#include "types.h" #include "ctorStruct.h" #include "Runtime/__mem.h" #include "code_801DAAE0.h" #include "code_801DB040.h" #include "code_801DBB3C.h" namespace { // might be same as above struct unkClass2 { unkClass2* unk0; gUnkClass1* unk4; u8 unk8[4]; size_t unkC; }; // gUnkClass2? struct unkClass { u8 pad[0x8]; u32 unk8; u32 unkC; void* unk10; u32 unk14; unkClass2* unk18; }; } extern "C" { //static u32 func_801DBB3C(void) { return 0; } //static void func_801DBB44(u32) { } //static #ifdef NONMATCHING void func_801DBB48(gUnkClass2* p1, u32 p2, u32 p3) { //p2 = r30 u32 r31 = (p3+7) & ~0x3; // element size p1->unk8 = p2; // number of elements p1->unkC = r31; // void* func_801DAD98(u32 size); allocate and 0 fill void* data = func_801DAD98((p2+1) * r31); //r3 p1->unk10 = data; p1->unk18 = data; p1->unk14 = (u8*)data + p2 * r31; if (p2) { if (p2 > 8) { u32 r4 = p2 - 8; if (r4 > 0) { for (size_t i = (r4+7)/8; i != 0; i--) { // 8 stores per iteration } } } } } #else asm void func_801DBB48(gUnkClass2* p1, u32 p2, u32 p3) { /* 801DBB48 001D77A8 94 21 FF E0 */ stwu r1, -0x20(r1) /* 801DBB4C 001D77AC 7C 08 02 A6 */ mflr r0 /* 801DBB50 001D77B0 38 A5 00 07 */ addi r5, r5, 7 /* 801DBB54 001D77B4 90 01 00 24 */ stw r0, 0x24(r1) /* 801DBB58 001D77B8 38 04 00 01 */ addi r0, r4, 1 /* 801DBB5C 001D77BC 93 E1 00 1C */ stw r31, 0x1c(r1) /* 801DBB60 001D77C0 54 BF 00 3A */ rlwinm r31, r5, 0, 0, 0x1d /* 801DBB64 001D77C4 93 C1 00 18 */ stw r30, 0x18(r1) /* 801DBB68 001D77C8 7C 9E 23 78 */ mr r30, r4 /* 801DBB6C 001D77CC 93 A1 00 14 */ stw r29, 0x14(r1) /* 801DBB70 001D77D0 7C 7D 1B 78 */ mr r29, r3 /* 801DBB74 001D77D4 90 83 00 08 */ stw r4, 8(r3) /* 801DBB78 001D77D8 93 E3 00 0C */ stw r31, 0xc(r3) /* 801DBB7C 001D77DC 7C 60 F9 D6 */ mullw r3, r0, r31 /* 801DBB80 001D77E0 4B FF F2 19 */ bl func_801DAD98 /* 801DBB84 001D77E4 7C 1E F9 D6 */ mullw r0, r30, r31 /* 801DBB88 001D77E8 2C 1E 00 00 */ cmpwi r30, 0 /* 801DBB8C 001D77EC 90 7D 00 10 */ stw r3, 0x10(r29) /* 801DBB90 001D77F0 39 00 00 00 */ li r8, 0 /* 801DBB94 001D77F4 38 E0 00 00 */ li r7, 0 /* 801DBB98 001D77F8 90 7D 00 18 */ stw r3, 0x18(r29) /* 801DBB9C 001D77FC 7C 03 02 14 */ add r0, r3, r0 /* 801DBBA0 001D7800 90 1D 00 14 */ stw r0, 0x14(r29) /* 801DBBA4 001D7804 41 82 00 90 */ beq lbl_801DBC34 /* 801DBBA8 001D7808 28 1E 00 08 */ cmplwi r30, 8 /* 801DBBAC 001D780C 38 9E FF F8 */ addi r4, r30, -8 /* 801DBBB0 001D7810 40 81 00 60 */ ble lbl_801DBC10 /* 801DBBB4 001D7814 38 04 00 07 */ addi r0, r4, 7 /* 801DBBB8 001D7818 54 00 E8 FE */ srwi r0, r0, 3 /* 801DBBBC 001D781C 7C 09 03 A6 */ mtctr r0 /* 801DBBC0 001D7820 28 04 00 00 */ cmplwi r4, 0 /* 801DBBC4 001D7824 40 81 00 4C */ ble lbl_801DBC10 lbl_801DBBC8: /* 801DBBC8 001D7828 7C A3 FA 14 */ add r5, r3, r31 /* 801DBBCC 001D782C 38 E7 00 08 */ addi r7, r7, 8 /* 801DBBD0 001D7830 90 A3 00 00 */ stw r5, 