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complete m424/ball

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This commit is contained in:
CreateSource 2025-01-02 17:29:24 -05:00
parent 337cdeab99
commit acbc3196c5
5 changed files with 718 additions and 28 deletions
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3
config/GMPE01_00/rels/m424Dll/symbols.txt
View file

@ -308,7 +308,8 @@ lbl_1_bss_48 = .bss:0x00000048; // type:object size:0x4 data:4byte
lbl_1_bss_4C = .bss:0x0000004C; // type:object size:0x4 data:4byte
lbl_1_bss_50 = .bss:0x00000050; // type:object size:0x4 data:4byte
lbl_1_bss_54 = .bss:0x00000054; // type:object size:0x4 data:4byte
lbl_1_bss_58 = .bss:0x00000058; // type:object size:0x8 data:byte
lbl_1_bss_58 = .bss:0x00000058; // type:object size:0x1 data:byte
lbl_1_bss_5C = .bss:0x0000005C; // type:object size:0x4 data:4byte
lbl_1_bss_60 = .bss:0x00000060; // type:object size:0x534 data:4byte
lbl_1_bss_594 = .bss:0x00000594; // type:object size:0x18
lbl_1_bss_5AC = .bss:0x000005AC; // type:object size:0x10 data:4byte

2
configure.py
View file

@ -1045,7 +1045,7 @@ config.libs = [
objects={
Object(MatchingFor("GMPE01_00", "GMPE01_01"), "REL/m424Dll/main.c"),
Object(MatchingFor("GMPE01_00", "GMPE01_01"), "REL/m424Dll/map.c"),
Object(NonMatching, "REL/m424Dll/ball.c"),
Object(MatchingFor("GMPE01_00", "GMPE01_01"), "REL/m424Dll/ball.c"),
Object(NonMatching, "REL/m424Dll/claw.c"),
},
),

1
include/REL/m424Dll.h
View file

@ -20,3 +20,4 @@ s32 fn_1_B804(void);
s32 fn_1_B888(void);
s32 fn_1_B8AC(void);
s32 fn_1_B924(void);
void fn_1_C2E0(s32);

719
src/REL/m424Dll/ball.c
View file

@ -79,11 +79,24 @@ typedef struct _M424DllBallStruct3 {
M424DllBallStruct2* unk8;
} M424DllBallStruct3;
typedef struct _M424BallStruct4 {
f32 unk0;
f32 unk4;
f32 unk8;
char unkC[0x8];
f32 unk14;
f32 unk18;
char unk1C[0x8];
f32 unk24;
f32 unk28;
} M424BallStruct4;
// BSS
void* lbl_1_bss_5BC[0x20];
omObjData* lbl_1_bss_5AC[4];
omObjData* lbl_1_bss_594[6];
M424DllBallStruct2 lbl_1_bss_60[9];
s32 lbl_1_data_5C;
s32 lbl_1_bss_5C;
u8 lbl_1_bss_58;
// PROTO
@ -100,7 +113,7 @@ void fn_1_6038(void);
void* fn_1_6078(s32);
void fn_1_61AC(void);
s32 fn_1_627C(void);
void fn_1_6230(s16, f32*);
void fn_1_6230(s16, Mtx);
void fn_1_62D0(s32, u32*);
f32 fn_1_640C(f32, f32, f32);
f32 fn_1_6D10(Vec, Vec, f32, Vec, Vec, f32);
@ -109,8 +122,10 @@ f32 fn_1_7420(Vec, Vec, f32, f32);
