minivmac4ios/Mini vMac/mnvm_core/GLOBGLUE.h
2016-05-01 19:05:36 +02:00

1 line
5.7 KiB
C
Executable File

/*
GLOBGLUE.h
Copyright (C) 2003 Bernd Schmidt, Philip Cummins, Paul C. Pratt
You can redistribute this file and/or modify it under the terms
of version 2 of the GNU General Public License as published by
the Free Software Foundation. You should have received a copy
of the license along with this file; see the file COPYING.
This file 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
license for more details.
*/
#ifdef GLOBGLUE_H
#error "header already included"
#else
#define GLOBGLUE_H
#endif
#define kEmMd_128K 0
#define kEmMd_512Ke 1
#define kEmMd_Plus 2
#define kEmMd_SE 3
#define kEmMd_SEFDHD 4
#define kEmMd_Classic 5
#define kEmMd_PB100 6
#define kEmMd_II 7
#define kEmMd_IIx 8
#define RAMSafetyMarginFudge 4
#define kRAM_Size (kRAMa_Size + kRAMb_Size)
EXPORTVAR(ui3p, RAM)
/*
allocated by MYOSGLUE to be at least
kRAM_Size + RAMSafetyMarginFudge
bytes. Because of shortcuts taken in GLOBGLUE.c, it is in theory
possible for the emulator to write up to 3 bytes past kRAM_Size.
*/
#if EmVidCard
EXPORTVAR(ui3p, VidROM)
#endif
#if IncludeVidMem
EXPORTVAR(ui3p, VidMem)
#endif
EXPORTPROC MemOverlay_ChangeNtfy(void);
#if (CurEmMd == kEmMd_II) || (CurEmMd == kEmMd_IIx)
EXPORTPROC Addr32_ChangeNtfy(void);
#endif
/*
representation of pointer into memory of emulated computer.
*/
typedef ui5b CPTR;
/*
mapping of address space to real memory
*/
EXPORTFUNC ui3p get_real_address0(ui5b L, blnr WritableMem, CPTR addr,
ui5b *actL);
/*
memory access routines that can use when have address
that is known to be in RAM (and that is in the first
copy of the ram, not the duplicates, i.e. < kRAM_Size).
*/
#define get_ram_byte(addr) do_get_mem_byte((addr) + RAM)
#define get_ram_word(addr) do_get_mem_word((addr) + RAM)
#define get_ram_long(addr) do_get_mem_long((addr) + RAM)
#define put_ram_byte(addr, b) do_put_mem_byte((addr) + RAM, (b))
#define put_ram_word(addr, w) do_put_mem_word((addr) + RAM, (w))
#define put_ram_long(addr, l) do_put_mem_long((addr) + RAM, (l))
#define get_ram_address(addr) ((addr) + RAM)
/*
accessing addresses that don't map to
real memory, i.e. memory mapped devices
*/
EXPORTFUNC blnr AddrSpac_Init(void);
#define ui5r_FromSByte(x) ((ui5r)(si5r)(si3b)(ui3b)(x))
#define ui5r_FromSWord(x) ((ui5r)(si5r)(si4b)(ui4b)(x))
#define ui5r_FromSLong(x) ((ui5r)(si5r)(si5b)(ui5b)(x))
#define ui5r_FromUByte(x) ((ui5r)(ui3b)(x))
#define ui5r_FromUWord(x) ((ui5r)(ui4b)(x))
#define ui5r_FromULong(x) ((ui5r)(ui5b)(x))
#define LOCALPROCUSEDONCE LOCALFUNC MayInline void
#if WantDisasm
EXPORTPROC dbglog_StartLine(void);
#else
#define dbglog_StartLine()
#endif
#if dbglog_HAVE
EXPORTPROC dbglog_WriteMemArrow(blnr WriteMem);
EXPORTPROC dbglog_WriteNote(char *s);
