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////////////////////////////////////////////////////////////////////////////////
//
// Filename:    zparser.h
//
// Project:     Zip CPU -- a small, lightweight, RISC CPU core
//
// Purpose:     This file is really mis-named.  At one time it was going to
//              be header file for the parser for the Zip Assembler, zasm. 
//              Since then, I discovered Flex and Bison and have written a
//              parser using those tools.  The true parser may therefore be
//              found in zasm.y.  This file, however, still declares some
//              very valuable tools.  In particular, all of the routines used
//              to build instructions from the appropriate fields are declared
//              in this file. 
//
// Creator:     Dan Gisselquist, Ph.D.
//              Gisselquist Technology, LLC
//
////////////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2015, Gisselquist Technology, LLC
//
// This program is free software (firmware): you can redistribute it and/or
// modify it under the terms of  the GNU General Public License as published
// by the Free Software Foundation, either version 3 of the License, or (at
// your option) any later version.
//
// This program is distributed in the hope that it will be useful, but WITHOUT
// ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or
// FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
// for more details.
//
// You should have received a copy of the GNU General Public License along
// with this program.  (It's in the $(ROOT)/doc directory, run make with no
// target there if the PDF file isn't present.)  If not, see
// <http://www.gnu.org/licenses/> for a copy.
//
// License:     GPL, v3, as defined and found on www.gnu.org,
//              http://www.gnu.org/licenses/gpl.html
//
//
////////////////////////////////////////////////////////////////////////////////
 
#ifndef ZPARSER_H
#define ZPARSER_H
 
/*
 * LONG_MPY controls whether or not the instruction set has:
 *   (if not defined)
 *      LDIHI   - load the value into the upper 16 bits of a register
 *      MPYS    - Multiplies two 16-bit values into a    signed 32-bit result
 *      MPYU    - Multiplies two 16-bit values into an unsigned 32-bit result
 *   (if defined)
 *      MPY     - Multiplies two 32-bit values and returns the lower 32-bits of
 *                      the result.  Works for signed and unsigned values.
 *      MPYSHI  - Multiplies two 32-bit values and returns the upper 32-bits of
 *                      the   signed 64-bit result
 *      MPYUHI  - Multiplies two 32-bit values and returns the upper 32-bits of
 *                      the unsigned 64-bit result
 *
 */
#define LONG_MPY
 
#include "zopcodes.h"
 
class   ZPARSER {
public:
        typedef unsigned int    ZIPA;
        typedef int     ZIPIMM;
        typedef enum {
                ZIP_R0, ZIP_R1, ZIP_R2, ZIP_R3, ZIP_R4, ZIP_R5, ZIP_R6, ZIP_R7,
                ZIP_R8, ZIP_R9, ZIP_R10, ZIP_R11, ZIP_R12,
                        ZIP_SP, ZIP_CC, ZIP_PC,
                ZIP_uR0, ZIP_uR1, ZIP_uR2, ZIP_uR3, ZIP_uR4, ZIP_uR5, ZIP_uR6, ZIP_uR7,
                ZIP_uR8, ZIP_uR9, ZIP_uR10, ZIP_uR11, ZIP_uR12,
                        ZIP_uSP, ZIP_uCC, ZIP_uPC,
                ZIP_Rnone
        } ZIPREG;
 
        typedef enum {
                ZIPC_ALWAYS, ZIPC_LT, ZIPC_Z, ZIPC_NZ,
                ZIPC_GT, ZIPC_GE, ZIPC_C, ZIPC_V
        } ZIPCOND;
 
        typedef enum {
                // 16 ALU instructions
                ZIPO_SUB=0, ZIPO_AND, ZIPO_ADD, ZIPO_OR, // 5'h000xx
                ZIPO_XOR, ZIPO_LSR, ZIPO_LSL, ZIPO_ASR,         // 5'h001xx
#ifdef  LONG_MPY
                ZIPO_MPY, ZIPO_LDILO, ZIPO_MPYUHI, ZIPO_MPYSHI, // 5'h010xx
#else
                ZIPO_LDIHI, ZIPO_LDILO, ZIPO_MPYU, ZIPO_MPYS,   // 5'h010xx
#endif
                ZIPO_BREV, ZIPO_POPC, ZIPO_ROL, ZIPO_MOV,       // 5'h011xx
                ZIPO_CMP, ZIPO_TST,                             // 5'h1000x
                ZIPO_LOD, ZIPO_STO,                             // 5'h1001w
                ZIPO_DIVU, ZIPO_DIVS,                           // 5'h1010s
                ZIPO_LDI, ZIPO_LDIn,                            // 5'h1011x
                // ZIPO_, ZIPO_DIVS,                            // 5'h11000
                ZIPO_FPADD=0x18, ZIPO_FPSUB,                    // 5'h1100x
                ZIPO_FPMUL, ZIPO_FPDIV,                         // 5'h1101x
                ZIPO_FPCVT, ZIPO_FPINT,                         // 5'h1110x
        } ZIPOP;
 