void fn_1_77C4(Vec, Vec, Vec, f32, Vec*, Vec*);
void fn_1_79FC(Vec*, Vec*, f32, Vec*, Vec*, f32, f32);
void fn_1_7CA0(Vec, Vec, f32, Vec*);
void fn_1_8924(u8, s32);
void fn_1_8924(u8, u8);
void fn_1_8AA8(s32, s32);
s32 fn_1_8C78(s32, s32);
s32 fn_1_907C(Vec*, Vec*);
void fn_1_2720(Process* arg0) {
@ -156,6 +171,12 @@ u32 lbl_1_data_150[11] = {
9, 20, 22, 23, 24,
0x370021
};
Vec lbl_1_data_17C[4] = {
{ -100.0f, 200.0f, -100.0f },
{ 300.0f, 200.0f, -100.0f },
{ -300.0f, 200.0f, 300.0f },
{ 300.0f, 200.0f, 0.0f }
};
void fn_1_28A0(omObjData* object) {
Vec sp8;
@ -776,8 +797,8 @@ void fn_1_4A90(s16 arg0) {
PSMTXCopy(sp20, sp50);
}
PSMTXConcat(sp50, var_r31->unkC, var_r31->unkC);
fn_1_6230(var_r31->unk8, var_r31->unkC[0]);
fn_1_6230(var_r31->unkA, var_r31->unkC[0]);
fn_1_6230(var_r31->unk8, var_r31->unkC);
fn_1_6230(var_r31->unkA, var_r31->unkC);
}
if (var_r31->unk3C.y < 250.0f) {
var_r31->unk3C.y = 250.0f;
@ -1023,3 +1044,691 @@ void fn_1_5018(void) {
var_r31->unk3C.z = var_r31->unk60.z + (var_r31->unk6C.z * var_f29);
}
}
void fn_1_6038(void) {
s32 var_r31;
for (var_r31 = 0; var_r31 < 0x20; var_r31++) {
lbl_1_bss_5BC[var_r31] = 0;
}
}
void* fn_1_6078(s32 arg0) {
s32 var_r31;
for (var_r31 = 0; var_r31 < 0x20; var_r31++) {
if (lbl_1_bss_5BC[var_r31] == 0) break;
}
if (var_r31 == 0x20) {
return NULL;
}
lbl_1_bss_5BC[var_r31] = HuMemDirectMallocNum(HEAP_SYSTEM, arg0, 0x10000000);
return lbl_1_bss_5BC[var_r31];
}
void fn_1_6118(void* arg0) {
s32 var_r31;
for (var_r31 = 0; var_r31 < 0x20; var_r31++) {
if (lbl_1_bss_5BC[var_r31] == arg0) break;
}
if (var_r31 != 0x20) {
HuMemDirectFree(lbl_1_bss_5BC[var_r31]);
lbl_1_bss_5BC[var_r31] = NULL;
}
}
void fn_1_61AC(void) {
s32 var_r31;
for (var_r31 = 0; var_r31 < 0x20; var_r31++) {
if (lbl_1_bss_5BC[var_r31]) {
HuMemDirectFree(lbl_1_bss_5BC[var_r31]);
lbl_1_bss_5BC[var_r31] = NULL;
}
}
}
void fn_1_6230(s16 arg0, Mtx arg1) {
ModelData* var_r31;
var_r31 = &Hu3DData[arg0];
PSMTXCopy(arg1, var_r31->unk_F0);
}
u32 lbl_1_data_1D8 = 0x41C64E6D;
s32 fn_1_627C(void) {
lbl_1_data_1D8 *= 0x41C64E6D;
lbl_1_data_1D8 += 0x3039;
return lbl_1_data_1D8 >> 0x10;
}
void fn_1_62D0(s32 arg0, u32* arg1) {
s32 var_r31;
s32 temp_r30;
u32 temp_r29;
for (var_r31 = 0; var_r31 < arg0; var_r31++) {
arg1[var_r31] = var_r31;
}
for (var_r31 = 0; var_r31 < arg0 - 1; var_r31++) {
temp_r30 = (arg0 * (fn_1_627C() / 65536.0f));
