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More mouse updates - not working yet.

ugfx_release_2.6
inmarket 2014-09-16 10:06:59 +10:00
parent eaf1909c56
commit 6f8845e86c
4 changed files with 228 additions and 252 deletions
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2
src/gdisp/driver.h
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@ -287,7 +287,7 @@ struct GDisplay {
}; };
typedef struct GDISPVMT { typedef struct GDISPVMT {
GDriverVMT vmtdriver; GDriverVMT d;
bool_t (*init)(GDisplay *g); bool_t (*init)(GDisplay *g);
void (*deinit)(GDisplay *g); void (*deinit)(GDisplay *g);
void (*writestart)(GDisplay *g); // Uses p.x,p.y p.cx,p.cy void (*writestart)(GDisplay *g); // Uses p.x,p.y p.cx,p.cy

90
src/ginput/driver_mouse.h
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@ -19,55 +19,57 @@
#if GINPUT_NEED_MOUSE || defined(__DOXYGEN__) #if GINPUT_NEED_MOUSE || defined(__DOXYGEN__)
typedef struct MouseReading { // Include the GDRIVER infrastructure
#include "src/gdriver/sys_defs.h"
typedef struct GMouseReading {
coord_t x, y, z; coord_t x, y, z;
uint16_t buttons; uint16_t buttons;
} MouseReading; } GMouseReading;
#if !GINPUT_TOUCH_NOCALIBRATE #if !GINPUT_TOUCH_NOCALIBRATE
typedef struct MouseCalibration { typedef struct GMouseCalibration {
float ax; float ax;
float bx; float bx;
float cx; float cx;
float ay; float ay;
float by; float by;
float cy; float cy;
} MouseCalibration; } GMouseCalibration;
#endif #endif
typedef struct MouseInstance { typedef struct GMouse {
struct MouseInstance * next; // The next mouse instance GDriver d; // The driver overheads and vmt
const struct MOUSEVMT * vmt; // The mouse VMT GMouseReading r; // The current position and state
MouseReading r; // The current position and state
uint16_t flags; // Flags uint16_t flags; // Flags
#define GMOUSE_FLG_ACTIVE 0x0001 // Mouse is currently active #define GMOUSE_FLG_ACTIVE 0x0001 // Mouse is currently active
#define GMOUSE_FLG_DYNAMIC 0x0002 // Mouse is dynamically allocated #define GMOUSE_FLG_CLICK_TIMER 0x0002 // Currently timing a click event
#define GMOUSE_FLG_CLICK_TIMER 0x0004 // Currently timing a click event #define GMOUSE_FLG_INDELTA 0x0004 // Currently in a up/down transition test
#define GMOUSE_FLG_INDELTA 0x0008 // Currently in a up/down transition test #define GMOUSE_FLG_CLIP 0x0008 // Clip reading to the display
#define GMOUSE_FLG_CLIP 0x0010 // Clip reading to the display #define GMOUSE_FLG_CALIBRATE 0x0010 // Calibrate readings
#define GMOUSE_FLG_CALIBRATE 0x0020 // Calibrate readings #define GMOUSE_FLG_CAL_INPROGRESS 0x0020 // Calibrate is currently in progress
#define GMOUSE_FLG_CAL_INPROGRESS 0x0040 // Calibrate is currently in progress #define GMOUSE_FLG_CAL_SAVED 0x0040 // Calibration has been saved
#define GMOUSE_FLG_CAL_SAVED 0x0080 // Calibration has been saved #define GMOUSE_FLG_FINGERMODE 0x0080 // Mouse is currently in finger mode
#define GMOUSE_FLG_FINGERMODE 0x0100 // Mouse is currently in finger mode #define GMOUSE_FLG_NEEDREAD 0x0100 // The mouse needs reading
point clickpos; // The position of the last click event point clickpos; // The position of the last click event
systemticks_t clicktime; // The time of the last click event systemticks_t clicktime; // The time of the last click event
GDisplay * display; // The display the mouse is associated with GDisplay * display; // The display the mouse is associated with
void * param; // A variable for private driver use
#if !GINPUT_TOUCH_NOCALIBRATE #if !GINPUT_TOUCH_NOCALIBRATE
GMouseCalibrationSaveRoutine fnsavecal; // The calibration load routine GMouseCalibrationSaveRoutine fnsavecal; // The calibration load routine
GMouseCalibrationLoadRoutine fnloadcal; // The calibration save routine GMouseCalibrationLoadRoutine fnloadcal; // The calibration save routine
MouseCalibration caldata; // The calibration data MouseCalibration caldata; // The calibration data
#endif #endif
} MouseInstance; // Other driver specific fields may follow.
