X-Git-Url: https://notaz.gp2x.de/cgi-bin/gitweb.cgi?a=blobdiff_plain;f=cpu%2FCyclone%2FEa.cpp;h=4be33e134eabfe23aedee5f2fba4018c04d2500b;hb=d4789c7cd6fb9d8e63084c16f9a595b27914bb4e;hp=22e59395f9cf2b60d3b7437f3951feb158c29ba2;hpb=b637c56aadc5b854ca28a8a111cf07324bc0e2ad;p=picodrive.git diff --git a/cpu/Cyclone/Ea.cpp b/cpu/Cyclone/Ea.cpp index 22e5939..4be33e1 100644 --- a/cpu/Cyclone/Ea.cpp +++ b/cpu/Cyclone/Ea.cpp @@ -1,6 +1,8 @@ #include "app.h" +int earead_check_addrerr = 1, eawrite_check_addrerr = 0; + // some ops use non-standard cycle counts for EAs, so are listed here. // all constants borrowed from the MUSASHI core by Karl Stenerud. @@ -98,11 +100,12 @@ static int EaCalcReg(int r,int ea,int mask,int forceor,int shift,int noshift=0) for (i=mask|0x8000; (i&1)==0; i>>=1) low++; // Find out how high up the EA mask is mask&=0xf<=8) needor=1; // Need to OR to access A0-7 - - if ((mask>>low)&8) if (ea&8) needor=0; // Ah - no we don't actually need to or, since the bit is high in r8 - - if (forceor) needor=1; // Special case for 0x30-0x38 EAs ;) + if (ea>=8) + { + needor=1; // Need to OR to access A0-7 + if ((g_op>>low)&8) { needor=0; mask|=8<=0x10, trashes r0,r2 and r3, else nothing // size values 0, 1, 2 ~ byte, word, long +// mask shows usable bits in r8 int EaCalc(int a,int mask,int ea,int size,int top,int sign_extend) { char text[32]=""; @@ -147,16 +151,23 @@ int EaCalc(int a,int mask,int ea,int size,int top,int sign_extend) if (ea<0x28) { int step=1<>=1) low++; // Find out how high up the EA mask is - lsl=2-low; // Having a lsl #x here saves one opcode - if (lsl>=0) ot(" ldr r%d,[r7,r2,lsl #%i]\n",a,lsl); - else if (lsl<0) ot(" ldr r%d,[r7,r2,lsr #%i]\n",a,-lsl); + if (ea==0x1f||ea==0x27) // A7 handlers are always separate + { + ot(" ldr r%d,[r7,#0x3c] ;@ A7\n",a); + } + else + { + EaCalcReg(2,ea,mask,0,0,1); + if(mask) + for (i=mask|0x8000; (i&1)==0; i>>=1) low++; // Find out how high up the EA mask is + lsl=2-low; // Having a lsl #x here saves one opcode + if (lsl>=0) ot(" ldr r%d,[r7,r2,lsl #%i]\n",a,lsl); + else if (lsl<0) ot(" ldr r%d,[r7,r2,lsr #%i]\n",a,-lsl); + } if ((ea&0x38)==0x18) // (An)+ { @@ -169,8 +180,15 @@ int EaCalc(int a,int mask,int ea,int size,int top,int sign_extend) if ((ea&0x38)==0x18||(ea&0x38)==0x20) { - if (lsl>=0) ot(" str r%d,[r7,r2,lsl #%i]\n",strr,lsl); - else if (lsl<0) ot(" str r%d,[r7,r2,lsr #%i]\n",strr,-lsl); + if (ea==0x1f||ea==0x27) + { + ot(" str r%d,[r7,#0x3c] ;@ A7\n",strr); + } + else + { + if (lsl>=0) ot(" str r%d,[r7,r2,lsl #%i]\n",strr,lsl); + else if (lsl<0) ot(" str r%d,[r7,r2,lsr #%i]\n",strr,-lsl); + } } if ((ea&0x38)==0x20) Cycles+=size<2 ? 