ReGameDLL_CS/regamedll/pm_shared/pm_shared.cpp
s1lentq 279799bff9 Add support IN_RUN key for +speed button in spectator/noclip and walk moves
Add cheat impulse for enable Noclip with air accelerate
2024-08-06 05:03:10 +07:00

3382 lines
76 KiB
C++

#include "precompiled.h"
BOOL pm_shared_initialized = FALSE;
vec3_t rgv3tStuckTable[54];
int rgStuckLast[MAX_CLIENTS][2];
int pm_gcTextures = 0;
char pm_grgszTextureName[MAX_TEXTURES][MAX_TEXTURENAME_LENGHT];
char pm_grgchTextureType[MAX_TEXTURES];
playermove_t *pmove = nullptr;
BOOL g_onladder = FALSE;
#ifdef REGAMEDLL_API
static CCSPlayer *pmoveplayer = nullptr;
#endif
#ifdef CLIENT_DLL
int iJumpSpectator;
float vJumpOrigin[3];
float vJumpAngles[3];
#endif
void PM_SwapTextures(int i, int j)
{
char chTemp;
char szTemp[MAX_TEXTURENAME_LENGHT];
Q_strlcpy(szTemp, pm_grgszTextureName[i]);
chTemp = pm_grgchTextureType[i];
Q_strcpy_s(pm_grgszTextureName[i], pm_grgszTextureName[j]);
pm_grgchTextureType[i] = pm_grgchTextureType[j];
Q_strlcpy(pm_grgszTextureName[j], szTemp);
pm_grgchTextureType[j] = chTemp;
}
NOXREF qboolean PM_IsThereGrassTexture()
{
for (int i = 0; i < pm_gcTextures; i++)
{
if (pm_grgchTextureType[i] == CHAR_TEX_GRASS)
return TRUE;
}
return FALSE;
}
void PM_SortTextures()
{
// Bubble sort, yuck, but this only occurs at startup and it's only 512 elements...
int i, j;
for (i = 0; i < pm_gcTextures; i++)
{
for (j = i + 1; j < pm_gcTextures; j++)
{
if (Q_stricmp(pm_grgszTextureName[i], pm_grgszTextureName[j]) > 0)
{
// Swap
PM_SwapTextures(i, j);
}
}
}
}
void PM_InitTextureTypes()
{
char buffer[512];
int i, j;
byte *pMemFile;
int fileSize, filePos = 0;
static bool bTextureTypeInit = false;
if (bTextureTypeInit)
return;
Q_memset(&(pm_grgszTextureName[0][0]), 0, sizeof(pm_grgszTextureName));
Q_memset(pm_grgchTextureType, 0, sizeof(pm_grgchTextureType));
pm_gcTextures = 0;
Q_memset(buffer, 0, sizeof(buffer));
pMemFile = pmove->COM_LoadFile("sound/materials.txt", 5, &fileSize);
if (!pMemFile)
return;
// for each line in the file...
while (pmove->memfgets(pMemFile, fileSize, &filePos, buffer, sizeof(buffer) - 1) && (pm_gcTextures < MAX_TEXTURES))
{
// skip whitespace
i = 0;
while (buffer[i] && isspace(buffer[i]))
i++;
if (!buffer[i])
continue;
// skip comment lines
if (buffer[i] == '/' || !isalpha(buffer[i]))
continue;
// get texture type
pm_grgchTextureType[pm_gcTextures] = toupper(buffer[i++]);
// skip whitespace
while (buffer[i] && isspace(buffer[i]))
i++;
if (!buffer[i])
continue;
// get sentence name
j = i;
while (buffer[j] && !isspace(buffer[j]))
j++;
if (!buffer[j])
continue;
// null-terminate name and save in sentences array
j = Q_min(j, MAX_TEXTURENAME_LENGHT - 1 + i);
buffer[j] = '\0';
Q_strcpy(&(pm_grgszTextureName[pm_gcTextures++][0]), &(buffer[i]));
}
// Must use engine to free since we are in a .dll
pmove->COM_FreeFile(pMemFile);
PM_SortTextures();
bTextureTypeInit = true;
}
char EXT_FUNC PM_FindTextureType(char *name)
{
int left, right, pivot;
int val;
DbgAssert(pm_shared_initialized);
left = 0;
right = pm_gcTextures - 1;
while (left <= right)
{
pivot = (left + right) / 2;
val = Q_strnicmp(name, pm_grgszTextureName[pivot], MAX_TEXTURENAME_LENGHT - 1);
if (val == 0)
{
return pm_grgchTextureType[pivot];
}
else if (val > 0)
{
left = pivot + 1;
}
else if (val < 0)
{
right = pivot - 1;
}
}
return CHAR_TEX_CONCRETE;
}
LINK_HOOK_VOID_CHAIN(PM_PlayStepSound, (int step, float fvol), step, fvol)
void EXT_FUNC __API_HOOK(PM_PlayStepSound)(int step, float fvol)
{
static int iSkipStep = 0;
int irand;
pmove->iStepLeft = !pmove->iStepLeft;
if (!pmove->runfuncs)
{
return;
}
irand = pmove->RandomLong(0, 1) + (pmove->iStepLeft * 2);
// FIXME mp_footsteps needs to be a movevar
if (pmove->multiplayer && !pmove->movevars->footsteps)
return;
// irand - 0,1 for right foot, 2,3 for left foot
// used to alternate left and right foot
// FIXME, move to player state
switch (step)
{
default:
case STEP_CONCRETE:
switch (irand)
{
// right foot
case 0: pmove->PM_PlaySound(CHAN_BODY, "player/pl_step1.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 1: pmove->PM_PlaySound(CHAN_BODY, "player/pl_step3.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
// left foot
case 2: pmove->PM_PlaySound(CHAN_BODY, "player/pl_step2.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 3: pmove->PM_PlaySound(CHAN_BODY, "player/pl_step4.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
}
break;
case STEP_METAL:
switch (irand)
{
// right foot
case 0: pmove->PM_PlaySound(CHAN_BODY, "player/pl_metal1.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 1: pmove->PM_PlaySound(CHAN_BODY, "player/pl_metal3.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
// left foot
case 2: pmove->PM_PlaySound(CHAN_BODY, "player/pl_metal2.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 3: pmove->PM_PlaySound(CHAN_BODY, "player/pl_metal4.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
}
break;
case STEP_DIRT:
switch (irand)
{
// right foot
case 0: pmove->PM_PlaySound(CHAN_BODY, "player/pl_dirt1.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 1: pmove->PM_PlaySound(CHAN_BODY, "player/pl_dirt3.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
// left foot
case 2: pmove->PM_PlaySound(CHAN_BODY, "player/pl_dirt2.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 3: pmove->PM_PlaySound(CHAN_BODY, "player/pl_dirt4.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
}
break;
case STEP_VENT:
switch (irand)
{
// right foot
case 0: pmove->PM_PlaySound(CHAN_BODY, "player/pl_duct1.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 1: pmove->PM_PlaySound(CHAN_BODY, "player/pl_duct3.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
// left foot
case 2: pmove->PM_PlaySound(CHAN_BODY, "player/pl_duct2.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 3: pmove->PM_PlaySound(CHAN_BODY, "player/pl_duct4.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
}
break;
case STEP_GRATE:
switch (irand)
{
// right foot
case 0: pmove->PM_PlaySound(CHAN_BODY, "player/pl_grate1.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 1: pmove->PM_PlaySound(CHAN_BODY, "player/pl_grate3.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
// left foot
case 2: pmove->PM_PlaySound(CHAN_BODY, "player/pl_grate2.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 3: pmove->PM_PlaySound(CHAN_BODY, "player/pl_grate4.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
}
break;
case STEP_TILE:
if (!pmove->RandomLong(0, 4))
irand = 4;
switch (irand)
{
// right foot
case 0: pmove->PM_PlaySound(CHAN_BODY, "player/pl_tile1.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 1: pmove->PM_PlaySound(CHAN_BODY, "player/pl_tile3.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
// left foot
case 2: pmove->PM_PlaySound(CHAN_BODY, "player/pl_tile2.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 3: pmove->PM_PlaySound(CHAN_BODY, "player/pl_tile4.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 4: pmove->PM_PlaySound(CHAN_BODY, "player/pl_tile5.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
}
break;
case STEP_SLOSH:
switch (irand)
{
// right foot
case 0: pmove->PM_PlaySound(CHAN_BODY, "player/pl_slosh1.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 1: pmove->PM_PlaySound(CHAN_BODY, "player/pl_slosh3.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
// left foot
case 2: pmove->PM_PlaySound(CHAN_BODY, "player/pl_slosh2.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 3: pmove->PM_PlaySound(CHAN_BODY, "player/pl_slosh4.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
}
break;
case STEP_WADE:
if (iSkipStep == 0)
{
iSkipStep++;
break;
}
if (iSkipStep++ == 3)
{
iSkipStep = 0;
}
switch (irand)
{
// right foot
case 0: pmove->PM_PlaySound(CHAN_BODY, "player/pl_wade1.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 1: pmove->PM_PlaySound(CHAN_BODY, "player/pl_wade2.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
// left foot
case 2: pmove->PM_PlaySound(CHAN_BODY, "player/pl_wade3.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 3: pmove->PM_PlaySound(CHAN_BODY, "player/pl_wade4.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
}
break;
case STEP_LADDER:
switch (irand)
{
// right foot
case 0: pmove->PM_PlaySound(CHAN_BODY, "player/pl_ladder1.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 1: pmove->PM_PlaySound(CHAN_BODY, "player/pl_ladder3.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
// left foot
case 2: pmove->PM_PlaySound(CHAN_BODY, "player/pl_ladder2.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 3: pmove->PM_PlaySound(CHAN_BODY, "player/pl_ladder4.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
}
break;
case STEP_SNOW:
switch (irand)
{
// right foot
case 0: pmove->PM_PlaySound(CHAN_BODY, "player/pl_snow1.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 1: pmove->PM_PlaySound(CHAN_BODY, "player/pl_snow3.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
// left foot
case 2: pmove->PM_PlaySound(CHAN_BODY, "player/pl_snow2.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
case 3: pmove->PM_PlaySound(CHAN_BODY, "player/pl_snow4.wav", fvol, ATTN_NORM, 0, PITCH_NORM); break;
}
break;
}
}
int PM_MapTextureTypeStepType(char chTextureType)
{
switch (chTextureType)
{
default:
case CHAR_TEX_CONCRETE: return STEP_CONCRETE;
case CHAR_TEX_METAL: return STEP_METAL;
case CHAR_TEX_DIRT: return STEP_DIRT;
case CHAR_TEX_VENT: return STEP_VENT;
case CHAR_TEX_GRATE: return STEP_GRATE;
case CHAR_TEX_TILE: return STEP_TILE;
case CHAR_TEX_SLOSH: return STEP_SLOSH;
case CHAR_TEX_SNOW: return STEP_SNOW;
}
}
void PM_CatagorizeTextureType()
{
vec3_t start, end;
const char *pTextureName;
VectorCopy(pmove->origin, start);
VectorCopy(pmove->origin, end);
// Straight down
end[2] -= 64.0f;
// Fill in default values, just in case.
pmove->sztexturename[0] = '\0';
pmove->chtexturetype = CHAR_TEX_CONCRETE;
pTextureName = pmove->PM_TraceTexture(pmove->onground, start, end);
if (!pTextureName)
return;
// strip leading '-0' or '+0~' or '{' or '!'