0(r3) /* 801DBBD4 001D7834 7C 85 FA 14 */ add r4, r5, r31 /* 801DBBD8 001D7838 7C 64 FA 14 */ add r3, r4, r31 /* 801DBBDC 001D783C 90 85 00 00 */ stw r4, 0(r5) /* 801DBBE0 001D7840 7C C3 FA 14 */ add r6, r3, r31 /* 801DBBE4 001D7844 7C A6 FA 14 */ add r5, r6, r31 /* 801DBBE8 001D7848 90 64 00 00 */ stw r3, 0(r4) /* 801DBBEC 001D784C 7C 85 FA 14 */ add r4, r5, r31 /* 801DBBF0 001D7850 7D 04 FA 14 */ add r8, r4, r31 /* 801DBBF4 001D7854 90 C3 00 00 */ stw r6, 0(r3) /* 801DBBF8 001D7858 7C 68 FA 14 */ add r3, r8, r31 /* 801DBBFC 001D785C 90 A6 00 00 */ stw r5, 0(r6) /* 801DBC00 001D7860 7C 86 F9 2E */ stwx r4, r6, r31 /* 801DBC04 001D7864 7D 05 F9 2E */ stwx r8, r5, r31 /* 801DBC08 001D7868 7C 64 F9 2E */ stwx r3, r4, r31 /* 801DBC0C 001D786C 42 00 FF BC */ bdnz lbl_801DBBC8 lbl_801DBC10: /* 801DBC10 001D7870 7C 07 F0 50 */ subf r0, r7, r30 /* 801DBC14 001D7874 7C 09 03 A6 */ mtctr r0 /* 801DBC18 001D7878 7C 07 F0 40 */ cmplw r7, r30 /* 801DBC1C 001D787C 40 80 00 18 */ bge lbl_801DBC34 lbl_801DBC20: /* 801DBC20 001D7880 7C 03 FA 14 */ add r0, r3, r31 /* 801DBC24 001D7884 7C 68 1B 78 */ mr r8, r3 /* 801DBC28 001D7888 90 03 00 00 */ stw r0, 0(r3) /* 801DBC2C 001D788C 7C 03 03 78 */ mr r3, r0 /* 801DBC30 001D7890 42 00 FF F0 */ bdnz lbl_801DBC20 lbl_801DBC34: /* 801DBC34 001D7894 38 00 00 00 */ li r0, 0 /* 801DBC38 001D7898 90 08 00 00 */ stw r0, 0(r8) /* 801DBC3C 001D789C 83 E1 00 1C */ lwz r31, 0x1c(r1) /* 801DBC40 001D78A0 83 C1 00 18 */ lwz r30, 0x18(r1) /* 801DBC44 001D78A4 83 A1 00 14 */ lwz r29, 0x14(r1) /* 801DBC48 001D78A8 80 01 00 24 */ lwz r0, 0x24(r1) /* 801DBC4C 001D78AC 7C 08 03 A6 */ mtlr r0 /* 801DBC50 001D78B0 38 21 00 20 */ addi r1, r1, 0x20 /* 801DBC54 001D78B4 4E 80 00 20 */ blr } #pragma peephole on #endif // allocate a linked list node from the free store gUnkClass1* func_801DBC58(gUnkClass2* p1) { gUnkClass3* r31 = p1->unk18; u32 r30 = func_801DBB3C(); func_801DBB44(0); if (r31) { p1->unk18 = r31->unk0; // point unk18 to possible next free block? goto passCheck; } func_801DBB44(r30); return NULL; passCheck: func_801DBB44(r30); memset(r31, 0, p1->unkC); if (++p1->unk0 > p1->unk4) p1->unk4 = p1->unk0; return &r31->unk4; } // return node p2 to free store p1, making it the new head of the // free node linked list void func_801DBD00(gUnkClass2* p1, gUnkClass1* p2) { u32 r31; if (p2) { gUnkClass3* r30 = (gUnkClass3*)((u8*)p2 - 4); r30->unk0 = p1->unk18; p1->unk0--; r31 = func_801DBB3C(); func_801DBB44(0); p1->unk18 = r30; func_801DBB44(r31); } } // array extern gUnkClass2 lbl_80491470[32]; // allocate the free store given number of elements and size of each? gUnkClass2* func_801DBD74(u32 p1, u32 p2) { size_t i; for (i = 0; i < 32; i++) if (lbl_80491470[i].unk8 == 0) break; gUnkClass2* r31 = &lbl_80491470[i]; if (r31->unk8) return NULL; func_801DBB48(r31, p1, p2); return r31; } }