Merge branch 'cycle-remainder' into better_cycles

Account for both DMA cycles and remainder cycles

arm/arm64_emit.h

@@ -259,6 +259,7 @@ u32 arm_to_a64_reg[] =
 #define generate_branch_no_cycle_update(writeback_location, new_pc)           \
   if(pc == idle_loop_target_pc)                                               \
   {                                                                           \
+    generate_load_imm(reg_cycles, 0);                                         \
     generate_load_pc(reg_a0, new_pc);                                         \
     generate_function_call(a64_update_gba);                                   \
     emit_branch_filler(writeback_location);                                   \

arm/arm64_stub.S

@@ -149,6 +149,7 @@ defsymbl(a64_update_gba)
   consolidate_flags(w0)                   // update the CPSR
   store_registers()                       // save out registers
 
+  mov w0, reg_cycles                      // load remaining cycles
   bl update_gba                           // update GBA state
 
   ldr w1, [reg_base, #COMPLETED_FRAME]    // return to main if new frame
@@ -682,7 +683,9 @@ write_epilogue:
   beq smc_write                           // if so, goto SMC handler
 
 alert_loop:
+  mov w0, reg_cycles                      // load remaining cycles
   bl update_gba                           // update GBA until CPU isn't halted
+  mov reg_cycles, w0                      // load new cycle count
 
   ldr w1, [reg_base, #COMPLETED_FRAME]    // Check whether a frame was completed
   cbnz w1, return_to_main                 // and return to caller function.
@@ -690,7 +693,6 @@ alert_loop:
   ldr w1, [reg_base, #CPU_HALT_STATE]     // Check whether the CPU is halted
   cbnz w1, alert_loop                     // and keep looping until it is
 
-  mov reg_cycles, w0                      // load new cycle count
   ldr w0, [reg_base, #REG_PC]             // load new PC
   b lookup_pc                             // Resume execution at that PC
 

arm/arm_stub.S

@@ -163,18 +163,14 @@ _##symbol:
 @ Input:
 @ r0: current PC
 
-#define return_straight()                                                    ;\
-  bx lr                                                                      ;\
+#define return_straight()   bx lr
+#define return_add()        add pc, lr, #4
 
-#define return_add()                                                         ;\
-  add pc, lr, #4                                                             ;\
-
-#define load_pc_straight()                                                   ;\
-  ldr r0, [lr, #-12]                                                         ;\
-
-#define load_pc_add()                                                        ;\
-  ldr r0, [lr]                                                               ;\
+#define load_pc_straight()  ldr r0, [lr, #-12]
+#define load_pc_add()       ldr r0, [lr]
 
+#define cycles_straight()  mvn r0, reg_cycles
+#define cycles_add()       mov r0, #0
 
 #define arm_update_gba_builder(name, mode, return_op)                        ;\
                                                                              ;\
@@ -186,6 +182,7 @@ defsymbl(arm_update_gba_##name)                                              ;\
   collapse_flags(r0)                      /* update the flags              */;\
                                                                              ;\
   store_registers_##mode()                /* save out registers            */;\
+  cycles_##return_op()                    /* remaining cycles in arg0      */;\
   call_c_function(update_gba)             /* update GBA state              */;\
                                                                              ;\
   ldr r1, [reg_base, #COMPLETED_FRAME]    /* return if new frame           */;\

cpu.c

@@ -1635,7 +1635,7 @@ void execute_arm(u32 cycles)
   {
     /* Do not execute until CPU is active */
     while(reg[CPU_HALT_STATE] != CPU_ACTIVE) {
-       cycles_remaining = update_gba();
+       cycles_remaining = update_gba(cycles_remaining);
 
        if (reg[COMPLETED_FRAME])
           return;
@@ -3225,7 +3225,7 @@ skip_instruction:
     } while(cycles_remaining > 0);
 
     collapse_flags();
-    cycles_remaining = update_gba();
+    cycles_remaining = update_gba(cycles_remaining);
     if (reg[COMPLETED_FRAME])
        return;
     continue;
@@ -3738,7 +3738,7 @@ thumb_loop:
     } while(cycles_remaining > 0);
 
     collapse_flags();
-    cycles_remaining = update_gba();
+    cycles_remaining = update_gba(cycles_remaining);
     if (reg[COMPLETED_FRAME])
       return;
     continue;
@@ -3749,7 +3749,7 @@ thumb_loop:
       collapse_flags();
 
       while(reg[CPU_HALT_STATE] != CPU_ACTIVE) {
-        cycles_remaining = update_gba();
+        cycles_remaining = update_gba(cycles_remaining);
         if (reg[COMPLETED_FRAME])
           return;
       }

main.c

@@ -39,7 +39,7 @@ char save_path[512];
 
 void trigger_ext_event(void);
 
-static unsigned update_timers(irq_type *irq_raised)
+static unsigned update_timers(irq_type *irq_raised, unsigned completed_cycles)
 {
    unsigned i, ret = 0;
    for (i = 0; i < 4; i++)
@@ -49,7 +49,7 @@ static unsigned update_timers(irq_type *irq_raised)
 
       if(timer[i].status != TIMER_CASCADE)
       {
-         timer[i].count -= execute_cycles;
+         timer[i].count -= completed_cycles;
          /* io_registers accessors range: REG_TM0D, REG_TM1D, REG_TM2D, REG_TM3D */
          write_ioreg(REG_TM0D + (i * 2), -(timer[i].count > timer[i].prescale));
       }
@@ -107,16 +107,21 @@ void init_main(void)
 #endif
 }
 
