Version bump for last commit + ws cleanups. Now at v2.0.18.

[rmac] / dsp56k_amode.h

//
// RMAC - Reboot's Macro Assembler for the Atari Jaguar Console System
// DSP56K_AMODE.H - Addressing Modes for Motorola DSP56001
// Copyright (C) 199x Landon Dyer, 2011-2020 Reboot and Friends
// RMAC derived from MADMAC v1.07 Written by Landon Dyer, 1986
// Source utilised with the kind permission of Landon Dyer
//

#ifndef __DSP56K_AMODE_H__
#define __DSP56K_AMODE_H__

#include "rmac.h"
#include "amode.h"

// Addressing-mode masks

#define M_ACC56      0x00000001L        // Accumulators A=A2:A1:A0 and B=B2:B1:B0
#define M_ACC48      0x00000002L        // Accumulators AB=A1:B1, BA=B1:A1, A10=A1:A0, B10=B1:B0
#define M_ACC24      0x00000004L        // Accumulators A0, A1, B0 and B1
#define M_ACC8       0x00000008L        // Accumulators A2 and B2
#define M_INP48      0x00000010L        // Input registers X=X1:X0 and Y=Y1:Y0
#define M_ALU24      0x00000020L        // Data ALU input registers X1, X0, Y1, Y0
#define M_DSPIM      0x00000040L        // #data
#define M_DSPIM12    0x00000080L        // #data
//#define M_DSPIM24    0x0000010        // #data
#define M_DSPPCU     0x00000200L        // Program control unit registers PC, MR, CCR, SR, OMR, LA, LC, SP, SS, SSH, SSL
#define M_DSPEA      0x00000400L        // Effective addressing modes (Rn)-Nn, (Rn)+Nn, (Rn)-, (Rn)+, (Rn), (Rn+Nn), -(Rn), <absolute address>
#define M_DSPAA      0x00000800L        // 6-bit Absolute Short Address
#define M_DSPPP      0x00001000L        // 6-bit I/O Short Address
#define M_DSPM       0x00002000L        // Modifier registers M0-M7
#define M_DSPR       0x00004000L        // Address registers R0-R7
#define M_DSPN       0x00008000L        // Address offset registers N0-N7
#define M_DSPABS12   0x00010000L        // xxx.12bit
#define M_DSPABS24   0x00020000L        // xxx.24bit
#define M_DSPABS06   0x00040000L        // xxx.6bit
#define M_DSPABS16   0x00080000L        // xxx.16bit
#define M_DSPIM8     0x00100000L        // #data

#define M_ALL48 (M_ACC56|M_INP48|M_ALU24)   // Input registers X=X1:X0, Y=Y1:Y0, A=A2:A1:A0, B=B2:B1:B0, X0, X1, Y0, Y1

#define C_DD    (M_ALU24)                   // 4 registers in data ALU: x0, x1, y0, y1
#define C_DDD   (M_ACC56|M_ACC24|M_ACC8)    // 8 accumulators in data ALU: a0, b0, a2, b2, a1, b1, a, b
#define C_LLL   (M_ACC56|M_ACC48|M_INP48)   // 8 extended-precision registers in data ALU: a10, b10, x, y, a, b, ab, ba
#define C_FFF   (M_DSPM)                    // 8 address modifier registers in address ALU:  m0-m7
#define C_NNN   (M_DSPN)                    // 8 address offset registers in address ALU: n0-n7
#define C_TTT   (M_DSPR)                    // 8 address registers in address: r0-r7
#define C_GGG   (M_DSPPCU)                  // 8 program controller registers: sr, omr, sp, ssh, la, lc
#define C_A18   (M_ALU24|C_DDD|C_LLL|C_FFF|C_NNN|C_TTT|C_GGG)   // All of the above registers

#define C_DSPABS24      (M_DSPABS06|M_DSPABS12|M_DSPABS16|M_DSPABS24)   // Everything up to 24-bit addresses
#define C_DSPABSEA      (C_DSPABS24|M_DSPEA)                                                    // All absolute addresses and all other ea addressing modes
#define C_DSPABS16  (M_DSPABS06|M_DSPABS12|M_DSPABS16)                          // Everything up to 16-bit addresses
#define C_LUADST    (M_DSPR|M_DSPN)                                                                     // Mask for LUA instruction destination
#define C_MOVEC     (M_DSPM|M_DSPPCU)                                                           // M0-M7 and SR, OMR, LA, LC, SP, SS, SSH, SSL
#define C_DSPIM         (M_DSPIM8 | M_DSPIM | M_DSPIM12)                                // All the immmediate sizes we want to alias

