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Non-audio threads. Some data importation. (#17)

Browse Source 
* threads galore

* something's up

* try this

* I don't even

* who knows

* I can't stop it

* let's try data for fun

* ok I think I've gone far enough

* well maybe a little more

* visual assets somewhat documented

* just keeps going

* forgot formatting
This commit is contained in:
petrie911 2023-11-07 16:32:09 -06:00 committed by GitHub
parent 931f589177
commit 6b4015367d
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
33 changed files with 1566 additions and 340 deletions
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3
.vscode/c_cpp_properties.json vendored
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@ -15,7 +15,8 @@
],
"defines": [
"_LANGUAGE_C",
"_MIPS_SZLONG=32"
"_MIPS_SZLONG=32",
"F3DEX_GBI"
],
"cStandard": "gnu89", // C89 + some GNU extensions from C99 like C++ comments
"cppStandard": "${default}"

3
.vscode/settings.json vendored
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@ -30,6 +30,7 @@
"xstdio.h": "c",
"controller.h": "c",
"os_version.h": "c",
"stdbool.h": "c"
"stdbool.h": "c",
"variables.h": "c"
},
}

31
include/functions.h
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@ -3,6 +3,13 @@
#include "structs.h"
void func_8000291C(void);
void func_800029A8(void);
void func_80002AF4(void);
void func_80002BE8(void);
void func_80002C50(void);
void func_80002CB8(void);
f32 Math_ModF(f32 value, f32 mod);
void Rand_Init(void);
f32 Rand_ZeroOne(void);
@ -24,13 +31,13 @@ void func_80006A20(Matrix*, Vec3f*, Vec3f*);
void func_80006EB8(Gfx**);
void func_80006F20(void);
void func_800070C8(s64);
void func_800070C8(u64);
s32 func_800071FC(s32*);
s32 func_800072E0(s32*);
void func_80007D58(void*);
s32 func_800071FC(UnkStruct_7D30*);
s32 func_800072E0(UnkStruct_7D30*);
void Fault_ThreadEntry(void*);
void func_80007FE4(FrameBuffer*, u16, u16);
void func_80008018(void);
void func_800182F4(s32);
@ -39,7 +46,14 @@ void func_8001A838(u32 arg0);
void func_8001AF40(s32 arg0);
void func_8001DC6C(s32, s32);
s32 func_8001EF10(void);
void func_8000FFCC(void);
void func_8001DCE0(void);
void func_8001DECC(void);
SPTask* func_8001DF50(void);
void RdRam_CheckIPL3(void);
void Mio0_Decompress(void* header, u8* dst);
s32 vsprintf(char* dst, char* fmt, va_list args);
@ -85,8 +99,6 @@ s64 __ull_div(s64, s64);
s64 __ll_mul(s64, s64);
s64 __ll_rshift(s64, s64);
s32 func_8002DE78(void*, s32, s32); // Not real signature
void func_80060FBC(u8*, f32*);
void func_8006EEFC(s32, f32, f32, f32, f32, f32, f32, f32, f32, f32);
@ -121,6 +133,8 @@ void func_8009FC0C(s32, s32, s32);
f32 func_8009F768(f32);
void func_8009FEA0(s32, s32, s32);
void func_800A1200(s32, s32, f32, f32, char*);
void func_800A18B0(void);
void func_800A26C0(void);
s32 func_800A3F50(s32);
void func_800A5D6C(void);
void func_800B8DD0(Gfx**, s16);
@ -128,6 +142,7 @@ void func_800BA490(void);
void func_800BA4F0(void);
void func_800BA808(u16*, s32);
void func_800BB5D0(void);
void func_800BC4B0(void);
void func_800B6F50(f32, f32, f32, f32, f32, f32);
void func_800B9358(void);

16
include/global.h
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@ -17,11 +17,19 @@
#include "macros.h"
#include "sf64math.h"
extern Gfx* D_80137E64;
extern OSDevMgr __osPiDevMgr;
#define SCREEN_WIDTH 320
#define SCREEN_HEIGHT 240
typedef enum {
THREAD_ID_SYSTEM,
THREAD_ID_IDLE,
THREAD_ID_FAULT,
THREAD_ID_MAIN,
THREAD_ID_4,
THREAD_ID_AUDIO,
THREAD_ID_GRAPHICS,
THREAD_ID_7,
THREAD_ID_8,
} ThreadID;
#endif // GLOBAL_H

11
include/libc/math.h
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@ -25,7 +25,16 @@ typedef union {
f32 f;
} fu;
typedef float Matrix[4][4];
typedef union {
float m[4][4];
struct {
float xx, yx, zx, wx,
xy, yy, zy, wy,
xz, yz, zz, wz,
xw, yw, zw, ww;
};
// u64 force_struct_alignment;
} Matrix;
extern f32 __libm_qnan_f;

3
include/macros.h
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@ -4,4 +4,7 @@
#define ARRAY_COUNT(arr) (s32)(sizeof(arr) / sizeof(arr[0]))
#define SQ(x) ((x) * (x))
#define USEC_TO_CYCLES(n) (((u64)(n)*(osClockRate/15625LL))/(1000000LL/15625LL))
#define MSEC_TO_CYCLES(n) (USEC_TO_CYCLES((n) * 1000LL))
#endif // MACROS_H

2
include/osint.h
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@ -55,4 +55,4 @@ extern int __osDpDeviceBusy(void);
extern void* __printfunc;
#endif
#endif
#endif

43
include/structs.h
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@ -4,6 +4,49 @@
#include "global.h"
#include "sf64math.h"
typedef struct {
u16 data[240 * 320];
} FrameBuffer;
typedef struct {
u8 data[0x40][8];
} UnkStruct_7D30;
typedef struct {
OSThread thread;
char stack[0x800];
OSMesgQueue msgQueue;
OSMesg msg;
FrameBuffer* fb;
u16 width;
u16 height;
} FaultMgr;
typedef enum {
SPTASK_STATE_NOT_STARTED,
SPTASK_STATE_RUNNING,
SPTASK_STATE_INTERRUPTED,
SPTASK_STATE_FINISHED,
SPTASK_STATE_FINISHED_DP
} SpTaskState;
typedef struct {
OSTask task;
OSMesgQueue* msgQueue;
OSMesg msg;
SpTaskState state;
} SPTask;
typedef struct {
SPTask task;
Vp viewports[0x10];
Mtx mtx[0x480];
Gfx unkDL1[0x180];
Gfx masterDL[0x1380];
Gfx unkDL2[0xD80];
Lightsn lights[0x100];
} GfxPool;
typedef struct UnkStruct_D_801B8350 {
/* 0x00 */ Vec3f unk0;
/* 0x0C */ char pad_0C[0x4C];

175
include/variables.h
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@ -3,18 +3,141 @@
#include "structs.h"
extern OSThread D_800DEAA0;
extern OSThread D_800DFC50; // no gap
extern OSThread D_800E0E00; // 0x1000 gap
extern s32 D_800E1FB0; // 0x1000 gap, probably OSScTask
extern OSMesgQueue D_800E2010;
extern OSMesg D_800E2028;
extern OSMesgQueue D_800E2148;
extern OSMesgQueue D_800E2238;
extern OSMesgQueue D_800E2278;
extern u64 __rspboot_start[];
extern u64 __rspboot_end[];
extern u64 __f3dex_start[];
extern u8 D_80281000[0x400];
extern u8 D_80281400[0xC00];
extern u8 D_802A7800;
extern u8 D_802D7800;
extern u8 gF3dexData;
extern s32 D_800C45D0;
extern f32 D_800C45E0[];
extern Mtx gIdentityMtx; // 800C4620
extern Matrix gIdentityMatrix; //800C4660
extern Vec3f D_800C46A0;
extern Vec3f D_800C46AC;
extern Vec3f D_800C46B8;
extern Vec3f D_800C46C4;
extern Vec3f D_800C46D0;
extern Vec3f D_800C46DC;
extern u8 sFaultCharIndex[];
extern s32 sFaultCharPixelFlags[];
extern char* D_800C4870[];
extern char* D_800C48B8[];
extern f32 D_800C5D34;
extern s8 D_800C5D3C;
extern s8 D_800C7C50;
extern s8 D_800C7C54;
extern OSMesgQueue* D_800C7C58;
extern OSMesgQueue* D_800C7C5C;
extern OSMesgQueue* D_800C7C60;
extern OSMesgQueue* D_800C7C64;
extern char D_800C7C80[];
extern u16 D_800DD8AA;
extern u8 gAudioThreadStack[0x1000]; // 800DDAA0
extern OSThread gGraphicsThread; // 800DEAA0
extern u8 gGraphicsThreadStack[0x1000]; // 800DEC50
extern OSThread gUnkThread3; // 800DFC50
extern u8 gUnkThread3Stack[0x1000]; // 800DFE00
extern OSThread gUnkThread4; // 800E0E00
extern u8 gUnkThread4Stack[0x1000]; // 800E0FB0
extern SPTask* gCurrentTask;
extern SPTask* D_800E1FB4[1];
extern SPTask* D_800E1FB8[2];
extern SPTask* D_800E1FC0[2];
extern SPTask* D_800E1FC8[2];
extern u32 gSegments[16]; // 800E1FD0
extern OSMesgQueue gPiMgrCmdQueue; // 800E2010
extern OSMesg sPiMgrCmdBuff[50]; // 800E2028
extern OSMesgQueue D_800E20F0;
extern void *D_800E2108[1];
extern OSIoMesg D_800E2110;
extern OSMesgQueue D_800E2128;
extern void *D_800E2140[1];
extern OSMesgQueue D_800E2148;
extern void *D_800E2160[32];
extern OSMesgQueue D_800E21E0;
extern void *D_800E21F8[16];
extern OSMesgQueue D_800E2238;
extern void *D_800E2250[1];
extern OSMesgQueue D_800E2258;
extern void *D_800E2270[1];
extern OSMesgQueue D_800E2278;
extern void *D_800E2290[4];
extern OSMesgQueue D_800E22A0;
extern void *D_800E22B8[2];
extern OSMesgQueue D_800E22C0;
extern void *D_800E22D8[8];
extern OSMesgQueue D_800E22F8;
extern void *D_800E2310[1];
extern OSMesgQueue D_800E2318;
extern void *D_800E2330[1];
extern OSMesgQueue D_800E2338;
extern void *D_800E2350[16];
extern OSMesgQueue D_800E2390;
extern void *D_800E23A8[1];
extern GfxPool* gGfxPool;
extern SPTask* gGfxTask;
extern Vp* gViewport;
extern Mtx* gGfxMtx;
extern Gfx* gUnkDisp1;
extern Gfx* gMasterDisp;
extern Gfx* gUnkDisp2;
extern Lightsn* gLight;
extern FrameBuffer *gFrameBuffer;
extern s32* D_80137E74;
// some sort of struct I think
extern u8 D_80137E78;
extern u32 D_80137E7C;
extern u8 D_80137E80;
extern u8 D_80137E81;
extern u8 D_80137E84[4];
extern u16 D_80137E88;
extern u16 D_80137E8A;
extern s32 D_80178580;
extern s32 *D_80178710;
extern s32 D_80387800;
extern u16 D_8038F080[];
extern u16 D_8038F300[];
extern FrameBuffer gFrameBuffers[3]; // 8038F800
extern GfxPool gGfxPools[2]; // 800E23B0
extern Matrix* D_8013B3C0;
extern Matrix D_8013B3C8[0x20];
extern Matrix* D_8013BBC8;
extern Matrix D_8013BBD0[];
extern OSThread sIdleThread; // 80138E90
extern u8 sIdleThreadStack[0x1000]; // 801390A0
extern OSThread gMainThread; // 8013A040
extern u8 sMainThreadStack[0x1000]; // 8013A1F0
extern OSThread gAudioThread; //8013B1F0
extern UnkStruct_7D30 D_80144F60;
extern UnkStruct_7D30 D_80145160;
extern FaultMgr gFaultMgr;
extern OSMesg D_80156600;
extern OSMesg D_80156608;
extern OSMesg D_80156618;
extern OSMesg D_8015661C;
extern s32 D_8015F928;
extern s32 D_800CFF90;
extern f32 D_800D19AC[];
extern f32 D_800D19E0[];
@ -28,7 +151,7 @@ extern s32 D_800D2190[];
extern f32 D_800D21A0;
extern f32 D_800D21A4;
extern s32 D_800D2870;
extern u16 D_800D99F8[];
extern u16 D_Tex_800D99F8[];
extern OSContPad D_800DD880[4];
extern OSContPad D_800DD898[4];
@ -41,8 +164,7 @@ extern u8 D_800DD8BC[4]; // Fake symbol. Only exists as loop terminator for D_80
// extern OSContStatus D_800DD8F0[4];
// extern OSPfs D_800DD900[4];
extern Gfx* D_80137E64;
extern u8 D_80137E78;
extern s32 D_80161690;
extern f32 D_801616BC;
@ -68,6 +190,9 @@ extern s32 D_801617B8;
extern s32 D_80161810[];
extern s16 D_80161A34;
extern s16 D_80161A36;
extern f32 D_80161A3C;
extern f32 D_80161A40;
extern f32 D_80161A44;
extern u8 D_80161A90[];
extern s16 D_80161AA0[];
extern UnkStruct_D_8016F110 D_8016F110[];
@ -177,11 +302,9 @@ extern f32 D_801B905C;
extern f32 D_801B9060;
extern f32 D_801B9064;
extern Matrix* D_8013B3C0;
extern Matrix* D_8013BBC8;
extern f32 D_800C5D28[];
extern s32 D_801ADA44_EE6104[];
extern char D_801ADA44_EE6104[];
extern s32 D_801ADA84_EE6144[];
extern s32 D_801ADA94_EE6154;
@ -265,27 +388,5 @@ extern Gfx D_D0098B0[];
extern Gfx D_F014180[];
extern u8 D_80137E84[];
extern OSMesgQueue D_800E2128;
extern OSMesgQueue D_800E22F8;
extern OSMesgQueue D_800E2318;
extern u8 D_80137E80;
extern s32 D_80144F60;
extern s8 D_800C7C50;
extern s8 D_800C7C54;
extern OSMesgQueue* D_800C7C58;
extern OSMesgQueue* D_800C7C5C;
extern OSMesgQueue* D_800C7C60;
extern OSMesgQueue* D_800C7C64;
extern OSMesg D_80156600;
extern OSMesg D_80156608;
extern OSMesg D_80156618;
extern OSMesg D_8015661C;
extern s32 D_8015F928;
extern OSThread D_80138E90;
extern OSThread D_8013A040; // 0x1000 gap
extern OSThread D_8013B1F0; // 0x1000 gap
#endif // VARIABLES_H