temp_r29 = arg1[var_r31];
arg1[var_r31] = arg1[temp_r30];
arg1[temp_r30] = temp_r29;
}
}
f32 fn_1_640C(f32 arg0, f32 arg1, f32 arg2) {
f32 var_f31;
if (arg0 > 180.0f) {
arg0 -= 360.0f;
} else {
if (arg0 <= -180.0f) {
arg0 += 360.0f;
}
}
if (arg1 > 180.0f) {
arg1 -= 360.0f;
} else {
if (arg1 <= -180.0f) {
arg1 += 360.0f;
}
}
var_f31 = arg0 - arg1;
if (var_f31 > 180.0f) {
var_f31 -= 360.0f;
} else {
if (var_f31 <= -180.0f) {
var_f31 += 360.0f;
}
}
arg0 = arg1 + (var_f31 * arg2);
if (arg0 > 180.0f) {
return arg0 - 360.0f;
}
if (arg0 <= -180.0f) {
arg0 += 360.0f;
}
return arg0;
}
void fn_1_6574(Mtx arg0, f32 arg8, f32 arg9, f32 argA) {
Mtx sp38;
Mtx sp8;
if (argA != 0.0f) {
PSMTXRotRad(arg0, 0x5A, MTXDegToRad(argA));
} else {
PSMTXIdentity(arg0);
}
if (arg8 != 0.0f) {
PSMTXRotRad(sp38, 0x58, MTXDegToRad(arg8));
PSMTXConcat(sp38, arg0, arg0);
}
if (arg9 != 0.0f) {
PSMTXRotRad(sp8, 0x59, MTXDegToRad(arg9));
PSMTXConcat(sp8, arg0, arg0);
}
}
void fn_1_6694(M424BallStruct4* arg0, Vec* arg1) {
f32 temp_f29;
f32 var_f28;
arg1->x = atan2d(arg0->unk18, arg0->unk28);
if (arg1->x < 0.0f) {
arg1->x += 360.0f;
}
arg1->z = atan2d(arg0->unk4, arg0->unk0);
if (arg1->z < 0.0f) {
arg1->z += 360.0f;
}
temp_f29 = -arg0->unk8;
var_f28 = sqrtf(ABS(1.0 - (temp_f29 * temp_f29)));
if ((arg1->x > 90.0f) && (arg1->x < 270.0f) && (arg1->z > 90.0f) && (arg1->z < 270.0f)) {
arg1->x = fmod((180.0f + arg1->x), 360.0);
arg1->z = fmod((180.0f + arg1->z), 360.0);
var_f28 = -var_f28;
}
arg1->y = atan2d(temp_f29, var_f28);
if (arg1->y < 0.0f) {
arg1->y += 360.0f;
}
}
void fn_1_6A30(M424BallStruct4* arg0, Vec* arg1) {
f32 temp_f29;
f32 var_f27;
arg1->z = atan2d(arg0->unk4, arg0->unk14);
if (arg1->z < 0.0f) {
arg1->z += 360.0f;
}
arg1->y = atan2d(arg0->unk8, arg0->unk28);
if (arg1->y < 0.0f) {
arg1->y += 360.0f;
}
temp_f29 = -arg0->unk24;
var_f27 = sqrtf(ABS(1.0 - (temp_f29 * temp_f29)));
arg1->x = atan2d(temp_f29, var_f27);
if (arg1->x < 0.0f) {
arg1->x += 360.0f;
}
}
f32 fn_1_6D10(Vec arg0, Vec arg1, f32 arg2, Vec arg3, Vec arg4, f32 arg5) {
f32 temp_f30;
f32 temp_f29;
f32 temp_f28;
f32 temp_f27;
f32 temp_f26;
f32 temp_f25;
f32 var_f23;
PSVECSubtract(&arg3, &arg0, &arg3);
PSVECSubtract(&arg4, &arg1, &arg4);
temp_f29 = arg2 + arg5;
if (PSVECMag(&arg3) > temp_f29 + PSVECMag(&arg4)) {
return -1.0f;
}
temp_f29 *= temp_f29;
temp_f27 = (arg4.z * arg4.z) + ((arg4.x * arg4.x) + (arg4.y * arg4.y));
