fte/fteqw
2
0
Fork 1
Code Issues Pull requests Projects Releases Packages Wiki Activity
fteqw/engine/client/in_generic.c
Spoike 6d36834f8e Reworked client support for DPP5+. less code now, its much more graceful. 
added waterfog command. waterfog overrides regular fog only when the view is in water.
fixed 64bit printf format specifiers. should work better on winxp64.
fixed some spec angle weirdness.
fixed viewsize 99.99 weirdness with ezhud.
fixed extra offset on the console (exhibited in 64bit builds, but not limited to).
fixed .avi playback, can now actually display frames again.
reimplemented line sparks.
fixed r_editlights_save flipping the light's pitch.
fixed issue with oggs failing to load.
fixed condump to cope with unicode properly.
made sv_bigcoords default except in quake. hexen2 kinda needs it for bsp angle precision.
fixed nq server to not stall weirdly on map changes.
fixed qwprogs svc_cdtrack not bugging out with nq clients on the server.
fixed restart command to load the last map run by the server, instead of start.bsp (when idle)
optimised d3d9 renderer a little. now uses less draw calls, especially with complex scenes. seems to get higher framerates than opengl now.
fixed d3d9 renderer to not bug out quite so much when run fullscreen (shader subsystem is now correctly initialised).
fixed a couple of bugs from font change. also now supports utf-8 in a few more places.
r_editlights_reload no longer generates rtlights inside the void. this resolves a few glitches (but should also help framerates a little).
fixed so corona-only lights won't generate shadowmaps and waste lots of time.
removed lots of #defines from qclib. I should never have made them in the first place, but I was lazy. obviously there's more left that I cba to remove yet.
fixed nested calls with variant-vectors. this fixes csaddon's light editor.
fixed qcc hc calling conventions using redundant stores.
disabled keywords can still be used by using __keyword instead.
fixed ftegccgui grep feature.
fixed motionless-dog qcc bug.
tweaked qcc warnings a little. -Wall is now a viable setting. you should be able to fix all those warnings.
fixed qw svc_intermission + dpp5+ clients bug.
fixed annoying spam about disconnecting in hexen2.
rewrote status command a little to cope with ipv6 addresses more gracefully
fixed significant stall when hibernating/debugging a server with a player sitting on it.
fixed truelightning.
fixed rocketlight overriding pflags.
fixed torches vanishing on vid_restart.
fixed issue with decal scaling.
fixed findentityfield builtin.
fixed fteqcc issue with ptr+1
fixed use of arrays inside class functions.
fixed/implemented fteqcc emulation of pointer opcodes.
added __inout keyword to fteqcc, so that it doesn't feel so horrendous.
fixed sizeof(*foo)
fixed *struct = struct;
fixed recursive structs.
fixed fteqcc warning report.
fixed sdl2 controller support, hopefully.
attempted to implement xinput, including per-player audio playback.
slightly fixed relaxed attitude to mouse focus when running fullscreen.
fixed weird warnings/errors with 'ent.arrayhead' terms. now generates sane errors.
implemented bindmaps (for csqc).
fixed crashing bug with eprint builtin.
implemented subset of music_playlist_* functionality. significant changes to music playback.
fixed some more dpcsqc compat.
fixed binds menu. now displays and accepts modifiers.
fixed issues with huge lightmaps.
fixed protocol determinism with dp clients connecting to fte servers. the initial getchallenge request now inhibits vanilla nq connection requests.
implemented support for 'dupe' userinfo key, allowing clients to request client->server packet duplication. should probably queue them tbh.
implemented sv_saveentfile command.
fixed resume after breaking inside a stepped-over function.
fixed erroneous footer after debugging.
(I wonder just how many things I broke with these fixes)

git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@4946 fc73d0e0-1445-4013-8a0c-d673dee63da5
2015-07-26 10:56:18 +00:00

846 lines
23 KiB
C
Raw Blame History

//Generic input code.
//mostly mouse support, but can also handle a few keyboard events.
