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base: paul:49144f9429e52db74c96a023754ac87be9866fd2
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paul:master
paul:usbhaptic
paul:test1
paul:pulseaudio
paul:refactor1
paul:simwind
paul:rfactor2
..
compare: paul:8065929618a8ef41c944d15ab4992cacdb0e2c44
Branches Tags
paul:usbhaptic
paul:test1
paul:master
paul:pulseaudio
paul:refactor1
paul:simwind
paul:rfactor2

10 Commits
49144f9429 ... 8065929618

Author SHA1 Message Date
Paul Dino Jones 8065929618 Adding new items to configuration example 2023-05-17 15:54:21 +00:00
Paul Dino Jones 5211753a7e Add simwind arduino sketch 2023-05-15 14:30:23 +00:00
Paul Dino Jones d2ff88aabb More refactoring to improve serial devices 2023-05-15 14:23:33 +00:00
Paul Dino Jones 978c607d66 Improved gameloop for serial devices. More simwind hacks 2023-05-13 15:33:02 -04:00
Paul Dino Jones 0d4a1fae1c Use mph on arduino updates 2023-05-12 21:44:22 +00:00
Paul Dino Jones a50b68f3b6 Add udev rules for arduino devices 2023-05-09 23:20:02 -04:00
Paul Dino Jones d8df1890b3 Refactor into C classes. Add support for SimWind. 2023-05-09 14:59:41 -04:00
Paul Dino Jones af7077b07a Adding velocity to test function 2023-04-25 10:33:05 +00:00
Paul Dino Jones 61825e4ddf Refactoring gear change vibration effect 2023-04-08 08:52:06 +00:00
Paul Dino Jones 5eb136312b Refactoring to use function pointers for devices updates 2023-04-07 07:19:43 +00:00
25 changed files with 818 additions and 391 deletions
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14
conf/monocoque.config
View File

@ -6,10 +6,16 @@ devices = ( { device = "USB";
granularity = 4;
config = "/home/paul/.config/monocoque/revburner1.xml"; },
{ device = "Sound";
type = "Shaker"
devid = "98FD:83AC";
config = "shaker1.config"; },
type = "Engine"
devid = "98FD:83AC"; },
{ device = "Sound";
type = "Gear"
devid = "98FD:83AC"; },
{ device = "Serial";
type = "ShiftLights";
config = "None";
devpath = "/dev/ttyACM0"; } );
devpath = "/dev/ttyACM0"; } ),
{ device = "Serial";
type = "SimWind";
config = "None";
devpath = "/dev/ttyACM1"; } );

93
src/arduino/shift_lights/shift_lights.ino.orig
View File

@ -1,93 +0,0 @@
#include <FastLED.h>
#include "../../monocoque/simulatorapi/simdata.h"
#define BYTE_SIZE sizeof(SimData)
#define LED_PIN 7
#define NUM_LEDS 6
CRGB leds[NUM_LEDS];
SimData sd;
int maxrpm = 0;
int rpm = 0;
int numlights = NUM_LEDS;
int pin = LED_PIN;
int lights[6];
void setup() {
Serial.begin(9600);
FastLED.addLeds<WS2812, LED_PIN, GRB>(leds, NUM_LEDS);
FastLED.setMaxPowerInVoltsAndMilliamps(5, 500);
FastLED.setBrightness(40);
for (int i = 0; i < numlights; i++)
{
leds[i] = CRGB ( 0, 0, 0);
lights[i] = 0;
}
FastLED.clear();
sd.rpms = 0;
sd.maxrpm = 6500;
sd.altitude = 10;
sd.pulses = 40000;
sd.velocity = 10;
}
void loop() {
int l = 0;
char buff[BYTE_SIZE];
if (Serial.available() >= BYTE_SIZE) {
Serial.readBytes(buff, BYTE_SIZE);
memcpy(&sd, &buff, BYTE_SIZE);
rpm = sd.rpms;
maxrpm = sd.maxrpm;
}
while (l < numlights)
{
lights[l] = 0;
l++;
}
l = -1;
int rpmlights = 0;
while (rpm > rpmlights)
{
if (l>=0)
{
lights[l] = 1;
}
l++;
rpmlights = rpmlights + (((maxrpm-250)/numlights));
}
l = 0;
FastLED.clear();
while (l < numlights)
{
if (l >= numlights / 2)
{
leds[l] = CRGB ( 0, 0, 255);
}
if (l < numlights / 2)
{
leds[l] = CRGB ( 0, 255, 0);
}
if (l == numlights - 1)
{
leds[l] = CRGB ( 255, 0, 0);
}
if (lights[l] <= 0)
{
leds[l] = CRGB ( 0, 0, 0);
}
FastLED.show();
l++;
}
}

0
src/arduino/shift_lights/shift_lights.ino → src/arduino/shiftlights/shift_lights.ino
View File

51
src/arduino/simwind/simwind.ino Normal file
View File

@ -0,0 +1,51 @@
#include <Adafruit_MotorShield.h>
#include "../../monocoque/simulatorapi/simdata.h"
#define BYTE_SIZE sizeof(SimData)
#define KPHTOMPH .621317
Adafruit_MotorShield AFMS = Adafruit_MotorShield();
Adafruit_DCMotor *myMotor1 = AFMS.getMotor(1);
Adafruit_DCMotor *myMotor2 = AFMS.getMotor(3);
SimData sd;
int velocity = 0;
void setup() {
Serial.begin(9600);
if (!AFMS.begin()) {
Serial.println("Could not find Motor Shield. Check wiring.");
while (1);
}
sd.rpms = 0;
sd.maxrpm = 6500;
sd.altitude = 10;
sd.pulses = 40000;
sd.velocity = 10;
myMotor1->setSpeed(0);
myMotor1->run(FORWARD);
myMotor2->setSpeed(0);
myMotor2->run(FORWARD);
}
void loop() {
char buff[BYTE_SIZE];
if (Serial.available() >= BYTE_SIZE)
{
Serial.readBytes(buff, BYTE_SIZE);
memcpy(&sd, &buff, BYTE_SIZE);
velocity = sd.velocity;
}
int v = ceil(velocity * KPHTOMPH);
if (v >= 255)
{
v = 255;
}
myMotor1->setSpeed(v);
myMotor2->setSpeed(v);
}