} GMouse;
typedef struct MouseJitter { typedef struct GMouseJitter {
coord_t calibrate; // Maximum error for a calibration to succeed coord_t calibrate; // Maximum error for a calibration to succeed
coord_t click; // Movement allowed without discarding the CLICK or CLICKCXT event coord_t click; // Movement allowed without discarding the CLICK or CLICKCXT event
coord_t move; // Movement allowed without discarding the MOVE event coord_t move; // Movement allowed without discarding the MOVE event
} MouseJitter; } GMouseJitter;
typedef struct MOUSEVMT { typedef struct GMouseVMT {
uint16_t flags; // Device flags GDriverVMT d; // Device flags are part of the general vmt
#define GMOUSE_VFLG_TOUCH 0x0001 // This is a touch device (rather than a mouse). Button 1 is calculated from z value. #define GMOUSE_VFLG_TOUCH 0x0001 // This is a touch device (rather than a mouse). Button 1 is calculated from z value.
#define GMOUSE_VFLG_NOPOLL 0x0002 // Do not poll this device - it is purely interrupt driven #define GMOUSE_VFLG_NOPOLL 0x0002 // Do not poll this device - it is purely interrupt driven
#define GMOUSE_VFLG_SELFROTATION 0x0004 // This device returns readings that are aligned with the display orientation #define GMOUSE_VFLG_SELFROTATION 0x0004 // This device returns readings that are aligned with the display orientation
@ -82,17 +84,16 @@ typedef struct MOUSEVMT {
coord_t z_touchon; // TOUCH: z values between z_max and this are a solid touch on coord_t z_touchon; // TOUCH: z values between z_max and this are a solid touch on
coord_t z_touchoff; // TOUCH: z values between z_min and this are a solid touch off coord_t z_touchoff; // TOUCH: z values between z_min and this are a solid touch off
MouseJitter pen_jitter; // PEN MODE: Jitter settings GMouseJitter pen_jitter; // PEN MODE: Jitter settings
MouseJitter finger_jitter; // FINGER MODE: Jitter settings GMouseJitter finger_jitter; // FINGER MODE: Jitter settings
void (*init)((MouseInstance *pmouse); // Required bool_t (*init)(GMouse *m); // Required
void (*get)(MouseInstance *pmouse, MouseReading *prd); // Required void (*get)(GMouse *m, GMouseReading *prd); // Required
void (*cal_save)(MouseInstance *pmouse, void *buf, size_t sz); // Optional void (*calsave)(GMouse *m, void *buf, size_t sz); // Optional
const char *(*cal_load)(MouseInstance *pmouse); // Optional: Can return NULL if no data is saved. const char *(*calload)(GMouse *m); // Optional: Can return NULL if no data is saved. Buffer is automatically gfxFree()'d afterwards.
// Buffer is gfxFree()'d afterwards. } GMouseVMT;
} MOUSEVMT;
#include "ginput_lld_mouse_config.h" #define gmvmt(m) ((const GMouseVMT const *)((m)->d.vmt))
/*===========================================================================*/ /*===========================================================================*/
/* External declarations. */ /* External declarations. */
@ -101,29 +102,6 @@ typedef struct MOUSEVMT {
#ifdef __cplusplus #ifdef __cplusplus
extern "C" { extern "C" {
#endif #endif
/**
* @brief Get a new empty mouse instance and assign it this VMT and display
* @note This routine is provided to low level drivers by the high level code.
