CSTEX
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* 04 SETHEX 0C P=P+1
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* 05 SETDEC 0D P=P-1
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* 06 RSTK=C
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* 07 C=RSTK 0F RTI
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*
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*****************************************************************************/
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if (do_block_0x) begin
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case (i_nibble)
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4'h0, 4'h1, 4'h2, 4'h3, 4'hF: begin
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o_ins_rtn <= 1;
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o_pop <= 1;
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o_set_xm <= i_nibble == 4'h0;
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o_set_carry <= !i_nibble[3] && i_nibble[1];
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o_carry_val <= i_nibble[1] && !i_nibble[0];
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o_en_intr <= i_nibble[3];
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`ifdef SIM
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o_unimplemented <= i_nibble[3];
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`endif
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end
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4'h4, 4'h5: begin
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// 04 SETHEX
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// 05 SETDEC
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o_ins_set_mode <= 1;
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o_mode_dec <= (i_nibble[0]);
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`ifdef SIM
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o_unimplemented <= 0;
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`endif
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end
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4'h6, 4'h7: begin
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// 06 RSTK=C
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// 07 C=RSTK
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// those 2 are alu copy ops between RSTK and C
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o_ins_alu_op <= 1;
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o_alu_op <= `ALU_OP_COPY;
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o_push <= !i_nibble[0];
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o_pop <= i_nibble[0];
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end
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4'h8: begin
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o_ins_alu_op <= 1;
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o_alu_op <= `ALU_OP_ZERO;
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end
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4'h9, 4'hA: begin
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o_ins_alu_op <= 1;
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o_alu_op <= `ALU_OP_COPY;
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end
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4'hB: begin
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o_ins_alu_op <= 1;
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o_alu_op <= `ALU_OP_EXCH;
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end
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4'hC, 4'hD: begin
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o_ins_alu_op <= 1;
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o_alu_op <= i_nibble[0]?`ALU_OP_DEC:`ALU_OP_INC;