61
linker_scripts/us/symbol_addrs.txt
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@ -1,6 +1,7 @@
bootproc = 0x80004DA8;
D_800C90F0 = 0x800C90F0;
__libm_qnan_f = 0x800C9570;
D_1 = 0x1; //ignore:true
Math_ModF = 0x80004E20;
Rand_Init = 0x80004E4C;
@ -16,13 +17,71 @@ Math_PowF = 0x800055DC;
Math_MinMax = 0x80005604;
D_800C45E0 = 0x800C45E0;
D_800C57EC = 0x800C57EC;
D_800C7380 = 0x800C7380;
D_800C5FF4 = 0x800C5FF4; //type:u16 size:5000
gIdentityMtx = 0x800C4620;
gIdentityMatrix = 0x800C4660;
sFaultCharPixelFlags = 0x800C4770;
sFaultCharIndex = 0x800C46F0;
Math_FAtanF = 0x8001FBE8;
Math_FAtan2F = 0x8001FD0C;
Math_FAsinF = 0x8001FE00;
Math_FAcosF = 0x8001FE30;
D_800E23B0 = 0x800E23B0; // size:0x55AA0
Idle_ThreadEntry = 0x80004D00;
Main_ThreadEntry = 0x80004ABC;
Audio_ThreadEntry = 0x80003B48;
Graphics_ThreadEntry = 0x80004144;
__rspboot_start = 0x80000450;
__rspboot_end = 0x80000520;
__f3dex_start = 0x80001410;
gF3dexData = 0x800C3DD0;
gAudioThreadStack = 0x800DDAA0;
gGraphicsThread = 0x800DEAA0;
gGraphicsThreadStack = 0x800DEC50;
gUnkThread3 = 0x800DFC50;
gUnkThread3Stack = 0x800DFE00;
gUnkThread4 = 0x800E0E00;
gUnkThread4Stack = 0x800E0FB0;
gCurrentTask = 0x800E1FB0;
D_800E1FB4 = 0x800E1FB4;
D_800E1FB8 = 0x800E1FB8;
D_800E1FC0 = 0x800E1FC0;
D_800E1FC8 = 0x800E1FC8;
gPiMgrCmdQueue = 0x800E2010;
sPiMgrCmdBuff = 0x800E2028;
sIdleThread = 0x80138E90;
sIdleThreadStack = 0x80139040;
gMainThread = 0x8013A040;
sMainThreadStack = 0x8013A1F0;
gAudioThread = 0x8013B1F0;
gSegments = 0x800E1FD0;
gGfxPools = 0x800E23B0; // size:0x55AA0
gGfxPool = 0x80137E50;
gGfxTask = 0x80137E54;
gViewport = 0x80137E58;
gGfxMtx = 0x80137E5C;
gUnkDisp1 = 0x80137E60;
gMasterDisp = 0x80137E64;
gUnkDisp2 = 0x80137E68;
gLight = 0x80137E6C;
gFrameBuffer = 0x80137E70;
D_80137E74 = 0x80137E74;
gFrameBuffers = 0x8038F800;
D_8013C3D0 = 0x8013C3D0; // size:0x8800
gFaultMgr = 0x80145360; // size:0x9D8
Mio0_Decompress = 0x8001EE70;
RdRam_CheckIPL3 = 0x8001EF10;
D_800D934C = 0x800D934C; // force_migration:True
D_800D503C = 0x800D503C; // force_migration:True

34
linker_scripts/us/symbol_addrs_assets.txt Normal file
View File

@ -0,0 +1,34 @@
D_Gfx_800D94D0 = 0x800D94D0; // type:Gfx
D_Gfx_800D95E8 = 0x800D95E8; // type:Gfx
D_Gfx_800D9688 = 0x800D9688; // type:Gfx
D_Gfx_800D96D0 = 0x800D96D0; // type:Gfx
D_Gfx_800D9860 = 0x800D9860; // type:Gfx
D_Gfx_800D9990 = 0x800D9990; // type:Gfx
D_Gfx_800DA9F8 = 0x800DA9F8; // type:Gfx
D_Gfx_800DAA98 = 0x800DAA98; // type:Gfx
D_Gfx_800DAB28 = 0x800DAB28; // type:Gfx
D_Gfx_800DAB80 = 0x800DAB80; // type:Gfx
D_Gfx_800DAC20 = 0x800DAC20; // type:Gfx
D_Gfx_800DACA0 = 0x800DACA0; // type:Gfx
D_Gfx_800DBAA0 = 0x800DBAA0; // type:Gfx
D_Tex_800DA1F8 = 0x800DA1F8;
D_Tex_800D99F8 = 0x800D99F8;
D_Tex_800DBA20 = 0x800DBA20;
D_Vtx_800D94A0 = 0x800D94A0;
D_Vtx_800D94E8 = 0x800D94E8;
D_Vtx_800D9658 = 0x800D9658;
D_Vtx_800D96A0 = 0x800D96A0;
D_Vtx_800D9760 = 0x800D9760;
D_Vtx_800D9950 = 0x800D9950;
D_Vtx_800D9910 = 0x800D9910;
D_Vtx_800DAA58 = 0x800DAA58;
D_Vtx_800DAAF8 = 0x800DAAF8;
D_Vtx_800DAB40 = 0x800DAB40;
D_Vtx_800DABE0 = 0x800DABE0;
D_Vtx_800DAC80 = 0x800DAC80;
D_Unk_800DACB8 = 0x800DACB8;
D_Unk_800DB4B8 = 0x800DB4B8;
D_Unk_800D96E4 = 0x800D96E4; // type:s16

2
src/libultra/gu/lookat.c
View File

@ -67,7 +67,7 @@ void guLookAtF(float mf[4][4], float xEye, float yEye, float zEye, float xAt, fl
void guLookAt(Mtx* m, float xEye, float yEye, float zEye, float xAt, float yAt, float zAt, float xUp, float yUp,
float zUp) {
Matrix mf;
float mf[4][4];
guLookAtF(mf, xEye, yEye, zEye, xAt, yAt, zAt, xUp, yUp, zUp);

2
src/libultra/gu/ortho.c
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@ -23,7 +23,7 @@ void guOrthoF(float mf[4][4], float l, float r, float b, float t, float n, float
}
void guOrtho(Mtx* m, float l, float r, float b, float t, float n, float f, float scale) {
Matrix mf;
float mf[4][4];
guOrthoF(mf, l, r, b, t, n, f, scale);

6
src/libultra/io/controller.c
View File

@ -4,7 +4,7 @@
extern s32 __osContinitialized;
#define USEC_TO_CYCLES(n, clock) ((n) * (u64) (clock) / 1000000)
#define USEC_TO_CYCLES_OLD(n, clock) ((n) * (u64) (clock) / 1000000)
s32 osContInit(OSMesgQueue* mq, u8* bitpattern, OSContStatus* data) {
OSMesg dummy;
@ -20,9 +20,9 @@ s32 osContInit(OSMesgQueue* mq, u8* bitpattern, OSContStatus* data) {
__osContinitialized = 1;
t = osGetTime();
if (t < USEC_TO_CYCLES(500000, osClockRate)) {
if (t < USEC_TO_CYCLES_OLD(500000, osClockRate)) {
osCreateMesgQueue(&timerMesgQueue, &dummy, 1);
osSetTimer(&mytimer, USEC_TO_CYCLES(500000, osClockRate) - t, 0, &timerMesgQueue, &dummy);
osSetTimer(&mytimer, USEC_TO_CYCLES_OLD(500000, osClockRate) - t, 0, &timerMesgQueue, &dummy);
osRecvMesg(&timerMesgQueue, &dummy, OS_MESG_BLOCK);
}
__osMaxControllers = 4;

2
src/libultra/io/motor.c
View File

@ -63,7 +63,7 @@ s32 osMotorStart(OSPfs* pfs) {
}
void _MakeMotorData(s32 channel, u16 address, u8* buffer, OSPifRam* mdata) {
u8* ptr = mdata->ramarray;
u8* ptr = (u8*) mdata->ramarray;
__OSContRamReadFormat ramreadformat;
s32 i;

16
src/libultra/io/pimgr.c
View File

@ -2,8 +2,8 @@
#include "piint.h"
#include "PR/rdb.h"
void ramromMain(void* /*arg*/);
extern char piEventBuf[];
void ramromMain(void* arg);
extern OSMesg piEventBuf[];
extern OSMesgQueue piEventQueue;
extern OSThread piThread;
extern char piThreadStack[];
@ -22,7 +22,7 @@ void osCreatePiMgr(OSPri pri, OSMesgQueue* cmdQ, OSMesg* cmdBuf, s32 cmdMsgCnt)
return;
}
osCreateMesgQueue(cmdQ, cmdBuf, cmdMsgCnt);
osCreateMesgQueue(&piEventQueue, (OSMesg*) piEventBuf, 1);
osCreateMesgQueue(&piEventQueue, piEventBuf, 1);
if (!__osPiAccessQueueEnabled) {
__osPiCreateAccessQueue();
@ -60,9 +60,9 @@ void osCreatePiMgr(OSPri pri, OSMesgQueue* cmdQ, OSMesg* cmdBuf, s32 cmdMsgCnt)
#pragma GLOBAL_ASM("asm/us/nonmatchings/libultra/io/pimgr/osCreatePiMgr.s")
#endif
extern char freeRamromBuf[];
extern OSMesg freeRamromBuf[];
extern OSMesgQueue freeRamromQ;
extern char getRamromBuf[];
extern OSMesg getRamromBuf[];
extern OSMesgQueue getRamromQ;
void ramromMain(void* arg) {
@ -71,8 +71,10 @@ void ramromMain(void* arg) {
osCreateMesgQueue(&getRamromQ, getRamromBuf, 1);
osCreateMesgQueue(&freeRamromQ, freeRamromBuf, 1);
osSetEventMesg(18 /*OS_EVENT_RDB_REQ_RAMROM*/, &getRamromQ, NULL);
osSetEventMesg(19 /*OS_EVENT_RDB_FREE_RAMROM*/, &freeRamromQ, NULL);
// For some reason the compiler thinks these macros are undefined
osSetEventMesg(18 /* OS_EVENT_RDB_REQ_RAMROM */, &getRamromQ, NULL);
osSetEventMesg(19 /*OS_EVENT_RDB_FREE_RAMROM */, &freeRamromQ, NULL);
while (TRUE) {
osRecvMesg(&getRamromQ, NULL, OS_MESG_BLOCK);

5
src/libultra/rmon/rmonregs.c
View File

@ -3,10 +3,13 @@
#pragma GLOBAL_ASM("asm/us/nonmatchings/libultra/rmon/rmonregs/__rmonregs_LoadStoreSU.s")
void __rmonregs_LoadStoreSU(int opcode, int regno);
#pragma GLOBAL_ASM("asm/us/nonmatchings/libultra/rmon/rmonregs/LoadStoreVU.s")
void SetUpForRCPop(int isVector);
#pragma GLOBAL_ASM("asm/us/nonmatchings/libultra/rmon/rmonregs/SetUpForRCPop.s")
void CleanupFromRCPop(int isVector);
#pragma GLOBAL_ASM("asm/us/nonmatchings/libultra/rmon/rmonregs/CleanupFromRCPop.s")
#pragma GLOBAL_ASM("asm/us/nonmatchings/libultra/rmon/rmonregs/__rmonGetGRegisters.s")
@ -26,7 +29,7 @@ s32 rmonGetRcpRegister(s32 arg0) {
SetUpForRCPop(0);
__rmonregs_LoadStoreSU(0x2B, arg0);
__rmonStepRCP();
ret = __rmonReadWordAt(0x04000000);
ret = __rmonReadWordAt((u32*) SP_DMEM_START);
CleanupFromRCPop(0);
return ret;
}

12
src/main/3440.c
View File

@ -47,7 +47,7 @@ void func_8000291C(void) {
u8 sp1F;
s32 i;
osContInit(&D_800E2128, &sp1F, &D_800DD8F0);
osContInit(&D_800E2128, &sp1F, D_800DD8F0);
for (i = 0; i < 4; i++) {
D_800DD8B0[i] = (sp1F >> i) & 1;
D_800DD8B8[i] = 0;
@ -84,7 +84,7 @@ void func_80002AF4(void) {
osRecvMesg(&D_800E2128, NULL, 1);
osContGetReadData(D_800DD8C0);
}
osSendMesg(&D_800E22F8, 16, 0);
osSendMesg(&D_800E22F8, (OSMesg) 16, 0);
}
#else
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/3440/func_80002AF4.s")
@ -92,18 +92,18 @@ void func_80002AF4(void) {
void func_80002BE8(void) {
if ((D_80137E80 == 0) && (func_800072E0(&D_80144F60) == 0)) {
osSendMesg(&D_800E2318, 15, 0);
osSendMesg(&D_800E2318, (OSMesg) 15, 0);
return;
}
osSendMesg(&D_800E2318, 14, 0);
osSendMesg(&D_800E2318, (OSMesg) 14, 0);
}
void func_80002C50(void) {
if ((D_80137E80 == 0) && (func_800071FC(&D_80144F60) == 0)) {
osSendMesg(&D_800E2318, 15, 0);
osSendMesg(&D_800E2318, (OSMesg) 15, 0);
return;
}
osSendMesg(&D_800E2318, 14, 0);
osSendMesg(&D_800E2318, (OSMesg) 14, 0);
}
void func_80002CB8(void) {