9
src/monocoque/devices/serial/arduino.c
View File

@ -1,9 +1,10 @@
#include <stdio.h>
#include <unistd.h>
#include <stdlib.h>
#include <string.h>
#include "arduino.h"
#include "../slog/slog.h"
#include "../../slog/slog.h"
#define arduino_timeout 2000
@ -18,11 +19,12 @@ int arduino_update(SerialDevice* serialdevice, SimData* simdata)
return result;
}
int arduino_init(SerialDevice* serialdevice)
int arduino_init(SerialDevice* serialdevice, const char* portdev)
{
slogi("initializing arduino serial device...");
int error = 0;
char* port_name = "/dev/ttyACM0";
char* port_name = strdup(portdev);
slogd("Looking for port %s.\n", port_name);
error = check(sp_get_port_by_name(port_name, &serialdevice->port));
if (error != 0)
@ -40,6 +42,7 @@ int arduino_init(SerialDevice* serialdevice)
check(sp_set_stopbits(serialdevice->port, 1));
check(sp_set_flowcontrol(serialdevice->port, SP_FLOWCONTROL_NONE));
free(port_name);
slogd("Successfully setup arduino serial device...");
return 0;
}

3
src/monocoque/devices/serial/arduino.h
View File

@ -1,10 +1,11 @@
#ifndef _ARDUINO_H
#define _ARDUINO_H
#include "../simdevice.h"
#include "../serialdevice.h"
int arduino_update(SerialDevice* serialdevice, SimData* simdata);
int arduino_init(SerialDevice* serialdevice);
int arduino_init(SerialDevice* serialdevice, const char* portdev);
int arduino_free(SerialDevice* serialdevice);
int check(enum sp_return result);

38
src/monocoque/devices/serialdevice.c
View File

@ -2,26 +2,34 @@
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <math.h>
#include "simdevice.h"
#include "serialdevice.h"
#include "serial/arduino.h"
#include "../helper/parameters.h"
#include "../simulatorapi/simdata.h"
#include "../slog/slog.h"
int serialdev_update(SerialDevice* serialdevice, SimData* simdata)
int serialdev_update(SimDevice* this, SimData* simdata)
{
SerialDevice* serialdevice = (void *) this->derived;
arduino_update(serialdevice, simdata);
return 0;
}
int serialdev_free(SerialDevice* serialdevice)
int serialdev_free(SimDevice* this)
{
SerialDevice* serialdevice = (void *) this->derived;
arduino_free(serialdevice);
free(serialdevice);
return 0;
}
int serialdev_init(SerialDevice* serialdevice)
int serialdev_init(SerialDevice* serialdevice, const char* portdev)
{
slogi("initializing serial device...");
int error = 0;
@ -29,7 +37,29 @@ int serialdev_init(SerialDevice* serialdevice)
serialdevice->type = SERIALDEV_UNKNOWN;
serialdevice->type = SERIALDEV_ARDUINO;
error = arduino_init(serialdevice);
error = arduino_init(serialdevice, portdev);
return error;
}
static const vtable serial_simdevice_vtable = { &serialdev_update, &serialdev_free };
SerialDevice* new_serial_device(DeviceSettings* ds) {
SerialDevice* this = (SerialDevice*) malloc(sizeof(SerialDevice));
this->m.update = &update;
this->m.free = &simdevfree;
this->m.derived = this;
this->m.vtable = &serial_simdevice_vtable;
int error = serialdev_init(this, ds->serialdevsettings.portdev);
if (error != 0)
{
free(this);
return NULL;
}
return this;
}

20
src/monocoque/devices/serialdevice.h
View File

@ -2,26 +2,6 @@
#define _SERIALDEVICE_H
#include <libserialport.h>
#include "../helper/parameters.h"
#include "../simulatorapi/simdata.h"
typedef enum
{
SERIALDEV_UNKNOWN = 0,
SERIALDEV_ARDUINO = 1
}
SerialType;
typedef struct
{
int id;
SerialType type;
struct sp_port* port;
}
SerialDevice;
int serialdev_update(SerialDevice* serialdevice, SimData* simdata);
int serialdev_init(SerialDevice* serialdevice);
int serialdev_free(SerialDevice* serialdevice);
#endif

142
src/monocoque/devices/simdevice.c
View File

@ -1,4 +1,5 @@
#include <stdio.h>
#include <stdlib.h>
#include "simdevice.h"
#include "../helper/parameters.h"
@ -6,80 +7,101 @@
#include "../simulatorapi/simdata.h"
#include "../slog/slog.h"
int devupdate(SimDevice* simdevice, SimData* simdata)
int update(SimDevice* this, SimData* simdata)
{
if (simdevice->initialized==false)
{
return 0;
}
switch ( simdevice->type )
{
case SIMDEV_USB :
usbdev_update(&simdevice->d.usbdevice, simdata);
break;
case SIMDEV_SOUND :
sounddev_update(&simdevice->d.sounddevice, simdata);
break;
case SIMDEV_SERIAL :
serialdev_update(&simdevice->d.serialdevice, simdata);
break;
}
((vtable*)this->vtable)->update(this, simdata);
}
int simdevfree(SimDevice* this)
{
((vtable*)this->vtable)->free(this);
}
int devupdate(SimDevice* this, SimData* simdata)
{
return 0;
}
int devfree(SimDevice* simdevice)
int devfree(SimDevice* simdevices, int numdevices)
{
if (simdevice->initialized==false)
slogi("freeing %i simdevices...", numdevices);
int devices = 0;
for (int j = 0; j < numdevices; j++)
{
slogw("Attempt to free an uninitialized device");
return MONOCOQUE_ERROR_INVALID_DEV;
}
switch ( simdevice->type )
{
case SIMDEV_USB :
usbdev_free(&simdevice->d.usbdevice);
break;
case SIMDEV_SOUND :
sounddev_free(&simdevice->d.sounddevice);
break;
case SIMDEV_SERIAL :
serialdev_free(&simdevice->d.serialdevice);
break;
SimDevice simdev = simdevices[j];
if (simdev.initialized == true)
{
simdev.free(&simdev);
}
}
free(simdevices);
return 0;
}
int devinit(SimDevice* simdevice, DeviceSettings* ds)
int devinit(SimDevice* simdevices, int numdevices, DeviceSettings* ds)
{
slogi("initializing simdevice...");
simdevice->initialized = false;
int err = 0;
slogi("initializing simdevices...");
int devices = 0;
switch ( ds->dev_type )
for (int j = 0; j < numdevices; j++)
{
case SIMDEV_USB :
simdevice->type = SIMDEV_USB;
simdevice->d.usbdevice.type = USBDEV_UNKNOWN;
err = usbdev_init(&simdevice->d.usbdevice, ds);
break;
case SIMDEV_SOUND :
simdevice->type = SIMDEV_SOUND;
err = sounddev_init(&simdevice->d.sounddevice);
break;
case SIMDEV_SERIAL :
simdevice->type = SIMDEV_SERIAL;
err = serialdev_init(&simdevice->d.serialdevice);
break;
default :
sloge("Unknown device type");
err = MONOCOQUE_ERROR_UNKNOWN_DEV;
break;
simdevices[j].initialized = false;
if (ds[j].dev_type == SIMDEV_USB) {
USBDevice* sim = new_usb_device(&ds[j]);
if (sim != NULL)
{
simdevices[j] = sim->m;
simdevices[j].initialized = true;
simdevices[j].type = SIMDEV_USB;
devices++;
}
else
{
slogw("Could not initialize USB Device");
}
}
if (ds[j].dev_type == SIMDEV_SOUND) {
SoundDevice* sim = new_sound_device(&ds[j]);
if (sim != NULL)
{
simdevices[j] = sim->m;
simdevices[j].initialized = true;
simdevices[j].type = SIMDEV_SOUND;
devices++;
}
else
{
slogw("Could not initialize Sound Device");
}
}
if (ds[j].dev_type == SIMDEV_SERIAL) {
SerialDevice* sim = new_serial_device(&ds[j]);
if (sim != NULL)
{
simdevices[j] = sim->m;
simdevices[j].initialized = true;
simdevices[j].type = SIMDEV_SERIAL;
devices++;
}
else
{
slogw("Could not initialize Serial Device");
}
}
}
if (err==0)
{
simdevice->initialized = true;
}
return err;
return devices;
}