* @note This routine is designed for displays that have their own dedicated mouse
* eg. Win32, X, uGFXnet.
* The display driver will during initialisation call this routine to associate
* itself with a mouse.
*
* @notapi
*/
MouseInstance *ginputMouseGetNewMouseForDisplay(const MOUSEVMT *vmt, GDisplay *g);
/**
* @brief Release a mouse
* @note This routine is provided to low level drivers by the high level code.
* @note This routine is designed for displays that have their own dedicated mouse
* eg. Win32, X, uGFXnet.
* When the display has finished with the mouse it can release it.
*
* @notapi
*/
void ginputMouseGetNewMouseForDisplay(MouseIntance *pmouse);
/** /**
* @brief Wakeup the high level code so that it attempts another read * @brief Wakeup the high level code so that it attempts another read
* *
@ -131,7 +109,7 @@ extern "C" {
* *
* @notapi * @notapi
*/ */
void ginputMouseWakeup(void); void ginputMouseWakeup(GMouse *m);
/** /**
* @brief Wakeup the high level code so that it attempts another read * @brief Wakeup the high level code so that it attempts another read
@ -141,7 +119,7 @@ extern "C" {
* @iclass * @iclass
* @notapi * @notapi
*/ */
void ginputMouseWakeupI(void); void ginputMouseWakeupI(GMouse *m);
#ifdef __cplusplus #ifdef __cplusplus
} }

387
src/ginput/ginput_mouse.c
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@ -26,24 +26,22 @@
#include <string.h> // Required for memcpy #include <string.h> // Required for memcpy
#define GINPUT_MOUSE_CALIBRATION_FONT "* Double" #define CALIBRATION_FONT "* Double"
#define GINPUT_MOUSE_CALIBRATION_FONT2 "* Narrow" #define CALIBRATION_FONT2 "* Narrow"
#define GINPUT_MOUSE_CALIBRATION_TEXT "Calibration" #define CALIBRATION_TEXT "Calibration"
#define GINPUT_MOUSE_CALIBRATION_ERROR_TEXT "Failed - Please try again!" #define CALIBRATION_ERROR_TEXT "Failed - Please try again!"
#define GINPUT_MOUSE_CALIBRATION_SAME_TEXT "Error: Same Reading - Check Driver!" #define CALIBRATION_SAME_TEXT "Error: Same Reading - Check Driver!"
#define CALIBRATION_BACKGROUND Blue
#define CALIBRATION_COLOR1 White
#define CALIBRATION_COLOR2 RGB2COLOR(184,158,131)
#if GINPUT_MOUSE_MAX_CALIBRATION_ERROR < 0 #endif
#define GINPUT_MOUSE_CALIBRATION_POINTS 3
#else
#define GINPUT_MOUSE_CALIBRATION_POINTS 4
#endif
endif
static GTIMER_DECL(MouseTimer); static GTIMER_DECL(MouseTimer);
#if !GINPUT_TOUCH_NOCALIBRATE #if !GINPUT_TOUCH_NOCALIBRATE
static inline void _tsSetIdentity(MouseCalibration *c) { /*
static inline void CalibrationSetIdentity(MouseCalibration *c) {
c->ax = 1; c->ax = 1;
c->bx = 0; c->bx = 0;
c->cx = 0; c->cx = 0;
@ -51,150 +49,142 @@ static GTIMER_DECL(MouseTimer);
c->by = 1; c->by = 1;
c->cy = 0; c->cy = 0;
} }
*/