        ZIPIMM  brev(ZIPIMM) const;
 
        ZIPI    op_cmp(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_cmp(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_cmp(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_cmp(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_cmp(ZIPIMM imm, ZIPREG a) const
                { return op_cmp(ZIPC_ALWAYS, imm, a); }
 
        ZIPI    op_tst(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_tst(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_tst(ZIPIMM imm, ZIPREG a) const
                { return op_tst(ZIPC_ALWAYS, imm, a); }
        ZIPI    op_tst(ZIPCOND cnd, ZIPREG a) const
                { return op_tst(cnd, -1, a); }
 
        ZIPI    op_mov(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_mov(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_mov(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_mov(ZIPREG b, ZIPREG a) const
                { return op_mov(ZIPC_ALWAYS, 0, b, a); }
 
        ZIPI    op_ldi(ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_trap(ZIPCOND cnd, ZIPIMM imm) const;
        ZIPI    op_trap(ZIPIMM imm) const
                { return op_trap(ZIPC_ALWAYS, imm); }
        ZIPI    op_clr(ZIPREG a) const { return op_ldi(0, a); }
 
        ZIPI    op_noop(void) const;
        ZIPI    op_break(void) const;
        ZIPI    op_lock(void) const;
 
#ifdef  LONG_MPY
        ZIPI    op_mpy(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_mpy(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_mpy(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_mpy(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_mpy(ZIPIMM imm, ZIPREG a) const
                { return op_mpy(ZIPC_ALWAYS, imm, a); }
#else
        ZIPI    op_ldihi(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_ldihi(ZIPIMM imm, ZIPREG a) const
                { return op_ldihi(ZIPC_ALWAYS, imm, a); }
#endif
        ZIPI    op_ldilo(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_ldilo(ZIPIMM imm, ZIPREG a) const
                { return op_ldilo(ZIPC_ALWAYS, imm, a); }
 
#ifdef LONG_MPY
        ZIPI    op_mpyuhi(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_mpyuhi(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_mpyuhi(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_mpyuhi(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_mpyuhi(ZIPIMM imm, ZIPREG a) const
                { return op_mpyuhi(ZIPC_ALWAYS,imm,a); }
#else
        ZIPI    op_mpyu(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_mpyu(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_mpyu(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_mpyu(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_mpyu(ZIPIMM imm, ZIPREG a) const
                { return op_mpyu(ZIPC_ALWAYS, imm, a); }
#endif
//
 
#ifdef  LONG_MPY
        ZIPI    op_mpyshi(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_mpyshi(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_mpyshi(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_mpyshi(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_mpyshi(ZIPIMM imm, ZIPREG a) const
                { return op_mpyshi(ZIPC_ALWAYS, imm, a); }
#else
        ZIPI    op_mpys(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_mpys(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_mpys(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_mpys(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_mpys(ZIPIMM imm, ZIPREG a) const
                { return op_mpys(ZIPC_ALWAYS, imm, a); }
#endif
 
        ZIPI    op_rol(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_rol(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_rol(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_rol(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_rol(ZIPIMM imm, ZIPREG a) const
                { return op_rol(ZIPC_ALWAYS, imm, a); }
 
        ZIPI    op_popc(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_popc(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_popc(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_popc(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_popc(ZIPIMM imm, ZIPREG a) const
                { return op_popc(ZIPC_ALWAYS, imm, a); }
 
        ZIPI    op_brev(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_brev(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_brev(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_brev(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_brev(ZIPIMM imm, ZIPREG a) const
                { return op_brev(ZIPC_ALWAYS, imm, a); }
 
        ZIPI    op_lod(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_lod(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_lod(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_lod(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_lod(ZIPIMM imm, ZIPREG a) const
                { return op_lod(ZIPC_ALWAYS, imm, a); }
 
        ZIPI    op_sto(ZIPCOND cnd, ZIPREG v, ZIPIMM imm, ZIPREG b) const;
        ZIPI    op_sto(ZIPCOND cnd, ZIPREG v, ZIPIMM imm) const;
        ZIPI    op_sto(ZIPREG v, ZIPIMM imm, ZIPREG b) const
                { return op_sto(ZIPC_ALWAYS, v, imm, b); }
        ZIPI    op_sto(ZIPREG v, ZIPIMM imm) const
                { return op_sto(ZIPC_ALWAYS, v, imm); }
 