92
src/monocoque/devices/simdevice.h
View File

@ -9,26 +9,102 @@
#include "../helper/confighelper.h"
#include "../simulatorapi/simdata.h"
typedef struct SimDevice SimDevice;
typedef struct
struct SimDevice
{
const void* vtable;
int (*update)(SimDevice*, SimData*);
int (*free)(SimDevice*);
void* derived;
int id;
bool initialized;
DeviceType type;
};
typedef struct {
int (*update)(SimDevice*, SimData*);
int (*free)(SimDevice*);
} vtable;
/********* Serial Devices *****/
typedef enum
{
SERIALDEV_UNKNOWN = 0,
SERIALDEV_ARDUINO = 1
}
SerialType;
typedef struct
{
SimDevice m;
int id;
SerialType type;
struct sp_port* port;
}
SerialDevice;
int serialdev_update(SimDevice* this, SimData* simdata);
int serialdev_free(SimDevice* this);
SerialDevice* new_serial_device(DeviceSettings* ds);
/********* USB HID Devices *****/
typedef enum
{
USBDEV_UNKNOWN = 0,
USBDEV_TACHOMETER = 1
}
USBType;
typedef struct
{
SimDevice m;
int id;
USBType type;
union
{
USBDevice usbdevice;
SoundDevice sounddevice;
SerialDevice serialdevice;
} d;
TachDevice tachdevice;
} u;
}
SimDevice;
USBDevice;
int usbdev_update(SimDevice* this, SimData* simdata);
int usbdev_free(SimDevice* this);
USBDevice* new_usb_device(DeviceSettings* ds);
/********* Sound Devices *****/
typedef struct
{
SimDevice m;
int id;
SoundType type;
VibrationEffectType effecttype;
PATestData sounddata;
PaStreamParameters outputParameters;
PaStream* stream;
}
SoundDevice;
int sounddev_engine_update(SimDevice* this, SimData* simdata);
int sounddev_gearshift_update(SimDevice* this, SimData* simdata);
int sounddev_free(SimDevice* this);
SoundDevice* new_sound_device(DeviceSettings* ds);
/***** Generic Methods *********/
int update(SimDevice* simdevice, SimData* simdata);
int devupdate(SimDevice* simdevice, SimData* simdata);
int devinit(SimDevice* simdevice, DeviceSettings* ds);
int devinit(SimDevice* simdevices, int numdevices, DeviceSettings* ds);
int devfree(SimDevice* simdevice);
int devfree(SimDevice* simdevices, int numdevices);
int simdevfree(SimDevice* this);
#endif

101
src/monocoque/devices/sound/usb_generic_shaker.c
View File

@ -15,8 +15,7 @@
#endif
int patestCallback(const void* inputBuffer,
int patestCallbackEngineRPM(const void* inputBuffer,
void* outputBuffer,
unsigned long framesPerBuffer,
const PaStreamCallbackTimeInfo* timeInfo,
@ -36,27 +35,16 @@ int patestCallback(const void* inputBuffer,
float v = 0;
v = data->amp * sin (2 * M_PI * ((float) n) / (float) SAMPLE_RATE);
if ( data->gear_sound_data > 0 )
if (n>=data->table_size)
{
if (n>=1764)
{
n=0;
}
}
else
{
if (n>=data->table_size)
{
n=0;
}
n=0;
}
if ( data->gear_sound_data > 0 )
if (data->gear_sound_data > 0)
{
// right channel only?
// i have my butt hooked up to right channel... make this configurable?
*out++ = v;
*out++ = 0;
*out++ = 0;
}
else
{
@ -65,6 +53,50 @@ int patestCallback(const void* inputBuffer,
}
}
data->gear_sound_data = 0;
data->n=n;
return 0;
}
int patestCallbackGearShift(const void* inputBuffer,
void* outputBuffer,
unsigned long framesPerBuffer,
const PaStreamCallbackTimeInfo* timeInfo,
PaStreamCallbackFlags statusFlags,
void* userData)
{
PATestData* data = (PATestData*)userData;
float* out = (float*)outputBuffer;
memset(out, 0, framesPerBuffer * 2 * sizeof(float));
unsigned int i;
unsigned int n;
n = data->n;
(void) inputBuffer; /* Prevent unused argument warning. */
for( i=0; i<framesPerBuffer; i++,n++ )
{
float v = 0;
v = data->amp * sin (2 * M_PI * ((float) n) / (float) SAMPLE_RATE);
if (n>=data->table_size)
{
n=0;
}
if(data->gear_sound_data > 0)
{
*out++ = v;
*out++ = v;
}
else
{
*out++ = 0;
*out++ = 0;
}
}
data->gear_sound_data = 0;
data->n=n;
return 0;
}
@ -97,14 +129,28 @@ int usb_generic_shaker_init(SoundDevice* sounddevice)
sounddevice->outputParameters.suggestedLatency = Pa_GetDeviceInfo( sounddevice->outputParameters.device )->defaultLowOutputLatency;
sounddevice->outputParameters.hostApiSpecificStreamInfo = NULL;
err = Pa_OpenStream( &sounddevice->stream,
NULL, /* No input. */
&sounddevice->outputParameters, /* As above. */
SAMPLE_RATE,
440, /* Frames per buffer. */
paClipOff, /* No out of range samples expected. */
patestCallback,
&sounddevice->sounddata );
if (sounddevice->effecttype == SOUNDEFFECT_GEARSHIFT)
{
err = Pa_OpenStream( &sounddevice->stream,
NULL, /* No input. */
&sounddevice->outputParameters, /* As above. */
SAMPLE_RATE,
440, /* Frames per buffer. */
paClipOff, /* No out of range samples expected. */
patestCallbackGearShift,
&sounddevice->sounddata );
}
else
{
err = Pa_OpenStream( &sounddevice->stream,
NULL, /* No input. */
&sounddevice->outputParameters, /* As above. */
SAMPLE_RATE,
440, /* Frames per buffer. */
paClipOff, /* No out of range samples expected. */
patestCallbackEngineRPM,
&sounddevice->sounddata );
}
if( err != paNoError )
{
goto error;
@ -121,8 +167,5 @@ int usb_generic_shaker_init(SoundDevice* sounddevice)
error:
Pa_Terminate();
//fprintf( stderr, "An error occured while using the portaudio stream\n" );
//fprintf( stderr, "Error number: %d\n", err );
//fprintf( stderr, "Error message: %s\n", Pa_GetErrorText( err ) );
return err;
}