142
src/main/3A80.c
View File

@ -4,16 +4,144 @@ s32 func_80002E80(char* dst, char* fmt, va_list args) {
return vsprintf(dst, fmt, args);
}
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/3A80/func_80002EA0.s")
void func_80002EA0(s32 arg0, void (**arg1)(s32, s32), s32 arg2, s32 arg3) {
void (*temp)(s32, s32) = arg1[arg0];
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/3A80/func_80002EE4.s")
temp(arg2, arg3);
}
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/3A80/func_80002F88.s")
void func_80002EE4(u8* buf1, u8* buf2, s32 len) {
s32 i;
u8 temp;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/3A80/func_8000316C.s")
for (i = 0; i < len; i++) {
temp = buf2[i];
buf2[i] = buf1[i];
buf1[i] = temp;
}
}
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/3A80/func_800032B4.s")
typedef s32 (*CompareFunc)(void*, void*);
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/3A80/func_800033E0.s")
void func_80002F88(u8* first, u32 curLen, u32 size, CompareFunc cFunc) {
u32 splitIdx;
u8* last;
u8* right;
u8* left;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/3A80/func_800034E8.s")
while (1) {
last = first + (curLen - 1) * size;
if (curLen == 2) {
if (cFunc(first, last) > 0) {
func_80002EE4(first, last, size);
}
return;
}
if (size && size && size) {} //! FAKE: must be here with at least 3 && operands.
left = first;
right = last - size;
while (1) {
while (cFunc(left, last) < 0) {
left += size;
}
while ((cFunc(right, last) >= 0) && (left < right)) {
right -= size;
}
if (left >= right) {
break;
}
func_80002EE4(left, right, size);
left += size;
right -= size;
}
func_80002EE4(last, left, size);
splitIdx = (left - first) / size;
if (curLen / 2 < splitIdx) {
if ((curLen - splitIdx) > 2) {
func_80002F88(left + size, curLen - splitIdx - 1, size, cFunc);
}
if (splitIdx < 2) {
return;
}
left = first;
curLen = splitIdx;
} else {
if (splitIdx >= 2) {
func_80002F88(first, splitIdx, size, cFunc);
}
if ((curLen - splitIdx) <= 2) {
return;
}
first = left + size;
curLen -= splitIdx + 1;
}
}
}
void func_8000316C(Gfx** dList) {
u16 norm;
guPerspective(gGfxMtx, &norm, D_80161A3C, 1.3333334f, D_80161A40, D_80161A44, 1.0f);
gSPPerspNormalize((*dList)++, norm);
gSPMatrix((*dList)++, gGfxMtx++, G_MTX_NOPUSH | G_MTX_LOAD | G_MTX_PROJECTION);
guLookAt(gGfxMtx, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, -12800.0f, 0.0f, 1.0f, 0.0f);
gSPMatrix((*dList)++, gGfxMtx++, G_MTX_NOPUSH | G_MTX_MUL | G_MTX_PROJECTION);
func_80005680(D_8013B3C0, &gIdentityMatrix);
}
void func_800032B4(Gfx** dList) {
void* temp_t0;
void* temp_t0_2;
guOrtho(gGfxMtx, -160.0f, 160.0f, -120.0f, 120.0f, D_80161A40, D_80161A44, 1.0f);
gSPMatrix((*dList)++, gGfxMtx++, G_MTX_NOPUSH | G_MTX_LOAD | G_MTX_PROJECTION);
guLookAt(gGfxMtx, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, -12800.0f, 0.0f, 1.0f, 0.0f);
gSPMatrix((*dList)++, gGfxMtx++, G_MTX_NOPUSH | G_MTX_MUL | G_MTX_PROJECTION);
func_80005680(D_8013B3C0, &gIdentityMatrix);
}
void func_800033E0(u32 var_s2, u8* var_s1, s32 var_s0) {
osInvalICache(var_s1, var_s0);
osInvalDCache(var_s1, var_s0);
while (var_s0 > 0x100) {
osPiStartDma(&D_800E2110, 0, 0, var_s2, var_s1, 0x100, &D_800E20F0);
var_s0 -= 0x100;
var_s2 += 0x100;
var_s1 += 0x100;
osRecvMesg(&D_800E20F0, NULL, 1);
}
if (var_s0 != 0) {
osPiStartDma(&D_800E2110, 0, 0, var_s2, var_s1, var_s0, &D_800E20F0);
osRecvMesg(&D_800E20F0, NULL, 1);
}
}
void func_800034E8(u8 arg0) {
s32 i;
D_80137E88 |= 1;
if (arg0 == 1) {
if (D_80137E8A == 0) {
if (D_80137E88 == 1) {
osViBlack(1);
} else {
for (i = 0; i < 0x3C0; i++) {
D_8038F080[i] = D_80137E88;
}
osWritebackDCacheAll();
osViSwapBuffer(&D_8038F300);
osViRepeatLine(1);
}
D_80137E8A = 1;
}
} else if (D_80137E8A == 1) {
osViRepeatLine(0);
osViBlack(0);
D_80137E8A = 0;
}
}

85
src/main/41D0.c
View File

@ -1,7 +1,84 @@
#include "common.h"
#include "global.h"
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/41D0/func_800035D0.s")
void func_800035D0(Gfx** dList) {
gSPNumLights((*dList)++, 7);
gSPLight((*dList)++, &gLight->l[0], 1);
gSPLight((*dList)++, &gLight->l[1], 2);
gSPLight((*dList)++, &gLight->l[2], 3);
gSPLight((*dList)++, &gLight->l[3], 4);
gSPLight((*dList)++, &gLight->l[4], 5);
gSPLight((*dList)++, &gLight->l[5], 6);
gSPLight((*dList)++, &gLight->l[6], 7);
gSPLight((*dList)++, &gLight->a, 8);
gLight++;
}
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/41D0/func_8000372C.s")
void func_8000372C(Gfx** dList, s32 dirX, s32 dirY, s32 dirZ, s32 colR, s32 colG, s32 colB, s32 ambR, s32 ambG,
s32 ambB) {
s32 i;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/41D0/func_800038AC.s")
for (i = 0; i < 4; i++) {
gLight->l[i].l.dir[0] = dirX;
gLight->l[i].l.dir[1] = dirY;
gLight->l[i].l.dir[2] = dirZ;
gLight->l[i].l.col[0] = colR;
gLight->l[i].l.col[1] = colG;
gLight->l[i].l.col[2] = colB;
gLight->l[i].l.colc[0] = colR;
gLight->l[i].l.colc[1] = colG;
gLight->l[i].l.colc[2] = colB;
}
for (i = 4; i < 7; i++) {
gLight->l[i].l.dir[0] = dirX;
gLight->l[i].l.dir[1] = dirY;
gLight->l[i].l.dir[2] = dirZ;
gLight->l[i].l.col[0] = 0;
gLight->l[i].l.col[1] = 0;
gLight->l[i].l.col[2] = 0;
gLight->l[i].l.colc[0] = 0;
gLight->l[i].l.colc[1] = 0;
gLight->l[i].l.colc[2] = 0;
}
gLight->a.l.col[0] = ambR;
gLight->a.l.col[1] = ambG;
gLight->a.l.col[2] = ambB;
gLight->a.l.colc[0] = ambR;
gLight->a.l.colc[1] = ambG;
gLight->a.l.colc[2] = ambB;
func_800035D0(dList);
}
void func_800038AC(Gfx** dList, s32 dir1x, s32 dir1y, s32 dir1z, s32 dir2x, s32 dir2y, s32 dir2z, s32 col1r, s32 col1g,
s32 col1b, s32 col2r, s32 col2g, s32 col2b, s32 ambR, s32 ambG, s32 ambB) {
s32 i;
for (i = 0; i < 4; i++) {
gLight->l[i].l.dir[0] = dir1x;
gLight->l[i].l.dir[1] = dir1y;
gLight->l[i].l.dir[2] = dir1z;
gLight->l[i].l.col[0] = col1r;
gLight->l[i].l.col[1] = col1g;
gLight->l[i].l.col[2] = col1b;
gLight->l[i].l.colc[0] = col1r;
gLight->l[i].l.colc[1] = col1g;
gLight->l[i].l.colc[2] = col1b;
}
for (i = 4; i < 7; i++) {
gLight->l[i].l.dir[0] = dir2x;
gLight->l[i].l.dir[1] = dir2y;
gLight->l[i].l.dir[2] = dir2z;
gLight->l[i].l.col[0] = col2r;
gLight->l[i].l.col[1] = col2g;
gLight->l[i].l.col[2] = col2b;
gLight->l[i].l.colc[0] = col2r;
gLight->l[i].l.colc[1] = col2g;
gLight->l[i].l.colc[2] = col2b;
}
gLight->a.l.col[0] = ambR;
gLight->a.l.col[1] = ambG;
gLight->a.l.col[2] = ambB;
gLight->a.l.colc[0] = ambR;
gLight->a.l.colc[1] = ambG;
gLight->a.l.colc[2] = ambB;
func_800035D0(dList);
}