if (*pTextureName == '-' || *pTextureName == '+')
pTextureName += 2;
if (*pTextureName == '{' || *pTextureName == '!' || *pTextureName == '~' || *pTextureName == ' ')
pTextureName++;
Q_strcpy(pmove->sztexturename, pTextureName);
pmove->sztexturename[MAX_TEXTURENAME_LENGHT - 1] = '\0';
// get texture type
pmove->chtexturetype = PM_FindTextureType(pmove->sztexturename);
}
LINK_HOOK_VOID_CHAIN2(PM_UpdateStepSound)
void EXT_FUNC __API_HOOK(PM_UpdateStepSound)()
{
float fvol;
vec3_t knee;
vec3_t feet;
vec3_t center;
float height;
float speed;
int fLadder;
int step;
int onground;
if (pmove->flTimeStepSound > 0)
return;
if (pmove->flags & FL_FROZEN)
return;
speed = Length(pmove->velocity);
if (speed <= 150.0)
{
pmove->flTimeStepSound = 400;
return;
}
// determine if we are on a ladder
fLadder = (pmove->movetype == MOVETYPE_FLY);
// determine if we are not in air
onground = (pmove->onground != -1);
// If we're on a ladder or on the ground play step sound.
if (fLadder || onground)
{
PM_CatagorizeTextureType();
VectorCopy(pmove->origin, center);
VectorCopy(pmove->origin, knee);
VectorCopy(pmove->origin, feet);
height = pmove->player_maxs[pmove->usehull][2] - pmove->player_mins[pmove->usehull][2];
knee[2] = pmove->origin[2] - 0.3 * height;
feet[2] = pmove->origin[2] - 0.5 * height;
// find out what we're stepping in or on...
if (fLadder)
{
step = STEP_LADDER;
fvol = 0.35;
pmove->flTimeStepSound = 350;
}
else if (pmove->PM_PointContents(knee, nullptr) == CONTENTS_WATER)
{
step = STEP_WADE;
fvol = 0.65;
pmove->flTimeStepSound = 600;
}
else if (pmove->PM_PointContents(feet, nullptr) == CONTENTS_WATER)
{
step = STEP_SLOSH;
fvol = 0.5;
pmove->flTimeStepSound = 300;
}
else
{
// find texture under player, if different from current texture,
// get material type
step = PM_MapTextureTypeStepType(pmove->chtexturetype);
switch (pmove->chtexturetype)
{
default:
case CHAR_TEX_CONCRETE:
fvol = 0.5;
pmove->flTimeStepSound = 300;
break;
case CHAR_TEX_METAL:
fvol = 0.5;
pmove->flTimeStepSound = 300;
break;
case CHAR_TEX_DIRT:
fvol = 0.55;
pmove->flTimeStepSound = 300;
break;
case CHAR_TEX_VENT:
fvol = 0.7;
pmove->flTimeStepSound = 300;
break;
case CHAR_TEX_GRATE:
fvol = 0.5;
pmove->flTimeStepSound = 300;
break;
case CHAR_TEX_TILE:
fvol = 0.5;
pmove->flTimeStepSound = 300;
break;
case CHAR_TEX_SLOSH:
fvol = 0.5;
pmove->flTimeStepSound = 300;
break;
}
}
if ((pmove->flags & FL_DUCKING) || fLadder)
{
// slower step time if ducking
pmove->flTimeStepSound += 100;
// play the sound
// 35% volume if ducking
if ((pmove->flags & FL_DUCKING) && pmove->flDuckTime < 950.0)
{
fvol *= 0.35;
}
}
PM_PlayStepSound(step, fvol);
}
}
// Add's the trace result to touch list, if contact is not already in list.
qboolean PM_AddToTouched(pmtrace_t tr, vec_t *impactvelocity)
{
int i;
for (i = 0; i < pmove->numtouch; i++)
{
if (pmove->touchindex[i].ent == tr.ent)
break;
}
// Already in list.
if (i != pmove->numtouch)
{
return FALSE;
}
VectorCopy(impactvelocity, tr.deltavelocity);
if (pmove->numtouch >= MAX_PHYSENTS)
{
pmove->Con_DPrintf("Too many entities were touched!\n");
}
pmove->touchindex[pmove->numtouch++] = tr;
return TRUE;
}
void PM_CheckVelocity()
{
int i;
// bound velocity
for (i = 0; i < 3; i++)
{
// See if it's bogus.
if (IS_NAN(pmove->velocity[i]))
{
pmove->Con_Printf("PM Got a NaN velocity %i\n", i);
pmove->velocity[i] = 0;
}
if (IS_NAN(pmove->origin[i]))
{
pmove->Con_Printf("PM Got a NaN origin on %i\n", i);
pmove->origin[i] = 0;
}
// Bound it.
if (pmove->velocity[i] > pmove->movevars->maxvelocity)
{
pmove->Con_DPrintf("PM Got a velocity too high on %i\n", i);
pmove->velocity[i] = pmove->movevars->maxvelocity;
}
else if (pmove->velocity[i] < -pmove->movevars->maxvelocity)
{
pmove->Con_DPrintf("PM Got a velocity too low on %i\n", i);
pmove->velocity[i] = -pmove->movevars->maxvelocity;
}
}
}
// Slide off of the impacting object
// returns the blocked flags:
// 0x01 == floor
// 0x02 == step / wall
int PM_ClipVelocity(vec_t *in, vec_t *normal, vec_t *out, float overbounce)
{
float change;
real_t angle;
real_t backoff;
int i, blocked;
angle = normal[2];
// Assume unblocked.
blocked = 0x00;
// If the plane that is blocking us has a positive z component, then assume it's a floor.
if (angle > 0)
{
blocked |= 0x01;
}
// If the plane has no Z, it is vertical (wall/step)
if (!angle)
{
blocked |= 0x02;
}
// Determine how far along plane to slide based on incoming direction.
// Scale by overbounce factor.
backoff = DotProduct(in, normal) * overbounce;
for (i = 0; i < 3; i++)
{
change = in[i] - normal[i] * backoff;
out[i] = change;
// If out velocity is too small, zero it out.
if (out[i] > -STOP_EPSILON && out[i] < STOP_EPSILON)
{
out[i] = 0;
}
}
// Return blocking flags.
return blocked;
}
void PM_AddCorrectGravity()
{
real_t ent_gravity;
if (pmove->waterjumptime)
return;
if (pmove->gravity != 0.0f)
ent_gravity = pmove->gravity;
else
ent_gravity = 1.0f;
// Add gravity so they'll be in the correct position during movement
// yes, this 0.5 looks wrong, but it's not.
pmove->velocity[2] -= (ent_gravity * pmove->movevars->gravity * 0.5f * pmove->frametime);
pmove->velocity[2] += pmove->basevelocity[2] * pmove->frametime;
pmove->basevelocity[2] = 0;
PM_CheckVelocity();
}
void PM_FixupGravityVelocity()
{
real_t ent_gravity;
if (pmove->waterjumptime)
return;
if (pmove->gravity != 0.0)
ent_gravity = pmove->gravity;
else
ent_gravity = 1.0;
// Get the correct velocity for the end of the dt
pmove->velocity[2] -= (pmove->movevars->gravity * pmove->frametime * ent_gravity * 0.5);
PM_CheckVelocity();
}
int PM_FlyMove()
{
int bumpcount, numbumps;
vec3_t dir;
float d;
int numplanes;
vec3_t planes[MAX_CLIP_PLANES];
vec3_t primal_velocity, original_velocity;
vec3_t new_velocity;
int i, j;
pmtrace_t trace;
vec3_t end;
float time_left, allFraction;
int blocked;
numbumps = 4; // Bump up to four times
blocked = 0x00; // Assume not blocked
numplanes = 0; // and not sliding along any planes
VectorCopy(pmove->velocity, original_velocity); // Store original velocity
VectorCopy(pmove->velocity, primal_velocity);
allFraction = 0;
time_left = pmove->frametime; // Total time for this movement operation.
for (bumpcount = 0; bumpcount < numbumps; bumpcount++)
{
if (!pmove->velocity[0] && !pmove->velocity[1] && !pmove->velocity[2])
break;
// Assume we can move all the way from the current origin to the
// end point.
for (i = 0; i < 3; i++)
{
real_t flScale = time_left * pmove->velocity[i];
end[i] = pmove->origin[i] + flScale;
}
// See if we can make it from origin to end point.
trace = pmove->PM_PlayerTrace(pmove->origin, end, PM_NORMAL, -1);
allFraction += trace.fraction;
// If we started in a solid object, or we were in solid space
// the whole way, zero out our velocity and return that we
// are blocked by floor and wall.
if (trace.allsolid)
{
// entity is trapped in another solid
VectorCopy(vec3_origin, pmove->velocity);
return 4;
}
// If we moved some portion of the total distance, then
// copy the end position into the pmove->origin and
// zero the plane counter.
if (trace.fraction > 0.0f)
{
// actually covered some distance
VectorCopy(trace.endpos, pmove->origin);
VectorCopy(pmove->velocity, original_velocity);
numplanes = 0;
}
// If we covered the entire distance, we are done
// and can return.
if (trace.fraction == 1.0f)
{
// moved the entire distance
break;
}
// Save entity that blocked us (since fraction was < 1.0)
// for contact
// Add it if it's not already in the list
PM_AddToTouched(trace, pmove->velocity);
// If the plane we hit has a high z component in the normal, then
// it's probably a floor
if (trace.plane.normal[2] > 0.7f)
{
// floor
blocked |= 0x01;
}
// If the plane has a zero z component in the normal, then it's a
// step or wall
if (!trace.plane.normal[2])
{
// step / wall
blocked |= 0x02;
}
// Reduce amount of pmove->frametime left by total time left * fraction
// that we covered.
time_left -= time_left * trace.fraction;
// Did we run out of planes to clip against?
if (numplanes >= MAX_CLIP_PLANES)
{
// this shouldn't really happen
// Stop our movement if so.
