#include "gpu.h"
#include "jaguar.h"
#include "log.h"
-#include "m68k.h"
+#include "m68000/m68kinterface.h"
#include "memory.h"
#include "tom.h"
#define OBJECT_TYPE_BRANCH 3 // 011
#define OBJECT_TYPE_STOP 4 // 100
-#define CONDITION_EQUAL 0
-#define CONDITION_LESS_THAN 1
-#define CONDITION_GREATER_THAN 2
+#define CONDITION_EQUAL 0 // VC == YPOS
+#define CONDITION_LESS_THAN 1 // VC < YPOS
+#define CONDITION_GREATER_THAN 2 // VC > YPOS
#define CONDITION_OP_FLAG_SET 3
#define CONDITION_SECOND_HALF_LINE 4
+#if 0
#define OPFLAG_RELEASE 8 // Bus release bit
#define OPFLAG_TRANS 4 // Transparency bit
#define OPFLAG_RMW 2 // Read-Modify-Write bit
#define OPFLAG_REFLECT 1 // Horizontal mirror bit
+#endif
// Private function prototypes
OPReset();
}
+
//
// Object Processor reset
//
objectp_running = 0;
}
+
static const char * opType[8] =
{ "(BITMAP)", "(SCALED BITMAP)", "(GPU INT)", "(BRANCH)", "(STOP)", "???", "???", "???" };
static const char * ccType[8] =
- { "\"==\"", "\"<\"", "\">\"", "(opflag set)", "(second half line)", "?", "?", "?" };
+ { "==", "<", ">", "(opflag set)", "(second half line)", "?", "?", "?" };
static uint32 object[8192];
static uint32 numberOfObjects;
//static uint32 objectLink[8192];
//static uint32 numberOfLinks;
+
void OPDone(void)
{
//#warning "!!! Fix OL dump so that it follows links !!!"
WriteLog("\n");
#else
+//#warning "!!! Fix lockup in OPDiscoverObjects() !!!"
+//temp, to keep the following function from locking up on bad/weird OLs
+//return;
+
numberOfObjects = 0;
OPDiscoverObjects(olp);
OPDumpObjectList();
#endif
}
-void OPDiscoverObjects(uint32 address)
+
+bool OPObjectExists(uint32 address)
{
- // Check to see if we've already seen this object
+ // Yes, we really do a linear search, every time. :-/
for(uint32 i=0; i<numberOfObjects; i++)
{
if (address == object[i])
- return;
+ return true;
}
- // Store the object...
- object[numberOfObjects++] = address;
+ return false;
+}
+
+
+void OPDiscoverObjects(uint32 address)
+{
uint8 objectType = 0;
do
{
+ // If we've seen this object already, bail out!
+ // Otherwise, add it to the list
+ if (OPObjectExists(address))
+ return;
+
+ object[numberOfObjects++] = address;
+
+ // Get the object & decode its type, link address
uint32 hi = JaguarReadLong(address + 0, OP);
uint32 lo = JaguarReadLong(address + 4, OP);
objectType = lo & 0x07;
if (objectType == 3)
{
- uint16 ypos = (lo >> 3) & 0x7FF;
- uint8 cc = (lo >> 14) & 0x07; // Proper # of bits == 3
-
- // Recursion needed to follow all links!
+ // Recursion needed to follow all links! This does depth-first recursion
+ // on the not-taken objects
OPDiscoverObjects(address + 8);
}
- if (address == link) // Ruh roh...
- {
- // Runaway recursive link is bad!
- return;
- }
-
+ // Get the next object...
address = link;
-
- // Check to see if we've already seen this object, and add it if not
- bool seenObject = false;
-
- for(uint32 i=0; i<numberOfObjects; i++)
- {
- if (address == object[i])
- {
- seenObject = true;
- break;
- }
- }
-
- if (!seenObject)
- object[numberOfObjects++] = address;
}
while (objectType != 4);
}
+
void OPDumpObjectList(void)
{
for(uint32 i=0; i<numberOfObjects; i++)
uint32 lo = JaguarReadLong(address + 4, OP);
uint8 objectType = lo & 0x07;
uint32 link = ((hi << 11) | (lo >> 21)) & 0x3FFFF8;
- WriteLog("%08X: %08X %08X %s", address, hi, lo, opType[objectType]);
+ WriteLog("%08X: %08X %08X %s -> $08X", address, hi, lo, opType[objectType], link);
if (objectType == 3)
{
uint16 ypos = (lo >> 3) & 0x7FF;
uint8 cc = (lo >> 14) & 0x07; // Proper # of bits == 3
- WriteLog(" YPOS=%u, CC=%s, link=$%08X", ypos, ccType[cc], link);
+ WriteLog(" YPOS %s %u", ccType[cc], ypos);
}
WriteLog("\n");
WriteLog("\n");
}
+
//
// Object Processor memory access
// Memory range: F00010 - F00027
}
#endif
+
uint32 OPGetListPointer(void)
{
// Note: This register is LO / HI WORD, hence the funky look of this...
return GET16(tomRam8, 0x20) | (GET16(tomRam8, 0x22) << 16);
}
+
// This is WRONG, since the OBF is only 16 bits wide!!! [FIXED]
uint32 OPGetStatusRegister(void)
return GET16(tomRam8, 0x26);
}
+
// This is WRONG, since the OBF is only 16 bits wide!!! [FIXED]
void OPSetStatusRegister(uint32 data)
tomRam8[0x27] |= (data & 0xFE);
}
+
void OPSetCurrentObject(uint64 object)
{
//Not sure this is right... Wouldn't it just be stored 64 bit BE?