#include "quakedef.h"
extern qboolean mouse_active;
static cvar_t m_filter = CVARF("m_filter", "0", CVAR_ARCHIVE);
static cvar_t m_accel = CVARF("m_accel", "0", CVAR_ARCHIVE);
static cvar_t m_forcewheel = CVARD("m_forcewheel", "1", "0: ignore mousewheels in apis where it is abiguous.\n1: Use mousewheel when it is treated as a third axis. Motion above a threshold is ignored, to avoid issues with an unknown threshold.\n2: Like 1, but excess motion is retained. The threshold specifies exact z-axis distance per notice.");
static cvar_t m_forcewheel_threshold = CVARD("m_forcewheel_threshold", "32", "Mousewheel graduations smaller than this will not trigger mousewheel deltas.");
static cvar_t m_strafeonright = CVARFD("m_strafeonright", "1", CVAR_ARCHIVE, "If 1, touching the right half of the touchscreen will strafe/move, while the left side will turn.");
static cvar_t m_fatpressthreshold = CVARFD("m_fatpressthreshold", "0.2", CVAR_ARCHIVE, "How fat your thumb has to be to register a fat press (touchscreens).");
static cvar_t m_touchmajoraxis = CVARFD("m_touchmajoraxis", "1", CVAR_ARCHIVE, "When using a touchscreen, use only the major axis for strafing.");
static cvar_t m_slidethreshold = CVARFD("m_slidethreshold", "10", CVAR_ARCHIVE, "How far your finger needs to move to be considered a slide event (touchscreens).");
static cvar_t joy_advaxis[6] =
{
CVARD("joyadvaxisx", "4", "Provides a way to remap each joystick/controller axis.\n0:dead, 1:fwd, 2:pitch, 3:side, 4:yaw, 5:up, 6:roll"),
CVAR("joyadvaxisy", "2"),
CVAR("joyadvaxisz", "5"),
CVAR("joyadvaxisr", "3"),
CVAR("joyadvaxisu", "1"),
CVAR("joyadvaxisv", "6")
};
static cvar_t joy_advaxisscale[6] =
{
CVARD("joyadvaxisx_scale", "1.0", "Because joyadvaxisx etc can be added together, this provides a way to rescale or invert an individual axis without affecting another with the same action."),
CVAR("joyadvaxisy_scale", "1.0"),
CVAR("joyadvaxisz_scale", "1.0"),
CVAR("joyadvaxisr_scale", "1.0"),
CVAR("joyadvaxisu_scale", "1.0"),
CVAR("joyadvaxisv_scale", "1.0")
};
static cvar_t joy_anglesens[3] =
{
CVARD("joypitchsensitivity", "1.0", "Scaler value for the controller when it is at its most extreme value"),
CVAR("joyyawsensitivity", "-1.0"),
CVAR("joyrollsensitivity", "1.0")
};
static cvar_t joy_movesens[3] =
{
CVAR("joyforwardsensitivity", "1.0"),
CVAR("joysidesensitivity", "-1.0"),
CVAR("joyupsensitivity", "1.0")
};
//comments on threshholds comes from microsoft's xinput docs.