VectorCopy(vec3_origin, pmove->velocity);
break;
}
// Set up next clipping plane
VectorCopy(trace.plane.normal, planes[numplanes]);
numplanes++;
// modify original_velocity so it parallels all of the clip planes
// relfect player velocity
if (numplanes == 1 && pmove->movetype == MOVETYPE_WALK && (pmove->onground == -1 || pmove->friction != 1))
{
for (i = 0; i < numplanes; i++)
{
if (planes[i][2] > 0.7f)
{
// floor or slope
PM_ClipVelocity(original_velocity, planes[i], new_velocity, 1);
VectorCopy(new_velocity, original_velocity);
}
else
PM_ClipVelocity(original_velocity, planes[i], new_velocity, 1.0 + pmove->movevars->bounce * (1.0 - pmove->friction));
}
VectorCopy(new_velocity, pmove->velocity);
VectorCopy(new_velocity, original_velocity);
}
else
{
for (i = 0; i < numplanes; i++)
{
PM_ClipVelocity(original_velocity, planes[i], pmove->velocity, 1);
for (j = 0; j < numplanes; j++)
{
if (j != i && DotProduct(pmove->velocity, planes[j]) < 0)
{
break;
}
}
if (j == numplanes)
break;
}
if (i == numplanes)
{
if (numplanes != 2)
{
VectorCopy(vec3_origin, pmove->velocity);
break;
}
CrossProduct(planes[0], planes[1], dir);
d = DotProduct(dir, pmove->velocity);
VectorScale(dir, d, pmove->velocity);
}
if (DotProduct(pmove->velocity, primal_velocity) <= 0)
{
VectorCopy(vec3_origin, pmove->velocity);
break;
}
}
}
if (allFraction == 0.0f)
{
VectorCopy(vec3_origin, pmove->velocity);
}
return blocked;
}
void PM_Accelerate(vec_t *wishdir, real_t wishspeed, float accel)
{
int i;
float addspeed;
real_t currentspeed;
real_t accelspeed;
// Dead player's don't accelerate
if (pmove->dead)
return;
// If waterjumping, don't accelerate
if (pmove->waterjumptime)
return;
// See if we are changing direction a bit
currentspeed = DotProduct(pmove->velocity, wishdir);
// Reduce wishspeed by the amount of veer.
addspeed = wishspeed - currentspeed;
// If not going to add any speed, done.
if (addspeed <= 0)
return;
// Determine amount of accleration.
accelspeed = accel * pmove->frametime * wishspeed * pmove->friction;
// Cap at addspeed
if (accelspeed > addspeed)
accelspeed = addspeed;
// Adjust velocity.
for (i = 0; i < 3; i++)
{
pmove->velocity[i] += accelspeed * wishdir[i];
}
}
// Only used by players. Moves along the ground when player is a MOVETYPE_WALK.
void PM_WalkMove()
{
int clip;
int oldonground;
int i;
vec3_t wishvel;
real_t spd;
float fmove, smove, maxspeed;
vec3_t wishdir;
real_t wishspeed;
//vec3_t start; // TODO: unused
vec3_t dest;
vec3_t original, originalvel;
vec3_t down, downvel;
float downdist, updist;
pmtrace_t trace;
// jump penalty
if (pmove->fuser2 > 0.0)
{
real_t flRatio = (100 - pmove->fuser2 * 0.001 * 19) * 0.01;
pmove->velocity[0] *= flRatio;
pmove->velocity[1] *= flRatio;
}
// Copy movement amounts
fmove = pmove->cmd.forwardmove;
smove = pmove->cmd.sidemove;
maxspeed = pmove->maxspeed;
#ifdef REGAMEDLL_ADD
// Player can speed up the run if '+speed' button is pressed
if ((pmove->cmd.buttons & IN_RUN) && pmove->fuser3 > 0)
{
fmove *= pmove->fuser3;
smove *= pmove->fuser3;
maxspeed *= 2.0f; // increase speed cap to x2 when running
}
#endif
// Zero out z components of movement vectors
pmove->forward[2] = 0;
pmove->right[2] = 0;
// Normalize remainder of vectors.
VectorNormalize(pmove->forward);
VectorNormalize(pmove->right);
// Determine x and y parts of velocity
for (i = 0; i < 2; i++)
{
wishvel[i] = pmove->forward[i] * fmove + pmove->right[i] * smove;
}
// Zero out z part of velocity
wishvel[2] = 0;
// Determine maginitude of speed of move
VectorCopy(wishvel, wishdir);
wishspeed = VectorNormalize(wishdir);
// Clamp to server defined max speed
if (wishspeed > maxspeed)
{
VectorScale(wishvel, maxspeed / wishspeed, wishvel);
wishspeed = maxspeed;
}
// Set pmove velocity
pmove->velocity[2] = 0;
PM_Accelerate(wishdir, wishspeed, pmove->movevars->accelerate);
pmove->velocity[2] = 0;
// Add in any base velocity to the current velocity.
VectorAdd(pmove->velocity, pmove->basevelocity, pmove->velocity);
spd = Length(pmove->velocity);
if (spd < 1.0)
{
VectorClear(pmove->velocity);
return;
}
// If we are not moving, do nothing
//if (!pmove->velocity[0] && !pmove->velocity[1] && !pmove->velocity[2])
// return;
oldonground = pmove->onground;
// first try just moving to the destination
dest[0] = pmove->origin[0] + pmove->velocity[0] * pmove->frametime;
dest[1] = pmove->origin[1] + pmove->velocity[1] * pmove->frametime;
dest[2] = pmove->origin[2];
// first try moving directly to the next spot
// VectorCopy(dest, start);
trace = pmove->PM_PlayerTrace(pmove->origin, dest, PM_NORMAL, -1);
// If we made it all the way, then copy trace end
// as new player position.
if (trace.fraction == 1.0f)
{
VectorCopy(trace.endpos, pmove->origin);
return;
}
// Don't walk up stairs if not on ground.
if (oldonground == -1 && pmove->waterlevel == 0)
{
return;
}
// If we are jumping out of water, don't do anything more.
if (pmove->waterjumptime)
return;
// Try sliding forward both on ground and up 16 pixels
// take the move that goes farthest
// Save out original pos &
VectorCopy(pmove->origin, original);
// velocity.
VectorCopy(pmove->velocity, originalvel);
// Slide move
clip = PM_FlyMove();
// Copy the results out
VectorCopy(pmove->origin, down);
VectorCopy(pmove->velocity, downvel);
// Reset original values.
VectorCopy(original, pmove->origin);
VectorCopy(originalvel, pmove->velocity);
// Start out up one stair height
VectorCopy(pmove->origin, dest);
dest[2] += pmove->movevars->stepsize;
trace = pmove->PM_PlayerTrace(pmove->origin, dest, PM_NORMAL, -1);
// If we started okay and made it part of the way at least,
// copy the results to the movement start position and then
// run another move try.
if (!trace.startsolid && !trace.allsolid)
{
VectorCopy(trace.endpos, pmove->origin);
}
// slide move the rest of the way.
clip = PM_FlyMove();
// Now try going back down from the end point
// press down the stepheight
VectorCopy(pmove->origin, dest);
dest[2] -= pmove->movevars->stepsize;
trace = pmove->PM_PlayerTrace(pmove->origin, dest, PM_NORMAL, -1);
// If we are not on the ground any more then
// use the original movement attempt
if (trace.plane.normal[2] < 0.7f)
goto usedown;
// If the trace ended up in empty space, copy the end
// over to the origin.
if (!trace.startsolid && !trace.allsolid)
{
VectorCopy(trace.endpos, pmove->origin);
}
// Copy this origion to up.
VectorCopy(pmove->origin, pmove->up);
// decide which one went farther
downdist = (down[0] - original[0]) * (down[0] - original[0]) + (down[1] - original[1]) * (down[1] - original[1]);
updist = (pmove->up[0] - original[0]) * (pmove->up[0] - original[0]) + (pmove->up[1] - original[1]) * (pmove->up[1] - original[1]);
if (downdist > updist)
{
usedown:
VectorCopy(down, pmove->origin);
VectorCopy(downvel, pmove->velocity);
}
else
{
// copy z value from slide move
pmove->velocity[2] = downvel[2];
}
}
// Handles both ground friction and water friction
void PM_Friction()
{
float *vel;
float speed;
real_t newspeed, control, friction, drop;
vec3_t newvel;
// If we are in water jump cycle, don't apply friction
if (pmove->waterjumptime)
return;
// Get velocity
vel = pmove->velocity;
// Calculate speed
speed = Q_sqrt(real_t(vel[0] * vel[0] + vel[1] * vel[1] + vel[2] * vel[2]));
// If too slow, return
if (speed < 0.1f)
{
return;
}
drop = 0;
// apply ground friction
// On an entity that is the ground
if (pmove->onground != -1)
{
vec3_t start, stop;
pmtrace_t trace;
start[0] = stop[0] = pmove->origin[0] + vel[0] / speed * 16;
start[1] = stop[1] = pmove->origin[1] + vel[1] / speed * 16;
start[2] = pmove->origin[2] + pmove->player_mins[pmove->usehull][2];
stop[2] = start[2] - 34;
trace = pmove->PM_PlayerTrace(start, stop, PM_NORMAL, -1);
if (trace.fraction == 1.0f)
friction = pmove->movevars->friction * pmove->movevars->edgefriction;
else
friction = pmove->movevars->friction;
// Grab friction value.
//friction = pmove->movevars->friction;
// player friction?
friction *= pmove->friction;
// Bleed off some speed, but if we have less than the bleed
// threshhold, bleed the theshold amount.
control = (speed < pmove->movevars->stopspeed) ? pmove->movevars->stopspeed : speed;
// Add the amount to t'he drop amount.
drop += friction * (control * pmove->frametime);
}
// apply water friction
//if (pmove->waterlevel)
//{
// drop += speed * pmove->movevars->waterfriction * waterlevel * pmove->frametime;
//}
// scale the velocity
newspeed = speed - drop;
if (newspeed < 0)
{
newspeed = 0;
}
// Determine proportion of old speed we are using.
newspeed /= speed;
// Adjust velocity according to proportion.
newvel[0] = vel[0] * newspeed;
newvel[1] = vel[1] * float(newspeed);
newvel[2] = vel[2] * float(newspeed);
VectorCopy(newvel, pmove->velocity);
}
LINK_HOOK_VOID_CHAIN(PM_AirAccelerate, (vec_t *wishdir, float wishspeed, float accel), wishdir, wishspeed, accel)
void EXT_FUNC __API_HOOK(PM_AirAccelerate)(vec_t *wishdir, float wishspeed, float accel)
{
int i;
float addspeed;
float wishspd = wishspeed;
real_t currentspeed;
real_t accelspeed;
if (pmove->dead || pmove->waterjumptime)
return;
// Cap speed
if (wishspd > 30)
wishspd = 30;
// Determine veer amount
currentspeed = DotProduct(pmove->velocity, wishdir);
// See how much to add
addspeed = wishspd - currentspeed;
// If not adding any, done.
if (addspeed <= 0)
return;
// Determine acceleration speed after acceleration
accelspeed = accel * wishspeed * pmove->frametime * pmove->friction;
// Cap it
if (accelspeed > addspeed)
accelspeed = addspeed;
// Adjust pmove vel.
for (i = 0; i < 3; i++)
{
pmove->velocity[i] += accelspeed * wishdir[i];
}
}
void PM_WaterMove()
{
int i;
vec3_t wishvel;
vec3_t wishdir;
vec3_t start, dest;
vec3_t temp;
pmtrace_t trace;
real_t speed, accelspeed, wishspeed;
float newspeed, addspeed;
// user intentions
for (i = 0; i < 3; i++)
{
wishvel[i] = (pmove->forward[i] * pmove->cmd.forwardmove) + (pmove->cmd.sidemove * pmove->right[i]);
}
// Sinking after no other movement occurs
if (!pmove->cmd.forwardmove && !pmove->cmd.sidemove && !pmove->cmd.upmove)
{
// drift towards bottom
wishvel[2] -= 60.0f;
}
else
{
// Go straight up by upmove amount.
wishvel[2] += pmove->cmd.upmove;
}
// Copy it over and determine speed
VectorCopy(wishvel, wishdir);
wishspeed = VectorNormalize(wishdir);
// Cap speed.
if (wishspeed > pmove->maxspeed)
{
VectorScale(wishvel, pmove->maxspeed / wishspeed, wishvel);
wishspeed = pmove->maxspeed;
}
// Slow us down a bit.
wishspeed *= 0.8;
VectorAdd(pmove->velocity, pmove->basevelocity, pmove->velocity);
// Water friction
VectorCopy(pmove->velocity, temp);
speed = VectorNormalize(temp);
if (speed)
{
newspeed = speed - pmove->movevars->friction * pmove->friction * pmove->frametime * speed;
if (newspeed < 0.0f)
{
newspeed = 0.0f;
}
VectorScale(pmove->velocity, newspeed / speed, pmove->velocity);
}
else
newspeed = 0;
// water acceleration
if (float(wishspeed) < 0.1f)
{
return;
}
addspeed = float(wishspeed) - newspeed;
if (addspeed > 0.0f)
{
VectorNormalize(wishvel);
accelspeed = pmove->movevars->accelerate * pmove->friction * pmove->frametime * float(wishspeed);
if (accelspeed > addspeed)
{
accelspeed = addspeed;
}
for (i = 0; i < 3; i++)
{
pmove->velocity[i] += accelspeed * wishvel[i];
}
}
// Now move
// assume it is a stair or a slope, so press down from stepheight above
VectorMA(pmove->origin, pmove->frametime, pmove->velocity, dest);
VectorCopy(dest, start);
start[2] += pmove->movevars->stepsize + 1;
trace = pmove->PM_PlayerTrace(start, dest, PM_NORMAL, -1);
// FIXME: check steep slope?
if (!trace.startsolid && !trace.allsolid)
{
// walked up the step, so just keep result and exit
VectorCopy(trace.endpos, pmove->origin);
return;
}
// Try moving straight along out normal path.