        ZIPI    op_sub(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_sub(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_sub(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_sub(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_sub(ZIPIMM imm, ZIPREG a) const
                { return op_sub(ZIPC_ALWAYS, imm, a); }
 
        ZIPI    op_and(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_and(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_and(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_and(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_and(ZIPIMM imm, ZIPREG a) const
                { return op_and(ZIPC_ALWAYS, imm, a); }
 
        ZIPI    op_add(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_add(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_add(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_add(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_add(ZIPIMM imm, ZIPREG a) const      // GOOD
                { return op_add(ZIPC_ALWAYS, imm, a); }
 
        ZIPI    op_or(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_or(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_or(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_or(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_or(ZIPIMM imm, ZIPREG a) const
                { return op_or(ZIPC_ALWAYS, imm, a); }
 
        ZIPI    op_xor(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_xor(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_xor(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_xor(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_xor(ZIPIMM imm, ZIPREG a) const
                { return op_xor(ZIPC_ALWAYS, imm, a); }
 
        ZIPI    op_lsl(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_lsl(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_lsl(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_lsl(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_lsl(ZIPIMM imm, ZIPREG a) const
                { return op_lsl(ZIPC_ALWAYS, imm, a); }
        ZIPI    op_asl(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_lsl(cnd, imm, b, a); }
        ZIPI    op_asl(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const
                { return op_lsl(cnd, imm, a); }
        ZIPI    op_asl(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_lsl(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_asl(ZIPIMM imm, ZIPREG a) const
                { return op_lsl(ZIPC_ALWAYS, imm, a); }
 
        ZIPI    op_asr(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_asr(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_asr(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_asr(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_asr(ZIPIMM imm, ZIPREG a) const
                { return op_asr(ZIPC_ALWAYS, imm, a); }
 
        ZIPI    op_lsr(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_lsr(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_lsr(ZIPIMM imm, ZIPREG b, ZIPREG a) const
                { return op_lsr(ZIPC_ALWAYS, imm, b, a); }
        ZIPI    op_lsr(ZIPIMM imm, ZIPREG a) const
                { return op_lsr(ZIPC_ALWAYS, imm, a); }
 
        ZIPI    op_bra(ZIPCOND cnd, ZIPIMM imm) const
                { return op_add(cnd, imm, ZIP_PC); }
        ZIPI    op_bra(ZIPIMM imm) const
                { return op_add(ZIPC_ALWAYS, imm, ZIP_PC); }
        ZIPI    op_brz(ZIPIMM imm) const
                { return op_add(ZIPC_Z, imm, ZIP_PC); }
        ZIPI    op_bnz(ZIPIMM imm) const
                { return op_add(ZIPC_NZ, imm, ZIP_PC); }
        ZIPI    op_bge(ZIPIMM imm) const
                { return op_add(ZIPC_GE, imm, ZIP_PC); }
        ZIPI    op_bgt(ZIPIMM imm) const
                { return op_add(ZIPC_GT, imm, ZIP_PC); }
        ZIPI    op_blt(ZIPIMM imm) const
                { return op_add(ZIPC_LT, imm, ZIP_PC); }
        ZIPI    op_brc(ZIPIMM imm) const
                { return op_add(ZIPC_C, imm, ZIP_PC); }
        ZIPI    op_brv(ZIPIMM imm) const
                { return op_add(ZIPC_V, imm, ZIP_PC); }
        ZIPI    op_bv(ZIPIMM imm) const
                { return op_brv(imm); }
 
        ZIPI    op_clrf(ZIPCOND cnd, ZIPREG a) const
                { return op_xor(cnd, 0, a, a); }
        ZIPI    op_clrf(ZIPREG a) const
                { return op_xor(ZIPC_ALWAYS, 0, a, a); }
        // ZIPI op_retn(ZIPCOND c) const
                // { return op_lod(c, 1, ZIP_SP, ZIP_PC); }
        ZIPI    op_halt(ZIPCOND c) const {
                return op_or(c, 0x10, ZIP_CC); }
        ZIPI    op_wait(ZIPCOND c) const {
                return op_or(c, 0x30, ZIP_CC); }
        ZIPI    op_halt(void) const {
                return op_or(ZIPC_ALWAYS, 0x10, ZIP_CC); }
        ZIPI    op_wait(void) const {
                return op_or(ZIPC_ALWAYS, 0x10, ZIP_CC); }
        ZIPI    op_busy(ZIPCOND c) const {
                return op_add(c, -1, ZIP_PC); }
        ZIPI    op_busy(void) const {
                return op_add(ZIPC_ALWAYS, -1, ZIP_PC); }
 