tomRam8[0x10] = object & 0xFF;
}
+
uint64 OPLoadPhrase(uint32 offset)
{
offset &= ~0x07; // 8 byte alignment
return ((uint64)JaguarReadLong(offset, OP) << 32) | (uint64)JaguarReadLong(offset+4, OP);
}
+
void OPStorePhrase(uint32 offset, uint64 p)
{
offset &= ~0x07; // 8 byte alignment
JaguarWriteLong(offset + 4, p & 0xFFFFFFFF, OP);
}
+
//
// Debugging routines
//
WriteLog(" [hsc: %02X, vsc: %02X, rem: %02X]\n", hscale, vscale, remainder);
}
+
void DumpFixedObject(uint64 p0, uint64 p1)
{
WriteLog(" %08X %08X\n", (uint32)(p1>>32), (uint32)(p1&0xFFFFFFFF));
DumpBitmapCore(p0, p1);
}
+
void DumpBitmapCore(uint64 p0, uint64 p1)
{
uint32 bdMultiplier[8] = { 64, 32, 16, 8, 4, 2, 1, 1 };
uint8 flags = (p1 >> 45) & 0x0F;
uint8 idx = (p1 >> 38) & 0x7F;
uint32 pitch = (p1 >> 15) & 0x07;
- WriteLog(" [%u x %u @ (%i, %u) (iw:%u, dw:%u) (%u bpp), l:%08X, p:%08X fp:%02X, fl:%s%s%s%s, idx:%02X, pt:%02X]\n",
+ WriteLog(" [%u x %u @ (%i, %u) (iw:%u, dw:%u) (%u bpp), p:%08X fp:%02X, fl:%s%s%s%s, idx:%02X, pt:%02X]\n",
iwidth * bdMultiplier[bitdepth],
- height, xpos, ypos, iwidth, dwidth, op_bitmap_bit_depth[bitdepth], link,
+ height, xpos, ypos, iwidth, dwidth, op_bitmap_bit_depth[bitdepth],
ptr, firstPix, (flags&OPFLAG_REFLECT ? "REFLECT " : ""),
(flags&OPFLAG_RMW ? "RMW " : ""), (flags&OPFLAG_TRANS ? "TRANS " : ""),
(flags&OPFLAG_RELEASE ? "RELEASE" : ""), idx, pitch);
}
+
//
// Object Processor main routine
//
#warning "Need to fix this so that when an GPU object IRQ happens, we can pick up OP processing where we left off. !!! FIX !!!"
void OPProcessList(int halfline, bool render)
{
-#warning "!!! NEED TO HANDLE MULTIPLE FIELDS PROPERLY !!!
+#warning "!!! NEED TO HANDLE MULTIPLE FIELDS PROPERLY !!!"
// We ignore them, for now; not good
halfline &= 0x7FF;
/* if (op_pointer > ((p0 & 0x000007FFFF000000LL) >> 21))
return;*/
- op_pointer = (p0 & 0x000007FFFF000000LL) >> 21;
+// NOTE: The link address only replaces bits 3-21 in the OLP, and this replaces
+// EVERYTHING. !!! FIX !!! [DONE]
+#warning "!!! Link address is not linked properly for all object types !!!"
+#warning "!!! Only BITMAP is properly handled !!!"
+ op_pointer &= 0xFFC00007;
+ op_pointer |= (p0 & 0x000007FFFF000000LL) >> 21;
//WriteLog("New OP: %08X\n", op_pointer);
+//kludge: Seems that memory access is mirrored in the first 8MB of memory...
+if (op_pointer > 0x1FFFFF && op_pointer < 0x800000)
+ op_pointer &= 0xFF1FFFFF; // Knock out bits 21-23
+
break;
}
case OBJECT_TYPE_SCALE:
uint16 ypos = (p0 >> 3) & 0x7FF;
// NOTE: The JTRM sez there are only 2 bits used for the CC, but lists *five*
// conditions! Need at least one more bit for that! :-P
+// Also, the ASIC nets imply that it uses bits 14-16 (height in BM & SBM objects)
#warning "!!! Possibly bad CC handling in OP (missing 1 bit) !!!"
uint8 cc = (p0 >> 14) & 0x03;
uint32 link = (p0 >> 21) & 0x3FFFF8;
// break;
}
default:
- WriteLog("op: unknown object type %i\n", ((uint8)p0 & 0x07));
+// WriteLog("op: unknown object type %i\n", ((uint8)p0 & 0x07));
return;
}
}
}
+
//
// Store fixed size bitmap in line buffer
//
// Is it OK to have a 0 for the data width??? (i.e., undocumented?)
// Seems to be... Seems that dwidth *can* be zero (i.e., reuse same line) as well.
// Pitch == 0 is OK too...
+
+//kludge: Seems that the OP treats iwidth == 0 as iwidth == 1... Need to investigate
+// on real hardware...
+#warning "!!! Need to investigate iwidth == 0 behavior on real hardware !!!"
+if (iwidth == 0)
+ iwidth = 1;
+
// if (!render || op_pointer == 0 || ptr == 0 || pitch == 0)
//I'm not convinced that we need to concern ourselves with data & op_pointer here either!
if (!render || iwidth == 0)
}
}
+
//
// Store scaled bitmap in line buffer
//