PM_FlyMove();
}
LINK_HOOK_VOID_CHAIN(PM_AirMove, (int playerIndex = 0), pmove->player_index + 1)
void EXT_FUNC __API_HOOK(PM_AirMove)(int playerIndex)
{
PM_AirMove_internal();
}
void PM_AirMove_internal()
{
int i;
vec3_t wishvel;
float fmove, smove;
vec3_t wishdir;
float wishspeed;
// Copy movement amounts
fmove = pmove->cmd.forwardmove;
smove = pmove->cmd.sidemove;
// Zero out z components of movement vectors
pmove->forward[2] = 0;
pmove->right[2] = 0;
// Renormalize
VectorNormalize(pmove->forward);
VectorNormalize(pmove->right);
// Determine x and y parts of velocity
for (i = 0; i < 2; i++)
{
wishvel[i] = pmove->forward[i] * fmove + pmove->right[i] * smove;
}
// Zero out z part of velocity
wishvel[2] = 0;
// Determine maginitude of speed of move
VectorCopy(wishvel, wishdir);
wishspeed = VectorNormalize(wishdir);
// Clamp to server defined max speed
if (wishspeed > pmove->maxspeed)
{
VectorScale(wishvel, pmove->maxspeed/wishspeed, wishvel);
wishspeed = pmove->maxspeed;
}
PM_AirAccelerate(wishdir, wishspeed, pmove->movevars->airaccelerate);
// Add in any base velocity to the current velocity.
VectorAdd(pmove->velocity, pmove->basevelocity, pmove->velocity);
PM_FlyMove();
}
qboolean PM_InWater()
{
return (pmove->waterlevel > 1) ? TRUE : FALSE;
}
// Sets pmove->waterlevel and pmove->watertype values.
qboolean PM_CheckWater()
{
vec3_t point;
int cont;
int truecont;
float height;
float heightover2;
// Assume that we are not in water at all.
pmove->waterlevel = 0;
pmove->watertype = CONTENTS_EMPTY;
#ifdef REGAMEDLL_FIXES
// do not check for dead
if (pmove->dead || pmove->deadflag != DEAD_NO)
return FALSE;
#endif
// Pick a spot just above the players feet.
point[0] = pmove->origin[0] + (pmove->player_mins[pmove->usehull][0] + pmove->player_maxs[pmove->usehull][0]) * 0.5f;
point[1] = pmove->origin[1] + (pmove->player_mins[pmove->usehull][1] + pmove->player_maxs[pmove->usehull][1]) * 0.5f;
point[2] = pmove->origin[2] + pmove->player_mins[pmove->usehull][2] + 1;
// Grab point contents.
cont = pmove->PM_PointContents(point, &truecont);
// Are we under water? (not solid and not empty?)
if (cont <= CONTENTS_WATER && cont > CONTENTS_TRANSLUCENT)
{
// Set water type
pmove->watertype = cont;
// We are at least at level one
pmove->waterlevel = 1;
height = (pmove->player_mins[pmove->usehull][2] + pmove->player_maxs[pmove->usehull][2]);
heightover2 = height * 0.5;
// Now check a point that is at the player hull midpoint.
point[2] = pmove->origin[2] + heightover2;
cont = pmove->PM_PointContents(point, nullptr);
// If that point is also under water...
if (cont <= CONTENTS_WATER && cont > CONTENTS_TRANSLUCENT)
{
// Set a higher water level.
pmove->waterlevel = 2;
// Now check the eye position. (view_ofs is relative to the origin)
point[2] = pmove->origin[2] + pmove->view_ofs[2];
cont = pmove->PM_PointContents(point, nullptr);
if (cont <= CONTENTS_WATER && cont > CONTENTS_TRANSLUCENT)
{
// In over our eyes
pmove->waterlevel = 3;
}
}
// Adjust velocity based on water current, if any.
if ((truecont <= CONTENTS_CURRENT_0) && (truecont >= CONTENTS_CURRENT_DOWN))
{
// The deeper we are, the stronger the current.
static vec3_t current_table[] =
{
{1, 0, 0}, {0, 1, 0}, {-1, 0, 0},
{0, -1, 0}, {0, 0, 1}, {0, 0, -1}
};
VectorMA(pmove->basevelocity, 50.0 * pmove->waterlevel, current_table[CONTENTS_CURRENT_0 - truecont], pmove->basevelocity);
}
}
return (pmove->waterlevel > 1) ? TRUE : FALSE;
}
void PM_CategorizePosition()
{
vec3_t point;
pmtrace_t tr;
// if the player hull point one unit down is solid, the player
// is on ground
// see if standing on something solid
// Doing this before we move may introduce a potential latency in water detection, but
// doing it after can get us stuck on the bottom in water if the amount we move up
// is less than the 1 pixel 'threshold' we're about to snap to. Also, we'll call
// this several times per frame, so we really need to avoid sticking to the bottom of
// water on each call, and the converse case will correct itself if called twice.
PM_CheckWater();
// Do not stick to the ground of an OBSERVER or NOCLIP mode
#ifdef REGAMEDLL_FIXES
if (pmove->movetype == MOVETYPE_NOCLIP || pmove->movetype == MOVETYPE_NONE)
{
pmove->onground = -1;
return;
}
#endif
point[0] = pmove->origin[0];
point[1] = pmove->origin[1];
point[2] = pmove->origin[2] - 2;
// Shooting up really fast. Definitely not on ground.
if (pmove->velocity[2] > 180)
{
pmove->onground = -1;
return;
}
// Try and move down.
tr = pmove->PM_PlayerTrace(pmove->origin, point, PM_NORMAL, -1);
// If we hit a steep plane, we are not on ground
if (tr.plane.normal[2] < 0.7f)
{
// too steep
pmove->onground = -1;
}
else
{
// Otherwise, point to index of ent under us.
pmove->onground = tr.ent;
}
// If we are on something...
if (pmove->onground != -1)
{
// Then we are not in water jump sequence
pmove->waterjumptime = 0;
// If we could make the move, drop us down that 1 pixel
if (pmove->waterlevel < 2 && !tr.startsolid && !tr.allsolid)
{
VectorCopy(tr.endpos, pmove->origin);
}
}
// Standing on an entity other than the world
// So signal that we are touching something.
if (tr.ent > 0)
{
PM_AddToTouched(tr, pmove->velocity);
}
}
// When a player is stuck, it's costly to try and unstick them
// Grab a test offset for the player based on a passed in index
int PM_GetRandomStuckOffsets(int nIndex, int server, vec_t *offset)
{
// Last time we did a full
int idx = rgStuckLast[nIndex][server]++;
VectorCopy(rgv3tStuckTable[idx % ARRAYSIZE(rgv3tStuckTable)], offset);
return (idx % ARRAYSIZE(rgv3tStuckTable));
}
void PM_ResetStuckOffsets(int nIndex, int server)
{
rgStuckLast[nIndex][server] = 0;
}
// If pmove->origin is in a solid position,
// try nudging slightly on all axis to
// allow for the cut precision of the net coordinates
qboolean PM_CheckStuck()
{
vec3_t base;
vec3_t offset;
vec3_t test;
int hitent;
int idx;
real_t fTime;
int i;
pmtrace_t traceresult;
// Last time we did a full
static float rgStuckCheckTime[MAX_CLIENTS][2];
// If position is okay, exit
hitent = pmove->PM_TestPlayerPosition(pmove->origin, &traceresult);
if (hitent == -1)
{
PM_ResetStuckOffsets(pmove->player_index, pmove->server);
return FALSE;
}
VectorCopy(pmove->origin, base);
// Deal with precision error in network.
if (!pmove->server)
{
// World or BSP model
if (hitent == 0 || pmove->physents[hitent].model)
{
int nReps = 0;
PM_ResetStuckOffsets(pmove->player_index, pmove->server);
do
{
i = PM_GetRandomStuckOffsets(pmove->player_index, pmove->server, offset);
VectorAdd(base, offset, test);
if (pmove->PM_TestPlayerPosition(test, &traceresult) == -1)
{
PM_ResetStuckOffsets(pmove->player_index, pmove->server);
VectorCopy(test, pmove->origin);
return FALSE;
}
nReps++;
}
while (nReps < ARRAYSIZE(rgv3tStuckTable));
}
}
// Only an issue on the client.
if (pmove->server)
idx = 0;
else
idx = 1;
fTime = pmove->Sys_FloatTime();
// Too soon?
if (rgStuckCheckTime[pmove->player_index][idx] >= (fTime - PM_CHECKSTUCK_MINTIME))
{
return TRUE;
}
rgStuckCheckTime[pmove->player_index][idx] = fTime;
pmove->PM_StuckTouch(hitent, &traceresult);
i = PM_GetRandomStuckOffsets(pmove->player_index, pmove->server, offset);
VectorAdd(base, offset, test);
if ((hitent = pmove->PM_TestPlayerPosition(test, nullptr)) == -1)
{
PM_ResetStuckOffsets(pmove->player_index, pmove->server);
if (i >= (ARRAYSIZE(rgv3tStuckTable) / 2))
{
VectorCopy(test, pmove->origin);
}
return FALSE;
}
// If player is flailing while stuck in another player (should never happen), then see
// if we can't "unstick" them forceably.