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end
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4'hE: o_fields_table <= `FT_TABLE_f;
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default: begin
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`ifdef SIM
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$display("block_0x: nibble %h not handled", i_nibble);
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`endif
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o_dec_error <= 1;
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end
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endcase
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next_nibble <= (i_nibble == 4'hE);
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block_0Efx <= (i_nibble == 4'hE);
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go_fields_table <= (i_nibble == 4'hE);
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o_ins_decoded <= (i_nibble != 4'hE);
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block_0x <= 0;
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end
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/******************************************************************************
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*
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* 0Ex R1=R1[&!]R2 table_f
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*
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*****************************************************************************/
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if (do_block_0Efx && !in_fields_table) begin
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o_ins_alu_op <= 1;
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o_alu_op <= (!i_nibble[3])?`ALU_OP_AND:`ALU_OP_OR;
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next_nibble <= 0;
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o_ins_decoded <= 1;
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end
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/******************************************************************************
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*
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* 1x jump table to other things
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*
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*****************************************************************************/
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if (do_block_1x) begin
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case (i_nibble)
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4'h0: // save A/C to Rn W
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block_save_to_R_W <= 1;
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4'h1: // restore A/C from Rn W
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block_rest_from_R_W <= 1;
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4'h2: // exchange A/C with Rn W
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block_exch_with_R_W <= 1;
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4'h3: // move/exch A/C with Dn A/[0:3]
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block_13x <= 1;
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4'h4, 4'h5: // DAT[01]=[AC] <field>
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begin
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o_alu_debug <= 0;
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`ifdef SIM
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$display("block_1x %h | use table <= %b", i_nibble, i_nibble[0]);
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`endif
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block_14x_15xx <= 1;