3
src/monocoque/devices/sound/usb_generic_shaker.h
View File

@ -1,7 +1,8 @@
#ifndef _USB_GENERIC_SHAKER_H
#define _USB_GENERIC_SHAKER_H
#include "../sounddevice.h"
//#include "../sounddevice.h"
#include "../simdevice.h"
int usb_generic_shaker_init(SoundDevice* sounddevice);
int usb_generic_shaker_free(SoundDevice* sounddevice);

88
src/monocoque/devices/sounddevice.c
View File

@ -1,26 +1,52 @@
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <stdio.h>
#include <unistd.h>
#include "simdevice.h"
#include "sounddevice.h"
#include "sound/usb_generic_shaker.h"
#include "../simulatorapi/simdata.h"
#include "../helper/parameters.h"
#include "../slog/slog.h"
int sounddev_update(SoundDevice* sounddevice, SimData* simdata)
int gear_sound_set(SoundDevice* sounddevice, SimData* simdata)
{
sounddevice->sounddata.table_size = 44100/(simdata->rpms/60);
sounddevice->sounddata.gear_sound_data = 0;
if (sounddevice->sounddata.last_gear != simdata->gear)
if (sounddevice->sounddata.last_gear != simdata->gear && simdata->gear != 0)
{
sounddevice->sounddata.gear_sound_data = sounddevice->sounddata.amp;
sounddevice->sounddata.gear_sound_data = 3.14;
}
sounddevice->sounddata.last_gear = simdata->gear;
}
int sounddev_free(SoundDevice* sounddevice)
// we could make a vtable for these different effects too
int sounddev_engine_update(SimDevice* this, SimData* simdata)
{
return usb_generic_shaker_free(sounddevice);
SoundDevice* sounddevice = (void *) this->derived;
gear_sound_set(sounddevice, simdata);
sounddevice->sounddata.table_size = 44100/(simdata->rpms/60);
}
int sounddev_gearshift_update(SimDevice* this, SimData* simdata)
{
SoundDevice* sounddevice = (void *) this->derived;
gear_sound_set(sounddevice, simdata);
}
int sounddev_free(SimDevice* this)
{
SoundDevice* sounddevice = (void *) this->derived;
usb_generic_shaker_free(sounddevice);
free(sounddevice);
return 0;
}
int sounddev_init(SoundDevice* sounddevice)
@ -34,5 +60,51 @@ int sounddev_init(SoundDevice* sounddevice)
sounddevice->sounddata.table_size = 44100/(100/60);
sounddevice->sounddata.last_gear = 0;
switch (sounddevice->effecttype) {
case (SOUNDEFFECT_GEARSHIFT):
sounddevice->sounddata.pitch = 500;
sounddevice->sounddata.amp = 128;
sounddevice->sounddata.left_phase = sounddevice->sounddata.right_phase = 0;
sounddevice->sounddata.table_size = 44100/(1);
break;
}
usb_generic_shaker_init(sounddevice);
}
static const vtable engine_sound_simdevice_vtable = { &sounddev_engine_update, &sounddev_free };
static const vtable gear_sound_simdevice_vtable = { &sounddev_gearshift_update, &sounddev_free };
SoundDevice* new_sound_device(DeviceSettings* ds) {
SoundDevice* this = (SoundDevice*) malloc(sizeof(SoundDevice));
this->m.update = &update;
this->m.free = &simdevfree;
this->m.derived = this;
slogt("Attempting to configure sound device with subtype: %i", ds->dev_subtype);
switch (ds->dev_subtype) {
case (SIMDEVTYPE_ENGINESOUND):
this->effecttype = SOUNDEFFECT_ENGINERPM;
this->m.vtable = &engine_sound_simdevice_vtable;
slogi("Initializing sound device for engine vibrations.");
break;
case (SIMDEVTYPE_GEARSOUND):
this->effecttype = SOUNDEFFECT_GEARSHIFT;
this->m.vtable = &gear_sound_simdevice_vtable;
slogi("Initializing sound device for gear shift vibrations.");
break;
}
int error = sounddev_init(this);
if (error != 0)
{
free(this);
return NULL;
}
return this;
}

24
src/monocoque/devices/sounddevice.h
View File

@ -3,9 +3,6 @@
#include "portaudio.h"
#include "../simulatorapi/simdata.h"
#include "../helper/parameters.h"
typedef enum
{
SOUNDDEV_UNKNOWN = 0,
@ -13,6 +10,13 @@ typedef enum
}
SoundType;
typedef enum
{
SOUNDEFFECT_ENGINERPM = 0,
SOUNDEFFECT_GEARSHIFT = 1
}
VibrationEffectType;
#define MAX_TABLE_SIZE (6000)
typedef struct
{
@ -28,18 +32,4 @@ typedef struct
}
PATestData;
typedef struct
{
int id;
SoundType type;
PATestData sounddata;
PaStreamParameters outputParameters;
PaStream* stream;
}
SoundDevice;
int sounddev_update(SoundDevice* sounddevice, SimData* simdata);
int sounddev_init(SoundDevice* sounddevice);
int sounddev_free(SoundDevice* sounddevice);
#endif