if ((pmove->cmd.buttons & (IN_JUMP | IN_DUCK | IN_ATTACK)) && pmove->physents[hitent].player != 0)
{
float x, y, z;
float xystep = 8.0;
float zstep = 18.0;
float xyminmax = xystep;
float zminmax = 4 * zstep;
for (z = 0; z <= zminmax; z += zstep)
{
for (x = -xyminmax; x <= xyminmax; x += xystep)
{
for (y = -xyminmax; y <= xyminmax; y += xystep)
{
VectorCopy(base, test);
test[0] += x;
test[1] += y;
test[2] += z;
if (pmove->PM_TestPlayerPosition(test, nullptr) == -1)
{
VectorCopy(test, pmove->origin);
return FALSE;
}
}
}
}
}
return TRUE;
}
void PM_SpectatorMove()
{
real_t speed, drop, friction;
real_t control, newspeed;
float currentspeed, addspeed;
real_t accelspeed;
int i;
vec3_t wishvel;
float fmove, smove, spectatormaxspeed;
vec3_t wishdir;
real_t wishspeed;
// this routine keeps track of the spectators psoition
// there a two different main move types : track player or moce freely (OBS_ROAMING)
// doesn't need excate track position, only to generate PVS, so just copy
// targets position and real view position is calculated on client (saves server CPU)
if (pmove->iuser1 == OBS_ROAMING)
{
#ifdef CLIENT_DLL
if (iJumpSpectator)
{
VectorCopy(vJumpOrigin, pmove->origin);
VectorCopy(vJumpAngles, pmove->angles);
VectorCopy(vec3_origin, pmove->velocity);
iJumpSpectator = 0;
return;
}
#endif
// Move around in normal spectator method
speed = Length (pmove->velocity);
if (speed >= 1.0)
{
drop = 0;
// extra friction
friction = pmove->movevars->friction * 1.5;
control = speed < pmove->movevars->stopspeed ? pmove->movevars->stopspeed : speed;
drop += friction * (control * pmove->frametime);
// scale the velocity
newspeed = speed - drop;
if (newspeed < 0)
{
newspeed = 0;
}
newspeed /= speed;
VectorScale(pmove->velocity, newspeed, pmove->velocity);
}
else
{
VectorCopy(vec3_origin, pmove->velocity);
}
// accelerate
fmove = pmove->cmd.forwardmove;
smove = pmove->cmd.sidemove;
spectatormaxspeed = pmove->movevars->spectatormaxspeed;
#ifdef REGAMEDLL_ADD
// Observer can accelerate in air if '+speed' button is pressed
if (pmove->cmd.buttons & IN_RUN)
{
float flAirAccelerate = (pmove->fuser3 > 0.0f) ? pmove->fuser3 : max(pmove->movevars->airaccelerate / 100.0f, 7.0f);
fmove *= flAirAccelerate;
smove *= flAirAccelerate;
spectatormaxspeed *= 2.0f; // increase speed cap to x2 when accelerating
}
#endif
VectorNormalize(pmove->forward);
VectorNormalize(pmove->right);
for (i = 0; i < 3; i++)
{
wishvel[i] = pmove->forward[i] * fmove + pmove->right[i] * smove;
}
wishvel[2] += pmove->cmd.upmove;
VectorCopy(wishvel, wishdir);
wishspeed = VectorNormalize(wishdir);
// clamp to server defined max speed
if (wishspeed > spectatormaxspeed)
{
VectorScale(wishvel, spectatormaxspeed / wishspeed, wishvel);
wishspeed = spectatormaxspeed;
}
currentspeed = DotProduct(pmove->velocity, wishdir);
addspeed = wishspeed - currentspeed;
#ifndef REGAMEDLL_FIXES
if (addspeed <= 0)
return;
#else
if (addspeed > 0)
#endif
{
accelspeed = pmove->movevars->accelerate * pmove->frametime * wishspeed;
if (accelspeed > addspeed)
{
accelspeed = addspeed;
}
for (i = 0; i < 3; i++)
{
pmove->velocity[i] += accelspeed * wishdir[i];
}
}
// move
VectorMA(pmove->origin, pmove->frametime, pmove->velocity, pmove->origin);
}
else
{
// all other modes just track some kind of target, so spectator PVS = target PVS
int target;
// no valid target ?
if (pmove->iuser2 <= 0)
return;
// Find the client this player's targeting
for (target = 0; target < pmove->numphysent; target++)
{
if (pmove->physents[target].info == pmove->iuser2)
break;
}
if (target == pmove->numphysent)
return;
// use targets position as own origin for PVS
VectorCopy(pmove->physents[target].angles, pmove->angles);
VectorCopy(pmove->physents[target].origin, pmove->origin);
// no velocity
VectorCopy(vec3_origin, pmove->velocity);
}
}
// Use for ease-in, ease-out style interpolation (accel/decel)
// Used by ducking code.
float PM_SplineFraction(float value, float scale)
{
real_t valueSquared;
value = scale * value;
valueSquared = value * value;
// Nice little ease-in, ease-out spline-like curve
return 3 * valueSquared - 2 * valueSquared * value;
}
NOXREF float PM_SimpleSpline(float value)
{
float valueSquared;
valueSquared = value * value;
return 3 * valueSquared - 2 * valueSquared * value;
}
void PM_FixPlayerCrouchStuck(int direction)
{
int hitent;
int i;
vec3_t test;
hitent = pmove->PM_TestPlayerPosition(pmove->origin, nullptr);
if (hitent == -1)
{
return;
}
VectorCopy(pmove->origin, test);
for (i = 0; i < HalfHumanHeight; i++)
{
pmove->origin[2] += direction;
hitent = pmove->PM_TestPlayerPosition(pmove->origin, nullptr);
if (hitent == -1)
{
return;
}
}
// Failed
VectorCopy(test, pmove->origin);
}
LINK_HOOK_VOID_CHAIN2(PM_UnDuck)
void EXT_FUNC __API_HOOK(PM_UnDuck)()
{
#ifdef REGAMEDLL_ADD
if (unduck_method.value)
#endif
{
#ifdef REGAMEDLL_FIXES
// if ducking isn't finished yet, so don't unduck
if (pmove->bInDuck || !(pmove->flags & FL_DUCKING))
{
pmove->usehull = 0;
pmove->flDuckTime = 0;
pmove->bInDuck = FALSE;
pmove->view_ofs[2] = PM_VEC_VIEW;
return;
}
#endif // #ifdef REGAMEDLL_FIXES
}
pmtrace_t trace;
vec3_t newOrigin;
VectorCopy(pmove->origin, newOrigin);
if (pmove->onground != -1)
{
#ifdef REGAMEDLL_FIXES
vec3_t offset;
VectorSubtract(pmove->player_mins[1], pmove->player_mins[0], offset);
VectorAdd(newOrigin, offset, newOrigin);
#else
newOrigin[2] += 18.0;
#endif
}
trace = pmove->PM_PlayerTrace(newOrigin, newOrigin, PM_NORMAL, -1);
if (!trace.startsolid)
{
pmove->usehull = 0;
// Oh, no, changing hulls stuck us into something, try unsticking downward first.
trace = pmove->PM_PlayerTrace(newOrigin, newOrigin, PM_NORMAL, -1);
if (trace.startsolid)
{
// See if we are stuck? If so, stay ducked with the duck hull until we have a clear spot
// Con_Printf("unstick got stuck\n");
pmove->usehull = 1;
return;
}
pmove->flags &= ~FL_DUCKING;
pmove->bInDuck = FALSE;
pmove->view_ofs[2] = PM_VEC_VIEW;
pmove->flDuckTime = 0;
pmove->flTimeStepSound -= 100;
if (pmove->flTimeStepSound < 0)
{
pmove->flTimeStepSound = 0;
}
VectorCopy(newOrigin, pmove->origin);
// Recatagorize position since ducking can change origin
PM_CategorizePosition();
}
}
LINK_HOOK_VOID_CHAIN2(PM_Duck)
void EXT_FUNC __API_HOOK(PM_Duck)()
{
int buttonsChanged = (pmove->oldbuttons ^ pmove->cmd.buttons); // These buttons have changed this frame
int nButtonPressed = buttonsChanged & pmove->cmd.buttons; // The changed ones still down are "pressed"
int duckchange = buttonsChanged & IN_DUCK ? 1 : 0;
int duckpressed = nButtonPressed & IN_DUCK ? 1 : 0;
if (pmove->cmd.buttons & IN_DUCK)
{
pmove->oldbuttons |= IN_DUCK;
}
else
{
pmove->oldbuttons &= ~IN_DUCK;
}
#ifdef REGAMEDLL_ADD
if ((pmove->iuser3 & PLAYER_PREVENT_DUCK) == PLAYER_PREVENT_DUCK // Prevent ducking if the iuser3 variable is contain PLAYER_PREVENT_DUCK
|| (freezetime_duck.value == 0.0f && CSGameRules()->IsFreezePeriod())) // Prevent ducking during freezetime if the freezetime_duck cvar is 0
{
// Try to unduck
if (pmove->flags & FL_DUCKING)
{
PM_UnDuck();
}
return;
}
#endif
if (pmove->dead || (!(pmove->cmd.buttons & IN_DUCK) && !pmove->bInDuck && !(pmove->flags & FL_DUCKING)))
{
return;
}
real_t mult = PLAYER_DUCKING_MULTIPLIER;
#ifdef REGAMEDLL_API
if (pmoveplayer->m_flDuckSpeedMultiplier > 0.0)
mult = pmoveplayer->m_flDuckSpeedMultiplier;
#endif
pmove->cmd.forwardmove *= mult;
pmove->cmd.sidemove *= mult;
pmove->cmd.upmove *= mult;
if (pmove->cmd.buttons & IN_DUCK)
{
if ((nButtonPressed & IN_DUCK) && !(pmove->flags & FL_DUCKING))
{
// Use 1 second so super long jump will work
pmove->flDuckTime = 1000;
pmove->bInDuck = TRUE;
}
if (pmove->bInDuck)
{
// Finish ducking immediately if duck time is over or not on ground
if (((pmove->flDuckTime / 1000.0) <= (1.0 - TIME_TO_DUCK)) || pmove->onground == -1)
{
pmove->usehull = 1;
pmove->view_ofs[2] = PM_VEC_DUCK_VIEW;
pmove->flags |= FL_DUCKING;
pmove->bInDuck = FALSE;
// HACKHACK - Fudge for collision bug - no time to fix this properly
if (pmove->onground != -1)
{
#ifdef REGAMEDLL_FIXES
vec3_t newOrigin;
VectorSubtract(pmove->player_mins[1], pmove->player_mins[0], newOrigin);
VectorSubtract(pmove->origin, newOrigin, pmove->origin);
#else
pmove->origin[2] = pmove->origin[2] - 18.0;
#endif
// See if we are stuck?
PM_FixPlayerCrouchStuck(STUCK_MOVEUP);
// Recatagorize position since ducking can change origin
PM_CategorizePosition();
}
}
else
{
real_t duckFraction = PM_VEC_VIEW;
real_t time = (1.0 - pmove->flDuckTime / 1000.0);
// Calc parametric time
if (time >= 0.0) {
duckFraction = PM_SplineFraction(time, (1.0 / TIME_TO_DUCK));
}
#ifdef REGAMEDLL_FIXES
float fMore = (pmove->player_mins[1][2] - pmove->player_mins[0][2]);
#else
float fMore = (PM_VEC_DUCK_HULL_MIN - PM_VEC_HULL_MIN);
#endif
pmove->view_ofs[2] = ((PM_VEC_DUCK_VIEW - fMore) * duckFraction) + (PM_VEC_VIEW * (1 - duckFraction));
}
}
}
// Try to unduck
else
{
PM_UnDuck();
}
}
LINK_HOOK_VOID_CHAIN(PM_LadderMove, (physent_t *pLadder), pLadder)
void EXT_FUNC __API_HOOK(PM_LadderMove)(physent_t *pLadder)
{
vec3_t ladderCenter;
trace_t trace;
bool onFloor;
vec3_t floor;
vec3_t modelmins, modelmaxs;
if (pmove->movetype == MOVETYPE_NOCLIP)
return;
pmove->PM_GetModelBounds(pLadder->model, modelmins, modelmaxs);
VectorAdd(modelmins, modelmaxs, ladderCenter);
VectorScale(ladderCenter, 0.5, ladderCenter);
pmove->movetype = MOVETYPE_FLY;
// On ladder, convert movement to be relative to the ladder
VectorCopy(pmove->origin, floor);
floor[2] += pmove->player_mins[pmove->usehull][2] - 1;
if (pmove->PM_PointContents(floor, nullptr) == CONTENTS_SOLID)
onFloor = true;
else
onFloor = false;
pmove->gravity = 0;
pmove->PM_TraceModel(pLadder, pmove->origin, ladderCenter, &trace);
if (trace.fraction != 1.0f)
{
float forward = 0, right = 0;
vec3_t vpn, v_right;
float flSpeed = MAX_CLIMB_SPEED;
// they shouldn't be able to move faster than their maxspeed
if (flSpeed > pmove->maxspeed)
{
flSpeed = pmove->maxspeed;
}
AngleVectors(pmove->angles, vpn, v_right, nullptr);
if (pmove->flags & FL_DUCKING)
{
#ifdef REGAMEDLL_API
if (pmoveplayer->m_flDuckSpeedMultiplier > 0.0)
{
flSpeed *= pmoveplayer->m_flDuckSpeedMultiplier;
}
else
#endif
{
flSpeed *= PLAYER_DUCKING_MULTIPLIER;
}
}
if (pmove->cmd.buttons & IN_BACK)
{
forward -= flSpeed;
}
if (pmove->cmd.buttons & IN_FORWARD)
{
forward += flSpeed;
}
if (pmove->cmd.buttons & IN_MOVELEFT)
{
right -= flSpeed;
}
if (pmove->cmd.buttons & IN_MOVERIGHT)
{
right += flSpeed;
}
if (pmove->cmd.buttons & IN_JUMP)
{
pmove->movetype = MOVETYPE_WALK;
VectorScale(trace.plane.normal, 270, pmove->velocity);
}
else
{
if (forward != 0 || right != 0)
{
vec3_t velocity, perp, cross, lateral, tmp;
float normal;
VectorScale(vpn, forward, velocity);
VectorMA(velocity, right, v_right, velocity);
VectorClear(tmp);
tmp[2] = 1;
CrossProduct(tmp, trace.plane.normal, perp);
VectorNormalize(perp);
// decompose velocity into ladder plane
normal = DotProduct(velocity, trace.plane.normal);
// This is the velocity into the face of the ladder
VectorScale(trace.plane.normal, normal, cross);
// This is the player's additional velocity
VectorSubtract(velocity, cross, lateral);
// This turns the velocity into the face of the ladder into velocity that
// is roughly vertically perpendicular to the face of the ladder.