// Xn Input Register X1 or X0 (24 Bits)
// Yn Input Register Y1 or Y0 (24 Bits)
// An Accumulator Registers A2, A1, A0 (A2 \97 8 Bits, A1 and A0 \97 24 Bits)
// Bn Accumulator Registers B2, B1, B0 (B2 \97 8 Bits, B1 and B0 \97 24 Bits)
// X Input Register X = X1: X0 (48 Bits)
// Y Input Register Y = Y1: Y0 (48 Bits)
// A Accumulator A = A2: A1: A0 (56 Bits)*
// B Accumulator B = B2: B1: B0 (56 BIts)*
// AB Accumulators A and B = A1: B1 (48 Bits)*
// BA Accumulators B and A = B1: A1 (48 Bits)*
// A10 Accumulator A = A1: A0 (48 Bits)
// B10 Accumulator B= B1:B0 (48 bits)

// Attribute masks
#define PARMOVE      0x00000001L
#define NOPARMO      0x00000000L

// DSP EA modes

#define DSP_EA_POSTDEC  B8(00000000)
#define DSP_EA_POSTINC  B8(00001000)
#define DSP_EA_POSTDEC1 B8(00010000)
#define DSP_EA_POSTINC1 B8(00011000)
#define DSP_EA_NOUPD    B8(00100000)
#define DSP_EA_INDEX    B8(00101000)
#define DSP_EA_PREDEC1  B8(00111000)
#define DSP_EA_ABS      B8(00110000)
#define DSP_EA_IMM      B8(00110100)


// Mnemonic table structure
#define MNTABDSP  struct _mntabdsp
MNTABDSP {
        LONG mn0, mn1;                          // Addressing modes
        WORD mnattr;                            // Attributes (PARMOVE, ...)
        LONG mninst;                            // Instruction mask
        WORD mncont;                            // Continuation (or -1)
        int (* mnfunc)(LONG);           // Mnemonic builder
};

// Addressing mode variables, output of dsp_amode()
extern int dsp_am0;                                     // Addressing mode
extern int dsp_a0reg;                                   // Register
extern int dsp_am1;                                     // Addressing mode
extern int dsp_a1reg;                                   // Register
extern int dsp_am2;                                     // Addressing mode
extern int dsp_a2reg;                                   // Register
extern int dsp_am3;                                     // Addressing mode
extern int dsp_a3reg;                                   // Register

extern TOKEN dsp_a0expr[EXPRSIZE];              // Expression
extern uint64_t dsp_a0exval;                    // Expression's value
extern WORD dsp_a0exattr;                               // Expression's attribute
extern SYM * dsp_a0esym;                                // External symbol involved in expr
extern LONG dsp_a0memspace;                     // Addressing mode's memory space (P, X, Y)
extern LONG dsp_a0perspace;                     // Peripheral space (X, Y - used in movep)
extern TOKEN dsp_a1expr[EXPRSIZE];              // Expression
extern uint64_t dsp_a1exval;                    // Expression's value
extern WORD dsp_a1exattr;                               // Expression's attribute
extern SYM * dsp_a1esym;                                // External symbol involved in expr
extern LONG dsp_a1memspace;                     // Addressing mode's memory space (P, X, Y)
extern LONG dsp_a1perspace;                     // Peripheral space (X, Y - used in movep)
extern TOKEN dsp_a2expr[EXPRSIZE];              // Expression
extern uint64_t dsp_a2exval;                    // Expression's value
extern WORD dsp_a2exattr;                               // Expression's attribute
extern SYM * dsp_a2esym;                                // External symbol involved in expr
extern TOKEN dsp_a3expr[EXPRSIZE];              // Expression
extern uint64_t dsp_a3exval;                    // Expression's value
extern WORD dsp_a3exattr;                               // Expression's attribute
extern SYM * dsp_a3esym;                                // External symbol involved in expr
extern int dsp_k;                                               // Multiplications sign
extern TOKEN dspImmedEXPR[EXPRSIZE];    // Expression
extern uint64_t dspImmedEXVAL;                  // Expression's value
extern WORD  dspImmedEXATTR;                    // Expression's attribute
extern SYM * dspImmedESYM;                              // External symbol involved in expr
extern int deposit_extra_ea;                    // Optional effective address extension


// Extra ea deposit modes
enum
{
        DEPOSIT_EXTRA_WORD  = 1,
        DEPOSIT_EXTRA_FIXUP = 2,
};


// Prototypes
int dsp_amode(int maxea);
LONG parmoves(WORD dest);
int dsp_tcc4(LONG inst);

#endif // __DSP56K_AMODE_H__