35
src/monocoque/devices/usbdevice.c
View File

@ -1,14 +1,18 @@
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdlib.h>
#include "usbdevice.h"
#include "simdevice.h"
#include "../helper/parameters.h"
#include "../simulatorapi/simdata.h"
#include "../slog/slog.h"
int usbdev_update(USBDevice* usbdevice, SimData* simdata)
int usbdev_update(SimDevice* this, SimData* simdata)
{
USBDevice* usbdevice = (void *) this->derived;
switch ( usbdevice->type )
{
case USBDEV_UNKNOWN :
@ -20,8 +24,10 @@ int usbdev_update(USBDevice* usbdevice, SimData* simdata)
return 0;
}
int usbdev_free(USBDevice* usbdevice)
int usbdev_free(SimDevice* this)
{
USBDevice* usbdevice = (void *) this->derived;
switch ( usbdevice->type )
{
case USBDEV_UNKNOWN :
@ -30,6 +36,8 @@ int usbdev_free(USBDevice* usbdevice)
break;
}
free(usbdevice);
return 0;
}
@ -37,6 +45,8 @@ int usbdev_init(USBDevice* usbdevice, DeviceSettings* ds)
{
slogi("initializing usb device...");
int error = 0;
usbdevice->type = USBDEV_TACHOMETER;
switch ( usbdevice->type )
{
case USBDEV_UNKNOWN :
@ -47,3 +57,24 @@ int usbdev_init(USBDevice* usbdevice, DeviceSettings* ds)
return error;
}
static const vtable usb_simdevice_vtable = { &usbdev_update, &usbdev_free };
USBDevice* new_usb_device(DeviceSettings* ds) {
USBDevice* this = (USBDevice*) malloc(sizeof(USBDevice));
this->m.update = &update;
this->m.free = &simdevfree;
this->m.derived = this;
this->m.vtable = &usb_simdevice_vtable;
int error = usbdev_init(this, ds);
if (error != 0)
{
free(this);
return NULL;
}
return this;
}

24
src/monocoque/devices/usbdevice.h
View File

@ -2,29 +2,5 @@
#define _USBDEVICE_H
#include "tachdevice.h"
#include "../helper/confighelper.h"
#include "../simulatorapi/simdata.h"
typedef enum
{
USBDEV_UNKNOWN = 0,
USBDEV_TACHOMETER = 1
}
USBType;
typedef struct
{
int id;
USBType type;
union
{
TachDevice tachdevice;
} u;
}
USBDevice;
int usbdev_update(USBDevice* usbdevice, SimData* simdata);
int usbdev_init(USBDevice* usbdevice, DeviceSettings* ds);
int usbdev_free(USBDevice* usbdevice);
#endif

183
src/monocoque/gameloop/gameloop.c
View File

@ -14,7 +14,7 @@
#include "../simulatorapi/simmapper.h"
#include "../slog/slog.h"
#define DEFAULT_UPDATE_RATE 120.0
#define DEFAULT_UPDATE_RATE 240.0
int showstats(SimData* simdata)
{
@ -165,7 +165,7 @@ int showstats(SimData* simdata)
fflush(stdout);
}
int looper(SimDevice* devices[], int numdevices, Simulator simulator)
int looper(SimDevice* devices, int numdevices, Simulator simulator)
{
slogi("preparing game loop with %i devices...", numdevices);
@ -179,6 +179,15 @@ int looper(SimDevice* devices[], int numdevices, Simulator simulator)
return error;
}
slogi("sending initial data to devices");
simdata->velocity = 16;
simdata->rpms = 100;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
sleep(3);
struct termios newsettings, canonicalmode;
tcgetattr(0, &canonicalmode);
newsettings = canonicalmode;
@ -191,35 +200,23 @@ int looper(SimDevice* devices[], int numdevices, Simulator simulator)
double update_rate = DEFAULT_UPDATE_RATE;
int t=0;
int s=0;
int go = true;
while (go == true)
{
simdatamap(simdata, simmap, simulator);
showstats(simdata);
t++;
if(simdata->rpms<250)
s++;
if(simdata->rpms<100)
{
simdata->rpms=250;
simdata->rpms=100;
}
for (int x = 0; x < numdevices; x++)
{
if (devices[x]->type == SIMDEV_SERIAL)
{
if(t>=update_rate)
{
devupdate(devices[x], simdata);
}
}
else
{
devupdate(devices[x], simdata);
}
devices[x].update(&devices[x], simdata);
}
if(t>=update_rate)
{
t=0;
}
if( poll(&mypoll, 1, 1000.0/update_rate) )
{
scanf("%c", &ch);
@ -233,8 +230,156 @@ int looper(SimDevice* devices[], int numdevices, Simulator simulator)
fflush(stdout);
tcsetattr(0, TCSANOW, &canonicalmode);
simdata->velocity = 0;
simdata->rpms = 100;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
free(simdata);
free(simmap);
return 0;
}
int tester(SimDevice* devices, int numdevices)
{
slogi("preparing test with %i devices...", numdevices);
SimData* simdata = malloc(sizeof(SimData));
struct termios newsettings, canonicalmode;
tcgetattr(0, &canonicalmode);
newsettings = canonicalmode;
newsettings.c_lflag &= (~ICANON & ~ECHO);
newsettings.c_cc[VMIN] = 1;
newsettings.c_cc[VTIME] = 0;
tcsetattr(0, TCSANOW, &newsettings);
fprintf(stdout, "\n");
simdata->gear = 0;
simdata->velocity = 16;
simdata->rpms = 100;
simdata->maxrpm = 8000;
sleep(3);
fprintf(stdout, "Setting rpms to 1000\n");
simdata->rpms = 1000;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
sleep(3);
fprintf(stdout, "Shifting into first gear\n");
simdata->gear = 1;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
sleep(3);
fprintf(stdout, "Setting speed to 100\n");
simdata->velocity = 100;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
sleep(3);
fprintf(stdout, "Shifting into second gear\n");
simdata->gear = 2;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
sleep(3);
fprintf(stdout, "Setting speed to 200\n");
simdata->velocity = 200;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
sleep(3);
fprintf(stdout, "Shifting into third gear\n");
simdata->gear = 3;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
sleep(3);
fprintf(stdout, "Setting rpms to 2000\n");
simdata->rpms = 2000;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
sleep(3);
fprintf(stdout, "Setting rpms to 4000\n");
simdata->rpms = 4000;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
sleep(3);
fprintf(stdout, "Shifting into fourth gear\n");
simdata->gear = 4;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
sleep(3);
fprintf(stdout, "Setting speed to 300\n");
simdata->velocity = 300;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
sleep(3);
fprintf(stdout, "Setting rpms to 8000\n");
simdata->rpms = 8000;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
sleep(3);
simdata->velocity = 0;
simdata->rpms = 100;
for (int x = 0; x < numdevices; x++)
{
devices[x].update(&devices[x], simdata);
}
sleep(1);
fflush(stdout);
tcsetattr(0, TCSANOW, &canonicalmode);
free(simdata);
return 0;
}