        ZIPI    op_rtu(void) const {
                return op_or(ZIPC_ALWAYS, 0x20, ZIP_CC); }
        ZIPI    op_rtu(ZIPCOND cnd) const {
                return op_or(cnd, 0x20, ZIP_CC); }
 
        ZIPI    op_jmp(ZIPCOND c, ZIPIMM imm, ZIPREG r) const
                { return op_mov(ZIPC_ALWAYS, imm, r, ZIP_PC); }
 
        ZIPI    op_ljmp(void) const { return 0x7c87c000; }
 
        ZIPI    op_ljmp(ZIPCOND c, ZIPIMM imm) const {
                return op_add(ZIPC_ALWAYS, imm, ZIP_PC); }
 
        ZIPI    op_not(ZIPCOND c, ZIPREG r) const
                { return op_xor(c, -1, r); }
        ZIPI    op_not(ZIPREG r) const
                { return op_xor(ZIPC_ALWAYS, -1, r); }
 
        ZIPI    op_divu(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_divu(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
        ZIPI    op_divs(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;
        ZIPI    op_divs(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;
 
        bool    can_merge(const ZIPI a, const ZIPI b);
        ZIPI    merge(const ZIPI a, const ZIPI b);
        ZIPIMM  immediate(const ZIPI a);
 
};
 