|
|
use_fields_tbl <= i_nibble[0];
|
|
end
|
|
4'h6, 4'h7,
|
|
4'h8, 4'hC: // D[01]=D[01][+-] n+1;
|
|
begin
|
|
block_pointer_arith_const <= 1;
|
|
o_ins_alu_op <= 1;
|
|
o_alu_op <= i_nibble[1]?`ALU_OP_ADD:`ALU_OP_SUB;
|
|
end
|
|
4'h9, 4'hA,
|
|
4'hB, 4'hD,
|
|
4'hE, 4'hF: // D[0]=([245]) <stuff>
|
|
begin
|
|
mem_load_max <= {2'b00, i_nibble[1], !i_nibble[1], i_nibble[1] && i_nibble[0]};
|
|
o_mem_pos <= 0;
|
|
block_load_reg_imm <= 1;
|
|
o_alu_no_stall <= 1;
|
|
o_ins_alu_op <= 1;
|
|
o_alu_op <= `ALU_OP_COPY;
|
|
`ifdef SIM
|
|
o_unimplemented <= 0;
|
|
`endif
|
|
end
|
|
endcase
|
|
block_1x <= 0;
|
|
end
|
|
|
|
if (do_block_save_to_R_W || do_block_rest_from_R_W) begin
|
|
o_ins_alu_op <= 1;
|
|
o_alu_op <= `ALU_OP_COPY;
|
|
next_nibble <= 0;
|
|
o_ins_decoded <= 1;
|
|
block_save_to_R_W <= 0;
|
|
block_rest_from_R_W <= 0;
|
|
end
|
|
|
|
if (do_block_exch_with_R_W) begin
|
|
o_ins_alu_op <= 1;
|
|
o_alu_op <= `ALU_OP_EXCH;
|
|
next_nibble <= 0;
|
|
o_ins_decoded <= 1;
|
|
end
|
|
|
|
if (do_block_13x) begin
|
|
o_ins_alu_op <= 1;
|
|
o_alu_op <= i_nibble[1]?`ALU_OP_EXCH:`ALU_OP_COPY;
|
|
next_nibble <= 0;
|
|
o_ins_decoded <= 1;
|
|
block_13x <= 0;
|
|
end
|
|
|
|
if (do_block_14x_15xx) begin
|
|
`ifdef SIM
|
|
$display("block_14x_15xx nibble %h | use_tbl %b", i_nibble, use_fields_tbl);
|
|
$display("fields_table %d",i_nibble[3]?`FT_TABLE_value:`FT_TABLE_a);
|
|
`endif
|
|
// o_alu_debug <= 1;
|
|
o_fields_table <= i_nibble[3]?`FT_TABLE_value:`FT_TABLE_a;
|
|
// o_alu_op <= `ALU_OP_COPY;
|
|
go_fields_table <= use_fields_tbl;
|
|
use_fields_tbl <= 0;
|
|
|
|
// do not block when we're reading
|
|
// o_alu_no_stall <= !use_fields_tbl && i_nibble[1];
|
|
// o_alu_debug <= i_nibble[1];
|
|
|
|
// set the info about this being a memory transfer
|
|
o_ins_mem_xfr <= !(use_fields_tbl);
|
|
o_xfr_dir_out <= !i_nibble[1];
|
|
|
|
block_15xx <= use_fields_tbl;
|
|
|
|
// o_ins_alu_op <= !(use_fields_tbl);
|
|
next_nibble <= use_fields_tbl;
|
|
o_ins_decoded <= !(use_fields_tbl);
|
|
block_14x_15xx <= 0;
|
|
end
|
|
|
|
if (do_block_15xx) begin
|
|
`ifdef SIM
|
|
$display("block_15xx %h", i_nibble);
|
|
`endif
|
|
o_alu_debug <= 1;
|
|
// o_alu_no_stall <= 1;
|
|
// o_ins_alu_op <= 1;
|
|
o_ins_mem_xfr <= 1;
|
|
o_ins_decoded <= 1;
|
|
next_nibble <= 0;
|
|
block_15xx <= 0;
|
|
end
|
|
|
|
if (do_block_pointer_arith_const) begin
|
|
next_nibble <= 0;
|
|
o_imm_value <= i_nibble;
|
|
o_ins_decoded <= 1;
|
|
end
|
|
|
|
if (do_block_2x) begin
|
|
o_ins_alu_op <= 1;
|
|
o_alu_op <= `ALU_OP_COPY;
|
|
o_imm_value <= i_nibble;
|
|
next_nibble <= 0;
|
|
o_ins_decoded <= 1;
|
|
`ifdef SIM
|
|
o_unimplemented <= 0;
|
|
`endif
|
|
block_2x <= 0;
|
|
end
|
|
|
|
if (do_block_3x) begin
|
|
$write("block load C hex %h\n", i_nibble);
|
|
mem_load_max <= i_nibble + 1;
|
|
o_mem_pos <= 0;
|
|
o_alu_no_stall <= 1;
|
|
o_alu_op <= `ALU_OP_COPY;
|
|
block_load_reg_imm <= 1;
|
|
o_ins_alu_op <= 1;
|
|
block_3x <= 0;
|
|
`ifdef SIM
|
|
o_unimplemented <= 0;
|
|
`endif
|
|
end
|
|
|
|
`include "saturn_decoder_block_8.v"
|
|
|
|
/*
|
|
* Block 9xx
|
|
*
|
|
*
|
|
*/
|
|
|
|
if (do_block_9x) begin
|
|
`ifdef SIM
|
|
$display("block_9x %h", i_nibble);
|
|
`endif
|
|
o_fields_table <= i_nibble[3]?`FT_TABLE_b:`FT_TABLE_a;
|
|
block_9ax <= !i_nibble[3];
|
|
block_9bx <= i_nibble[3];
|
|
block_9x <= 0;
|
|
end
|
|
|
|
if (do_block_9ax) begin
|
|
`ifdef SIM
|
|
$display("block_9ax %h", i_nibble);
|
|
`endif
|
|
o_dec_error <= 1;
|
|
block_9ax <= 0;
|
|
end
|
|
|
|
if (do_block_9bx) begin
|
|
`ifdef SIM
|
|
$display("block_9bx %h", i_nibble);
|
|
`endif
|
|
o_dec_error <= 1;
|
|
block_9bx <= 0;
|
|
end
|
|
|
|
/*
|
|
* Block Axx
|
|
* ra=ra+rb a
|
|
* ra=ra-1 a
|
|
* ra=0 b
|
|
* ra=rb b
|
|
* rarbEX b
|
|
*/
|
|
|
|
if (do_block_Ax) begin
|
|