422
src/main/4650.c
View File

@ -1,60 +1,422 @@
#include "global.h"
void func_800034E8(s32);
s32 func_80003A50(void);
void func_80003B48(void*);
void Audio_ThreadEntry(void* /*arg0*/);
void func_80003EE0(void);
void func_80003FEC(void*);
void func_800040D4(void*);
void func_80004144(void*);
void func_80004ABC(void*);
void func_80003FEC(void* /*arg0*/);
void func_800040D4(void* /*arg0*/);
void Graphics_ThreadEntry(void* /*arg0*/);
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_80003A50.s")
void func_80004560(void);
void func_80004714(void);
void func_80004798(void);
void func_80004824(void);
void func_800049D4(void);
void func_80007088(void*);
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_80003B48.s")
s32 D_800C45D0 = 1;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_80003C50.s")
void func_80003A50(void) {
u8 i;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_80003DC0.s")
D_80137E78 = 0;
D_80137E7C = 0;
D_80137E80 = 0;
D_80137E81 = 0;
D_80137E88 = 0;
D_80137E8A = 0;
gCurrentTask = NULL;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_80003EE0.s")
for (i = 0; i < ARRAY_COUNT(D_800E1FB4); i += 1) {
D_800E1FB4[i] = NULL;
}
for (i = 0; i < ARRAY_COUNT(D_800E1FB8); i += 1) {
D_800E1FB8[i] = NULL;
}
for (i = 0; i < 1; i += 1) {
D_800E1FC0[i] = NULL;
}
for (i = 0; i < ARRAY_COUNT(D_800E1FC8); i += 1) {
D_800E1FC8[i] = NULL;
}
}
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_80003FEC.s")
void Audio_ThreadEntry(void* arg0) {
SPTask* temp_v0;
// https://decomp.me/scratch/vo7No Random Nops missing
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_800040D4.s")
func_8000FFCC();
func_8001DCE0();
temp_v0 = func_8001DF50();
if (temp_v0 != NULL) {
temp_v0->msgQueue = &D_800E2258;
temp_v0->msg = (OSMesg) 1;
osWritebackDCacheAll();
osSendMesg(&D_800E21E0, temp_v0, 0);
}
while (1) {
temp_v0 = func_8001DF50();
if (temp_v0 != NULL) {
temp_v0->msgQueue = &D_800E2258;
temp_v0->msg = (OSMesg) 1;
osWritebackDCacheAll();
}
osRecvMesg(&D_800E2258, NULL, 0);
if (temp_v0 != NULL) {
osSendMesg(&D_800E21E0, temp_v0, 0);
}
osRecvMesg(&D_800E2238, NULL, 1);
}
}
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_80004144.s")
void func_80003C50(void) {
gGfxTask->msgQueue = &D_800E22A0;
gGfxTask->msg = (OSMesg) 2;
gGfxTask->task.t.type = M_GFXTASK;
gGfxTask->task.t.flags = 0;
gGfxTask->task.t.ucode_boot = __rspboot_start;
gGfxTask->task.t.ucode_boot_size = (uintptr_t) __rspboot_end - (uintptr_t) __rspboot_start;
gGfxTask->task.t.ucode = __f3dex_start;
gGfxTask->task.t.ucode_size = 0x1000;
gGfxTask->task.t.ucode_data = (u64*) &gF3dexData;
gGfxTask->task.t.ucode_data_size = 0x800;
gGfxTask->task.t.dram_stack = (u64*) &D_80281000;
gGfxTask->task.t.dram_stack_size = 0x400;
gGfxTask->task.t.output_buff = (u64*) &D_802A7800;
gGfxTask->task.t.output_buff_size = (u64*) &D_802D7800;
gGfxTask->task.t.data_ptr = (u64*) gGfxPool->masterDL;
gGfxTask->task.t.data_size = (gMasterDisp - gGfxPool->masterDL) * sizeof(Gfx);
gGfxTask->task.t.yield_data_ptr = (u64*) &D_80281400;
gGfxTask->task.t.yield_data_size = OS_YIELD_DATA_SIZE;
osWritebackDCacheAll();
osSendMesg(&D_800E21E0, gGfxTask, 0);
}
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_80004560.s")
void func_80003DC0(u32 arg0) {
gGfxPool = &gGfxPools[arg0 % 2];
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_80004714.s")
gGfxTask = &gGfxPool->task;
gViewport = gGfxPool->viewports;
gGfxMtx = gGfxPool->mtx;
gUnkDisp1 = gGfxPool->unkDL1;
gMasterDisp = gGfxPool->masterDL;
gUnkDisp2 = gGfxPool->unkDL2;
gLight = gGfxPool->lights;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_80004798.s")
gFrameBuffer = &gFrameBuffers[arg0 % 3];
D_80137E74 = &D_80387800;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_80004824.s")
D_8013B3C0 = D_8013B3C8;
D_8013BBC8 = D_8013BBD0;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_800049D4.s")
D_80178710 = &D_80178580;
}
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/4650/func_80004ABC.s")
void func_80003EE0(void) {
if ((D_800DD880[0].button & D_JPAD) && (D_800DD880[1].button & D_JPAD) && (D_800DD880[2].button & D_JPAD) &&
(D_800DD880[3].button & L_TRIG) && (D_800DD880[3].button & R_TRIG) && (D_800DD880[3].button & Z_TRIG)) {
D_800C45D0 = 1 - D_800C45D0;
}
switch (osTvType) {
case 0:
osViSetMode(&osViModePalLan1);
break;
case 2:
osViSetMode(&osViModeMpalLan1);
break;
default:
case 1:
osViSetMode(&osViModeNtscLan1);
break;
}
if (D_800C45D0 != 0) {
osViSetSpecialFeatures(OS_VI_DITHER_FILTER_ON | OS_VI_DIVOT_OFF | OS_VI_GAMMA_ON | OS_VI_GAMMA_DITHER_ON);
} else {
osViSetSpecialFeatures(OS_VI_DITHER_FILTER_ON | OS_VI_DIVOT_OFF | OS_VI_GAMMA_OFF | OS_VI_GAMMA_DITHER_OFF);
}
}
void func_80004D00(void* arg0) {
osCreateViManager(254);
void func_80003FEC(void* arg0) {
s32 sp34;
func_8000291C();
while (1) {
osRecvMesg(&D_800E22C0, (OSMesg) &sp34, 1);
switch (sp34) {
case 0xA:
func_80002AF4();
break;
case 0xB:
func_80002BE8();
break;
case 0xC:
func_80002C50();
break;
case 0xD:
func_80002CB8();
break;
}
}
}
void func_800040D4(void* arg0) {
void* sp24;
while (1) {
osRecvMesg(&D_800E2338, &sp24, 1);
func_80007088(sp24);
}
}
void Graphics_ThreadEntry(void* arg0) {
u8 i;
u8 var_v1;
u8 var_v2;
func_800A18B0();
osSendMesg(&D_800E22C0, (OSMesg) 10, 0);
func_80003DC0(D_80137E7C);
{
gSPSegment(gUnkDisp1++, 0, 0);
gSPDisplayList(gMasterDisp++, gGfxPool->unkDL1);
func_800A26C0();
gSPEndDisplayList(gUnkDisp1++);
gSPEndDisplayList(gUnkDisp2++);
gSPDisplayList(gMasterDisp++, gGfxPool->unkDL2);
gDPFullSync(gMasterDisp++);
gSPEndDisplayList(gMasterDisp++);
}
func_80003C50();
while (1) {
D_80137E7C++;
func_80003DC0(D_80137E7C);
osRecvMesg(&D_800E22F8, NULL, 1);
osSendMesg(&D_800E22C0, (OSMesg) 13, 0);
func_800029A8();
osSendMesg(&D_800E22C0, (OSMesg) 10, 0);
if (D_800DD8AA & 0x800) {
func_80003EE0();
}
{
gSPSegment(gUnkDisp1++, 0, 0);
gSPDisplayList(gMasterDisp++, gGfxPool->unkDL1);
func_800A26C0();
if (D_80137E80 == 1) {
func_800BC4B0();
}
gSPEndDisplayList(gUnkDisp1++);
gSPEndDisplayList(gUnkDisp2++);
gSPDisplayList(gMasterDisp++, gGfxPool->unkDL2);
gDPFullSync(gMasterDisp++);
gSPEndDisplayList(gMasterDisp++);
}
osRecvMesg(&D_800E22A0, NULL, 1);
func_80003C50();
if (D_80137E8A == 0) {
osViSwapBuffer(&gFrameBuffers[(D_80137E7C - 1) % 3]);
}
func_80007FE4(&gFrameBuffers[(D_80137E7C - 1) % 3], 320, 16);
var_v1 = MIN(D_80137E78, 4);
var_v2 = MAX(var_v1, D_800E2278.validCount + 1);
for (i = 0; i < var_v2; i += 1) { // Can't be ++
osRecvMesg(&D_800E2278, NULL, 1);
}
func_8001DECC();
}
}
void func_80004560(void) {
osCreateMesgQueue(&D_800E20F0, D_800E2108, ARRAY_COUNT(D_800E2108));
osCreateMesgQueue(&D_800E21E0, D_800E21F8, ARRAY_COUNT(D_800E21F8));
osCreateMesgQueue(&D_800E2238, D_800E2250, ARRAY_COUNT(D_800E2250));
osCreateMesgQueue(&D_800E2258, D_800E2270, ARRAY_COUNT(D_800E2270));
osCreateMesgQueue(&D_800E2278, D_800E2290, ARRAY_COUNT(D_800E2290));
osCreateMesgQueue(&D_800E22A0, D_800E22B8, ARRAY_COUNT(D_800E22B8));
osCreateMesgQueue(&D_800E2128, D_800E2140, ARRAY_COUNT(D_800E2140));
osSetEventMesg(OS_EVENT_SI, &D_800E2128, (OSMesg) 0);
osCreateMesgQueue(&D_800E2148, D_800E2160, ARRAY_COUNT(D_800E2160));
osViSetEvent(&D_800E2148, (OSMesg) 3, 1);
osSetEventMesg(OS_EVENT_SP, &D_800E2148, (OSMesg) 1);
osSetEventMesg(OS_EVENT_DP, &D_800E2148, (OSMesg) 2);
osSetEventMesg(OS_EVENT_PRENMI, &D_800E2148, (OSMesg) 4);
osCreateMesgQueue(&D_800E2338, D_800E2350, ARRAY_COUNT(D_800E2350));
osCreateMesgQueue(&D_800E2390, D_800E23A8, ARRAY_COUNT(D_800E23A8));
osCreateMesgQueue(&D_800E22C0, D_800E22D8, ARRAY_COUNT(D_800E22D8));
osCreateMesgQueue(&D_800E22F8, D_800E2310, ARRAY_COUNT(D_800E2310));
osCreateMesgQueue(&D_800E2318, D_800E2330, ARRAY_COUNT(D_800E2330));
}
void func_80004714(void) {
SPTask** var_v1 = D_800E1FB8;
u8 i;
if ((*var_v1)->msgQueue != NULL) {
osSendMesg((*var_v1)->msgQueue, (*var_v1)->msg, 0);
}
(*var_v1)->state = SPTASK_STATE_FINISHED_DP;
for (i = 0; i < 1; i += 1, var_v1++) {
*var_v1 = *(var_v1 + 1);
}
*var_v1 = NULL;
}
void func_80004798(void) {
SPTask* task = gCurrentTask;
gCurrentTask = NULL;
if (task->state == SPTASK_STATE_INTERRUPTED) {
if (osSpTaskYielded(&task->task) == 0) {
task->state = SPTASK_STATE_FINISHED;
}
} else {
task->state = SPTASK_STATE_FINISHED;
if (task->task.t.type == M_AUDTASK) {
if (task->msgQueue != NULL) {
osSendMesg(task->msgQueue, task->msg, 0);
}
D_800E1FB4[0] = NULL;
}
}
}
void func_80004824(void) {
u8 i;
SPTask** var_a0;
SPTask** var_a1;
SPTask** var_s0_2;
SPTask** var_s1_2;
void* sp40;
SPTask* sp3C;
var_s0_2 = D_800E1FC0;
var_s1_2 = D_800E1FC8;
for (i = 0; i < 1; i += 1) {
*(var_s0_2++) = NULL;
}
for (i = 0; i < ARRAY_COUNT(D_800E1FC8); i += 1) {
*(var_s1_2++) = NULL;
}
var_s0_2 = D_800E1FC0;
var_s1_2 = D_800E1FC8;
while (osRecvMesg(&D_800E21E0, &sp40, 0) != -1) {
sp3C = (SPTask*) sp40;
sp3C->state = SPTASK_STATE_NOT_STARTED;
switch (sp3C->task.t.type) {
case 2:
*(var_s0_2++) = sp3C;
break;
case 1:
*(var_s1_2++) = sp3C;
break;
}
}
var_s0_2 = D_800E1FC0;
var_s1_2 = D_800E1FC8;
var_a0 = D_800E1FB4;
var_a1 = D_800E1FB8;
for (i = 0; i < 1; i += 1, var_a0++) {
if (*var_a0 == NULL) {
break;
}
}
for (i; i < 1; i += 1) {
*(var_a0++) = *(var_s0_2++);
}
for (i = 0; i < 2; i += 1, var_a1++) {
if (*var_a1 == NULL) {
break;
}
}
for (i; i < 2; i += 1) {
*(var_a1++) = *(var_s1_2++);
}
}
void func_800049D4(void) {
if (D_800E1FB4[0] != NULL) {
if (gCurrentTask != NULL) {
if (gCurrentTask->task.t.type == M_GFXTASK) {
gCurrentTask->state = SPTASK_STATE_INTERRUPTED;
osSpTaskYield();
}
} else {
gCurrentTask = D_800E1FB4[0];
osSpTaskLoad(&gCurrentTask->task);
osSpTaskStartGo(&gCurrentTask->task);
gCurrentTask->state = SPTASK_STATE_RUNNING;
}
} else if ((gCurrentTask == NULL) && (D_800E1FB8[0] != NULL) && (D_800E1FB8[0]->state != SPTASK_STATE_FINISHED)) {
gCurrentTask = D_800E1FB8[0];
osDpSetStatus(DPC_CLR_TMEM_CTR | DPC_CLR_PIPE_CTR | DPC_CLR_CMD_CTR | DPC_CLR_CLOCK_CTR);
osSpTaskLoad(&gCurrentTask->task);
osSpTaskStartGo(&gCurrentTask->task);
gCurrentTask->state = SPTASK_STATE_RUNNING;
}
}
void Main_ThreadEntry(void* arg0) {
s32 sp54;
osCreateThread(&gAudioThread, THREAD_ID_AUDIO, Audio_ThreadEntry, arg0,
gAudioThreadStack + sizeof(gAudioThreadStack), 80);
osStartThread(&gAudioThread);
osCreateThread(&gGraphicsThread, THREAD_ID_GRAPHICS, Graphics_ThreadEntry, arg0,
gGraphicsThreadStack + sizeof(gGraphicsThreadStack), 40);
osStartThread(&gGraphicsThread);
osCreateThread(&gUnkThread3, THREAD_ID_7, func_800040D4, arg0, gUnkThread3Stack + sizeof(gUnkThread3Stack), 60);
osStartThread(&gUnkThread3);
osCreateThread(&gUnkThread4, THREAD_ID_8, func_80003FEC, arg0, gUnkThread4Stack + sizeof(gUnkThread4Stack), 20);
osStartThread(&gUnkThread4);
func_80004560();
while (true) {
osRecvMesg(&D_800E2148, (OSMesg) &sp54, 1);
switch ((u8) sp54) {
case 3:
osSendMesg(&D_800E2238, (OSMesg) 3, 0);
osSendMesg(&D_800E2278, (OSMesg) 3, 0);
func_80004824();
break;
case 1:
func_80004798();
break;
case 2:
func_80004714();
break;
case 4:
D_80137E80 = 1;
break;
}
if (D_80137E81 == 0) {
func_800049D4();
}
}
}
void Idle_ThreadEntry(void* arg0) {
osCreateViManager(OS_PRIORITY_VIMGR);
func_80003EE0();
func_800034E8(1);
osCreatePiMgr(150, &D_800E2010, &D_800E2028, 50);
osCreateThread(&D_8013A040, 3, &func_80004ABC, arg0, &D_8013B1F0, 100);
osStartThread(&D_8013A040);
osCreatePiMgr(OS_PRIORITY_PIMGR, &gPiMgrCmdQueue, sPiMgrCmdBuff, ARRAY_COUNT(sPiMgrCmdBuff));
osCreateThread(&gMainThread, THREAD_ID_MAIN, &Main_ThreadEntry, arg0, sMainThreadStack + sizeof(sMainThreadStack),
100);
osStartThread(&gMainThread);
func_80008018();
osSetThreadPri(0, 0);
osSetThreadPri(NULL, OS_PRIORITY_IDLE);
loop_1:
goto loop_1;
}
void bootproc(void) {
func_8001EF10();
RdRam_CheckIPL3();
osInitialize();
func_80003A50();
osCreateThread(&D_80138E90, 1, &func_80004D00, 0, &D_8013A040, 255);
osStartThread(&D_80138E90);
osCreateThread(&sIdleThread, THREAD_ID_IDLE, &Idle_ThreadEntry, NULL, sIdleThreadStack + sizeof(sIdleThreadStack),
255);
osStartThread(&sIdleThread);
}

2
src/main/5A20.c
View File

@ -124,7 +124,7 @@ f32 Math_FactorialF(f32 n) {
return out;
}
extern f32 D_800C45E0[];
f32 D_800C45E0[] = { 1, 1, 2, 6, 24, 120, 720, 5040, 40320, 362880, 3628800, 39916800, 479001600 };
f32 Math_Factorial(s32 n) {
f32 out;

57
src/main/6280.c
View File

@ -1,7 +1,60 @@
#include "global.h"
// https://decomp.me/scratch/8H8k4 100%
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/6280/func_80005680.s")
Mtx gIdentityMtx = { {
{ 0x00010000, 0, 1, 0 },
{ 0, 0x00010000, 0, 1 },
{ 0, 0, 0, 0 },
{ 0, 0, 0, 0 },
} };
Matrix gIdentityMatrix = { {
{ 1.0f, 0.0f, 0.0f, 0.0f },
{ 0.0f, 1.0f, 0.0f, 0.0f },
{ 0.0f, 0.0f, 1.0f, 0.0f },
{ 0.0f, 0.0f, 0.0f, 1.0f },
} };
Vec3f D_800C46A0 = { 0.0f, 0.0f, 0.0f };
Vec3f D_800C46AC = { 0.0f, 0.0f, 1.0f };
Vec3f D_800C46B8 = { 1.0f, 0.0f, 0.0f };
Vec3f D_800C46C4 = { 0.0f, 0.0f, 0.0f };
Vec3f D_800C46D0 = { 1.0f, 0.0f, 0.0f };
Vec3f D_800C46DC = { 0.0f, 1.0f, 0.0f };
void func_80005680(Matrix* dst, Matrix* src) {
dst->m[0][0] = src->m[0][0];
dst->m[0][1] = src->m[0][1];
dst->m[0][2] = src->m[0][2];
dst->m[0][3] = src->m[0][3];
dst->m[1][0] = src->m[1][0];
dst->m[1][1] = src->m[1][1];
dst->m[1][2] = src->m[1][2];
dst->m[1][3] = src->m[1][3];
dst->m[2][0] = src->m[2][0];
dst->m[2][1] = src->m[2][1];
dst->m[2][2] = src->m[2][2];
dst->m[2][3] = src->m[2][3];
dst->m[3][0] = src->m[3][0];
dst->m[3][1] = src->m[3][1];
dst->m[3][2] = src->m[3][2];
dst->m[3][3] = src->m[3][3];
// dst->xx = src->xx;
// dst->yx = src->yx;
// dst->zx = src->zx;
// dst->wx = src->wx;
// dst->xy = src->xy;
// dst->yy = src->yy;
// dst->zy = src->zy;
// dst->wy = src->wy;
// dst->xz = src->xz;
// dst->yz = src->yz;
// dst->zz = src->zz;
// dst->wz = src->wz;
// dst->xw = src->xw;
// dst->yw = src->yw;
// dst->zw = src->zw;
// dst->ww = src->ww;
}
void func_80005708(Matrix** mtx) {
func_80005680(*mtx + 1, *mtx);