#endif

Line No.	Rev	Author	Line
1	2	dgisselq	`////////////////////////////////////////////////////////////////////////////////`
2			`//`
3			`// Filename: zparser.h`
4			`//`
5			`// Project: Zip CPU -- a small, lightweight, RISC CPU core`
6			`//`
7	13	dgisselq	`// Purpose: This file is really mis-named. At one time it was going to`
8			`// be header file for the parser for the Zip Assembler, zasm.`
9			`// Since then, I discovered Flex and Bison and have written a`
10			`// parser using those tools. The true parser may therefore be`
11			`// found in zasm.y. This file, however, still declares some`
12			`// very valuable tools. In particular, all of the routines used`
13			`// to build instructions from the appropriate fields are declared`
14			`// in this file.`
15	2	dgisselq	`//`
16			`// Creator: Dan Gisselquist, Ph.D.`
17	69	dgisselq	`// Gisselquist Technology, LLC`
18	2	dgisselq	`//`
19			`////////////////////////////////////////////////////////////////////////////////`
20			`//`
21			`// Copyright (C) 2015, Gisselquist Technology, LLC`
22			`//`
23			`// This program is free software (firmware): you can redistribute it and/or`
24			`// modify it under the terms of the GNU General Public License as published`
25			`// by the Free Software Foundation, either version 3 of the License, or (at`
26			`// your option) any later version.`
27			`//`
28			`// This program is distributed in the hope that it will be useful, but WITHOUT`
29			`// ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or`
30			`// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License`
31			`// for more details.`
32			`//`
33			`// You should have received a copy of the GNU General Public License along`
34			`// with this program. (It's in the $(ROOT)/doc directory, run make with no`
35			`// target there if the PDF file isn't present.) If not, see`
36			`// <http://www.gnu.org/licenses/> for a copy.`
37			`//`
38			`// License: GPL, v3, as defined and found on www.gnu.org,`
39			`// http://www.gnu.org/licenses/gpl.html`
40			`//`
41			`//`
42			`////////////////////////////////////////////////////////////////////////////////`
43
44			`#ifndef ZPARSER_H`
45			`#define ZPARSER_H`
46
47	143	dgisselq	`/*`
48			`* LONG_MPY controls whether or not the instruction set has:`
49			`* (if not defined)`
50			`* LDIHI - load the value into the upper 16 bits of a register`
51			`* MPYS - Multiplies two 16-bit values into a signed 32-bit result`
52			`* MPYU - Multiplies two 16-bit values into an unsigned 32-bit result`
53			`* (if defined)`
54			`* MPY - Multiplies two 32-bit values and returns the lower 32-bits of`
55			`* the result. Works for signed and unsigned values.`
56			`* MPYSHI - Multiplies two 32-bit values and returns the upper 32-bits of`
57			`* the signed 64-bit result`
58			`* MPYUHI - Multiplies two 32-bit values and returns the upper 32-bits of`
59			`* the unsigned 64-bit result`
60			`*`
61			`*/`
62			`#define LONG_MPY`
63
64			`#include "zopcodes.h"`
65
66	2	dgisselq	`class ZPARSER {`
67			`public:`
68	143	dgisselq	`typedef unsigned int ZIPA;`
69	2	dgisselq	`typedef int ZIPIMM;`
70			`typedef enum {`
71			`ZIP_R0, ZIP_R1, ZIP_R2, ZIP_R3, ZIP_R4, ZIP_R5, ZIP_R6, ZIP_R7,`
72			`ZIP_R8, ZIP_R9, ZIP_R10, ZIP_R11, ZIP_R12,`
73			`ZIP_SP, ZIP_CC, ZIP_PC,`
74			`ZIP_uR0, ZIP_uR1, ZIP_uR2, ZIP_uR3, ZIP_uR4, ZIP_uR5, ZIP_uR6, ZIP_uR7,`
75			`ZIP_uR8, ZIP_uR9, ZIP_uR10, ZIP_uR11, ZIP_uR12,`
76			`ZIP_uSP, ZIP_uCC, ZIP_uPC,`
77			`ZIP_Rnone`
78			`} ZIPREG;`
79
80			`typedef enum {`
81	69	dgisselq	`ZIPC_ALWAYS, ZIPC_LT, ZIPC_Z, ZIPC_NZ,`
82			`ZIPC_GT, ZIPC_GE, ZIPC_C, ZIPC_V`
83	2	dgisselq	`} ZIPCOND;`
84
85	69	dgisselq	`typedef enum {`
86			`// 16 ALU instructions`
87			`ZIPO_SUB=0, ZIPO_AND, ZIPO_ADD, ZIPO_OR, // 5'h000xx`
88			`ZIPO_XOR, ZIPO_LSR, ZIPO_LSL, ZIPO_ASR, // 5'h001xx`
89	143	dgisselq	`#ifdef LONG_MPY`
90			`ZIPO_MPY, ZIPO_LDILO, ZIPO_MPYUHI, ZIPO_MPYSHI, // 5'h010xx`
91			`#else`
92	69	dgisselq	`ZIPO_LDIHI, ZIPO_LDILO, ZIPO_MPYU, ZIPO_MPYS, // 5'h010xx`
93	143	dgisselq	`#endif`
94	69	dgisselq	`ZIPO_BREV, ZIPO_POPC, ZIPO_ROL, ZIPO_MOV, // 5'h011xx`
95			`ZIPO_CMP, ZIPO_TST, // 5'h1000x`
96			`ZIPO_LOD, ZIPO_STO, // 5'h1001w`