6:10; // -(An) Extra cycles @@ -263,8 +281,8 @@ int EaCalc(int a,int mask,int ea,int size,int top,int sign_extend) } ot(" ldrh r2,[r4],#2 ;@ Fetch immediate value\n"); - ot(" ldrh r0,[r4],#2\n"); pc_dirty=1; - ot(" orr r%d,r0,r2,lsl #16\n",a); + ot(" ldrh r3,[r4],#2\n"); pc_dirty=1; + ot(" orr r%d,r3,r2,lsl #16\n",a); Cycles+=8; // Extra cycles return 0; } @@ -284,27 +302,29 @@ int EaRead(int a,int v,int ea,int size,int mask,int top,int sign_extend) { char text[32]=""; int shift=0; - + shift=32-(8<=2||(size==0&&(top||!sign_extend))) { if(mask) for (i=mask|0x8000; (i&1)==0; i>>=1) low++; // Find out how high up the EA mask is lsl=2-low; // Having a lsl #2 here saves one opcode } + if (top||!sign_extend) nsarm=3; + ot(";@ EaRead : Read register[r%d] into r%d:\n",a,v); - if (lsl>0) ot(" ldr%s r%d,[r7,r%d,lsl #%i]\n",Narm[size&3],v,a,lsl); - else if (lsl<0) ot(" ldr%s r%d,[r7,r%d,lsr #%i]\n",Narm[size&3],v,a,-lsl); - else ot(" ldr%s r%d,[r7,r%d]\n",Sarm[size&3],v,a); + if (lsl>0) ot(" ldr%s r%d,[r7,r%d,lsl #%i]\n",Narm[nsarm],v,a,lsl); + else if (lsl<0) ot(" ldr%s r%d,[r7,r%d,lsr #%i]\n",Narm[nsarm],v,a,-lsl); + else ot(" ldr%s r%d,[r7,r%d]\n",Sarm[nsarm],v,a); - if (top && shift) ot(" mov r%d,r%d,asl #%d\n",v,v,shift); + if (top&&shift) ot(" mov r%d,r%d,asl #%d\n",v,v,shift); ot("\n"); return 0; } @@ -322,8 +342,11 @@ int EaRead(int a,int v,int ea,int size,int mask,int top,int sign_extend) ot("\n"); return 0; } - if (ea>=0x3a && ea<=0x3b) MemHandler(2,size,a); // Fetch - else MemHandler(0,size,a); // Read + if (ea>=0x3a && ea<=0x3b) MemHandler(2,size,a,earead_check_addrerr); // Fetch + else MemHandler(0,size,a,earead_check_addrerr); // Read + + // defaults to 1, as most things begins with a read + earead_check_addrerr=1; if (sign_extend) { @@ -350,6 +373,43 @@ int EaRead(int a,int v,int ea,int size,int mask,int top,int sign_extend) ot("\n"); return 0; } +// calculate EA and read +// if (ea < 0x10) nothing is trashed +// if (ea == 0x3c) r2 and r3 are trashed +// else r0-r3 are trashed +// size values 0, 1, 2 ~ byte, word, long +// r_ea is reg to store ea in (-1 means ea is not needed), r is dst reg +// if sign_extend is 0, non-32bit values will have MS bits undefined +int EaCalcRead(int r_ea,int r,int ea,int size,int mask,int sign_extend) +{ + if (ea<0x10) + { + if (r_ea==-1) + { + r_ea=r; + if (!sign_extend) size=2; + } + } + else if (ea==0x3c) // #imm + { + r_ea=r; + } + else + { + if (r_ea==-1) r_ea=0; + } + + EaCalc (r_ea,mask,ea,size,0,sign_extend); + EaRead (r_ea, r,ea,size,mask,0,sign_extend); + + return 0; +} + +int EaCalcReadNoSE(int r_ea,int r,int ea,int size,int mask) +{ + return EaCalcRead(r_ea,r,ea,size,mask,0); +} + // Return 1 if we can read this ea int EaCanRead(int ea,int size) { @@ -407,7 +467,11 @@ int EaWrite(int a,int v,int ea,int size,int mask,int top,int sign_extend_ea) if (shift) ot(" mov r1,r%d,asr #%d\n",v,shift); else if (v!=1) ot(" mov r1,r%d\n",v); - MemHandler(1,size,a); // Call write handler + MemHandler(1,size,a,eawrite_check_addrerr); // Call write handler + + // not check by default, because most cases are rmw and + // address was already checked before reading + eawrite_check_addrerr = 0; ot("\n"); return 0; }