// NOTE: It IS possible to face up and move down or face down and move up
// because the velocity is a sum of the directional velocity and the converted
// velocity through the face of the ladder - by design.
CrossProduct(trace.plane.normal, perp, tmp);
VectorMA(lateral, -normal, tmp, pmove->velocity);
// On ground moving away from the ladder
if (onFloor && normal > 0)
{
VectorMA(pmove->velocity, MAX_CLIMB_SPEED, trace.plane.normal, pmove->velocity);
}
}
else
{
VectorClear(pmove->velocity);
}
}
}
}
physent_t *PM_Ladder()
{
int i;
physent_t *pe;
hull_t *hull;
int num;
vec3_t test;
for (i = 0; i < pmove->nummoveent; i++)
{
pe = &pmove->moveents[i];
if (pe->model && (modtype_t)pmove->PM_GetModelType(pe->model) == mod_brush && pe->skin == CONTENTS_LADDER)
{
hull = (hull_t *)pmove->PM_HullForBsp(pe, test);
num = hull->firstclipnode;
// Offset the test point appropriately for this hull.
VectorSubtract(pmove->origin, test, test);
// Test the player's hull for intersection with this model
if (pmove->PM_HullPointContents(hull, num, test) == CONTENTS_EMPTY)
{
continue;
}
return pe;
}
}
return nullptr;
}
LINK_HOOK_VOID_CHAIN2(PM_WaterJump)
void EXT_FUNC __API_HOOK(PM_WaterJump)()
{
if (pmove->waterjumptime > 10000)
{
pmove->waterjumptime = 10000;
}
if (!pmove->waterjumptime)
{
return;
}
pmove->waterjumptime -= pmove->cmd.msec;
if (pmove->waterjumptime < 0 || !pmove->waterlevel)
{
pmove->waterjumptime = 0;
pmove->flags &= ~FL_WATERJUMP;
}
pmove->velocity[0] = pmove->movedir[0];
pmove->velocity[1] = pmove->movedir[1];
}
void PM_AddGravity()
{
float ent_gravity;
if (pmove->gravity != 0.0f)
ent_gravity = pmove->gravity;
else
ent_gravity = 1.0f;
pmove->velocity[2] -= (ent_gravity * pmove->movevars->gravity * pmove->frametime);
pmove->velocity[2] += pmove->basevelocity[2] * pmove->frametime;
pmove->basevelocity[2] = 0;
PM_CheckVelocity();
}
// Does not change the entities velocity at all
pmtrace_t PM_PushEntity(vec_t *push)
{
pmtrace_t trace;
vec3_t end;
VectorAdd(pmove->origin, push, end);
trace = pmove->PM_PlayerTrace(pmove->origin, end, PM_NORMAL, -1);
VectorCopy(trace.endpos, pmove->origin);
// So we can run impact function afterwards.
if (trace.fraction < 1.0f && !trace.allsolid)
{
PM_AddToTouched(trace, pmove->velocity);
}
return trace;
}
void PM_Physics_Toss()
{
pmtrace_t trace;
vec3_t move;
float backoff;
PM_CheckWater();
if (pmove->velocity[2] > 0)
{
pmove->onground = -1;
}
// If on ground and not moving, return.
if (pmove->onground != -1)
{
if (VectorCompare(pmove->basevelocity, vec3_origin) && VectorCompare(pmove->velocity, vec3_origin))
{
return;
}
}
PM_CheckVelocity();
// add gravity
if (pmove->movetype != MOVETYPE_FLY && pmove->movetype != MOVETYPE_BOUNCEMISSILE && pmove->movetype != MOVETYPE_FLYMISSILE)
{
PM_AddGravity();
}
// move origin
// Base velocity is not properly accounted for since this entity will move again after the bounce without
// taking it into account
VectorAdd(pmove->velocity, pmove->basevelocity, pmove->velocity);
PM_CheckVelocity();
VectorScale(pmove->velocity, pmove->frametime, move);
VectorSubtract(pmove->velocity, pmove->basevelocity, pmove->velocity);
// Should this clear basevelocity
trace = PM_PushEntity(move);
PM_CheckVelocity();
if (trace.allsolid)
{
// entity is trapped in another solid
pmove->onground = trace.ent;
VectorCopy(vec3_origin, pmove->velocity);
return;
}
if (trace.fraction == 1.0f)
{
PM_CheckWater();
return;
}
if (pmove->movetype == MOVETYPE_BOUNCE)
{
backoff = 2.0f - pmove->friction;
}
else if (pmove->movetype == MOVETYPE_BOUNCEMISSILE)
{
backoff = 2.0f;
}
else
backoff = 1.0f;
PM_ClipVelocity(pmove->velocity, trace.plane.normal, pmove->velocity, backoff);
// stop if on ground
if (trace.plane.normal[2] > 0.7f)
{
float vel;
vec3_t base;
VectorClear(base);
if (pmove->velocity[2] < pmove->movevars->gravity * pmove->frametime)
{
// we're rolling on the ground, add static friction.
pmove->onground = trace.ent;
pmove->velocity[2] = 0;
}
vel = DotProduct(pmove->velocity, pmove->velocity);
if (vel < (30 * 30) || (pmove->movetype != MOVETYPE_BOUNCE && pmove->movetype != MOVETYPE_BOUNCEMISSILE))
{
pmove->onground = trace.ent;
VectorCopy(vec3_origin, pmove->velocity);
}
else
{
VectorScale(pmove->velocity, (1.0f - trace.fraction) * pmove->frametime * 0.9f, move);
trace = PM_PushEntity(move);
}
VectorSubtract(pmove->velocity, base, pmove->velocity);
}
// check for in water
PM_CheckWater();
}
void PM_NoClip()
{
int i;
vec3_t wishvel;
float fmove, smove;
// Copy movement amounts
fmove = pmove->cmd.forwardmove;
smove = pmove->cmd.sidemove;
#ifdef REGAMEDLL_ADD
// Player with noclip can accelerate in air if '+speed' button is pressed
if ((pmove->cmd.buttons & IN_RUN) && pmove->fuser3 > 0)
{
float flAirAccelerate = pmove->fuser3;
fmove *= flAirAccelerate;
smove *= flAirAccelerate;
}
#endif
VectorNormalize(pmove->forward);
VectorNormalize(pmove->right);
// Determine x and y parts of velocity
for (i = 0; i < 3; i++)
{
wishvel[i] = pmove->forward[i] * fmove + pmove->right[i] * smove;
}
wishvel[2] += pmove->cmd.upmove;
VectorMA(pmove->origin, pmove->frametime, wishvel, pmove->origin);
// Zero out the velocity so that we don't accumulate a huge downward velocity from
// gravity, etc.
VectorClear(pmove->velocity);
}
// Purpose: Corrects bunny jumping (where player initiates a bunny jump before other
// movement logic runs, thus making onground == -1 thus making PM_Friction get skipped and
// running PM_AirMove, which doesn't crop velocity to maxspeed like the ground / other
// movement logic does.
void PM_PreventMegaBunnyJumping()
{
// Current player speed
real_t spd;
// If we have to crop, apply this cropping fraction to velocity
float fraction;
// Speed at which bunny jumping is limited
float maxscaledspeed;
maxscaledspeed = BUNNYJUMP_MAX_SPEED_FACTOR * pmove->maxspeed;
// Don't divide by zero
if (maxscaledspeed <= 0.0f)
return;
spd = Length(pmove->velocity);
if (spd <= maxscaledspeed)
return;
// Returns the modifier for the velocity
fraction = (maxscaledspeed / spd) * 0.8;
// Crop it down!.
VectorScale(pmove->velocity, fraction, pmove->velocity);
}
inline real_t PM_JumpHeight(bool longjump)
{
#ifdef REGAMEDLL_API
if (longjump)
{
if(pmoveplayer->m_flLongJumpHeight > 0.0)
return pmoveplayer->m_flLongJumpHeight;
}
else if (pmoveplayer->m_flJumpHeight > 0.0)
return pmoveplayer->m_flJumpHeight;
#endif
return Q_sqrt(2.0 * 800.0f * (longjump ? 56.0f : 45.0f));
}
LINK_HOOK_VOID_CHAIN2(PM_Jump)
void EXT_FUNC __API_HOOK(PM_Jump)()
{
if (pmove->dead)
{
// don't jump again until released
pmove->oldbuttons |= IN_JUMP;
return;
}
// See if we are waterjumping. If so, decrement count and return.
if (pmove->waterjumptime != 0.0f)
{
pmove->waterjumptime -= pmove->cmd.msec;
if (pmove->waterjumptime < 0)
{
pmove->waterjumptime = 0;
}
return;
}
// If we are in the water most of the way...
if (pmove->waterlevel >= 2)
{
// swimming, not jumping
pmove->onground = -1;
// We move up a certain amount
if (pmove->watertype == CONTENTS_WATER)
{
pmove->velocity[2] = 100;
}
else if (pmove->watertype == CONTENTS_SLIME)
{
pmove->velocity[2] = 80;
}
else // LAVA
pmove->velocity[2] = 50;
// play swiming sound
if (pmove->flSwimTime <= 0)
{
// Don't play sound again for 1 second
pmove->flSwimTime = 1000.0f;
switch (pmove->RandomLong(0, 3))
{
case 0: pmove->PM_PlaySound(CHAN_BODY, "player/pl_wade1.wav", VOL_NORM, ATTN_NORM, 0, PITCH_NORM); break;
case 1: pmove->PM_PlaySound(CHAN_BODY, "player/pl_wade2.wav", VOL_NORM, ATTN_NORM, 0, PITCH_NORM); break;
case 2: pmove->PM_PlaySound(CHAN_BODY, "player/pl_wade3.wav", VOL_NORM, ATTN_NORM, 0, PITCH_NORM); break;
case 3: pmove->PM_PlaySound(CHAN_BODY, "player/pl_wade4.wav", VOL_NORM, ATTN_NORM, 0, PITCH_NORM); break;
}
}
return;
}
#ifdef REGAMEDLL_ADD
if ((pmove->iuser3 & PLAYER_PREVENT_JUMP) == PLAYER_PREVENT_JUMP // Prevent jumping if the iuser3 variable is contain PLAYER_PREVENT_JUMP
|| (freezetime_jump.value == 0.0f && CSGameRules()->IsFreezePeriod())) // Prevent jumping during freezetime if the freezetime_jump cvar is 0
{
return;
}
#endif
// No more effect
// in air, so no effect
if (pmove->onground == -1)
{
// Flag that we jumped.
