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arch-superfx.cpp
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#include "asar.h"
#define error error<errblock>
#define write1 write1_pick
extern bool emulatexkas;
void asinit_superfx()
{
}
void asend_superfx()
{
}
static void range(int min, int mid, int max, const char * err)
{
if (mid<min || mid>max) error(0, err);
}
enum reg_t {
reg_parr,
reg_r,
reg_hash,
};
static bool getreg(const char * par, int * reg, reg_t type)
{
int ret;
*reg=-1;
if (type==reg_parr && *par++!='(') return false;
if (type==reg_parr && toupper(*par++)!='R') return false;
if (type==reg_r && toupper(*par++)!='R') return false;
if (type==reg_hash && *par++!='#') return false;
if (!isdigit(par[0])) return false;
if (isdigit(par[1]))
{
if (par[0]!='1' || par[1]>'5') return false;
ret=par[1]-'0'+10;
par+=2;
}
else
{
ret=par[0]-'0';
par+=1;
}
if (type==reg_parr && *par++!=')') return false;
if (*par) return false;
*reg=ret;
return true;
}
//for LMS and SMS short addressing forms, check range & evenness
static bool check_short_addr(int num) {
if (num % 2 > 0 || num < 0 || num > 0x1FE) {
error(0, S"Invalid short address argument: $" + hex(num) +
" (must be even number and $0000-$01FE)");
return false;
}
return true;
}
bool asblock_superfx(char** word, int numwords)
{
#define is(test) (!stricmp(word[0], test))
#define is0(test) (!stricmp(word[0], test) && numwords==1)
#define is1(test) (!stricmp(word[0], test) && numwords==2)
#define is2(test) (!stricmp(word[0], test) && numwords==3)
#define is3(test) (!stricmp(word[0], test) && numwords==4)
#define is4(test) (!stricmp(word[0], test) && numwords==5)
#define is5(test) (!stricmp(word[0], test) && numwords==6)
char * par=NULL;
if (word[1]) par=strdup(word[1]);
autoptr<char*> parptr=par;
if(0);
else if (assemblemapper(word, numwords)) {}
else if (numwords==1)
{
#define op(from, to) if (is(from)) { write1(to); return true; }
#define op3d(from, to) if (is(from)) { write1(0x3D); write1(to); return true; }
#define op3e(from, to) if (is(from)) { write1(0x3E); write1(to); return true; }
#define op3f(from, to) if (is(from)) { write1(0x3F); write1(to); return true; }
op("STOP", 0x00);
op("NOP", 0x01);
op("CACHE", 0x02);
op("LSR", 0x03);
op("ROL", 0x04);
op("LOOP", 0x3C);
op("ALT1", 0x3D);
op("ALT2", 0x3E);
op("ALT3", 0x3F);
op("PLOT", 0x4C);
op("SWAP", 0x4D);
op("COLOR", 0x4E);
op("NOT", 0x4F);
op("MERGE", 0x70);
op("SBK", 0x90);
op("SEX", 0x95);
op("ASR", 0x96);
op("ROR", 0x97);
op("LOB", 0x9E);
op("FMULT", 0x9F);
op("HIB", 0xC0);
op("GETC", 0xDF);
op("GETB", 0xEF);
op3d("RPIX", 0x4C);
op3d("CMODE", 0x4E);
op3d("DIV2", 0x96);
op3d("LMULT", 0x9F);
op3d("GETBH", 0xEF);
op3e("RAMB", 0xDF);
op3e("GETBL", 0xEF);
op3f("ROMB", 0xDF);
op3f("GETBS", 0xEF);
#undef op
#undef op3d
#undef op3e
#undef op3f
return false;
}
else if (numwords==2)
{
string tmp=par;
int numwords;
autoptr<char*> parcpy=strdup(par);
autoptr<char**> arg=qpsplit(parcpy, ",", &numwords);
bool ret=false;
#define ok() ret=true
#define op(op) if (is(op)) ok()
#define w3d(val) ,write1(0x3D) w(val)
#define w3e(val) ,write1(0x3E) w(val)
#define w3f(val) ,write1(0x3F) w(val)
if (numwords==1)
{
#define w(val) ,write1(val+reg)
#define range(min, max) ,range(min, reg, max, "Invalid register for opcode; valid range is "#min"-"#max)
int reg;
if (getreg(par, ®, reg_r))
{
op("TO") w(0x10);
op("WITH") w(0x20);