52
src/main/7B20.c
View File

@ -1,15 +1,18 @@
#include "common.h"
#include "global.h"
typedef void (*unkFunc_80007088)(s32, s32);
typedef struct {
s8 unk0;
char pad_0[0x27];
void* unk28;
u8 unk0;
OSTimer unk8;
unkFunc_80007088 unk28;
s32 unk2C;
s32 unk30;
} UnkStruct_func_80007088;
extern s32 D_8013C3D0;
extern s32 D_80144BD0;
extern UnkStruct_func_80007088 D_80144BE0[];
void func_80006F20(void) {
D_80144BD0 = (s32) &D_8013C3D0;
@ -22,10 +25,30 @@ s32 func_80006F38(s32 arg0) {
return tmp;
}
// https://decomp.me/scratch/uf9Ap 98.50%
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7B20/func_80006F60.s")
UnkStruct_func_80007088* func_80006F60(void) {
s32 i;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7B20/func_80006FD8.s")
for (i = 0; i < 0x10; i++) {
if (D_80144BE0[i].unk0 == 0) {
return &D_80144BE0[i];
}
}
return NULL;
}
s32 func_80006FD8(u64 arg0, void* arg2, s32 arg3, s32 arg4) {
UnkStruct_func_80007088* temp_v0;
temp_v0 = func_80006F60();
if (temp_v0 == NULL) {
return -1;
}
temp_v0->unk0 = 1;
temp_v0->unk28 = arg2;
temp_v0->unk2C = arg3;
temp_v0->unk30 = arg4;
return osSetTimer(&temp_v0->unk8, arg0, 0, &D_800E2338, temp_v0);
}
void func_80007068(s32* arg0, s32 arg1) {
*arg0 += arg1;
@ -36,13 +59,16 @@ void func_8000707C(s32* arg0, s32 arg1) {
}
void func_80007088(UnkStruct_func_80007088* arg0) {
void (*temp_v0)(s32, s32);
temp_v0 = arg0->unk28;
if (temp_v0 != NULL) {
temp_v0(arg0->unk2C, arg0->unk30);
if (arg0->unk28 != NULL) {
arg0->unk28(arg0->unk2C, arg0->unk30);
}
arg0->unk0 = 0;
}
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7B20/func_800070C8.s")
void func_800070C8(u64 arg0) {
OSTimer sp30;
void* sp2C;
osSetTimer(&sp30, arg0, 0, &D_800E2390, NULL);
osRecvMesg(&D_800E2390, &sp2C, 1);
}

72
src/main/7D30.c
View File

@ -4,30 +4,64 @@
s32 func_80007130(s32 arg0, u8* arg1) {
if (osEepromRead(&D_800E2128, arg0, arg1)) {
return -1;
} else {
return 0;
}
}
s32 func_8000716C(s32 arg0, u8* arg1) {
s64 temp_ret;
s64 temp_ret_2;
s64 temp_ret_3;
if (osEepromWrite(&D_800E2128, arg0, arg1)) {
(void) " インターフェース回路反応なし ()\n";
return -1;
}
temp_ret = __ull_div(osClockRate, 15625);
temp_ret_2 = __ll_mul(15000, temp_ret);
temp_ret_3 = __ull_div(temp_ret_2, 64);
func_800070C8(temp_ret_3);
(void) "EEPROM READ %02X: %02X %02X %02X %02X %02X %02X %02X %02X\n";
return 0;
}
s32 func_8000716C(s32 arg0, u8* arg1) {
if (osEepromWrite(&D_800E2128, arg0, arg1)) {
(void) " インターフェース回路反応なし ()\n";
return -1;
}
func_800070C8(MSEC_TO_CYCLES(15));
(void) "EEPROM WRITE %02X: %02X %02X %02X %02X %02X %02X %02X %02X\n";
return 0;
}
#ifdef NON_MATCHING
s32 func_800071FC(UnkStruct_7D30* arg0) {
s32 var_a2;
s32 i;
s32 j;
if (osEepromProbe(&D_800E2128) != 1) {
return -1;
}
for (i = 0; i < 0x40; i++) {
var_a2 = 0;
for (j = 0; j < 8; j++) {
if (arg0->data[i][j] != D_80145160.data[i][j]) {
arg0->data[i][j] = D_80145160.data[i][j];
var_a2 = 1;
}
}
if ((var_a2 == 1) && func_8000716C(i, arg0->data[i])) {
return -1;
}
}
return 0;
}
#else
s32 func_800071FC(UnkStruct_7D30* arg0);
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7D30/func_800071FC.s")
#endif
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7D30/func_800072E0.s")
s32 func_800072E0(UnkStruct_7D30* arg0) {
s32 i;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7D30/D_800C8120.s")
if (osEepromProbe(&D_800E2128) != 1) {
(void) " が ありません\n"; // actually goes in above function
(void) " が ありません\n";
return -1;
}
for (i = 0; i < 0x40; i++) {
if (func_80007130(i, arg0->data[i]) != 0) {
return -1;
}
}
D_80145160 = *arg0;
return 0;
}

310
src/main/7FC0.c
View File

@ -1,28 +1,85 @@
#include "global.h"
typedef struct {
OSThread thread;
char unk_1B0[0x800];
OSMesgQueue msgQueue;
OSMesg msg;
s32 unk9CC; // probably FaultDrawer
s16 unk9D0;
s16 unk9D2;
} UnkStruct_D_80145360;
void func_800073C0(s32 arg0, s32 arg1, s32 arg2, s32 arg3) {
u16* var_v0;
s32 i;
s32 j;
extern UnkStruct_D_80145360 D_80145360;
extern s32 D_80145D10;
extern s32 D_80145D28;
var_v0 = gFaultMgr.width * arg1 + gFaultMgr.fb->data + arg0;
for (i = 0; i < arg3; i++) {
for (j = 0; j < arg2; j++, var_v0++) {
*var_v0 = ((*var_v0 & 0xE738) >> 2) | 1;
}
var_v0 += gFaultMgr.width - arg2;
}
}
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7FC0/func_800073C0.s")
void func_800074AC(s32 arg0, s32 arg1, s32 arg2) {
s32* var_v0;
u16* var_v1;
s32 i;
s32 j;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7FC0/func_800074AC.s")
var_v0 = &sFaultCharPixelFlags[(arg2 / 5) * 7];
var_v1 = gFaultMgr.width * arg1 + gFaultMgr.fb->data + arg0;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7FC0/func_80007604.s")
for (i = 0; i < 7; i++) {
u32 temp_t1 = 0x80000000 >> ((arg2 % 5) * 6);
u32 temp_a3 = *var_v0++;
for (j = 0; j < 6; j++) {
if (temp_t1 & temp_a3) {
*var_v1 = -1;
} else {
*var_v1 = 1;
}
var_v1++;
temp_t1 >>= 1;
}
var_v1 += gFaultMgr.width - 6;
}
}
void* func_80007604(void* arg0, const char* arg1, size_t arg2) {
return (char*) memcpy(arg0, arg1, arg2) + arg2;
}
#ifdef NON_MATCHING
void func_8000762C(s32 arg0, s32 arg1, const char* fmt, ...) {
u8* var_s0;
s32 i;
u8 sp40[0x100];
u32 temp_a2;
va_list args;
va_start(args, fmt);
for (i = 0; i < 0x100; i++) {
sp40[i] = 0;
}
if (_Printf(func_80007604, sp40, fmt, args) > 0) {
for (var_s0 = sp40; *var_s0 != 0; arg0 += 6, var_s0++) {
temp_a2 = sFaultCharIndex[*var_s0 & 0x7F];
if (temp_a2 != 0xFF) {
func_800074AC(arg0, arg1, temp_a2);
}
}
}
va_end(args);
}
#else
void func_8000762C(s32 arg0, s32 arg1, const char* fmt, ...);
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7FC0/func_8000762C.s")
#endif
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7FC0/func_8000770C.s")
void func_8000770C(s32 arg0) {
u64 temp_ret_4 = MSEC_TO_CYCLES(arg0);
osSetTime(0);
while (osGetTime() < temp_ret_4) {
;
}
}
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7FC0/D_800C8240.s")
@ -72,32 +129,205 @@ extern s32 D_80145D28;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7FC0/D_800C8430.s")
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7FC0/func_800077F8.s")
void func_800077F8(s32 arg0, s32 arg1, s32 arg2, f32* arg3) {
u32 temp_v0 = *(u32*) arg3;
s32 temp_v1 = ((temp_v0 & 0x7F800000) >> 0x17) - 0x7F;
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7FC0/func_80007880.s")
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7FC0/func_80007910.s")
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7FC0/func_80007CEC.s")
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7FC0/func_80007D58.s")
// Matches with IDO 5.3, maybe this is the right compiler for the game?
#ifdef NON_MATCHING
void func_80007FE4(s32 arg0, u16 arg1, u16 arg2) {
D_80145360.unk9CC = arg0;
D_80145360.unk9D0 = arg1;
D_80145360.unk9D2 = arg2;
if (((-0x7F < temp_v1) && (temp_v1 < 0x80)) || (temp_v0 == 0)) {
func_8000762C(arg0, arg1, "F%02d:%.3e", arg2, *arg3);
} else {
func_8000762C(arg0, arg1, "F%02d:---------", arg2);
}
}
void func_80007880(u32 arg0) {
s32 var_v0;
u32 var_v1 = 0x20000;
func_8000762C(0x1E, 0xA0, "FPCSR:%08XH", arg0);
for (var_v0 = 0; var_v0 < 6; var_v0++, var_v1 >>= 1) {
if (arg0 & var_v1) {
func_8000762C(0x84, 0xA0, "(%s)", D_800C48B8[var_v0]);
return;
}
}
}
void func_80007910(OSThread* thread) {
__OSThreadContext* context = &thread->context;
s16 var_s0 = (thread->context.cause >> 2) & 0x1F;
if (var_s0 == 0x17) {
var_s0 = 0x10;
}
if (var_s0 == 0x1F) {
var_s0 = 0x11;
}
func_8000770C(0xBB8);
func_800073C0(0xF, 0xF, 0x122, 0xD2);
func_8000762C(0x1E, 0x28, "THREAD:%d (%s)", thread->id, D_800C4870[var_s0]);
func_8000762C(0x1E, 0x32, "PC:%08XH SR:%08XH\tVA:%08XH", context->pc, context->sr, context->badvaddr);
osWritebackDCacheAll();
func_8000762C(0x1E, 0x3C, "AT:%08XH V0:%08XH\tV1:%08XH", (s32) context->at, (s32) context->v0, (s32) context->v1);
func_8000762C(0x1E, 0x46, "A0:%08XH A1:%08XH\tA2:%08XH", (s32) context->a0, (s32) context->a1, (s32) context->a2);
func_8000762C(0x1E, 0x50, "A3:%08XH T0:%08XH\tT1:%08XH", (s32) context->a3, (s32) context->t0, (s32) context->t1);
func_8000762C(0x1E, 0x5A, "T2:%08XH T3:%08XH\tT4:%08XH", (s32) context->t2, (s32) context->t3, (s32) context->t4);
func_8000762C(0x1E, 0x64, "T5:%08XH T6:%08XH\tT7:%08XH", (s32) context->t5, (s32) context->t6, (s32) context->t7);
func_8000762C(0x1E, 0x6E, "S0:%08XH S1:%08XH\tS2:%08XH", (s32) context->s0, (s32) context->s1, (s32) context->s2);
func_8000762C(0x1E, 0x78, "S3:%08XH S4:%08XH\tS5:%08XH", (s32) context->s3, (s32) context->s4, (s32) context->s5);
func_8000762C(0x1E, 0x82, "S6:%08XH S7:%08XH\tT8:%08XH", (s32) context->s6, (s32) context->s7, (s32) context->t8);
func_8000762C(0x1E, 0x8C, "T9:%08XH GP:%08XH\tSP:%08XH", (s32) context->t9, (s32) context->gp, (s32) context->sp);
func_8000762C(0x1E, 0x96, "S8:%08XH RA:%08XH", (s32) context->s8, (s32) context->ra);
func_80007880(context->fpcsr);
osWritebackDCacheAll();
func_800077F8(0x1E, 0xAA, 0, &context->fp0.f.f_even);
func_800077F8(0x78, 0xAA, 2, &context->fp2.f.f_even);
func_800077F8(0xD2, 0xAA, 4, &context->fp4.f.f_even);
func_800077F8(0x1E, 0xB4, 6, &context->fp6.f.f_even);
func_800077F8(0x78, 0xB4, 8, &context->fp8.f.f_even);
func_800077F8(0xD2, 0xB4, 0xA, &context->fp10.f.f_even);
func_800077F8(0x1E, 0xBE, 0xC, &context->fp12.f.f_even);
func_800077F8(0x78, 0xBE, 0xE, &context->fp14.f.f_even);
func_800077F8(0xD2, 0xBE, 0x10, &context->fp16.f.f_even);
func_800077F8(0x1E, 0xC8, 0x12, &context->fp18.f.f_even);
func_800077F8(0x78, 0xC8, 0x14, &context->fp20.f.f_even);
func_800077F8(0xD2, 0xC8, 0x16, &context->fp22.f.f_even);
func_800077F8(0x1E, 0xD2, 0x18, &context->fp24.f.f_even);
func_800077F8(0x78, 0xD2, 0x1A, &context->fp26.f.f_even);
func_800077F8(0xD2, 0xD2, 0x1C, &context->fp28.f.f_even);
func_800077F8(0x1E, 0xDC, 0x1E, &context->fp30.f.f_even);
osWritebackDCacheAll();
osViBlack(0);
osViRepeatLine(0);
osViSwapBuffer(gFaultMgr.fb);
}
OSThread* func_80007CEC(void) {
OSThread* var_v1;
var_v1 = __osGetActiveQueue();
while (var_v1->priority != -1) {
if ((var_v1->priority > 0) && (var_v1->priority < 0x7F) && (var_v1->flags & 3)) {
return var_v1;
}
var_v1 = var_v1->tlnext;
}
return NULL;
}
void Fault_ThreadEntry(void* arg0) {
void* sp44;
OSThread* sp40;
s32 var_s2;
s32 var_s5;
u32 var_s0;
sp44 = NULL;
var_s5 = 0;
var_s0 = 0;
var_s2 = 0;
osSetEventMesg(OS_EVENT_CPU_BREAK, &gFaultMgr.msgQueue, (OSMesg) 1);
osSetEventMesg(OS_EVENT_FAULT, &gFaultMgr.msgQueue, (OSMesg) 2);
sp40 = NULL;
while (sp40 == NULL) {
osRecvMesg(&gFaultMgr.msgQueue, &sp44, 1);
sp40 = func_80007CEC();
}
func_8000762C(300, 10, "-");
D_800DD8B0[0] = 1;
while (var_s5 == 0) {
osSendMesg(&D_800E22C0, (OSMesg) 10, 0);
osRecvMesg(&D_800E22F8, NULL, 1);
func_800029A8();
switch (var_s0) {
case 0:
if (D_800DD880[0].button == 0x16) {
var_s0++;
var_s2 = 0xFA0;
}
break;
case 1:
case 2:
case 7:
if (D_800DD880[0].button & 0x10) {
if (D_800DD898[0].button == 0x8000) {
var_s0++;
var_s2 = 0xBB8;
} else if (D_800DD898[0].button != 0) {
var_s0 = 0;
}
}
break;
case 3:
case 4:
case 8:
if (D_800DD880[0].button & 0x10) {
if (D_800DD898[0].button == 0x4000) {
var_s0++;
var_s2 = 0xBB8;
} else if (D_800DD898[0].button != 0) {
var_s0 = 0;
}
}
break;
case 5:
case 6:
case 9:
case 10:
case 11:
case 12:
case 13:
if (D_800DD880[0].button & 0x10) {
if (D_800DD898[0].button == 2) {
var_s0++;
var_s2 = 0xBB8;
} else if (D_800DD898[0].button != 0) {
var_s0 = 0;
}
}
break;
case 14:
if (D_800DD880[0].button & 0x10) {
if (D_800DD898[0].button == 0x1000) {
var_s0++;
var_s2 = 0xBB8;
} else if (D_800DD898[0].button != 0) {
var_s0 = 0;
}
}
break;
case 15:
var_s5 = 1;
break;
}
if (var_s2 != 0) {
var_s2 -= 1;
} else {
var_s0 = 0;
}
}
func_80007910(sp40);
while (1) {
;
}
}
void func_80007FE4(FrameBuffer* arg0, u16 arg1, u16 arg2) {
gFaultMgr.fb = arg0;
gFaultMgr.width = arg1;
gFaultMgr.height = arg2;
}
#else
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/7FC0/func_80007FE4.s")
#endif
void func_80008018(void) {
D_80145360.unk9CC = (PHYS_TO_K0(osMemSize) - sizeof(u16[SCREEN_HEIGHT][SCREEN_WIDTH]));
D_80145360.unk9D0 = SCREEN_WIDTH;
D_80145360.unk9D2 = SCREEN_HEIGHT;
osCreateMesgQueue(&D_80145360.msgQueue, &D_80145360.msg, 1);
osCreateThread(&D_80145360.thread, 2, func_80007D58, 0, &D_80145360.msgQueue, 0x7F);
osStartThread(&D_80145360.thread);
gFaultMgr.fb = (FrameBuffer*) (PHYS_TO_K0(osMemSize) - sizeof(FrameBuffer));
gFaultMgr.width = SCREEN_WIDTH;
gFaultMgr.height = SCREEN_HEIGHT;
osCreateMesgQueue(&gFaultMgr.msgQueue, &gFaultMgr.msg, 1);
osCreateThread(&gFaultMgr.thread, THREAD_ID_FAULT, Fault_ThreadEntry, 0, gFaultMgr.stack + sizeof(gFaultMgr.stack),
0x7F);
osStartThread(&gFaultMgr.thread);
}

