mirror of
https://github.com/OpenDriver2/REDRIVER2.git
synced 2024-11-25 11:52:32 +01:00
344 lines
8.6 KiB
C++
344 lines
8.6 KiB
C++
#include "Game/driver2.h"
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#include "Game/C/mission.h"
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#include "Game/C/convert.h"
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#include "Game/C/camera.h"
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#include "Game/C/dr2roads.h"
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#include "Game/C/system.h"
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#include "Game/C/pres.h"
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#include "Game/C/spool.h"
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#include "Game/C/cars.h"
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#include "Game/C/draw.h"
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#include "Game/C/players.h"
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#include "Game/C/glaunch.h"
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#include <stdio.h>
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#include "C/felony.h"
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int gDisplayDrawStats = 0;
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struct LineDef_t
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{
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VECTOR posA, posB;
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CVECTOR color;
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};
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LineDef_t gDebug_Lines[512];
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int gDebug_numLines = 0;
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void DrawDebugOverlays()
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{
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VECTOR _zerov = { 0 };
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while(gDebug_numLines > 0)
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{
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LineDef_t& ld = gDebug_Lines[gDebug_numLines-1];
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gte_SetTransVector(&_zerov);
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gte_SetRotMatrix(&inv_camera_matrix);
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SVECTOR a, b;
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VecSubtract(&a, &ld.posA, &camera_position);
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VecSubtract(&b, &ld.posB, &camera_position);
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gte_ldv3(&a, &b, &b);
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gte_rtpt();
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gte_avsz4();
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int z;
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gte_stopz(&z);
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if (z > 0)
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{
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LINE_F2* line = (LINE_F2*)current->primptr;
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setLineF2(line);
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setSemiTrans(line, 1);
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gte_stsxy0(&line->x0)
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gte_stsxy1(&line->x1);
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line->r0 = ld.color.r;
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line->g0 = ld.color.g;
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line->b0 = ld.color.b;
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addPrim(current->ot + 2, line);
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current->primptr += sizeof(LINE_F2);
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}
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gDebug_numLines--;
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}
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gDebug_numLines = 0;
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DR_TPAGE* tp = (DR_TPAGE*)current->primptr;
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setDrawTPage(tp, 1, 1, 0);
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addPrim(current->ot + 2, tp);
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current->primptr += sizeof(DR_TPAGE);
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char tempBuf[1024];
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int primTabLeft = current->primptr - current->primtab;
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if (gDisplayDrawStats)
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{
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SetTextColour(128, 120, 0);
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sprintf(tempBuf, "Primtab: %d of %d", primTabLeft, PRIMTAB_SIZE);
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PrintString(tempBuf, 10, 20);
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extern volatile int spoolactive;
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extern int numActiveCops;
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extern int numCopCars;
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extern int numCivCars;
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extern int numParkedCars;
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extern int maxCopCars;
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extern int maxCivCars;
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extern int current_region;
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extern int LoadedArea;
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Spool* spoolptr = (Spool*)(RegionSpoolInfo + spoolinfo_offsets[current_region]);
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sprintf(tempBuf, "Spooling: %d spec: %d, active: %d, Reg: %d, Ar: %d, Cn: %d %d", doSpooling, allowSpecSpooling, spoolactive, current_region, LoadedArea, spoolptr->connected_areas[0] & 0x3f, spoolptr->connected_areas[1] & 0x3f);
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PrintString(tempBuf, 10, 30);
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sprintf(tempBuf, "Civs: %d - %d parked - max %d", numCivCars, numParkedCars, maxCivCars);
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PrintString(tempBuf, 10, 40);
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sprintf(tempBuf, "Cops: %d - %d active - max %d - seen: %d", numCopCars, numActiveCops, maxCopCars, CopsCanSeePlayer);
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PrintString(tempBuf, 10, 50);
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sprintf(tempBuf, "Mission %d Chase: %d", gCurrentMissionNumber, gRandomChase);
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PrintString(tempBuf, 10, 60);
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int playerCar = player[0].playerCarId;
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if(playerCar >= 0)
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{
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int speed = car_data[playerCar].hd.speed;
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sprintf(tempBuf, "Car speed: %d direction: %d", speed, car_data[playerCar].hd.direction);
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PrintString(tempBuf, 10, 80);
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VECTOR* carPos = (VECTOR*)car_data[playerCar].hd.where.t;
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DRIVER2_ROAD_INFO roadInfo;
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roadInfo.surfId = GetSurfaceIndex(carPos);
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if (GetSurfaceRoadInfo(&roadInfo, roadInfo.surfId))
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{
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int dx, dz;
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int segLen, distAlongSegment;
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int theta;
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if (roadInfo.straight)
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{
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dx = carPos->vx - roadInfo.straight->Midx;
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dz = carPos->vz - roadInfo.straight->Midz;
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segLen = roadInfo.straight->length;
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theta = roadInfo.straight->angle - ratan2(dx, dz);
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distAlongSegment = (segLen / 2) + FIXEDH(RCOS(theta) * SquareRoot0(dx * dx + dz * dz));
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}
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else
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{
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dx = carPos->vx - roadInfo.curve->Midx;
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dz = carPos->vz - roadInfo.curve->Midz;
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theta = ratan2(dx,dz);
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segLen = (roadInfo.curve->end - roadInfo.curve->start & 0xfffU); // *roadInfo.curve->inside * 11 / 7; // don't use physical length
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if (roadInfo.curve->inside < 10)
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distAlongSegment = (theta & 0xfffU) - roadInfo.curve->start & 0xf80;
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else if (roadInfo.curve->inside < 20)
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distAlongSegment = (theta & 0xfffU) - roadInfo.curve->start & 0xfc0;
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else
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distAlongSegment = (theta & 0xfffU) - roadInfo.curve->start & 0xfe0;
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}
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int lane = GetLaneByPositionOnRoad(&roadInfo, carPos);
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sprintf(tempBuf, "%s %d flg %d%d%d spd %d len %d",
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roadInfo.straight ? "STR" : "CRV",
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roadInfo.surfId,
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(roadInfo.NumLanes & 0x20) > 0, // flag 0 - first lane?
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(roadInfo.NumLanes & 0x40) > 0, // flag 1 - leftmost park
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(roadInfo.NumLanes & 0x80) > 0, // flag 2 - rightmost park
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ROAD_SPEED_LIMIT(&roadInfo), // speed limit id
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segLen
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);
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PrintString(tempBuf, 10, 180);
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sprintf(tempBuf, "dir %d lane %d/%d AI %d dist: %d",
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ROAD_LANE_DIR(&roadInfo, lane), // direction bit
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lane + 1,
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ROAD_WIDTH_IN_LANES(&roadInfo), // lane count. * 2 for both sides as roads are symmetric
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ROAD_IS_AI_LANE(&roadInfo, lane), // lane AI driveable flag
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distAlongSegment
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);
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PrintString(tempBuf, 10, 195);
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sprintf(tempBuf, "c %d %d %d %d",
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(int)(*roadInfo.ConnectIdx)[0], (int)(*roadInfo.ConnectIdx)[1], (int)(*roadInfo.ConnectIdx)[2], (int)(*roadInfo.ConnectIdx)[3]);
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PrintString(tempBuf, 10, 205);
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}
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else if(IS_JUNCTION_SURFACE(roadInfo.surfId))
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{
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DRIVER2_JUNCTION* junc = GET_JUNCTION(roadInfo.surfId);
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sprintf(tempBuf, "JUN %d flg %d - c %d %d %d %d",roadInfo.surfId, junc->flags,
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(int)(*roadInfo.ConnectIdx)[0], (int)(*roadInfo.ConnectIdx)[1], (int)(*roadInfo.ConnectIdx)[2], (int)(*roadInfo.ConnectIdx)[3]);
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PrintString(tempBuf, 10, 180);
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}
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}
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}
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}
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void Debug_AddLine(VECTOR& pointA, VECTOR& pointB, CVECTOR& color)
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{
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if (gDebug_numLines + 1 > 512)
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return;
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int dx = camera_position.vx - pointA.vx;
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int dz = camera_position.vz - pointA.vz;
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if (dx * dx + dz * dz > (15000*15000))
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return;
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LineDef_t& ld = gDebug_Lines[gDebug_numLines++];
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ld.posA = pointA;
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ld.posB = pointB;
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ld.color = color;
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ld.posA.vy *= -1;
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ld.posB.vy *= -1;
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}
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void Debug_Line2D(SXYPAIR& pointA, SXYPAIR& pointB, CVECTOR& color)
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{
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LINE_F2* line = (LINE_F2*)current->primptr;
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setLineF2(line);
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line->x0 = pointA.x;
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line->y0 = pointA.y;
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line->x1 = pointB.x;
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line->y1 = pointB.y;
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line->r0 = color.r;
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line->g0 = color.g;
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line->b0 = color.b;
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#if defined(USE_PGXP) && defined(USE_EXTENDED_PRIM_POINTERS)
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line->pgxp_index = 0xFFFF;
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#endif
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addPrim(current->ot, line);
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current->primptr += sizeof(LINE_F2);
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}
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void Debug_AddLineOfs(VECTOR& pointA, VECTOR& pointB, VECTOR& ofs, CVECTOR& color)
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{
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if (gDebug_numLines + 1 > 512)
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return;
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int dx = camera_position.vx - ofs.vx;
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int dz = camera_position.vz - ofs.vz;
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if (dx * dx + dz * dz > (15000 * 15000))
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return;
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LineDef_t& ld = gDebug_Lines[gDebug_numLines++];
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ld.posA = pointA;
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ld.posB = pointB;
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ld.color = color;
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ld.posA.vx += ofs.vx;
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ld.posA.vy += ofs.vy;
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ld.posA.vz += ofs.vz;
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ld.posB.vx += ofs.vx;
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ld.posB.vy += ofs.vy;
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ld.posB.vz += ofs.vz;
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ld.posA.vy *= -1;
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ld.posB.vy *= -1;
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}
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int g_FreeCameraControls = 0;
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int g_FreeCameraEnabled = 0;
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VECTOR g_FreeCameraPosition;
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SVECTOR g_FreeCameraRotation;
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VECTOR g_FreeCameraVelocity;
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extern int cursorX, cursorY, cursorOldX, cursorOldY;
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extern VECTOR lis_pos;
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void BuildFreeCameraMatrix()
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{
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if (g_FreeCameraEnabled == 0)
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return;
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player[0].cameraPos = g_FreeCameraPosition;
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camera_position = g_FreeCameraPosition;
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camera_angle = g_FreeCameraRotation;
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lis_pos = camera_position;
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BuildWorldMatrix();
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}
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void DoFreeCamera()
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{
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if (g_FreeCameraEnabled == 0)
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{
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g_FreeCameraPosition = camera_position;
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g_FreeCameraRotation = camera_angle;
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g_FreeCameraVelocity.vx = 0;
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g_FreeCameraVelocity.vy = 0;
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g_FreeCameraVelocity.vz = 0;
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return;
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}
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BuildFreeCameraMatrix();
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g_FreeCameraPosition.vx += FIXEDH(g_FreeCameraVelocity.vx);
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g_FreeCameraPosition.vy += FIXEDH(g_FreeCameraVelocity.vy);
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g_FreeCameraPosition.vz += FIXEDH(g_FreeCameraVelocity.vz);
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// deaccel
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g_FreeCameraVelocity.vx -= (g_FreeCameraVelocity.vx / 8);
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g_FreeCameraVelocity.vy -= (g_FreeCameraVelocity.vy / 8);
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g_FreeCameraVelocity.vz -= (g_FreeCameraVelocity.vz / 8);
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// accel
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if ((g_FreeCameraControls & 0x1) || (g_FreeCameraControls & 0x2)) // forward/back
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{
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int sign = (g_FreeCameraControls & 0x2) ? -1 : 1;
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g_FreeCameraVelocity.vx += (inv_camera_matrix.m[2][0] * 32) * sign;
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g_FreeCameraVelocity.vy += (inv_camera_matrix.m[2][1] * 32) * sign;
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g_FreeCameraVelocity.vz += (inv_camera_matrix.m[2][2] * 32) * sign;
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}
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// side
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if ((g_FreeCameraControls & 0x4) || (g_FreeCameraControls & 0x8)) // right/left
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{
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int sign = (g_FreeCameraControls & 0x8) ? 1 : -1;
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g_FreeCameraVelocity.vx += (inv_camera_matrix.m[0][0] * 32) * sign;
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g_FreeCameraVelocity.vy += (inv_camera_matrix.m[0][1] * 32) * sign;
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g_FreeCameraVelocity.vz += (inv_camera_matrix.m[0][2] * 32) * sign;
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}
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} |