EXPORTPROC dbglog_WriteSetBool(char *s, blnr v);
EXPORTPROC dbglog_AddrAccess(char *s,
ui5r Data, blnr WriteMem, ui5r addr);
EXPORTPROC dbglog_Access(char *s, ui5r Data, blnr WriteMem);
#endif
#if dbglog_HAVE
#define ReportAbnormal DoReportAbnormal
EXPORTPROC DoReportAbnormal(char *s);
#else
#define ReportAbnormal(s) DoReportAbnormal()
EXPORTPROC DoReportAbnormal(void);
#endif
EXPORTPROC VIAorSCCinterruptChngNtfy(void);
EXPORTVAR(blnr, InterruptButton)
EXPORTPROC SetInterruptButton(blnr v);
enum {
kICT_SubTick,
#if EmClassicKbrd
kICT_Kybd_ReceiveCommand,
kICT_Kybd_ReceiveEndCommand,
#endif
#if EmADB
kICT_ADB_NewState,
#endif
#if EmPMU
kICT_PMU_Task,
#endif
kICT_VIA1_Timer1Check,
kICT_VIA1_Timer2Check,
#if EmVIA2
kICT_VIA2_Timer1Check,
kICT_VIA2_Timer2Check,
#endif
kNumICTs
};
EXPORTPROC ICT_add(int taskid, ui5b n);
#define iCountt ui5b
EXPORTFUNC iCountt GetCuriCount(void);
EXPORTPROC ICT_Zap(void);
EXPORTVAR(uimr, ICTactive)
EXPORTVAR(iCountt, ICTwhen[kNumICTs])
EXPORTVAR(iCountt, NextiCount)
EXPORTVAR(ui3b, Wires[kNumWires])
#define kLn2CycleScale 6
#define kCycleScale (1 << kLn2CycleScale)
#if WantCycByPriOp
#define RdAvgXtraCyc /* 0 */ (kCycleScale + kCycleScale / 4)
#define WrAvgXtraCyc /* 0 */ (kCycleScale + kCycleScale / 4)
#endif
#define kNumSubTicks 16
#define HaveMasterMyEvtQLock EmClassicKbrd
#if HaveMasterMyEvtQLock
EXPORTVAR(ui4r, MasterMyEvtQLock)
#endif
EXPORTFUNC blnr FindKeyEvent(int *VirtualKey, blnr *KeyDown);
/* minivmac extensions */
#define ExtnDat_checkval 0
#define ExtnDat_extension 2
#define ExtnDat_commnd 4
#define ExtnDat_result 6
#define ExtnDat_params 8
#define kCmndVersion 0
#define ExtnDat_version 8
enum {
kExtnFindExtn, /* must be first */
kExtnDisk,
kExtnSony,
#if EmVidCard
kExtnVideo,
#endif
#if IncludeExtnPbufs
kExtnParamBuffers,
#endif
#if IncludeExtnHostTextClipExchange
kExtnHostTextClipExchange,
#endif
kNumExtns
};
#define kcom_callcheck 0x5B17
EXPORTVAR(ui5r, my_disk_icon_addr)
EXPORTPROC Memory_Reset(void);
EXPORTPROC Extn_Reset(void);
EXPORTPROC customreset(void);
struct ATTer {
struct ATTer *Next;
ui5r cmpmask;
ui5r cmpvalu;
ui5r Access;
ui5r usemask;
ui3p usebase;
ui3r MMDV;
ui3r Ntfy;
ui4r Pad0;
ui5r Pad1; /* make 32 byte structure, on 32 bit systems */
};
typedef struct ATTer ATTer;
typedef ATTer *ATTep;
#define kATTA_readreadybit 0
#define kATTA_writereadybit 1
#define kATTA_mmdvbit 2
#define kATTA_ntfybit 3
#define kATTA_readwritereadymask \
((1 << kATTA_readreadybit) | (1 << kATTA_writereadybit))
#define kATTA_readreadymask (1 << kATTA_readreadybit)
#define kATTA_writereadymask (1 << kATTA_writereadybit)
#define kATTA_mmdvmask (1 << kATTA_mmdvbit)
#define kATTA_ntfymask (1 << kATTA_ntfybit)
EXPORTFUNC ui5b MMDV_Access(ATTep p, ui5b Data,
blnr WriteMem, blnr ByteSize, CPTR addr);
EXPORTFUNC blnr MemAccessNtfy(ATTep pT);