static inline void _tsDrawCross(const point *pp) { static inline void CalibrationCrossDraw(GMouse *m, const point *pp) {
gdispGDrawLine(MouseConfig.display, pp->x-15, pp->y, pp->x-2, pp->y, White); gdispGDrawLine(m->display, pp->x-15, pp->y, pp->x-2, pp->y, CALIBRATION_COLOR1);
gdispGDrawLine(MouseConfig.display, pp->x+2, pp->y, pp->x+15, pp->y, White); gdispGDrawLine(m->display, pp->x+2, pp->y, pp->x+15, pp->y, CALIBRATION_COLOR1);
gdispGDrawLine(MouseConfig.display, pp->x, pp->y-15, pp->x, pp->y-2, White); gdispGDrawLine(m->display, pp->x, pp->y-15, pp->x, pp->y-2, CALIBRATION_COLOR1);
gdispGDrawLine(MouseConfig.display, pp->x, pp->y+2, pp->x, pp->y+15, White); gdispGDrawLine(m->display, pp->x, pp->y+2, pp->x, pp->y+15, CALIBRATION_COLOR1);
gdispGDrawLine(m->display, pp->x-15, pp->y+15, pp->x-7, pp->y+15, CALIBRATION_COLOR2);
gdispGDrawLine(MouseConfig.display, pp->x-15, pp->y+15, pp->x-7, pp->y+15, RGB2COLOR(184,158,131)); gdispGDrawLine(m->display, pp->x-15, pp->y+7, pp->x-15, pp->y+15, CALIBRATION_COLOR2);
gdispGDrawLine(MouseConfig.display, pp->x-15, pp->y+7, pp->x-15, pp->y+15, RGB2COLOR(184,158,131)); gdispGDrawLine(m->display, pp->x-15, pp->y-15, pp->x-7, pp->y-15, CALIBRATION_COLOR2);
gdispGDrawLine(m->display, pp->x-15, pp->y-7, pp->x-15, pp->y-15, CALIBRATION_COLOR2);
gdispGDrawLine(MouseConfig.display, pp->x-15, pp->y-15, pp->x-7, pp->y-15, RGB2COLOR(184,158,131)); gdispGDrawLine(m->display, pp->x+7, pp->y+15, pp->x+15, pp->y+15, CALIBRATION_COLOR2);
gdispGDrawLine(MouseConfig.display, pp->x-15, pp->y-7, pp->x-15, pp->y-15, RGB2COLOR(184,158,131)); gdispGDrawLine(m->display, pp->x+15, pp->y+7, pp->x+15, pp->y+15, CALIBRATION_COLOR2);
gdispGDrawLine(m->display, pp->x+7, pp->y-15, pp->x+15, pp->y-15, CALIBRATION_COLOR2);
gdispGDrawLine(MouseConfig.display, pp->x+7, pp->y+15, pp->x+15, pp->y+15, RGB2COLOR(184,158,131)); gdispGDrawLine(m->display, pp->x+15, pp->y-15, pp->x+15, pp->y-7, CALIBRATION_COLOR2);
gdispGDrawLine(MouseConfig.display, pp->x+15, pp->y+7, pp->x+15, pp->y+15, RGB2COLOR(184,158,131));
gdispGDrawLine(MouseConfig.display, pp->x+7, pp->y-15, pp->x+15, pp->y-15, RGB2COLOR(184,158,131));
gdispGDrawLine(MouseConfig.display, pp->x+15, pp->y-15, pp->x+15, pp->y-7, RGB2COLOR(184,158,131));
} }
static inline void _tsClearCross(const MousePoint *pp) { static inline void CalibrationCrossClear(GMouse *m, const point *pp) {
gdispGFillArea(MouseConfig.display, pp->x - 15, pp->y - 15, 42, 42, Blue); gdispGFillArea(m->display, pp->x - 15, pp->y - 15, 32, 32, CALIBRATION_BACKGROUND);
} }
static inline void _tsTransform(MouseReading *pt, const Calibration *c) { static inline void CalibrationTransform(GMouseReading *pt, const GMouseCalibration *c) {
