#include #include "functions.h" #include "variables.h" /* .bss */ u8 D_80383370; /* .code */ void func_80323100(void){ core1_ce60_resetState(); } void func_80323120(void){ core1_ce60_func_8024AE74(); } void func_80323140(s32 arg0, s32 arg1){ core1_ce60_func_8024BD40(arg0, arg1); func_8032278C(arg0, arg1); } void func_80323170(void){ core1_ce60_func_8024AF48(); } void func_80323190(void){ D_80383370 = sfxsource_createSfxsourceAndReturnIndex(); sfxSource_setunk43_7ByIndex(D_80383370, 3); sfxsource_setSfxId(D_80383370, SFX_21_EGG_BOUNCE_1); sfxsource_setSampleRate(D_80383370, 12000); } void func_803231E8(void){ sfxsource_freeSfxsourceByIndex(D_80383370); } void func_8032320C(void){ sfxSource_func_8030E2C4(D_80383370); } void func_80323230(void){} void func_80323238(void){} // =============================================BREAK ??? extern f32 ml_vec3f_length(f32 [3], f32[3]); extern void func_80341180(f32, s32, s32, f32 *, f32 [3]); /* .code */ void func_80323240(struct56s *arg0, f32 arg1, f32 arg2[3]){ if(arg1 < 0.0f) arg1 = 0.0f; else if(1.0f < arg1) arg1 = 1.0f; func_80341180(arg1, arg0->unk0, 3, arg0->unk8, arg2); } f32 func_803232AC(f32 *arg0, f32 arg1, f32 arg2, s32 arg3, f32 arg4) { f32 sp6C[3]; f32 sp60[3]; f32 var_f22; f32 var_f20; var_f22 = 0.0f; if ((arg2 - arg1) < 1e-6) { return 0.0f; } var_f20 = arg1; func_80341180(var_f20, arg3, 3, arg0, &sp6C); while(var_f20 + arg4 < arg2){ var_f20 += arg4; func_80341180(var_f20, arg3, 3, arg0, sp60); var_f22 += ml_vec3f_length(sp6C, sp60); ml_vec3f_copy(sp6C, sp60); } func_80341180(arg2, arg3, 3, arg0, sp60); var_f22 += ml_vec3f_length(sp6C, sp60); return var_f22; } f32 func_803233F8(struct56s *arg0) { f32 temp_f0; f32 temp_f26; f32 var_f22; f32 var_f24; s32 temp_s0; f32 *var_a0; var_f22 = 0.005f; var_f24 = 0.0f; temp_s0 = arg0->unk0; var_a0 = arg0->unk8; do{ temp_f26 = var_f24; var_f24 = func_803232AC(var_a0, 0.0f, 1.0f, temp_s0, var_f22); var_f22 *= 0.75; } while((2e-05 < var_f22) && (mlAbsF(var_f24 - temp_f26) > 0.5)); arg0->unk4 = (s32) var_f24; return var_f24; } f32 func_803234FC(struct56s *arg0, f32 arg1, f32 arg2) { s32 var_a3; f32 *var_a0; var_a3 = arg0->unk0; var_a0 = arg0->unk8; return func_803232AC(var_a0, arg1, arg2, var_a3, 0.0001f); } f32 func_80323540(struct56s *arg0, f32 arg1, f32 arg2, f32 arg3) { s32 var_a3; f32 *var_a0; f32 temp_f8; var_a3 = arg0->unk0; var_a0 = arg0->unk8; temp_f8 = (arg2 - arg1) / arg3; return func_803232AC(var_a0, arg1, arg2, var_a3, temp_f8); } f32 func_8032358C(struct56s *arg0, f32 arg1[3]) { s32 count; s32 i; f32 (*i_ptr)[3]; f32 (*end)[3]; count = arg0->unk0; i_ptr = arg0->unk8[0]; end = i_ptr + count; for( i = 0; i_ptr != end; i_ptr++, i++){ if( ((*i_ptr)[0] == arg1[0]) && ((*i_ptr)[1] == arg1[1]) && ((*i_ptr)[2] == arg1[2])) { return (f32) (i) / (f32) (count - 1); } } return -1.0f; } f32 func_803237E8(struct56s *arg0) { s32 count; s32 i; f32 (*i_ptr)[3]; f32 (*end)[3]; count = arg0->unk0; i_ptr = arg0->unk8[0]; end = i_ptr + count - 1; for( i = 0; i_ptr != end; i_ptr++, i++){ if( ((*i_ptr)[0] == (*end)[0]) && ((*i_ptr)[1] == (*end)[1]) && ((*i_ptr)[2] == (*end)[2])) { return (f32) (i) / (f32) (count - 1); } } return 1.0f; } f32 func_80323A48(f32 arg0[3], s32 arg1, f32 arg2, f32 arg3, f32 arg4) { f32 spF4[3]; f32 spE8[3]; f32 spDC[3]; f32 spD0[3]; f32 spC4[3]; f64 spB8; f64 var_f22; f64 var_f24; f64 var_f26; f64 var_f28; s32 sp94; if (arg3 == 0.0f) { return arg2; } var_f26 = 0.0; var_f28 = 0.01; if (arg3 < 0.0f) { arg3 = -arg3; var_f28 = -var_f28; } spB8 = (f64) arg2; func_80341180(spB8, arg1, 3, arg0, &spF4); // sp78 = (f64) arg3; do{ var_f24 = spB8 + var_f28; if (var_f28 > 0.0) { if (var_f24 >= 1.0) { if (arg4 == 1.0) { var_f24 = arg4; func_80341180(var_f24, arg1, 3, arg0, spDC); var_f22 = var_f26 + ml_vec3f_length(spF4, spDC); } else { var_f24 += arg4; var_f24 = var_f24 - (s32)var_f24; func_80341180(1.0f, arg1, 3, arg0, spDC); ml_vec3f_diff_copy(spD0, spDC, spF4); func_80341180(arg4, arg1, 3, arg0, &spE8); func_80341180(var_f24, arg1, 3, arg0, &spDC); ml_vec3f_diff_copy(spC4, spDC, spE8); func_80258CDC(spD0, spC4); var_f22 = var_f26 + gu_sqrtf(spD0[0]*spD0[0] + spD0[1]*spD0[1] + spD0[2]*spD0[2]); } } else { func_80341180(var_f24, arg1, 3, arg0, spDC); var_f22 = var_f26 + ml_vec3f_length(spF4, spDC); } } else { if (arg4 == 1.0) { if (var_f24 < 0.0) { var_f24 = 0; func_80341180(var_f24, arg1, 3, arg0, &spDC); var_f22 = var_f26 + ml_vec3f_length(&spF4, &spDC); } else { func_80341180(var_f24, arg1, 3, arg0, &spDC); var_f22 = var_f26 + ml_vec3f_length(&spF4, &spDC); } } else if (var_f24 < arg4) { var_f24 -= arg4; var_f24 = (var_f24 - (s32)var_f24); var_f24 += 1.0; func_80341180(arg4, arg1, 3, arg0, &spDC); ml_vec3f_diff_copy(&spD0, &spDC, &spF4); func_80341180(1.0f, arg1, 3, arg0, &spE8); func_80341180((f32) var_f24, arg1, 3, arg0, &spDC); ml_vec3f_diff_copy(&spC4, &spDC, &spE8); func_80258CDC(&spD0, &spC4); var_f22 = var_f26 + gu_sqrtf(spD0[0]*spD0[0] + spD0[1]*spD0[1] + spD0[2]*spD0[2]); } else { func_80341180(var_f24, arg1, 3, arg0, &spDC); var_f22 = var_f26 + ml_vec3f_length(&spF4, &spDC); } } sp94 = (mlAbsF(arg3 - var_f22) < 0.1); if ((var_f22 < arg3) || sp94) { var_f26 = var_f22; spB8 = var_f24; ml_vec3f_copy(&spF4, &spDC); if (arg4 == 1.0) { if (var_f28 > 0.0) { if (spB8 == arg4) { break; } } else if (spB8 == 0.0) { break; } } } else { var_f28 *= 0.5; } } while(!sp94 && (1e-7 < mlAbsF(var_f28))); return (f32) spB8; } f32 func_80323F74(struct56s * arg0, f32 arg1, f32 arg2) { s32 sp2C; f32 *sp28; sp2C = arg0->unk0; sp28 = arg0->unk8; return func_80323A48(sp28, sp2C, arg1, time_getDelta() * arg2, func_803237E8(arg0)); } f32 func_80323FDC(struct56s *arg0, f32 arg1, f32 arg2, s32 *arg3) { f32 temp_f0; f32 temp_f2; temp_f2 = func_80323F74(arg0, arg1, arg2); *arg3 = FALSE; if (arg2 > 0.0f) { if (temp_f2 < arg1) { *arg3 = TRUE; } } else if ((arg2 < 0.0f) && (arg1 < temp_f2)) { *arg3 = TRUE; } return temp_f2; } f32 func_80324078(struct56s *arg0, f32 arg1, f32 arg2) { s32 sp24; sp24 = arg0->unk0; return func_80323A48(arg0->unk8, sp24, arg1, (f32) (arg2 * (1.0/30.0)), func_803237E8(arg0)); } f32 func_803240E0(struct56s *arg0, f32 arg1, f32 arg2, bool *arg3) { f32 temp_f0; f32 temp_f2; temp_f2 = func_80324078(arg0, arg1, arg2); *arg3 = FALSE; if (arg2 > 0.0f) { if (temp_f2 < arg1) { *arg3 = TRUE; } } else if ((arg2 < 0.0f) && (arg1 < temp_f2)) { *arg3 = TRUE; } return temp_f2; } void func_8032417C(struct56s *arg0, f32 arg1, f32 arg2[3], f32 arg3[3]) { s32 sp64; f32 *sp60; f32 var_f0; f32 sp50[3]; f32 sp44[3]; sp64 = arg0->unk0; sp60 = arg0->unk8; if ((arg1 + 0.0001) >= 1.0) { arg1 -= 0.0001; } func_80341180(arg1, sp64, 3, sp60, sp50); var_f0 = func_80323A48(sp60, sp64, arg1, 5.0f, func_803237E8(arg0)); func_80341180(var_f0, sp64, 3, sp60, sp44); ml_vec3f_diff_copy(arg2, sp44, sp50); ml_vec3f_normalize(arg2); func_8025727C(sp44[0], sp44[1], sp44[2], sp50[0], sp50[1], sp50[2], &arg3[0], &arg3[1]); arg3[0] = mlNormalizeAngle(-arg3[0]); arg3[2] = 0.0f; } f32 func_8032429C(struct56s *this, f32 arg1[3], f32 min, f32 max, f32 step){ f32 sp74[3]; f32 sp68[3]; f32 f22; f32 f28; f32 f20; f32 f24; f32 f2; min = ml_max_f(0.0f, min); max = ml_min_f(1.0f, max); f24 = 1e+8f; f28 = min; f20 = min; do{ func_80323240(this, f20, sp68); ml_vec3f_diff_copy(sp74, arg1, sp68); f2 = sp74[0]*sp74[0] + sp74[1]*sp74[1] + sp74[2]*sp74[2]; if(f2 < f24){ f24 = f2; f28 = f20; } if(f20 == max) break; else{ f20 += step; if(f20 > max) f20 = max; } }while(1); return f28; } f32 func_803243D0(struct56s *arg0, f32 arg1[3]){ f32 tmp_f0; f32 tmp_f20; f32 tmp_f22; f32 tmp_f24; f32 sp64[3]; f32 sp58[3]; tmp_f0 = func_8032358C(arg0, arg1); if(0.0f <= tmp_f0){ return tmp_f0; } else{ tmp_f20 = 0.01f; tmp_f0 = func_8032429C(arg0, arg1, 0.0f, 1.0f, tmp_f20); tmp_f22 = tmp_f0 - tmp_f20; tmp_f24 = tmp_f0 + tmp_f20; tmp_f20 = (tmp_f20/10.0)*2; tmp_f0 = func_8032429C(arg0, arg1, tmp_f22, tmp_f24, tmp_f20); tmp_f22 = tmp_f0 - tmp_f20; tmp_f24 = tmp_f0 + tmp_f20; tmp_f20 = (tmp_f20/10.0)*2; tmp_f0 = func_8032429C(arg0, arg1, tmp_f22, tmp_f24, tmp_f20); tmp_f22 = tmp_f0 - tmp_f20; tmp_f24 = tmp_f0 + tmp_f20; tmp_f20 = (tmp_f20/10.0)*2; tmp_f0 = func_8032429C(arg0, arg1, tmp_f22, tmp_f24, tmp_f20); tmp_f22 = tmp_f0 - tmp_f20; tmp_f24 = tmp_f0 + tmp_f20; tmp_f20 = (tmp_f20/10.0)*2; tmp_f0 = func_8032429C(arg0, arg1, tmp_f22, tmp_f24, tmp_f20); tmp_f22 = tmp_f0 - tmp_f20; tmp_f24 = tmp_f0 + tmp_f20; tmp_f20 = (tmp_f20/10.0)*2; tmp_f0 = func_8032429C(arg0, arg1, tmp_f22, tmp_f24, tmp_f20); func_80323240(arg0, tmp_f0, sp64); func_80323240(arg0, 1.0f, sp58); if(ml_distanceSquared_vec3f(arg1, sp64) < ml_distanceSquared_vec3f(arg1, sp58)){ return tmp_f0; } return 1.0f; } }