97			`ZIPO_DIVU, ZIPO_DIVS, // 5'h1010s`
98			`ZIPO_LDI, ZIPO_LDIn, // 5'h1011x`
99			`// ZIPO_, ZIPO_DIVS, // 5'h11000`
100			`ZIPO_FPADD=0x18, ZIPO_FPSUB, // 5'h1100x`
101			`ZIPO_FPMUL, ZIPO_FPDIV, // 5'h1101x`
102			`ZIPO_FPCVT, ZIPO_FPINT, // 5'h1110x`
103			`} ZIPOP;`
104	2	dgisselq
105	126	dgisselq	`ZIPIMM brev(ZIPIMM) const;`
106
107	2	dgisselq	`ZIPI op_cmp(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
108			`ZIPI op_cmp(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
109			`ZIPI op_cmp(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
110			`{ return op_cmp(ZIPC_ALWAYS, imm, b, a); }`
111			`ZIPI op_cmp(ZIPIMM imm, ZIPREG a) const`
112			`{ return op_cmp(ZIPC_ALWAYS, imm, a); }`
113
114			`ZIPI op_tst(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
115			`ZIPI op_tst(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
116			`ZIPI op_tst(ZIPIMM imm, ZIPREG a) const`
117			`{ return op_tst(ZIPC_ALWAYS, imm, a); }`
118			`ZIPI op_tst(ZIPCOND cnd, ZIPREG a) const`
119			`{ return op_tst(cnd, -1, a); }`
120
121			`ZIPI op_mov(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
122			`ZIPI op_mov(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
123			`{ return op_mov(ZIPC_ALWAYS, imm, b, a); }`
124			`ZIPI op_mov(ZIPREG b, ZIPREG a) const`
125			`{ return op_mov(ZIPC_ALWAYS, 0, b, a); }`
126
127			`ZIPI op_ldi(ZIPIMM imm, ZIPREG a) const;`
128			`ZIPI op_trap(ZIPCOND cnd, ZIPIMM imm) const;`
129			`ZIPI op_trap(ZIPIMM imm) const`
130			`{ return op_trap(ZIPC_ALWAYS, imm); }`
131			`ZIPI op_clr(ZIPREG a) const { return op_ldi(0, a); }`
132
133			`ZIPI op_noop(void) const;`
134			`ZIPI op_break(void) const;`
135	69	dgisselq	`ZIPI op_lock(void) const;`
136	2	dgisselq
137	143	dgisselq	`#ifdef LONG_MPY`
138			`ZIPI op_mpy(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
139	126	dgisselq	`ZIPI op_mpy(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
140	143	dgisselq	`ZIPI op_mpy(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
141			`{ return op_mpy(ZIPC_ALWAYS, imm, b, a); }`
142			`ZIPI op_mpy(ZIPIMM imm, ZIPREG a) const`
143			`{ return op_mpy(ZIPC_ALWAYS, imm, a); }`
144			`#else`
145	2	dgisselq	`ZIPI op_ldihi(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
146			`ZIPI op_ldihi(ZIPIMM imm, ZIPREG a) const`
147			`{ return op_ldihi(ZIPC_ALWAYS, imm, a); }`
148	143	dgisselq	`#endif`
149	126	dgisselq	`ZIPI op_ldilo(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
150	2	dgisselq	`ZIPI op_ldilo(ZIPIMM imm, ZIPREG a) const`
151			`{ return op_ldilo(ZIPC_ALWAYS, imm, a); }`
152
153	143	dgisselq	`#ifdef LONG_MPY`
154			`ZIPI op_mpyuhi(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
155			`ZIPI op_mpyuhi(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
156			`ZIPI op_mpyuhi(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
157			`{ return op_mpyuhi(ZIPC_ALWAYS, imm, b, a); }`
158			`ZIPI op_mpyuhi(ZIPIMM imm, ZIPREG a) const`
159			`{ return op_mpyuhi(ZIPC_ALWAYS,imm,a); }`
160			`#else`
161	26	dgisselq	`ZIPI op_mpyu(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
162			`ZIPI op_mpyu(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
163			`ZIPI op_mpyu(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
164			`{ return op_mpyu(ZIPC_ALWAYS, imm, b, a); }`
165			`ZIPI op_mpyu(ZIPIMM imm, ZIPREG a) const`
166			`{ return op_mpyu(ZIPC_ALWAYS, imm, a); }`
167	143	dgisselq	`#endif`
168	126	dgisselq	`//`
169	8	dgisselq
170	143	dgisselq	`#ifdef LONG_MPY`
171			`ZIPI op_mpyshi(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
172			`ZIPI op_mpyshi(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
173			`ZIPI op_mpyshi(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
174			`{ return op_mpyshi(ZIPC_ALWAYS, imm, b, a); }`
175			`ZIPI op_mpyshi(ZIPIMM imm, ZIPREG a) const`
176			`{ return op_mpyshi(ZIPC_ALWAYS, imm, a); }`
177			`#else`
178	26	dgisselq	`ZIPI op_mpys(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
179			`ZIPI op_mpys(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
180			`ZIPI op_mpys(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
181			`{ return op_mpys(ZIPC_ALWAYS, imm, b, a); }`
182			`ZIPI op_mpys(ZIPIMM imm, ZIPREG a) const`