// don't jump again until released
pmove->oldbuttons |= IN_JUMP;
return;
}
// don't pogo stick
if (pmove->oldbuttons & IN_JUMP
#ifdef REGAMEDLL_ADD
&& sv_autobunnyhopping.value <= 0.0
#ifdef REGAMEDLL_API
&& !pmoveplayer->m_bAutoBunnyHopping
#endif
#endif
)
{
return;
}
if (pmove->bInDuck && (pmove->flags & FL_DUCKING))
{
return;
}
PM_CatagorizeTextureType();
// In the air now.
pmove->onground = -1;
#ifdef REGAMEDLL_ADD
if (sv_enablebunnyhopping.value <= 0.0
#ifdef REGAMEDLL_API
&& !pmoveplayer->m_bMegaBunnyJumping
#endif
)
#endif
{
PM_PreventMegaBunnyJumping();
}
real_t fvel = Length(pmove->velocity);
float fvol = 1.0f;
if (fvel >= 150.0f)
{
PM_PlayStepSound(PM_MapTextureTypeStepType(pmove->chtexturetype), fvol);
}
#ifdef REGAMEDLL_ADD
// See if user can super long jump?
bool cansuperjump = (pmove->PM_Info_ValueForKey(pmove->physinfo, "slj")[0] == '1');
// Acclerate upward
// If we are ducking...
if (pmove->bInDuck || (pmove->flags & FL_DUCKING))
{
// Adjust for super long jump module
// UNDONE: note this should be based on forward angles, not current velocity.
if (cansuperjump && (pmove->cmd.buttons & IN_DUCK) && pmove->flDuckTime > 0 && Length(pmove->velocity) > 50)
{
pmove->punchangle[0] = -5.0f;
#ifdef REGAMEDLL_API
if (pmoveplayer->m_flLongJumpForce > 0.0)
{
fvel = pmoveplayer->m_flLongJumpForce;
}
else
#endif
{
fvel = PLAYER_LONGJUMP_SPEED * 1.6f;
}
for (int i = 0; i < 2; i++)
{
pmove->velocity[i] = pmove->forward[i] * fvel;
}
pmove->velocity[2] = PM_JumpHeight(true);
}
else
{
pmove->velocity[2] = PM_JumpHeight(false);
}
}
else
#endif
{
// NOTE: don't do it in .f (float)
pmove->velocity[2] = PM_JumpHeight(false);
}
if (pmove->fuser2 > 0.0f)
{
// NOTE: don't do it in .f (float)
real_t flRatio = (100.0 - pmove->fuser2 * 0.001 * 19.0) * 0.01;
pmove->velocity[2] *= flRatio;
}
pmove->fuser2 = 1315.789429;
// Decay it for simulation
PM_FixupGravityVelocity();
// Flag that we jumped.
// don't jump again until released
pmove->oldbuttons |= IN_JUMP;
}
LINK_HOOK_VOID_CHAIN2(PM_CheckWaterJump)
void EXT_FUNC __API_HOOK(PM_CheckWaterJump)()
{
vec3_t vecStart, vecEnd;
vec3_t flatforward;
vec3_t flatvelocity;
float curspeed;
pmtrace_t tr;
int savehull;
// Already water jumping.
if (pmove->waterjumptime)
return;
// Don't hop out if we just jumped in
if (pmove->velocity[2] < -180)
{
// only hop out if we are moving up
return;
}
// See if we are backing up
flatvelocity[0] = pmove->velocity[0];
flatvelocity[1] = pmove->velocity[1];
flatvelocity[2] = 0;
// Must be moving
curspeed = VectorNormalize(flatvelocity);
// see if near an edge
flatforward[0] = pmove->forward[0];
flatforward[1] = pmove->forward[1];
flatforward[2] = 0;
VectorNormalize(flatforward);
// Are we backing into water from steps or something? If so, don't pop forward
if (curspeed != 0.0 && (DotProduct(flatvelocity, flatforward) < 0.0))
{
return;
}
VectorCopy(pmove->origin, vecStart);
vecStart[2] += WJ_HEIGHT;
VectorMA(vecStart, 24, flatforward, vecEnd);
// Trace, this trace should use the point sized collision hull
savehull = pmove->usehull;
pmove->usehull = 2;
tr = pmove->PM_PlayerTrace(vecStart, vecEnd, PM_NORMAL, -1);
// Facing a near vertical wall?
if (tr.fraction < 1.0f && Q_fabs(real_t(tr.plane.normal[2])) < 0.1f)
{
vecStart[2] += pmove->player_maxs[savehull][2] - WJ_HEIGHT;
VectorMA(vecStart, 24, flatforward, vecEnd);
VectorMA(vec3_origin, -50, tr.plane.normal, pmove->movedir);
tr = pmove->PM_PlayerTrace(vecStart, vecEnd, PM_NORMAL, -1);
if (tr.fraction == 1.0f)
{
pmove->waterjumptime = 2000.0f;
pmove->velocity[2] = 225.0f;
pmove->oldbuttons |= IN_JUMP;
pmove->flags |= FL_WATERJUMP;
}
}
// Reset the collision hull
pmove->usehull = savehull;
}
void PM_CheckFalling()
{
if (pmove->onground != -1 && !pmove->dead && pmove->flFallVelocity >= PM_PLAYER_FALL_PUNCH_THRESHHOLD)
{
float fvol = 0.5f;
if (pmove->waterlevel <= 0)
{
if (pmove->flFallVelocity > PM_PLAYER_MAX_SAFE_FALL_SPEED)
{
fvol = 1.0f;
}
else if (pmove->flFallVelocity > PM_PLAYER_MAX_SAFE_FALL_SPEED / 2)
{
fvol = 0.85f;
}
else if (pmove->flFallVelocity < PM_PLAYER_MIN_BOUNCE_SPEED)
{
fvol = 0.0f;
}
}
if (fvol > 0.0f)
{
PM_CatagorizeTextureType();
// play step sound for current texture
PM_PlayStepSound(PM_MapTextureTypeStepType(pmove->chtexturetype), fvol);
pmove->flTimeStepSound = 300;
// Knock the screen around a little bit, temporary effect
// punch z axis
pmove->punchangle[2] = pmove->flFallVelocity * 0.013;
if (pmove->punchangle[0] > 8.0f)
{
pmove->punchangle[0] = 8.0f;
}
}
}
if (pmove->onground != -1)
{
pmove->flFallVelocity = 0;
}
}
void PM_PlayWaterSounds()
{
// Did we enter or leave water?
if (pmove->oldwaterlevel != 0)
{
if (pmove->waterlevel != 0)
return;
}
else
{
if (pmove->waterlevel == 0)
return;
}
switch (pmove->RandomLong(0, 3))
{
case 0: pmove->PM_PlaySound(CHAN_BODY, "player/pl_wade1.wav", VOL_NORM, ATTN_NORM, 0, PITCH_NORM); break;
case 1: pmove->PM_PlaySound(CHAN_BODY, "player/pl_wade2.wav", VOL_NORM, ATTN_NORM, 0, PITCH_NORM); break;
case 2: pmove->PM_PlaySound(CHAN_BODY, "player/pl_wade3.wav", VOL_NORM, ATTN_NORM, 0, PITCH_NORM); break;
case 3: pmove->PM_PlaySound(CHAN_BODY, "player/pl_wade4.wav", VOL_NORM, ATTN_NORM, 0, PITCH_NORM); break;
}
}
float PM_CalcRoll(vec_t *angles, vec_t *velocity, float rollangle, float rollspeed)
{
float sign;
real_t side;
float value;
vec3_t forward, right, up;
AngleVectors(angles, forward, right, up);
side = DotProduct(velocity, right);
sign = side < 0 ? -1 : 1;
side = Q_fabs(side);
value = rollangle;
if (side < rollspeed)
{
side = side * value / rollspeed;
}
else
{
side = value;
}
return side * sign;
}
void PM_DropPunchAngle(vec_t *punchangle)
{
real_t len;
len = VectorNormalize(punchangle);
len -= (10.0 + len * 0.5) * pmove->frametime;
#ifdef PLAY_GAMEDLL
len = Q_max(len, 0.0);
#else
len = Q_max(len, 0.0f);
#endif
VectorScale(punchangle, len, punchangle);
}
void PM_CheckParameters()
{
float spd;
real_t maxspeed;
vec3_t v_angle;
spd = Q_sqrt(real_t(pmove->cmd.sidemove * pmove->cmd.sidemove + pmove->cmd.forwardmove * pmove->cmd.forwardmove + pmove->cmd.upmove * pmove->cmd.upmove));
maxspeed = pmove->clientmaxspeed;
if (maxspeed != 0.0f)
{
pmove->maxspeed = Q_min(maxspeed, real_t(pmove->maxspeed));
}
if (spd != 0.0f && spd > real_t(pmove->maxspeed))
{
real_t fRatio = pmove->maxspeed / spd;
pmove->cmd.forwardmove *= fRatio;
pmove->cmd.sidemove *= fRatio;
pmove->cmd.upmove *= fRatio;
}
if ((pmove->flags & (FL_FROZEN | FL_ONTRAIN)) || pmove->dead)
{
pmove->cmd.forwardmove = 0;
pmove->cmd.sidemove = 0;
pmove->cmd.upmove = 0;
}
PM_DropPunchAngle(pmove->punchangle);
// Take angles from command.
if (!pmove->dead)
{
VectorCopy(pmove->cmd.viewangles, v_angle);
VectorAdd(v_angle, pmove->punchangle, v_angle);
// Set up view angles.
pmove->angles[ROLL] = PM_CalcRoll(v_angle, pmove->velocity, pmove->movevars->rollangle, pmove->movevars->rollspeed) * 4;
pmove->angles[PITCH] = v_angle[PITCH];
pmove->angles[YAW] = v_angle[YAW];
}
else
{
VectorCopy(pmove->oldangles, pmove->angles);
}
// Set dead player view_offset
if (pmove->dead)
{
#ifdef REGAMEDLL_FIXES
if (pmove->bInDuck)
{
PM_UnDuck();
pmove->bInDuck = FALSE;
}
#endif
pmove->view_ofs[2] = PM_DEAD_VIEWHEIGHT;
}
// Adjust client view angles to match values used on server.
if (pmove->angles[YAW] > 180.0f)
{
pmove->angles[YAW] -= 360.0f;
}
}
void PM_ReduceTimers()
{
if (pmove->flTimeStepSound > 0)
{
pmove->flTimeStepSound -= pmove->cmd.msec;
if (pmove->flTimeStepSound < 0)
{
pmove->flTimeStepSound = 0;
}
}
if (pmove->flDuckTime > 0)
{
pmove->flDuckTime -= pmove->cmd.msec;
if (pmove->flDuckTime < 0)
{
pmove->flDuckTime = 0;
}
}
if (pmove->flSwimTime > 0)
{
pmove->flSwimTime -= pmove->cmd.msec;
if (pmove->flSwimTime < 0)
{
pmove->flSwimTime = 0;
}
}
if (pmove->fuser2 > 0.0)
{
pmove->fuser2 -= pmove->cmd.msec;
if (pmove->fuser2 < 0.0)
{
pmove->fuser2 = 0;
}
}
}
qboolean PM_ShouldDoSpectMode()
{
return (pmove->iuser3 <= 0 || pmove->deadflag == DEAD_DEAD);
}
// Returns with origin, angles, and velocity modified in place.