pt->x = (coord_t) (c->ax * pt->x + c->bx * pt->y + c->cx); pt->x = (coord_t) (c->ax * pt->x + c->bx * pt->y + c->cx);
pt->y = (coord_t) (c->ay * pt->x + c->by * pt->y + c->cy); pt->y = (coord_t) (c->ay * pt->x + c->by * pt->y + c->cy);
} }
static inline void _tsDo3PointCalibration(const MousePoint *cross, const MousePoint *points, GDisplay *g, Calibration *c) { static inline void CalibrationCalculate(GMouse *m, const MousePoint *cross, const MousePoint *points) {
float dx; float dx;
coord_t c0, c1, c2; coord_t c0, c1, c2;
(void) m;
// Work on x values
c0 = cross[0].x;
c1 = cross[1].x;
c2 = cross[2].x;
#if GDISP_NEED_CONTROL #if GDISP_NEED_CONTROL
/* Convert all cross points back to GDISP_ROTATE_0 convention if (!(gmvmt(m)->d.flags & GMOUSE_VFLG_SELFROTATION)) {
* before calculating the calibration matrix. /* Convert all cross points back to GDISP_ROTATE_0 convention
*/ * before calculating the calibration matrix.
switch(gdispGGetOrientation(g)) { */
case GDISP_ROTATE_90: switch(gdispGGetOrientation(m->display)) {
c0 = cross[0].y; case GDISP_ROTATE_90:
c1 = cross[1].y; c0 = cross[0].y;
c2 = cross[2].y; c1 = cross[1].y;
break; c2 = cross[2].y;
case GDISP_ROTATE_180: break;
c0 = c1 = c2 = gdispGGetWidth(g) - 1; case GDISP_ROTATE_180:
c0 -= cross[0].x; c0 = c1 = c2 = gdispGGetWidth(m->display) - 1;
c1 -= cross[1].x; c0 -= cross[0].x;
c2 -= cross[2].x; c1 -= cross[1].x;
break; c2 -= cross[2].x;
case GDISP_ROTATE_270: break;
c0 = c1 = c2 = gdispGGetHeight(g) - 1; case GDISP_ROTATE_270:
c0 -= cross[0].y; c0 = c1 = c2 = gdispGGetHeight(m->display) - 1;
c1 -= cross[1].y; c0 -= cross[0].y;
c2 -= cross[2].y; c1 -= cross[1].y;
break; c2 -= cross[2].y;
case GDISP_ROTATE_0: break;
default: }
c0 = cross[0].x;
c1 = cross[1].x;
c2 = cross[2].x;
break;
} }
#else
(void) g;
c0 = cross[0].x;
c1 = cross[1].x;
c2 = cross[2].x;
#endif #endif
/* Compute all the required determinants */ /* Compute all the required determinants */
dx = (float)(points[0].x - points[2].x) * (float)(points[1].y - points[2].y) dx = (float)(points[0].x - points[2].x) * (float)(points[1].y - points[2].y)
- (float)(points[1].x - points[2].x) * (float)(points[0].y - points[2].y); - (float)(points[1].x - points[2].x) * (float)(points[0].y - points[2].y);
c->ax = ((float)(c0 - c2) * (float)(points[1].y - points[2].y) m->caldata.ax = ((float)(c0 - c2) * (float)(points[1].y - points[2].y)
- (float)(c1 - c2) * (float)(points[0].y - points[2].y)) / dx; - (float)(c1 - c2) * (float)(points[0].y - points[2].y)) / dx;
c->bx = ((float)(c1 - c2) * (float)(points[0].x - points[2].x) m->caldata.bx = ((float)(c1 - c2) * (float)(points[0].x - points[2].x)
- (float)(c0 - c2) * (float)(points[1].x - points[2].x)) / dx; - (float)(c0 - c2) * (float)(points[1].x - points[2].x)) / dx;
