#include "THISDUST.H" #include "CIV_AI.H" #include "LIBMATH.H" int roadblockDelayDiff[] = { 1500, 1000, 800 }; char speedLimits[3] = { 56, 97, 138 }; CIV_AI_234fake civPingTest = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }; char modelRandomList[] = { 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 0, 1, 0, 4 }; // decompiled code // original method signature: // int /*$ra*/ InitCar(struct _CAR_DATA *cp /*$s0*/, int direction /*$s6*/, long (*startPos)[4] /*$s2*/, unsigned char control /*$s4*/, int model /*stack 16*/, int palette /*stack 20*/, char *extraData /*stack 24*/) // line 717, offset 0x00023de8 /* begin block 1 */ // Start line: 718 // Start offset: 0x00023DE8 // Variables: // struct VECTOR tmpStart; // stack offset -48 /* end block 1 */ // End offset: 0x00024028 // End Line: 786 /* begin block 2 */ // Start line: 1434 /* end block 2 */ // End Line: 1435 int InitCar(_CAR_DATA *cp, int direction, long(*startPos)[4], unsigned char control, int model, int palette, char *extraData) { UNIMPLEMENTED(); return 0; /* VECTOR local_30; ClearMem((char *)cp, 0x29c); cp->wasOnGround = '\x01'; cp->id = (char)((int)(cp[-0x503].ap.old_clock + 2) * -0x24ca58e9 >> 2); if (startPos == (long(*)[4])0x0) { return 0; } (cp->ap).model = (char)model; cp->lowDetail = -1; (cp->ap).qy = 0; (cp->ap).qw = 0; (cp->ap).carCos = car_cosmetics + (model & 0xff); local_30.vx = (*startPos)[0]; local_30.vy = (*startPos)[1]; local_30.vz = (*startPos)[2]; local_30.vy = MapHeight(&local_30); local_30.vy = local_30.vy - ((cp->ap).carCos)->wheelDisp[0].vy; if (control == '\0') { return 1; } InitCarPhysics(cp, (long(*)[4])&local_30, direction); (cp->ap).palette = (char)palette; switch (control) { case '\x01': case '\a': if (extraData == (char *)0x0) { *(undefined4 *)cp->ai = 0; } else { *(char **)cp->ai = extraData; } (&player)[(byte)cp->id].worldCentreCarId = cp->id; cp->hndType = '\0'; break; case '\x02': cp->hndType = '\x01'; cp->controlFlags = extraData[0x11]; InitCivState(cp, extraData); if (extraData == (char *)0x0) { (cp->ap).palette = '\0'; } else { (cp->ap).palette = extraData[0x10]; } break; case '\x03': InitCopState(cp, extraData); (cp->ap).palette = '\0'; numCopCars = numCopCars + 1; break; case '\x04': InitLead(cp); leadCarId = ZEXT14((byte)cp->id); cp->hndType = '\x05'; cp->controlType = control; goto LAB_00023fe4; } cp->controlType = control; LAB_00023fe4: CreateDentableCar(cp); DentCar(cp); return 1;*/ } // decompiled code // original method signature: // struct _CAR_DATA * /*$ra*/ FindClosestCar(int x /*$t4*/, int y /*$a1*/, int z /*$a2*/, int *distToCarSq /*$a3*/) // line 891, offset 0x0002d11c /* begin block 1 */ // Start line: 892 // Start offset: 0x0002D11C // Variables: // struct _CAR_DATA *retCar; // $t2 // struct _CAR_DATA *lcp; // $t0 // unsigned int retDistSq; // $t1 // int distSq; // $v0 // int dx; // $a0 // int dz; // $v1 /* end block 1 */ // End offset: 0x0002D220 // End Line: 915 /* begin block 2 */ // Start line: 1782 /* end block 2 */ // End Line: 1783 /* begin block 3 */ // Start line: 6497 /* end block 3 */ // End Line: 6498 _CAR_DATA * FindClosestCar(int x, int y, int z, int *distToCarSq) { UNIMPLEMENTED(); return 0; /* int iVar1; uint uVar2; int iVar3; int iVar4; _CAR_DATA *p_Var5; uint uVar6; _CAR_DATA *p_Var7; p_Var7 = (_CAR_DATA *)0x0; uVar6 = 0x7fffffff; p_Var5 = car_data; do { if (p_Var5->controlType != '\0') { iVar3 = (p_Var5->hd).where.t[1]; iVar1 = y - iVar3; if (iVar1 < 0) { iVar1 = iVar3 - y; } if (iVar1 < 800) { iVar3 = x - (p_Var5->hd).where.t[0]; iVar1 = iVar3; if (iVar3 < 0) { iVar1 = -iVar3; } if (iVar1 < 0x1000) { iVar4 = z - (p_Var5->hd).where.t[2]; iVar1 = iVar4; if (iVar4 < 0) { iVar1 = -iVar4; } if ((iVar1 < 0x1000) && (uVar2 = iVar3 * iVar3 + iVar4 * iVar4, uVar2 < uVar6)) { uVar6 = uVar2; p_Var7 = p_Var5; } } } } p_Var5 = p_Var5 + 1; } while (p_Var5 <= (_CAR_DATA *)((int)&car_data[0x13].lastPad + 3U)); if (distToCarSq != (int *)0x0) { *distToCarSq = uVar6; } return p_Var7;*/ } // decompiled code // original method signature: // int /*$ra*/ NotTravellingAlongCurve(int x /*$a0*/, int z /*$a1*/, int dir /*$s0*/, struct DRIVER2_CURVE *cv /*$a3*/) // line 918, offset 0x0002d24c /* begin block 1 */ // Start line: 919 // Start offset: 0x0002D24C /* end block 1 */ // End offset: 0x0002D298 // End Line: 927 /* begin block 2 */ // Start line: 1803 /* end block 2 */ // End Line: 1804 /* begin block 3 */ // Start line: 7767 /* end block 3 */ // End Line: 7768 /* begin block 4 */ // Start line: 7769 /* end block 4 */ // End Line: 7770 int NotTravellingAlongCurve(int x, int z, int dir, DRIVER2_CURVE *cv) { UNIMPLEMENTED(); return 0; /* int iVar1; iVar1 = ratan2(x - cv->Midx, z - cv->Midz); return (uint)((int)(((dir - iVar1) + 0x800U & 0xfff) - 0x800) < 1) << 0xb;*/ } // decompiled code // original method signature: // void /*$ra*/ CivCarFX(struct _CAR_DATA *cp /*$s0*/) // line 930, offset 0x0002d084 /* begin block 1 */ // Start line: 1860 /* end block 1 */ // End Line: 1861 void CivCarFX(_CAR_DATA *cp) { UNIMPLEMENTED(); /* if (cp->ai[0xf9] != 3) { if (*(int *)(cp->ai + 0x14) != -1) { AddIndicatorLight(cp, (uint)cp->ai[0xf]); } if ((*(int *)(cp->ai + 0x18) != 0) && (*(int *)(cp->ai + 0x14) == -1)) { AddIndicatorLight(cp, (uint)cp->ai[0xe]); } } if (cp->ai[0x10] != 0) { AddBrakeLight(cp); } return;*/ } // decompiled code // original method signature: // int /*$ra*/ GetNextRoadInfo(struct _CAR_DATA *cp /*$s7*/, int randomExit /*$a1*/, int *turnAngle /*stack 8*/, int *startDist /*stack 12*/, struct CIV_ROUTE_ENTRY *oldNode /*stack 16*/) // line 981, offset 0x00024028 /* begin block 1 */ // Start line: 982 // Start offset: 0x00024028 // Variables: // int oldOppDir; // $s4 // int i; // $a1 // int j; // $s6 // int newRoad; // $s3 // int numExits; // stack offset -88 // int currentRoadExit; // $t6 // int newNumLanes; // $a3 // int newDir; // stack offset -84 // int oppDir; // $s0 // struct DRIVER2_JUNCTION *jn; // $t5 // struct DRIVER2_CURVE *cv; // $s1 // struct DRIVER2_STRAIGHT *st; // $s5 // struct DRIVER2_STRAIGHT *tmpSt; // $a2 // struct DRIVER2_CURVE *tmpCv; // $s1 // short *jnExit; // $a2 // int newLane; // $s2 // char leftLane; // stack offset -80 // char rightLane; // stack offset -76 /* begin block 1.1 */ // Start line: 1042 // Start offset: 0x00024734 // Variables: // char relExitId; // $fp // static char validExitRelIdx[4][3][2]; // offset 0x0 // int addRoad; // $t9 /* begin block 1.1.1 */ // Start line: 982 // Start offset: 0x00024804 // Variables: // int currentRoadExit; // $t6 // int newRoadExit; // $fp /* begin block 1.1.1.1 */ // Start line: 982 // Start offset: 0x00024804 // Variables: // int exitMod; // $a0 // int ret; // $a1 /* end block 1.1.1.1 */ // End offset: 0x00024870 // End Line: 982 /* end block 1.1.1 */ // End offset: 0x00024870 // End Line: 982 /* begin block 1.1.2 */ // Start line: 1091 // Start offset: 0x00024C18 // Variables: // int x; // $v1 // int z; // $v0 // int dir; // stack offset -84 // struct DRIVER2_CURVE *cv; // $s1 /* begin block 1.1.2.1 */ // Start line: 1091 // Start offset: 0x00024C18 /* end block 1.1.2.1 */ // End offset: 0x00024C18 // End Line: 1091 /* end block 1.1.2 */ // End offset: 0x00024C18 // End Line: 1091 /* begin block 1.1.3 */ // Start line: 1112 // Start offset: 0x00025048 // Variables: // int exitId; // $a1 /* begin block 1.1.3.1 */ // Start line: 1116 // Start offset: 0x0002506C // Variables: // char lane; // $v0 /* end block 1.1.3.1 */ // End offset: 0x000250C4 // End Line: 1132 /* begin block 1.1.3.2 */ // Start line: 982 // Start offset: 0x00025180 // Variables: // int currentRoadExit; // $t6 /* begin block 1.1.3.2.1 */ // Start line: 982 // Start offset: 0x00025180 // Variables: // int exitMod; // $a1 // int ret; // $a2 /* end block 1.1.3.2.1 */ // End offset: 0x000251E0 // End Line: 982 /* end block 1.1.3.2 */ // End offset: 0x000251E0 // End Line: 982 /* end block 1.1.3 */ // End offset: 0x000251EC // End Line: 1147 /* begin block 1.1.4 */ // Start line: 982 // Start offset: 0x000251EC // Variables: // struct DRIVER2_JUNCTION *jn; // $t5 // int currentExit; // $a2 // int turnAngle; // $t1 // struct _CAR_DATA *cp; // $s7 // struct CIV_ROUTE_ENTRY *oldNode; // $t7 /* begin block 1.1.4.1 */ // Start line: 982 // Start offset: 0x000251EC // Variables: // unsigned short jnFlags; // $a0 // int i; // $a1 // int exitId; // $a3 /* end block 1.1.4.1 */ // End offset: 0x000252BC // End Line: 982 /* end block 1.1.4 */ // End offset: 0x000252BC // End Line: 982 /* begin block 1.1.5 */ // Start line: 1152 // Start offset: 0x000252BC /* begin block 1.1.5.1 */ // Start line: 1173 // Start offset: 0x00025774 // Variables: // int x; // $v1 // int z; // $v0 // int dir; // stack offset -84 // struct DRIVER2_CURVE *cv; // $s1 /* begin block 1.1.5.1.1 */ // Start line: 1173 // Start offset: 0x00025774 /* end block 1.1.5.1.1 */ // End offset: 0x00025774 // End Line: 1173 /* end block 1.1.5.1 */ // End offset: 0x00025774 // End Line: 1173 /* end block 1.1.5 */ // End offset: 0x00025BC8 // End Line: 1184 /* end block 1.1 */ // End offset: 0x00025BC8 // End Line: 1184 /* begin block 1.2 */ // Start line: 1192 // Start offset: 0x00025BD0 // Variables: // int i; // $a1 // int dx; // $v1 // int dz; // $a0 // int numLanes; // $fp // int *pNewLane; // $s3 // int laneFromLeft; // $a3 // int laneFromRight; // $v1 /* begin block 1.2.1 */ // Start line: 1255 // Start offset: 0x00025FE4 // Variables: // int preferredNewLane; // $t1 /* end block 1.2.1 */ // End offset: 0x00026314 // End Line: 1283 /* begin block 1.2.2 */ // Start line: 1286 // Start offset: 0x00026348 // Variables: // int preferredNewLane; // $s4 /* begin block 1.2.2.1 */ // Start line: 1286 // Start offset: 0x00026348 // Variables: // int x; // $v1 // int z; // $v0 // struct DRIVER2_CURVE *cv; // $s1 /* begin block 1.2.2.1.1 */ // Start line: 1286 // Start offset: 0x00026348 /* end block 1.2.2.1.1 */ // End offset: 0x00026348 // End Line: 1286 /* end block 1.2.2.1 */ // End offset: 0x00026348 // End Line: 1286 /* end block 1.2.2 */ // End offset: 0x0002669C // End Line: 1313 /* end block 1.2 */ // End offset: 0x000267A4 // End Line: 1326 /* end block 1 */ // End offset: 0x00026964 // End Line: 1350 /* begin block 2 */ // Start line: 1783 /* end block 2 */ // End Line: 1784 /* begin block 3 */ // Start line: 1979 /* end block 3 */ // End Line: 1980 /* WARNING: Type propagation algorithm not settling */ int GetNextRoadInfo(_CAR_DATA *cp, int randomExit, int *turnAngle, int *startDist, CIV_ROUTE_ENTRY *oldNode) { UNIMPLEMENTED(); return 0; /* byte bVar1; short sVar2; ushort uVar3; bool bVar4; bool bVar5; byte bVar6; uint uVar7; uint uVar8; long lVar9; int iVar10; int iVar11; int iVar12; int iVar13; int iVar14; DRIVER2_JUNCTION *pDVar15; uint *puVar16; int iVar17; uint uVar18; int iVar19; uint uVar20; ushort *puVar21; DRIVER2_STRAIGHT *pDVar22; byte *pbVar23; DRIVER2_CURVE *pDVar24; uint uVar25; uint uVar26; uint uVar27; int *piVar28; uint uVar29; DRIVER2_STRAIGHT *pDVar30; int unaff_s8; int local_58; int local_54; uint local_50; uint local_4c; currentRoadId = *(int *)cp->ai; pDVar30 = (DRIVER2_STRAIGHT *)0x0; if ((((currentRoadId & 0xffffe000U) == 0) && ((int)(currentRoadId & 0x1fffU) < NumDriver2Straights)) && (-1 < currentRoadId)) { pDVar30 = Driver2StraightsPtr + currentRoadId; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) == 0xff010000) { uVar7 = (uint)cp->ai[0xfb]; } else { uVar7 = (int)(uint)(byte)pDVar30->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } uVar7 = uVar7 & 1; uVar29 = uVar7 << 0xb; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) == 0xff010000) { uVar8 = (uint)cp->ai[0xfb]; } else { uVar8 = (int)(uint)(byte)pDVar30->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } tmpNewRoad = (int)pDVar30->ConnectIdx[(uVar8 & 1) * 2]; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) == 0xff010000) { uVar8 = (uint)cp->ai[0xfb]; } else { uVar8 = (int)(uint)(byte)pDVar30->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } iVar17 = 2; if ((uVar8 & 1) != 0) { iVar17 = 6; } INT_000aaadc = (int)*(short *)((int)pDVar30->ConnectIdx + iVar17); uVar25 = ((uint)(byte)pDVar30->NumLanes & 0xf) * 2; uVar8 = uVar25; do { do { uVar8 = uVar8 - 1; uVar18 = uVar25; if ((int)uVar8 < 0) goto LAB_00024288; } while (((((int)(uint)(byte)pDVar30->AILanes >> ((int)uVar8 / 2 & 0x1fU) & 1U) == 0) || ((uVar8 == 0 && ((pDVar30->NumLanes & 0x40U) != 0)))) || ((((uint)(byte)pDVar30->NumLanes & 0xffffff0f) * 2 - 1 == uVar8 && ((pDVar30->NumLanes & 0x80U) != 0)))); uVar18 = uVar8; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar18 = (int)(uint)(byte)pDVar30->LaneDirs >> ((int)uVar8 / 2 & 0x1fU); } test42 = (uVar18 ^ 1) & 1; uVar18 = uVar8; } while (uVar7 == 0); LAB_00024288: if (uVar7 == 0) { local_50 = uVar18 & 0xff; } else { local_4c = uVar18 & 0xff; } uVar25 = (uint)(byte)pDVar30->NumLanes; uVar26 = (uVar25 & 0xf) << 1; uVar18 = (uint)((byte)pDVar30->NumLanes >> 6) & 1; uVar8 = uVar26; if (uVar18 < uVar26) { do { if (((((int)(uint)(byte)pDVar30->AILanes >> ((int)uVar18 / 2 & 0x1fU) & 1U) != 0) && ((uVar18 != 0 || ((pDVar30->NumLanes & 0x40U) == 0)))) && (((uVar25 & 0xffffff0f) * 2 - 1 != uVar18 || ((uVar25 & 0x80) == 0)))) { uVar8 = uVar18; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar8 = (int)(uint)(byte)pDVar30->LaneDirs >> ((int)uVar18 / 2 & 0x1fU); } test555 = (uVar8 ^ 1) & 1; uVar8 = uVar18; if (test555 == 0) { if (uVar7 != 0) break; } else { if (uVar7 == 0) break; } } uVar25 = (uint)(byte)pDVar30->NumLanes; uVar18 = uVar18 + 1; uVar8 = uVar26; } while ((int)uVar18 < (int)((uVar25 & 0xffffff0f) << 1)); } if (uVar7 != 0) goto LAB_000246dc; LAB_000246ec: local_4c = uVar8 & 0xff; } else { if ((currentRoadId & 0xffffe000U) != 0x4000) { return 0; } if (NumDriver2Curves <= (int)(currentRoadId & 0x1fffU)) { return 0; } if (currentRoadId < 0) { return 0; } pDVar24 = Driver2CurvesPtr + (currentRoadId - 0x4000); if (*(short *)&pDVar24->NumLanes == -0xff) { uVar7 = (uint)cp->ai[0xfb]; } else { uVar7 = (int)(uint)(byte)pDVar24->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } uVar7 = uVar7 & 1; uVar29 = uVar7 << 0xb; if (*(short *)&pDVar24->NumLanes == -0xff) { uVar8 = (uint)cp->ai[0xfb]; } else { uVar8 = (int)(uint)(byte)pDVar24->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } tmpNewRoad = (int)pDVar24->ConnectIdx[(uVar8 & 1) * 2]; if (*(short *)&pDVar24->NumLanes == -0xff) { uVar8 = (uint)cp->ai[0xfb]; } else { uVar8 = (int)(uint)(byte)pDVar24->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } iVar17 = 2; if ((uVar8 & 1) != 0) { iVar17 = 6; } INT_000aaadc = (int)*(short *)((int)pDVar24->ConnectIdx + iVar17); uVar25 = ((uint)(byte)pDVar24->NumLanes & 0xf) * 2; uVar8 = uVar25; do { do { uVar8 = uVar8 - 1; uVar18 = uVar25; if ((int)uVar8 < 0) goto LAB_000245c0; } while (((((int)(uint)(byte)pDVar24->AILanes >> ((int)uVar8 / 2 & 0x1fU) & 1U) == 0) || ((uVar8 == 0 && ((pDVar24->NumLanes & 0x40U) != 0)))) || ((((uint)(byte)pDVar24->NumLanes & 0xffffff0f) * 2 - 1 == uVar8 && ((pDVar24->NumLanes & 0x80U) != 0)))); uVar18 = uVar8; if (*(short *)&pDVar24->NumLanes != -0xff) { uVar18 = (int)(uint)(byte)pDVar24->LaneDirs >> ((int)uVar8 / 2 & 0x1fU); } test42 = (uVar18 ^ 1) & 1; uVar18 = uVar8; } while (uVar7 == 0); LAB_000245c0: if (uVar7 == 0) { local_50 = uVar18 & 0xff; } else { local_4c = uVar18 & 0xff; } uVar25 = (uint)(byte)pDVar24->NumLanes; uVar26 = (uVar25 & 0xf) << 1; uVar18 = (uint)((byte)pDVar24->NumLanes >> 6) & 1; uVar8 = uVar26; if (uVar18 < uVar26) { do { if (((((int)(uint)(byte)pDVar24->AILanes >> ((int)uVar18 / 2 & 0x1fU) & 1U) != 0) && ((uVar18 != 0 || ((pDVar24->NumLanes & 0x40U) == 0)))) && (((uVar25 & 0xffffff0f) * 2 - 1 != uVar18 || ((uVar25 & 0x80) == 0)))) { uVar8 = uVar18; if (*(short *)&pDVar24->NumLanes != -0xff) { uVar8 = (int)(uint)(byte)pDVar24->LaneDirs >> ((int)uVar18 / 2 & 0x1fU); } test555 = (uVar8 ^ 1) & 1; uVar8 = uVar18; if (test555 == 0) { if (uVar7 != 0) break; } else { if (uVar7 == 0) break; } } uVar25 = (uint)(byte)pDVar24->NumLanes; uVar18 = uVar18 + 1; uVar8 = uVar26; } while ((int)uVar18 < (int)((uVar25 & 0xffffff0f) << 1)); } if (uVar7 == 0) goto LAB_000246ec; LAB_000246dc: local_50 = uVar8 & 0xff; } iVar17 = tmpNewRoad; uVar7 = 0xffffffff; if ((((tmpNewRoad & 0xffffe000U) != 0x2000) || (NumDriver2Junctions <= (int)(tmpNewRoad & 0x1fffU))) || (tmpNewRoad < 0)) { iVar17 = 0; if (turnAngle == (int *)0x0) goto LAB_00026928; *turnAngle = 0; newExit = -1; do { piVar28 = tmpNewLane + iVar17; uVar7 = (&tmpNewRoad)[iVar17]; if (uVar7 == 0xffffffff) { (&laneFit)[iVar17] = 0x29a; } else { if ((((uVar7 & 0xffffe000) == 0) && ((int)(uVar7 & 0x1fff) < NumDriver2Straights)) && (-1 < (int)uVar7)) { pDVar30 = Driver2StraightsPtr + uVar7; tmpStr2[iVar17] = pDVar30; uVar7 = (uint)(ushort)pDVar30->angle & 0xfff; uVar29 = (uint)(byte)pDVar30->NumLanes & 0xffffff0f; test555 = (oldNode->x - pDVar30->Midx) * (int)rcossin_tbl[uVar7 * 2 + 1] - (oldNode->z - pDVar30->Midz) * (int)rcossin_tbl[uVar7 * 2]; test42 = uVar29 - ((test555 + 0x800 >> 0xc) + 0x200 >> 9); *piVar28 = test42; unaff_s8 = uVar29 * 2; uVar29 = ((uint)(byte)pDVar30->NumLanes & 0xffffff0f) * 2; uVar7 = uVar29; do { do { uVar7 = uVar7 - 1; uVar8 = uVar29; if ((int)uVar7 < 0) goto LAB_00025e00; } while (((((int)(uint)(byte)pDVar30->AILanes >> ((int)uVar7 / 2 & 0x1fU) & 1U) == 0) || ((uVar7 == 0 && ((pDVar30->NumLanes & 0x40U) != 0)))) || ((((uint)(byte)pDVar30->NumLanes & 0xffffff0f) * 2 - 1 == uVar7 && ((pDVar30->NumLanes & 0x80U) != 0)))); uVar8 = uVar7; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar8 = (int)(uint)(byte)pDVar30->LaneDirs >> ((int)uVar7 / 2 & 0x1fU); } test42 = (uVar8 ^ 1) & 1; uVar8 = uVar7; } while ((((int)oldNode->dir - (int)pDVar30->angle) + 0x400U & 0x800) == 0); LAB_00025e00: if ((uVar8 == 0) || (unaff_s8 <= (int)uVar8)) { (&laneFit)[iVar17] = 0x29a; goto LAB_00025f34; } } else { pDVar24 = Driver2CurvesPtr + (&tmpNewRoad)[iVar17] + -0x4000; tmpCrv2[iVar17] = pDVar24; iVar11 = oldNode->x - pDVar24->Midx; iVar14 = oldNode->z - pDVar24->Midz; unaff_s8 = ((uint)(byte)pDVar24->NumLanes & 0xffffff0f) * 2; iVar11 = SquareRoot0(iVar11 * iVar11 + iVar14 * iVar14); if (iVar11 < 0) { iVar11 = iVar11 + 0x1ff; } *piVar28 = (iVar11 >> 9) + (uint)(byte)pDVar24->inside * -2; } iVar14 = unaff_s8 + -1; test123 = *piVar28; iVar11 = test123; if ((-1 < test123) && (iVar11 = test123 - iVar14, test123 <= iVar14)) { iVar11 = 0; } (&laneFit)[iVar17] = iVar11; if (iVar14 <= *piVar28) { *piVar28 = iVar14; } newExit = iVar17; if (*piVar28 < 0) { *piVar28 = 0; } } LAB_00025f34: iVar17 = iVar17 + 1; } while (iVar17 < 2); if ((newExit == -1) || ((&laneFit)[newExit] == 0x29a)) goto LAB_00026928; iVar11 = laneFit; if (laneFit < 0) { iVar11 = -laneFit; } iVar14 = INT_000aab2c; if (INT_000aab2c < 0) { iVar14 = -INT_000aab2c; } newExit = (uint)(iVar11 < iVar14) ^ 1; uVar25 = (&tmpNewRoad)[newExit]; uVar8 = tmpNewLane[newExit]; if (cp->ai[0xc] != 7) { if ((((uVar25 & 0xffffe000) == 0) && ((int)(uVar25 & 0x1fff) < NumDriver2Straights)) && (-1 < (int)uVar25)) { pDVar30 = Driver2StraightsPtr + uVar25; uVar7 = ((int)oldNode->dir - (int)pDVar30->angle) + 0x400U & 0x800; test123 = local_54; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) == 0xff010000) { if ((uVar8 & 1) == 0) goto LAB_00026064; LAB_00026074: if (uVar7 != 0) goto LAB_00026318; } else { if (((int)(uint)(byte)pDVar30->LaneDirs >> ((int)uVar8 / 2 & 0x1fU) & 1U) != 0) goto LAB_00026074; LAB_00026064: if (uVar7 == 0) goto LAB_00026318; } uVar29 = (uint)(byte)pDVar30->NumLanes; uVar26 = (uVar29 & 0xf) * 2; uVar18 = uVar26; do { while (true) { do { uVar18 = uVar18 - 1; if ((int)uVar18 < 0) goto LAB_0002616c; } while (((((int)(uint)(byte)pDVar30->AILanes >> ((int)uVar18 / 2 & 0x1fU) & 1U) == 0) || ((uVar18 == 0 && ((pDVar30->NumLanes & 0x40U) != 0)))) || (((uVar29 & 0xffffff0f) * 2 - 1 == uVar18 && ((uVar29 & 0x80) != 0)))); uVar29 = uVar18; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar29 = (int)(uint)(byte)pDVar30->LaneDirs >> ((int)uVar18 / 2 & 0x1fU); } test42 = (uVar29 ^ 1) & 1; if (test42 == 0) break; if (uVar7 == 0) goto LAB_00026154; uVar29 = (uint)(byte)pDVar30->NumLanes; } uVar29 = (uint)(byte)pDVar30->NumLanes; } while (uVar7 == 0); LAB_00026154: uVar29 = (uint)(byte)pDVar30->NumLanes; uVar26 = uVar18; LAB_0002616c: if ((int)uVar26 < 0) { uVar26 = 0x2a; } uVar27 = (uVar29 & 0xf) << 1; uVar20 = uVar29 >> 6 & 1; uVar18 = uVar27; if (uVar20 < uVar27) { do { uVar18 = uVar20; if (((((int)(uint)(byte)pDVar30->AILanes >> ((int)uVar18 / 2 & 0x1fU) & 1U) != 0) && ((uVar18 != 0 || ((pDVar30->NumLanes & 0x40U) == 0)))) && (((uVar29 & 0xffffff0f) * 2 - 1 != uVar18 || ((uVar29 & 0x80) == 0)))) { uVar29 = uVar18; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar29 = (int)(uint)(byte)pDVar30->LaneDirs >> ((int)uVar18 / 2 & 0x1fU); } test555 = (uVar29 ^ 1) & 1; if (test555 == 0) { if (uVar7 != 0) break; } else { if (uVar7 == 0) break; } } uVar29 = (uint)(byte)pDVar30->NumLanes; uVar20 = uVar18 + 1; uVar18 = uVar27; } while ((int)uVar20 < (int)((uVar29 & 0xffffff0f) << 1)); } if (unaff_s8 <= (int)uVar18) { uVar18 = 0x2a; } iVar11 = uVar26 - uVar8; if ((uVar26 == 0x2a) && (uVar18 == 0x2a)) goto LAB_00026928; if (iVar11 < 0) { iVar11 = uVar8 - uVar26; } if ((int)(uVar18 - uVar8) < 0) { if (iVar11 <= (int)(uVar8 - uVar18)) { uVar18 = uVar26; } } else { if (iVar11 <= (int)(uVar18 - uVar8)) { uVar18 = uVar26; } } puVar16 = (uint *)(&laneFit + iVar17); *puVar16 = uVar18; uVar7 = unaff_s8 - 1; if (-1 < (int)uVar18) { if ((int)uVar7 < (int)uVar18) { *puVar16 = uVar18 - uVar7; } else { *puVar16 = 0; } } uVar8 = uVar18; if ((int)uVar7 <= (int)uVar18) { uVar8 = uVar7; } if ((int)uVar8 < 0) { uVar8 = 0; } } LAB_00026318: if ((((uVar25 & 0xffffe000) == 0x4000) && ((int)(uVar25 & 0x1fff) < NumDriver2Curves)) && (-1 < (int)uVar25)) { sVar2 = oldNode->dir; pDVar24 = Driver2CurvesPtr + (uVar25 - 0x4000); iVar11 = ratan2(oldNode->x - pDVar24->Midx, oldNode->z - pDVar24->Midz); bVar5 = (int)(((sVar2 - iVar11) + 0x800U & 0xfff) - 0x800) < 1; if (*(short *)&pDVar24->NumLanes == -0xff) { if ((uVar8 & 1) == 0) goto LAB_000263fc; LAB_0002640c: if (bVar5) goto LAB_0002669c; } else { if (((int)(uint)(byte)pDVar24->LaneDirs >> ((int)uVar8 / 2 & 0x1fU) & 1U) != 0) goto LAB_0002640c; LAB_000263fc: if (!bVar5) goto LAB_0002669c; } uVar7 = (uint)(byte)pDVar24->NumLanes; uVar18 = (uVar7 & 0xf) * 2; uVar29 = uVar18; do { while (true) { do { uVar29 = uVar29 - 1; if ((int)uVar29 < 0) goto LAB_000264fc; } while (((((int)(uint)(byte)pDVar24->AILanes >> ((int)uVar29 / 2 & 0x1fU) & 1U) == 0) || ((uVar29 == 0 && ((pDVar24->NumLanes & 0x40U) != 0)))) || (((uVar7 & 0xffffff0f) * 2 - 1 == uVar29 && ((uVar7 & 0x80) != 0)))); uVar7 = uVar29; if (*(short *)&pDVar24->NumLanes != -0xff) { uVar7 = (int)(uint)(byte)pDVar24->LaneDirs >> ((int)uVar29 / 2 & 0x1fU); } test42 = (uVar7 ^ 1) & 1; if (test42 == 0) break; if (!bVar5) goto LAB_000264e4; uVar7 = (uint)(byte)pDVar24->NumLanes; } uVar7 = (uint)(byte)pDVar24->NumLanes; } while (!bVar5); LAB_000264e4: uVar7 = (uint)(byte)pDVar24->NumLanes; uVar18 = uVar29; LAB_000264fc: if ((int)uVar18 < 0) { uVar18 = 0x2a; } uVar20 = (uVar7 & 0xf) << 1; uVar26 = uVar7 >> 6 & 1; uVar29 = uVar20; if (uVar26 < uVar20) { do { uVar29 = uVar26; if (((((int)(uint)(byte)pDVar24->AILanes >> ((int)uVar29 / 2 & 0x1fU) & 1U) != 0) && ((uVar29 != 0 || ((pDVar24->NumLanes & 0x40U) == 0)))) && (((uVar7 & 0xffffff0f) * 2 - 1 != uVar29 || ((uVar7 & 0x80) == 0)))) { uVar7 = uVar29; if (*(short *)&pDVar24->NumLanes != -0xff) { uVar7 = (int)(uint)(byte)pDVar24->LaneDirs >> ((int)uVar29 / 2 & 0x1fU); } test555 = (uVar7 ^ 1) & 1; if (test555 == 0) { if (bVar5) break; } else { if (!bVar5) break; } } uVar7 = (uint)(byte)pDVar24->NumLanes; uVar26 = uVar29 + 1; uVar29 = uVar20; } while ((int)uVar26 < (int)((uVar7 & 0xffffff0f) << 1)); } if (unaff_s8 <= (int)uVar29) { uVar29 = 0x2a; } iVar11 = uVar18 - uVar8; if ((uVar18 == 0x2a) && (uVar29 == 0x2a)) goto LAB_00026928; if (iVar11 < 0) { iVar11 = uVar8 - uVar18; } if ((int)(uVar29 - uVar8) < 0) { if (iVar11 <= (int)(uVar8 - uVar29)) { uVar29 = uVar18; } } else { if (iVar11 <= (int)(uVar29 - uVar8)) { uVar29 = uVar18; } } puVar16 = (uint *)(&laneFit + iVar17); *puVar16 = uVar29; uVar7 = unaff_s8 - 1; if (-1 < (int)uVar29) { if ((int)uVar7 < (int)uVar29) { *puVar16 = uVar29 - uVar7; } else { *puVar16 = 0; } } uVar8 = uVar29; if ((int)uVar7 <= (int)uVar29) { uVar8 = uVar7; } if ((int)uVar8 < 0) { uVar8 = 0; } } LAB_0002669c: if ((&laneFit)[newExit] != 0) { iVar17 = ((int)oldNode + (-0x1b0 - (int)cp) >> 4) + 1; *(int *)(cp->ai + 0x14) = iVar17; if (0xc < iVar17) { *(undefined4 *)(cp->ai + 0x14) = 0; } bVar6 = (byte)((uint)(&laneFit)[newExit] >> 0x18); if ((((uVar25 & 0xffffe000) == 0) && ((int)(uVar25 & 0x1fff) < NumDriver2Straights)) && (-1 < (int)uVar25)) { if ((*(uint *)(tmpStr2[newExit]->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { bVar1 = tmpStr2[newExit]->LaneDirs; goto LAB_00026788; } LAB_00026774: bVar6 = ((byte)uVar8 ^ 1) & 1 ^ bVar6 >> 7; } else { if (*(short *)&tmpCrv2[newExit]->NumLanes == -0xff) goto LAB_00026774; bVar1 = tmpCrv2[newExit]->LaneDirs; LAB_00026788: bVar6 = ((byte)((int)(uint)bVar1 >> ((int)uVar8 / 2 & 0x1fU)) ^ 1) & 1 ^ bVar6 >> 7; } cp->ai[0xf] = bVar6; } } goto LAB_000267a4; } local_58 = 0; cp->ai[0x12] = 0; pDVar15 = Driver2JunctionsPtr + iVar17 + -0x2000; if ((int)pDVar15->ExitIdx[0] == currentRoadId) { iVar11 = 0; } else { iVar17 = 1; do { iVar14 = iVar17; iVar11 = -1; if (3 < iVar14) break; iVar17 = iVar14 + 1; iVar11 = iVar14; } while ((int)pDVar15->ExitIdx[iVar14] != currentRoadId); } if (iVar11 == -1) goto LAB_00026928; iVar17 = 1; iVar14 = 0; do { iVar10 = iVar17; iVar12 = iVar11 + iVar10; iVar17 = iVar12; if (iVar12 < 0) { iVar17 = iVar12 + 3; } iVar17 = (iVar12 + (iVar17 >> 2) * -4) * 0x1000000; iVar12 = iVar17 >> 0x18; puVar21 = (ushort *)(pDVar15->ExitIdx + iVar12); bVar5 = false; if (*puVar21 != 0xffff) { iVar19 = 0; iVar13 = (iVar12 + 4) - iVar11; iVar12 = iVar13; if (iVar13 < 0) { iVar12 = iVar13 + 3; } iVar13 = iVar13 + (iVar12 >> 2) * -4; if (iVar13 == 1) { iVar19 = -0x400; } else { if (1 < iVar13) { if (iVar13 == 2) { iVar19 = 0; } else { if (iVar13 == 3) { iVar19 = 0x400; } } } } *turnAngle = iVar19; test123 = 0x29a; test555 = 0x29a; test42 = 0x29a; uVar3 = *puVar21; iVar19 = oldNode->dir + iVar19; if ((((uVar3 & 0xe000) == 0) && ((int)((uint)uVar3 & 0x1fff) < NumDriver2Straights)) && (-1 < (int)(short)uVar3)) { pDVar22 = Driver2StraightsPtr + (int)(short)uVar3; iVar12 = *turnAngle; uVar8 = (iVar19 - pDVar22->angle) + 0x400U & 0x800; if (uVar8 == 0) { iVar12 = -iVar12; } if (iVar12 == 0) { if (uVar8 == uVar29) { uVar7 = (uint)cp->ai[0xfb]; } else { uVar7 = ((uint)(byte)pDVar22->NumLanes & 0xffffff0f) * 2 - ((uint)cp->ai[0xfb] + 1); } if ((uVar8 == 0) || (((int)(uint)(byte)pDVar22->AILanes >> ((int)uVar7 / 2 & 0x1fU) & 1U) == 0)) { uVar7 = 0xffffffff; } } else { if (iVar12 < 1) { if (iVar12 == -0x400) { uVar25 = (uint)(byte)pDVar22->NumLanes; uVar26 = (uVar25 & 0xffffff0f) << 1; uVar18 = (uint)((byte)pDVar22->NumLanes >> 6) & 1; uVar7 = uVar26; if (uVar18 < uVar26) { do { if (((((int)(uint)(byte)pDVar22->AILanes >> ((int)uVar18 / 2 & 0x1fU) & 1U) != 0) && ((uVar18 != 0 || ((pDVar22->NumLanes & 0x40U) == 0)))) && (((uVar25 & 0xffffff0f) * 2 - 1 != uVar18 || ((uVar25 & 0x80) == 0)))) { uVar7 = uVar18; if ((*(uint *)(pDVar22->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar7 = (int)(uint)(byte)pDVar22->LaneDirs >> ((int)uVar18 / 2 & 0x1fU); } test555 = (uVar7 ^ 1) & 1; uVar7 = uVar18; if (test555 == 0) { if (uVar8 != 0) break; } else { if (uVar8 == 0) break; } } uVar25 = (uint)(byte)pDVar22->NumLanes; uVar18 = uVar18 + 1; uVar7 = uVar26; } while ((int)uVar18 < (int)((uVar25 & 0xffffff0f) << 1)); } } } else { if (iVar12 == 0x400) { uVar18 = ((uint)(byte)pDVar22->NumLanes & 0xffffff0f) * 2; uVar25 = uVar18; do { do { uVar25 = uVar25 - 1; uVar7 = uVar18; if ((int)uVar25 < 0) goto LAB_00024be8; } while (((((int)(uint)(byte)pDVar22->AILanes >> ((int)uVar25 / 2 & 0x1fU) & 1U) == 0) || ((uVar25 == 0 && ((pDVar22->NumLanes & 0x40U) != 0)))) || ((((uint)(byte)pDVar22->NumLanes & 0xffffff0f) * 2 - 1 == uVar25 && ((pDVar22->NumLanes & 0x80U) != 0)))); uVar7 = uVar25; if ((*(uint *)(pDVar22->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar7 = (int)(uint)(byte)pDVar22->LaneDirs >> ((int)uVar25 / 2 & 0x1fU); } test42 = (uVar7 ^ 1) & 1; uVar7 = uVar25; } while (uVar8 == 0); } } } LAB_00024be8: if (-1 < (int)uVar7) { uVar8 = (uint)(byte)pDVar22->NumLanes; iVar12 = (uVar8 & 0xffffff0f) << 1; if ((int)uVar7 < iVar12) { bVar6 = pDVar22->AILanes; iVar19 = uVar7 - ((int)uVar7 >> 0x1f); LAB_00024fa4: bVar5 = false; if (((((int)(uint)bVar6 >> (iVar19 >> 1 & 0x1fU) & 1U) != 0) && ((uVar7 != 0 || ((uVar8 & 0x40) == 0)))) && ((iVar12 - 1U != uVar7 || ((uVar8 & 0x80) == 0)))) { bVar5 = true; } } } } else { pDVar24 = Driver2CurvesPtr + (int)(short)*puVar21 + -0x4000; iVar12 = ratan2(oldNode->x - pDVar24->Midx, oldNode->z - pDVar24->Midz); bVar5 = false; bVar4 = (int)(((iVar19 - iVar12) + 0x800U & 0xfff) - 0x800) < 1; iVar12 = *turnAngle; if (!bVar4) { iVar12 = -iVar12; } if (iVar12 == 0) { if ((uint)bVar4 << 0xb == uVar29) { uVar7 = (uint)cp->ai[0xfb]; } else { uVar7 = ((uint)(byte)pDVar24->NumLanes & 0xffffff0f) * 2 - ((uint)cp->ai[0xfb] + 1); } if ((!bVar4) || (((int)(uint)(byte)pDVar24->AILanes >> ((int)uVar7 / 2 & 0x1fU) & 1U) == 0)) { uVar7 = 0xffffffff; } } else { if (iVar12 < 1) { if (iVar12 == -0x400) { uVar8 = (uint)(byte)pDVar24->NumLanes; uVar18 = (uVar8 & 0xffffff0f) << 1; uVar25 = (uint)((byte)pDVar24->NumLanes >> 6) & 1; uVar7 = uVar18; if (uVar25 < uVar18) { do { if (((((int)(uint)(byte)pDVar24->AILanes >> ((int)uVar25 / 2 & 0x1fU) & 1U) != 0) && ((uVar25 != 0 || ((pDVar24->NumLanes & 0x40U) == 0)))) && (((uVar8 & 0xffffff0f) * 2 - 1 != uVar25 || ((uVar8 & 0x80) == 0)))) { uVar7 = uVar25; if (*(short *)&pDVar24->NumLanes != -0xff) { uVar7 = (int)(uint)(byte)pDVar24->LaneDirs >> ((int)uVar25 / 2 & 0x1fU); } test555 = (uVar7 ^ 1) & 1; uVar7 = uVar25; if (test555 == 0) { if (bVar4) break; } else { if (!bVar4) break; } } uVar8 = (uint)(byte)pDVar24->NumLanes; uVar25 = uVar25 + 1; uVar7 = uVar18; } while ((int)uVar25 < (int)((uVar8 & 0xffffff0f) << 1)); } } } else { if (iVar12 == 0x400) { uVar25 = ((uint)(byte)pDVar24->NumLanes & 0xffffff0f) * 2; uVar8 = uVar25; do { do { uVar8 = uVar8 - 1; uVar7 = uVar25; if ((int)uVar8 < 0) goto LAB_00024f78; } while (((((int)(uint)(byte)pDVar24->AILanes >> ((int)uVar8 / 2 & 0x1fU) & 1U) == 0 ) || ((uVar8 == 0 && ((pDVar24->NumLanes & 0x40U) != 0)))) || ((((uint)(byte)pDVar24->NumLanes & 0xffffff0f) * 2 - 1 == uVar8 && ((pDVar24->NumLanes & 0x80U) != 0)))); uVar7 = uVar8; if (*(short *)&pDVar24->NumLanes != -0xff) { uVar7 = (int)(uint)(byte)pDVar24->LaneDirs >> ((int)uVar8 / 2 & 0x1fU); } test42 = (uVar7 ^ 1) & 1; uVar7 = uVar8; } while (!bVar4); } } } LAB_00024f78: if (-1 < (int)uVar7) { uVar8 = (uint)(byte)pDVar24->NumLanes; iVar12 = (uVar8 & 0xffffff0f) << 1; if ((int)uVar7 < iVar12) { bVar6 = pDVar24->AILanes; iVar19 = uVar7 - ((int)uVar7 >> 0x1f); goto LAB_00024fa4; } } } } if (bVar5) { (&validExitIdx)[iVar14] = (short)(iVar17 >> 0x18); local_58 = local_58 + 1; } else { (&validExitIdx)[iVar14] = 0x2a; } iVar17 = iVar10 + 1; iVar14 = iVar10; } while (iVar10 < 3); if ((iVar11 < 0) || (local_58 < 1)) goto LAB_00026928; if ((local_50 != local_4c) && (local_58 != 1)) { if ((uint)cp->ai[0xfb] == local_50) { SHORT_ARRAY_000aab3c[0] = 0x2a; } else { if ((uint)cp->ai[0xfb] == local_4c) { validExitIdx = 0x2a; } else { if (SHORT_000aab3a != 0x2a) { SHORT_ARRAY_000aab3c[0] = 0x2a; validExitIdx = 0x2a; } } } } lVar9 = Random2(0); sVar2 = (&validExitIdx)[lVar9 % 3]; pbVar23 = cp->ai + 0xc; iVar17 = lVar9 % 3; while (sVar2 == 0x2a) { iVar14 = 0; if (iVar17 < 2) { iVar14 = iVar17 + 1; } sVar2 = (&validExitIdx)[iVar14]; iVar17 = iVar14; } iVar17 = (int)(&validExitIdx)[iVar17]; uVar25 = SEXT24(pDVar15->ExitIdx[iVar17]); iVar14 = 0; if (turnAngle != (int *)0x0) { iVar12 = (iVar17 + 4) - iVar11; iVar10 = iVar12; if (iVar12 < 0) { iVar10 = iVar12 + 3; } iVar12 = iVar12 + (iVar10 >> 2) * -4; if (iVar12 == 1) { iVar14 = -0x400; } else { if (((1 < iVar12) && (iVar12 != 2)) && (iVar12 == 3)) { iVar14 = 0x400; } } test42 = iVar11; test555 = iVar17; *turnAngle = iVar14; } uVar8 = 0xffffffff; uVar18 = 0; iVar17 = *turnAngle; uVar3 = *(ushort *)&pDVar15->flags; do { if ((int)pDVar15->ExitIdx[0] == currentRoadId) { uVar8 = uVar18; } uVar18 = uVar18 + 1; pDVar15 = (DRIVER2_JUNCTION *)(pDVar15->ExitIdx + 1); } while ((int)uVar18 < 4); if (*pbVar23 != 8) { *pbVar23 = 0; if ((uVar3 & 1) == 0) { bVar5 = false; if ((uVar8 == 0) || (uVar8 == 2)) { bVar5 = true; } if ((uVar3 & 2) == 0) { bVar6 = 4; if (!bVar5) goto LAB_000252b4; LAB_000252ac: bVar6 = 6; if (iVar17 == 0) goto LAB_000252bc; goto LAB_000252b4; } bVar6 = 4; if (!bVar5) goto LAB_000252ac; *(CIV_ROUTE_ENTRY **)(cp->ai + 8) = oldNode; } else { cp->ai[0xd] = (byte)(uVar8 & 1); bVar6 = 1; if ((&junctionLightsPhase)[uVar8 & 1] == '\x03') goto LAB_000252ac; LAB_000252b4: *(CIV_ROUTE_ENTRY **)(cp->ai + 8) = oldNode; } *pbVar23 = bVar6; } LAB_000252bc: iVar17 = *turnAngle; iVar11 = oldNode->dir + iVar17; if (((((uVar25 & 0xffffe000) != 0) || (NumDriver2Straights <= (int)(uVar25 & 0x1fff))) && (((uVar25 & 0xffffe000) != 0x4000 || (NumDriver2Curves <= (int)(uVar25 & 0x1fff))))) || ((int)uVar25 < 0)) goto LAB_00026928; if (((uVar25 & 0xffffe000) == 0) && ((int)(uVar25 & 0x1fff) < NumDriver2Straights)) { pDVar30 = Driver2StraightsPtr + uVar25; uVar18 = (iVar11 - pDVar30->angle) + 0x400U & 0x800; uVar8 = ((uint)(byte)pDVar30->NumLanes & 0xf) * 2; if (uVar18 == 0) { iVar17 = -iVar17; } if (iVar17 == 0) { if (uVar18 == uVar29) { uVar7 = (uint)cp->ai[0xfb]; } else { uVar7 = uVar8 - ((uint)cp->ai[0xfb] + 1); } bVar5 = uVar18 == 0; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) == 0xff010000) { if ((uVar7 & 1) == 0) { LAB_00025514: if (!bVar5) { uVar7 = 0xffffffff; goto LAB_0002564c; } } else { if (bVar5) { uVar7 = 0xffffffff; goto LAB_0002564c; } } LAB_0002552c: if (((int)(uint)(byte)pDVar30->AILanes >> ((int)uVar7 / 2 & 0x1fU) & 1U) != 0) goto LAB_0002564c; } else { if (((int)(uint)(byte)pDVar30->LaneDirs >> ((int)uVar7 / 2 & 0x1fU) & 1U) == 0) goto LAB_00025514; if (!bVar5) goto LAB_0002552c; } uVar7 = 0xffffffff; } else { if (iVar17 < 1) { if ((iVar17 == -0x400) && (uVar29 = (uint)((byte)pDVar30->NumLanes >> 6) & 1, uVar7 = uVar8, uVar29 < uVar8)) { do { if (((((int)(uint)(byte)pDVar30->AILanes >> ((int)uVar29 / 2 & 0x1fU) & 1U) != 0) && ((uVar29 != 0 || ((pDVar30->NumLanes & 0x40U) == 0)))) && ((((uint)(byte)pDVar30->NumLanes & 0xffffff0f) * 2 - 1 != uVar29 || ((pDVar30->NumLanes & 0x80U) == 0)))) { uVar7 = uVar29; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar7 = (int)(uint)(byte)pDVar30->LaneDirs >> ((int)uVar29 / 2 & 0x1fU); } test555 = (uVar7 ^ 1) & 1; uVar7 = uVar29; if (test555 == 0) { if (uVar18 != 0) break; } else { if (uVar18 == 0) break; } } uVar29 = uVar29 + 1; uVar7 = uVar8; } while ((int)uVar29 < (int)(((uint)(byte)pDVar30->NumLanes & 0xffffff0f) << 1)); } } else { uVar29 = uVar8; if (iVar17 == 0x400) { do { do { uVar29 = uVar29 - 1; uVar7 = uVar8; if ((int)uVar29 < 0) goto LAB_0002564c; } while (((((int)(uint)(byte)pDVar30->AILanes >> ((int)uVar29 / 2 & 0x1fU) & 1U) == 0) || ((uVar29 == 0 && ((pDVar30->NumLanes & 0x40U) != 0)))) || ((((uint)(byte)pDVar30->NumLanes & 0xffffff0f) * 2 - 1 == uVar29 && ((pDVar30->NumLanes & 0x80U) != 0)))); uVar7 = uVar29; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar7 = (int)(uint)(byte)pDVar30->LaneDirs >> ((int)uVar29 / 2 & 0x1fU); } test42 = (uVar7 ^ 1) & 1; uVar7 = uVar29; } while (uVar18 == 0); } } } LAB_0002564c: uVar8 = uVar7; if (*turnAngle != 0) { if (uVar8 - 1 == uVar7) { uVar29 = uVar7; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar29 = (int)(uint)(byte)pDVar30->LaneDirs >> ((int)uVar7 / 2 & 0x1fU); } uVar18 = uVar7; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar18 = (int)(uint)(byte)pDVar30->LaneDirs >> ((int)(uVar7 - 1) / 2 & 0x1fU) ^ 1; } uVar8 = uVar7 - 1; if (((uVar29 ^ 1) & 1) == (uVar18 & 1)) goto LAB_000267a4; } uVar8 = uVar7; if (uVar7 == 0) { uVar29 = 1; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar29 = ((uint)(byte)pDVar30->LaneDirs ^ 1) & 1; } if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) goto LAB_00025ba4; LAB_00025b80: uVar18 = uVar8 + 1; if (uVar29 == ((uVar18 ^ 1) & 1)) goto LAB_00025bc8; } } } else { uVar8 = uVar7; if (((uVar25 & 0xffffe000) != 0x4000) || ((NumDriver2Curves <= (int)(uVar25 & 0x1fff) || ((int)uVar25 < 0)))) goto LAB_000267a4; pDVar24 = Driver2CurvesPtr + (uVar25 - 0x4000); iVar17 = ratan2(oldNode->x - pDVar24->Midx, oldNode->z - pDVar24->Midz); bVar5 = (int)(((iVar11 - iVar17) + 0x800U & 0xfff) - 0x800) < 1; iVar17 = *turnAngle; uVar8 = ((uint)(byte)pDVar24->NumLanes & 0xf) * 2; if (!bVar5) { iVar17 = -iVar17; } if (iVar17 == 0) { if ((uint)bVar5 << 0xb == uVar29) { uVar7 = (uint)cp->ai[0xfb]; } else { uVar7 = uVar8 - ((uint)cp->ai[0xfb] + 1); } if (*(short *)&pDVar24->NumLanes == -0xff) { if ((uVar7 & 1) == 0) { LAB_0002595c: if (bVar5) { uVar7 = 0xffffffff; goto LAB_00025a8c; } } else { if (!bVar5) { uVar7 = 0xffffffff; goto LAB_00025a8c; } } LAB_00025974: if (((int)(uint)(byte)pDVar24->AILanes >> ((int)uVar7 / 2 & 0x1fU) & 1U) != 0) goto LAB_00025a8c; } else { if (((int)(uint)(byte)pDVar24->LaneDirs >> ((int)uVar7 / 2 & 0x1fU) & 1U) == 0) goto LAB_0002595c; if (bVar5) goto LAB_00025974; } uVar7 = 0xffffffff; } else { if (iVar17 < 1) { if ((iVar17 == -0x400) && (uVar29 = (uint)((byte)pDVar24->NumLanes >> 6) & 1, uVar7 = uVar8, uVar29 < uVar8)) { do { if (((((int)(uint)(byte)pDVar24->AILanes >> ((int)uVar29 / 2 & 0x1fU) & 1U) != 0) && ((uVar29 != 0 || ((pDVar24->NumLanes & 0x40U) == 0)))) && ((((uint)(byte)pDVar24->NumLanes & 0xffffff0f) * 2 - 1 != uVar29 || ((pDVar24->NumLanes & 0x80U) == 0)))) { uVar7 = uVar29; if (*(short *)&pDVar24->NumLanes != -0xff) { uVar7 = (int)(uint)(byte)pDVar24->LaneDirs >> ((int)uVar29 / 2 & 0x1fU); } test555 = (uVar7 ^ 1) & 1; uVar7 = uVar29; if (test555 == 0) { if (bVar5) break; } else { if (!bVar5) break; } } uVar29 = uVar29 + 1; uVar7 = uVar8; } while ((int)uVar29 < (int)(((uint)(byte)pDVar24->NumLanes & 0xffffff0f) << 1)); } } else { uVar29 = uVar8; if (iVar17 == 0x400) { do { do { uVar29 = uVar29 - 1; uVar7 = uVar8; if ((int)uVar29 < 0) goto LAB_00025a8c; } while (((((int)(uint)(byte)pDVar24->AILanes >> ((int)uVar29 / 2 & 0x1fU) & 1U) == 0) || ((uVar29 == 0 && ((pDVar24->NumLanes & 0x40U) != 0)))) || ((((uint)(byte)pDVar24->NumLanes & 0xffffff0f) * 2 - 1 == uVar29 && ((pDVar24->NumLanes & 0x80U) != 0)))); uVar7 = uVar29; if (*(short *)&pDVar24->NumLanes != -0xff) { uVar7 = (int)(uint)(byte)pDVar24->LaneDirs >> ((int)uVar29 / 2 & 0x1fU); } test42 = (uVar7 ^ 1) & 1; uVar7 = uVar29; } while (!bVar5); } } } LAB_00025a8c: uVar8 = uVar7; if (*turnAngle != 0) { if (uVar8 - 1 == uVar7) { uVar29 = uVar7; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar29 = (int)(uint)(byte)pDVar30->LaneDirs >> ((int)uVar7 / 2 & 0x1fU); } uVar18 = uVar7; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar18 = (int)(uint)(byte)pDVar30->LaneDirs >> ((int)(uVar7 - 1) / 2 & 0x1fU) ^ 1; } uVar8 = uVar7 - 1; if (((uVar29 ^ 1) & 1) == (uVar18 & 1)) goto LAB_000267a4; } uVar8 = uVar7; if (uVar7 == 0) { uVar29 = 1; if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar29 = ((uint)(byte)pDVar30->LaneDirs ^ 1) & 1; } if ((*(uint *)(pDVar30->ConnectIdx + 3) & 0xffff0000) == 0xff010000) goto LAB_00025b80; LAB_00025ba4: uVar18 = uVar7 + 1; uVar8 = uVar7; if (uVar29 == (((int)(uint)(byte)pDVar30->LaneDirs >> ((int)uVar18 / 2 & 0x1fU) ^ 1U) & 1)) { LAB_00025bc8: uVar8 = uVar18; } } } } LAB_000267a4: if ((int)uVar8 < 0) goto LAB_00026928; cp->ai[0xfb] = (byte)uVar8; if (startDist != (int *)0x0) { iVar17 = uVar25 << 3; if (((uVar25 & 0xffffe000) == 0x4000) && (iVar17 = uVar25 * 8, (int)(uVar25 & 0x1fff) < NumDriver2Curves)) { if ((int)uVar25 < 0) { iVar17 = uVar25 << 3; goto LAB_0002687c; } pDVar24 = Driver2CurvesPtr + (uVar25 - 0x4000); if (*(short *)&pDVar24->NumLanes == -0xff) { if ((uVar8 & 1) == 0) { uVar7 = 0; } else { LAB_00026844: uVar7 = (int)pDVar24->end - (int)pDVar24->start & 0xfff; } } else { if (((int)(uint)(byte)pDVar24->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f) & 1U) != 0) goto LAB_00026844; uVar7 = 0; } *startDist = uVar7; bVar6 = pDVar24->NumLanes; } else { LAB_0002687c: piVar28 = &Driver2StraightsPtr->Midx + (iVar17 - uVar25); if ((piVar28[5] & 0xffff0000U) == 0xff010000) { test555 = 0; if ((cp->ai[0xfb] & 1) != 0) { LAB_000268e0: test555 = ZEXT24(*(ushort *)(piVar28 + 2)); } } else { test555 = 0; if (((int)(uint)*(byte *)((int)piVar28 + 0x17) >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f) & 1U) != 0) goto LAB_000268e0; } test123 = test555; *startDist = test555; bVar6 = *(byte *)((int)piVar28 + 0x16); } cp->ai[0xf8] = speedLimits[(uint)(bVar6 >> 4) & 3]; } if (-1 < (int)uVar25) { return uVar25; } LAB_00026928: cp->ai[0xf9] = 3; cp->ai[0xc] = 7; return 0;*/ } // decompiled code // original method signature: // void /*$ra*/ InitNodeList(struct _CAR_DATA *cp /*$s6*/, char *extraData /*$s7*/) // line 1365, offset 0x00026964 /* begin block 1 */ // Start line: 1366 // Start offset: 0x00026964 // Variables: // int i; // $v1 // struct CIV_ROUTE_ENTRY *cr; // $s5 // int dx; // $s1 // int dz; // $s2 // int surfInd; // $s4 /* begin block 1.1 */ // Start line: 1397 // Start offset: 0x00026A04 // Variables: // int theta; // $s0 // int laneDist; // $s1 // struct DRIVER2_STRAIGHT *str; // $s3 /* end block 1.1 */ // End offset: 0x00026B60 // End Line: 1406 /* begin block 1.2 */ // Start line: 1411 // Start offset: 0x00026B9C // Variables: // struct DRIVER2_CURVE *crv; // $s0 /* end block 1.2 */ // End offset: 0x00026C4C // End Line: 1415 /* end block 1 */ // End offset: 0x00026CAC // End Line: 1425 /* begin block 2 */ // Start line: 2972 /* end block 2 */ // End Line: 2973 /* begin block 3 */ // Start line: 2988 /* end block 3 */ // End Line: 2989 void InitNodeList(_CAR_DATA *cp, char *extraData) { UNIMPLEMENTED(); /* short sVar1; ushort uVar2; undefined2 *puVar3; int iVar4; int iVar5; int iVar6; uint uVar7; int iVar8; DRIVER2_CURVE *pDVar9; DRIVER2_STRAIGHT *pDVar10; uint uVar11; ushort *puVar12; puVar3 = (undefined2 *)(cp->ai + 0x26); iVar6 = 0xc; uVar11 = *(uint *)cp->ai; do { *(undefined4 *)(puVar3 + 3) = 0; *(undefined4 *)(puVar3 + 5) = 0; *puVar3 = 0x7f; iVar6 = iVar6 + -1; puVar3 = puVar3 + 8; } while (-1 < iVar6); iVar6 = (cp->hd).where.t[0]; puVar12 = (ushort *)(cp->ai + 0x24); *(int *)(cp->ai + 0x2c) = iVar6; iVar8 = (cp->hd).where.t[2]; *(undefined2 *)(cp->ai + 0x26) = 1; *(int *)(cp->ai + 0x30) = iVar8; if ((((uVar11 & 0xffffe000) == 0) && ((int)(uVar11 & 0x1fff) < NumDriver2Straights)) && (-1 < (int)uVar11)) { pDVar10 = Driver2StraightsPtr + uVar11; iVar6 = iVar6 - pDVar10->Midx; iVar8 = iVar8 - pDVar10->Midz; iVar4 = ratan2(iVar6, iVar8); sVar1 = pDVar10->angle; iVar5 = SquareRoot0(iVar6 * iVar6 + iVar8 * iVar8); *(uint *)(cp->ai + 0x28) = (uint)(pDVar10->length >> 1) + (rcossin_tbl[(sVar1 - iVar4 & 0xfffU) * 2 + 1] * iVar5 + 0x800 >> 0xc); uVar7 = (uint)(ushort)pDVar10->angle & 0xfff; iVar6 = ((uint)(byte)pDVar10->NumLanes & 0xf) * 0x200 + (-iVar6 * (int)rcossin_tbl[uVar7 * 2 + 1] + iVar8 * rcossin_tbl[uVar7 * 2] + 0x800 >> 0xc); if (iVar6 < 0) { iVar6 = iVar6 + 0x1ff; } uVar7 = iVar6 >> 9; cp->ai[0xfb] = (byte)uVar7; if ((*(uint *)(pDVar10->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar7 = (int)(uint)(byte)pDVar10->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } if ((uVar7 & 1) == 0) { *puVar12 = pDVar10->angle; } else { *puVar12 = pDVar10->angle + 0x800U & 0xfff; } } if ((((uVar11 & 0xffffe000) == 0x4000) && ((int)(uVar11 & 0x1fff) < NumDriver2Curves)) && (-1 < (int)uVar11)) { if (extraData == (char *)0x0) { pDVar9 = Driver2CurvesPtr + (uVar11 - 0x4000); uVar11 = ratan2(*(int *)(cp->ai + 0x2c) - pDVar9->Midx, *(int *)(cp->ai + 0x30) - pDVar9->Midz) ; uVar7 = (uVar11 & 0xfff) - (int)pDVar9->start; uVar11 = uVar7 & 0xf80; if ((9 < (byte)pDVar9->inside) && (uVar11 = uVar7 & 0xfe0, (byte)pDVar9->inside < 0x14)) { uVar11 = uVar7 & 0xfc0; } *(uint *)(cp->ai + 0x28) = uVar11; sVar1 = (short)uVar11 + pDVar9->start; if (*(short *)&pDVar9->NumLanes == -0xff) { uVar11 = (uint)cp->ai[0xfb]; } else { uVar11 = (int)(uint)(byte)pDVar9->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } uVar2 = sVar1 - 0x400; if ((uVar11 & 1) == 0) { uVar2 = sVar1 + 0x400; } *puVar12 = uVar2; } else { *(undefined4 *)(cp->ai + 0x28) = *(undefined4 *)(extraData + 4); *puVar12 = *(ushort *)(extraData + 8); } } if (extraData != (char *)0x0) { *(undefined4 *)(cp->ai + 0x28) = *(undefined4 *)(extraData + 4); } return;*/ } // decompiled code // original method signature: // int /*$ra*/ GetNodePos(struct DRIVER2_STRAIGHT *straight /*$t1*/, struct DRIVER2_JUNCTION *junction /*$a1*/, struct DRIVER2_CURVE *curve /*$t0*/, int distAlongPath /*$a3*/, struct _CAR_DATA *cp /*stack 16*/, int *x /*stack 20*/, int *z /*stack 24*/, int laneNo /*stack 28*/) // line 1441, offset 0x00026cac /* begin block 1 */ // Start line: 1442 // Start offset: 0x00026CAC // Variables: // unsigned char oldLane; // $a0 // unsigned char changeLaneCount; // $t3 /* end block 1 */ // End offset: 0x00026F20 // End Line: 1504 /* begin block 2 */ // Start line: 3154 /* end block 2 */ // End Line: 3155 /* begin block 3 */ // Start line: 3171 /* end block 3 */ // End Line: 3172 int GetNodePos(DRIVER2_STRAIGHT *straight, DRIVER2_JUNCTION *junction, DRIVER2_CURVE *curve, int distAlongPath, _CAR_DATA *cp, int *x, int *z, int laneNo) { UNIMPLEMENTED(); return 0; /* uint uVar1; uint uVar2; uint uVar3; if (cp == (_CAR_DATA *)0x0) { uVar2 = 0; uVar3 = 0; LAB_00026d04: if (curve == (DRIVER2_CURVE *)0x0) { if ((cp != (_CAR_DATA *)0x0) && (straight == (DRIVER2_STRAIGHT *)0x0)) { LAB_00026ce8: cp->ai[0xf9] = 3; cp->ai[0xc] = 7; return 0; } angle = (int)straight->angle; distFromCentre = distAlongPath - (uint)(straight->length >> 1); if ((cp != (_CAR_DATA *)0x0) && (0x7ff < angle)) goto LAB_00026ce8; uVar1 = uVar3; if (laneNo <= (int)uVar2) { uVar1 = -uVar3; } test42 = uVar1 * 0x80; sideShift = (((uint)(byte)straight->NumLanes & 0xf) * 0x200 - (laneNo * 0x200 + 0x100)) + test42; *x = straight->Midx + (distFromCentre * rcossin_tbl[(angle & 0xfffU) * 2] + 0x800 >> 0xc) + (sideShift * rcossin_tbl[(angle & 0xfffU) * 2 + 1] + 0x800 >> 0xc); *z = (straight->Midz + (distFromCentre * rcossin_tbl[(angle & 0xfffU) * 2 + 1] + 0x800 >> 0xc) ) - (sideShift * rcossin_tbl[(angle & 0xfffU) * 2] + 0x800 >> 0xc); goto LAB_00026f00; } } else { uVar2 = (uint)cp->ai[0x11]; uVar3 = (uint)cp->ai[0x12]; if ((straight != (DRIVER2_STRAIGHT *)0x0) || (junction != (DRIVER2_JUNCTION *)0x0)) goto LAB_00026d04; if (curve == (DRIVER2_CURVE *)0x0) goto LAB_00026ce8; } angle = distAlongPath + curve->start; uVar1 = uVar3; if ((int)uVar2 < laneNo) { uVar1 = -uVar3; } test42 = uVar1 * 0x80; radius = (uint)(byte)curve->inside * 0x400 + laneNo * 0x200 + 0x100 + test42; *x = curve->Midx + (radius * rcossin_tbl[(angle & 0xfffU) * 2] + 0x800 >> 0xc); *z = curve->Midz + (radius * rcossin_tbl[(angle & 0xfffU) * 2 + 1] + 0x800 >> 0xc); LAB_00026f00: if (uVar3 != 0) { cp->ai[0x12] = cp->ai[0x12] - 1; } return 0; */ } // decompiled code // original method signature: // int /*$ra*/ CheckChangeLanes(struct DRIVER2_STRAIGHT *straight /*$s4*/, struct DRIVER2_CURVE *curve /*$s6*/, int distAlongSegment /*$a2*/, struct _CAR_DATA *cp /*$s3*/, int tryToPark /*stack 16*/) // line 1507, offset 0x00026f20 /* begin block 1 */ // Start line: 1508 // Start offset: 0x00026F20 // Variables: // unsigned char currentLane; // $s7 // unsigned char newLane; // $s2 // unsigned char trials; // $t3 // unsigned char canProceed; // stack offset -88 // unsigned char travelAlongRoad; // $s5 // unsigned char turnRight; // stack offset -84 // struct _CAR_DATA *cp1; // $s0 // struct CIV_ROUTE_ENTRY tmpNode; // stack offset -120 /* begin block 1.1 */ // Start line: 1572 // Start offset: 0x00027290 // Variables: // struct VECTOR pos; // stack offset -104 // int theta; // $a0 // int length; // $a1 /* begin block 1.1.1 */ // Start line: 1588 // Start offset: 0x00027394 /* end block 1.1.1 */ // End offset: 0x00027494 // End Line: 1596 /* end block 1.1 */ // End offset: 0x000274A4 // End Line: 1598 /* end block 1 */ // End offset: 0x00027530 // End Line: 1623 /* begin block 2 */ // Start line: 3328 /* end block 2 */ // End Line: 3329 /* begin block 3 */ // Start line: 3332 /* end block 3 */ // End Line: 3333 /* begin block 4 */ // Start line: 3337 /* end block 4 */ // End Line: 3338 int CheckChangeLanes(DRIVER2_STRAIGHT *straight, DRIVER2_CURVE *curve, int distAlongSegment, _CAR_DATA *cp, int tryToPark) { UNIMPLEMENTED(); return 0; /* byte bVar1; bool bVar2; byte bVar3; uint uVar4; long lVar5; int iVar6; CAR_COSMETICS *pCVar7; uint uVar8; int iVar9; uint uVar10; _CAR_DATA *p_Var11; uint uVar12; uint uVar13; uint unaff_s5; bool local_54; bVar2 = false; bVar1 = cp->ai[0xfb]; uVar12 = (uint)bVar1; if ((cp->ai[0xc] != 8) && (*(int *)(cp->ai + 0x18) == 0)) { if (straight == (DRIVER2_STRAIGHT *)0x0) { bVar3 = curve->NumLanes; } else { bVar3 = straight->NumLanes; } uVar4 = ((uint)bVar3 & 0xf) * 2; lVar5 = Random2((int)straight); uVar13 = uVar12 + (lVar5 >> 7 & 2U) + 0xff & 0xff; if (tryToPark != 0) { if (bVar1 == 1) { uVar13 = 0; } else { if (uVar4 - 2 == uVar12) { uVar13 = uVar4 - 1 & 0xff; } } } bVar3 = 0; uVar10 = (uVar12 ^ 1) & 1; do { if (bVar3 == 1) { uVar13 = uVar12 * 2 - uVar13 & 0xff; } if ((uVar13 == 0xff) || (uVar4 <= uVar13)) goto LAB_000274bc; if ((gCurrentMissionNumber == 0x21) && (makeLimoPullOver != '\0')) { LAB_0002718c: if (straight != (DRIVER2_STRAIGHT *)0x0) { unaff_s5 = uVar10; if ((*(uint *)(straight->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { unaff_s5 = ((int)(uint)(byte)straight->LaneDirs >> ((uint)(bVar1 >> 1) & 0x1f) ^ 1U) & 1 ; } uVar8 = uVar13; if ((*(uint *)(straight->ConnectIdx + 3) & 0xffff0000) != 0xff010000) { uVar8 = (int)(uint)(byte)straight->LaneDirs >> (uVar13 >> 1 & 0x1f); } if (((uVar8 ^ 1) & 1) != unaff_s5) goto LAB_000274bc; } if (curve != (DRIVER2_CURVE *)0x0) { unaff_s5 = uVar10; if ((*(uint *)&curve->NumLanes & 0xffff) != 0xff01) { unaff_s5 = ((int)(uint)(byte)curve->LaneDirs >> ((uint)(bVar1 >> 1) & 0x1f) ^ 1U) & 1; } uVar8 = uVar13; if ((*(uint *)&curve->NumLanes & 0xffff) != 0xff01) { uVar8 = (int)(uint)(byte)curve->LaneDirs >> (uVar13 >> 1 & 0x1f); } if (((uVar8 ^ 1) & 1) != unaff_s5) goto LAB_000274bc; } if ((*(int *)(cp->ai + 8) == 0) && (*(int *)(cp->ai + 0x14) == -1)) { bVar2 = true; local_54 = unaff_s5 != 0; if (uVar12 < uVar13) { local_54 = !local_54; } iVar6 = (cp->hd).direction; uVar8 = iVar6 - 0x400; if (local_54 != false) { uVar8 = iVar6 + 0x400; } cd.x.vx = (cp->hd).oBox.location.vx + ((int)rcossin_tbl[(uVar8 & 0xfff) * 2] * 0x200 + 0x800 >> 0xc); cd.x.vz = (cp->hd).oBox.location.vz + ((int)rcossin_tbl[(uVar8 & 0xfff) * 2 + 1] * 0x200 + 0x800 >> 0xc); cd.length[0] = (int)(((cp->ap).carCos)->colBox).vz + 0x5d; cd.length[1] = (int)(((cp->ap).carCos)->colBox).vx; cd.theta = (cp->hd).direction; p_Var11 = car_data + 0x13; do { if ((p_Var11 != cp) && (p_Var11->controlType != '\0')) { pCVar7 = (p_Var11->ap).carCos; CDATA2D_000bd0e4.length[0] = (int)(pCVar7->colBox).vz + 0x5d; CDATA2D_000bd0e4.x.vx = (p_Var11->hd).oBox.location.vx; CDATA2D_000bd0e4.length[1] = (int)(pCVar7->colBox).vx; CDATA2D_000bd0e4.x.vz = (p_Var11->hd).oBox.location.vz; CDATA2D_000bd0e4.theta = (p_Var11->hd).direction; iVar9 = ((cd.length[0] + CDATA2D_000bd0e4.length[0]) * 3) / 2; iVar6 = cd.x.vx - CDATA2D_000bd0e4.x.vx; if (iVar6 < 0) { iVar6 = CDATA2D_000bd0e4.x.vx - cd.x.vx; } if (iVar6 < iVar9) { iVar6 = cd.x.vz - CDATA2D_000bd0e4.x.vz; if (iVar6 < 0) { iVar6 = CDATA2D_000bd0e4.x.vz - cd.x.vz; } if ((iVar6 < iVar9) && (iVar6 = bcollided2d(&cd, 1), iVar6 != 0)) { bVar2 = false; break; } } } p_Var11 = p_Var11 + -1; } while ((_CAR_DATA *)((int)&cheats.MagicMirror + 3U) < p_Var11); if (bVar2) goto LAB_000274d8; } } else { if (tryToPark == 0) { if (((straight == (DRIVER2_STRAIGHT *)0x0) || (((((int)(uint)(byte)straight->AILanes >> (uVar13 >> 1 & 0x1f) & 1U) != 0 && ((uVar13 != 0 || ((straight->NumLanes & 0x40U) == 0)))) && ((((uint)(byte)straight->NumLanes & 0xf) * 2 - 1 != uVar13 || ((straight->NumLanes & 0x80U) == 0)))))) && ((curve == (DRIVER2_CURVE *)0x0 || (((((int)(uint)(byte)curve->AILanes >> (uVar13 >> 1 & 0x1f) & 1U) != 0 && ((uVar13 != 0 || ((curve->NumLanes & 0x40U) == 0)))) && ((((uint)(byte)curve->NumLanes & 0xf) * 2 - 1 != uVar13 || ((curve->NumLanes & 0x80U) == 0)))))))) goto LAB_0002718c; } else { if (((straight == (DRIVER2_STRAIGHT *)0x0) || (((int)(uint)(byte)straight->AILanes >> (uVar13 >> 1 & 0x1f) & 1U) != 0)) && ((curve == (DRIVER2_CURVE *)0x0 || (((int)(uint)(byte)curve->AILanes >> (uVar13 >> 1 & 0x1f) & 1U) != 0)))) goto LAB_0002718c; } } LAB_000274bc: bVar3 = bVar3 + 1; } while (bVar3 < 2); if (bVar2) { LAB_000274d8: *(undefined4 *)(cp->ai + 0x18) = 0xa1; cp->ai[0x11] = bVar1; cp->ai[0x12] = 4; *(bool *)(cp->ai + 0xe) = local_54; uVar12 = uVar13; } } return uVar12; */ } // decompiled code // original method signature: // int /*$ra*/ CreateNewNode(struct _CAR_DATA *cp /*$s4*/) // line 1637, offset 0x00027530 /* begin block 1 */ // Start line: 1638 // Start offset: 0x00027530 // Variables: // int oldRoad; // $s1 // int cr; // $a3 // struct CIV_ROUTE_ENTRY *newNode; // $s6 // struct CIV_ROUTE_ENTRY *oldNode; // $s3 // struct DRIVER2_CURVE *curve; // $s0 // struct DRIVER2_STRAIGHT *straight; // $s5 // int turnAngle; // stack offset -56 /* begin block 1.1 */ // Start line: 1638 // Start offset: 0x00027530 // Variables: // struct _CAR_DATA *cp; // $s4 // struct CIV_ROUTE_ENTRY *currentNode; // $v1 /* begin block 1.1.1 */ // Start line: 1638 // Start offset: 0x00027530 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $a0 /* end block 1.1.1 */ // End offset: 0x0002757C // End Line: 1638 /* end block 1.1 */ // End offset: 0x0002757C // End Line: 1638 /* begin block 1.2 */ // Start line: 1638 // Start offset: 0x0002758C // Variables: // struct _CAR_DATA *cp; // $s4 /* begin block 1.2.1 */ // Start line: 1638 // Start offset: 0x0002758C // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $a0 /* end block 1.2.1 */ // End offset: 0x0002759C // End Line: 1638 /* end block 1.2 */ // End offset: 0x0002759C // End Line: 1638 /* begin block 1.3 */ // Start line: 1638 // Start offset: 0x000275A8 // Variables: // struct _CAR_DATA *cp; // $s4 /* begin block 1.3.1 */ // Start line: 1638 // Start offset: 0x000275A8 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $a0 /* end block 1.3.1 */ // End offset: 0x000275B8 // End Line: 1638 /* end block 1.3 */ // End offset: 0x000275B8 // End Line: 1638 /* begin block 1.4 */ // Start line: 1638 // Start offset: 0x000275C4 // Variables: // struct _CAR_DATA *cp; // $s4 /* begin block 1.4.1 */ // Start line: 1638 // Start offset: 0x000275C4 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $a0 /* end block 1.4.1 */ // End offset: 0x000275D4 // End Line: 1638 /* end block 1.4 */ // End offset: 0x000275D4 // End Line: 1638 /* begin block 1.5 */ // Start line: 1653 // Start offset: 0x000275F0 // Variables: // struct _CAR_DATA *cp; // $s4 // struct CIV_ROUTE_ENTRY *currentNode; // $s3 /* begin block 1.5.1 */ // Start line: 1653 // Start offset: 0x000275F0 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $v1 /* end block 1.5.1 */ // End offset: 0x000275F0 // End Line: 1653 /* end block 1.5 */ // End offset: 0x000275F0 // End Line: 1653 /* begin block 1.6 */ // Start line: 1655 // Start offset: 0x000275F0 /* begin block 1.6.1 */ // Start line: 1638 // Start offset: 0x000275F0 // Variables: // struct _CAR_DATA *cp; // $s4 /* begin block 1.6.1.1 */ // Start line: 1638 // Start offset: 0x000275F0 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $v1 /* end block 1.6.1.1 */ // End offset: 0x00027600 // End Line: 1638 /* end block 1.6.1 */ // End offset: 0x00027600 // End Line: 1638 /* end block 1.6 */ // End offset: 0x00027610 // End Line: 1658 /* begin block 1.7 */ // Start line: 1659 // Start offset: 0x00027634 // Variables: // struct _CAR_DATA *cp; // $s4 // struct CIV_ROUTE_ENTRY *currentNode; // $s3 /* begin block 1.7.1 */ // Start line: 1659 // Start offset: 0x00027634 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $s2 /* end block 1.7.1 */ // End offset: 0x0002764C // End Line: 1659 /* end block 1.7 */ // End offset: 0x0002764C // End Line: 1659 /* begin block 1.8 */ // Start line: 1681 // Start offset: 0x000276E8 // Variables: // int travelDir; // $a1 // int segmentEnd; // $a0 /* begin block 1.8.1 */ // Start line: 1688 // Start offset: 0x000277B0 // Variables: // int startDist; // stack offset -52 /* end block 1.8.1 */ // End offset: 0x00027808 // End Line: 1688 /* end block 1.8 */ // End offset: 0x00027818 // End Line: 1688 /* begin block 1.9 */ // Start line: 1692 // Start offset: 0x0002784C // Variables: // int travelDir; // $a2 // int segmentEnd; // $t0 /* begin block 1.9.1 */ // Start line: 1699 // Start offset: 0x00027954 // Variables: // int startDist; // stack offset -48 /* end block 1.9.1 */ // End offset: 0x00027990 // End Line: 1699 /* end block 1.9 */ // End offset: 0x000279A4 // End Line: 1700 /* begin block 1.10 */ // Start line: 1717 // Start offset: 0x00027A18 // Variables: // struct CIV_ROUTE_ENTRY tmpNode; // stack offset -72 /* begin block 1.10.1 */ // Start line: 1721 // Start offset: 0x00027A58 // Variables: // int travelDir; // $a0 /* end block 1.10.1 */ // End offset: 0x00027B18 // End Line: 1732 /* begin block 1.10.2 */ // Start line: 1739 // Start offset: 0x00027B90 // Variables: // struct _CAR_DATA *playerCar; // $v0 // int dx; // $v1 // int dz; // $a0 /* end block 1.10.2 */ // End offset: 0x00027C00 // End Line: 1744 /* begin block 1.10.3 */ // Start line: 1751 // Start offset: 0x00027C38 // Variables: // int tryToPark; // $s1 /* end block 1.10.3 */ // End offset: 0x00027DA0 // End Line: 1773 /* begin block 1.10.4 */ // Start line: 1779 // Start offset: 0x00027E04 // Variables: // int radOfCrv; // $s5 // int cornerAngle; // $a3 // int segLength; // $s0 // int tmp; // $a1 // int dx; // $s1 // int dz; // $s0 /* begin block 1.10.4.1 */ // Start line: 1789 // Start offset: 0x00027EBC // Variables: // struct _CAR_DATA *cp; // $s4 /* begin block 1.10.4.1.1 */ // Start line: 1789 // Start offset: 0x00027EBC // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $a0 /* end block 1.10.4.1.1 */ // End offset: 0x00027F44 // End Line: 1792 /* end block 1.10.4.1 */ // End offset: 0x00027F44 // End Line: 1792 /* begin block 1.10.4.2 */ // Start line: 1800 // Start offset: 0x00027F78 // Variables: // struct _CAR_DATA *cp; // $s4 /* begin block 1.10.4.2.1 */ // Start line: 1800 // Start offset: 0x00027F78 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $a0 /* end block 1.10.4.2.1 */ // End offset: 0x0002800C // End Line: 1803 /* end block 1.10.4.2 */ // End offset: 0x0002800C // End Line: 1803 /* end block 1.10.4 */ // End offset: 0x0002800C // End Line: 1806 /* begin block 1.10.5 */ // Start line: 1810 // Start offset: 0x0002800C /* begin block 1.10.5.1 */ // Start line: 1638 // Start offset: 0x0002800C // Variables: // struct _CAR_DATA *cp; // $s4 // struct CIV_ROUTE_ENTRY *currentNode; // $s6 /* begin block 1.10.5.1.1 */ // Start line: 1638 // Start offset: 0x0002800C // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $v0 /* end block 1.10.5.1.1 */ // End offset: 0x0002800C // End Line: 1638 /* end block 1.10.5.1 */ // End offset: 0x0002800C // End Line: 1638 /* end block 1.10.5 */ // End offset: 0x0002801C // End Line: 1814 /* end block 1.10 */ // End offset: 0x0002801C // End Line: 1814 /* end block 1 */ // End offset: 0x000280D8 // End Line: 1828 /* begin block 2 */ // Start line: 3743 /* end block 2 */ // End Line: 3744 /* begin block 3 */ // Start line: 3758 /* end block 3 */ // End Line: 3759 /* WARNING: Could not reconcile some variable overlaps */ int CreateNewNode(_CAR_DATA *cp) { UNIMPLEMENTED(); return 0; /* short sVar1; uint uVar2; long lVar3; _CAR_DATA *oldNode; _CAR_DATA *p_Var4; _CAR_DATA *p_Var5; int iVar6; undefined4 uVar7; _CAR_DATA *p_Var8; int iVar9; uint tryToPark; DRIVER2_CURVE *curve; int iVar10; int iVar11; DRIVER2_STRAIGHT *straight; short local_48; int local_40; int local_3c; int local_38; int local_34; int local_30[2]; oldNode = *(_CAR_DATA **)(cp->ai + 0xf4); p_Var8 = (_CAR_DATA *)(cp->ai + 0xf4); tstNode1 = (CIV_ROUTE_ENTRY *)((oldNode->hd).where.m + 8); local_38 = 0; if (p_Var8 <= tstNode1) { tstNode1 = (CIV_ROUTE_ENTRY *)(oldNode[-1].ai + 0x50); } p_Var5 = (_CAR_DATA *)((oldNode->hd).where.m + 8); if (cp < tstNode1) { if (p_Var8 <= p_Var5) { p_Var5 = (_CAR_DATA *)(oldNode[-1].ai + 0x50); } p_Var4 = (_CAR_DATA *)&(oldNode->hd).drawCarMat; if (p_Var5 < cp + 1) { p_Var5 = p_Var4; if (p_Var8 <= p_Var4) { p_Var5 = (_CAR_DATA *)(oldNode[-1].ai + 0x60); } if (cp < p_Var5) { if (p_Var8 <= p_Var4) { p_Var4 = (_CAR_DATA *)(oldNode[-1].ai + 0x60); } if ((p_Var4 < cp + 1) && (oldNode != (_CAR_DATA *)0x0)) { do { p_Var4 = (_CAR_DATA *)((oldNode->hd).where.m + 8); p_Var5 = p_Var4; if (p_Var8 <= p_Var4) { p_Var5 = (_CAR_DATA *)(oldNode[-1].ai + 0x50); } if ((p_Var5->hd).where.m[1] == 0x7f) { tryToPark = *(uint *)cp->ai; if (p_Var8 <= p_Var4) { p_Var4 = (_CAR_DATA *)(oldNode[-1].ai + 0x50); } if ((uint)(byte)cp->id == makeNextNodeCtrlNode) { *(_CAR_DATA **)(cp->ai + 8) = p_Var4; makeNextNodeCtrlNode = -1; } if (((((tryToPark & 0xffffe000) != 0) || (NumDriver2Straights <= (int)(tryToPark & 0x1fff))) && (((tryToPark & 0xffffe000) != 0x4000 || (NumDriver2Curves <= (int)(tryToPark & 0x1fff))))) || ((int)tryToPark < 0)) break; if (((tryToPark & 0xffffe000) == 0) && ((int)(tryToPark & 0x1fff) < NumDriver2Straights)) { straight = Driver2StraightsPtr + tryToPark; if ((*(uint *)(straight->ConnectIdx + 3) & 0xffff0000) == 0xff010000) { uVar2 = (uint)cp->ai[0xfb]; } else { uVar2 = (int)(uint)(byte)straight->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } iVar9 = -1; if ((uVar2 & 1) == 0) { iVar9 = 1; } uVar2 = (uint)straight->length; iVar6 = *(int *)((oldNode->hd).where.m + 2) + iVar9 * 0x400; *(int *)((p_Var4->hd).where.m + 2) = iVar6; (p_Var4->hd).where.m[0] = (oldNode->hd).where.m[0]; if (((0 < iVar9) && ((int)uVar2 < iVar6)) || ((iVar9 < 0 && (iVar6 < 0)))) { if (((iVar9 < 1) || (*(int *)((oldNode->hd).where.m + 2) < (int)uVar2)) && ((-1 < iVar9 || (0 < *(int *)((oldNode->hd).where.m + 2))))) { if (iVar9 < 1) { LAB_000279a0: *(undefined4 *)((p_Var4->hd).where.m + 2) = 0; } else { *(uint *)((p_Var4->hd).where.m + 2) = uVar2; } } else { iVar9 = GetNextRoadInfo(cp, 1, &local_38, &local_34, (CIV_ROUTE_ENTRY *)oldNode); *(int *)cp->ai = iVar9; (p_Var4->hd).where.m[0] = (oldNode->hd).where.m[0] + (short)local_38 & 0xfff; *(int *)((p_Var4->hd).where.m + 2) = local_34; LAB_000277f0: if (*(int *)cp->ai == -1) break; } } } else { if (((tryToPark & 0xffffe000) == 0x4000) && (((int)(tryToPark & 0x1fff) < NumDriver2Curves && (-1 < (int)tryToPark)))) { curve = Driver2CurvesPtr + (tryToPark - 0x4000); if (*(short *)&curve->NumLanes == -0xff) { uVar2 = (uint)cp->ai[0xfb]; } else { uVar2 = (int)(uint)(byte)curve->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } iVar9 = -1; if ((uVar2 & 1) == 0) { iVar9 = 1; } uVar2 = (int)curve->end - (int)curve->start & 0xfff; if ((byte)curve->inside < 10) { iVar6 = iVar9 << 7; } else { iVar6 = iVar9 << 6; if (0x13 < (byte)curve->inside) { iVar6 = iVar9 << 5; } } iVar6 = *(int *)((oldNode->hd).where.m + 2) + iVar6; *(int *)((p_Var4->hd).where.m + 2) = iVar6; (p_Var4->hd).where.m[0] = (p_Var4->hd).where.m[2] + curve->start + (short)iVar9 * 0x400 & 0xfff; if (((0 < iVar9) && ((int)uVar2 < iVar6)) || ((iVar9 < 0 && (iVar6 < 0)))) { if (((0 < iVar9) && ((int)uVar2 <= *(int *)((oldNode->hd).where.m + 2))) || ((iVar9 < 0 && (*(int *)((oldNode->hd).where.m + 2) < 1)))) { iVar9 = GetNextRoadInfo(cp, 1, &local_38, local_30, (CIV_ROUTE_ENTRY *)oldNode); *(int *)cp->ai = iVar9; (p_Var4->hd).where.m[0] = (oldNode->hd).where.m[0] + (short)local_38 & 0xfff; *(int *)((p_Var4->hd).where.m + 2) = local_30[0]; goto LAB_000277f0; } if (iVar9 < 1) goto LAB_000279a0; *(uint *)((p_Var4->hd).where.m + 2) = uVar2; } } } uVar2 = *(uint *)cp->ai; if (-1 < (int)uVar2) { curve = (DRIVER2_CURVE *)0x0; if (((uVar2 & 0xffffe000) == 0x4000) && (straight = (DRIVER2_STRAIGHT *)0x0, (int)(uVar2 & 0x1fff) < NumDriver2Curves)) { curve = Driver2CurvesPtr + (uVar2 - 0x4000); } else { straight = Driver2StraightsPtr + uVar2; } local_40 = *(int *)((p_Var4->hd).where.m + 4); local_3c = *(int *)((p_Var4->hd).where.m + 6); if ((tryToPark != uVar2) && (local_38 == 0)) { if (straight == (DRIVER2_STRAIGHT *)0x0) { if (*(short *)&curve->NumLanes == -0xff) { tryToPark = (uint)cp->ai[0xfb]; } else { tryToPark = (int)(uint)(byte)curve->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } iVar9 = -1; if ((tryToPark & 1) == 0) { iVar9 = 1; } iVar6 = iVar9 << 7; if ((9 < (byte)curve->inside) && (iVar6 = iVar9 << 6, 0x13 < (byte)curve->inside)) { iVar6 = iVar9 << 5; } iVar6 = *(int *)((p_Var4->hd).where.m + 2) + iVar6; } else { if ((*(uint *)(straight->ConnectIdx + 3) & 0xffff0000) == 0xff010000) { tryToPark = (uint)cp->ai[0xfb]; } else { tryToPark = (int)(uint)(byte)straight->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } iVar9 = -1; if ((tryToPark & 1) == 0) { iVar9 = 1; } iVar6 = *(int *)((p_Var4->hd).where.m + 2) + iVar9 * 0x400; } *(int *)((p_Var4->hd).where.m + 2) = iVar6; } if ((((gCurrentMissionNumber == 0x21) && (iVar9 = CarHasSiren((uint)(byte)car_data[player.playerCarId].ap.model), iVar9 != 0)) && (player.horn.on != '\0')) && (((cp->ap).model == '\x04' && (iVar9 = car_data[player.playerCarId].hd.where.t[0] - (cp->hd).where.t[0], iVar6 = car_data[player.playerCarId].hd.where.t[2] - (cp->hd).where.t[2], iVar9 * iVar9 + iVar6 * iVar6 < 16000000)))) { makeLimoPullOver = '\x01'; } lVar3 = Random2(0); if (((lVar3 + (uint)(byte)cp->id * 0x20 & 0xf1) == 0xf1) || (makeLimoPullOver != '\0')) { tryToPark = 0; if (numParkedCars < maxParkedCars) { tryToPark = Random2(0); tryToPark = (uint)((tryToPark & 2) != 0); } if ((gCurrentMissionNumber == 0x21) && ((cp->ap).model == '\x04')) { tryToPark = (uint)(makeLimoPullOver != '\0'); } uVar2 = CheckChangeLanes(straight, curve, *(int *)((p_Var4->hd).where.m + 2), cp, tryToPark); uVar2 = uVar2 & 0xff; if (((uVar2 != (uint)cp->ai[0xfb]) && (cp->ai[0xfb] = (byte)uVar2, tryToPark != 0) ) && ((makeLimoPullOver != '\0' || ((cp->ai[0xc] == 0 && (((straight != (DRIVER2_STRAIGHT *)0x0 && (((uVar2 == 0 && ((straight->NumLanes & 0x40U) != 0)) || ((((uint)(byte)straight->NumLanes & 0xf) * 2 - 1 == (uint)cp->ai[0xfb] && ((straight->NumLanes & 0x80U) != 0)))))) || ((curve != (DRIVER2_CURVE *)0x0 && (((cp->ai[0xfb] == 0 && ((curve->NumLanes & 0x40U) != 0)) || ((((uint)(byte)curve->NumLanes & 0xf) * 2 - 1 == (uint)cp->ai[0xfb] && ((curve->NumLanes & 0x80U) != 0)))))))))))))) { makeNextNodeCtrlNode = ZEXT14((byte)cp->id); cp->ai[0xc] = 8; *(_CAR_DATA **)(cp->ai + 8) = p_Var4; cp->ai[0x12] = 0; } } tryToPark = *(uint *)(p_Var4->hd).where.m; uVar7 = *(undefined4 *)((p_Var4->hd).where.m + 2); local_40 = *(int *)((p_Var4->hd).where.m + 4); local_3c = *(int *)((p_Var4->hd).where.m + 6); GetNodePos(straight, (DRIVER2_JUNCTION *)0x0, curve, *(int *)((p_Var4->hd).where.m + 2) , cp, &local_40, &local_3c, (uint)cp->ai[0xfb]); if (local_38 == -0x400) { iVar11 = local_40 - *(int *)((oldNode->hd).where.m + 4); iVar10 = local_3c - *(int *)((oldNode->hd).where.m + 6); iVar9 = (cp->hd).wheel_speed / 0xaa; iVar6 = SquareRoot0(iVar11 * iVar11 + iVar10 * iVar10); iVar10 = ratan2(iVar11, iVar10); uVar2 = ((iVar10 - (oldNode->hd).where.m[0]) + 0x800U & 0xfff) - 0x800; iVar10 = (iVar6 - iVar9) * (int)rcossin_tbl[(uVar2 & 0xfff) * 2 + 1] + 0x800 >> 0xc; p_Var5 = p_Var4; if (0 < iVar10) { *(int *)((p_Var4->hd).where.m + 4) = *(int *)((oldNode->hd).where.m + 4) + (iVar10 * rcossin_tbl[((uint)(ushort)(oldNode->hd).where.m[0] & 0xfff) * 2] + 0x800 >> 0xc); p_Var5 = (_CAR_DATA *)((p_Var4->hd).where.m + 8); *(int *)((p_Var4->hd).where.m + 6) = *(int *)((oldNode->hd).where.m + 6) + (iVar10 * rcossin_tbl [((uint)(ushort)(oldNode->hd).where.m[0] & 0xfff) * 2 + 1] + 0x800 >> 0xc); sVar1 = (oldNode->hd).where.m[0]; (p_Var4->hd).where.m[1] = 1; (p_Var4->hd).where.m[0] = sVar1; if (p_Var8 <= p_Var5) { p_Var5 = (_CAR_DATA *)(p_Var4[-1].ai + 0x50); } } iVar9 = (iVar6 - iVar9) * (int)rcossin_tbl[(uVar2 & 0xfff) * 2] + 0x800 >> 0xc; p_Var4 = p_Var5; if (iVar9 < 0) { local_48 = (short)tryToPark; *(int *)((p_Var5->hd).where.m + 4) = local_40 + (iVar9 * rcossin_tbl[(tryToPark & 0xfff) * 2] + 0x800 >> 0xc); p_Var4 = (_CAR_DATA *)((p_Var5->hd).where.m + 8); *(int *)((p_Var5->hd).where.m + 6) = local_3c + (iVar9 * rcossin_tbl[(tryToPark & 0xfff) * 2 + 1] + 0x800 >> 0xc); (p_Var5->hd).where.m[1] = 1; (p_Var5->hd).where.m[0] = local_48; if (p_Var8 <= p_Var4) { p_Var4 = (_CAR_DATA *)(p_Var5[-1].ai + 0x50); } } } if ((p_Var4->hd).where.m[1] == 0x7f) { *(uint *)(p_Var4->hd).where.m = tryToPark; *(undefined4 *)((p_Var4->hd).where.m + 2) = uVar7; *(int *)((p_Var4->hd).where.m + 4) = local_40; if (local_40 < 0) { local_40 = -local_40; } *(int *)((p_Var4->hd).where.m + 6) = local_3c; if (local_40 < 600000) { if (local_38 != 0) { *(int *)(cp->ai + 0x14) = (int)p_Var4 + (-0x1b0 - (int)cp) >> 4; *(bool *)(cp->ai + 0xf) = local_38 == 0x400; } (p_Var4->hd).where.m[1] = 1; return 1; } } } break; } if (p_Var8 <= p_Var4) { p_Var4 = (_CAR_DATA *)(oldNode[-1].ai + 0x50); } oldNode = p_Var4; } while (p_Var4 != *(_CAR_DATA **)(cp->ai + 0xf4)); } } } } cp->ai[0xf9] = 3; cp->ai[0xc] = 7; return 0;*/ } // decompiled code // original method signature: // int /*$ra*/ InitCivState(struct _CAR_DATA *cp /*$s1*/, char *extraData /*$s2*/) // line 1843, offset 0x000280d8 /* begin block 1 */ // Start line: 1844 // Start offset: 0x000280D8 // Variables: // struct CIV_STATE *cs; // $s0 /* end block 1 */ // End offset: 0x000282E8 // End Line: 1887 /* begin block 2 */ // Start line: 4201 /* end block 2 */ // End Line: 4202 /* begin block 3 */ // Start line: 4217 /* end block 3 */ // End Line: 4218 int InitCivState(_CAR_DATA *cp, char *extraData) { UNIMPLEMENTED(); return 0; /* uint uVar1; long lVar2; int iVar3; uint *puVar4; puVar4 = (uint *)cp->ai; cp->controlType = '\x02'; if (extraData == (char *)0x0) { cp->ai[0xf9] = 0; } else { cp->ai[0xf9] = extraData[0xc]; } if (cp->ai[0xf9] == 3) { LAB_000282b4: if (extraData == (char *)0x0) { cp->ai[0xc] = 0; } else { cp->ai[0xc] = extraData[10]; } iVar3 = 1; } else { if (extraData == (char *)0x0) { uVar1 = GetSurfaceIndex((VECTOR *)(cp->hd).where.t); *puVar4 = uVar1; } else { *puVar4 = *(uint *)extraData; } uVar1 = *puVar4; if (-1 < (int)uVar1) { *(undefined4 *)(cp->ai + 4) = 0; *(undefined4 *)(cp->ai + 0xf4) = 0; *(undefined4 *)(cp->ai + 8) = 0; *(undefined4 *)(cp->ai + 0x14) = 0xffffffff; if (((((uVar1 & 0xffffe000) == 0) && ((int)(uVar1 & 0x1fff) < NumDriver2Straights)) || (((uVar1 & 0xffffe000) == 0x4000 && ((int)(uVar1 & 0x1fff) < NumDriver2Curves)))) && (uVar1 = *puVar4, -1 < (int)uVar1)) { if (cp->ai[0xf9] != 3) { if (((uVar1 & 0xffffe000) == 0) && ((int)(uVar1 & 0x1fff) < NumDriver2Straights)) { cp->ai[0xf8] = speedLimits[(uint)((byte)Driver2StraightsPtr[uVar1].NumLanes >> 4) & 3]; } else { cp->ai[0xf8] = speedLimits [(uint)((byte)Driver2CurvesPtr[uVar1 - 0x4000].NumLanes >> 4) & 3]; } InitNodeList(cp, extraData); *(byte **)(cp->ai + 0xf4) = cp->ai + 0x24; lVar2 = *(long *)(cp->ai + 0x30); (cp->hd).where.t[0] = *(long *)(cp->ai + 0x2c); (cp->hd).where.t[2] = lVar2; if (cp->ai[0xf9] != 3) { return 1; } } goto LAB_000282b4; } } iVar3 = 0; cp->ai[0xf9] = 3; cp->ai[0xc] = 7; } return iVar3;*/ } // decompiled code // original method signature: // int /*$ra*/ PingOutCar(struct _CAR_DATA *cp /*$s0*/) // line 1977, offset 0x0002cf80 /* begin block 1 */ // Start line: 7534 /* end block 1 */ // End Line: 7535 /* begin block 2 */ // Start line: 3954 /* end block 2 */ // End Line: 3955 /* begin block 3 */ // Start line: 7535 /* end block 3 */ // End Line: 7536 int PingOutCar(_CAR_DATA *cp) { UNIMPLEMENTED(); return 0; /* int iVar1; uint *puVar2; testNumPingedOut = testNumPingedOut + 1; if (cp->controlType == '\x02') { if ((cp->controlFlags & 1) != 0) { numCopCars = numCopCars + -1; } numCivCars = numCivCars + -1; if ((cp->ai[0xf9] == 3) && (cp->ai[0xc] == 5)) { numParkedCars = numParkedCars + -1; } } else { if ((PingOutCivsOnly != '\0') && (iVar1 = valid_region((cp->hd).where.t[0], (cp->hd).where.t[2]), iVar1 != 0)) { return 0; } } puVar2 = (uint *)cp->inform; if (puVar2 != (uint *)0x0) { *puVar2 = *puVar2 ^ 0x40000000; } ClearMem((char *)cp, 0x29c); cp->controlType = '\0'; return 1;*/ } // decompiled code // original method signature: // int /*$ra*/ PingOutAllSpecialCivCars() // line 2016, offset 0x000282e8 /* begin block 1 */ // Start line: 2018 // Start offset: 0x000282E8 // Variables: // struct _CAR_DATA *lcp; // $s0 /* begin block 1.1 */ // Start line: 2017 // Start offset: 0x00028348 // Variables: // struct _CAR_DATA *cp; // $s0 /* end block 1.1 */ // End offset: 0x000283E4 // End Line: 2017 /* end block 1 */ // End offset: 0x0002840C // End Line: 2025 /* begin block 2 */ // Start line: 4449 /* end block 2 */ // End Line: 4450 /* begin block 3 */ // Start line: 4579 /* end block 3 */ // End Line: 4580 /* begin block 4 */ // Start line: 4580 /* end block 4 */ // End Line: 4581 /* begin block 5 */ // Start line: 4581 /* end block 5 */ // End Line: 4582 /* WARNING: Unknown calling convention yet parameter storage is locked */ int PingOutAllSpecialCivCars(void) { UNIMPLEMENTED(); return 0; /* uint *puVar1; _CAR_DATA *mem; mem = car_data; do { if ((mem->controlType == '\x02') && (4 < MissionHeader->residentModels[(byte)(mem->ap).model])) { testNumPingedOut = testNumPingedOut + 1; if ((mem->controlFlags & 1) != 0) { numCopCars = numCopCars + -1; } numCivCars = numCivCars + -1; if ((mem->ai[0xf9] == 3) && (mem->ai[0xc] == 5)) { numParkedCars = numParkedCars + -1; } puVar1 = (uint *)mem->inform; if (puVar1 != (uint *)0x0) { *puVar1 = *puVar1 ^ 0x40000000; } ClearMem((char *)mem, 0x29c); mem->controlType = '\0'; } mem = mem + 1; } while (mem < car_data + 0x14); return 1;*/ } // decompiled code // original method signature: // int /*$ra*/ PingOutAllCivCarsAndCopCars() // line 2028, offset 0x0002840c /* begin block 1 */ // Start line: 2030 // Start offset: 0x0002840C // Variables: // struct _CAR_DATA *lcp; // $s0 /* begin block 1.1 */ // Start line: 2029 // Start offset: 0x0002844C // Variables: // struct _CAR_DATA *cp; // $s0 /* end block 1.1 */ // End offset: 0x0002852C // End Line: 2029 /* end block 1 */ // End offset: 0x00028554 // End Line: 2037 /* begin block 2 */ // Start line: 4601 /* end block 2 */ // End Line: 4602 /* begin block 3 */ // Start line: 4605 /* end block 3 */ // End Line: 4606 /* begin block 4 */ // Start line: 4606 /* end block 4 */ // End Line: 4607 /* begin block 5 */ // Start line: 4607 /* end block 5 */ // End Line: 4608 /* WARNING: Unknown calling convention yet parameter storage is locked */ int PingOutAllCivCarsAndCopCars(void) { UNIMPLEMENTED(); return 0; /* int iVar1; uint *puVar2; _CAR_DATA *mem; mem = car_data; do { if ((uint)mem->controlType - 2 < 2) { testNumPingedOut = testNumPingedOut + 1; if (mem->controlType == 2) { if ((mem->controlFlags & 1) != 0) { numCopCars = numCopCars + -1; } numCivCars = numCivCars + -1; if ((mem->ai[0xf9] == 3) && (mem->ai[0xc] == 5)) { numParkedCars = numParkedCars + -1; } } else { if ((PingOutCivsOnly != '\0') && (iVar1 = valid_region((mem->hd).where.t[0], (mem->hd).where.t[2]), iVar1 != 0)) goto LAB_0002852c; } puVar2 = (uint *)mem->inform; if (puVar2 != (uint *)0x0) { *puVar2 = *puVar2 ^ 0x40000000; } ClearMem((char *)mem, 0x29c); mem->controlType = '\0'; } LAB_0002852c: mem = mem + 1; if ((_CAR_DATA *)((int)&car_data[0x13].lastPad + 3U) < mem) { return 1; } } while (true);*/ } // decompiled code // original method signature: // int /*$ra*/ CheckPingOut(struct _CAR_DATA *cp /*$s0*/) // line 2050, offset 0x00028554 /* begin block 1 */ // Start line: 2051 // Start offset: 0x00028554 // Variables: // int dx; // $a0 // int dz; // $v1 // int dist; // $s1 /* begin block 1.1 */ // Start line: 2051 // Start offset: 0x000285B8 // Variables: // struct _CAR_DATA *cp; // $s0 /* end block 1.1 */ // End offset: 0x00028694 // End Line: 2051 /* end block 1 */ // End offset: 0x000286E0 // End Line: 2081 /* begin block 2 */ // Start line: 4648 /* end block 2 */ // End Line: 4649 /* begin block 3 */ // Start line: 4651 /* end block 3 */ // End Line: 4652 /* begin block 4 */ // Start line: 4656 /* end block 4 */ // End Line: 4657 int CheckPingOut(_CAR_DATA *cp) { UNIMPLEMENTED(); return 0; /* int iVar1; int iVar2; uint *puVar3; int z; int x; x = (cp->hd).where.t[0]; iVar2 = (player.spoolXZ)->vx - x; z = (cp->hd).where.t[2]; iVar1 = (player.spoolXZ)->vz - z; iVar1 = iVar2 * iVar2 + iVar1 * iVar1; if (576000000 < iVar1) { testNumPingedOut = testNumPingedOut + 1; if (cp->controlType == '\x02') { if ((cp->controlFlags & 1) != 0) { numCopCars = numCopCars + -1; } numCivCars = numCivCars + -1; if ((cp->ai[0xf9] == 3) && (cp->ai[0xc] == 5)) { numParkedCars = numParkedCars + -1; } } else { if ((PingOutCivsOnly != '\0') && (iVar2 = valid_region(x, z), iVar2 != 0)) goto LAB_00028694; } puVar3 = (uint *)cp->inform; if (puVar3 != (uint *)0x0) { *puVar3 = *puVar3 ^ 0x40000000; } ClearMem((char *)cp, 0x29c); cp->controlType = '\0'; } LAB_00028694: if ((requestStationaryCivCar == 1) && (distFurthestCivCarSq < iVar1)) { furthestCivID = cp->id; distFurthestCivCarSq = iVar1; } return 1;*/ } // decompiled code // original method signature: // void /*$ra*/ SetUpTrafficLightPhase() // line 2084, offset 0x0002d220 /* begin block 1 */ // Start line: 7728 /* end block 1 */ // End Line: 7729 /* begin block 2 */ // Start line: 8898 /* end block 2 */ // End Line: 8899 /* begin block 3 */ // Start line: 8899 /* end block 3 */ // End Line: 8900 /* WARNING: Unknown calling convention yet parameter storage is locked */ void SetUpTrafficLightPhase(void) { UNIMPLEMENTED(); /* int iVar1; iVar1 = TrafficLightCycle(0); junctionLightsPhase = (char)iVar1; iVar1 = TrafficLightCycle(1); CHAR_00h_000aab91 = (char)iVar1; return; */ } // decompiled code // original method