183			`{ return op_mpys(ZIPC_ALWAYS, imm, a); }`
184	143	dgisselq	`#endif`
185	26	dgisselq
186	8	dgisselq	`ZIPI op_rol(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
187			`ZIPI op_rol(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
188			`ZIPI op_rol(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
189			`{ return op_rol(ZIPC_ALWAYS, imm, b, a); }`
190			`ZIPI op_rol(ZIPIMM imm, ZIPREG a) const`
191			`{ return op_rol(ZIPC_ALWAYS, imm, a); }`
192
193	69	dgisselq	`ZIPI op_popc(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
194			`ZIPI op_popc(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
195			`ZIPI op_popc(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
196			`{ return op_popc(ZIPC_ALWAYS, imm, b, a); }`
197			`ZIPI op_popc(ZIPIMM imm, ZIPREG a) const`
198			`{ return op_popc(ZIPC_ALWAYS, imm, a); }`
199
200			`ZIPI op_brev(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
201			`ZIPI op_brev(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
202			`ZIPI op_brev(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
203			`{ return op_brev(ZIPC_ALWAYS, imm, b, a); }`
204			`ZIPI op_brev(ZIPIMM imm, ZIPREG a) const`
205			`{ return op_brev(ZIPC_ALWAYS, imm, a); }`
206
207	2	dgisselq	`ZIPI op_lod(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
208			`ZIPI op_lod(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
209			`ZIPI op_lod(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
210			`{ return op_lod(ZIPC_ALWAYS, imm, b, a); }`
211			`ZIPI op_lod(ZIPIMM imm, ZIPREG a) const`
212			`{ return op_lod(ZIPC_ALWAYS, imm, a); }`
213
214			`ZIPI op_sto(ZIPCOND cnd, ZIPREG v, ZIPIMM imm, ZIPREG b) const;`
215			`ZIPI op_sto(ZIPCOND cnd, ZIPREG v, ZIPIMM imm) const;`
216			`ZIPI op_sto(ZIPREG v, ZIPIMM imm, ZIPREG b) const`
217			`{ return op_sto(ZIPC_ALWAYS, v, imm, b); }`
218			`ZIPI op_sto(ZIPREG v, ZIPIMM imm) const`
219			`{ return op_sto(ZIPC_ALWAYS, v, imm); }`
220
221			`ZIPI op_sub(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
222			`ZIPI op_sub(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
223			`ZIPI op_sub(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
224			`{ return op_sub(ZIPC_ALWAYS, imm, b, a); }`
225			`ZIPI op_sub(ZIPIMM imm, ZIPREG a) const`
226			`{ return op_sub(ZIPC_ALWAYS, imm, a); }`
227
228			`ZIPI op_and(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
229			`ZIPI op_and(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
230			`ZIPI op_and(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
231			`{ return op_and(ZIPC_ALWAYS, imm, b, a); }`
232			`ZIPI op_and(ZIPIMM imm, ZIPREG a) const`
233			`{ return op_and(ZIPC_ALWAYS, imm, a); }`
234
235			`ZIPI op_add(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
236			`ZIPI op_add(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
237			`ZIPI op_add(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
238			`{ return op_add(ZIPC_ALWAYS, imm, b, a); }`
239			`ZIPI op_add(ZIPIMM imm, ZIPREG a) const // GOOD`
240			`{ return op_add(ZIPC_ALWAYS, imm, a); }`
241
242			`ZIPI op_or(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
243			`ZIPI op_or(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
244			`ZIPI op_or(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
245			`{ return op_or(ZIPC_ALWAYS, imm, b, a); }`
246			`ZIPI op_or(ZIPIMM imm, ZIPREG a) const`
247			`{ return op_or(ZIPC_ALWAYS, imm, a); }`
248
249			`ZIPI op_xor(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
250			`ZIPI op_xor(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
251			`ZIPI op_xor(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
252			`{ return op_xor(ZIPC_ALWAYS, imm, b, a); }`
253			`ZIPI op_xor(ZIPIMM imm, ZIPREG a) const`
254			`{ return op_xor(ZIPC_ALWAYS, imm, a); }`
255
256			`ZIPI op_lsl(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
257			`ZIPI op_lsl(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
258			`ZIPI op_lsl(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
259			`{ return op_lsl(ZIPC_ALWAYS, imm, b, a); }`
260			`ZIPI op_lsl(ZIPIMM imm, ZIPREG a) const`
261			`{ return op_lsl(ZIPC_ALWAYS, imm, a); }`
262			`ZIPI op_asl(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const`