static cvar_t joy_anglethreshold[3] =
{
CVARD("joypitchthreshold", "0.19", "Values reported near the center of the analog joystick/controller are often erroneous and undesired.\nThe joystick threshholds are how much of the total values to ignore."), //8689/32767 (right thumb)
CVAR("joyyawthreshold", "0.19"), //8689/32767 (right thumb)
CVAR("joyrollthreshold", "0.118"), //30/255 (trigger)
};
static cvar_t joy_movethreshold[3] =
{
CVAR("joyforwardthreshold", "0.17"),//7849/32767 (left thumb)
CVAR("joysidethreshold", "0.17"), //7849/32767 (left thumb)
CVAR("joyupthreshold", "0.118"), //30/255 (trigger)
};
static cvar_t joy_exponent = CVARD("joyexponent", "2", "Scales joystick/controller sensitivity non-linearly to increase precision in the center.\nA value of 1 is linear.");
static cvar_t joy_radialdeadzone = CVARD("joyradialdeadzone", "1", "Treat controller dead zones as a pair, rather than per-axis.");
extern cvar_t _windowed_mouse;
#define EVENTQUEUELENGTH 128
struct eventlist_s
{
enum
{
IEV_KEYDOWN,
IEV_KEYRELEASE,
IEV_MOUSEABS,
IEV_MOUSEDELTA,
IEV_JOYAXIS
} type;
int devid;
union
{
struct
{
float x, y, z;
float tsize; //the size of the touch
} mouse;
struct
{
int scancode, unicode;
} keyboard;
struct
{
int axis;
float value;
} joy;
};
} eventlist[EVENTQUEUELENGTH];
volatile int events_avail; /*volatile to make sure the cc doesn't try leaving these cached in a register*/
volatile int events_used;
static struct eventlist_s *in_newevent(void)
{
if (events_avail >= events_used + EVENTQUEUELENGTH)
return NULL;
return &eventlist[events_avail & (EVENTQUEUELENGTH-1)];
}
static void in_finishevent(void)
{
events_avail++;
}
#define MAXPOINTERS 8
struct mouse_s
{
enum
{
M_INVALID,
M_MOUSE, //using deltas
M_TOUCH //using absolutes
} type;
int qdeviceid; //so we can just use pointers.
vec2_t oldpos;
vec2_t downpos;
float moveddist; //how far it has moved while held. this provides us with our emulated mouse1 when they release the press
vec2_t delta; //how far its moved recently
vec2_t old_delta; //how far its moved previously, for mouse smoothing
float wheeldelta;
int down;
unsigned int updates; //tracks updates per second
} ptr[MAXPOINTERS];
int touchcursor; //the cursor follows whichever finger was most recently pressed in preference to any mouse also on the same system
#define MAXJOYAXIS 6
#define MAXJOYSTICKS 8
struct joy_s
{
int qdeviceid;
float axis[MAXJOYAXIS];
} joy[MAXJOYSTICKS];
void IN_Shutdown(void)
{
INS_Shutdown();
}
void IN_ReInit(void)
{
int i;
for (i = 0; i < MAXPOINTERS; i++)
{
memset(&ptr[i], 0, sizeof(ptr[i]));
ptr[i].type = M_INVALID;
ptr[i].qdeviceid = i;
}
for (i = 0; i < MAXJOYSTICKS; i++)
{
memset(&joy[i], 0, sizeof(joy[i]));
joy[i].qdeviceid = i;
}
INS_ReInit();
}
struct remapctx
{
char *type;
char *devicename;
int newdevid;
};
static void IN_DeviceIDs_DoRemap(void *vctx, char *type, char *devicename, int *qdevid)
{
struct remapctx *ctx = vctx;
if (!strcmp(ctx->type, type))
if (!strcmp(ctx->devicename, devicename))
*qdevid = ctx->newdevid;
}
void IN_DeviceIDs_Enumerate(void *ctx, char *type, char *devicename, int *qdevid)
{
if (!qdevid)
Con_Printf("%s (%s): %s\n", type, devicename, "device cannot be remapped");
else
Con_Printf("%s (%s): %i\n", type, devicename, *qdevid);
}
void IN_DeviceIDs_f(void)
{
struct remapctx ctx;
if (Cmd_Argc() > 3)
{
ctx.type = Cmd_Argv(1);
ctx.devicename = Cmd_Argv(2);
ctx.newdevid = atoi(Cmd_Argv(3));
INS_EnumerateDevices(&ctx, IN_DeviceIDs_DoRemap);
}
else
INS_EnumerateDevices(NULL, IN_DeviceIDs_Enumerate);
}
float IN_DetermineMouseRate(void)
{
float time = Sys_DoubleTime();
static float timer;
static float last;
if (fabs(time - timer) > 1)
{
timer = time;
last = ptr[0].updates;
ptr[0].updates = 0;
}
return last;
}
void IN_Init(void)
{
int i;
events_avail = 0;
events_used = 0;
Cvar_Register (&m_filter, "input controls");
Cvar_Register (&m_accel, "input controls");
Cvar_Register (&m_forcewheel, "Input Controls");
Cvar_Register (&m_forcewheel_threshold, "Input Controls");
Cvar_Register (&m_strafeonright, "input controls");
Cvar_Register (&m_fatpressthreshold, "input controls");
Cvar_Register (&m_slidethreshold, "input controls");
Cvar_Register (&m_touchmajoraxis, "input controls");
for (i = 0; i < 6; i++)
{
Cvar_Register (&joy_advaxis[i], "input controls");
Cvar_Register (&joy_advaxisscale[i], "input controls");
}
for (i = 0; i < 3; i++)
{
Cvar_Register (&joy_anglesens[i], "input controls");
Cvar_Register (&joy_movesens[i], "input controls");
Cvar_Register (&joy_anglethreshold[i], "input controls");
Cvar_Register (&joy_movethreshold[i], "input controls");
}
Cvar_Register (&joy_exponent, "input controls");
Cvar_Register (&joy_radialdeadzone, "input controls");
Cmd_AddCommand ("in_deviceids", IN_DeviceIDs_f);
INS_Init();
}
//tells the keys.c code whether the cursor is currently active, causing mouse clicks instead of binds.