2
src/main/sf_B99D0.c
View File

@ -7,7 +7,7 @@ extern Gfx D_800D31B0[];
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_B99D0/func_800B8E14.s")
void func_800B8F18(void) {
gSPDisplayList(D_80137E64++, D_800D31B0);
gSPDisplayList(gMasterDisp++, D_800D31B0);
}
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_B99D0/func_800B8F48.s")

6
src/main/sf_C3430.c
View File

@ -15,9 +15,3 @@
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_C3430/func_800C2D3C.s")
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_C3430/func_800C2F30.s")
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_C3430/func_800C2FB0.s")
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_C3430/func_800C3084.s")
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_C3430/func_800C3194.s")

9
src/main/sf_C3BB0.c Normal file
View File

@ -0,0 +1,9 @@
#include "common.h"
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_C3BB0/func_800C2FB0.s")
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_C3BB0/func_800C3084.s")
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_C3BB0/func_800C3194.s")
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_C3BB0/D_800D9430.s")

248
src/main/sf_hud.c
View File

@ -7,66 +7,66 @@
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_hud/func_80084E78.s")
void func_800853A4(f32 arg0, f32 arg1, f32 arg2, f32 arg3) {
func_8009D0BC(&D_80137E64, &D_1013170, &D_1013570, 24, 17, arg0, arg1, arg2, arg3);
func_8009D0BC(&gMasterDisp, &D_1013170, &D_1013570, 24, 17, arg0, arg1, arg2, arg3);
}
void func_80085404(f32 arg0, f32 arg1, f32 arg2, f32 arg3) {
func_8009C320(&D_80137E64, &D_1011280, &D_10116A0, 48, 44, arg0, arg1, arg2, arg3);
func_8009C320(&gMasterDisp, &D_1011280, &D_10116A0, 48, 44, arg0, arg1, arg2, arg3);
}
void func_80085464(f32 arg0, f32 arg1) {
func_8009C320(&D_80137E64, &D_1011AC0, &D_1011B90, 16, 26, arg0, arg1, 1.0f, 1.0f);
func_8009C320(&gMasterDisp, &D_1011AC0, &D_1011B90, 16, 26, arg0, arg1, 1.0f, 1.0f);
}
void func_800854BC(f32 arg0, f32 arg1) {
func_8009C320(&D_80137E64, &D_1011BB0, &D_1011C80, 16, 26, arg0, arg1, 1.0f, 1.0f);
func_8009C320(&gMasterDisp, &D_1011BB0, &D_1011C80, 16, 26, arg0, arg1, 1.0f, 1.0f);
}
void func_80085514(f32 arg0, f32 arg1) {
func_8009C320(&D_80137E64, &D_1011CA0, &D_1011D70, 16, 26, arg0, arg1, 1.0f, 1.0f);
func_8009C320(&gMasterDisp, &D_1011CA0, &D_1011D70, 16, 26, arg0, arg1, 1.0f, 1.0f);
}
void func_8008556C(f32 arg0, f32 arg1) {
func_8009C320(&D_80137E64, &D_1011D90, &D_1011E60, 16, 26, arg0, arg1, 1.0f, 1.0f);
func_8009C320(&gMasterDisp, &D_1011D90, &D_1011E60, 16, 26, arg0, arg1, 1.0f, 1.0f);
}
void func_800855C4(f32 arg0, f32 arg1, f32 arg2, f32 arg3) {
func_8009E1E8(&D_80137E64, &D_1002280, 8, 12, arg0, arg1, arg2, arg3);
func_8009E1E8(&gMasterDisp, &D_1002280, 8, 12, arg0, arg1, arg2, arg3);
}
void func_80085618(f32 arg0, f32 arg1, f32 arg2, f32 arg3) {
func_8009D994(&D_80137E64, &D_1002280, 8, 12, arg0, arg1, arg2, arg3);
func_8009D994(&gMasterDisp, &D_1002280, 8, 12, arg0, arg1, arg2, arg3);
}
void func_8008566C(f32 x, f32 y, f32 arg2, f32 arg3) {
func_8009D994(&D_80137E64, &D_10030D0, 8, 12, x, y, arg2, arg3);
func_8009D994(&gMasterDisp, &D_10030D0, 8, 12, x, y, arg2, arg3);
}
void func_800856C0(f32 arg0, f32 arg1, f32 arg2, f32 arg3, f32 arg4) {
func_80084E78(&D_80137E64, &D_1013580, &D_1013700, 48, 12, arg0, arg1, arg2, arg3, 48.0f * arg4, 8.0f);
func_80084E78(&gMasterDisp, &D_1013580, &D_1013700, 48, 12, arg0, arg1, arg2, arg3, 48.0f * arg4, 8.0f);
}
void func_80085740(f32 arg0, f32 arg1, f32 arg2, f32 arg3) {
if (D_801778E8 != 0) {
func_8009D994(&D_80137E64, &D_3000B20, 32, 5, arg0, arg1, arg2, arg3);
func_8009D994(&gMasterDisp, &D_3000B20, 32, 5, arg0, arg1, arg2, arg3);
} else {
func_8009D994(&D_80137E64, &D_1000E80, 48, 9, arg0, arg1, arg2, arg3);
func_8009D994(&gMasterDisp, &D_1000E80, 48, 9, arg0, arg1, arg2, arg3);
}
}
void func_800857DC(f32 arg0, f32 arg1, f32 arg2, f32 arg3) {
if (D_801778E8 != 0) {
func_8009D0BC(&D_80137E64, D_300D3C0, D_300D408, 24, 3, arg0, arg1, arg2, arg3);
func_8009D0BC(&gMasterDisp, D_300D3C0, D_300D408, 24, 3, arg0, arg1, arg2, arg3);
} else {
func_8009D0BC(&D_80137E64, D_10128C0, D_1012988, 40, 5, arg0, arg1, arg2, arg3);
func_8009D0BC(&gMasterDisp, D_10128C0, D_1012988, 40, 5, arg0, arg1, arg2, arg3);
}
}
void func_80085890(f32 arg0, f32 arg1, f32 arg2, f32 arg3) {
if (D_801778E8 != 0) {
func_8009D0BC(&D_80137E64, &D_300D350, &D_300D398, 24, 3, arg0, arg1, arg2, arg3);
func_8009D0BC(&gMasterDisp, &D_300D350, &D_300D398, 24, 3, arg0, arg1, arg2, arg3);
} else {
func_8009D0BC(&D_80137E64, &D_10127D0, &D_1012898, 40, 5, arg0, arg1, arg2, arg3);
func_8009D0BC(&gMasterDisp, &D_10127D0, &D_1012898, 40, 5, arg0, arg1, arg2, arg3);
}
}
@ -76,16 +76,16 @@ void func_80086110(f32 arg0, f32 arg1, s32 arg2) {
f32 temp = 0.82f;
s32 pad;
func_800B8DD0(&D_80137E64, 0x4B);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
func_800B8DD0(&gMasterDisp, 0x4B);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
if (arg2 != 0) {
func_800856C0((8.0f * temp) + arg0, arg1 + 2.0f, temp, 1.0f, arg2 / 255.0f);
}
if ((arg2 <= 0) && (arg2 != -2) && ((D_80177854 == 100) || (D_80177830 == 1) || (D_80177838 != 0))) {
func_800B8DD0(&D_80137E64, 0x4C);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 0, 255);
func_800B8DD0(&gMasterDisp, 0x4C);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 0, 255);
if ((arg2 == 0) && (D_80178280->unk_1C8 == 7)) {
func_800A1200(arg0 + (8.0f * temp) + 4.0f, arg1 + 2.0f, 1.0f, 1.0f, " OK ");
} else {
@ -93,8 +93,8 @@ void func_80086110(f32 arg0, f32 arg1, s32 arg2) {
}
}
func_800B8DD0(&D_80137E64, 0x4C);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
func_800B8DD0(&gMasterDisp, 0x4C);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_80085618(arg0, arg1, temp, 1.0f);
func_800855C4(arg0 + (7.0f * temp) + (temp * 6.0f) * 8.0f, arg1, 1.0f, 1.0f);
func_8008566C(arg0 + (7.0f * temp), arg1, temp * 6.0f, 1.0f);
@ -167,10 +167,10 @@ s32 func_800863C8(void) {
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_hud/func_800869A0.s")
void func_80086C08(f32 arg0, f32 arg1, f32 arg2, f32 arg3) {
func_800B8DD0(&D_80137E64, 0x4E);
gDPSetPrimColor(D_80137E64++, 0, 0, 60, 60, 128, 96);
gDPSetAlphaDither(D_80137E64++, G_AD_DISABLE);
func_8009D0BC(&D_80137E64, D_1013170, D_1013570, 24, 17, arg0, arg1, arg2, arg3);
func_800B8DD0(&gMasterDisp, 0x4E);
gDPSetPrimColor(gMasterDisp++, 0, 0, 60, 60, 128, 96);
gDPSetAlphaDither(gMasterDisp++, G_AD_DISABLE);
func_8009D0BC(&gMasterDisp, D_1013170, D_1013570, 24, 17, arg0, arg1, arg2, arg3);
}
void func_80086CC8(void) {
@ -286,17 +286,17 @@ void func_80088784(s32 arg0) {
if (arg0 != 0) {
arg0--;
func_800B8DD0(&D_80137E64, 0x24);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, D_800D1DC8[arg0]);
func_800B8DD0(&gMasterDisp, 0x24);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, D_800D1DC8[arg0]);
func_80005708(&D_8013B3C0);
func_80005B00(D_8013B3C0, 3.9f, -3.3f, -100.0f, 0);
func_80005C34(D_8013B3C0, 0.37f, 0.37f, 0.37f, 1);
func_80006EB8(&D_80137E64);
func_80006EB8(&gMasterDisp);
if (D_80177C98 == 0) {
gSPDisplayList(D_80137E64++, D_800D1D4C[arg0]);
gSPDisplayList(gMasterDisp++, D_800D1D4C[arg0]);
} else {
gSPDisplayList(D_80137E64++, D_800D1D94[arg0]);
gSPDisplayList(gMasterDisp++, D_800D1D94[arg0]);
}
func_80005740(&D_8013B3C0);
@ -309,43 +309,43 @@ void func_80088784(s32 arg0) {
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_hud/func_80088970.s")
void func_80089670(void) {
func_800B8DD0(&D_80137E64, 0x3E);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
func_800B8DD0(&gMasterDisp, 0x3E);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_80005C34(D_8013B3C0, 18.64f, 21.04f, 1.0f, 1);
func_80006EB8(&D_80137E64);
gSPDisplayList(D_80137E64++, D_1024AC0);
func_80006EB8(&gMasterDisp);
gSPDisplayList(gMasterDisp++, D_1024AC0);
}
void func_80089710(void) {
func_800B8DD0(&D_80137E64, 0x3E);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
func_800B8DD0(&gMasterDisp, 0x3E);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_80005C34(D_8013B3C0, 11.0f, 11.0f, 1.0f, 1);
func_80006EB8(&D_80137E64);
gSPDisplayList(D_80137E64++, D_1024AC0);
func_80006EB8(&gMasterDisp);
gSPDisplayList(gMasterDisp++, D_1024AC0);
}
void func_800897B0(void) {
func_800B8DD0(&D_80137E64, 0x3E);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
func_800B8DD0(&gMasterDisp, 0x3E);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_80005C34(D_8013B3C0, 130.0f, 130.0f, 1.0f, 1);
func_80006EB8(&D_80137E64);
gSPDisplayList(D_80137E64++, D_1024830);
func_80006EB8(&gMasterDisp);
gSPDisplayList(gMasterDisp++, D_1024830);
}
void func_80089850(void) {
func_800B8DD0(&D_80137E64, 0x3E);
gDPSetPrimColor(D_80137E64++, 0, 0, 0, 0, 0, 255);
func_800B8DD0(&gMasterDisp, 0x3E);
gDPSetPrimColor(gMasterDisp++, 0, 0, 0, 0, 0, 255);
func_80005C34(D_8013B3C0, 125.0f, 125.0f, 1.0f, 1);
func_80006EB8(&D_80137E64);
gSPDisplayList(D_80137E64++, D_102A8A0);
func_80006EB8(&gMasterDisp);
gSPDisplayList(gMasterDisp++, D_102A8A0);
}
void func_800898F0(void) {
func_800B8DD0(&D_80137E64, 1);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 208, 80, 255);
func_800B8DD0(&gMasterDisp, 1);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 208, 80, 255);
func_80005C34(D_8013B3C0, 30.0f, 30.0f, 1.0f, 1);
func_80006EB8(&D_80137E64);
gSPDisplayList(D_80137E64++, D_6004570);
func_80006EB8(&gMasterDisp);
gSPDisplayList(gMasterDisp++, D_6004570);
}
#ifdef IMPORT_DATA_PENDING
@ -365,37 +365,37 @@ void func_80089994(s32 arg0) {
var_fv2 = 54.0f;
}
func_800B8DD0(&D_80137E64, 0x3E);
gDPSetPrimColor(D_80137E64++, 0, 0, D_800D1E14[arg0][0], D_800D1E14[arg0][1], D_800D1E14[arg0][2],
func_800B8DD0(&gMasterDisp, 0x3E);
gDPSetPrimColor(gMasterDisp++, 0, 0, D_800D1E14[arg0][0], D_800D1E14[arg0][1], D_800D1E14[arg0][2],
D_800D1E14[arg0][3]);
func_80005C34(D_8013B3C0, var_fv1, var_fv2, 1.0f, 1);
func_80006EB8(&D_80137E64);
gSPDisplayList(D_80137E64++, D_1015510);
func_80006EB8(&gMasterDisp);
gSPDisplayList(gMasterDisp++, D_1015510);
}
#else
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_hud/func_80089994.s")
#endif
void func_80089AF4(void) {
func_800B8DD0(&D_80137E64, 0x3E);
gDPSetPrimColor(D_80137E64++, 0, 0, 0, 0, 0, 255);
func_800B8DD0(&gMasterDisp, 0x3E);
gDPSetPrimColor(gMasterDisp++, 0, 0, 0, 0, 0, 255);
func_80005C34(D_8013B3C0, 54.0f, 54.0f, 1.0f, 1);
func_80006EB8(&D_80137E64);
gSPDisplayList(D_80137E64++, D_F014180);
func_80006EB8(&gMasterDisp);
gSPDisplayList(gMasterDisp++, D_F014180);
}
void func_80089B94(void) {
func_800B8DD0(&D_80137E64, 0x3E);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 92, 92, 255);
func_800B8DD0(&gMasterDisp, 0x3E);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 92, 92, 255);
func_80005C34(D_8013B3C0, 54.0f, 54.0f, 1.0f, 1);
func_80006EB8(&D_80137E64);
gSPDisplayList(D_80137E64++, D_D0098B0);
func_80006EB8(&gMasterDisp);
gSPDisplayList(gMasterDisp++, D_D0098B0);
}
void func_80089C38(void) {
s32 alpha;
func_800B8DD0(&D_80137E64, 0xC);
func_800B8DD0(&gMasterDisp, 0xC);
alpha = D_80177DB0 % 21;
@ -404,16 +404,16 @@ void func_80089C38(void) {
}
alpha *= 255.0f / 10.0f;
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, alpha);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, alpha);
func_80005C34(D_8013B3C0, 15.0f, 15.0f, 1.0f, 1);
func_80006EB8(&D_80137E64);