temp_f26 = 2.0f * ((arg4.z * arg3.z) + ((arg4.x * arg3.x) + (arg4.y * arg3.y)));
var_f23 = ((arg3.z * arg3.z) + ((arg3.x * arg3.x) + (arg3.y * arg3.y))) - temp_f29;
if (temp_f27 == 0.0f) {
return -1.0f;
}
temp_f30 = (temp_f26 * temp_f26) - (4.0f * temp_f27 * var_f23);
if (temp_f30 <= 0.0f) {
return -1.0f;
}
temp_f30 = sqrtf(temp_f30);
temp_f25 = (-temp_f26 + temp_f30) / (2.0f * temp_f27);
temp_f28 = (-temp_f26 - temp_f30) / (2.0f * temp_f27);
if (((temp_f25 * temp_f28) < 0.0f) && (temp_f28 < 0.0f) && (temp_f25 > fabs(temp_f28))) {
return 0.0f;
}
return temp_f28;
}
f32 fn_1_709C(Vec arg0, Vec arg1, f32 arg2, f32 arg3) {
Vec sp20;
Vec sp14;
f32 temp_f30;
f32 temp_f29;
f32 temp_f28;
f32 temp_f27;
f32 temp_f26;
f32 temp_f25;
f32 var_f23;
sp20 = arg0;
sp20.y = 0.0f;
sp14 = arg1;
sp14.y = 0.0f;
temp_f29 = arg3 + arg2;
if (PSVECMag(&sp20) > temp_f29 + PSVECMag(&sp14)) {
return -1.0f;
}
temp_f29 *= temp_f29;
temp_f27 = (arg1.x * arg1.x) + (arg1.z * arg1.z);
temp_f26 = 2.0f * ((arg1.x * arg0.x) + (arg1.z * arg0.z));
var_f23 = (((arg0.x * arg0.x) + (arg0.z * arg0.z)) - temp_f29);
if (0.0f == temp_f27) {
return -1.0f;
}
temp_f30 = (temp_f26 * temp_f26) - (4.0f * temp_f27 * var_f23);
if (temp_f30 <= 0.0f) {
return -1.0f;
}
temp_f30 = sqrtf(temp_f30);
temp_f25 = (-temp_f26 + temp_f30) / (2.0f * temp_f27);
temp_f28 = (-temp_f26 - temp_f30) / (2.0f * temp_f27);
if (((temp_f25 * temp_f28) < 0.0f) && (temp_f28 < 0.0f) && (temp_f25 > fabs(temp_f28))) {
return 0.0f;
}
return temp_f28;
}
f32 fn_1_7420(Vec arg0, Vec arg1, f32 arg2, f32 arg3) {
Vec sp20;
Vec sp14;
f32 temp_f30;
f32 temp_f29;
f32 temp_f28;
f32 temp_f27;
f32 temp_f26;
f32 temp_f25;
f32 var_f23;
sp20 = arg0;
sp20.y = 0.0f;
sp14 = arg1;
sp14.y = 0.0f;
temp_f29 = arg3 - arg2;
if (PSVECMag(&sp20) > temp_f29) {
return 0.0f;
}
if (PSVECMag(&sp20) > temp_f29 + PSVECMag(&sp14)) {
return -1.0f;
}
temp_f29 *= temp_f29;
temp_f27 = (arg1.x * arg1.x) + (arg1.z * arg1.z);
temp_f26 = 2.0f * ((arg1.x * arg0.x) + (arg1.z * arg0.z));
var_f23 = (arg0.x * arg0.x) + (arg0.z * arg0.z) - temp_f29;
if (0.0f == temp_f27) {
return -1.0f;
}
temp_f30 = (temp_f26 * temp_f26) - (4.0f * temp_f27 * var_f23);
if (temp_f30 <= 0.0f) {
return -1.0f;
}
temp_f30 = sqrtf(temp_f30);
temp_f25 = (-temp_f26 - temp_f30) / (2.0f * temp_f27);
temp_f28 = (-temp_f26 + temp_f30) / (2.0f * temp_f27);