qboolean IN_MouseDevIsTouch(int devid)
{
if (devid < MAXPOINTERS)
return ptr[devid].type == M_TOUCH;
return false;
}
//there was no ui to click on at least...
//translates MOUSE1 press events into begin-look-or-strafe events.
//translates to MOUSE2 accordingly
//returns 0 if it ate it completely.
int IN_TranslateMButtonPress(int devid)
{
int ret;
if (!ptr[devid].down)
{
//set the cursor-pressed state, so we begin to look/strafe around
ptr[devid].down = 1;
ptr[devid].moveddist = 0;
ptr[devid].downpos[0] = ptr[devid].oldpos[0];
ptr[devid].downpos[1] = ptr[devid].oldpos[1];
ptr[devid].delta[0] = 0;
ptr[devid].delta[1] = 0;
ret = 0; //eat it
}
else
{
//this is the key binding that the press should use
ret = (m_strafeonright.ival && ptr[devid].downpos[0] > vid.pixelwidth/2)?K_MOUSE2:K_MOUSE1;
}
return ret;
}
/*a 'pointer' is either a multitouch pointer, or a separate device
note that mice use the keyboard button api, but separate devices*/
void IN_Commands(void)
{
struct eventlist_s *ev;
INS_Commands();
while (events_used != events_avail)
{
ev = &eventlist[events_used & (EVENTQUEUELENGTH-1)];
switch(ev->type)
{
case IEV_KEYDOWN:
case IEV_KEYRELEASE:
//on touchscreens, mouse1 is used as up/down state. we have to emulate actual mouse clicks based upon distance moved, so we can get movement events.
if (ev->keyboard.scancode == K_MOUSE1 && ev->devid < MAXPOINTERS && (ptr[ev->devid].type == M_TOUCH))
{
if (ev->type == IEV_KEYDOWN)
{
float fl;
touchcursor = ev->devid;
fl = ptr[ev->devid].oldpos[0] * vid.width / vid.pixelwidth;
mousecursor_x = bound(0, fl, vid.width-1);
fl = ptr[ev->devid].oldpos[1] * vid.height / vid.pixelheight;
mousecursor_y = bound(0, fl, vid.height-1);
}
else if (touchcursor == ev->devid)
touchcursor = 0; //revert it to the mouse, or whatever device was 0.