gSPDisplayList(D_80137E64++, D_1024230);
func_80006EB8(&gMasterDisp);
gSPDisplayList(gMasterDisp++, D_1024230);
}
void func_80089D28(void) {
s32 gb;
func_800B8DD0(&D_80137E64, 1);
func_800B8DD0(&gMasterDisp, 1);
gb = D_80177DB0 % 21;
@ -430,11 +430,11 @@ void func_80089D28(void) {
// clang-format on
}
gDPSetPrimColor(D_80137E64++, 0, 0, 255, gb, gb, 255);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, gb, gb, 255);
func_80005B00(D_8013B3C0, 0.0f, -185.92001f, 0, 1);
func_80005C34(D_8013B3C0, 3.55f, 0.13f, 1.0f, 1);
func_80006EB8(&D_80137E64);
gSPDisplayList(D_80137E64++, D_1024230);
func_80006EB8(&gMasterDisp);
gSPDisplayList(gMasterDisp++, D_1024230);
}
void func_80089E98(s32 arg0) {
@ -522,8 +522,8 @@ void func_80089E98(s32 arg0) {
void func_8008AD94(void) {
if (D_80177834 == 7) {
func_800B8DD0(&D_80137E64, 0x4C);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 0, 255);
func_800B8DD0(&gMasterDisp, 0x4C);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 0, 255);
switch ((s32) D_80177D68) {
case 0:
@ -613,8 +613,8 @@ void func_8008B1B0(void) {
f32 temp = 142.0f;
f32 temp2 = 18.0f;
func_800B8DD0(&D_80137E64, 0x4E);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
func_800B8DD0(&gMasterDisp, 0x4E);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
switch (D_80161790 / 2) {
case 3:
@ -703,11 +703,11 @@ void func_8008B2F0(void) {
}
void func_8008B5B0(f32 x, f32 y) {
func_800B8DD0(&D_80137E64, 0x4B);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
func_800B8DD0(&gMasterDisp, 0x4B);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_800856C0(x + 8.0f, y + 2.0f, D_801617A8, 1.0f, D_801617AC);
func_800B8DD0(&D_80137E64, 0x4C);
gDPSetPrimColor(D_80137E64++, 0, 0, D_800D1EB4, D_800D1EB8, D_800D1EBC, 0xFF);
func_800B8DD0(&gMasterDisp, 0x4C);
gDPSetPrimColor(gMasterDisp++, 0, 0, D_800D1EB4, D_800D1EB8, D_800D1EBC, 0xFF);
func_80085618(x, y, 1.0f, 1.0f);
func_800855C4(x + 7.0f + (D_801617A8 * 6.0f * 8.0f), y, 1.0f, 1.0f);
func_8008566C(x + 7.0f, y, D_801617A8 * 6.0f, 1.0f);
@ -769,13 +769,13 @@ void func_8008BAE4(void) {
}
if ((D_80161788 != 0) || (D_8016178C != 0)) {
func_800B8DD0(&D_80137E64, 0xC);
gDPSetPrimColor(D_80137E64++, 0, 0, r, g, b, alpha);
func_800B8DD0(&gMasterDisp, 0xC);
gDPSetPrimColor(gMasterDisp++, 0, 0, r, g, b, alpha);
func_80005708(&D_8013B3C0);
func_80005B00(D_8013B3C0, -53.9f, -38.5f, -139.4f, 1);
func_80005C34(D_8013B3C0, 1.0f, 1.0f, 1.0f, 1);
func_80006EB8(&D_80137E64);
gSPDisplayList(D_80137E64++, D_800D1A40);
func_80006EB8(&gMasterDisp);
gSPDisplayList(gMasterDisp++, D_800D1A40);
func_80005740(&D_8013B3C0);
}
}
@ -818,14 +818,14 @@ void func_8008C390(f32 arg0, f32 arg1, f32 arg2, s32 arg3) {
for (i = 10; i != 1; i /= 10) {
if ((arg0 > 0.0f) && (arg1 > 0.0f)) {
func_8009D994(&D_80137E64, D_800D1EC0[arg3 / i], 16, 8, arg0, arg1, arg2, arg2);
func_8009D994(&gMasterDisp, D_800D1EC0[arg3 / i], 16, 8, arg0, arg1, arg2, arg2);
}
arg0 += 9.0f * arg2;
arg3 %= i;
}
if ((arg0 > 0.0f) && (arg1 > 0.0f)) {
func_8009D994(&D_80137E64, D_800D1EC0[arg3 / i], 16, 8, arg0, arg1, arg2, arg2);
func_8009D994(&gMasterDisp, D_800D1EC0[arg3 / i], 16, 8, arg0, arg1, arg2, arg2);
}
}
#else
@ -843,9 +843,9 @@ void func_8008C5C8(f32 arg0, f32 arg1, f32 arg2, s32 arg3) {
s32 i;
for (i = 0; i < 2; i++) {
func_8009D418(&D_80137E64, D_800D1EE8[arg3] + (880 * i), 44, 20, arg0, (20 * i * arg2) + arg1, arg2, arg2);
func_8009D418(&gMasterDisp, D_800D1EE8[arg3] + (880 * i), 44, 20, arg0, (20 * i * arg2) + arg1, arg2, arg2);
}
func_8009D418(&D_80137E64, D_800D1EE8[arg3] + 1760, 44, 4, arg0, (40.0f * arg2) + arg1, arg2, arg2);
func_8009D418(&gMasterDisp, D_800D1EE8[arg3] + 1760, 44, 4, arg0, (40.0f * arg2) + arg1, arg2, arg2);
}
#else
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_hud/func_8008C5C8.s")
@ -890,7 +890,7 @@ s32 func_8008CB8C(void) {
}
void func_8008CB98(f32 arg0, f32 arg1, f32 arg2) {
func_8009D994(&D_80137E64, &D_30013E0, 8, 8, arg0, arg1, arg2, arg2);
func_8009D994(&gMasterDisp, &D_30013E0, 8, 8, arg0, arg1, arg2, arg2);
}
#pragma GLOBAL_ASM("asm/us/nonmatchings/main/sf_hud/func_8008CBE4.s")
@ -899,19 +899,19 @@ void func_8008CFB8(f32 arg0, f32 arg1, f32 arg2, f32 arg3) {
s32 i;
for (i = 0; i < 3; i++) {
func_8009D994(&D_80137E64, D_3000BC0 + ((640 * i) / 2), 80, 8, arg0, (8 * i * arg3) + arg1, arg2, arg3);
func_8009D994(&gMasterDisp, D_3000BC0 + ((640 * i) / 2), 80, 8, arg0, (8 * i * arg3) + arg1, arg2, arg3);
}
func_8009D994(&D_80137E64, D_3000BC0 + ((640 * i) / 2), 80, 2, arg0, (8 * i * arg3) + arg1, arg2, arg3);
func_8009D994(&gMasterDisp, D_3000BC0 + ((640 * i) / 2), 80, 2, arg0, (8 * i * arg3) + arg1, arg2, arg3);
}
void func_8008D0DC(f32 arg0, f32 arg1, f32 arg2, f32 arg3, f32 arg4) {
u32 var_t8 = 48.0f * arg4;
func_80084E78(&D_80137E64, D_300D440, D_300D500, 48, 4, arg0, arg1, arg2, arg3, var_t8, 4);
func_80084E78(&gMasterDisp, D_300D440, D_300D500, 48, 4, arg0, arg1, arg2, arg3, var_t8, 4);
}
void func_8008D1F0(f32 arg0, f32 arg1, f32 arg2, f32 arg3) {
func_8009C320(&D_80137E64, &D_10116B0, &D_1011730, 16, 16, arg0, arg1, arg2, arg3);
func_8009C320(&gMasterDisp, &D_10116B0, &D_1011730, 16, 16, arg0, arg1, arg2, arg3);
}
#ifdef IMPORT_DATA_PENDING
@ -919,8 +919,8 @@ void func_8008D250(void) {
f32 D_800D20C8[] = { 113.0f, 273.0f, 113.0f, 273.0f };
f32 D_800D20D8[] = { 79.0f, 79.0f, 199.0f, 199.0f };
func_800B8DD0(&D_80137E64, 0x4C);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
func_800B8DD0(&gMasterDisp, 0x4C);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_8008C5C8(D_800D20C8[D_801778A0], D_800D20D8[D_801778A0], 0.54f, D_801778A0);
}
#else
@ -933,13 +933,13 @@ void func_8008D31C(void) {
f32 D_800D20F8[] = { 78.0f, 78.0f, 198.0f, 198.0f };
func_8009BC2C(&D_800D19E0[D_801778A0], D_80178280[D_801778A0].unk_264 * (1.0f / 255.0f), 0.3f, 10.0f, 0.01f);
func_800B8DD0(&D_80137E64, 0x4E);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
func_800B8DD0(&gMasterDisp, 0x4E);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_8008D0DC(D_800D20E8[D_801778A0] + 3.0f, D_800D20F8[D_801778A0] + 18.0f, 1.0f, 1.0f, D_800D19E0[D_801778A0]);
func_800B8DD0(&D_80137E64, 0x4C);
func_800B8DD0(&gMasterDisp, 0x4C);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_8008CFB8(D_800D20E8[D_801778A0], D_800D20F8[D_801778A0], 1.0f, 1.0f);
}
@ -991,9 +991,9 @@ void func_8008D4F0(f32 arg0, f32 arg1) {
temp_t9 = D_800D19AC[var_v1];
func_800B8DD0(&D_80137E64, 0x4E);
func_800B8DD0(&gMasterDisp, 0x4E);
gDPSetPrimColor(D_80137E64++, 0, 0, temp_t9, temp_t9, temp_t9, 255);
gDPSetPrimColor(gMasterDisp++, 0, 0, temp_t9, temp_t9, temp_t9, 255);
if (temp_fv0 > 0.01f) {
func_80085890(D_800D2108[var_v1] + temp + temp2, D_800D211C[var_v1] + sp60, temp_fv0, 1.0f);
@ -1001,8 +1001,8 @@ void func_8008D4F0(f32 arg0, f32 arg1) {
if (temp_fs0 > 0.01f) {
func_800857DC(D_800D2108[var_v1] + temp + 1.0f, D_800D211C[var_v1] + sp60, temp_fs0, 1.0f);
}
func_800B8DD0(&D_80137E64, 0x4C);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
func_800B8DD0(&gMasterDisp, 0x4C);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_80085740(D_800D2108[var_v1], D_800D211C[var_v1], 1.0f, 1.0f);
}
#else
@ -1017,8 +1017,8 @@ void func_8008D7F4(void) {
s32 D_800D2160[] = { 242, 30, 179, 30 };
s32 D_800D2170[] = { 12, 0, 67, 255 };
func_800B8DD0(&D_80137E64, 0x4E);
gDPSetPrimColor(D_80137E64++, 0, 0, D_800D2150[D_801778A0], D_800D2160[D_801778A0], D_800D2170[D_801778A0], 255);
func_800B8DD0(&gMasterDisp, 0x4E);
gDPSetPrimColor(gMasterDisp++, 0, 0, D_800D2150[D_801778A0], D_800D2160[D_801778A0], D_800D2170[D_801778A0], 255);
func_8009FC0C(D_800D2130[D_801778A0], D_800D2140[D_801778A0], D_801778A0 + 1);
}
#else
@ -1056,7 +1056,7 @@ void func_8008D984(void) {
} else {
D_800D21A4 = 255.0f;
}
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, D_800D21A4);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, D_800D21A4);
func_8008D1F0(D_800D21A8[D_801778A0], D_800D21B8[D_801778A0], 1.0f, 1.0f);
}
}
@ -1080,13 +1080,13 @@ void func_8008DC34(void) {
void func_8008DCB0(f32 arg0, f32 arg1, s32 arg2, s32 arg3, s32 arg4) {
func_800BA4F0();
gDPSetPrimColor(D_80137E64++, 0, 0, arg2, arg3, arg4, D_80161708);
func_8009C320(&D_80137E64, D_1011ED0, D_1011F08, 16, 7, arg0, arg1, 1.0f, 1.0f);
gDPSetPrimColor(gMasterDisp++, 0, 0, arg2, arg3, arg4, D_80161708);
func_8009C320(&gMasterDisp, D_1011ED0, D_1011F08, 16, 7, arg0, arg1, 1.0f, 1.0f);
}
void func_8008DD78(f32 arg0, f32 arg1, s32 arg2, s32 arg3, s32 arg4, s32 arg5) {
func_800BA4F0();
gDPSetPrimColor(D_80137E64++, 0, 0, arg3, arg4, arg5, D_80161708);
gDPSetPrimColor(gMasterDisp++, 0, 0, arg3, arg4, arg5, D_80161708);
if (arg2 >= 10) {
func_8009FC0C((s32) arg0 - (func_8008BCBC(arg2) * 8) + 11, arg1, arg2);
@ -1121,25 +1121,25 @@ void func_8008DE68(void) {
temp4 = sp3C + 6.0f;
temp5 = temp1 + 10.0f;
func_800B8DD0(&D_80137E64, 0x4E);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
func_8009C320(&D_80137E64, D_1011A40, D_1011AB0, 32, 7, temp2, temp3, 1.0f, 1.0f);
func_800B8DD0(&gMasterDisp, 0x4E);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_8009C320(&gMasterDisp, D_1011A40, D_1011AB0, 32, 7, temp2, temp3, 1.0f, 1.0f);
func_800B8DD0(&D_80137E64, 0x4C);
func_8009D994(&D_80137E64, D_1002040, 40, 12, sp3C, temp1, 1.0f, 1.0f);
func_800B8DD0(&gMasterDisp, 0x4C);
func_8009D994(&gMasterDisp, D_1002040, 40, 12, sp3C, temp1, 1.0f, 1.0f);
if (sp3C >= 25.0f) {
func_8009BC2C(&D_801616C4, 0.88f, 0.3f, 0.2f, 0.1f);
}
if ((D_801616C4 >= 0.1f) && (sp3C >= 25.0f)) {
func_800B8DD0(&D_80137E64, 0x4E);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
func_8009D0BC(&D_80137E64, D_10129C0, D_1013090, 16, 109, temp4, temp5, 1.0f, D_801616C4);
func_800B8DD0(&gMasterDisp, 0x4E);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_8009D0BC(&gMasterDisp, D_10129C0, D_1013090, 16, 109, temp4, temp5, 1.0f, D_801616C4);
}
func_800B8DD0(&D_80137E64, 0x4C);
gDPSetPrimColor(D_80137E64++, 0, 0, 0, 0, 0, 255);
func_800B8DD0(&gMasterDisp, 0x4C);
gDPSetPrimColor(gMasterDisp++, 0, 0, 0, 0, 0, 255);
if (D_801616BC > 0.0f) {
var_fv0 = (D_801616BC - D_80177848) * (2.76f / D_801616BC);
@ -1158,7 +1158,7 @@ void func_8008DE68(void) {
temp6 = sp3C + 8.0f;
temp7 = 101.0f - (31.884058f * D_801616C8) + temp1;
if (D_801616C8 > 0.0f) {
func_8009D418(&D_80137E64, D_800D99F8, 32, 32, temp6, temp7, 0.2f, D_801616C8);
func_8009D418(&gMasterDisp, D_Tex_800D99F8, 32, 32, temp6, temp7, 0.2f, D_801616C8);
}
}
} else {
@ -1188,11 +1188,11 @@ void func_8008E2C8(f32 arg0, f32 arg1, s32* arg2, f32 arg3) {
if (i & 1) {
func_800BA4F0();
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
func_8009C320(&D_80137E64, &D_1011E80, &D_1011EC0, 0x10, 8, (var_fs0 * arg3) + arg0, arg1, arg3, arg3);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_8009C320(&gMasterDisp, &D_1011E80, &D_1011EC0, 0x10, 8, (var_fs0 * arg3) + arg0, arg1, arg3, arg3);
} else {
func_800BA490();
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 0, 255);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 0, 255);
func_8008C390((var_fs0 * arg3) + arg0, arg1, arg3, var_s2);
var_fs0 += 9.0f;
}
@ -1333,8 +1333,8 @@ void func_8008E620(f32 arg0, f32 arg1) {
b = 200;
}
}
func_800B8DD0(&D_80137E64, 0x4C);
gDPSetPrimColor(D_80137E64++, 0, 0, r, g, b, 255);
func_800B8DD0(&gMasterDisp, 0x4C);
gDPSetPrimColor(gMasterDisp++, 0, 0, r, g, b, 255);
func_80094D20(arg0, arg1);
}