if (((temp_f25 * temp_f28) < 0.0f) && (temp_f28 < 0.0f) && (temp_f25 > fabs(temp_f28))) {
return 0.0f;
}
return temp_f28;
}
void fn_1_77C4(Vec arg0, Vec arg1, Vec arg2, f32 arg3, Vec* arg4, Vec* arg5) {
Vec sp38;
Vec sp2C;
Vec sp20;
Vec sp14;
f32 var_f31;
f32 temp_f30;
f32 temp_f29;
f32 var_f28;
sp38 = arg1;
var_f31 = PSVECMag(&sp38);
if (var_f31 < 0.01f) {
arg4->x = arg4->y = arg4->z = 0.0f;
arg5->x = arg5->y = arg5->z = 0.0f;
return;
}
PSVECNormalize(&sp38, &sp38);
var_f31 = var_f31 * arg3;
PSVECSubtract(&arg2, &arg0, &sp2C);
PSVECNormalize(&sp2C, &sp2C);
var_f28 = PSVECDotProduct(&sp38, &sp2C);
if (var_f28 < 0.0f) {
arg4->x = arg1.x;
arg4->y = arg1.y;
arg4->z = arg1.z;
arg5->x = arg5->y = arg5->z = 0.0f;
return;
}
temp_f29 = var_f31 * var_f28;
temp_f30 = var_f31 - temp_f29;
if (temp_f30 < 0.01f) {
arg4->x = arg4->y = arg4->z = 0.0f;
} else {
PSVECCrossProduct(&sp38, &sp2C, &sp14);
PSVECNormalize(&sp14, &sp14);
PSVECCrossProduct(&sp2C, &sp14, &sp20);
PSVECNormalize(&sp20, &sp20);
arg4->x = sp20.x * temp_f30;
arg4->y = sp20.y * temp_f30;
arg4->z = sp20.z * temp_f30;
}
arg5->x = sp2C.x * temp_f29;
arg5->y = sp2C.y * temp_f29;
arg5->z = sp2C.z * temp_f29;
}
void fn_1_79FC(Vec* arg0, Vec* arg1, f32 arg2, Vec* arg3, Vec* arg4, f32 arg5, f32 arg6) {
Vec sp38;
Vec sp2C;
f32 temp_f31;
f32 var_f30;
f32 var_f29;
arg1->x *= arg6;
arg1->y *= arg6;
arg1->z *= arg6;
PSVECSubtract(arg0, arg3, &sp38);
PSVECNormalize(&sp38, &sp2C);
temp_f31 = (arg2 + arg5) - PSVECMag(&sp38);
if (temp_f31 > 0.01f) {
PSVECSubtract(arg1, arg4, &sp38);
if (PSVECMag(&sp38) < 0.01f) {
arg0->x += sp2C.x * temp_f31;
arg0->y += sp2C.y * temp_f31;
arg0->z += sp2C.z * temp_f31;
} else {
PSVECNormalize(&sp38, &sp38);
arg0->x -= sp38.x * temp_f31;
arg0->y -= sp38.y * temp_f31;
arg0->z -= sp38.z * temp_f31;
}
}
fn_1_7CA0(*arg1, sp2C, 1.0f, arg1);
PSVECSubtract(arg4, arg1, &sp38);
var_f30 = PSVECMag(&sp38);
if (var_f30 < 0.01f) return;
PSVECNormalize(&sp38, &sp38);
var_f29 = PSVECDotProduct(&sp2C, &sp38);
if (var_f29 > 0.0f) {
arg1->x += var_f30 * (sp2C.x * var_f29);
arg1->y += var_f30 * (sp2C.y * var_f29);
arg1->z += var_f30 * (sp2C.z * var_f29);
}
}
void fn_1_7CA0(Vec arg0, Vec arg1, f32 arg2, Point3d* arg3) {
f32 var_f31;
*arg3 = arg0;
arg3->x *= arg2;
arg3->y *= arg2;
arg3->z *= arg2;
var_f31 = PSVECDotProduct(&arg1, arg3);
if (var_f31 < 0.0f) {
arg3->x -= 2.0f * arg1.x * var_f31;
arg3->y -= 2.0f * arg1.y * var_f31;
