void emu_run() { void *timer = sys_timer(); int delay; vid_begin(); lcd_begin(); for (;;) { cpu_emulate(2280); while (R_LY > 0 && R_LY < 144) emu_step(); vid_end(); rtc_tick(); sound_mix(); if (!pcm_submit()) { delay = framelen - sys_elapsed(timer); sys_sleep(delay); sys_elapsed(timer); } doevents(); vid_begin(); if (framecount) { if (!--framecount) die("finished\n"); } if (!(R_LCDC & 0x80)) cpu_emulate(32832); while (R_LY > 0) /* wait for next frame */ emu_step(); } }
/* Time intervals throughout the code, unless otherwise noted, are specified in double-speed machine cycles (2MHz), each unit roughly corresponds to 0.477us. For CPU each cycle takes 2dsc (0.954us) in single-speed mode and 1dsc (0.477us) in double speed mode. Although hardware gbc LCDC would operate at completely different and fixed frequency, for emulation purposes timings for it are also specified in double-speed cycles. line = 228 dsc (109us) frame (154 lines) = 35112 dsc (16.7ms) of which visible lines x144 = 32832 dsc (15.66ms) vblank lines x10 = 2280 dsc (1.08ms) */ void emu_run() { void *timer = sys_timer(); int delay; vid_begin(); lcd_begin(); for (;;) { /* FRAME BEGIN */ /* FIXME: djudging by the time specified this was intended to emulate through vblank phase which is handled at the end of the loop. */ cpu_emulate(2280); /* FIXME: R_LY >= 0; comparsion to zero can also be removed altogether, R_LY is always 0 at this point */ while (R_LY > 0 && R_LY < 144) { /* Step through visible line scanning phase */ emu_step(); } /* VBLANK BEGIN */ vid_end(); rtc_tick(); sound_mix(); /* pcm_submit() introduces delay, if it fails we use sys_sleep() instead */ if (!pcm_submit()) { delay = framelen - sys_elapsed(timer); sys_sleep(delay); sys_elapsed(timer); } doevents(); vid_begin(); if (framecount) { if (!--framecount) die("finished\n"); } if (!(R_LCDC & 0x80)) { /* LCDC operation stopped */ /* FIXME: djudging by the time specified, this is intended to emulate through visible line scanning phase, even though we are already at vblank here */ cpu_emulate(32832); } while (R_LY > 0) { /* Step through vblank phase */ emu_step(); } /* VBLANK END */ /* FRAME END */ } }
// void *timer = sys_timer(); // int delay; void emu_frame(void) { /* FRAME BEGIN */ /* FIXME: djudging by the time specified this was intended to emulate through vblank phase which is handled at the end of the loop. */ cpu_emulate(2280); /* FIXME: R_LY >= 0; comparsion to zero can also be removed altogether, R_LY is always 0 at this point */ while (R_LY > 0 && R_LY < 144) { /* Step through visible line scanning phase */ emu_step(); } /* VBLANK BEGIN */ vid_end(); rtc_tick(); sound_mix(); pcm_submit(); /* pcm_submit() introduces delay, if it fails we use sys_sleep() instead */ /* timebase is exclusively done with pcm submit. we shall sync with LCD ! if (!pcm_submit()) { delay = framelen - sys_elapsed(timer); sys_sleep(delay); sys_elapsed(timer); }*/ // doevents(); // does not handle extra events gamepad_poll(); vid_begin(); if (!(R_LCDC & 0x80)) { /* LCDC operation stopped */ /* FIXME: djudging by the time specified, this is intended to emulate through visible line scanning phase, even though we are already at vblank here */ cpu_emulate(32832); } while (R_LY > 0) { /* Step through vblank phase */ emu_step(); } /* VBLANK END */ /* FRAME END */ }
void emu_do_frame() { vid_start_frame(); vid_begin(); cpu_emulate(); vid_end(); joy_process(); rtc_tick(); sound_mix(); pcm_submit(); vid_end_frame(); }
void emu_run() { int delta; // too much #ifdef MEASUREMENT int cur_frame=0; //mitzahlen int time_hs; void *timer; #endif delta = 0; lcd_begin(); //cop_begin(); while(emu_running) { #ifdef MEASUREMENT if(cur_frame==MESS_START) { cop_end(); err_msg("Measuring", 100); err_msg("Measuring.", 100); err_msg("Measuring..", 100); err_msg("Measuring...", 100); cop_begin(); timer = sys_timer(); } if(cur_frame==MESS_END) { time_hs = sys_elapsed(timer)/10000; emu_running = 0; } cur_frame++; #endif #ifdef USE_DEBUG if(delta >= 2280) printf("too much %6d\n", delta); else if(delta < 0) printf("delta is negative"); #endif delta = -cpu_emulate(2280 - delta); while (R_LY > 0 && R_LY < 144) { if(cpu.lcdc > delta){ delta = -cpu_emulate(cpu.lcdc-delta); } else{ delta -= cpu.lcdc; } } rtc_tick(); sound_mix(); pcm_submit(); kb_poll(); if (!(R_LCDC & 0x80)) delta = -cpu_emulate(32832 - delta); // wait for next frame while (R_LY > 0) { if(cpu.lcdc > delta){ delta = -cpu_emulate(cpu.lcdc-delta); } else{ delta -= cpu.lcdc; } } /*cpu_emulate(2280-delta); while (R_LY > 0 && R_LY < 144) delta = -cpu_emulate(cpu.lcdc); rtc_tick(); sound_mix(); pcm_submit(); kb_poll(); if (!(R_LCDC & 0x80)) delta = -cpu_emulate(32832); // wait for next frame while (R_LY > 0) delta = -cpu_emulate(cpu.lcdc);*/ } #ifdef MEASUREMENT cop_end(); err_msg("%d hs", 3000, time_hs); enter_menu(); #endif }