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8bitworkshop/presets/msx/msxbios.c

340 lines
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/*
http://map.grauw.nl/resources/msxbios.php
http://map.grauw.nl/resources/msxsystemvars.php
https://www.msx.org/wiki/System_variables_and_work_area
*/
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#include "msxbios.h"
#define MSXUSR_LOAD_A() __asm__("ld a,l");
#define MSXUSR_LOAD_E() __asm__("ld e,h");
#define MSXUSR_RTN_A() __asm__("ld l,a");
#define MSXUSR_RTN_Z()\
__asm__("ld l,#0");\
__asm__("ret nz");\
__asm__("inc l");
#define MSXUSR_RTN_C()\
__asm__("ld l,#0");\
__asm__("ret nc");\
__asm__("inc l");
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union {
struct {
uint16_t iy,ix,de,bc,af,hl;
} w;
struct {
uint8_t iyl,iyh,ixl,ixh,e,d,c,b,f,a,l,h;
} b;
} REGS;
void LOAD_REGS() {
__asm__("ld de,(_REGS+4)");
__asm__("ld bc,(_REGS+6)");
__asm__("ld a,(_REGS+9)");
__asm__("ld hl,(_REGS+10)");
// TODO: load other regs?
}
#define MSXUSR_LOAD_REGS(bioscall)\
LOAD_REGS();\
MSXUSR(bioscall);
void RDSLT(uint8_t slot, uint16_t addr) {
REGS.b.a = slot;
REGS.w.hl = addr;
MSXUSR_LOAD_REGS(0x000c);
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}
void WRSLT(uint8_t slot, uint16_t addr, uint8_t value) {
REGS.b.a = slot;
REGS.w.hl = addr;
REGS.b.e = value;
MSXUSR_LOAD_REGS(0x0014);
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}
void DISSCR() __z88dk_fastcall {
MSXUSR(0x0041);
}
void ENASCR() __z88dk_fastcall {
MSXUSR(0x0044);
}
void WRTVDP(uint16_t reg_data) __z88dk_fastcall {
reg_data;
__asm__("ld b,l");
__asm__("ld c,h");
MSXUSR(0x0047);
}
uint8_t RDVRM(uint16_t addr) __z88dk_fastcall {
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addr;
MSXUSR(0x004a);
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MSXUSR_RTN_A();
}
void WRTVRM(uint16_t addr, uint8_t data) {
REGS.w.hl = addr;
REGS.b.a = data;
MSXUSR_LOAD_REGS(0x004d);
}
void SETRD() {
MSXUSR(0x0050);
}
void SETWRT() {
MSXUSR(0x0053);
}
void FILVRM(uint16_t start, uint16_t len, uint8_t data) {
REGS.w.hl = start;
REGS.w.bc = len;
REGS.b.a = data;
MSXUSR_LOAD_REGS(0x0056);
}
void LDIRMV(uint8_t* mdest, uint16_t vsrc, uint16_t count) {
REGS.w.de = (uint16_t)mdest;
REGS.w.hl = vsrc;
REGS.w.bc = count;
MSXUSR_LOAD_REGS(0x0059);
}
void LDIRVM(uint16_t vdest, const uint8_t* msrc, uint16_t count) {
REGS.w.de = vdest;
REGS.w.hl = (uint16_t)msrc;
REGS.w.bc = count;
MSXUSR_LOAD_REGS(0x005c);
}
void CHGMOD(uint8_t mode) __z88dk_fastcall {
mode;
MSXUSR_LOAD_A();
MSXUSR(0x005f);
}
void CHGCLR() __z88dk_fastcall {
// TODO
MSXUSR(0x0062);
}
void CLRSPR() __z88dk_fastcall {
MSXUSR(0x0069);
}
void INITXT() __z88dk_fastcall {
MSXUSR(0x006c);
}
void INIT32() __z88dk_fastcall {
MSXUSR(0x006f);
}
void INIGRP() __z88dk_fastcall {
MSXUSR(0x0072);
}
void INIMLT() __z88dk_fastcall {
MSXUSR(0x0075);
}
uint16_t CALPAT() __z88dk_fastcall {
MSXUSR(0x0084);
MSXUSR_RTN_A();
}