signature: // int /*$ra*/ TrafficLightCycle(int exit /*$a0*/) // line 2116, offset 0x0002cf18 /* begin block 1 */ // Start line: 2117 // Start offset: 0x0002CF18 // Variables: // int timeCnt; // $v1 /* end block 1 */ // End offset: 0x0002CF80 // End Line: 2141 /* begin block 2 */ // Start line: 4232 /* end block 2 */ // End Line: 4233 /* begin block 3 */ // Start line: 7647 /* end block 3 */ // End Line: 7648 int TrafficLightCycle(int exit) { UNIMPLEMENTED(); return 0; /* bool bVar1; int iVar2; uint uVar3; uVar3 = CameraCnt - frameStart & 0x1ff; if ((exit == 0) || (exit == 2)) { bVar1 = uVar3 < 0x100; uVar3 = uVar3 - 0x100; if (bVar1) { return 1; } bVar1 = (int)uVar3 < 0x96; } else { bVar1 = uVar3 < 0x96; if (0xff < uVar3) { return 1; } } iVar2 = 3; if ((!bVar1) && (iVar2 = 2, 199 < (int)uVar3)) { return 1; } return iVar2;*/ } // decompiled code // original method signature: // void /*$ra*/ InitCivCars() // line 2144, offset 0x0002cda4 /* begin block 1 */ // Start line: 2146 // Start offset: 0x0002CDA4 /* end block 1 */ // End offset: 0x0002CE10 // End Line: 2157 /* begin block 2 */ // Start line: 4928 /* end block 2 */ // End Line: 4929 /* begin block 3 */ // Start line: 4288 /* end block 3 */ // End Line: 4289 /* begin block 4 */ // Start line: 7073 /* end block 4 */ // End Line: 7074 /* begin block 5 */ // Start line: 7075 /* end block 5 */ // End Line: 7076 /* WARNING: Unknown calling convention yet parameter storage is locked */ void InitCivCars(void) { UNIMPLEMENTED(); /* uint uVar1; PingBufferPos = 0; cookieCount = '\0'; requestRoadblock = 0; makeLimoPullOver = '\0'; frameStart = CameraCnt; uVar1 = Random2(0); roadblockDelay = (&roadblockDelayDiff)[gCopDifficultyLevel] + (uVar1 & 0xff); PingOutCivsOnly = '\0'; roadblockCount = roadblockDelay; return;*/ } // decompiled code // original method signature: // int /*$ra*/ CreateCivCarWotDrivesABitThenStops(int direction /*$s5*/, long (*startPos)[4] /*$s2*/, long (*stopPos)[4] /*$a2*/, unsigned char internalModel /*$s4*/, int palette /*stack 16*/) // line 2176, offset 0x000286e0 /* begin block 1 */ // Start line: 2177 // Start offset: 0x000286E0 // Variables: // struct _EXTRA_CIV_DATA civDat; // stack offset -56 // struct _CAR_DATA *newCar; // $s1 // struct CIV_ROUTE_ENTRY *stopNode; // $a0 // struct CIV_ROUTE_ENTRY *spareNode; // $a1 /* begin block 1.1 */ // Start line: 2177 // Start offset: 0x000286E0 /* begin block 1.1.1 */ // Start line: 2177 // Start offset: 0x000286E0 // Variables: // char *slot; // $v1 // struct _CAR_DATA *carCnt; // $a0 /* end block 1.1.1 */ // End offset: 0x00028774 // End Line: 2184 /* end block 1.1 */ // End offset: 0x00028774 // End Line: 2184 /* end block 1 */ // End offset: 0x00028960 // End Line: 2229 /* begin block 2 */ // Start line: 4814 /* end block 2 */ // End Line: 4815 /* begin block 3 */ // Start line: 4910 /* end block 3 */ // End Line: 4911 int CreateCivCarWotDrivesABitThenStops(int direction, long(*startPos)[4], long(*stopPos)[4], unsigned char internalModel, int palette) { UNIMPLEMENTED(); return 0; /* int iVar1; uint uVar2; uchar *puVar3; long lVar4; int iVar5; _CAR_DATA *cp; CAR_COSMETICS *pCVar6; short *psVar7; short *psVar8; undefined2 uVar9; int iVar10; char acStack56[8]; undefined2 local_30; undefined2 local_2e; undefined4 local_2c; undefined local_28; undefined local_27; iVar5 = (int)((int)stopPos - (int)startPos) >> 2; ratan2(iVar5, iVar5); cp = car_data; puVar3 = reservedSlots; do { if ((cp->controlType == '\0') && (*puVar3 == '\0')) goto LAB_00028774; cp = cp + 1; puVar3 = puVar3 + 1; } while (cp < car_data + 0x13); cp = (_CAR_DATA *)0x0; LAB_00028774: if (cp == (_CAR_DATA *)0x0) { uVar2 = 0xffffffff; } else { local_2c = 0; local_2e = 8; local_27 = 0; local_28 = (undefined)palette; uVar9 = (undefined2)direction; local_30 = uVar9; InitCar(cp, direction, startPos, '\x02', (uint)internalModel, 0, acStack56); cp->ai[0xc] = 8; psVar8 = rcossin_tbl + (direction & 0xfffU) * 2; cp->ai[0xf8] = (byte)EVENT_CAR_SPEED; iVar5 = EVENT_CAR_SPEED; iVar10 = EVENT_CAR_SPEED * *psVar8; psVar7 = rcossin_tbl + (direction & 0xfffU) * 2 + 1; *(undefined4 *)(cp->st + 0x20) = 0; *(int *)(cp->st + 0x1c) = iVar10; iVar10 = DistanceTriggerCarMoves; pCVar6 = (cp->ap).carCos; *(int *)(cp->st + 0x24) = iVar5 * *psVar7; iVar1 = iVar10 + (int)(pCVar6->colBox).vz * -3; if (iVar1 == 0) { trap(7); } *(int *)(cp->ai + 0x20) = (iVar5 << 0xc) / iVar1; *(long *)(cp->ai + 0x2c) = (*startPos)[0]; lVar4 = (*startPos)[2]; *(byte **)(cp->ai + 8) = cp->ai + 0x34; *(long *)(cp->ai + 0x30) = lVar4; *(undefined2 *)(cp->ai + 0x36) = 1; *(undefined2 *)(cp->ai + 0x34) = uVar9; *(undefined4 *)(cp->ai + 0x38) = 0; *(long *)(cp->ai + 0x3c) = (*startPos)[0] + (iVar10 * *psVar8 + 0x800 >> 0xc); *(long *)(cp->ai + 0x40) = (*startPos)[2] + (iVar10 * *psVar7 + 0x800 >> 0xc); *(undefined2 *)(cp->ai + 0x46) = 1; *(undefined2 *)(cp->ai + 0x44) = uVar9; *(undefined4 *)(cp->ai + 0x48) = 0; *(long *)(cp->ai + 0x4c) = (*startPos)[0] + (iVar10 * (int)*psVar8 * 3 + 0x800 >> 0xc); numCivCars = numCivCars + 1; *(long *)(cp->ai + 0x50) = (*startPos)[0] + (iVar10 * (int)*psVar7 * 3 + 0x800 >> 0xc); uVar2 = (uint)(byte)cp->id; } return uVar2;*/ } // decompiled code // original method signature: // int /*$ra*/ CreateStationaryCivCar(int direction /*$t4*/, long orientX /*$s2*/, long orientZ /*$s1*/, long (*startPos)[4] /*$a2*/, int externalModel /*stack 16*/, int palette /*stack 20*/, int controlFlags /*stack 24*/) // line 2248, offset 0x00028960 /* begin block 1 */ // Start line: 2249 // Start offset: 0x00028960 // Variables: // struct _EXTRA_CIV_DATA civDat; // stack offset -72 // struct _CAR_DATA *newCar; // $s0 // long tmpRes[4]; // stack offset -48 // long tmpQ[4]; // stack offset -32 /* begin block 1.1 */ // Start line: 2249 // Start offset: 0x00028A1C /* begin block 1.1.1 */ // Start line: 2249 // Start offset: 0x00028A1C // Variables: // char *slot; // $v1 // struct _CAR_DATA *carCnt; // $a0 /* end block 1.1.1 */ // End offset: 0x00028A68 // End Line: 2249 /* end block 1.1 */ // End offset: 0x00028A68 // End Line: 2249 /* end block 1 */ // End offset: 0x00028DB4 // End Line: 2289 /* begin block 2 */ // Start line: 5111 /* end block 2 */ // End Line: 5112 /* begin block 3 */ // Start line: 5131 /* end block 3 */ // End Line: 5132 int CreateStationaryCivCar(int direction, long orientX, long orientZ, long(*startPos)[4], int externalModel, int palette, int controlFlags) { UNIMPLEMENTED(); return 0; /* uchar *puVar1; int iVar2; _CAR_DATA *cp; int iVar3; int iVar4; int iVar5; uint uVar6; int iVar7; int model; char acStack72[8]; undefined2 local_40; undefined2 local_3e; undefined4 local_3c; undefined local_38; byte local_37; uVar6 = externalModel & 0xff; if (MissionHeader->residentModels[0] == uVar6) { model = 0; } else { model = 1; if ((((MissionHeader->residentModels[1] != uVar6) && (model = 2, MissionHeader->residentModels[2] != uVar6)) && (model = 3, MissionHeader->residentModels[3] != uVar6)) && (model = 0xff, MissionHeader->residentModels[4] == uVar6)) { model = 4; } } if (model != 0xff) { if ((4 < (byte)externalModel) && (specModelValid == '\0')) { return -1; } cp = car_data; puVar1 = reservedSlots; do { if ((cp->controlType == '\0') && (*puVar1 == '\0')) goto LAB_00028a68; cp = cp + 1; puVar1 = puVar1 + 1; } while (cp < car_data + 0x13); cp = (_CAR_DATA *)0x0; LAB_00028a68: if (cp != (_CAR_DATA *)0x0) { local_3c = 3; local_3e = 7; if ((controlFlags & 1U) != 0) { requestCopCar = 0; numCopCars = numCopCars + 1; cop_respawn_timer = gCopRespawnTime; } local_37 = (byte)controlFlags | 4; if ((gCurrentMissionNumber != 0x20) && ((byte)externalModel == 0)) { local_37 = (byte)controlFlags | 6; } local_38 = (undefined)palette; local_40 = (undefined2)direction; InitCar(cp, direction, startPos, '\x02', model, 0, acStack72); uVar6 = (orientZ - (orientZ >> 0x1f)) * 2 & 0x3ffc; iVar7 = (int)*(short *)((int)rcossin_tbl + uVar6); iVar4 = (int)*(short *)((int)rcossin_tbl + uVar6 + 2); iVar3 = *(int *)(cp->st + 0x10) * iVar7 + *(int *)(cp->st + 0xc) * iVar4 + 0x800 >> 0xc; model = (*(int *)(cp->st + 0x10) * iVar4 - *(int *)(cp->st + 0xc) * iVar7) + 0x800 >> 0xc; iVar2 = *(int *)(cp->st + 0x18) * iVar7 + *(int *)(cp->st + 0x14) * iVar4 + 0x800 >> 0xc; uVar6 = (orientX - (orientX >> 0x1f)) * 2 & 0x3ffc; iVar5 = (int)*(short *)((int)rcossin_tbl + uVar6); iVar4 = (*(int *)(cp->st + 0x18) * iVar4 - *(int *)(cp->st + 0x14) * iVar7) + 0x800 >> 0xc; iVar7 = (int)*(short *)((int)rcossin_tbl + uVar6 + 2); *(int *)(cp->st + 0xc) = iVar4 * iVar5 + iVar3 * iVar7 + 0x800 >> 0xc; *(int *)(cp->st + 0x10) = iVar2 * iVar5 + model * iVar7 + 0x800 >> 0xc; *(int *)(cp->st + 0x14) = (iVar2 * iVar7 - model * iVar5) + 0x800 >> 0xc; *(int *)(cp->st + 0x18) = (iVar4 * iVar7 - iVar3 * iVar5) + 0x800 >> 0xc; numCivCars = numCivCars + 1; return (uint)(byte)cp->id; } } return -1;*/ } // decompiled code // original method signature: // int /*$ra*/ PingInCivCar(int minPingInDist /*stack 0*/) // line 2323, offset 0x00028db4 /* begin block 1 */ // Start line: 2324 // Start offset: 0x00028DB4 // Variables: // struct _EXTRA_CIV_DATA civDat; // stack offset -128 // int dir; // stack offset -52 // int distAlongSegment; // $fp // int lane; // $s7 // struct _CAR_DATA *newCar; // $s1 // struct DRIVER2_STRAIGHT *str; // $s6 // struct DRIVER2_CURVE *crv; // $s5 // unsigned char cookieCountStart; // $s4 // int curveLength; // stack offset -48 // unsigned char model; // $s4 // unsigned char possibleLanes[12]; // stack offset -104 // unsigned char carDistLanes[15]; // stack offset -88 // char numPossibleLanes; // $s0 // int lbody; // $s3 /* begin block 1.1 */ // Start line: 2324 // Start offset: 0x00028EEC /* begin block 1.1.1 */ // Start line: 2324 // Start offset: 0x00028EEC // Variables: // char *slot; // $a1 // struct _CAR_DATA *carCnt; // $a0 /* end block 1.1.1 */ // End offset: 0x00028F40 // End Line: 2324 /* end block 1.1 */ // End offset: 0x00028F40 // End Line: 2324 /* begin block 1.2 */ // Start line: 2393 // Start offset: 0x00029000 // Variables: // char newCarId; // $v1 /* begin block 1.2.1 */ // Start line: 2324 // Start offset: 0x00029058 // Variables: // struct _CAR_DATA *cp; // $s1 /* end block 1.2.1 */ // End offset: 0x00029140 // End Line: 2324 /* end block 1.2 */ // End offset: 0x000292A4 // End Line: 2402 /* begin block 1.3 */ // Start line: 2462 // Start offset: 0x00029620 // Variables: // char frog; // $a0 // char numLanes; // $a1 /* end block 1.3 */ // End offset: 0x00029760 // End Line: 2462 /* begin block 1.4 */ // Start line: 2471 // Start offset: 0x00029860 // Variables: // char frog; // $a0 // char numLanes; // $a1 /* end block 1.4 */ // End offset: 0x00029964 // End Line: 2471 /* begin block 1.5 */ // Start line: 2528 // Start offset: 0x00029C48 // Variables: // int externalModel; // $v0 /* begin block 1.5.1 */ // Start line: 2535 // Start offset: 0x00029CC4 // Variables: // unsigned char palette; // $v0 /* end block 1.5.1 */ // End offset: 0x00029D20 // End Line: 2539 /* end block 1.5 */ // End offset: 0x00029D5C // End Line: 2544 /* begin block 1.6 */ // Start line: 2550 // Start offset: 0x00029DB8 // Variables: // int theta; // $s0 // int minDistAlong; // $s2 /* end block 1.6 */ // End offset: 0x00029F10 // End Line: 2563 /* begin block 1.7 */ // Start line: 2567 // Start offset: 0x00029F58 // Variables: // int minAngle; // $a1 /* end block 1.7 */ // End offset: 0x0002A090 // End Line: 2578 /* begin block 1.8 */ // Start line: 2593 // Start offset: 0x0002A0E8 // Variables: // long pos[4]; // stack offset -72 // unsigned int distSq; // stack offset -56 /* begin block 1.8.1 */ // Start line: 2593 // Start offset: 0x0002A0E8 // Variables: // int *distToCarSq; // $t2 /* begin block 1.8.1.1 */ // Start line: 2593 // Start offset: 0x0002A0E8 // Variables: // int dz; // $v1 // int dx; // $a0 // int distSq; // $v0 // unsigned int retDistSq; // $a2 // struct _CAR_DATA *lcp; // $a1 /* end block 1.8.1.1 */ // End offset: 0x0002A228 // End Line: 2601 /* end block 1.8.1 */ // End offset: 0x0002A228 // End Line: 2601 /* begin block 1.8.2 */ // Start line: 2611 // Start offset: 0x0002A240 // Variables: // int x; // $t2 // int y; // $a2 // int z; // $t1 // unsigned int distSq; // $a3 /* begin block 1.8.2.1 */ // Start line: 2611 // Start offset: 0x0002A240 // Variables: // int dz; // $v1 // int dx; // $a0 // int ret; // $t0 // struct _CAR_DATA *lcp; // $a1 /* end block 1.8.2.1 */ // End offset: 0x0002A340 // End Line: 2611 /* end block 1.8.2 */ // End offset: 0x0002A340 // End Line: 2611 /* end block 1.8 */ // End offset: 0x0002A37C // End Line: 2622 /* end block 1 */ // End offset: 0x0002A4C4 // End Line: 2656 /* begin block 2 */ // Start line: 5271 /* end block 2 */ // End Line: 5272 /* begin block 3 */ // Start line: 5306 /* end block 3 */ // End Line: 5307 /* begin block 4 */ // Start line: 5308 /* end block 4 */ // End Line: 5309 /* WARNING: Type propagation algorithm not settling */ int PingInCivCar(int minPingInDist) { UNIMPLEMENTED(); return 0; /* byte bVar1; short sVar2; ushort uVar3; bool bVar4; char cVar5; undefined3 extraout_var; int iVar6; uint model; long lVar7; int iVar8; int iVar9; uint uVar10; int iVar11; _CAR_DATA *cp; uint *puVar12; long lVar13; uchar *puVar14; _CAR_DATA *p_Var15; byte bVar16; uint uVar17; DRIVER2_CURVE *curve; DRIVER2_STRAIGHT *straight; uint uVar18; undefined local_res0[16]; int local_80; uint local_7c; undefined2 local_78; short local_76; int local_74; char local_70; undefined local_6f; byte local_68[16]; char acStack88[16]; long local_48; long local_44; int local_40; uint local_38; uint local_34; int local_30; int local_2c; local_7c = 0xfffffffb; uVar18 = 0xffffffff; straight = (DRIVER2_STRAIGHT *)0x0; curve = (DRIVER2_CURVE *)0x0; local_34 = 0xffffff; local_2c = 0; PingOutCivsOnly = '\x01'; if (((requestCopCar == 0) && (numParkedCars < maxParkedCars)) && ((gCurrentMissionNumber != 0x21 || (numCivCars != 0)))) { local_2c = 1; } playerNum = 0; if (NumPlayers == 2) { playerNum = (byte)CameraCnt & 1; } if ((MissionHeader->type & 4U) != 0) { PingOutCivsOnly = '\x01'; return 0; } if (gInGameCutsceneActive != 0) { PingOutCivsOnly = '\x01'; return 0; } if ((maxCivCars + -1 <= numCivCars) && (gInGameChaseActive == 0)) { PingOutCivsOnly = '\x01'; return 0; } if (1 < NumPlayers) { PingOutCivsOnly = '\x01'; return 0; } cp = car_data; puVar14 = reservedSlots; do { if ((cp->controlType == '\0') && (*puVar14 == '\0')) goto LAB_00028f40; cp = cp + 1; puVar14 = puVar14 + 1; } while (cp < car_data + 0x13); cp = (_CAR_DATA *)0x0; LAB_00028f40: if (cp == (_CAR_DATA *)0x0) { PingOutCivsOnly = '\x01'; return 0; } ClearMem((char *)&local_80, 0x14); baseLoc.vx = ((&player)[(byte)playerNum].spoolXZ)->vx; baseLoc.vz = ((&player)[(byte)playerNum].spoolXZ)->vz; if ((requestCopCar == 0) && (0x2b < (byte)cookieCount)) { cookieCount = cookieCount + -0x19; } cVar5 = cookieCount; if ((useStoredPings == 0) || (gInGameChaseActive == 0)) { do { if (requestCopCar == 0) { if ((byte)cookieCount < 0x2b) goto LAB_000294b0; cookieCount = 0; } else { if ((byte)cookieCount < 0x37) { LAB_000294b0: cookieCount = cookieCount + 1; } else { cookieCount = 0; } } if (cookieCount == cVar5) break; if (requestCopCar == 0) { model = (int)((uint)(byte)cookieCount * 0x1000) / 0x2c; } else { model = (int)((uint)(byte)cookieCount * 0x1000) / 0x38; } if (requestCopCar == 0) { iVar6 = (int)rcossin_tbl[(model & 0xfff) * 2] << 3; } else { iVar6 = (int)rcossin_tbl[(model & 0xfff) * 2] * 10; } randomLoc.vx = baseLoc.vx + (iVar6 + 0x800 >> 0xc) * 0x800; if (requestCopCar == 0) { model = (int)((uint)(byte)cookieCount * 0x1000) / 0x2c; } else { model = (int)((uint)(byte)cookieCount * 0x1000) / 0x38; } if (requestCopCar == 0) { iVar6 = (int)rcossin_tbl[(model & 0xfff) * 2 + 1] << 3; } else { iVar6 = (int)rcossin_tbl[(model & 0xfff) * 2 + 1] * 10; } randomLoc.vz = baseLoc.vz + (iVar6 + 0x800 >> 0xc) * 0x800; roadSeg = RoadInCell(&randomLoc); } while (((((roadSeg & 0xffffe000U) != 0) || (NumDriver2Straights <= (int)(roadSeg & 0x1fffU))) && (((roadSeg & 0xffffe000U) != 0x4000 || (NumDriver2Curves <= (int)(roadSeg & 0x1fffU))))) || (roadSeg < 0)); } else { cVar5 = GetPingInfo(&cookieCount); iVar6 = CONCAT31(extraout_var, cVar5); if (iVar6 == -1) { return 0; } if (0x13 < iVar6) { return 0; } cp = car_data + iVar6; if (car_data[iVar6].controlType != '\0') { testNumPingedOut = testNumPingedOut + 1; if (car_data[iVar6].controlType == '\x02') { if ((car_data[iVar6].controlFlags & 1) != 0) { numCopCars = numCopCars + -1; } numCivCars = numCivCars + -1; if ((car_data[iVar6].ai[0xf9] == 3) && (car_data[iVar6].ai[0xc] == 5)) { numParkedCars = numParkedCars + -1; } LAB_0002910c: puVar12 = (uint *)car_data[iVar6].inform; if (puVar12 != (uint *)0x0) { *puVar12 = *puVar12 ^ 0x40000000; } ClearMem((char *)cp, 0x29c); car_data[iVar6].controlType = '\0'; bVar4 = true; } else { if (PingOutCivsOnly == '\0') goto LAB_0002910c; iVar8 = valid_region(car_data[iVar6].hd.where.t[0], car_data[iVar6].hd.where.t[2]); bVar4 = false; if (iVar8 == 0) goto LAB_0002910c; } if (!bVar4) { return 0; } } if (requestCopCar == 0) { model = (int)((uint)(byte)cookieCount * 0x1000) / 0x2c; } else { model = (int)((uint)(byte)cookieCount * 0x1000) / 0x38; } if (requestCopCar == 0) { iVar6 = (int)rcossin_tbl[(model & 0xfff) * 2] << 3; } else { iVar6 = (int)rcossin_tbl[(model & 0xfff) * 2] * 10; } randomLoc.vx = baseLoc.vx + (iVar6 + 0x800 >> 0xc) * 0x800; if (requestCopCar == 0) { model = (int)((uint)(byte)cookieCount * 0x1000) / 0x2c; } else { model = (int)((uint)(byte)cookieCount * 0x1000) / 0x38; } if (requestCopCar == 0) { iVar6 = (int)rcossin_tbl[(model & 0xfff) * 2 + 1] << 3; } else { iVar6 = (int)rcossin_tbl[(model & 0xfff) * 2 + 1] * 10; } randomLoc.vz = baseLoc.vz + (iVar6 + 0x800 >> 0xc) * 0x800; roadSeg = RoadInCell(&randomLoc); } if (((((roadSeg & 0xffffe000U) != 0) || (NumDriver2Straights <= (int)(roadSeg & 0x1fffU))) && (((roadSeg & 0xffffe000U) != 0x4000 || (NumDriver2Curves <= (int)(roadSeg & 0x1fffU))))) || (roadSeg < 0)) { civPingTest.OffRoad = civPingTest.OffRoad + 1; return 0; } if (((((roadSeg & 0xffffe000U) != 0) || (NumDriver2Straights <= (int)(roadSeg & 0x1fffU))) && (((roadSeg & 0xffffe000U) != 0x4000 || (NumDriver2Curves <= (int)(roadSeg & 0x1fffU))))) || (roadSeg < 0)) goto LAB_0002a368; ClearMem(acStack88, 0xf); if ((((roadSeg & 0xffffe000U) == 0) && ((int)(roadSeg & 0x1fffU) < NumDriver2Straights)) && (-1 < roadSeg)) { straight = Driver2StraightsPtr + roadSeg; if ((straight->NumLanes & 0xfU) == 0) goto LAB_0002a368; if ((gCurrentMissionNumber == 0x21) && (minPingInDist == 0x29a)) { uVar18 = 1; } else { uVar18 = 0; model = ((uint)(byte)straight->NumLanes & 0xf) * 2; uVar17 = 0; if ((straight->NumLanes & 0xfU) != 0) { do { if (((((uVar18 == 0) || (model - 1 == uVar18)) && (local_2c != 0)) && (((uVar18 == 0 && ((straight->NumLanes & 0x40U) != 0)) || ((((uint)(byte)straight->NumLanes & 0xffffff0f) * 2 - 1 == uVar18 && ((straight->NumLanes & 0x80U) != 0)))))) || (((((int)(uint)(byte)straight->AILanes >> (uVar18 >> 1 & 0x1f) & 1U) != 0 && ((uVar18 != 0 || ((straight->NumLanes & 0x40U) == 0)))) && ((((uint)(byte)straight->NumLanes & 0xffffff0f) * 2 - 1 != uVar18 || ((straight->NumLanes & 0x80U) == 0)))))) { local_68[uVar17] = (byte)uVar18; uVar17 = uVar17 + 1 & 0xff; } uVar18 = uVar18 + 1 & 0xff; } while (uVar18 < model); } if (uVar17 == 0) { return 0; } lVar13 = Random2(0); if (uVar17 == 0) { trap(7); } uVar18 = (uint)local_68[(lVar13 >> 8) % uVar17]; cp->ai[0xfb] = local_68[(lVar13 >> 8) % uVar17]; } if (((uVar18 == 0) && ((straight->NumLanes & 0x40U) != 0)) || ((((uint)(byte)straight->NumLanes & 0xf) * 2 - 1 == uVar18 && ((straight->NumLanes & 0x80U) != 0)))) { local_74 = 3; local_76 = 7; if (((int)(uint)(byte)straight->AILanes >> ((int)uVar18 / 2 & 0x1fU) & 1U) != 0) { local_76 = 5; } } else { if (((int)(uint)(byte)straight->AILanes >> ((int)uVar18 / 2 & 0x1fU) & 1U) == 0) { LAB_00029a28: civPingTest.NotDrivable = civPingTest.NotDrivable + 1; return 0; } local_74 = 0; local_76 = 0; } } else { if ((((roadSeg & 0xffffe000U) == 0x4000) && ((int)(roadSeg & 0x1fffU) < NumDriver2Curves)) && (-1 < roadSeg)) { curve = Driver2CurvesPtr + roadSeg + -0x4000; bVar16 = curve->NumLanes; uVar18 = 0; if ((bVar16 & 0xf) == 0) goto LAB_0002a368; model = ((uint)bVar16 & 0xf) * 2; uVar17 = 0; if ((bVar16 & 0xf) != 0) { do { if ((((uVar18 == 0) || (model - 1 == uVar18)) && ((local_2c != 0 && (((uVar18 == 0 && ((curve->NumLanes & 0x40U) != 0)) || ((((uint)(byte)curve->NumLanes & 0xffffff0f) * 2 - 1 == uVar18 && ((curve->NumLanes & 0x80U) != 0)))))))) || ((((int)(uint)(byte)curve->AILanes >> (uVar18 >> 1 & 0x1f) & 1U) != 0 && (((uVar18 != 0 || ((curve->NumLanes & 0x40U) == 0)) && ((((uint)(byte)curve->NumLanes & 0xffffff0f) * 2 - 1 != uVar18 || ((curve->NumLanes & 0x80U) == 0)))))))) { local_68[uVar17] = (byte)uVar18; uVar17 = uVar17 + 1 & 0xff; } uVar18 = uVar18 + 1 & 0xff; } while (uVar18 < model); } if (uVar17 == 0) { return 0; } lVar13 = Random2(0); if (uVar17 == 0) { trap(7); } bVar16 = local_68[(lVar13 >> 8) % uVar17]; uVar18 = (uint)bVar16; cp->ai[0xfb] = bVar16; bVar1 = curve->NumLanes; model = ((uint)bVar1 & 0xf) * 2; if (model < uVar18) goto LAB_0002a368; if (((bVar16 == 0) && ((bVar1 & 0x40) != 0)) || ((model - 1 == uVar18 && ((bVar1 & 0x80) != 0)))) { local_74 = 3; local_76 = 7; if (((int)(uint)(byte)curve->AILanes >> ((int)uVar18 / 2 & 0x1fU) & 1U) != 0) { local_76 = 5; } } else { if (((int)(uint)(byte)curve->AILanes >> ((int)uVar18 / 2 & 0x1fU) & 1U) == 0) goto LAB_00029a28; local_74 = 0; local_76 = 0; } local_30 = (int)(((int)curve->end - (int)curve->start & 0xfffU) * (uint)(byte)curve->inside * 0xb) / 7; } } if ((local_74 != 3) || (((cVar5 = '\0', gInGameCutsceneActive == 0 && (gInGameChaseActive == 0)) && ((model = Random2(0), (model & 0x40) == 0 || (cVar5 = '\x03', gCurrentMissionNumber == 0x20))) ))) { cVar5 = '\0'; } s__0009bf48[0] = cVar5; if (((specModelValid == '\0') || (allowSpecSpooling == 0)) || (MissionHeader->residentModels[4] == 0xc)) { CHAR_04h_0009bf4b = '\0'; CHAR_00h_0009bf4a = '\x01'; } else { CHAR_04h_0009bf4b = '\x04'; model = Random2(0); CHAR_00h_0009bf4a = '\x01'; if ((model & 0x100) != 0) { CHAR_00h_0009bf4a = '\x04'; } } if ((gCurrentMissionNumber == 7) || (gCurrentMissionNumber == 0x21)) { CHAR_02h_0009bf45 = '\0'; CHAR_02h_0009bf44 = '\0'; CHAR_02h_0009bf47 = '\x01'; CHAR_02h_0009bf46 = '\x01'; } else { CHAR_02h_0009bf47 = '\x02'; CHAR_02h_0009bf46 = '\x02'; CHAR_02h_0009bf45 = '\x02'; CHAR_02h_0009bf44 = '\x02'; } local_6f = 0; if (requestCopCar == 0) { model = Random2(0); model = (uint)(byte)modelRandomList[model & 0xf]; } else { model = 3; } if ((gCurrentMissionNumber == 0x21) && (minPingInDist == 0x29a)) { model = 4; } if (requestCopCar != 0) { local_6f = 1; } if ((MissionHeader->residentModels[model] == 0) || (4 < MissionHeader->residentModels[model])) { local_70 = '\0'; } else { if ((player.playerType == '\x01') && ((uint)(byte)car_data[player.playerCarId].ap.model == model)) { lVar7 = Random2(0); lVar13 = lVar7; if (lVar7 < 0) { lVar13 = lVar7 + 3; } uVar17 = lVar7 + (lVar13 >> 2) * -4 & 0xff; local_70 = (char)uVar17; if ((byte)car_data[player.playerCarId].ap.palette <= uVar17) { local_70 = local_70 + '\x01'; } } else { lVar13 = Random2(0); local_70 = (char)lVar13 + (char)(lVar13 / 5) * -5; } } iVar6 = (int)car_cosmetics[model].colBox.vz; if ((((roadSeg & 0xffffe000U) == 0) && ((int)(roadSeg & 0x1fffU) < NumDriver2Straights)) && (-1 < roadSeg)) { uVar17 = 0; if (requestCopCar == 0) { iVar8 = iVar6 * 2; uVar17 = iVar6 * 3; } else { iVar8 = iVar6 << 1; } if ((int)(uint)straight->length <= (iVar8 + iVar6) * 2) { return 0; } dx = randomLoc.vx - straight->Midx; dz = randomLoc.vz - straight->Midz; iVar8 = ratan2(dx, dz); sVar2 = straight->angle; iVar9 = SquareRoot0(dx * dx + dz * dz); uVar3 = straight->length; local_7c = (uint)(uVar3 >> 1) + (rcossin_tbl[(sVar2 - iVar8 & 0xfffU) * 2 + 1] * iVar9 + 0x800 >> 0xc); if (requestCopCar == 0) { if ((int)local_7c < (int)uVar17) { local_7c = uVar17; } if ((int)(uVar3 - local_7c) < (int)uVar17) { local_7c = uVar3 - uVar17; } } if ((*(uint *)(straight->ConnectIdx + 3) & 0xffff0000) == 0xff010000) { uVar17 = (uint)cp->ai[0xfb]; } else { uVar17 = (int)(uint)(byte)straight->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } if ((uVar17 & 1) == 0) { local_34 = SEXT24(straight->angle); } else { local_34 = (int)straight->angle + 0x800U & 0xfff; } } else { if ((((roadSeg & 0xffffe000U) == 0x4000) && ((int)(roadSeg & 0x1fffU) < NumDriver2Curves)) && (-1 < roadSeg)) { currentAngle = ratan2(randomLoc.vx - curve->Midx, randomLoc.vz - curve->Midz); uVar17 = 0; if (requestCopCar == 0) { bVar16 = curve->inside; uVar17 = 0x80; if ((9 < bVar16) && (uVar17 = 0x20, bVar16 < 0x14)) { uVar17 = 0x40; } } else { bVar16 = curve->inside; } uVar10 = (currentAngle & 0xfffU) - (int)curve->start; local_7c = uVar10 & 0xf80; if ((9 < bVar16) && (local_7c = uVar10 & 0xfe0, bVar16 < 0x14)) { local_7c = uVar10 & 0xfc0; } if (local_7c <= uVar17) { local_7c = uVar17; } uVar17 = ((int)curve->end - (int)curve->start) - uVar17 & 0xfff; if (uVar17 <= local_7c) { local_7c = uVar17; } iVar8 = local_7c + (int)curve->start; if (*(short *)&curve->NumLanes == -0xff) { uVar17 = (uint)cp->ai[0xfb]; } else { uVar17 = (int)(uint)(byte)curve->LaneDirs >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f); } if ((uVar17 & 1) == 0) { local_34 = iVar8 + 0x400; } else { local_34 = iVar8 - 0x400; } if (local_30 < iVar6 * 6) { return 0; } } } if (((local_74 == 3) && (local_76 == 5)) && (maxParkedCars <= numParkedCars)) { return 0; } if (((local_34 == 0xffffff) || ((int)uVar18 < 0)) || ((int)local_7c < 0)) { LAB_0002a368: cp->ai[0xf9] = 3; cp->ai[0xc] = 7; return 0; } GetNodePos(straight, (DRIVER2_JUNCTION *)0x0, curve, local_7c, cp, (int *)(cp->ai + 0x2c), (int *)(cp->ai + 0x30), (uint)cp->ai[0xfb]); uVar17 = 0x7fffffff; p_Var15 = car_data; local_48 = *(int *)(cp->ai + 0x2c); local_40 = *(int *)(cp->ai + 0x30); local_44 = randomLoc.vy; do { if (p_Var15->controlType != '\0') { iVar9 = (p_Var15->hd).where.t[1]; iVar8 = randomLoc.vy - iVar9; if (iVar8 < 0) { iVar8 = iVar9 - randomLoc.vy; } if (iVar8 < 800) { iVar9 = local_48 - (p_Var15->hd).where.t[0]; iVar8 = iVar9; if (iVar9 < 0) { iVar8 = -iVar9; } if (iVar8 < 0x1000) { iVar11 = local_40 - (p_Var15->hd).where.t[2]; iVar8 = iVar11; if (iVar11 < 0) { iVar8 = -iVar11; } if ((iVar8 < 0x1000) && (uVar10 = iVar9 * iVar9 + iVar11 * iVar11, uVar10 < uVar17)) { uVar17 = uVar10; } } } } p_Var15 = p_Var15 + 1; } while (p_Var15 < (_CAR_DATA *)0xd4698); if ((undefined *)register0x00000074 != (undefined *)0x38) { local_38 = uVar17; } if (local_38 < (uint)(iVar6 * iVar6 * 8 * 8)) { return 0; } p_Var15 = car_data; local_38 = 9000000; iVar6 = 0; do { if (p_Var15->controlType != '\0') { iVar9 = (p_Var15->hd).where.t[1]; iVar8 = randomLoc.vy - iVar9; if (iVar8 < 0) { iVar8 = iVar9 - randomLoc.vy; } if (iVar8 < 800) { iVar9 = local_48 - (p_Var15->hd).where.t[0]; iVar8 = iVar9; if (iVar9 < 0) { iVar8 = -iVar9; } if (iVar8 < 0x7000) { iVar11 = local_40 - (p_Var15->hd).where.t[2]; iVar8 = iVar11; if (iVar11 < 0) { iVar8 = -iVar11; } if ((iVar8 < 0x7000) && ((uint)(iVar9 * iVar9 + iVar11 * iVar11) < 9000000)) { iVar6 = iVar6 + 1; } } } } p_Var15 = p_Var15 + 1; } while (p_Var15 < (_CAR_DATA *)0xd4698); if (closeEncounter < iVar6) { return 0; } local_80 = roadSeg; if (roadSeg < 0) goto LAB_0002a368; local_78 = (undefined2)local_34; InitCar(cp, local_34, (long(*)[4])&local_48, '\x02', model, 0, (char *)&local_80); cp->ai[0xfb] = (byte)uVar18; if ((gCurrentMissionNumber == 0x21) && (minPingInDist == 0x29a)) { limoId = cp->id; } if (cp->ai[0xf9] == 3) { if (cp->ai[0xc] != 5) goto LAB_0002a430; cp->controlFlags = cp->controlFlags | 4; } if (cp->ai[0xc] == 5) { numParkedCars = numParkedCars + 1; } LAB_0002a430: if ((cp->controlFlags & 1) != 0) { requestCopCar = 0; numCopCars = numCopCars + 1; } numCivCars = numCivCars + 1; if ((cp->controlFlags & 1) != 0) { PassiveCopTasks(cp); } PingOutCivsOnly = '\0'; return (uint)(byte)cp->id + 1;*/ } // decompiled code // original method signature: // void /*$ra*/ AttemptUnPark(struct _CAR_DATA *cp /*$s1*/) // line 2659, offset 0x0002a4c4 /* begin block 1 */ // Start line: 2660 // Start offset: 0x0002A4C4 // Variables: // struct DRIVER2_STRAIGHT *str; // $s2 // struct DRIVER2_CURVE *crv; // $s3 /* end block 1 */ // End offset: 0x0002A5FC // End Line: 2690 /* begin block 2 */ // Start line: 6109 /* end block 2 */ // End Line: 6110 /* begin block 3 */ // Start line: 6113 /* end block 3 */ // End Line: 6114 /* begin block 4 */ // Start line: 6115 /* end block 4 */ // End Line: 6116 void AttemptUnPark(_CAR_DATA *cp) { UNIMPLEMENTED(); /* byte bVar1; uint uVar2; DRIVER2_STRAIGHT *straight; DRIVER2_CURVE *curve; straight = (DRIVER2_STRAIGHT *)0x0; curve = (DRIVER2_CURVE *)0x0; InitCivState(cp, (char *)0x0); uVar2 = *(uint *)cp->ai; if ((((uVar2 & 0xffffe000) == 0) && ((int)(uVar2 & 0x1fff) < NumDriver2Straights)) && (-1 < (int)uVar2)) { straight = Driver2StraightsPtr + uVar2; } else { curve = Driver2CurvesPtr + *(int *)cp->ai + -0x4000; } bVar1 = cp->ai[0xfb]; uVar2 = CheckChangeLanes(straight, curve, *(int *)(cp->ai + 0x28), cp, 0); cp->ai[0xfb] = (byte)uVar2; if ((((uint)bVar1 == (uVar2 & 0xff)) || ((straight != (DRIVER2_STRAIGHT *)0x0 && (((int)(uint)(byte)straight->AILanes >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f) & 1U) == 0)))) || ((curve != (DRIVER2_CURVE *)0x0 && (((int)(uint)(byte)curve->AILanes >> ((uint)(cp->ai[0xfb] >> 1) & 0x1f) & 1U) == 0)))) { cp->ai[0xf9] = 3; cp->ai[0xc] = 7; } return;*/ } // decompiled code // original method signature: // int /*$ra*/ CivControl(struct _CAR_DATA *cp /*$s0*/) // line 2699, offset 0x0002ce10 /* begin block 1 */ // Start line: 2700 // Start offset: 0x0002CE10 /* begin block 1.1 */ // Start line: 2700 // Start offset: 0x0002CE10 /* end block 1.1 */ // End offset: 0x0002CE10 // End Line: 2700 /* begin block 1.2 */ // Start line: 2729 // Start offset: 0x0002CE8C /* end block 1.2 */ // End offset: 0x0002CEC0 // End Line: 2731 /* end block 1 */ // End offset: 0x0002CF18 // End Line: 2740 /* begin block 2 */ // Start line: 7646 /* end block 2 */ // End Line: 7647 /* begin block 3 */ // Start line: 8189 /* end block 3 */ // End Line: 8190 int CivControl(_CAR_DATA *cp) { UNIMPLEMENTED(); return 0; /* byte bVar1; long lVar2; int iVar3; CheckPingOut(cp); if (cp->controlType == '\x02') { if (*(int *)(cp->ai + 0x18) != 0) { *(int *)(cp->ai + 0x18) = *(int *)(cp->ai + 0x18) + -1; } if ((((cp->ai[0xc] == 5) && (cp->ai[0xf9] == 3)) && (cp->totalDamage < 4)) && (((cp->ap).model != '\x03' && (lVar2 = Random2(0), (lVar2 + (0x19 - (uint)(byte)cp->id) * 0x10 & 0xff8) == 0xf00)))) { AttemptUnPark(cp); } iVar3 = CivAccel(cp); bVar1 = cp->ai[0xf9]; cp->thrust = (short)iVar3; if (bVar1 != 3) { iVar3 = CivSteerAngle(cp); cp->wheel_angle = (short)iVar3; } } if ((cp->controlFlags & 1) != 0) { PassiveCopTasks(cp); } return 1;*/ } // decompiled code // original method signature: // int /*$ra*/ CivAccelTrafficRules(struct _CAR_DATA *cp /*$t3*/, int *distToNode /*$a1*/) // line 2798, offset 0x0002a5fc /* begin block 1 */ // Start line: 2799 // Start offset: 0x0002A5FC // Variables: // int lbody; // $t1 // int wbody; // $t2 // struct CIV_STATE *cs; // $a2 /* begin block 1.1 */ // Start line: 2844 // Start offset: 0x0002A71C // Variables: // int stopDist; // $t0 /* begin block 1.1.1 */ // Start line: 2848 // Start offset: 0x0002A794 // Variables: // int endSpeed; // $v0 /* end block 1.1.1 */ // End offset: 0x0002A800 // End Line: 2853 /* end block 1.1 */ // End offset: 0x0002A800 // End Line: 2854 /* begin block 1.2 */ // Start line: 2863 // Start offset: 0x0002A844 // Variables: // int ret; // $a1 // int properVel; // $v1 // int brakeDist; // $a3 /* begin block 1.2.1 */ // Start line: 2901 // Start offset: 0x0002A918 // Variables: // int endSpeed; // $v0 // int currentDist; // $v1 /* end block 1.2.1 */ // End offset: 0x0002A918 // End Line: 2901 /* end block 1.2 */ // End offset: 0x0002A9EC // End Line: 2915 /* begin block 1.3 */ // Start line: 2923 // Start offset: 0x0002A9EC // Variables: // int roadClear; // $t8 // int checkObstDist; // $t7 // int numLanes; // $v0 /* begin block 1.3.1 */ // Start line: 2932 // Start offset: 0x0002AA0C // Variables: // struct _CAR_DATA *cp; // $t3 /* begin block 1.3.1.1 */ // Start line: 2932 // Start offset: 0x0002AA0C // Variables: // struct _CAR_DATA *lcp; // $a3 // int normal; // $v0 // int tangent; // $a0 // int distToObstacle; // $t0 // int ccarAng; // $t1 // int scarAng; // $t2 /* end block 1.3.1.1 */ // End offset: 0x0002AB2C // End Line: 2932 /* end block 1.3.1 */ // End offset: 0x0002AB2C // End Line: 2932 /* begin block 1.3.2 */ // Start line: 2799 // Start offset: 0x0002AB44 // Variables: // struct _CAR_DATA *cp; // $t3 /* begin block 1.3.2.1 */ // Start line: 2799 // Start offset: 0x0002AB44 // Variables: // struct CIV_STATE *cs; // $v1 /* end block 1.3.2.1 */ // End offset: 0x0002AB44 // End Line: 2799 /* end block 1.3.2 */ // End offset: 0x0002AB44 // End Line: 2799 /* begin block 1.3.3 */ // Start line: 2943 // Start offset: 0x0002AB58 // Variables: // int ret; // $v1 /* end block 1.3.3 */ // End offset: 0x0002ABA8 // End Line: 2946 /* end block 1.3 */ // End offset: 0x0002ABA8 // End Line: 2947 /* end block 1 */ // End offset: 0x0002ABA8 // End Line: 2949 /* begin block 2 */ // Start line: 6290 /* end block 2 */ // End Line: 6291 /* begin block 3 */ // Start line: 6399 /* end block 3 */ // End Line: 6400 int CivAccelTrafficRules(_CAR_DATA *cp, int *distToNode) { UNIMPLEMENTED(); return 0; /* short sVar1; byte bVar2; CAR_COSMETICS *pCVar3; uint uVar4; int iVar5; int iVar6; int iVar7; _CAR_DATA *p_Var8; int iVar9; int iVar10; pCVar3 = (cp->ap).carCos; iVar10 = (int)(pCVar3->colBox).vz; sVar1 = (pCVar3->colBox).vx; if ((cp->id == '\x01') && (cp->ai[0xfa] == 1)) { cp->ai[0xf9] = 3; cp->ai[0xc] = 9; cp->ai[0xfa] = 0; } switch (cp->ai[0xf9]) { case 0: break; case 1: if ((cp->ai[0xc] == 5) || (cp->ai[0xc] == 8)) { iVar10 = 100; } else { iVar10 = iVar10 * 3; } cp->ai[0x10] = 1; if ((*(int *)(cp->ai + 8) != 0) && (*(short *)(*(int *)(cp->ai + 8) + 2) != 0x7f)) { bVar2 = cp->ai[0xc]; if ((bVar2 == 1) && ((&junctionLightsPhase)[cp->ai[0xd]] == '\x03')) { LAB_0002a8b4: cp->ai[0xf9] = 0; iVar10 = newAccel; *(undefined4 *)(cp->ai + 8) = 0; return iVar10; } iVar9 = *distToNode; if (iVar9 < iVar10) { if (bVar2 == 6) goto LAB_0002a8b4; iVar9 = (cp->hd).wheel_speed; iVar10 = -iVar9; if (0 < iVar9) { iVar10 = iVar10 + 3; } iVar10 = iVar10 >> 2; cp->ai[0xf9] = 3; } else { if (bVar2 == 6) { iVar10 = (iVar9 - iVar10) * *(int *)(cp->ai + 0x20) + 70000; } else { if (iVar10 < iVar9) { iVar10 = *(int *)(cp->ai + 0x20) * ((iVar9 - iVar10) + 100); } else { iVar10 = 0; } } iVar10 = ((iVar10 - (cp->hd).wheel_speed) * newAccel) / 0xf; } if ((car_data < *(_CAR_DATA **)(cp->ai + 8)) && (*(_CAR_DATA **)(cp->ai + 8) < (_CAR_DATA *)0xd4934)) { iVar9 = newAccel; if ((iVar10 <= newAccel) && (iVar9 = iVar10, iVar10 < newAccel * -2)) { iVar9 = newAccel * -2; } return iVar9; } } default: LAB_0002a670: cp->ai[0xf9] = 3; cp->ai[0xc] = 7; return 0; case 3: switch (cp->ai[0xc]) { case 1: if ((&junctionLightsPhase)[cp->ai[0xd]] == '\x03') { cp->ai[0xf9] = 0; } case 2: cp->ai[0x10] = 1; return 0; case 3: bVar2 = 5; break; case 4: bVar2 = 6; break; default: cp->ai[0x10] = 0; return 0; } cp->ai[0xf9] = bVar2; cp->ai[0x10] = 1; return 0; case 5: case 6: cp->ai[0x10] = 1; iVar10 = 0x200; if (cp->ai[0xc] == 4) { iVar10 = 0x800; } p_Var8 = car_data + 0x13; uVar4 = (cp->hd).direction & 0xfff; iVar9 = 0x7fffff; do { if (((p_Var8->ai[0xf9] != 3) && (p_Var8 != cp)) && (p_Var8->controlType != '\0')) { iVar7 = (p_Var8->hd).where.t[0] - (cp->hd).where.t[0]; iVar6 = (p_Var8->hd).where.t[2] - (cp->hd).where.t[2]; iVar5 = iVar7 * rcossin_tbl[uVar4 * 2] + iVar6 * rcossin_tbl[uVar4 * 2 + 1] + 0x800 >> 0xc; if (0 < iVar5) { iVar6 = (iVar7 * rcossin_tbl[uVar4 * 2 + 1] - iVar6 * rcossin_tbl[uVar4 * 2]) + 0x800 >> 0xc; if (iVar6 < 0) { iVar6 = -iVar6; } if ((iVar6 < (int)sVar1 * sideMul * 6) && (iVar5 < iVar9)) { iVar9 = iVar5; } } } p_Var8 = p_Var8 + -1; } while ((_CAR_DATA *)((int)&cheats.MagicMirror + 3U) < p_Var8); if (iVar10 < iVar9) { cp->ai[0xc] = 0; cp->ai[0xf9] = 0; iVar10 = newAccel; *(undefined4 *)(cp->ai + 8) = 0; return iVar10; } iVar9 = (cp->hd).wheel_speed; iVar10 = -iVar9; if (0 < iVar9) { iVar10 = iVar10 + 3; } iVar10 = iVar10 >> 2; iVar9 = newAccel; if ((iVar10 <= newAccel) && (iVar9 = iVar10, iVar10 < newAccel * -2)) { iVar9 = newAccel * -2; } return iVar9; } uVar4 = *(uint *)(cp->ai + 8); cp->ai[0x10] = 0; if (uVar4 == 0) goto LAB_0002a800; iVar5 = (cp->hd).wheel_speed; iVar9 = (iVar5 * (iVar5 + 0x800 >> 0xc)) / (newAccel << 1); if (newAccel << 1 == 0) { trap(7); } if (iVar9 < 0) { iVar9 = -iVar9; } if ((uVar4 < 0xd1269) || (0xd4933 < uVar4)) goto LAB_0002a670; iVar6 = *distToNode; if (iVar9 <= iVar6) goto LAB_0002a800; iVar5 = iVar5 + -120000; iVar9 = iVar6 + iVar10 * -3; if (iVar9 < 0) { if (2 < iVar10 * 3 - iVar6) goto LAB_0002a7d4; LAB_0002a7f8: *(int *)(cp->ai + 0x20) = iVar5; } else { if (2 < iVar9) { LAB_0002a7d4: iVar6 = iVar6 + iVar10 * -3; iVar5 = iVar5 / iVar6; if (iVar6 == 0) { trap(7); } goto LAB_0002a7f8; } *(int *)(cp->ai + 0x20) = iVar5; } cp->ai[0xf9] = 1; LAB_0002a800: if ((cp->hd).wheel_speed + 0x800 >> 0xc <= (int)(uint)cp->ai[0xf8]) { return newAccel; } iVar10 = newAccel; if (newAccel < 0) { iVar10 = newAccel + 3; } return iVar10 >> 2;*/ } // decompiled code // original method signature: // void /*$ra*/ SetUpCivCollFlags() // line 2950, offset 0x0002aba8 /* begin block 1 */ // Start line: 2952 // Start offset: 0x0002ABA8 // Variables: // struct SVECTOR boxDisp; // stack offset -72 // int carLength[2]; // stack offset -64 // struct _CAR_DATA *cp0; // $s5 // struct _CAR_DATA *cp1; // $s2 // unsigned int dNewLBODY[2]; // stack offset -56 // int dx; // $s0 // int dz; // stack offset -48 /* begin block 1.1 */ // Start line: 2985 // Start offset: 0x0002AC14 // Variables: // int extraLength; // $a2 /* end block 1.1 */ // End offset: 0x0002AC44 // End Line: 2985 /* begin block 1.2 */ // Start line: 2990 // Start offset: 0x0002AD74 /* begin block 1.2.1 */ // Start line: 3003 // Start offset: 0x0002ADC4 /* end block 1.2.1 */ // End offset: 0x0002AE18 // End Line: 3003 /* begin block 1.2.2 */ // Start line: 3016 // Start offset: 0x0002AF60 // Variables: // int civCD; // $s7 // int brake; // $a0 /* begin block 1.2.2.1 */ // Start line: 3024 // Start offset: 0x0002AF90 // Variables: // unsigned int *blth; // $v1 /* end block 1.2.2.1 */ // End offset: 0x0002AFC0 // End Line: 3024 /* begin block 1.2.2.2 */ // Start line: 3033 // Start offset: 0x0002B020 // Variables: // int i; // $a1 // int h; // $a3 // int rnd; // $a2 // struct _CAR_DATA *cp; // $s0 /* begin block 1.2.2.2.1 */ // Start line: 3040 // Start offset: 0x0002B0C0 /* end block 1.2.2.2.1 */ // End offset: 0x0002B190 // End Line: 3048 /* end block 1.2.2.2 */ // End offset: 0x0002B1A4 // End Line: 3050 /* end block 1.2.2 */ // End offset: 0x0002B1A4 // End Line: 3051 /* end block 1.2 */ // End offset: 0x0002B1A4 // End Line: 3052 /* begin block 1.3 */ // Start line: 3056 // Start offset: 0x0002B1C8 // Variables: // unsigned char i; // $s0 /* end block 1.3 */ // End offset: 0x0002B26C // End Line: 3065 /* end block 1 */ // End offset: 0x0002B26C // End Line: 3066 /* begin block 2 */ // Start line: 6724 /* end block 2 */ // End Line: 6725 /* begin block 3 */ // Start line: 6725 /* end block 3 */ // End Line: 6726 /* begin block 4 */ // Start line: 6727 /* end block 4 */ // End Line: 6728 /* begin block 5 */ // Start line: 6729 /* end block 5 */ // End Line: 6730 /* begin block 6 */ // Start line: 6730 /* end block 6 */ // End Line: 6731 /* begin block 7 */ // Start line: 6757 /* end block 7 */ // End Line: 6758 /* WARNING: Removing unreachable block (ram,0x0002b034) */ /* WARNING: Unknown calling convention yet parameter storage is locked */ void SetUpCivCollFlags(void) { UNIMPLEMENTED(); /* byte bVar1; ushort uVar2; bool bVar3; undefined4 in_zero; undefined4 in_at; int iVar4; int iVar5; uint uVar6; long lVar7; int iVar8; _CAR_DATA **pp_Var9; int iVar10; int iVar11; _CAR_DATA **pp_Var12; CAR_COSMETICS *pCVar13; uint uVar14; uchar *puVar15; _CAR_DATA *p_Var16; undefined4 local_48; uint local_44; undefined4 local_30; _CAR_DATA *local_2c; ClearMem((char *)brakeLength, 0x50); local_2c = car_data + 0x13; do { if (local_2c->controlType == '\x02') { iVar10 = (local_2c->hd).wheel_speed + 0x800 >> 0xc; if (local_2c->wheel_angle < 0x3d) { iVar10 = iVar10 * 0xd; } else { iVar10 = iVar10 << 2; } pCVar13 = (local_2c->ap).carCos; iVar4 = (int)(pCVar13->colBox).vz; cd.length[0] = iVar10; if (iVar10 < 0) { cd.length[0] = -iVar10; } cd.length[0] = iVar4 + 0x5d + cd.length[0]; cd.length[1] = (int)(pCVar13->colBox).vx; setCopControlWord(2, 0, *(undefined4 *)(local_2c->hd).where.m); setCopControlWord(2, 0x800, *(undefined4 *)((local_2c->hd).where.m + 2)); setCopControlWord(2, 0x1000, *(undefined4 *)((local_2c->hd).where.m + 4)); setCopControlWord(2, 0x1800, *(undefined4 *)((local_2c->hd).where.m + 6)); setCopControlWord(2, 0x2000, *(undefined4 *)((local_2c->hd).where.m + 8)); setCopControlWord(2, 0x2800, (local_2c->hd).where.t[0]); setCopControlWord(2, 0x3000, (local_2c->hd).where.t[1]); setCopControlWord(2, 0x3800, (local_2c->hd).where.t[2]); local_48 = CONCAT22(-(pCVar13->cog).vy, -(pCVar13->cog).vx); local_44 = local_44 & 0xffff0000 | (uint)(ushort)(((short)iVar10 - (pCVar13->cog).vz) + 0x5d); setCopReg(2, in_zero, local_48); setCopReg(2, in_at, local_44); copFunction(2, 0x480012); cd.x.vx = getCopReg(2, 0x19); cd.x.vy = getCopReg(2, 0x1a); cd.x.vz = getCopReg(2, 0x1b); p_Var16 = car_data + 0x14; cd.theta = (local_2c->hd).direction; do { if ((p_Var16->controlType == '\0') || (p_Var16 == local_2c)) { LAB_0002b1a4: bVar3 = p_Var16 + -1 < car_data; } else { if ((int)(p_Var16[-0x503].ap.old_clock + 2) * -0x24ca58e9 >> 2 == 0x14) { if (player.playerType != '\x02') goto LAB_0002b1a4; CDATA2D_000bd0e4.length[0] = 0x3c; CDATA2D_000bd0e4.length[1] = 0x3c; CDATA2D_000bd0e4.x.vx = player.pos[0]; CDATA2D_000bd0e4.x.vz = player.pos[2]; CDATA2D_000bd0e4.theta = player.dir; } else { pCVar13 = (p_Var16->ap).carCos; CDATA2D_000bd0e4.length[0] = (int)(pCVar13->colBox).vz; CDATA2D_000bd0e4.length[1] = (int)(pCVar13->colBox).vx; CDATA2D_000bd0e4.x.vx = (p_Var16->hd).oBox.location.vx; CDATA2D_000bd0e4.x.vy = (p_Var16->hd).oBox.location.vy; CDATA2D_000bd0e4.x.vz = (p_Var16->hd).oBox.location.vz; CDATA2D_000bd0e4.theta = (p_Var16->hd).direction; } iVar10 = ((cd.length[0] + CDATA2D_000bd0e4.length[0]) * 3) / 2; if (cd.x.vx - CDATA2D_000bd0e4.x.vx < 0) { if (CDATA2D_000bd0e4.x.vx - cd.x.vx < iVar10) goto LAB_0002ae74; goto LAB_0002b1a4; } if (iVar10 <= cd.x.vx - CDATA2D_000bd0e4.x.vx) goto LAB_0002b1a4; LAB_0002ae74: if (cd.x.vz - CDATA2D_000bd0e4.x.vz < 0) { if (CDATA2D_000bd0e4.x.vz - cd.x.vz < iVar10) goto LAB_0002aeb0; goto LAB_0002b1a4; } if (iVar10 <= cd.x.vz - CDATA2D_000bd0e4.x.vz) goto LAB_0002b1a4; LAB_0002aeb0: iVar11 = (local_2c->hd).where.t[1]; if ((int)(p_Var16[-0x503].ap.old_clock + 2) * -0x24ca58e9 >> 2 == 0x14) { LAB_0002af10: iVar5 = player.pos[1] - iVar11; if (iVar5 < 0) { iVar5 = iVar11 - player.pos[1]; } if (499 < iVar5) goto LAB_0002b1a4; } else { iVar8 = (p_Var16->hd).where.t[1]; iVar5 = iVar8 - iVar11; if (iVar5 < 0) { iVar5 = iVar11 - iVar8; } if (499 < iVar5) { if ((int)(p_Var16[-0x503].ap.old_clock + 2) * -0x24ca58e9 >> 2 != 0x14) goto LAB_0002b1a4; goto LAB_0002af10; } } iVar11 = bcollided2d(&cd, 1); if (iVar11 == 0) goto LAB_0002b1a4; ratan2(iVar10, local_30); uVar14 = (cd.length[0] - iVar4) - boxOverlap; if ((int)uVar14 < 1) { uVar14 = 1; } uVar6 = brakeLength[(byte)local_2c->id]; if ((uVar6 == 0) || (uVar14 < uVar6)) { brakeLength[(byte)local_2c->id] = uVar14; } if (local_2c->ai[0xf9] == 3) goto LAB_0002b1a4; iVar10 = (int)(p_Var16[-0x503].ap.old_clock + 2) * -0x24ca58e9 >> 2; if (iVar10 == 0x14) { *(int *)(local_2c->ai + 0x1c) = CAR_PAUSE_START; } bVar3 = p_Var16 + -1 < car_data; if ((local_2c->ai[0xf9] != 3) && ((p_Var16->controlType == '\x01' || (bVar3 = p_Var16 + -1 < car_data, iVar10 == 0x14))) ) { lVar7 = Random2(0); bVar3 = false; pp_Var12 = &horncarflag2; iVar10 = 1; pp_Var9 = pp_Var12; do { if (*pp_Var9 == local_2c) { bVar3 = true; } iVar10 = iVar10 + -1; pp_Var9 = pp_Var9 + 1; } while (-1 < iVar10); iVar10 = 0; puVar15 = &hornchanflag; do { if ((!bVar3) && (*puVar15 == 0)) { uVar14 = GetFreeChannel(); *puVar15 = (byte)uVar14; SpuSetVoiceAR(uVar14 & 0xff, 0x1b); bVar1 = (local_2c->ap).model; if (bVar1 == 4) { uVar14 = ResidentModelsBodge(); } else { if (bVar1 < 3) { uVar14 = (uint)(byte)(local_2c->ap).model; } else { uVar14 = (uint)(byte)(local_2c->ap).model - 1; } } Start3DSoundVolPitch ((uint)*puVar15, 3, uVar14 * 3 + 2, (local_2c->hd).where.t[0], (local_2c->hd).where.t[1], (local_2c->hd).where.t[2], -2000, 0x1000); bVar1 = *puVar15; uVar2 = (&channels)[bVar1].time; *pp_Var12 = local_2c; (&channels)[bVar1].time = uVar2 + (short)lVar7 + (short)(lVar7 / 0x1e) * -0x1e; break; } pp_Var12 = pp_Var12 + 1; iVar10 = iVar10 + 1; puVar15 = puVar15 + 1; } while (iVar10 < 2); goto LAB_0002b1a4; } } p_Var16 = p_Var16 + -1; } while (!bVar3); } local_2c = local_2c + -1; if (local_2c <= (_CAR_DATA *)((int)&cheats.MagicMirror + 3U)) { uVar14 = 0; do { bVar1 = (&hornchanflag)[uVar14]; if ((bVar1 != 0) && ((&channels)[bVar1].time == 0)) { (&horncarflag2)[uVar14] = (_CAR_DATA *)0x0; (&hornchanflag)[uVar14] = 0; SpuSetVoiceAR(0, 0x23); } uVar14 = uVar14 + 1 & 0xff; } while (uVar14 < 2); return; } } while (true);*/ } // decompiled code // original method signature: // int /*$ra*/ CivAccel(struct _CAR_DATA *cp /*$s0*/) // line 3074, offset 0x0002b26c /* begin block 1 */ // Start line: 3075 // Start offset: 0x0002B26C // Variables: // int ret; // $t1 // int distToNode; // stack offset -16 // int dx; // $v1 // int dz; // $a0 /* begin block 1.1 */ // Start line: 3106 // Start offset: 0x0002B35C // Variables: // int tmpRet; // $a0 // int lbody; // $a0 /* begin block 1.1.1 */ // Start line: 3111 // Start offset: 0x0002B388 // Variables: // int sf; // $v1 // int c1; // $t0 // int c2; // $a3 // int c3; // $a1 /* begin block 1.1.1.1 */ // Start line: 3126 // Start offset: 0x0002B44C // Variables: // int tmp; // $v1 /* end block 1.1.1.1 */ // End offset: 0x0002B4B8 // End Line: 3129 /* end block 1.1.1 */ // End offset: 0x0002B4C8 // End Line: 3132 /* end block 1.1 */ // End offset: 0x0002B528 // End Line: 3146 /* end block 1 */ // End offset: 0x0002B53C // End Line: 3149 /* begin block 2 */ // Start line: 7066 /* end block 2 */ // End Line: 7067 /* begin block 3 */ // Start line: 7067 /* end block 3 */ // End Line: 7068 /* begin block 4 */ // Start line: 7076 /* end block 4 */ // End Line: 7077 /* begin block 5 */ // Start line: 7084 /* end block 5 */ // End Line: 7085 int CivAccel(_CAR_DATA *cp) { UNIMPLEMENTED(); return 0; /* int iVar1; uint uVar2; int iVar3; int iVar4; int iVar5; uint uVar6; int local_10[2]; iVar5 = *(int *)(cp->ai + 8); carnum = (int)(cp[-0x503].ap.old_clock + 2) * -0x24ca58e9 >> 2; if ((iVar5 == 0) || (cp->ai[0xf9] == 3)) { local_10[0] = -1; } else { iVar3 = (cp->hd).where.t[0] - *(int *)(iVar5 + 8); iVar5 = (cp->hd).where.t[2] - *(int *)(iVar5 + 0xc); local_10[0] = SquareRoot0(iVar3 * iVar3 + iVar5 * iVar5); } if ((cp->ai[0xf9] != 3) && (*(short *)(*(int *)(cp->ai + 8) + 2) == 0x7f)) { local_10[0] = -local_10[0]; } iVar5 = CivAccelTrafficRules(cp, local_10); if (cp->ai[0xf9] != 3) { collDat = brakeLength[(byte)cp->id]; iVar3 = (uint)(ushort)(((cp->ap).carCos)->colBox).vz << 0x10; iVar4 = iVar3 >> 0x10; if (collDat != 0) { iVar1 = iVar4; if (iVar4 < 0) { iVar1 = iVar4 + 3; } uVar6 = iVar4 - (iVar3 >> 0x1f) >> 1; if (collDat < (uint)(iVar4 * 2)) { if (((uint)(iVar4 * 2) < collDat) && (uVar6 <= collDat)) { uVar6 = uVar6 + iVar4 * -2; if (uVar6 == 0) { trap(7); } iVar3 = ((collDat + iVar4 * -2) * -100) / uVar6 + 100; } else { if ((uVar6 < collDat) && ((uint)(iVar1 >> 2) <= collDat)) { uVar2 = (iVar1 >> 2) - uVar6; if (uVar2 == 0) { trap(7); } iVar3 = ((collDat - uVar6) * -300) / uVar2 + 400; } else { iVar3 = 100; } } } else { iVar3 = 0; } iVar1 = (cp->hd).wheel_speed; iVar4 = -iVar1; iVar3 = (newAccel * iVar3) / 100; if (0 < iVar1) { iVar4 = iVar4 + 3; } iVar4 = iVar4 >> 2; if ((iVar4 <= iVar3) && (iVar1 = iVar3 * -2, iVar3 = iVar4, iVar4 < iVar1)) { iVar3 = iVar1; } if (iVar3 < iVar5) { iVar5 = iVar3; } } if ((0 < *(int *)(cp->ai + 0x1c)) && (collDat == 0)) { iVar4 = (cp->hd).wheel_speed; iVar3 = iVar4 + 0x800 >> 0xc; if (iVar3 < 0) { iVar3 = -iVar3; } iVar1 = -iVar4; if (iVar3 < 3) { if (0 < iVar4) { iVar1 = iVar1 + 3; } iVar5 = iVar1 >> 2; *(int *)(cp->ai + 0x1c) = *(int *)(cp->ai + 0x1c) + -1; } } } return iVar5; */ } // decompiled code // original method signature: // int /*$ra*/ CivSteerAngle(struct _CAR_DATA *cp /*$s0*/) // line 3166, offset 0x0002b53c /* begin block 1 */ // Start line: 3167 // Start offset: 0x0002B53C // Variables: // int station; // $a3 // int step; // $s2 // int ret; // $a0 // struct VECTOR locPath; // stack offset -56 // struct VECTOR pathPoint; // stack offset -40 // int lbody; // $s3 /* begin block 1.1 */ // Start line: 3167 // Start offset: 0x0002B53C /* begin block 1.1.1 */ // Start line: 3167 // Start offset: 0x0002B53C // Variables: // struct _CAR_DATA *cp; // $s0 /* begin block 1.1.1.1 */ // Start line: 3167 // Start offset: 0x0002B53C // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $v1 /* end block 1.1.1.1 */ // End offset: 0x0002B590 // End Line: 3175 /* end block 1.1.1 */ // End offset: 0x0002B590 // End Line: 3175 /* begin block 1.1.2 */ // Start line: 3167 // Start offset: 0x0002B5A0 // Variables: // struct _CAR_DATA *cp; // $s0 /* begin block 1.1.2.1 */ // Start line: 3167 // Start offset: 0x0002B5A0 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $v1 /* end block 1.1.2.1 */ // End offset: 0x0002B5B0 // End Line: 3167 /* end block 1.1.2 */ // End offset: 0x0002B5B0 // End Line: 3167 /* begin block 1.1.3 */ // Start line: 3167 // Start offset: 0x0002B5C0 // Variables: // struct _CAR_DATA *cp; // $s0 /* begin block 1.1.3.1 */ // Start line: 3167 // Start offset: 0x0002B5C0 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $v1 /* end block 1.1.3.1 */ // End offset: 0x0002B5D0 // End Line: 3167 /* end block 1.1.3 */ // End offset: 0x0002B5D0 // End Line: 3167 /* begin block 1.1.4 */ // Start line: 3167 // Start offset: 0x0002B5E0 // Variables: // struct _CAR_DATA *cp; // $s0 /* begin block 1.1.4.1 */ // Start line: 3167 // Start offset: 0x0002B5E0 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $v1 /* end block 1.1.4.1 */ // End offset: 0x0002B5F0 // End Line: 3167 /* end block 1.1.4 */ // End offset: 0x0002B5F0 // End Line: 3167 /* end block 1.1 */ // End offset: 0x0002B610 // End Line: 3192 /* begin block 1.2 */ // Start line: 3167 // Start offset: 0x0002B67C // Variables: // struct _CAR_DATA *cp; // $s0 /* begin block 1.2.1 */ // Start line: 3167 // Start offset: 0x0002B67C // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $a0 /* end block 1.2.1 */ // End offset: 0x0002B690 // End Line: 3167 /* end block 1.2 */ // End offset: 0x0002B690 // End Line: 3167 /* begin block 1.3 */ // Start line: 3201 // Start offset: 0x0002B6A0 // Variables: // struct CIV_ROUTE_ENTRY *crLoc; // $a1 // struct CIV_ROUTE_ENTRY *cr; // $a0 /* end block 1.3 */ // End offset: 0x0002B700 // End Line: 3212 /* begin block 1.4 */ // Start line: 3167 // Start offset: 0x0002B748 // Variables: // struct _CAR_DATA *cp; // $s0 /* begin block 1.4.1 */ // Start line: 3167 // Start offset: 0x0002B748 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $v1 /* end block 1.4.1 */ // End offset: 0x0002B758 // End Line: 3167 /* end block 1.4 */ // End offset: 0x0002B758 // End Line: 3167 /* begin block 1.5 */ // Start line: 3236 // Start offset: 0x0002B870 // Variables: // struct CIV_ROUTE_ENTRY *cr; // $a0 /* begin block 1.5.1 */ // Start line: 3167 // Start offset: 0x0002B8A0 // Variables: // struct _CAR_DATA *cp; // $s0 /* begin block 1.5.1.1 */ // Start line: 3167 // Start offset: 0x0002B8A0 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $v1 /* end block 1.5.1.1 */ // End offset: 0x0002B8B0 // End Line: 3167 /* end block 1.5.1 */ // End offset: 0x0002B8B0 // End Line: 3167 /* end block 1.5 */ // End offset: 0x0002B8C0 // End Line: 3243 /* end block 1 */ // End offset: 0x0002B8E4 // End Line: 3246 /* begin block 2 */ // Start line: 7260 /* end block 2 */ // End Line: 7261 /* begin block 3 */ // Start line: 7278 /* end block 3 */ // End Line: 7279 /* WARNING: Type propagation algorithm not settling */ int CivSteerAngle(_CAR_DATA *cp) { UNIMPLEMENTED(); return 0; /* undefined4 *puVar1; short sVar2; int iVar3; int iVar4; long lVar5; _CAR_DATA *p_Var6; _CAR_DATA *p_Var7; CIV_ROUTE_ENTRY *pCVar8; _CAR_DATA *p_Var9; CIV_ROUTE_ENTRY *pCVar10; undefined4 uVar11; long lVar12; undefined4 *puVar13; int iVar14; CIV_ROUTE_ENTRY *pCVar15; _CAR_DATA *p_Var16; undefined4 *puVar17; undefined4 uVar18; undefined4 uVar19; VECTOR local_28; pCVar15 = (CIV_ROUTE_ENTRY *)(cp->ai + 0xf4); iVar3 = (cp->hd).wheel_speed; startNode = *(CIV_ROUTE_ENTRY **)(cp->ai + 0xf4); sVar2 = (((cp->ap).carCos)->colBox).vz; pCVar8 = startNode + 1; if (pCVar15 <= pCVar8) { pCVar8 = startNode + -0xc; } pCVar10 = startNode + 2; if (pCVar8->pathType == 0x7f) { LAB_0002b600: iVar4 = CreateNewNode(cp); if (iVar4 == 0) goto LAB_0002b76c; } else { if (pCVar15 <= pCVar10) { pCVar10 = startNode + -0xb; } pCVar8 = startNode + 3; if (pCVar10->pathType == 0x7f) goto LAB_0002b600; if (pCVar15 <= pCVar8) { pCVar8 = startNode + -10; } pCVar10 = startNode + 4; if (pCVar8->pathType == 0x7f) goto LAB_0002b600; if (pCVar15 <= pCVar10) { pCVar10 = startNode + -9; } if (pCVar10->pathType == 0x7f) goto LAB_0002b600; } p_Var7 = cp; p_Var16 = ¤tCar; do { p_Var9 = p_Var16; p_Var6 = p_Var7; uVar11 = *(undefined4 *)((p_Var6->hd).where.m + 2); uVar18 = *(undefined4 *)((p_Var6->hd).where.m + 4); uVar19 = *(undefined4 *)((p_Var6->hd).where.m + 6); *(undefined4 *)(p_Var9->hd).where.m = *(undefined4 *)(p_Var6->hd).where.m; *(undefined4 *)((p_Var9->hd).where.m + 2) = uVar11; *(undefined4 *)((p_Var9->hd).where.m + 4) = uVar18; *(undefined4 *)((p_Var9->hd).where.m + 6) = uVar19; p_Var7 = (_CAR_DATA *)((p_Var6->hd).where.m + 8); p_Var16 = (_CAR_DATA *)((p_Var9->hd).where.m + 8); } while (p_Var7 != (_CAR_DATA *)&cp->handbrake); lVar5 = (p_Var6->hd).where.t[0]; lVar12 = (p_Var6->hd).where.t[1]; *(undefined4 *)(p_Var16->hd).where.m = *(undefined4 *)(p_Var7->hd).where.m; (p_Var9->hd).where.t[0] = lVar5; (p_Var9->hd).where.t[1] = lVar12; iVar4 = *(int *)(cp->ai + 0xf4); pCVar8 = (CIV_ROUTE_ENTRY *)(iVar4 + 0x10); if (*(short *)(iVar4 + 2) != 0x7f) { pCVar15 = (CIV_ROUTE_ENTRY *)(cp->ai + 0xf4); if (pCVar15 <= pCVar8) { pCVar8 = (CIV_ROUTE_ENTRY *)(iVar4 + -0xc0); } if (pCVar8->pathType != 0x7f) { iVar4 = CivFindStation(cp); puVar13 = (undefined4 *)(cp->ai + 0xe4); puVar17 = (undefined4 *)(currentCar.ai + 0xe4); while (cp->ai + 0x24 <= puVar13) { *puVar17 = *puVar13; puVar17[1] = puVar13[1]; puVar17[2] = puVar13[2]; puVar1 = puVar13 + 3; puVar13 = puVar13 + -4; puVar17[3] = *puVar1; puVar17 = puVar17 + -4; } currentCar.hd.direction = (cp->hd).direction; currentCar.ai._244_4_ = *(undefined4 *)(cp->ai + 0xf4); currentCar.ai._4_4_ = *(undefined4 *)(cp->ai + 4); currentCar.ai._0_4_ = *(undefined4 *)cp->ai; iVar14 = *(int *)(cp->ai + 0xf4); pCVar8 = (CIV_ROUTE_ENTRY *)(iVar14 + 0x10); if (*(short *)(iVar14 + 2) != 0x7f) { if (pCVar15 <= pCVar8) { pCVar8 = (CIV_ROUTE_ENTRY *)(iVar14 + -0xc0); } if (pCVar8->pathType != 0x7f) { CivFindPointOnPath(cp, iVar4 + (iVar3 + 0x800 >> 0xc) * checkFrames + (int)sVar2, &local_28) ; iVar3 = ratan2(local_28.vx - (cp->hd).where.t[0], local_28.vz - (cp->hd).where.t[2]); iVar4 = ((iVar3 - (cp->hd).direction) + 0x800U & 0xfff) - 0x800; iVar3 = maxSteer; if ((iVar4 <= maxSteer) && (iVar3 = iVar4, iVar4 < -maxSteer)) { iVar3 = -maxSteer; } p_Var7 = ¤tCar; p_Var16 = cp; do { p_Var9 = p_Var16; p_Var6 = p_Var7; uVar11 = *(undefined4 *)((p_Var6->hd).where.m + 2); uVar18 = *(undefined4 *)((p_Var6->hd).where.m + 4); uVar19 = *(undefined4 *)((p_Var6->hd).where.m + 6); *(undefined4 *)(p_Var9->hd).where.m = *(undefined4 *)(p_Var6->hd).where.m; *(undefined4 *)((p_Var9->hd).where.m + 2) = uVar11; *(undefined4 *)((p_Var9->hd).where.m + 4) = uVar18; *(undefined4 *)((p_Var9->hd).where.m + 6) = uVar19; p_Var7 = (_CAR_DATA *)((p_Var6->hd).where.m + 8); p_Var16 = (_CAR_DATA *)((p_Var9->hd).where.m + 8); } while (p_Var7 != (_CAR_DATA *)¤tCar.handbrake); lVar5 = (p_Var6->hd).where.t[0]; lVar12 = (p_Var6->hd).where.t[1]; *(undefined4 *)(p_Var16->hd).where.m = currentCar._656_4_; (p_Var9->hd).where.t[0] = lVar5; (p_Var9->hd).where.t[1] = lVar12; pCVar8 = startNode; if (startNode == *(CIV_ROUTE_ENTRY **)(cp->ai + 0xf4)) { return iVar3; } do { pCVar8->pathType = 0x7f; pCVar10 = pCVar8 + 1; if (*(int *)(cp->ai + 0x14) == (int)pCVar8 + (-0x1b0 - (int)cp) >> 4) { *(undefined4 *)(cp->ai + 0x14) = 0xffffffff; } if (pCVar15 <= pCVar10) { pCVar10 = pCVar8 + -0xc; } pCVar8 = pCVar10; } while (pCVar10 != *(CIV_ROUTE_ENTRY **)(cp->ai + 0xf4)); return iVar3; } } } } LAB_0002b76c: cp->ai[0xf9] = 3; cp->ai[0xc] = 7; return 0;*/ } // decompiled code // original method signature: // int /*$ra*/ CivFindStation(struct _CAR_DATA *cp /*$s6*/) // line 3265, offset 0x0002b8e4 /* begin block 1 */ // Start line: 3266 // Start offset: 0x0002B8E4 // Variables: // struct CIV_ROUTE_ENTRY *rep; // $s3 // int cx; // stack offset -48 // int cz; // $fp /* begin block 1.1 */ // Start line: 3266 // Start offset: 0x0002B8E4 // Variables: // int loop; // $a0 /* begin block 1.1.1 */ // Start line: 3266 // Start offset: 0x0002B93C // Variables: // struct _CAR_DATA *cp; // $s6 /* begin block 1.1.1.1 */ // Start line: 3266 // Start offset: 0x0002B93C // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $v1 /* end block 1.1.1.1 */ // End offset: 0x0002B950 // End Line: 3266 /* end block 1.1.1 */ // End offset: 0x0002B950 // End Line: 3266 /* end block 1.1 */ // End offset: 0x0002B95C // End Line: 3277 /* begin block 1.2 */ // Start line: 3280 // Start offset: 0x0002B964 // Variables: // struct _CAR_DATA *cp; // $s6 // struct CIV_ROUTE_ENTRY *currentNode; // $s3 /* begin block 1.2.1 */ // Start line: 3280 // Start offset: 0x0002B964 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $s0 /* end block 1.2.1 */ // End offset: 0x0002B964 // End Line: 3280 /* end block 1.2 */ // End offset: 0x0002B964 // End Line: 3280 /* begin block 1.3 */ // Start line: 3282 // Start offset: 0x0002B964 // Variables: // int sx; // $s5 // int sz; // $s4 // int dx; // $s2 // int dz; // $s1 // int stepsize; // $a1 // int square; // $a0 /* begin block 1.3.1 */ // Start line: 3309 // Start offset: 0x0002BA28 // Variables: // struct _CAR_DATA *cp; // $s6 // struct CIV_ROUTE_ENTRY *currentNode; // $s3 /* begin block 1.3.1.1 */ // Start line: 3309 // Start offset: 0x0002BA28 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $v1 /* end block 1.3.1.1 */ // End offset: 0x0002BA38 // End Line: 3309 /* end block 1.3.1 */ // End offset: 0x0002BA38 // End Line: 3309 /* begin block 1.3.2 */ // Start line: 3266 // Start offset: 0x0002BA48 // Variables: // struct _CAR_DATA *cp; // $s6 // struct CIV_ROUTE_ENTRY *currentNode; // $s3 /* begin block 1.3.2.1 */ // Start line: 3266 // Start offset: 0x0002BA48 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $v1 /* end block 1.3.2.1 */ // End offset: 0x0002BA58 // End Line: 3266 /* end block 1.3.2 */ // End offset: 0x0002BA58 // End Line: 3266 /* begin block 1.3.3 */ // Start line: 3266 // Start offset: 0x0002BA68 // Variables: // struct _CAR_DATA *cp; // $s6 // struct CIV_ROUTE_ENTRY *currentNode; // $s3 /* begin block 1.3.3.1 */ // Start line: 3266 // Start offset: 0x0002BA68 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $v1 /* end block 1.3.3.1 */ // End offset: 0x0002BA78 // End Line: 3266 /* end block 1.3.3 */ // End offset: 0x0002BA78 // End Line: 3266 /* end block 1.3 */ // End offset: 0x0002BA90 // End Line: 3317 /* end block 1 */ // End offset: 0x0002BAEC // End Line: 3320 /* begin block 2 */ // Start line: 7478 /* end block 2 */ // End Line: 7479 /* begin block 3 */ // Start line: 7498 /* end block 3 */ // End Line: 7499 int CivFindStation(_CAR_DATA *cp) { UNIMPLEMENTED(); return 0; /* int iVar1; int iVar2; byte *pbVar3; byte *pbVar4; byte *pbVar5; int iVar6; byte *pbVar7; int iVar8; byte *pbVar9; int iVar10; int iVar11; int iVar12; iVar2 = (cp->hd).where.t[0]; iVar6 = *(int *)(cp->ai + 4) + -1; iVar12 = (cp->hd).where.t[2]; pbVar3 = cp->ai + 0x24; if (iVar6 != -1) { pbVar9 = pbVar3; do { pbVar3 = pbVar9 + 0x10; if (cp->ai + 0xf4 <= pbVar3) { pbVar3 = pbVar9 + -0xc0; } iVar6 = iVar6 + -1; pbVar9 = pbVar3; } while (iVar6 != -1); } pbVar9 = cp->ai + 0xf4; do { pbVar7 = pbVar3 + 0x10; if (pbVar9 <= pbVar7) { pbVar7 = pbVar3 + -0xc0; } if (pbVar7 == (byte *)0x0) { LAB_0002baac: cp->ai[0xf9] = 3; cp->ai[0xc] = 7; return 0; } iVar11 = *(int *)(pbVar3 + 8); iVar8 = *(int *)(pbVar7 + 8) - iVar11; iVar10 = *(int *)(pbVar3 + 0xc); iVar6 = *(int *)(pbVar7 + 0xc) - iVar10; if (iVar8 * iVar8 + iVar6 * iVar6 < 0) goto LAB_0002baac; iVar1 = SquareRoot0(); if (0 < iVar1) { iVar6 = ((iVar2 - iVar11) * iVar8 + (iVar12 - iVar10) * iVar6) / iVar1; if (iVar1 == 0) { trap(7); } if (iVar6 < iVar1) { *(byte **)(cp->ai + 0xf4) = pbVar3; return iVar6; } } iVar6 = *(int *)(cp->ai + 4) + 1; *(int *)(cp->ai + 4) = iVar6; pbVar4 = pbVar7 + 0x10; if (0xc < iVar6) { *(undefined4 *)(cp->ai + 4) = 0; } if (pbVar9 <= pbVar4) { pbVar4 = pbVar7 + -0xc0; } pbVar5 = pbVar7 + 0x20; pbVar3 = pbVar7; if (*(short *)(pbVar4 + 2) == 0x7f) goto LAB_0002ba88; if (pbVar9 <= pbVar5) { pbVar5 = pbVar7 + -0xb0; } pbVar4 = pbVar7 + 0x30; if (*(short *)(pbVar5 + 2) == 0x7f) goto LAB_0002ba88; if (pbVar9 <= pbVar4) { pbVar4 = pbVar7 + -0xa0; } if (*(short *)(pbVar4 + 2) == 0x7f) { LAB_0002ba88: CreateNewNode(cp); } } while (true);*/ } // decompiled code // original method signature: // int /*$ra*/ CivFindPointOnPath(struct _CAR_DATA *cp /*$s7*/, int station /*$s2*/, struct VECTOR *ppoint /*$fp*/) // line 3337, offset 0x0002baec /* begin block 1 */ // Start line: 3338 // Start offset: 0x0002BAEC // Variables: // struct CIV_ROUTE_ENTRY *cprep; // $a0 // struct CIV_ROUTE_ENTRY *start; // stack offset -48 /* begin block 1.1 */ // Start line: 3346 // Start offset: 0x0002BB50 // Variables: // struct _CAR_DATA *cp; // $s7 // struct CIV_ROUTE_ENTRY *currentNode; // $a0 /* begin block 1.1.1 */ // Start line: 3346 // Start offset: 0x0002BB50 // Variables: // struct CIV_ROUTE_ENTRY *retNode; // $s0 /* end block 1.1.1 */ // End offset: 0x0002BB50 // End Line: 3346 /* end block 1.1 */ // End offset: 0x0002BB50 // End Line: 3346 /* begin block 1.2 */ // Start line: 3348 // Start offset: 0x0002BB50 // Variables: // int sx; // $s4 // int sz; // $s5 // int dx; // $s1 // int dz; // $s3 // int stepsize; // $a2 /* end block 1.2 */ // End offset: 0x0002BC90 // End Line: 3381 /* end block 1 */ // End offset: 0x0002BCF4 // End Line: 3385 /* begin block 2 */ // Start line: 7686 /* end block 2 */ // End Line: 7687 /* begin block 3 */ // Start line: 7704 /* end block 3 */ // End Line: 7705 int CivFindPointOnPath(_CAR_DATA *cp, int station, VECTOR *ppoint) { UNIMPLEMENTED(); return 0; /* int iVar1; byte *pbVar2; byte *pbVar3; byte *pbVar4; int iVar5; int iVar6; int iVar7; int iVar8; pbVar2 = *(byte **)(cp->ai + 0xf4); if (pbVar2 != (byte *)0x0) { pbVar3 = pbVar2; do { pbVar4 = pbVar3 + 0x10; if (cp->ai + 0xf4 <= pbVar4) { pbVar4 = pbVar3 + -0xc0; } if (pbVar4 == (byte *)0x0) { ppoint->vx = *(long *)(pbVar3 + 8); ppoint->vz = *(long *)(pbVar3 + 0xc); return 1; } iVar7 = *(int *)(pbVar3 + 8); iVar5 = *(int *)(pbVar4 + 8) - iVar7; iVar8 = *(int *)(pbVar3 + 0xc); iVar6 = *(int *)(pbVar4 + 0xc) - iVar8; iVar1 = SquareRoot0(iVar5 * iVar5 + iVar6 * iVar6); if (station < iVar1) { if (station < 0) { station = 0; } if (iVar1 < 0x1000) { if (iVar1 == 0) { trap(7); } iVar6 = (iVar6 * station) / iVar1; ppoint->vx = iVar7 + (iVar5 * station) / iVar1; if (iVar1 == 0) { trap(7); } } else { if (iVar1 < 0) { iVar1 = iVar1 + 0xf; } iVar1 = iVar1 >> 4; if (iVar1 == 0) { trap(7); } if (iVar1 == 0) { trap(7); } ppoint->vx = iVar7 + (((iVar5 * 0x100) / iVar1) * station + 0x800 >> 0xc); iVar6 = ((iVar6 * 0x100) / iVar1) * station + 0x800 >> 0xc; } ppoint->vz = iVar8 + iVar6; return 1; } station = station - iVar1; pbVar3 = pbVar4; } while (pbVar4 != pbVar2); } cp->ai[0xf9] = 3; cp->ai[0xc] = 7; return 0;*/ } // decompiled code // original method signature: // void /*$ra*/ CreateRoadblock() // line 3398, offset 0x0002bcf4 /* begin block 1 */ // Start line: 3400 // Start offset: 0x0002BCF4 // Variables: // struct _CAR_DATA *cp; // $v1 // struct _CAR_DATA *lcp; // $s0 // struct _CAR_DATA *newCar; // $s0 // struct DRIVER2_STRAIGHT *str; // stack offset -72 // struct DRIVER2_CURVE *crv; // $s7 // int distAlongSegment; // $s2 // int lbody; // $s4 // int dir; // $s6 // int numLanes; // stack offset -68 // unsigned char externalCopModel; // stack offset -64 // int delta; // $s4 // int noMoreCars; // stack offset -60 // int newCarId; // $v1 /* begin block 1.1 */ // Start line: 3400 // Start offset: 0x0002BCF4 // Variables: // int dir; // $s0 /* end block 1.1 */ // End offset: 0x0002C078 // End Line: 3437 /* begin block 1.2 */ // Start line: 3442 // Start offset: 0x0002C09C // Variables: // int theta; // $s0 /* end block 1.2 */ // End offset: 0x0002C198 // End Line: 3451 /* begin block 1.3 */ // Start line: 3455 // Start offset: 0x0002C1E0 // Variables: // int minAngle; // $a3 // int curveLength; // $v1 /* end block 1.3 */ // End offset: 0x0002C334 // End Line: 3491 /* begin block 1.4 */ // Start line: 3478 // Start offset: 0x0002C3F8 /* begin block 1.4.1 */ // Start line: 3483 // Start offset: 0x0002C4C8 /* end block 1.4.1 */ // End offset: 0x0002C4E4 // End Line: 3485 /* begin block 1.4.2 */ // Start line: 3399 // Start offset: 0x0002C590 // Variables: // struct _CAR_DATA *cp; // $s0 /* end block 1.4.2 */ // End offset: 0x0002C674 // End Line: 3399 /* begin block 1.4.3 */ // Start line: 3399 // Start offset: 0x0002C708 // Variables: // struct _CAR_DATA *cp; // $s0 /* end block 1.4.3 */ // End offset: 0x0002C7E4 // End Line: 3399 /* end block 1.4 */ // End offset: 0x0002C7F4 // End Line: 3510 /* begin block 1.5 */ // Start line: 3515 // Start offset: 0x0002C830 // Variables: // struct VECTOR startPos2; // stack offset -88 // int deltaAngle; // $a0 // int dir2NextRow; // $a1 // int faceDir; // $s1 // int numSpareCars; // $a0 // int count; // $s2 // int numSpots; // $fp /* begin block 1.5.1 */ // Start line: 3527 // Start offset: 0x0002C948 // Variables: // int numCarsToAdd; // $s5 /* begin block 1.5.1.1 */ // Start line: 3531 // Start offset: 0x0002C97C /* begin block 1.5.1.1.1 */ // Start line: 3399 // Start offset: 0x0002CAC4 // Variables: // struct _CAR_DATA *cp; // $s0 /* end block 1.5.1.1.1 */ // End offset: 0x0002CBA8 // End Line: 3399 /* begin block 1.5.1.1.2 */ // Start line: 3399 // Start offset: 0x0002CC3C // Variables: // struct _CAR_DATA *cp; // $s0 /* end block 1.5.1.1.2 */ // End offset: 0x0002CD18 // End Line: 3399 /* end block 1.5.1.1 */ // End offset: 0x0002CD28 // End Line: 3555 /* end block 1.5.1 */ // End offset: 0x0002CD34 // End Line: 3556 /* end block 1.5 */ // End offset: 0x0002CD34 // End Line: 3557 /* end block 1 */ // End offset: 0x0002CD74 // End Line: 3564 /* begin block 2 */ // Start line: 7892 /* end block 2 */ // End Line: 7893 /* begin block 3 */ // Start line: 7906 /* end block 3 */ // End Line: 7907 /* begin block 4 */ // Start line: 7907 /* end block 4 */ // End Line: 7908 /* begin block 5 */ // Start line: 7909 /* end block 5 */ // End Line: 7910 /* WARNING: Unknown calling convention yet parameter storage is locked */ void CreateRoadblock(void) { UNIMPLEMENTED(); /* byte bVar1; byte bVar2; short sVar3; bool bVar4; char cVar5; int laneNo; undefined3 extraout_var; long lVar6; int x; int z; CAR_COSMETICS *pCVar7; uint *puVar8; uint uVar9; int iVar10; int x_00; _CAR_DATA *mem; uint uVar11; uint distAlongPath; int z_00; int iVar12; DRIVER2_CURVE *curve; DRIVER2_STRAIGHT *local_48; int local_44; curve = (DRIVER2_CURVE *)0x0; distAlongPath = 0xfffffffb; laneNo = (int)player.playerCarId; local_48 = (DRIVER2_STRAIGHT *)0x0; bVar4 = false; z_00 = (int)car_cosmetics[3].colBox.vz; iVar10 = car_data[laneNo].hd.direction; bVar1 = *(byte *)(MissionHeader->residentModels + 3); baseLoc.vx = car_data[laneNo].hd.where.t[0]; angle = 0; baseLoc.vz = car_data[laneNo].hd.where.t[2]; do { if (requestCopCar == 0) { laneNo = (int)rcossin_tbl[(iVar10 + angle & 0xfffU) * 2] << 3; } else { laneNo = (int)rcossin_tbl[(iVar10 + angle & 0xfffU) * 2] * 10; } roadblockLoc.vx = baseLoc.vx + (laneNo + 0x800 >> 0xc) * 0x800; if (requestCopCar == 0) { laneNo = (int)rcossin_tbl[(iVar10 + angle & 0xfffU) * 2 + 1] << 3; } else { laneNo = (int)rcossin_tbl[(iVar10 + angle & 0xfffU) * 2 + 1] * 10; } roadblockLoc.vz = baseLoc.vz + (laneNo + 0x800 >> 0xc) * 0x800; roadSeg = RoadInCell(&roadblockLoc); if (((((roadSeg & 0xffffe000U) == 0) && ((int)(roadSeg & 0x1fffU) < NumDriver2Straights)) || (((roadSeg & 0xffffe000U) == 0x4000 && ((int)(roadSeg & 0x1fffU) < NumDriver2Curves)))) && (-1 < roadSeg)) break; if (requestCopCar == 0) { laneNo = (int)rcossin_tbl[(iVar10 - angle & 0xfffU) * 2] << 3; } else { laneNo = (int)rcossin_tbl[(iVar10 - angle & 0xfffU) * 2] * 10; } roadblockLoc.vx = baseLoc.vx + (laneNo + 0x800 >> 0xc) * 0x800; if (requestCopCar == 0) { laneNo = (int)rcossin_tbl[(iVar10 - angle & 0xfffU) * 2 + 1] << 3; } else { laneNo = (int)rcossin_tbl[(iVar10 - angle & 0xfffU) * 2 + 1] * 10; } roadblockLoc.vz = baseLoc.vz + (laneNo + 0x800 >> 0xc) * 0x800; roadSeg = RoadInCell(&roadblockLoc); if (((((roadSeg & 0xffffe000U) == 0) && ((int)(roadSeg & 0x1fffU) < NumDriver2Straights)) || (((roadSeg & 0xffffe000U) == 0x4000 && ((int)(roadSeg & 0x1fffU) < NumDriver2Curves)))) && (-1 < roadSeg)) break; if (requestCopCar == 0) { angle = angle + 0x5d; } else { angle = angle + 0x49; } } while (angle < 0x800); if (((roadSeg & 0xffffe000U) != 0) || (NumDriver2Straights <= (int)(roadSeg & 0x1fffU))) { if ((roadSeg & 0xffffe000U) != 0x4000) { return; } if (NumDriver2Curves <= (int)(roadSeg & 0x1fffU)) { return; } } if (roadSeg < 0) { return; } if (((roadSeg & 0xffffe000U) == 0) && ((int)(roadSeg & 0x1fffU) < NumDriver2Straights)) { local_48 = Driver2StraightsPtr + roadSeg; dx = roadblockLoc.vx - local_48->Midx; dz = roadblockLoc.vz - local_48->Midz; laneNo = ratan2(dx, dz); sVar3 = local_48->angle; iVar10 = SquareRoot0(dx * dx + dz * dz); uVar9 = (uint)local_48->length; uVar11 = z_00 * 3; distAlongPath = (uint)(local_48->length >> 1) + (rcossin_tbl[(sVar3 - laneNo & 0xfffU) * 2 + 1] * iVar10 + 0x800 >> 0xc); if ((int)uVar9 < z_00 * 6) { return; } if ((int)distAlongPath < (int)uVar11) { distAlongPath = uVar11; } if ((int)(uVar9 - distAlongPath) < (int)uVar11) { distAlongPath = uVar9 + z_00 * -3; } bVar2 = local_48->NumLanes; } else { if (((roadSeg & 0xffffe000U) != 0x4000) || ((NumDriver2Curves <= (int)(roadSeg & 0x1fffU) || (roadSeg < 0)))) goto LAB_0002c33c; curve = Driver2CurvesPtr + roadSeg + -0x4000; if ((int)(((int)curve->end - (int)curve->start & 0xfffU) * (uint)(byte)curve->inside * 0xb) / 7 < z_00 * 6) { return; } currentAngle = ratan2(roadblockLoc.vx - curve->Midx, roadblockLoc.vz - curve->Midz); uVar11 = 0x80; if ((9 < (byte)curve->inside) && (uVar11 = 0x20, (byte)curve->inside < 0x14)) { uVar11 = 0x40; } uVar9 = (currentAngle & 0xfffU) - (int)curve->start; distAlongPath = uVar9 & 0xf80; if ((9 < (byte)curve->inside) && (distAlongPath = uVar9 & 0xfe0, (byte)curve->inside < 0x14)) { distAlongPath = uVar9 & 0xfc0; } if (distAlongPath <= uVar11) { distAlongPath = uVar11; } uVar11 = ((int)curve->end - (int)curve->start) - uVar11 & 0xfff; if (uVar11 <= distAlongPath) { distAlongPath = uVar11; } bVar2 = curve->NumLanes; } local_44 = ((uint)bVar2 & 0xf) << 1; LAB_0002c33c: GetNodePos(local_48, (DRIVER2_JUNCTION *)0x0, curve, distAlongPath, (_CAR_DATA *)0x0, (int *)&startPos, &startPos.vz, 0); laneNo = local_44 + -1; GetNodePos(local_48, (DRIVER2_JUNCTION *)0x0, curve, distAlongPath, (_CAR_DATA *)0x0, (int *)&endPos, &endPos.vz, laneNo); iVar10 = 0x100; distAlongPath = ratan2(endPos.vx - startPos.vx, endPos.vz - startPos.vz); if (0x100 < laneNo * 0x200) { do { currentPos.vx = startPos.vx + (iVar10 * rcossin_tbl[(distAlongPath & 0xfff) * 2] + 0x800 >> 0xc); currentPos.vz = startPos.vz + (iVar10 * rcossin_tbl[(distAlongPath & 0xfff) * 2 + 1] + 0x800 >> 0xc); if (local_48 == (DRIVER2_STRAIGHT *)0x0) { LAB_0002c49c: if (curve != (DRIVER2_CURVE *)0x0) { z_00 = iVar10; if (iVar10 < 0) { z_00 = iVar10 + 0x3ff; } if (((int)(uint)(byte)curve->AILanes >> (z_00 >> 10 & 0x1fU) & 1U) == 0) goto LAB_0002c4cc; } LAB_0002c4e4: lVar6 = Random2(0); z_00 = iVar10; if (iVar10 < 0) { z_00 = iVar10 + 0x1ff; } z_00 = CreateStationaryCivCar (distAlongPath + (lVar6 * 0x10001 >> (z_00 >> 9 & 0x1fU) & 0x3ffU) + -0x200 , 0, 0, (long(*)[4])¤tPos, (uint)bVar1, 0, 2); if (z_00 == -1) { bVar4 = true; break; } pCVar7 = car_data[z_00].ap.carCos; x = QuickBuildingCollisionCheck ((VECTOR *)car_data[z_00].hd.where.t, car_data[z_00].hd.direction, (int)(pCVar7->colBox).vz, (int)(pCVar7->colBox).vx, 0x14); if (x != 0) { testNumPingedOut = testNumPingedOut + 1; if (car_data[z_00].controlType == '\x02') { if ((car_data[z_00].controlFlags & 1) != 0) { numCopCars = numCopCars + -1; } numCivCars = numCivCars + -1; if ((car_data[z_00].ai[0xf9] == 3) && (car_data[z_00].ai[0xc] == 5)) { numParkedCars = numParkedCars + -1; } } else { if ((PingOutCivsOnly != '\0') && (x = valid_region(car_data[z_00].hd.where.t[0], car_data[z_00].hd.where.t[2]), x != 0) ) goto LAB_0002c678; } puVar8 = (uint *)car_data[z_00].inform; if (puVar8 != (uint *)0x0) { *puVar8 = *puVar8 ^ 0x40000000; } ClearMem((char *)(car_data + z_00), 0x29c); car_data[z_00].controlType = '\0'; } LAB_0002c678: mem = car_data + 0x13; do { if ((mem->controlType != '\0') && ((*(uint *)&mem->hndType & 0x2ff00) != 0x20200)) { x = (mem->hd).where.t[0]; dx = x - currentPos.vx; z_00 = (mem->hd).where.t[2]; dz = z_00 - currentPos.vz; if (dx * dx + dz * dz < 360000) { testNumPingedOut = testNumPingedOut + 1; if (mem->controlType == '\x02') { if ((mem->controlFlags & 1) != 0) { numCopCars = numCopCars + -1; } numCivCars = numCivCars + -1; if ((mem->ai[0xf9] == 3) && (mem->ai[0xc] == 5)) { numParkedCars = numParkedCars + -1; } } else { if ((PingOutCivsOnly != '\0') && (z_00 = valid_region(x, z_00), z_00 != 0)) goto LAB_0002c7e4; } puVar8 = (uint *)mem->inform; if (puVar8 != (uint *)0x0) { *puVar8 = *puVar8 ^ 0x40000000; } ClearMem((char *)mem, 0x29c); mem->controlType = '\0'; } } LAB_0002c7e4: mem = mem + -1; } while ((_CAR_DATA *)((int)&cheats.MagicMirror + 3U) < mem); } else { z_00 = iVar10; if (iVar10 < 0) { z_00 = iVar10 + 0x3ff; } if (((int)(uint)(byte)local_48->AILanes >> (z_00 >> 10 & 0x1fU) & 1U) != 0) goto LAB_0002c49c; LAB_0002c4cc: cVar5 = CellEmpty(¤tPos, (int)car_cosmetics[3].colBox.vz); if (CONCAT31(extraout_var, cVar5) != 0) goto LAB_0002c4e4; } iVar10 = iVar10 + 0x400; } while (iVar10 < laneNo * 0x200); } if ((!bVar4) && (gCopDifficultyLevel != 0)) { laneNo = ratan2(baseLoc.vx - startPos.vx, baseLoc.vz - startPos.vz); iVar10 = 0x400; if ((((laneNo - distAlongPath) + 0x800 & 0xfff) - 0x800 & 0xfff) < 0x800) { iVar10 = -0x400; } uVar11 = distAlongPath; if (gCopDifficultyLevel == 1) { uVar11 = distAlongPath - iVar10; } uVar9 = distAlongPath + iVar10 & 0xfff; laneNo = startPos.vx + ((int)rcossin_tbl[uVar9 * 2] * 0x5dc + 0x800 >> 0xc); iVar10 = startPos.vz + ((int)rcossin_tbl[uVar9 * 2 + 1] * 0x5dc + 0x800 >> 0xc); z_00 = (maxCivCars - numCivCars) + 2; x = local_44 / 2 + -1; if (0 < z_00) { iVar12 = x; if (z_00 < x) { iVar12 = z_00; } z_00 = 0; if (0 < iVar12) { z = 0; do { if (iVar12 << 1 == 0) { trap(7); } x_00 = ((x * (z + 1)) / (iVar12 << 1)) * 0x400; z = x_00 + 0x300; currentPos.vx = laneNo + (z * rcossin_tbl[(distAlongPath & 0xfff) * 2] + 0x800 >> 0xc); currentPos.vz = iVar10 + (z * rcossin_tbl[(distAlongPath & 0xfff) * 2 + 1] + 0x800 >> 0xc) ; test42 = z; lVar6 = Random2(0); if (z < 0) { z = x_00 + 0x4ff; } z = CreateStationaryCivCar (uVar11 + (lVar6 * 0x10001 >> (z >> 9 & 0x1fU) & 0x3ffU) + -0x200, 0, 0, (long(*)[4])¤tPos, (uint)bVar1, 0, 2); if (z == -1) break; pCVar7 = car_data[z].ap.carCos; x_00 = QuickBuildingCollisionCheck ((VECTOR *)car_data[z].hd.where.t, car_data[z].hd.direction, (int)(pCVar7->colBox).vz, (int)(pCVar7->colBox).vx, 0x14); if (x_00 != 0) { testNumPingedOut = testNumPingedOut + 1; if (car_data[z].controlType == '\x02') { if ((car_data[z].controlFlags & 1) != 0) { numCopCars = numCopCars + -1; } numCivCars = numCivCars + -1; if ((car_data[z].ai[0xf9] == 3) && (car_data[z].ai[0xc] == 5)) { numParkedCars = numParkedCars + -1; } } else { if ((PingOutCivsOnly != '\0') && (x_00 = valid_region(car_data[z].hd.where.t[0], car_data[z].hd.where.t[2]), x_00 != 0)) goto LAB_0002cbac; } puVar8 = (uint *)car_data[z].inform; if (puVar8 != (uint *)0x0) { *puVar8 = *puVar8 ^ 0x40000000; } ClearMem((char *)(car_data + z), 0x29c); car_data[z].controlType = '\0'; } LAB_0002cbac: mem = car_data + 0x13; z_00 = z_00 + 1; do { if ((mem->controlType != '\0') && ((*(uint *)&mem->hndType & 0x2ff00) != 0x20200)) { x_00 = (mem->hd).where.t[0]; dx = x_00 - currentPos.vx; z = (mem->hd).where.t[2]; dz = z - currentPos.vz; if (dx * dx + dz * dz < 360000) { testNumPingedOut = testNumPingedOut + 1; if (mem->controlType == '\x02') { if ((mem->controlFlags & 1) != 0) { numCopCars = numCopCars + -1; } numCivCars = numCivCars + -1; if ((mem->ai[0xf9] == 3) && (mem->ai[0xc] == 5)) { numParkedCars = numParkedCars + -1; } } else { if ((PingOutCivsOnly != '\0') && (z = valid_region(x_00, z), z != 0)) goto LAB_0002cd18; } puVar8 = (uint *)mem->inform; if (puVar8 != (uint *)0x0) { *puVar8 = *puVar8 ^ 0x40000000; } ClearMem((char *)mem, 0x29c); mem->controlType = '\0'; } } LAB_0002cd18: mem = mem + -1; } while ((_CAR_DATA *)((int)&cheats.MagicMirror + 3U) < mem); z = z_00 * 2; } while (z_00 < iVar12); } } } requestRoadblock = 0; distAlongPath = Random2(0); roadblockDelay = (&roadblockDelayDiff)[gCopDifficultyLevel] + (distAlongPath & 0xff); roadblockCount = roadblockDelay; PlaceRoadBlockCops(); return; */ }