26
src/overlays/segment_EBFBE0/EBFCA0.c
View File

@ -237,22 +237,22 @@ void func_80187CA8_EC0368(void) {
s32 temp = 20;
s32 temp2 = 36;
func_800B8DD0(&D_80137E64, 0x53);
func_800B8DD0(&gMasterDisp, 0x53);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 0, 255);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 0, 255);
func_800A1200(temp2, temp, 1.0f, 1.0f, D_801ADA44_EE6104);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_8009D994(&D_80137E64, D_5000300, 16, 8, 148.0f, temp, 1.0f, 1.0f);
func_8009D994(&D_80137E64, D_5000200, 16, 8, 164, temp, 1.0f, 1.0f);
func_8009D994(&gMasterDisp, D_5000300, 16, 8, 148.0f, temp, 1.0f, 1.0f);
func_8009D994(&gMasterDisp, D_5000200, 16, 8, 164, temp, 1.0f, 1.0f);
func_800B8DD0(&D_80137E64, 0x53);
func_800B8DD0(&gMasterDisp, 0x53);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_8009D994(&D_80137E64, &D_50077B0, 16, 2, 36, 32, 15.2f, 1.0f);
func_8009D994(&gMasterDisp, &D_50077B0, 16, 2, 36, 32, 15.2f, 1.0f);
func_80187E28_EC04E8();
}
@ -260,9 +260,9 @@ void func_80187E28_EC04E8(void) {
s32 temp;
s32 i;
func_800B8DD0(&D_80137E64, 0x53);
func_800B8DD0(&gMasterDisp, 0x53);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 0, 255);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 0, 255);
func_800A1200(94, 38, 1.0f, 1.0f, "RANK");
func_800A1200(146, 38, 1.0f, 1.0f, "NAME");
@ -270,15 +270,15 @@ void func_80187E28_EC04E8(void) {
temp = 55;
for (i = 0; i < D_801B8288; i++) {
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_8009FEA0(105 - ((func_8008BCBC(i + 1) - 1) * 8), temp, i + 1);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 0, 255);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 0, 255);
func_800A1200(150, temp, 1.0f, 1.0f, &D_801B8248[i][0]);
gDPSetPrimColor(D_80137E64++, 0, 0, 255, 255, 255, 255);
gDPSetPrimColor(gMasterDisp++, 0, 0, 255, 255, 255, 255);
func_8009FEA0(211 - ((func_8008BCBC(D_801B8220[i]) - 1) * 8), temp, D_801B8220[i]);
temp += 17;

1
yamls/us/header.yaml
View File

@ -19,6 +19,7 @@ options:
symbol_addrs_path:
- linker_scripts/us/symbol_addrs.txt
- linker_scripts/us/symbol_addrs_libultra.txt
- linker_scripts/us/symbol_addrs_assets.txt
- linker_scripts/us/ignored_addresses.txt
reloc_addrs_path:
- relocs/reloc_addrs.us.txt

45
yamls/us/main.yaml
View File

@ -20,6 +20,7 @@
- [0x07B20, c, 7B20]
- [0x07D30, c, 7D30]
- [0x07FC0, c, 7FC0]
# Audio block
- [0x08CC0, c, 8CC0]
- [0x0C870, c, C870]
- [0x0F0A0, c, F0A0]
@ -27,8 +28,9 @@
- [0x14AA0, c, 14AA0]
- [0x17650, c, 17650] # Sound related
- [0x1EB50, c, 1EB50] # Audio Thread
- [0x1FA60, c, 1FA60]
- [0x1FA70, hasm, decompress] # May be blanked out osDriveRomInit
- [0x1FA60, c, 1FA60] # May be blanked out osDriveRomInit
- [0x1FA70, hasm, mio0]
- [0x1FB10, hasm, rdramcheck]
- [0x205E0, c, sprintf]
- [0x206B0, c, math64]
@ -179,10 +181,11 @@
- [0xA4290, c, sf_A4290]
- [0xA48A0, c, sf_A48A0]
- [0xA4B50, c, sf_A4B50]
- [0xB99D0, c, sf_B99D0] # no rodata
- [0xB99D0, c, sf_B99D0]
- [0xBB360, c, sf_BB360]
- [0xBD360, c, sf_versus]
- [0xC3430, c, sf_C3430]
- [0xC3BB0, c, sf_C3BB0]
# DATA - Microcode
- [0xC3EE0, data, aspmain]
@ -190,7 +193,12 @@
- [0xC49D0, data, f3dex]
# DATA - Nintendo Libraries
- [0xC51D0, data, nlib]
- [0xC51D0, .data, 4650]
- [0xC51E0, .data, 5A20]
- [0xC5220, .data, 6280]
- [0xC52F0, data, 7B20]
- [0xC54D0, data, audio]
- [0xC8880, data, sprintf]
# DATA - Libultra
- [0xC88C0, data, ../libultra/io/controller]
@ -212,7 +220,6 @@
- [0xC8BD0, data, ../libultra/rmon/rmoncmds]
- [0xC8CB0, data, ../libultra/rmon/rmonmain]
# RODATA - Nintendo Libraries
- [0xC8CC0, .rodata, 5A20]
- [0xC8D10, .rodata, 6280]
@ -243,6 +250,30 @@
# DATA - game engine
- [0xCA690, data, engine]
# - [0xCA690, data, sf_2F300]
# - [0xCA7C0, data, sf_36930]
# - [0xCAA90, data, ???]
# - [0xCAB00, data, sf_43E80]
# - [0xCAB60, data, sf_496C0]
# - [0xCAE20, data, sf_52730]
# - [0xCAFB0, data, sf_59780]
# - [0xCCA70, data, ???]
# - [0xD05B0, data, sf_5A2C0]
# - [0xD09A0, data, sf_61B30]
# - [0xD0B80, data, sf_6B3B0]
# - [0xD20E0, data, sf_77E40]
# - [0xD2570, data, sf_hud]
# # - [0xD31D0, data, sf_97F80] splits from here on are unclear
# - [0xD31D0, data, sf_9A580]
# - [0xD3460, data, sf_A24B0]
# - [0xD3520, data, sf_A4290]
# # - [0x, data, sf_A48A0]
# - [0xD3B50, data, sf_A4B50]
# - [0xD3D80, data, ???]
# - [0xD3DB0, data, sf_B99D0]
# - [0xD5670, data, sf_BB360]
# - [0xD5690, data, sf_versus]
# - [0xD5910, data, ???]
# RODATA - game engine
- [0xD5920, .rodata, sf_2F300]
@ -267,9 +298,11 @@
- [0xD97F0, .rodata, sf_BB360]
- [0xD9E50, .rodata, sf_versus]
- [0xD9F60, .rodata, sf_C3430]
- [0xDA030, .rodata, sf_C3BB0]
# Common assets
- [0xDA030, bin, assets]
- [0xDA0A0, data, displists]
- [0xDC710, data, audiodata]
# Nintendo Library bss
- { start: 0xDE480, type: bss, vram: 0x800DD880, name: nlib }