3
src/monocoque/gameloop/gameloop.h
View File

@ -1,4 +1,5 @@
#include "../devices/simdevice.h"
#include "../helper/parameters.h"
int looper (SimDevice* devices[], int numdevices, Simulator simulator);
int tester(SimDevice* devices, int numdevices);
int looper (SimDevice* devices, int numdevices, Simulator simulator);

2
src/monocoque/gameloop/tachconfig.c
View File

@ -183,7 +183,7 @@ int config_tachometer(int max_revs, int granularity, const char* save_file, SimD
WriteXmlFromArrays(nodes, rpm_array, values_array, max_revs, save_file);
sleep(2);
simdata->pulses = 0;
devupdate(simdevice, simdata);
simdevice->update(simdevice, simdata);
fflush(stdout);
return 0;

142
src/monocoque/helper/confighelper.c
View File

@ -2,6 +2,7 @@
#include <stdbool.h>
#include <string.h>
#include <stdint.h>
#include <ctype.h>
#include <libxml/parser.h>
#include <libxml/xmlreader.h>
@ -11,21 +12,32 @@
#include "../slog/slog.h"
int strcicmp(char const *a, char const *b)
{
for (;; a++, b++) {
int d = tolower((unsigned char)*a) - tolower((unsigned char)*b);
if (d != 0 || !*a)
return d;
}
}
int strtogame(const char* game, MonocoqueSettings* ms)
{
slogd("Checking for %s in list of supported simulators.", game);
if (strcmp(game, "ac") == 0)
if (strcicmp(game, "ac") == 0)
{
slogd("Setting simulator to Assetto Corsa");
ms->sim_name = SIMULATOR_ASSETTO_CORSA;
}
else if (strcmp(game, "rf2") == 0)
else if (strcicmp(game, "rf2") == 0)
{
slogd("Setting simulator to RFactor 2");
ms->sim_name = SIMULATOR_RFACTOR2;
}
else
if (strcmp(game, "test") == 0)
if (strcicmp(game, "test") == 0)
{
slogd("Setting simulator to Test Data");
ms->sim_name = SIMULATOR_MONOCOQUE_TEST;
@ -38,22 +50,68 @@ int strtogame(const char* game, MonocoqueSettings* ms)
return MONOCOQUE_ERROR_NONE;
}
int strtodev(const char* device_type, DeviceSettings* ds)
int strtodevsubtype(const char* device_subtype, DeviceSettings* ds, int simdev)
{
ds->is_valid = false;
if (strcmp(device_type, "USB") == 0)
ds->dev_subtype = SIMDEVTYPE_UNKNOWN;
switch (simdev) {
case SIMDEV_USB:
if (strcicmp(device_subtype, "Tachometer") == 0)
{
ds->dev_subtype = SIMDEVTYPE_TACHOMETER;
break;
}
case SIMDEV_SERIAL:
if (strcicmp(device_subtype, "ShiftLights") == 0)
{
ds->dev_subtype = SIMDEVTYPE_SHIFTLIGHTS;
break;
}
if (strcicmp(device_subtype, "SimWind") == 0)
{
ds->dev_subtype = SIMDEVTYPE_SIMWIND;
break;
}
case SIMDEV_SOUND:
if (strcicmp(device_subtype, "Engine") == 0)
{
ds->dev_subtype = SIMDEVTYPE_ENGINESOUND;
break;
}
if (strcicmp(device_subtype, "Gear") == 0)
{
ds->dev_subtype = SIMDEVTYPE_GEARSOUND;
break;
}
default:
ds->is_valid = false;
slogw("%s does not appear to be a valid device sub type, but attempting to continue with other devices", device_subtype);
return MONOCOQUE_ERROR_INVALID_DEV;
}
ds->is_valid = true;
return MONOCOQUE_ERROR_NONE;
}
int strtodev(const char* device_type, const char* device_subtype, DeviceSettings* ds)
{
ds->is_valid = false;
if (strcicmp(device_type, "USB") == 0)
{
ds->dev_type = SIMDEV_USB;
strtodevsubtype(device_subtype, ds, SIMDEV_USB);
}
else
if (strcmp(device_type, "Sound") == 0)
if (strcicmp(device_type, "Sound") == 0)
{
ds->dev_type = SIMDEV_SOUND;
strtodevsubtype(device_subtype, ds, SIMDEV_SOUND);
}
else
if (strcmp(device_type, "Serial") == 0)
if (strcicmp(device_type, "Serial") == 0)
{
ds->dev_type = SIMDEV_SERIAL;
strtodevsubtype(device_subtype, ds, SIMDEV_SERIAL);
}
else
{
@ -65,33 +123,6 @@ int strtodev(const char* device_type, DeviceSettings* ds)
return MONOCOQUE_ERROR_NONE;
}
int strtodevtype(const char* device_subtype, DeviceSettings* ds)
{
ds->is_valid = false;
if (strcmp(device_subtype, "Tachometer") == 0)
{
ds->dev_subtype = SIMDEVTYPE_TACHOMETER;
}
else
if (strcmp(device_subtype, "ShiftLights") == 0)
{
ds->dev_subtype = SIMDEVTYPE_SHIFTLIGHTS;
}
else
if (strcmp(device_subtype, "Shaker") == 0)
{
ds->dev_subtype = SIMDEVTYPE_SHAKER;
}
else
{
ds->is_valid = false;
slogi("%s does not appear to be a valid device sub type, but attempting to continue with other devices", device_subtype);
return MONOCOQUE_ERROR_INVALID_DEV;
}
ds->is_valid = true;
return MONOCOQUE_ERROR_NONE;
}
int loadtachconfig(const char* config_file, DeviceSettings* ds)
{
@ -131,7 +162,7 @@ int loadtachconfig(const char* config_file, DeviceSettings* ds)
{
slogt("Xml Element name %s", cursubsubnode->name);
}
if (strcmp(cursubsubnode->name, "SettingsItem") == 0)
if (strcicmp(cursubsubnode->name, "SettingsItem") == 0)
{
arraysize++;
}
@ -153,13 +184,13 @@ int loadtachconfig(const char* config_file, DeviceSettings* ds)
{
for (cursubsubsubnode = cursubsubnode->children; cursubsubsubnode; cursubsubsubnode = cursubsubsubnode->next)
{
if (strcmp(cursubsubsubnode->name, "Value") == 0)
if (strcicmp(cursubsubsubnode->name, "Value") == 0)
{
xmlChar* a = xmlNodeGetContent(cursubsubsubnode);
rpms_array[i] = strtol((char*) a, &buf, 10);
xmlFree(a);
}
if (strcmp(cursubsubsubnode->name, "TimeValue") == 0)
if (strcicmp(cursubsubsubnode->name, "TimeValue") == 0)
{
xmlChar* a = xmlNodeGetContent(cursubsubsubnode);
pulses_array[i] = strtol((char*) a, &buf, 10);
@ -199,18 +230,14 @@ int devsetup(const char* device_type, const char* device_subtype, const char* co
int error = MONOCOQUE_ERROR_NONE;
slogi("Called device setup with %s %s %s", device_type, device_subtype, config_file);
ds->dev_type = SIMDEV_UNKNOWN;
ds->dev_subtype = SIMDEVTYPE_UNKNOWN;
error = strtodev(device_type, ds);
error = strtodev(device_type, device_subtype, ds);
if (error != MONOCOQUE_ERROR_NONE)
{
return error;
}
error = strtodevtype(device_subtype, ds);
if (error != MONOCOQUE_ERROR_NONE)
{
return error;
}
if (ms->program_action == A_PLAY)
if (ms->program_action == A_PLAY || ms->program_action == A_TEST)
{
error = loadconfig(config_file, ds);
}
@ -232,11 +259,34 @@ int devsetup(const char* device_type, const char* device_subtype, const char* co
slogi("Tachometer granularity set to %i", ds->tachsettings.granularity);
}
ds->tachsettings.use_pulses = true;
if (ms->program_action == A_PLAY)
if (ms->program_action == A_PLAY || ms->program_action == A_TEST)
{
ds->tachsettings.use_pulses = false;
}
}
if (ds->dev_subtype == SIMDEVTYPE_SIMWIND || ds->dev_subtype == SIMDEVTYPE_SHIFTLIGHTS)
{
if (device_settings != NULL)
{
const char* temp;
config_setting_lookup_string(device_settings, "devpath", &temp);
ds->serialdevsettings.portdev = strdup(temp);
}
}
return error;
}
int settingsfree(DeviceSettings ds)
{
if (ds.dev_subtype == SIMDEVTYPE_SIMWIND || ds.dev_subtype == SIMDEVTYPE_SHIFTLIGHTS)
{
if (ds.serialdevsettings.portdev != NULL)
{
free(ds.serialdevsettings.portdev);
}
}
return 0;
}