263			`{ return op_lsl(cnd, imm, b, a); }`
264			`ZIPI op_asl(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const`
265			`{ return op_lsl(cnd, imm, a); }`
266			`ZIPI op_asl(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
267			`{ return op_lsl(ZIPC_ALWAYS, imm, b, a); }`
268			`ZIPI op_asl(ZIPIMM imm, ZIPREG a) const`
269			`{ return op_lsl(ZIPC_ALWAYS, imm, a); }`
270
271			`ZIPI op_asr(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
272			`ZIPI op_asr(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
273			`ZIPI op_asr(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
274			`{ return op_asr(ZIPC_ALWAYS, imm, b, a); }`
275			`ZIPI op_asr(ZIPIMM imm, ZIPREG a) const`
276			`{ return op_asr(ZIPC_ALWAYS, imm, a); }`
277
278			`ZIPI op_lsr(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
279			`ZIPI op_lsr(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
280			`ZIPI op_lsr(ZIPIMM imm, ZIPREG b, ZIPREG a) const`
281			`{ return op_lsr(ZIPC_ALWAYS, imm, b, a); }`
282			`ZIPI op_lsr(ZIPIMM imm, ZIPREG a) const`
283			`{ return op_lsr(ZIPC_ALWAYS, imm, a); }`
284
285			`ZIPI op_bra(ZIPCOND cnd, ZIPIMM imm) const`
286	100	dgisselq	`{ return op_add(cnd, imm, ZIP_PC); }`
287	2	dgisselq	`ZIPI op_bra(ZIPIMM imm) const`
288	89	dgisselq	`{ return op_add(ZIPC_ALWAYS, imm, ZIP_PC); }`
289	2	dgisselq	`ZIPI op_brz(ZIPIMM imm) const`
290	100	dgisselq	`{ return op_add(ZIPC_Z, imm, ZIP_PC); }`
291	2	dgisselq	`ZIPI op_bnz(ZIPIMM imm) const`
292	100	dgisselq	`{ return op_add(ZIPC_NZ, imm, ZIP_PC); }`
293	2	dgisselq	`ZIPI op_bge(ZIPIMM imm) const`
294	100	dgisselq	`{ return op_add(ZIPC_GE, imm, ZIP_PC); }`
295	2	dgisselq	`ZIPI op_bgt(ZIPIMM imm) const`
296	100	dgisselq	`{ return op_add(ZIPC_GT, imm, ZIP_PC); }`
297	2	dgisselq	`ZIPI op_blt(ZIPIMM imm) const`
298	100	dgisselq	`{ return op_add(ZIPC_LT, imm, ZIP_PC); }`
299	2	dgisselq	`ZIPI op_brc(ZIPIMM imm) const`
300	100	dgisselq	`{ return op_add(ZIPC_C, imm, ZIP_PC); }`
301	2	dgisselq	`ZIPI op_brv(ZIPIMM imm) const`
302	100	dgisselq	`{ return op_add(ZIPC_V, imm, ZIP_PC); }`
303	2	dgisselq	`ZIPI op_bv(ZIPIMM imm) const`
304			`{ return op_brv(imm); }`
305
306			`ZIPI op_clrf(ZIPCOND cnd, ZIPREG a) const`
307			`{ return op_xor(cnd, 0, a, a); }`
308			`ZIPI op_clrf(ZIPREG a) const`
309			`{ return op_xor(ZIPC_ALWAYS, 0, a, a); }`
310	69	dgisselq	`// ZIPI op_retn(ZIPCOND c) const`
311			`// { return op_lod(c, 1, ZIP_SP, ZIP_PC); }`
312	2	dgisselq	`ZIPI op_halt(ZIPCOND c) const {`
313			`return op_or(c, 0x10, ZIP_CC); }`
314			`ZIPI op_wait(ZIPCOND c) const {`
315	69	dgisselq	`return op_or(c, 0x30, ZIP_CC); }`
316	2	dgisselq	`ZIPI op_halt(void) const {`
317			`return op_or(ZIPC_ALWAYS, 0x10, ZIP_CC); }`
318			`ZIPI op_wait(void) const {`
319			`return op_or(ZIPC_ALWAYS, 0x10, ZIP_CC); }`
320			`ZIPI op_busy(ZIPCOND c) const {`
321	100	dgisselq	`return op_add(c, -1, ZIP_PC); }`
322	2	dgisselq	`ZIPI op_busy(void) const {`
323	100	dgisselq	`return op_add(ZIPC_ALWAYS, -1, ZIP_PC); }`
324	2	dgisselq
325			`ZIPI op_rtu(void) const {`
326			`return op_or(ZIPC_ALWAYS, 0x20, ZIP_CC); }`
327			`ZIPI op_rtu(ZIPCOND cnd) const {`
328			`return op_or(cnd, 0x20, ZIP_CC); }`
329
330			`ZIPI op_jmp(ZIPCOND c, ZIPIMM imm, ZIPREG r) const`
331			`{ return op_mov(ZIPC_ALWAYS, imm, r, ZIP_PC); }`
332
333	100	dgisselq	`ZIPI op_ljmp(void) const { return 0x7c87c000; }`
334
335	2	dgisselq	`ZIPI op_ljmp(ZIPCOND c, ZIPIMM imm) const {`
336			`return op_add(ZIPC_ALWAYS, imm, ZIP_PC); }`
337
338			`ZIPI op_not(ZIPCOND c, ZIPREG r) const`
339			`{ return op_xor(c, -1, r); }`
340			`ZIPI op_not(ZIPREG r) const`
341			`{ return op_xor(ZIPC_ALWAYS, -1, r); }`
342
343	69	dgisselq	`ZIPI op_divu(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
344			`ZIPI op_divu(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
345			`ZIPI op_divs(ZIPCOND cnd, ZIPIMM imm, ZIPREG b, ZIPREG a) const;`
346			`ZIPI op_divs(ZIPCOND cnd, ZIPIMM imm, ZIPREG a) const;`
347
348			`bool can_merge(const ZIPI a, const ZIPI b);`
349			`ZIPI merge(const ZIPI a, const ZIPI b);`
350			`ZIPIMM immediate(const ZIPI a);`
351
352	2	dgisselq	`};`
353
354			`#endif`

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