arg3->z -= 2.0f * arg1.z * var_f31;
}
}
f32 fn_1_7DD0(Vec* arg0) {
f32 temp_f30;
f32 temp_f29;
temp_f30 = (arg0->x * arg0->x) + (arg0->y * arg0->y) + (arg0->z * arg0->z);
temp_f30 = sqrtf(temp_f30);
if (temp_f30 != 0.0f) {
temp_f29 = 1.0f / temp_f30;
arg0->x *= temp_f29;
arg0->y *= temp_f29;
arg0->z *= temp_f29;
} else {
arg0->x = arg0->y = arg0->z = 0.0f;
}
return temp_f30;
}
f32 fn_1_7F68(Vec arg0, Vec arg1, Vec* arg2, f32 arg8) {
if (arg8 <= 0.0f) {
arg2->x = arg0.x;
arg2->y = arg0.y;
arg2->z = arg0.z;
arg8 = 0.0f;
} else if (arg8 >= 1.0f) {
arg2->x = (arg0.x + arg1.x);
arg2->y = (arg0.y + arg1.y);
arg2->z = (arg0.z + arg1.z);
arg8 = 1.0f;
} else {
arg2->x = (arg0.x + (arg8 * arg1.x));
arg2->y = (arg0.y + (arg8 * arg1.y));
arg2->z = (arg0.z + (arg8 * arg1.z));
}
return arg8;
}
f32 fn_1_8040(Vec arg0, Vec arg1, Vec arg2) {
f32 temp_f30;
f32 var_f31;
var_f31 = (arg2.z * (arg1.z - arg0.z)) + ((arg2.x * (arg1.x - arg0.x)) + (arg2.y * (arg1.y - arg0.y)));
temp_f30 = -((arg2.z * arg2.z) + ((arg2.x * arg2.x) + (arg2.y * arg2.y)));
if (temp_f30 != 0.0f) {
var_f31 /= temp_f30;
}
return var_f31;
}
f32 fn_1_80FC(Vec* arg0, Vec* arg1, Vec* arg2) {
Vec sp44;
f32 var_f30;
if (0.0f == (arg2->x * arg2->x) + (arg2->y * arg2->y) + (arg2->z * arg2->z)) {
return ((arg0->x - arg1->x) * (arg0->x - arg1->x)) + ((arg0->y - arg1->y) * (arg0->y - arg1->y)) + ((arg0->z - arg1->z) * (arg0->z - arg1->z));
}
var_f30 = fn_1_8040(*arg0, *arg1, *arg2);
fn_1_7F68(*arg1, *arg2, &sp44, var_f30);
return ((arg0->x - sp44.x) * (arg0->x - sp44.x)) + ((arg0->y - sp44.y) * (arg0->y - sp44.y)) + ((arg0->z - sp44.z) * (arg0->z - sp44.z));
}
f32 fn_1_8438(Vec* arg0, Vec* arg1, Vec* arg2, Vec* arg3, Vec* arg4) {
f32 var_f27;
if (0.0f == ((arg2->z * arg2->z) + ((arg2->x * arg2->x) + (arg2->y * arg2->y)))) {
return ((arg0->z - arg1->z) * (arg0->z - arg1->z)) + (((arg0->x - arg1->x) * (arg0->x - arg1->x)) + ((arg0->y - arg1->y) * (arg0->y - arg1->y)));
}
var_f27 = fn_1_8040(*arg0, *arg1, *arg2);
fn_1_7F68(*arg1, *arg2, arg3, var_f27);
arg4->x = arg0->x - arg3->x;
arg4->y = arg0->y - arg3->y;
arg4->z = arg0->z - arg3->z;
return fn_1_7DD0(arg4);
}
void fn_1_88E8(u8 arg0, f32 arg8, f32 arg9, f32 argA) {
M424DllBallStruct2* temp_r31;
temp_r31 = &lbl_1_bss_60[arg0];
temp_r31->unk4 = 3;
temp_r31->unk3C.x = arg8;
temp_r31->unk3C.y = arg9;
temp_r31->unk3C.z = argA;
}
void fn_1_8924(u8 arg0, u8 arg1) {