-u32 update_gba(void)
+u32 update_gba(int remaining_cycles)
 {
   irq_type irq_raised = IRQ_NONE;
   int dma_cycles;
+  remaining_cycles = MAX(remaining_cycles, -64);
 
   do
   {
     unsigned i;
-    cpu_ticks += execute_cycles;
+    // Number of cycles we ask to run - cycles that we did not execute
+    // (remaining_cycles can be negative and should be close to zero)
+    unsigned completed_cycles = execute_cycles - remaining_cycles;
+    cpu_ticks += completed_cycles;
 
+    remaining_cycles = 0;
     reg[CHANGED_PC_STATUS] = 0;
     reg[COMPLETED_FRAME] = 0;
 
@@ -128,9 +133,9 @@ u32 update_gba(void)
     }
 
     // Timers can trigger DMA (usually sound) and consume cycles
-    dma_cycles = update_timers(&irq_raised);
+    dma_cycles = update_timers(&irq_raised, completed_cycles);
 
-    video_count -= execute_cycles;
+    video_count -= completed_cycles;
 
     if(video_count <= 0)
     {
@@ -238,7 +243,7 @@ u32 update_gba(void)
     if(irq_raised)
       raise_interrupt(irq_raised);
 
-    execute_cycles = MAX(0, video_count);
+    execute_cycles = MAX(video_count, 0);
 
     for (i = 0; i < 4; i++)
     {

main.h

@@ -76,7 +76,7 @@ extern u32 flush_ram_count;
 extern char main_path[512];
 extern char save_path[512];
 
-u32 update_gba(void);
+u32 update_gba(int remaining_cycles);
 void reset_gba(void);
 
 void init_main(void);

mips/mips_emit.h

@@ -231,6 +231,7 @@ u32 arm_to_mips_reg[] =
   if(pc == idle_loop_target_pc)                                               \
   {                                                                           \
     generate_load_pc(reg_a0, new_pc);                                         \
+    mips_emit_lui(reg_cycles, 0);                                             \
     generate_function_call_swap_delay(mips_update_gba);                       \
     mips_emit_j_filler(writeback_location);                                   \
     mips_emit_nop();                                                          \

mips/mips_stub.S

@@ -119,6 +119,8 @@ symbol:
 .equ FNPTRS_MEMOPS,       (REGMODE_BASE + 196)
 .equ FNPTRS_BASE,         (FNPTRS_MEMOPS + 960*2)
 
+#define reg_cycles        $17
+
 .set noat
 .set noreorder
 
@@ -240,12 +242,13 @@ defsymbl(mips_update_gba)
   collapse_flags                  # update cpsr
   save_registers                  # save registers
   sw $0, CHANGED_PC_STATUS($16)
+  move $4, reg_cycles             # Remaining cycles as asg0
   cfncall update_gba, 0           # process the next event
 
   lw $1, COMPLETED_FRAME($16)     # Check whether we completed a frame
   bne $1, $0, return_to_main      # Return to main thread now
 
-  addu $17, $2, $0                # $17 = new cycle count (ret value)
+  move reg_cycles, $2             # update new cycle count (ret value)
 
   lw $ra, REG_SAVE2($16)          # restore return address
 
@@ -327,7 +330,9 @@ defsymbl(write_io_epilogue)
 
 
 alert_loop:
+  move $4, reg_cycles             # Remaining cycles as asg0
   cfncall update_gba, 0           # process the next event
+  move reg_cycles, $2             # update new cycle count (ret value)
 
   lw $1, COMPLETED_FRAME($16)     # Check whether we completed a frame
   bne $1, $0, return_to_main      # Return to main thread now
@@ -336,7 +341,6 @@ alert_loop:
   bne $1, $0, alert_loop          # see if it hasn't changed
   nop
 
-  addu $17, $2, $0                # $17 = new cycle counter
   lw $4, REG_PC($16)              # $4 = new PC
 
   j lookup_pc
@@ -522,7 +526,7 @@ defsymbl(execute_arm_translate_internal)
   move $16, $5
   REG_S $28, GP_SAVE($16)
 
-  addu $17, $4, $0                # load cycle counter register
+  move reg_cycles, $4             # load cycle counter register
 
   extract_flags                   # load flag variables
 

x86/x86_emit.h

@@ -585,6 +585,7 @@ typedef enum
 #define generate_branch_no_cycle_update(writeback_location, new_pc)           \
   if(pc == idle_loop_target_pc)                                               \
   {                                                                           \
+    generate_load_imm(cycles, 0);                                             \
     x86_emit_mov_reg_imm(eax, new_pc);                                        \
     generate_function_call(x86_update_gba);                                   \
     x86_emit_jmp_filler(writeback_location);                                  \

x86/x86_stub.S

@@ -166,8 +166,8 @@ defsymbl(x86_update_gba)
   mov %eax, REG_PC(REG_BASE)          # current PC = eax
   collapse_flags                      # update cpsr, trashes ecx and edx
 
+  mov REG_CYCLES, CARG1_REG           # Load remaining cycles as arg0
   CALL_FUNC(update_gba)               # process the next event
-
   mov %eax, REG_CYCLES                # new cycle count
 
   # did we just complete a frame? go back to main then
@@ -246,7 +246,9 @@ write_epilogue:
   je smc_write
 
 alert_loop:
+  mov REG_CYCLES, CARG1_REG   # Load remaining cycles as arg0
   CALL_FUNC(update_gba)       # process the next event
+  mov %eax, REG_CYCLES        # load new cycle count
   
   # did we just complete a frame? go back to main then
   cmpl $0, COMPLETED_FRAME(REG_BASE)
@@ -258,7 +260,6 @@ alert_loop:
   cmp $0, %edx                # 0 means it has
   jnz alert_loop              # if not go again
 
-  mov %eax, REG_CYCLES        # load new cycle count
   jmp lookup_pc               # pc has definitely changed
 
 no_alert: