/* * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at * your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * In addition, as a special exception, the author gives permission to * link the code of this program with the Half-Life Game Engine ("HL * Engine") and Modified Game Libraries ("MODs") developed by Valve, * L.L.C ("Valve"). You must obey the GNU General Public License in all * respects for all of the code used other than the HL Engine and MODs * from Valve. If you modify this file, you may extend this exception * to your version of the file, but you are not obligated to do so. If * you do not wish to do so, delete this exception statement from your * version. * */ #ifndef NAV_H #define NAV_H #ifdef _WIN32 #pragma once #endif // STL uses exceptions, but we are not compiling with them - ignore warning #pragma warning(disable : 4530) // to help identify nav files #define NAV_MAGIC_NUMBER 0xFEEDFACE // A place is a named group of navigation areas typedef unsigned int Place; // ie: "no place" #define UNDEFINED_PLACE 0 #define ANY_PLACE 0xFFFF #define WALK_THRU_DOORS 0x01 #define WALK_THRU_BREAKABLES 0x02 //class CNavArea; //class CNavNode; enum NavErrorType { NAV_OK, NAV_CANT_ACCESS_FILE, NAV_INVALID_FILE, NAV_BAD_FILE_VERSION, NAV_CORRUPT_DATA, }; enum NavAttributeType { NAV_CROUCH = 0x01, // must crouch to use this node/area NAV_JUMP = 0x02, // must jump to traverse this area NAV_PRECISE = 0x04, // do not adjust for obstacles, just move along area NAV_NO_JUMP = 0x08, // inhibit discontinuity jumping }; enum NavDirType { NORTH = 0, EAST, SOUTH, WEST, NUM_DIRECTIONS }; // Defines possible ways to move from one area to another enum NavTraverseType { // NOTE: First 4 directions MUST match NavDirType GO_NORTH = 0, GO_EAST, GO_SOUTH, GO_WEST, GO_LADDER_UP, GO_LADDER_DOWN, GO_JUMP, NUM_TRAVERSE_TYPES }; enum NavCornerType { NORTH_WEST = 0, NORTH_EAST, SOUTH_EAST, SOUTH_WEST, NUM_CORNERS }; enum NavRelativeDirType { FORWARD = 0, RIGHT, BACKWARD, LEFT, UP, DOWN, NUM_RELATIVE_DIRECTIONS }; const float GenerationStepSize = 25.0f; // (30) was 20, but bots can't fit always fit const float StepHeight = 18.0f; // if delta Z is greater than this, we have to jump to get up const float JumpHeight = 41.8f; // if delta Z is less than this, we can jump up on it const float JumpCrouchHeight = 58.0f; // (48) if delta Z is less than or equal to this, we can jumpcrouch up on it // Strictly speaking, you CAN get up a slope of 1.643 (about 59 degrees), but you move very, very slowly // This slope will represent the slope you can navigate without much slowdown // rise/run - if greater than this, we can't move up it (de_survivor canyon ramps) const float MaxSlope = 1.4f; // instead of MaxSlope, we are using the following max Z component of a unit normal const float MaxUnitZSlope = 0.7f; const float BotRadius = 10.0f; // circular extent that contains bot const float DeathDrop = 200.0f; // (300) distance at which we will die if we fall - should be about 600, and pay attention to fall damage during pathfind const float HalfHumanWidth = 16.0f; const float HalfHumanHeight = 36.0f; const float HumanHeight = 72.0f; /* <4f7910> ../game_shared/bot/nav.h:104 */ struct Extent { Vector lo; Vector hi; UNTESTED float SizeX(void) const { return hi.x - lo.x; } UNTESTED float SizeY(void) const { return hi.y - lo.y; } UNTESTED float SizeZ(void) const { return hi.z - lo.z; } UNTESTED float Area(void) const { return SizeX() * SizeY(); } // return true if 'pos' is inside of this extent UNTESTED bool Contains(const Vector *pos) const { return (pos->x >= lo.x && pos->x <= hi.x && pos->y >= lo.y && pos->y <= hi.y && pos->z >= lo.z && pos->z <= hi.z); } };/* size: 24, cachelines: 1, members: 2 */ struct Ray { Vector from; Vector to; };/* size: 24, cachelines: 1, members: 2 */ /* <34358b> ../game_shared/bot/nav.h:134 */ inline NavDirType OppositeDirection(NavDirType dir) { switch (dir) { case NORTH: return SOUTH; case EAST: return WEST; case SOUTH: return NORTH; case WEST: return EAST; } return NORTH; } /* <4c3042> ../game_shared/bot/nav.h:148 */ inline NavDirType DirectionLeft(NavDirType dir) { switch (dir) { case NORTH: return WEST; case SOUTH: return EAST; case EAST: return NORTH; case WEST: return SOUTH; } return NORTH; } /* <4c3061> ../game_shared/bot/nav.h:162 */ inline NavDirType DirectionRight(NavDirType dir) { switch (dir) { case NORTH: return EAST; case SOUTH: return WEST; case EAST: return SOUTH; case WEST: return NORTH; } return NORTH; } /* <3433a4> ../game_shared/bot/nav.h:176 */ inline void AddDirectionVector(Vector *v, NavDirType dir, float amount) { switch (dir) { case NORTH: v->y -= amount; return; case EAST: v->x += amount; return; case SOUTH: v->y += amount; return; case WEST: v->x -= amount; return; } } /* <38c828> ../game_shared/bot/nav.h:188 */ inline float DirectionToAngle(NavDirType dir) { switch (dir) { case NORTH: return 270.0f; case EAST: return 0.0f; case SOUTH: return 90.0f; case WEST: return 180.0f; } return 0.0f; } /* <3d8335> ../game_shared/bot/nav.h:202 */ inline NavDirType AngleToDirection(float angle) { while (angle < 0.0f) angle += 360.0f; while (angle > 360.0f) angle -= 360.0f; if (angle < 45 || angle > 315) return EAST; if (angle >= 45 && angle < 135) return SOUTH; if (angle >= 135 && angle < 225) return WEST; return NORTH; } /* <38ccf5> ../game_shared/bot/nav.h:223 */ inline void DirectionToVector2D(NavDirType dir, Vector2D *v) { switch (dir) { case NORTH: v->x = 0.0f; v->y = -1.0f; break; case SOUTH: v->x = 0.0f; v->y = 1.0f; break; case EAST: v->x = 1.0f; v->y = 0.0f; break; case WEST: v->x = -1.0f; v->y = 0.0f; break; } } /* <3433d1> ../game_shared/bot/nav.h:235 */ inline void SnapToGrid(Vector *pos) { int cx = pos->x / GenerationStepSize; int cy = pos->y / GenerationStepSize; pos->x = cx * GenerationStepSize; pos->y = cy * GenerationStepSize; } /* <3433d1> ../game_shared/bot/nav.h:235 */ inline void SnapToGrid(float *value) { int c = *value / GenerationStepSize; *value = c * GenerationStepSize; } /* <14ea2f> ../game_shared/bot/nav.h:251 */ inline float_precision NormalizeAngle(float_precision angle) { while (angle < -180.0f) angle += 360.0f; while (angle > 180.0f) angle -= 360.0f; return angle; } /* <4ad17f> ../game_shared/bot/nav.h:263 */ inline float NormalizeAnglePositive(float angle) { while (angle < 0.0f) angle += 360.0f; while (angle >= 360.0f) angle -= 360.0f; return angle; } /* <38c40b> ../game_shared/bot/nav.h:275 */ inline float AngleDifference(float a, float b) { float angleDiff = a - b; while (angleDiff > 180.0f) angleDiff -= 360.0f; while (angleDiff < -180.0f) angleDiff += 360.0f; return angleDiff; } /* <38cac9> ../game_shared/bot/nav.h:288 */ inline bool AnglesAreEqual(float a, float b, float tolerance = 5.0f) { if (abs(AngleDifference(a, b)) < tolerance) return true; return false; } /* <3d8457> ../game_shared/bot/nav.h:297 */ inline bool VectorsAreEqual(const Vector *a, const Vector *b, float tolerance = 0.1f) { if (abs(a->x - b->x) < tolerance && abs(a->y - b->y) < tolerance && abs(a->z - b->z) < tolerance) return true; return false; } /* <3436f6> ../game_shared/bot/nav.h:313 */ inline bool IsEntityWalkable(entvars_t *entity, unsigned int flags) { // if we hit a door, assume its walkable because it will open when we touch it if (FClassnameIs(entity, "func_door") || FClassnameIs(entity, "func_door_rotating")) return (flags & WALK_THRU_DOORS) ? true : false; // if we hit a breakable object, assume its walkable because we will shoot it when we touch it if (FClassnameIs(entity, "func_breakable") && entity->takedamage == DAMAGE_YES) return (flags & WALK_THRU_BREAKABLES) ? true : false; return false; } // Check LOS, ignoring any entities that we can walk through /* <38d33d> ../game_shared/bot/nav.h:330 */ inline bool IsWalkableTraceLineClear(Vector &from, Vector &to, unsigned int flags = 0) { TraceResult result; edict_t *ignore = NULL; Vector useFrom = from; while (true) { UTIL_TraceLine(useFrom, to, ignore_monsters, ignore, &result); if (result.flFraction != 1.0f && IsEntityWalkable(VARS(result.pHit), flags)) { ignore = result.pHit; Vector dir = to - from; dir.NormalizeInPlace(); useFrom = result.vecEndPos + 5.0f * dir; } else break; } if (result.flFraction == 1.0f) return true; return false; } #endif // NAV_H