M424DllBallStruct2* temp_r31;
temp_r31 = &lbl_1_bss_60[arg0];
temp_r31->unk4 = arg1;
}
u8 fn_1_8950(u8 arg0) {
M424DllBallStruct2* temp_r31;
temp_r31 = &lbl_1_bss_60[arg0];
return temp_r31->unk4;
}
u8 fn_1_897C(u8 arg0) {
M424DllBallStruct2* temp_r31;
temp_r31 = &lbl_1_bss_60[arg0];
return temp_r31->unk5;
}
u8 fn_1_89A8(u8 arg0) {
M424DllBallStruct2* temp_r31;
temp_r31 = &lbl_1_bss_60[arg0];
return temp_r31->unk91;
}
Vec* fn_1_89D4(u8 arg0) {
M424DllBallStruct2* temp_r31;
temp_r31 = &lbl_1_bss_60[arg0];
return &temp_r31->unk3C;
}
Vec* fn_1_8A00(u8 arg0) {
M424DllBallStruct2* temp_r31;
temp_r31 = &lbl_1_bss_60[arg0];
return &temp_r31->unk6C;
}
s32 fn_1_8A2C(void) {
M424DllBallStruct2* var_r31;
M424DllBallStruct* temp_r30;
s32 var_r29;
var_r31 = lbl_1_bss_60;
for (var_r29 = 0; var_r29 < lbl_1_bss_58; var_r29++, var_r31++) {
temp_r30 = var_r31->unk0->data;
if ((temp_r30->unk8 == 3) || (temp_r30->unk8 == 2)) {
return 0;
}
}
return 1;
}
void fn_1_8AA8(s32 arg0, s32 arg1) {
Vec spC;
M424DllBallStruct2* temp_r31;
s32 var_r27;
s32 var_r29;
s32 var_r30;
if (arg1 != 0) {
for (var_r30 = 0; var_r30 < lbl_1_bss_58; var_r30++) {
temp_r31 = &lbl_1_bss_60[var_r30];
if (temp_r31->unk4 != 6) {
PSVECAdd(&temp_r31->unk60, &temp_r31->unk6C, &temp_r31->unk3C);
if ((temp_r31->unk4 < 3) && (fn_1_907C(&temp_r31->unk3C, &spC) != 0)) {
temp_r31->unk3C = spC;
}
if ((temp_r31->unk6C.y < 0.0f) && (temp_r31->unk4 != 4) && (temp_r31->unk4 != 6) && (temp_r31->unk3C.y < 300.0f)) {
temp_r31->unk3C.y = 300.0f;
if (temp_r31->unk4 == 2) {
temp_r31->unk4 = 1;
}
}
}
}
}
for (var_r30 = 0, var_r29 = arg0; var_r30 < lbl_1_bss_58; var_r30++) {
temp_r31 = &lbl_1_bss_60[var_r30];
var_r27 = 0;
if (fn_1_8950(var_r30) < 4) {
if (fn_1_8C78(var_r30, arg0) < arg0) {
var_r27 = 1;
}
if ((var_r27 != 0) && (var_r29 > 0)) {
var_r29 -= 1;
var_r30 -= 1;
} else {
var_r29 = arg0;
}
}
}
fn_1_C2E0(0);
}
s32 fn_1_8C78(s32 arg0, s32 arg1) {
Vec sp38;
Vec sp2C;
Vec sp20;
Vec sp14;
Vec* sp10;
f32 temp_f31;
f32 var_f30;
s32 var_r31;
M424DllBallStruct2* temp_r30;
M424DllBallStruct2* temp_r29;
Vec* var_r28;
Vec* var_r27;
M424DllBallStruct* temp_r26;
M424DllBallStruct* temp_r25;
temp_r30 = &lbl_1_bss_60[arg0];
temp_r26 = temp_r30->unk0->data;
var_r28 = fn_1_89D4(arg0);
sp38 = *var_r28;
for (var_r31 = 0; var_r31 < lbl_1_bss_58; var_r31++) {
if (var_r31 != arg0) {
if (fn_1_8950(var_r31) < 3) {
temp_r29 = &lbl_1_bss_60[var_r31];