op("ADD") w(0x50);
op("SUB") w(0x60);
op("AND") range(1, 15) w(0x70);
op("MULT") w(0x80);
op("JMP") range(8, 13) w(0x90);
op("FROM") w(0xB0);
op("OR") range(1, 15) w(0xC0);
op("INC") range(0, 14) w(0xD0);
op("DEC") range(0, 14) w(0xE0);
op("ADC") w3d(0x50);
op("SBC") w3d(0x60);
op("BIC") range(1, 15) w3d(0x70);
op("UMULT") w3d(0x80);
op("LJMP") range(8, 13) w3d(0x90);
op("XOR") range(1, 15) w3d(0xC0);
op("CMP") w3f(0x60);
}
if (getreg(par, ®, reg_hash))
{
op("LINK") range(1, 4) w(0x90);
op("ADD") w3e(0x50);
op("SUB") w3e(0x60);
op("AND") range(1, 15) w3e(0x70);
op("MULT") w3e(0x80);
op("OR") range(1, 15) w3e(0xC0);
op("ADC") w3f(0x50);
op("BIC") range(1, 15) w3f(0x70);
op("UMULT") w3f(0x80);
op("XOR") range(1, 15) w3f(0xC0);
}
if (getreg(par, ®, reg_parr))
{
op("STW") range(0, 11) w(0x30);
op("LDW") range(0, 11) w(0x40);
op("STB") range(0, 11) w3d(0x30);
op("LDB") range(0, 11) w3d(0x40);
}
#undef w
#undef range
int byte=-1;
#define br(name, val) if (is(name)) byte=val;
br("BRA", 0x05);
br("BGE", 0x06);
br("BLT", 0x07);
br("BNE", 0x08);
br("BEQ", 0x09);
br("BPL", 0x0A);
br("BMI", 0x0B);
br("BCC", 0x0C);
br("BCS", 0x0D);
br("BVC", 0x0E);
br("BVS", 0x0F);
#undef br
if (byte!=-1)
{
ret=true;
int len=getlen(par);
int num=getnum(par);
if (len==1)
{
write1(byte); write1(num);
}
else
{
int pos=num-((snespos&0xFFFFFF)+2);
write1(byte); write1(pos);
if (pass==2 && (pos<-128 || pos>127))
{
error(2, S"Relative branch out of bounds (distance is "+dec(pos)+")");
}
}
}
}
if (numwords==2)
{
#define w(val) ,write1(val)
int reg1; bool isreg1=getreg(arg[0], ®1, reg_r);
int reg2; bool isreg2=getreg(arg[1], ®2, reg_r);
if (isreg1)
{
if (isreg2)
{
op("MOVE") w(0x20+reg2) w(0x10+reg1);
op("MOVES") w(0x20+reg1) w(0xB0+reg2);
}
if (arg[1][0]=='#')
{
unsigned int num=getnum(arg[1]+1);
num&=0xFFFF;
op("IBT") w(0xA0+reg1) w(num);
op("IWT") w(0xF0+reg1) w(num) w(num>>8);
if (num<0x80 || num>=0xFF80)
{
op("MOVE") w(0xA0+reg1) w(num);
}
else
{
op("MOVE") w(0xF0+reg1) w(num) w(num>>8);
}
}
if (getreg(arg[1], ®2, reg_parr))
{
if (reg1==0)
{
op("MOVEB") w(0x3D) w(0x40+reg2);
op("MOVEW") w(0x40+reg2);
}
else
{
op("MOVEB") w(0x10+reg1) w(0x3D) w(0x40+reg2);
op("MOVEW") w(0x10+reg1) w(0x40+reg2);
}
}
else if (arg[1][0]=='(')
{
char * endpar=strchr(arg[1], ')');
if (!endpar || endpar[1]) return false;
int num=getnum(arg[1]);
op("LM") w(0x3D) w(0xF0+reg1) w(num) w(num>>8);
if (is("LMS")) {
ok();
if (check_short_addr(num))
{
ok() w(0x3D) w(0xA0+reg1) w(num>>1);
}
}
if (num&1 || num>=0x200)
{
op("MOVE") w(0x3D) w(0xF0+reg1) w(num) w(num>>8);
}
else
{
op("MOVE") w(0x3D) w(0xA0+reg1) w(num);
}
}
if (is("LEA"))
{
int num=getnum(arg[1]);
ok() w(0xF0+reg1) w(num) w(num>>8);
}
}
else if (isreg2)
{
if (getreg(arg[0], ®1, reg_parr))
{
if (reg1==0)
{
op("MOVEB") w(0x3D) w(0x30+reg2);
op("MOVEW") w(0x30+reg2);
}
else
{
op("MOVEB") w(0xB0+reg1) w(0x3D) w(0x30+reg2);
op("MOVEW") w(0xB0+reg1) w(0x30+reg2);
}
}
else if (arg[0][0]=='(')
{
char * endpar=strchr(arg[0], ')');
if (!endpar || endpar[1]) return false;
int num=getnum(arg[0]);
op("SM") w(0x3E) w(0xF0+reg2) w(num) w(num>>8);
if (is("SMS"))
{
ok();
if (check_short_addr(num))
{
ok() w(0x3E) w(0xA0+reg2) w(num>>1);
}
}
if (num&1 || num>=0x200)
{
op("MOVE") w(0x3E) w(0xF0+reg2) w(num) w(num>>8);
}
else
{
op("MOVE") w(0x3E) w(0xA0+reg2) w(num);
}
}
}
}
#undef ok
#undef op
#undef w3d
#undef w3e
#undef w3f
return ret;
}
return true;
}