uint16_t CALATR() __z88dk_fastcall {
MSXUSR(0x0087);
MSXUSR_RTN_A();
}
uint16_t GSPSIZ() __z88dk_fastcall {
MSXUSR(0x008a);
MSXUSR_RTN_A();
}
uint16_t GRPPRT(char ch) __z88dk_fastcall {
ch;
MSXUSR_LOAD_A();
MSXUSR(0x008d);
}
uint16_t GICINI() __z88dk_fastcall {
MSXUSR(0x0090);
}
uint16_t WRTPSG(uint16_t reg_data) __z88dk_fastcall {
reg_data;
MSXUSR_LOAD_A();
MSXUSR_LOAD_E();
MSXUSR(0x0096);
}
uint8_t CHSNS() __z88dk_fastcall {
MSXUSR(0x009c);
MSXUSR_RTN_Z();
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}
char CHGET() __z88dk_fastcall {
MSXUSR(0x009f);
MSXUSR_RTN_A();
}
void CHPUT(char ch) __z88dk_fastcall {
ch;
MSXUSR_LOAD_A();
MSXUSR(0x00a2);
}
void LPTOUT(char ch) __z88dk_fastcall {
ch;
MSXUSR_LOAD_A();
MSXUSR(0x00a5);
}
void BEEP() __z88dk_fastcall {
MSXUSR(0x00c0);
}
void CLS() __z88dk_fastcall {
__asm__("xor a");
MSXUSR(0x00c3);
}
void POSIT(uint16_t yx) __z88dk_fastcall {
yx;
MSXUSR(0x00c6);
}
void TOTEXT() __z88dk_fastcall {
MSXUSR(0x00d2);
}
uint8_t GTSTCK(uint8_t index) __z88dk_fastcall {
index;
MSXUSR_LOAD_A();
MSXUSR(0x00d5);
MSXUSR_RTN_A();
}
uint8_t GTTRIG(uint8_t index) __z88dk_fastcall {
index;
MSXUSR_LOAD_A();
MSXUSR(0x00d8);
MSXUSR_RTN_A();
}
uint8_t GTPAD(uint8_t index) __z88dk_fastcall {
index;
MSXUSR_LOAD_A();
MSXUSR(0x00db);
MSXUSR_RTN_A();
}
uint8_t GTPDL(uint8_t index) __z88dk_fastcall {
index;
MSXUSR_LOAD_A();
MSXUSR(0x00de);
MSXUSR_RTN_A();
}
/*
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void RIGHTC() __z88dk_fastcall {
MSXUSR(0x00fc);
}
void LEFTC() __z88dk_fastcall {
MSXUSR(0x00ff);
}
void UPC() __z88dk_fastcall {
MSXUSR(0x0102);
}
uint8_t TUPC() __z88dk_fastcall {
MSXUSR(0x0105);
MSXUSR_RTN_C();
}
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void DOWNC() __z88dk_fastcall {
MSXUSR(0x0108);
}
uint8_t TDOWNC() __z88dk_fastcall {
MSXUSR(0x010b);
MSXUSR_RTN_C();
}
void SCALXY() __z88dk_fastcall {
MSXUSR(0x010e);
}
*/
void MAPXY() __z88dk_fastcall {
MSXUSR(0x0111);
}
uint16_t FETCHC_ADDR() __z88dk_fastcall {
MSXUSR(0x0114);
}
/*
void STOREC(uint16_t addr, uint8_t mask) {
REGS.w.hl = addr;
REGS.b.a = mask;
MSXUSR_LOAD_REGS(0x0117);
}
void SETATR(uint8_t attr) __z88dk_fastcall {
attr;
MSXUSR_LOAD_A();
MSXUSR(0x011a);
}
uint8_t READC() __z88dk_fastcall {
MSXUSR(0x011d);
MSXUSR_RTN_A();
}
void SETC() __z88dk_fastcall {
MSXUSR(0x0120);
}
void NSETCX(uint16_t fillcount) __z88dk_fastcall {
fillcount;
MSXUSR(0x0123);
}
*/
uint8_t RDVDP() __z88dk_fastcall {
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MSXUSR(0x013e);
MSXUSR_RTN_A();
}
uint8_t SNSMAT(uint8_t row) __z88dk_fastcall {
row;
MSXUSR_LOAD_A();
MSXUSR(0x0141);
MSXUSR_RTN_A();
}
void KILBUF() __z88dk_fastcall {
MSXUSR(0x0156);
}
// for stdio.h
int putchar(int ch) {
CHPUT(ch);
if (ch == '\n') CHPUT('\r'); // convert CR to CRLF
return ch;
}
char getchar() {
char ch = CHGET();
putchar(ch); // echo
if (ch == '\r') ch = '\n';
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return ch;
}