15
src/monocoque/helper/confighelper.h
View File

@ -21,8 +21,10 @@ typedef enum
{
SIMDEVTYPE_UNKNOWN = 0,
SIMDEVTYPE_TACHOMETER = 1,
SIMDEVTYPE_SHAKER = 2,
SIMDEVTYPE_SHIFTLIGHTS = 3
SIMDEVTYPE_SHIFTLIGHTS = 2,
SIMDEVTYPE_SIMWIND = 3,
SIMDEVTYPE_ENGINESOUND = 4,
SIMDEVTYPE_GEARSOUND = 5
}
DeviceSubType;
@ -74,12 +76,19 @@ typedef struct
}
TachometerSettings;
typedef struct
{
char* portdev;
}
SerialDeviceSettings;
typedef struct
{
bool is_valid;
DeviceType dev_type;
DeviceSubType dev_subtype;
TachometerSettings tachsettings;
SerialDeviceSettings serialdevsettings;
}
DeviceSettings;
@ -87,4 +96,6 @@ int strtogame(const char* game, MonocoqueSettings* ms);
int devsetup(const char* device_type, const char* device_subtype, const char* config_files, MonocoqueSettings* ms, DeviceSettings* ds, config_setting_t* device_settings);
int settingsfree(DeviceSettings ds);
#endif

22
src/monocoque/helper/parameters.c
View File

@ -23,6 +23,7 @@ ConfigError getParameters(int argc, char** argv, Parameters* p)
struct arg_lit* arg_verbosity1 = arg_litn("v","verbose", 0, 2, "increase logging verbosity");
struct arg_lit* arg_verbosity2 = arg_litn("v","verbose", 0, 2, "increase logging verbosity");
struct arg_lit* arg_verbosity3 = arg_litn("v","verbose", 0, 2, "increase logging verbosity");
struct arg_rex* cmd1 = arg_rex1(NULL, NULL, "play", NULL, REG_ICASE, NULL);
struct arg_str* arg_sim = arg_strn("s", "sim", "<gamename>", 0, 1, NULL);
@ -43,6 +44,13 @@ ConfigError getParameters(int argc, char** argv, Parameters* p)
void* argtable2[] = {cmd2a,cmd2b,arg_max_revs,arg_granularity,arg_save,arg_verbosity2,help2,vers2,end2};
int nerrors2;
struct arg_rex* cmd3 = arg_rex1(NULL, NULL, "test", NULL, REG_ICASE, NULL);
struct arg_lit* help3 = arg_litn(NULL,"help", 0, 1, "print this help and exit");
struct arg_lit* vers3 = arg_litn(NULL,"version", 0, 1, "print version information and exit");
struct arg_end* end3 = arg_end(20);
void* argtable3[] = {cmd3,arg_verbosity3,help3,vers3,end3};
int nerrors3;
struct arg_lit* help0 = arg_lit0(NULL,"help", "print this help and exit");
struct arg_lit* version0 = arg_lit0(NULL,"version", "print version information and exit");
struct arg_end* end0 = arg_end(20);
@ -70,6 +78,7 @@ ConfigError getParameters(int argc, char** argv, Parameters* p)
nerrors0 = arg_parse(argc,argv,argtable0);
nerrors1 = arg_parse(argc,argv,argtable1);
nerrors2 = arg_parse(argc,argv,argtable2);
nerrors3 = arg_parse(argc,argv,argtable3);
if (nerrors1==0)
{
@ -92,6 +101,11 @@ ConfigError getParameters(int argc, char** argv, Parameters* p)
p->verbosity_count = arg_verbosity2->count;
exitcode = E_SUCCESS_AND_DO;
}
else if (nerrors3==0)
{
p->program_action = A_TEST;
exitcode = E_SUCCESS_AND_DO;
}
else
{
if (cmd1->count > 0)
@ -111,12 +125,13 @@ ConfigError getParameters(int argc, char** argv, Parameters* p)
{
if (help->count==0 && vers->count==0)
{
printf("%s: missing <play|config> command.\n",progname);
printf("%s: missing <play|config|test> command.\n",progname);
printf("Usage 1: %s ", progname);
arg_print_syntax(stdout,argtable1,"\n");
printf("Usage 2: %s ", progname);
arg_print_syntax(stdout,argtable2,"\n");
printf("Usage 3: %s ", progname);
arg_print_syntax(stdout,argtable3,"\n");
}
}
exitcode = E_SUCCESS_AND_EXIT;
@ -131,6 +146,8 @@ ConfigError getParameters(int argc, char** argv, Parameters* p)
arg_print_syntax(stdout,argtable1,"\n");
printf("Usage 2: %s ", progname);
arg_print_syntax(stdout,argtable2,"\n");
printf("Usage 3: %s ", progname);
arg_print_syntax(stdout,argtable3,"\n");
printf("\nReport bugs on the github github.com/spacefreak18/monocoque.\n");
exitcode = E_SUCCESS_AND_EXIT;
goto cleanup;
@ -148,6 +165,7 @@ cleanup:
arg_freetable(argtable0,sizeof(argtable0)/sizeof(argtable0[0]));
arg_freetable(argtable1,sizeof(argtable1)/sizeof(argtable1[0]));
arg_freetable(argtable2,sizeof(argtable2)/sizeof(argtable2[0]));
arg_freetable(argtable3,sizeof(argtable3)/sizeof(argtable3[0]));
return exitcode;
}