if (Key_MouseShouldBeFree())
ptr[ev->devid].down = 0;
else if (ptr[ev->devid].down)
{
if (ev->type == IEV_KEYDOWN)
Key_Event(ev->devid, ev->keyboard.scancode, ev->keyboard.unicode, ev->type == IEV_KEYDOWN);
else
{
if (ptr[ev->devid].down == 1 && ptr[ev->devid].moveddist < m_slidethreshold.value)
{
ptr[ev->devid].down = 2;
Key_Event(ev->devid, K_MOUSE1, 0, true);
}
Key_Event(ev->devid, K_MOUSE1, 0, false);
ptr[ev->devid].down = 0;
}
break;
}
}
Key_Event(ev->devid, ev->keyboard.scancode, ev->keyboard.unicode, ev->type == IEV_KEYDOWN);
break;
case IEV_JOYAXIS:
if (ev->devid < MAXJOYSTICKS && ev->joy.axis < MAXJOYAXIS)
{
#ifdef CSQC_DAT
if (CSQC_JoystickAxis(ev->joy.axis, ev->joy.value, ev->devid))
joy[ev->devid].axis[ev->joy.axis] = 0;
else
#endif
joy[ev->devid].axis[ev->joy.axis] = ev->joy.value;
}
break;
case IEV_MOUSEDELTA:
if (ev->devid < MAXPOINTERS)
{
if (ptr[ev->devid].type != M_MOUSE)
{
ptr[ev->devid].type = M_MOUSE;
}
ptr[ev->devid].delta[0] += ev->mouse.x;
ptr[ev->devid].delta[1] += ev->mouse.y;
if (m_forcewheel.value >= 2)
ptr[ev->devid].wheeldelta -= ev->mouse.z;
else if (m_forcewheel.value)
{
int mfwt = (int)m_forcewheel_threshold.value;
if (ev->mouse.z > mfwt)
ptr[ev->devid].wheeldelta -= mfwt;
else if (ev->mouse.z < -mfwt)
ptr[ev->devid].wheeldelta += mfwt;
}
if (ev->mouse.x || ev->mouse.y)
ptr[ev->devid].updates++;
}
break;
case IEV_MOUSEABS:
/*mouse cursors only really work with one pointer*/
if (ev->devid == touchcursor)
{
float fl;
fl = ev->mouse.x * vid.width / vid.pixelwidth;
mousecursor_x = bound(0, fl, vid.width-1);
fl = ev->mouse.y * vid.height / vid.pixelheight;
mousecursor_y = bound(0, fl, vid.height-1);
}
if (ev->devid < MAXPOINTERS)
{
if (ptr[ev->devid].type != M_TOUCH)
{
//if its now become an absolute device, clear stuff so we don't get confused.
ptr[ev->devid].type = M_TOUCH;
ptr[ev->devid].down = 0;
ptr[ev->devid].moveddist = 0;
ptr[ev->devid].oldpos[0] = ev->mouse.x;
ptr[ev->devid].oldpos[1] = ev->mouse.y;
}
if (ptr[ev->devid].down)
{
ptr[ev->devid].delta[0] += ev->mouse.x - ptr[ev->devid].oldpos[0];
ptr[ev->devid].delta[1] += ev->mouse.y - ptr[ev->devid].oldpos[1];
ptr[ev->devid].moveddist += fabs(ev->mouse.x - ptr[ev->devid].oldpos[0]) + fabs(ev->mouse.y - ptr[ev->devid].oldpos[1]);
}
if (ptr[ev->devid].delta[0] != ev->mouse.x - ptr[ev->devid].oldpos[0] ||
ptr[ev->devid].delta[1] != ev->mouse.y - ptr[ev->devid].oldpos[1])
ptr[ev->devid].updates++;
ptr[ev->devid].oldpos[0] = ev->mouse.x;
ptr[ev->devid].oldpos[1] = ev->mouse.y;
if (ptr[ev->devid].down > 1 && ev->mouse.tsize < m_fatpressthreshold.value)
{
ptr[ev->devid].down = 1;
Key_Event(ev->devid, K_MOUSE1, 0, false);
}
if (ptr[ev->devid].down == 1 && ev->mouse.tsize > m_fatpressthreshold.value)
{
ptr[ev->devid].down = 2;
Key_Event(ev->devid, K_MOUSE1, 0, true);
}
}
break;
}
events_used++;