o_fields_table <= i_nibble[3]?`FT_TABLE_b:`FT_TABLE_a;
|
|
block_Aax <= !i_nibble[3];
|
|
block_Abx <= i_nibble[3];
|
|
block_Ax <= 0;
|
|
end
|
|
|
|
if (do_block_Aax) begin
|
|
`ifdef SIM
|
|
$display("block_Aax %h", i_nibble);
|
|
`endif
|
|
o_dec_error <= 1;
|
|
end
|
|
|
|
if (do_block_Abx) begin
|
|
o_ins_alu_op <= 1;
|
|
o_alu_op <= (i_nibble[3] && i_nibble[2])?`ALU_OP_EXCH:`ALU_OP_COPY;
|
|
next_nibble <= 0;
|
|
o_ins_decoded <= 1;
|
|
`ifdef SIM
|
|
o_unimplemented <= 0;
|
|
`endif
|
|
block_Abx <= 0;
|
|
end
|
|
|
|
|
|
/*
|
|
* Block Bxx
|
|
*
|
|
*
|
|
*/
|
|
|
|
|
|
if (do_block_Bx) begin
|
|
o_fields_table <= i_nibble[3]?`FT_TABLE_b:`FT_TABLE_a;
|
|
block_Bax <= !i_nibble[3];
|
|
block_Bbx <= i_nibble[3];
|
|
block_Bx <= 0;
|
|
end
|
|
|
|
if (do_block_Bax) begin
|
|
`ifdef SIM
|
|
$display("block_Bax %h", i_nibble);
|
|
`endif
|
|
o_ins_alu_op <= 1;
|
|
case ({i_nibble[3],i_nibble[2]})
|
|
2'b00: o_alu_op <= `ALU_OP_SUB;
|
|
2'b01: o_alu_op <= `ALU_OP_INC;
|
|
2'b10: o_alu_op <= `ALU_OP_SUB;
|
|
2'b11: o_alu_op <= `ALU_OP_SUB;
|
|
endcase
|
|
next_nibble <= 0;
|
|
o_ins_decoded <= 1;
|
|
`ifdef SIM
|
|
o_unimplemented <= 0;
|
|
`endif
|
|
block_Bax <= 0;
|
|
end
|
|
|
|
if (do_block_Bbx) begin
|
|
o_ins_alu_op <= 1;
|
|
case ({i_nibble[3],i_nibble[2]})
|
|
2'b00: o_alu_op <= `ALU_OP_SHL;
|
|
2'b01: o_alu_op <= `ALU_OP_SHR;
|
|
2'b10: o_alu_op <= `ALU_OP_2CMPL;
|
|
2'b11: o_alu_op <= `ALU_OP_1CMPL;
|
|
endcase
|
|
next_nibble <= 0;
|
|
o_ins_decoded <= 1;
|
|
`ifdef SIM
|
|
o_unimplemented <= 0;
|
|
`endif
|
|
block_Bbx <= 0;
|
|
end
|
|
|
|
/*
|
|
* Block Cx
|
|
*
|
|
*
|
|
*/
|
|
|
|
if (do_block_Cx) begin
|
|
`ifdef SIM
|
|
$display("block_Cx %h", i_nibble);
|
|
`endif
|
|
// o_alu_debug <= 1;
|
|
o_fields_table <= `FT_TABLE_f;
|
|
o_ins_alu_op <= 1;
|
|
o_alu_op <= (i_nibble[3] && i_nibble[2])?`ALU_OP_DEC:`ALU_OP_ADD;
|
|
next_nibble <= 0;
|
|
o_ins_decoded <= 1;
|
|
`ifdef SIM
|
|
// o_unimplemented <= 0;
|
|
`endif
|
|
block_Cx <= 0;
|
|
end
|
|
|
|
if (do_block_Dx) begin
|
|
`ifdef SIM
|
|
$display("block_Dx %h", i_nibble);
|
|
`endif
|
|
o_fields_table <= `FT_TABLE_f;
|
|
o_ins_alu_op <= 1;
|
|
o_alu_op <= (i_nibble[3] && i_nibble[2])?`ALU_OP_EXCH:`ALU_OP_COPY;
|
|
next_nibble <= 0;
|
|
o_ins_decoded <= 1;
|
|
`ifdef SIM
|
|
// o_unimplemented <= 0;
|
|
`endif
|
|
block_Dx <= 0;
|
|
end
|
|
|
|
if (do_block_Fx) begin
|
|
`ifdef SIM
|
|
|
|
`endif
|
|
|
|
case (i_nibble)
|
|
4'h8, 4'h9, 4'hA, 4'hB: // r=-r A
|
|
begin
|
|
o_fields_table <= `FT_TABLE_f;
|
|
//o_alu_debug <= 1;
|
|
o_ins_alu_op <= 1;
|
|
o_alu_op <= `ALU_OP_2CMPL;
|
|
next_nibble <= 0;
|
|
o_ins_decoded <= 1;
|
|
end
|
|
default: begin
|
|
`ifdef SIM
|
|
$display("block_Fx %h error", i_nibble);
|
|
`endif
|
|
o_dec_error <= 1;
|
|
end
|
|
endcase
|
|
block_Fx <= 0;
|
|
end
|
|
|
|
// utilities
|
|
|
|
if (do_load_reg_imm) begin
|
|
// $write("load reg imm %h | ", i_nibble);
|
|
// $write("pos %d | max %d | ", o_mem_pos, mem_load_max);
|
|
// $write("next %b | dec %b | ", (o_mem_pos+1) != mem_load_max, (o_mem_pos+1) == mem_load_max);
|
|
// $write("\n");
|
|
o_ins_alu_op <= 1;
|
|
o_imm_value <= i_nibble;
|
|
o_mem_load[o_mem_pos*4+:4] <= i_nibble;
|
|
o_mem_pos <= o_mem_pos + 1;
|
|
next_nibble <= (o_mem_pos+1) != mem_load_max;
|
|
o_ins_decoded <= (o_mem_pos+1) == mem_load_max;
|
|
block_load_reg_imm <= (o_mem_pos+1) != mem_load_max;
|
|
end
|
|
|
|
if (do_block_jmp) begin
|
|
o_ins_alu_op <= 1;
|
|
o_imm_value <= i_nibble;
|
|
o_mem_load[o_mem_pos*4+:4] <= i_nibble;
|
|
o_mem_pos <= o_mem_pos + 1;
|
|
next_nibble <= mem_load_max != o_mem_pos;
|
|
o_ins_decoded <= mem_load_max == o_mem_pos;
|
|
block_jmp <= mem_load_max != o_mem_pos;
|
|
end
|
|
|
|
end
|
|
|
|
`include "saturn_decoder_registers.v"
|
|
`include "saturn_decoder_fields.v"
|
|
|
|
|
|
endmodule |