5
src/monocoque/helper/parameters.h
View File

@ -15,8 +15,9 @@ Parameters;
typedef enum
{
A_PLAY = 0,
A_CONFIG_TACH = 1,
A_CONFIG_SHAKER = 2
A_TEST = 1,
A_CONFIG_TACH = 2,
A_CONFIG_SHAKER = 3
}
ProgramAction;

96
src/monocoque/monocoque.c
View File

@ -113,9 +113,8 @@ int main(int argc, char** argv)
SimDevice* tachdev = malloc(sizeof(SimDevice));
SimData* sdata = malloc(sizeof(SimData));
DeviceSettings* ds = malloc(sizeof(DeviceSettings));
error = devsetup("USB", "Tachometer", "None", ms, ds, NULL);
error = devinit(tachdev, ds);
slogi("configuring tachometer with max revs: %i, granularity: %i, saving to %s", p->max_revs, p->granularity, p->save_file);
if (error != MONOCOQUE_ERROR_NONE)
{
@ -123,33 +122,37 @@ int main(int argc, char** argv)
}
else
{
error = devinit(tachdev, 1, ds);
}
if (error != MONOCOQUE_ERROR_NONE)
{
sloge("Could not proceed with tachometer configuration due to error: %i", error);
}
else
{
slogi("configuring tachometer with max revs: %i, granularity: %i, saving to %s", p->max_revs, p->granularity, p->save_file);
config_tachometer(p->max_revs, p->granularity, p->save_file, tachdev, sdata);
}
devfree(tachdev);
free(tachdev);
devfree(tachdev, 1);
//free(tachdev);
free(sdata);
free(ds);
}
else
{
slogi("running monocoque in gameloop mode..");
int error = 0;
error = strtogame(p->sim_string, ms);
if (error != MONOCOQUE_ERROR_NONE)
{
goto cleanup_final;
}
int error = 0;
int configureddevices = config_setting_length(config_devices);
int numdevices = 0;
DeviceSettings* ds[configureddevices];
DeviceSettings ds[configureddevices];
slogi("found %i devices in configuration", configureddevices);
int i = 0;
while (i<configureddevices)
{
error = MONOCOQUE_ERROR_NONE;
DeviceSettings* settings = malloc(sizeof(DeviceSettings));
DeviceSettings settings;
ds[i] = settings;
config_setting_t* config_device = config_setting_get_elem(config_devices, i);
const char* device_type;
@ -161,7 +164,7 @@ int main(int argc, char** argv)
if (error == MONOCOQUE_ERROR_NONE)
{
error = devsetup(device_type, device_subtype, device_config_file, ms, ds[i], config_device);
error = devsetup(device_type, device_subtype, device_config_file, ms, &ds[i], config_device);
}
if (error == MONOCOQUE_ERROR_NONE)
{
@ -175,47 +178,52 @@ int main(int argc, char** argv)
i = 0;
int j = 0;
error = MONOCOQUE_ERROR_NONE;
SimDevice* devices[numdevices];
while (i<configureddevices)
{
if (ds[i]->is_valid == true)
{
SimDevice* device = malloc(sizeof(SimDevice));
devinit(device, ds[i]);
devices[j] = device;
j++;
}
i++;
}
SimDevice* devices = malloc(numdevices * sizeof(SimDevice));
int initdevices = devinit(devices, configureddevices, ds);
error = looper(devices, numdevices, ms->sim_name);
if (error == MONOCOQUE_ERROR_NONE)
if (p->program_action == A_PLAY)
{
slogi("Game loop exited succesfully with error code: %i", error);
slogi("running monocoque in gameloop mode..");
error = strtogame(p->sim_string, ms);
if (error != MONOCOQUE_ERROR_NONE)
{
goto cleanup_final;
}
error = looper(devices, initdevices, ms->sim_name);
if (error == MONOCOQUE_ERROR_NONE)
{
slogi("Game loop exited succesfully with error code: %i", error);
}
else
{
sloge("Game loop exited with error code: %i", error);
}
}
else
{
sloge("Game loop exited with error code: %i", error);
}
i = 0;
while (i<configureddevices)
{
if(ds[i]->dev_subtype == SIMDEV_USB)
slogi("running monocoque in test mode...");
error = tester(devices, initdevices);
if (error == MONOCOQUE_ERROR_NONE)
{
free(ds[i]->tachsettings.pulses_array);
free(ds[i]->tachsettings.rpms_array);
slogi("Test exited succesfully with error code: %i", error);
}
else
{
sloge("Test exited with error code: %i", error);
}
free(ds[i]);
i++;
}
devfree(devices, initdevices);
i = 0;
while (i<numdevices)
// improve the api around the config helper
// i don't like that i stack allocated but hid a malloc inside
for( i = 0; i < configureddevices; i++)
{
devfree(devices[i]);
free(devices[i]);
i++;
settingsfree(ds[i]);
}
}

4
udev/69-monocoque.rules
View File

@ -1 +1,5 @@
SUBSYSTEMS=="usb",ATTRS{product}=="Rev Burner",GROUP="input",TAG+="uaccess"
SUBSYSTEM=="tty", ATTRS{idVendor}=="2341", ATTRS{idProduct}=="0043", ATTRS{serial}=="75033303335351A080F0", SYMLINK+="simdev0", GROUP="input", TAG+="uaccess"
SUBSYSTEM=="tty", ATTRS{idVendor}=="2341", ATTRS{idProduct}=="0043", ATTRS{serial}=="242303138313514131F1", SYMLINK+="simdev1", GROUP="input", TAG+="uaccess"