Pixel accurate emulation of Prehistorik Man on a CGB-CPU-E

Core/z80_cpu.c

@@ -11,13 +11,13 @@ typedef enum {
     GB_CONFLICT_READ_OLD,
     /* If the CPU writes while another component reads, it reads the new value */
     GB_CONFLICT_READ_NEW,
-    /* If the CPU writes while another component reads, it reads a bitwise OR between the new and old values */
-    GB_CONFLICT_READ_OR,
     /* If the CPU and another component write at the same time, the CPU's value "wins" */
     GB_CONFLICT_WRITE_CPU,
     /* Register specific values */
     GB_CONFLICT_STAT_CGB,
     GB_CONFLICT_STAT_DMG,
+    GB_CONFLICT_PALETTE_DMG,
+    GB_CONFLICT_PALETTE_CGB,
 } GB_conflict_t;
 
 /* Todo: How does double speed mode affect these? */
@@ -25,6 +25,10 @@ static const GB_conflict_t cgb_conflict_map[0x80] = {
     [GB_IO_IF] = GB_CONFLICT_WRITE_CPU,
     [GB_IO_LYC] = GB_CONFLICT_WRITE_CPU,
     [GB_IO_STAT] = GB_CONFLICT_STAT_CGB,
+    [GB_IO_BGP] = GB_CONFLICT_PALETTE_CGB,
+    [GB_IO_OBP0] = GB_CONFLICT_PALETTE_CGB,
+    [GB_IO_OBP1] = GB_CONFLICT_PALETTE_CGB,
+    
 
     /* Todo: most values not verified, and probably differ between revisions */
 };
@@ -37,9 +41,9 @@ static const GB_conflict_t dmg_conflict_map[0x80] = {
     [GB_IO_STAT] = GB_CONFLICT_STAT_DMG,
  
     /* Todo: these are GB_CONFLICT_READ_NEW on MGB/SGB2 */
-    [GB_IO_BGP] = GB_CONFLICT_READ_OR,
-    [GB_IO_OBP0] = GB_CONFLICT_READ_OR,
-    [GB_IO_OBP1] = GB_CONFLICT_READ_OR,
+    [GB_IO_BGP] = GB_CONFLICT_PALETTE_DMG,
+    [GB_IO_OBP0] = GB_CONFLICT_PALETTE_DMG,
+    [GB_IO_OBP1] = GB_CONFLICT_PALETTE_DMG,
     
     /* Todo: these were not verified at all */
     [GB_IO_WY] = GB_CONFLICT_READ_NEW,
@@ -88,22 +92,30 @@ static void cycle_write(GB_gameboy_t *gb, uint16_t addr, uint8_t value)
             gb->pending_cycles = 5;
             return;
             
-        case GB_CONFLICT_READ_OR: {
-            GB_advance_cycles(gb, gb->pending_cycles - 2);
-            uint8_t old_value = GB_read_memory(gb, addr);
-            GB_write_memory(gb, addr, value | old_value);
-            GB_advance_cycles(gb, 1);
-            GB_write_memory(gb, addr, value);
-            gb->pending_cycles = 5;
-            return;
-        }
-            
         case GB_CONFLICT_WRITE_CPU:
             GB_advance_cycles(gb, gb->pending_cycles + 1);
             GB_write_memory(gb, addr, value);
             gb->pending_cycles = 3;
             return;
-            
+        
+        /* The DMG STAT-write bug is basically the STAT register being read as FF for a single T-cycle */
+        case GB_CONFLICT_STAT_DMG:
+            GB_advance_cycles(gb, gb->pending_cycles);
+            /* State 7 is the edge between HBlank and OAM mode, and it behaves a bit weird.
+             The OAM interrupt seems to be blocked by HBlank interrupts in that case, despite
+             the timing not making much sense for that.
+             This is a hack to simulate this effect */
+            if (gb->display_state == 7 && (gb->io_registers[GB_IO_STAT] & 0x28) == 0x08) {
+                GB_write_memory(gb, addr, ~0x20);
+            }
+            else {
+                GB_write_memory(gb, addr, 0xFF);
+            }
+            GB_advance_cycles(gb, 1);
+            GB_write_memory(gb, addr, value);
+            gb->pending_cycles = 3;
+            return;
+        
         case GB_CONFLICT_STAT_CGB: {
             /* The LYC bit behaves differently */
             uint8_t old_value = GB_read_memory(gb, addr);
@@ -115,23 +127,27 @@ static void cycle_write(GB_gameboy_t *gb, uint16_t addr, uint8_t value)
             return;
         }
         
-        /* The DMG STAT-write bug is basically the STAT register being read as FF for a single T-cycle */
-        case GB_CONFLICT_STAT_DMG:
-            GB_advance_cycles(gb, gb->pending_cycles);
-            /* State 7 is the edge between HBlank and OAM mode, and it behaves a bit weird.
-               The OAM interrupt seems to be blocked by HBlank interrupts in that case, despite
-               the timing not making much sense for that.
-               This is a hack to simulate this effect */
-            if (gb->display_state == 7 && (gb->io_registers[GB_IO_STAT] & 0x28) == 0x08) {
-                GB_write_memory(gb, addr, ~0x20);
-            }
-            else {
-                GB_write_memory(gb, addr, 0xFF);
-            }
+        /* There is some "time travel" going on with these two values, as it appears
+           that there's some off-by-1-T-cycle timing issue in the PPU implementation.
+         
+           This is should be accurate for every measureable scenario, though. */
+            
+        case GB_CONFLICT_PALETTE_DMG: {
+            GB_advance_cycles(gb, gb->pending_cycles - 2);
+            uint8_t old_value = GB_read_memory(gb, addr);
+            GB_write_memory(gb, addr, value | old_value);
             GB_advance_cycles(gb, 1);
             GB_write_memory(gb, addr, value);
-            gb->pending_cycles = 3;
+            gb->pending_cycles = 5;
             return;
+        }
+            
+        case GB_CONFLICT_PALETTE_CGB: {
+            GB_advance_cycles(gb, gb->pending_cycles - 2);
+            GB_write_memory(gb, addr, value);
+            gb->pending_cycles = 6;
+            return;
+        }
     }
 }