}
}
void IN_MoveMouse(struct mouse_s *mouse, float *movements, int pnum)
{
int mx, my;
double mouse_x, mouse_y, mouse_deltadist;
int mfwt;
qboolean strafe_x, strafe_y;
int wpnum;
//small performance boost
if (mouse->type == M_INVALID)
return;
/*each device will be processed when its player comes to be processed*/
wpnum = cl.splitclients;
if (wpnum < 1)
wpnum = 1;
if (cl_forceseat.ival)
wpnum = (cl_forceseat.ival-1) % wpnum;
else
wpnum = mouse->qdeviceid % wpnum;
if (wpnum != pnum)
return;
if (m_forcewheel.value)
{
mfwt = m_forcewheel_threshold.ival;
if (mfwt)
{
while(mouse->wheeldelta <= -mfwt)
{
Key_Event (mouse->qdeviceid, K_MWHEELUP, 0, true);
Key_Event (mouse->qdeviceid, K_MWHEELUP, 0, false);
mouse->wheeldelta += mfwt;
}
while(mouse->wheeldelta >= mfwt)
{
Key_Event (mouse->qdeviceid, K_MWHEELDOWN, 0, true);
Key_Event (mouse->qdeviceid, K_MWHEELDOWN, 0, false);
mouse->wheeldelta -= mfwt;
}
}
if (m_forcewheel.value < 2)
mouse->wheeldelta = 0;
}
mx = mouse->delta[0];
mouse->delta[0]=0;
my = mouse->delta[1];
mouse->delta[1]=0;
if(in_xflip.value) mx *= -1;
mousemove_x += mx;
mousemove_y += my;
if (Key_MouseShouldBeFree())
{
if ((mx || my) && mouse->type != M_TOUCH)
{
mousecursor_x += mx;
mousecursor_y += my;
if (mousecursor_y<0)
mousecursor_y=0;
if (mousecursor_x<0)
mousecursor_x=0;
if (mousecursor_x >= vid.width)
mousecursor_x = vid.width - 1;
if (mousecursor_y >= vid.height)
mousecursor_y = vid.height - 1;
mx=my=0;
}
}
else
{
if (mouse->type != M_TOUCH)
{
mousecursor_x += mx;
mousecursor_y += my;
}
#ifdef VM_UI
if (UI_MousePosition(mx, my))
{
mx = 0;
my = 0;
}
#endif
}
if (mouse->type == M_TOUCH)
{
if (m_strafeonright.ival && mouse->downpos[0] > vid.pixelwidth/2 && movements != NULL && !Key_Dest_Has(~kdm_game))
{
//if they're strafing, calculate the speed to move at based upon their displacement
if (mouse->down)
{
mx = mouse->oldpos[0] - (vid.pixelwidth*3)/4;
my = mouse->oldpos[1] - (vid.pixelheight*3)/4;
//mx = (mouse->oldpos[0] - mouse->downpos[0])*0.1;
//my = (mouse->oldpos[1] - mouse->downpos[1])*0.1;
}
else
{
mx = 0;
my = 0;
}
if (m_touchmajoraxis.ival)
{
//major axis only
if (fabs(mx) > fabs(my))
my = 0;
else
mx = 0;
}
strafe_x = true;
strafe_y = true;
}
else
{
strafe_x = false;
strafe_y = false;
//boost sensitivity so that the default works okay.
mx *= 1.75;
my *= 1.75;
}
}
else
{
strafe_x = (in_strafe.state[pnum] & 1) || (lookstrafe.value && (in_mlook.state[pnum] & 1) );
strafe_y = !((in_mlook.state[pnum] & 1) && !(in_strafe.state[pnum] & 1));
}
#ifdef PEXT_CSQC
if (mouse->type == M_TOUCH)
{
if (CSQC_MousePosition(mouse->oldpos[0], mouse->oldpos[1], mouse->qdeviceid))
{
mx = 0;
my = 0;
}
}
else
{
if (mx || my)
if (CSQC_MouseMove(mx, my, mouse->qdeviceid))
{
mx = 0;
my = 0;
}
//if game is not focused, kill any mouse look
if (Key_Dest_Has(~kdm_game))
{
mx = 0;