// Numtouch and touchindex[] will be set if any of the physents
// were contacted during the move.
void PM_PlayerMove(qboolean server)
{
physent_t *pLadder = nullptr;
// Are we running server code?
pmove->server = server;
// Adjust speeds etc.
PM_CheckParameters();
// Assume we don't touch anything
pmove->numtouch = 0;
// # of msec to apply movement
//double v2 = (double)pmove->cmd.msec * 0.001;
pmove->frametime = pmove->cmd.msec * 0.001;
PM_ReduceTimers();
// Convert view angles to vectors
AngleVectors(pmove->angles, pmove->forward, pmove->right, pmove->up);
//PM_ShowClipBox();
// Special handling for spectator and observers. (iuser1 is set if the player's in observer mode)
if ((pmove->spectator || pmove->iuser1 > 0) && PM_ShouldDoSpectMode())
{
PM_SpectatorMove();
PM_CategorizePosition();
return;
}
// Always try and unstick us unless we are in NOCLIP mode
if (pmove->movetype != MOVETYPE_NOCLIP && pmove->movetype != MOVETYPE_NONE)
{
if (PM_CheckStuck())
{
// Can't move, we're stuck
return;
}
}
// Now that we are "unstuck", see where we are (waterlevel and type, pmove->onground).
PM_CategorizePosition();
// Store off the starting water level
pmove->oldwaterlevel = pmove->waterlevel;
// If we are not on ground, store off how fast we are moving down
if (pmove->onground == -1)
{
pmove->flFallVelocity = -pmove->velocity[2];
}
g_onladder = FALSE;
// Don't run ladder code if dead or on a train
if (!pmove->dead && !(pmove->flags & FL_ONTRAIN)
#ifdef REGAMEDLL_ADD
&& !(pmove->iuser3 & PLAYER_PREVENT_CLIMB)
#endif
)
{
pLadder = PM_Ladder();
if (pLadder)
{
g_onladder = TRUE;
}
}
PM_Duck();
PM_UpdateStepSound();
// Don't run ladder code if dead or on a train
if (!pmove->dead && !(pmove->flags & FL_ONTRAIN))
{
if (pLadder)
{
PM_LadderMove(pLadder);
}
else if (pmove->movetype != MOVETYPE_WALK && pmove->movetype != MOVETYPE_NOCLIP)
{
// Clear ladder stuff unless player is noclipping
// it will be set immediately again next frame if necessary
pmove->movetype = MOVETYPE_WALK;
}
}
// Handle movement
switch (pmove->movetype)
{
default:
pmove->Con_DPrintf("Bogus pmove player movetype %i on (%i) 0=cl 1=sv\n", pmove->movetype, pmove->server);
break;
case MOVETYPE_NONE:
break;
case MOVETYPE_NOCLIP:
PM_NoClip();
break;
case MOVETYPE_TOSS:
case MOVETYPE_BOUNCE:
PM_Physics_Toss();
break;
case MOVETYPE_FLY:
PM_CheckWater();
// Was jump button pressed?
// If so, set velocity to 270 away from ladder. This is currently wrong.
// Also, set MOVE_TYPE to walk, too.
if (pmove->cmd.buttons & IN_JUMP)
{
if (!pLadder)
{
PM_Jump();
}
}
else
{
pmove->oldbuttons &= ~IN_JUMP;
}
// Perform the move accounting for any base velocity.
VectorAdd(pmove->velocity, pmove->basevelocity, pmove->velocity);
PM_FlyMove();
VectorSubtract(pmove->velocity, pmove->basevelocity, pmove->velocity);
break;
case MOVETYPE_WALK:
if (!PM_InWater())
{
PM_AddCorrectGravity();
}
// If we are leaping out of the water, just update the counters.
if (pmove->waterjumptime != 0.0f)
{
PM_WaterJump();
PM_FlyMove();
// Make sure waterlevel is set correctly
PM_CheckWater();
return;
}
// If we are swimming in the water, see if we are nudging against a place we can jump up out
// of, and, if so, start out jump. Otherwise, if we are not moving up, then reset jump timer to 0
if (pmove->waterlevel >= 2)
{
if (pmove->waterlevel == 2)
{
PM_CheckWaterJump();
}
// If we are falling again, then we must not trying to jump out of water any more.
if (pmove->velocity[2] < 0 && pmove->waterjumptime)
{
pmove->waterjumptime = 0;
}
// Was jump button pressed?
if (pmove->cmd.buttons & IN_JUMP)
{
PM_Jump();
}
else
{
pmove->oldbuttons &= ~IN_JUMP;
}
// Perform regular water movement
PM_WaterMove();
VectorSubtract(pmove->velocity, pmove->basevelocity, pmove->velocity);
// Get a final position
PM_CategorizePosition();
}
// Not underwater
else
{
// Was jump button pressed?
if (pmove->cmd.buttons & IN_JUMP)
{
if (!pLadder)
{
PM_Jump();
}
}
else
{
pmove->oldbuttons &= ~IN_JUMP;
}
// Fricion is handled before we add in any base velocity. That way, if we are on a conveyor,
// we don't slow when standing still, relative to the conveyor.
if (pmove->onground != -1)
{
pmove->velocity[2] = 0;
PM_Friction();
}
// Make sure velocity is valid.
PM_CheckVelocity();
// Are we on ground now
if (pmove->onground != -1)
{
PM_WalkMove();
}
else
{
// Take into account movement when in air.
PM_AirMove();
}
// Set final flags.
PM_CategorizePosition();
// Now pull the base velocity back out.
// Base velocity is set if you are on a moving object, like
// a conveyor (or maybe another monster?)
VectorSubtract(pmove->velocity, pmove->basevelocity, pmove->velocity);
// Make sure velocity is valid.
PM_CheckVelocity();
// Add any remaining gravitational component.
if (!PM_InWater())
{
PM_FixupGravityVelocity();
}
// If we are on ground, no downward velocity.
if (pmove->onground != -1)
{
pmove->velocity[2] = 0;
}
// See if we landed on the ground with enough force to play a landing sound.
PM_CheckFalling();
}
// Did we enter or leave the water?
PM_PlayWaterSounds();
break;
}
}
void PM_CreateStuckTable()
{
float x, y, z;
int idx;
int i;
float zi[3];
Q_memset(rgv3tStuckTable, 0, sizeof(rgv3tStuckTable));
idx = 0;
// Little Moves.
x = 0;
y = 0;
// Z moves
for (z = -0.125; z <= 0.125; z += 0.125)
{
rgv3tStuckTable[idx][0] = x;
rgv3tStuckTable[idx][1] = y;
rgv3tStuckTable[idx][2] = z;
idx++;
}
x = 0;
z = 0;
// Y moves
for (y = -0.125; y <= 0.125; y += 0.125)
{
rgv3tStuckTable[idx][0] = x;
rgv3tStuckTable[idx][1] = y;
rgv3tStuckTable[idx][2] = z;
idx++;
}
y = 0;
z = 0;
// X moves
for (x = -0.125; x <= 0.125; x += 0.125)
{
rgv3tStuckTable[idx][0] = x;
rgv3tStuckTable[idx][1] = y;
rgv3tStuckTable[idx][2] = z;
idx++;
}
// Remaining multi axis nudges.
for (x = -0.125; x <= 0.125; x += 0.250)
{
for (y = -0.125; y <= 0.125; y += 0.250)
{
for (z = -0.125; z <= 0.125; z += 0.250)
{
rgv3tStuckTable[idx][0] = x;
rgv3tStuckTable[idx][1] = y;
rgv3tStuckTable[idx][2] = z;
idx++;
}
}
}
// Big Moves.
x = 0;
y = 0;
zi[0] = 0.0f;
zi[1] = 1.0f;
zi[2] = 6.0f;
for (i = 0; i < 3; i++)
{
// Z moves
z = zi[i];
rgv3tStuckTable[idx][0] = x;
rgv3tStuckTable[idx][1] = y;
rgv3tStuckTable[idx][2] = z;
idx++;
}
x = 0;
z = 0;
// Y moves
for (y = -2.0f; y <= 2.0f; y += 2.0)
{
rgv3tStuckTable[idx][0] = x;
rgv3tStuckTable[idx][1] = y;
rgv3tStuckTable[idx][2] = z;
idx++;
}
y = 0;
z = 0;
// X moves
for (x = -2.0f; x <= 2.0f; x += 2.0f)
{
rgv3tStuckTable[idx][0] = x;
rgv3tStuckTable[idx][1] = y;
rgv3tStuckTable[idx][2] = z;
idx++;
}
// Remaining multi axis nudges.
for (i = 0; i < 3; i++)
{
z = zi[i];
for (x = -2.0f; x <= 2.0f; x += 2.0f)
{
for (y = -2.0f; y <= 2.0f; y += 2.0)
{
rgv3tStuckTable[idx][0] = x;
rgv3tStuckTable[idx][1] = y;
rgv3tStuckTable[idx][2] = z;
idx++;
}
}
}
}
LINK_HOOK_VOID_CHAIN(PM_Move, (struct playermove_s *ppmove, int server), ppmove, server)
// This module implements the shared player physics code between any particular game and
// the engine. The same PM_Move routine is built into the game .dll and the client .dll and is
// invoked by each side as appropriate. There should be no distinction, internally, between server
// and client. This will ensure that prediction behaves appropriately.
void EXT_FUNC __API_HOOK(PM_Move)(struct playermove_s *ppmove, int server)
{
DbgAssert(pm_shared_initialized);
pmove = ppmove;
#ifdef REGAMEDLL_API
pmoveplayer = UTIL_PlayerByIndex(pmove->player_index + 1)->CSPlayer();
#endif
PM_PlayerMove((server != 0) ? TRUE : FALSE);
if (pmove->onground != -1)
pmove->flags |= FL_ONGROUND;
else
pmove->flags &= ~FL_ONGROUND;
if (!pmove->multiplayer && pmove->movetype == MOVETYPE_WALK)
{
pmove->friction = 1.0f;
}
#ifdef REGAMEDLL_API
// save the last usercmd
pmoveplayer->SetLastUserCommand(pmove->cmd);
#endif
}
NOXREF int PM_GetVisEntInfo(int ent)
{
if (ent >= 0 && ent <= pmove->numvisent)
{
return pmove->visents[ent].info;
}
return -1;
}
NOXREF int PM_GetPhysEntInfo(int ent)
{
if (ent >= 0 && ent <= pmove->numphysent)
{
return pmove->physents[ent].info;
}
return -1;
}
LINK_HOOK_VOID_CHAIN(PM_Init, (struct playermove_s *ppmove), ppmove)
void EXT_FUNC __API_HOOK(PM_Init)(struct playermove_s *ppmove)
{
DbgAssert(!pm_shared_initialized);
pmove = ppmove;
PM_CreateStuckTable();
PM_InitTextureTypes();
pm_shared_initialized = TRUE;
}