temp_r25 = temp_r29->unk0->data;
var_r27 = fn_1_89D4(var_r31);
sp2C = *var_r27;
PSVECSubtract(&sp2C, &sp38, &sp20);
var_f30 = PSVECMag(&sp20);
if (var_f30 < 200.0f) {
if (var_f30 > 0.0f) {
temp_f31 = 1.0f / var_f30;
sp20.x *= temp_f31;
sp20.y *= temp_f31;
sp20.z *= temp_f31;
} else {
sp20.x = 0.0f;
sp20.y = 0.0f;
sp20.z = 1.0f;
}
temp_f31 = 1.0f + (0.5f * (200.0f - var_f30));
if (temp_f31 > 0.0f) {
PSVECScale(&sp20, &sp20, temp_f31);
PSVECAdd(&sp2C, &sp20, &sp2C);
*var_r27 = sp2C;
if ((temp_r29->unk4 < 3) && (fn_1_907C(&sp2C, &sp14) != 0)) {
sp2C = sp14;
*var_r27 = sp14;
}
if ((temp_r29->unk4 == 2) && (temp_r25->unk4C.y < 0.0f)) {
temp_r25->unk4C.y += 0.1f * temp_f31;
}
}
if (temp_f31 > 0.0f) {
PSVECScale(&sp20, &sp20, -1.0f);
PSVECAdd(&sp38, &sp20, &sp38);
*var_r28 = sp38;
if ((temp_r30->unk4 < 3) && (fn_1_907C(&sp38, &sp14) != 0)) {
sp38 = sp14;
*var_r28 = sp14;
}
if ((temp_r30->unk4 == 2) && (temp_r26->unk4C.y < 0.0f)) {
temp_r26->unk4C.y += 0.1f * temp_f31;
}
}
if (arg1 > 0) {
arg1--;
fn_1_8C78(var_r31, arg1);
}
}
}
}
}
return arg1;
}
s32 fn_1_907C(Vec* arg0, Vec* arg1) {
Vec sp10;
f32 temp_f29;
f32 temp_f28;
f32 var_f27;
f32 temp_f26;
sp10 = *arg0;
*arg1 = *arg0;
temp_f29 = (sp10.x * sp10.x) + (sp10.z * sp10.z);
var_f27 = sqrtf(temp_f29);
if (var_f27 < 350.0f) {
if (var_f27 > 0.0f) {
temp_f26 = 1.0f / var_f27;
sp10.x *= temp_f26;
sp10.z *= temp_f26;
} else {
sp10.x = 1.0f;
sp10.z = 0.0f;
}
arg1->x = 350.0f * sp10.x;
arg1->z = 350.0f * sp10.z;
}
temp_f28 = (sp10.x * sp10.x) + (sp10.z * sp10.z);
var_f27 = sqrtf(temp_f28);
if (var_f27 > 600.0f) {
temp_f26 = 1.0f / var_f27;
sp10.x *= temp_f26;
sp10.z *= temp_f26;
arg1->x = 600.0f * sp10.x;
arg1->z = 600.0f * sp10.z;
}
return (s32)arg0;
}

21
src/REL/m438Dll/main.c
View file

@ -2772,28 +2772,7 @@ f32 fn_1_9960(Vec* arg0, Vec* arg1, Vec* arg2) {
}
f32 fn_1_9C9C(Vec* arg0, Vec* arg1, Vec* arg2, Vec* arg3, Vec* arg4) {
f32 sp44;
f32 sp40;
f32 sp3C;
f32 sp38;
f32 sp34;
f32 sp30;
f32 sp2C;
f32 sp28;
f32 sp24;
Vec sp18;
f32 sp14;
f32 sp10;
f32 spC;
f32 sp8;
f32 temp_f25;
f32 temp_f26;
f32 temp_f28;
f32 var_f24;
f32 var_f27;
f64 temp_f31;
f64 temp_f31_2;
f64 temp_f31_3;
if (0.0f == ((arg2->z * arg2->z) + ((arg2->x * arg2->x) + (arg2->y * arg2->y)))) {
return ((arg0->z - arg1->z) * (arg0->z - arg1->z)) + (((arg0->x - arg1->x) * (arg0->x - arg1->x)) + ((arg0->y - arg1->y) * (arg0->y - arg1->y)));