#include "global.h" extern u32 sub_80144A4(s32 *r0); extern void sub_8028B04(u32); extern void sub_8011C28(u32); extern void sub_8012574(u32); extern u8 sub_8012600(); extern void sub_8012750(); extern void sub_8095240(u8); extern void sub_809927C(u8); extern u32 *gUnknown_203B2C0; extern u8 sub_8030C20(u32); extern u32 sub_8031050(); extern void sub_80310B4(); extern u32 sub_8095350(); void sub_8028CE0() { s32 temp; if(sub_80144A4(&temp) != 0) { return; } sub_8028B04(3); } void sub_8028CFC() { s32 temp; u32 temp2; if(sub_80144A4(&temp) != 0) { return; } switch(sub_8031050()) { case 2: case 3: temp2 = sub_8095350(); sub_80310B4(); if(temp2 != gUnknown_203B2C0[0xA8 << 1]) { sub_8028B04(0x17); } else { sub_8028B04(0x19); } break; default: break; } } void sub_8028D4C() { s32 temp; if(sub_80144A4(&temp) != 0) { return; } gUnknown_203B2C0[0xA7 << 1] = temp; switch((s32)gUnknown_203B2C0[0xA7 << 1]) { case 5: if(sub_8030C20(2) != 0) { sub_8028B04(12); } else { sub_8028B04(13); } break; case 6: if(sub_8030C20(4) != 0) { sub_8028B04(14); } else { sub_8028B04(15); } break; case 7: if(sub_8030C20(0) != 0) { sub_8028B04(16); } else { sub_8028B04(17); } break; case 0xA: sub_8028B04(1); break; default: break; } } void sub_8028DE8(u32 r0) { s32 temp; if(sub_80144A4(&temp) != 0) { return; } sub_8028B04(r0); } void sub_8028E08() { s32 temp; if(sub_80144A4(&temp) != 0) { return; } sub_8028B04(0x12); } void sub_8028E24() { s32 temp; if(sub_80144A4(&temp) != 0) { return; } switch(temp) { case 0x8: sub_8028B04(0x13); break; case 0xA: sub_8028B04(1); break; default: break; } } void sub_8028E54() { s32 temp; if(sub_80144A4(&temp) != 0) { return; } switch(temp) { case 0x8: sub_8028B04(0x14); break; case 0xA: sub_8028B04(1); break; default: break; } } void sub_8028E84() { s32 temp; if(sub_80144A4(&temp) != 0) { return; } sub_8028B04(0x18); sub_8011C28(1); sub_8012574(0); } void sub_8028EAC() { s32 temp; if(sub_80144A4(&temp) != 0) { return; } if(sub_8012600() == 0) { sub_8012750(); sub_8028B04(0x19); } } void sub_8028ED4() { s32 temp; if(sub_80144A4(&temp) != 0) { return; } if(temp == 8) { sub_8028B04(0xB); } else { switch(temp){ case 0x8: sub_8028B04(0x2); break; case 0x9: case 0xA: sub_8028B04(0x2); break; default: break; } } } void sub_8028F04() { s32 temp; s32 counter; if(sub_80144A4(&temp) != 0) { return; } for(counter = 0; counter <= 0x1F; counter++) { sub_8095240(counter); } sub_8028B04(0x15); } void sub_8028F30() { s32 temp; if(sub_80144A4(&temp) != 0) { return; } sub_8028B04(0x16); sub_8011C28(1); sub_8012574(0); } void sub_8028F58() { s32 temp; if(sub_80144A4(&temp) != 0) { return; } if(sub_8012600() == 0) { sub_8012750(); sub_8028B04(2); } } void sub_8028F80() { s32 temp; if(sub_80144A4(&temp) != 0) { return; } sub_809927C(gUnknown_203B2C0[0x86]); gUnknown_203B2C0[335] = 1; sub_8028B04(3); } void sub_8028FC0() { s32 temp; if(sub_80144A4(&temp) != 0) { return; } sub_8028B04(1); }