my = 0;
}
}
#endif
if (m_filter.value)
{
double fraction = bound(0, m_filter.value, 2) * 0.5;
mouse_x = (mx*(1-fraction) + mouse->old_delta[0]*fraction);
mouse_y = (my*(1-fraction) + mouse->old_delta[1]*fraction);
}
else
{
mouse_x = mx;
mouse_y = my;
}
mouse->old_delta[0] = mx;
mouse->old_delta[1] = my;
if (m_accel.value)
{
mouse_deltadist = sqrt(mx*mx + my*my);
mouse_x *= (mouse_deltadist*m_accel.value + sensitivity.value*in_sensitivityscale);
mouse_y *= (mouse_deltadist*m_accel.value + sensitivity.value*in_sensitivityscale);
}
else
{
mouse_x *= sensitivity.value*in_sensitivityscale;
mouse_y *= sensitivity.value*in_sensitivityscale;
}
if (cl.playerview[pnum].stats[STAT_VIEWZOOM])
{
mouse_x *= cl.playerview[pnum].stats[STAT_VIEWZOOM]/255.0f;
mouse_y *= cl.playerview[pnum].stats[STAT_VIEWZOOM]/255.0f;
}
if (!movements)
{
return;
}
// add mouse X/Y movement to cmd
if (strafe_x)
movements[1] += m_side.value * mouse_x;
else
{
// if ((int)((cl.viewangles[pnum][PITCH]+89.99)/180) & 1)
// mouse_x *= -1;
cl.playerview[pnum].viewanglechange[YAW] -= m_yaw.value * mouse_x;
}
if (in_mlook.state[pnum] & 1)
V_StopPitchDrift (&cl.playerview[pnum]);
if (!strafe_y)
{
cl.playerview[pnum].viewanglechange[PITCH] += m_pitch.value * mouse_y;
}
else
{
if ((in_strafe.state[pnum] & 1) && noclip_anglehack)
movements[2] -= m_forward.value * mouse_y;
else
movements[0] -= m_forward.value * mouse_y;
}
}
//rescales threshold-1 down 0-1
static float joydeadzone(float mag, float deadzone)
{
if (mag > 1) //erg?
mag = 1;
if (mag > deadzone)
{
mag -= deadzone;
mag = mag / (1.f-deadzone);
}
else
mag = 0;
return mag;
}
void IN_MoveJoystick(struct joy_s *joy, float *movements, int pnum, float frametime)
{
float mag;
vec3_t jlook, jstrafe;
int wpnum, i;
for (i = 0; i < MAXJOYAXIS; i++)
if (joy->axis[i])
break;
if (i == MAXJOYAXIS)
return;
/*each device will be processed when its player comes to be processed*/
wpnum = cl.splitclients;
if (wpnum < 1)
wpnum = 1;
if (cl_forceseat.ival)
wpnum = (cl_forceseat.ival-1) % wpnum;
else
wpnum = joy->qdeviceid % wpnum;
if (wpnum != pnum)
return;
memset(jstrafe, 0, sizeof(jstrafe));
memset(jlook, 0, sizeof(jlook));
for (i = 0; i < 6; i++)
{
switch(joy_advaxis[i].ival)
{
default:
case 0: //dead axis
break;
case 1:
jstrafe[0] += joy->axis[i] * joy_advaxisscale[i].value;
break;
case 2:
jlook[0] += joy->axis[i] * joy_advaxisscale[i].value;
break;
case 3:
jstrafe[1] += joy->axis[i] * joy_advaxisscale[i].value;
break;
case 4:
jlook[1] += joy->axis[i] * joy_advaxisscale[i].value;
break;
case 5:
jstrafe[2] += joy->axis[i] * joy_advaxisscale[i].value;
break;
case 6:
jlook[2] += joy->axis[i] * joy_advaxisscale[i].value;
break;
}
}
//uses a radial deadzone for x+y axis, and separate out the z axis, just because most controllers are 2d affairs with any 3rd axis being a separate knob.
