#include "rockmacros.h" #include "defs.h" #include "hw.h" #include "cpu.h" #include "regs.h" #include "lcd.h" #define C (cpu.lcdc) /* * stat_trigger updates the STAT interrupt line to reflect whether any * of the conditions set to be tested (by bits 3-6 of R_STAT) are met. * This function should be called whenever any of the following occur: * 1) LY or LYC changes. * 2) A state transition affects the low 2 bits of R_STAT (see below). * 3) The program writes to the upper bits of R_STAT. * stat_trigger also updates bit 2 of R_STAT to reflect whether LY=LYC. */ void stat_trigger(void) { static const int condbits[4] = { 0x08, 0x30, 0x20, 0x00 }; int flag = 0; if ((R_LY < 0x91) && (R_LY == R_LYC)) { R_STAT |= 0x04; if (R_STAT & 0x40) flag = IF_STAT; } else R_STAT &= ~0x04; if (R_STAT & condbits[R_STAT&3]) flag = IF_STAT; if (!(R_LCDC & 0x80)) flag = 0; hw_interrupt(flag, IF_STAT); } void stat_write(byte b) { R_STAT = (R_STAT & 0x07) | (b & 0x78); if (!hw.cgb &&!(R_STAT & 2)) /* DMG STAT write bug => interrupt */ hw_interrupt(IF_STAT, IF_STAT); stat_trigger(); } /* * stat_change is called when a transition results in a change to the * LCD STAT condition (the low 2 bits of R_STAT). It raises or lowers * the VBLANK interrupt line appropriately and calls stat_trigger to * update the STAT interrupt line. */ static void stat_change(int stat) { stat &= 3; R_STAT = (R_STAT & 0x7C) | stat; if (stat != 1) hw_interrupt(0, IF_VBLANK); /* hw_interrupt((stat == 1) ? IF_VBLANK : 0, IF_VBLANK); */ stat_trigger(); } void lcdc_change(byte b) { byte old = R_LCDC; R_LCDC = b; if ((R_LCDC ^ old) & 0x80) /* lcd on/off change */ { R_LY = 0; stat_change(2); C = 40; lcd_begin(); } } void lcdc_trans(void) { if (!(R_LCDC & 0x80)) { while (C <= 0) { switch ((byte)(R_STAT & 3)) { case 0: case 1: stat_change(2); C += 40; break; case 2: stat_change(3); C += 86; break; case 3: stat_change(0); if (hw.hdma & 0x80) hw_hdma(); else C += 102; break; } return; } } while (C <= 0) { switch ((byte)(R_STAT & 3)) { case 1: if (!(hw.ilines & IF_VBLANK)) { C += 218; hw_interrupt(IF_VBLANK, IF_VBLANK); break; } if (R_LY == 0) { lcd_begin(); stat_change(2); C += 40; break; } else if (R_LY < 152) C += 228; else if (R_LY == 152) C += 28; else { R_LY = -1; C += 200; } R_LY++; stat_trigger(); break; case 2: lcd_refreshline(); stat_change(3); C += 86; break; case 3: stat_change(0); if (hw.hdma & 0x80) hw_hdma(); /* FIXME -- how much of the hblank does hdma use?? */ /* else */ C += 102; break; case 0: if (++R_LY >= 144) { if (cpu.halt) { hw_interrupt(IF_VBLANK, IF_VBLANK); C += 228; } else C += 10; stat_change(1); break; } stat_change(2); C += 40; break; } } }