/* f_op_overlap_req.cpp autogenerated by split.py v0.4 at 2021-02-15 20:24:53.163616 */ #include "f/f_op/f_op_overlap_req.h" #include "f/f_pc/f_pc_executor.h" #include "f/f_pc/f_pc_manager.h" #include "f/f_pc/f_pc_stdcreate_req.h" #include "global.h" // additional symbols needed for f_op_overlap_req.cpp // autogenerated by split.py v0.4 at 2021-02-15 20:24:53.163652 extern "C" { void _restgpr_29(void); void _savegpr_29(void); void cReq_Command__FP18request_base_classUc(void); void cReq_Create__FP18request_base_classUc(void); void cReq_Done__FP18request_base_class(void); void cReq_Is_Done__FP18request_base_class(void); void fopOvlpReq_Cancel__FP21overlap_request_class(void); void fopOvlpReq_Is_PeektimeLimit(void); void fopOvlpReq_OverlapClr__FP21overlap_request_class(void); void fopOvlpReq_Request__FP21overlap_request_classsUs(void); void fopOvlpReq_Handler__FP21overlap_request_class(void); void fopOvlpReq_phase_Done__FP21overlap_request_class(void); void fopOvlpReq_SetPeektime__FP21overlap_request_classUs(void); void fopOvlpReq_Is_PeektimeLimit__FP21overlap_request_class(void); void fopOvlpReq_SetPeektime(void); void fopOvlpReq_phase_Done(void); void func_8001E748(void); void func_8001E794(void); void func_8001E7E4(void); void func_8001E854(void); void func_8001E8A4(void); void func_8001E904(void); } // additional symbols needed for f_op_overlap_req.cpp // autogenerated by split.py v0.4 at 2021-02-15 20:24:53.163658 extern u8 lbl_803A3890; int fopOvlpReq_phase_Done(overlap_request_class* pOvlpReq) { if (fpcM_Delete(pOvlpReq->field_0x20) == 1) { pOvlpReq->field_0x20 = 0; pOvlpReq->field_0x4 = 0; pOvlpReq->field_0x6 = 0; pOvlpReq->field_0x8 = 0; pOvlpReq->field_0xc = 0; return 2; } return 0; } // return line is wrong #ifdef NONMATCHING s16 fopOvlpReq_phase_IsDone(overlap_request_class* param_1) { cReq_Done((request_base_class*)param_1); param_1->field_0x2--; return ((int)param_1->field_0x2 | ~-(int)param_1->field_0x2) >> 0x1F & 2; } #else asm void fopOvlpReq_phase_IsDone(overlap_request_class*) { nofralloc #include "f/f_op/f_op_overlap_req/asm/func_8001E748.s" } #endif int fopOvlpReq_phase_IsWaitOfFadeout(overlap_request_class* pOvlpReq) { if (cReq_Is_Done((request_base_class*)(pOvlpReq->field_0x20 + 0xC4))) { pOvlpReq->field_0x8 = 0; return 2; } return 0; } int fopOvlpReq_phase_WaitOfFadeout(overlap_request_class* pOvlpReq) { if (pOvlpReq->field_0x6) { pOvlpReq->field_0x6--; } if (((u8)(pOvlpReq->field_0x0 & 0x3F)) == 2 && !pOvlpReq->field_0x6) { cReq_Command((request_base_class*)(pOvlpReq->field_0x20 + 0xC4), 2); return 2; } pOvlpReq->field_0x8 = 1; return 0; } int fopOvlpReq_phase_IsComplete(overlap_request_class* pOvlpReq) { if (cReq_Is_Done((request_base_class*)(pOvlpReq->field_0x20 + 0xC4))) { cReq_Done((request_base_class*)pOvlpReq); return 2; } return 0; } int fopOvlpReq_phase_IsCreated(overlap_request_class* pOvlpReq) { if (fpcM_IsCreating(pOvlpReq->field_0x14) == 0) { base_process_class* pBaseProc = fpcEx_SearchByID(pOvlpReq->field_0x14); if (!pBaseProc) { return 5; } pOvlpReq->field_0x20 = (u8*)pBaseProc; return 2; } return 0; } int fopOvlpReq_phase_Create(overlap_request_class* pOvlpReq) { fpcLy_SetCurrentLayer(pOvlpReq->pCurrentLayer); pOvlpReq->field_0x14 = fpcSCtRq_Request(fpcLy_CurrentLayer(),pOvlpReq->field_0x10, 0,0,0); return 2; } asm request_base_class* fopOvlpReq_Request(overlap_request_class*, s16, u16) { nofralloc #include "f/f_op/f_op_overlap_req/asm/func_8001E954.s" } asm int fopOvlpReq_Handler(overlap_request_class*) { nofralloc #include "f/f_op/f_op_overlap_req/asm/func_8001E9F0.s" } asm int fopOvlpReq_Cancel(overlap_request_class*) { nofralloc #include "f/f_op/f_op_overlap_req/asm/func_8001EA88.s" } asm void fopOvlpReq_Is_PeektimeLimit(overlap_request_class*) { nofralloc #include "f/f_op/f_op_overlap_req/asm/func_8001EAB4.s" } asm void fopOvlpReq_SetPeektime(overlap_request_class*, u16) { nofralloc #include "f/f_op/f_op_overlap_req/asm/func_8001EAC4.s" } asm int fopOvlpReq_OverlapClr(overlap_request_class*) { nofralloc #include "f/f_op/f_op_overlap_req/asm/func_8001EAD8.s" }