//deadzone values are stolen from microsoft's xinput documentation. they seem quite large to me - I guess that means that xbox controllers are just dodgy imprecise crap with excessive amounts of friction and finger grease.
if (joy_radialdeadzone.ival)
{
mag = joydeadzone(sqrt(jlook[0]*jlook[0] + jlook[1]*jlook[1]), sqrt(joy_anglethreshold[0].value*joy_anglethreshold[0].value + joy_anglethreshold[1].value*joy_anglethreshold[1].value));
mag = pow(mag, joy_exponent.value);
jlook[0] *= mag;
jlook[1] *= mag;
mag = joydeadzone(fabs(jlook[2]), joy_anglethreshold[2].value);
jlook[2] *= mag;
mag = joydeadzone(sqrt(jstrafe[0]*jstrafe[0] + jstrafe[1]*jstrafe[1]), sqrt(joy_movethreshold[0].value*joy_movethreshold[0].value + joy_movethreshold[1].value*joy_movethreshold[1].value));
mag = pow(mag, joy_exponent.value);
jstrafe[0] *= mag;
jstrafe[1] *= mag;
mag = joydeadzone(fabs(jstrafe[2]), joy_movethreshold[2].value);
jstrafe[2] *= mag;
}
else
{
for (i = 0; i < 3; i++)
{
mag = joydeadzone(fabs(jlook[i]), joy_anglethreshold[i].value);
mag = pow(mag, joy_exponent.value);
jlook[i] *= mag;
mag = joydeadzone(fabs(jstrafe[i]), joy_movethreshold[i].value);
mag = pow(mag, joy_exponent.value);
jstrafe[i] *= mag;
}
}
if (Key_Dest_Has(~kdm_game))
{
VectorClear(jlook);
VectorClear(jstrafe);
}
if (in_speed.state[pnum] & 1)
{
VectorScale(jlook, 360*cl_movespeedkey.value, jlook);
VectorScale(jstrafe, 360*cl_movespeedkey.value, jstrafe);
}
VectorScale(jlook, 360*frametime, jlook);
if (!movements) //if this is null, gamecode should still get inputs, just no camera looking or anything.
return;
//angle changes
cl.playerview[pnum].viewanglechange[PITCH] += joy_anglesens[0].value * jlook[0];
cl.playerview[pnum].viewanglechange[YAW] += joy_anglesens[1].value * jlook[1];
cl.playerview[pnum].viewanglechange[ROLL] += joy_anglesens[2].value * jlook[2];
if (in_mlook.state[pnum] & 1)
V_StopPitchDrift (&cl.playerview[pnum]);
//movement
movements[0] -= joy_movesens[0].value * cl_forwardspeed.value * jstrafe[0];
movements[1] -= joy_movesens[1].value * cl_sidespeed.value * jstrafe[1];
movements[2] -= joy_movesens[2].value * cl_upspeed.value * jstrafe[2];
}
void IN_Move (float *movements, int pnum, float frametime)
{
int i;
INS_Move(movements, pnum);
for (i = 0; i < MAXPOINTERS; i++)
IN_MoveMouse(&ptr[i], movements, pnum);
for (i = 0; i < MAXJOYSTICKS; i++)
IN_MoveJoystick(&joy[i], movements, pnum, frametime);
}
void IN_JoystickAxisEvent(int devid, int axis, float value)
{
struct eventlist_s *ev = in_newevent();
if (!ev)
return;
ev->type = IEV_JOYAXIS;
ev->devid = devid;
ev->joy.axis = axis;
ev->joy.value = value;
in_finishevent();
}
void IN_KeyEvent(int devid, int down, int keycode, int unicode)
{
struct eventlist_s *ev = in_newevent();
if (!ev)
return;
ev->type = down?IEV_KEYDOWN:IEV_KEYRELEASE;
ev->devid = devid;
ev->keyboard.scancode = keycode;
ev->keyboard.unicode = unicode;
in_finishevent();
}
/*
devid is the mouse device id. generally idependant from keyboards.
for multitouch, devid might be the touch identifier, which will persist until released.
x is horizontal, y is vertical.
z is height... generally its used as a mousewheel instead, but there are some '3d' mice out there, so its provided in this api.
*/
void IN_MouseMove(int devid, int abs, float x, float y, float z, float size)
{
struct eventlist_s *ev = in_newevent();
if (!ev)
return;
ev->devid = devid;
ev->type = abs?IEV_MOUSEABS:IEV_MOUSEDELTA;
ev->mouse.x = x;
ev->mouse.y = y;
ev->mouse.z = z;
ev->mouse.tsize = size;
in_finishevent();
}
Reference in a new issue View git blame Copy permalink