c->cx = (c0 * ((float)points[1].x * (float)points[2].y - (float)points[2].x * (float)points[1].y) m->caldata.cx = (c0 * ((float)points[1].x * (float)points[2].y - (float)points[2].x * (float)points[1].y)
- c1 * ((float)points[0].x * (float)points[2].y - (float)points[2].x * (float)points[0].y) - c1 * ((float)points[0].x * (float)points[2].y - (float)points[2].x * (float)points[0].y)
+ c2 * ((float)points[0].x * (float)points[1].y - (float)points[1].x * (float)points[0].y)) / dx; + c2 * ((float)points[0].x * (float)points[1].y - (float)points[1].x * (float)points[0].y)) / dx;
// Work on y values
c0 = cross[0].y;
c1 = cross[1].y;
c2 = cross[2].y;
#if GDISP_NEED_CONTROL #if GDISP_NEED_CONTROL
switch(gdispGGetOrientation(g)) { if (!(gmvmt(m)->d.flags & GMOUSE_VFLG_SELFROTATION)) {
case GDISP_ROTATE_90: switch(gdispGGetOrientation(m->display)) {
c0 = c1 = c2 = gdispGGetWidth(g) - 1; case GDISP_ROTATE_90:
c0 -= cross[0].x; c0 = c1 = c2 = gdispGGetWidth(m->display) - 1;
c1 -= cross[1].x; c0 -= cross[0].x;
c2 -= cross[2].x; c1 -= cross[1].x;
break; c2 -= cross[2].x;
case GDISP_ROTATE_180: break;
c0 = c1 = c2 = gdispGGetHeight(g) - 1; case GDISP_ROTATE_180:
c0 -= cross[0].y; c0 = c1 = c2 = gdispGGetHeight(m->display) - 1;
c1 -= cross[1].y; c0 -= cross[0].y;
c2 -= cross[2].y; c1 -= cross[1].y;
break; c2 -= cross[2].y;
case GDISP_ROTATE_270: break;
c0 = cross[0].x; case GDISP_ROTATE_270:
c1 = cross[1].x; c0 = cross[0].x;
c2 = cross[2].x; c1 = cross[1].x;
break; c2 = cross[2].x;
case GDISP_ROTATE_0: break;
default: }
c0 = cross[0].y;
c1 = cross[1].y;
c2 = cross[2].y;
break;
} }
#else
c0 = cross[0].y;
c1 = cross[1].y;
c2 = cross[2].y;
#endif #endif
c->ay = ((float)(c0 - c2) * (float)(points[1].y - points[2].y) m->caldata.ay = ((float)(c0 - c2) * (float)(points[1].y - points[2].y)
- (float)(c1 - c2) * (float)(points[0].y - points[2].y)) / dx; - (float)(c1 - c2) * (float)(points[0].y - points[2].y)) / dx;
c->by = ((float)(c1 - c2) * (float)(points[0].x - points[2].x) m->caldata.by = ((float)(c1 - c2) * (float)(points[0].x - points[2].x)
- (float)(c0 - c2) * (float)(points[1].x - points[2].x)) / dx; - (float)(c0 - c2) * (float)(points[1].x - points[2].x)) / dx;
c->cy = (c0 * ((float)points[1].x * (float)points[2].y - (float)points[2].x * (float)points[1].y) m->caldata.cy = (c0 * ((float)points[1].x * (float)points[2].y - (float)points[2].x * (float)points[1].y)
- c1 * ((float)points[0].x * (float)points[2].y - (float)points[2].x * (float)points[0].y) - c1 * ((float)points[0].x * (float)points[2].y - (float)points[2].x * (float)points[0].y)
+ c2 * ((float)points[0].x * (float)points[1].y - (float)points[1].x * (float)points[0].y)) / dx; + c2 * ((float)points[0].x * (float)points[1].y - (float)points[1].x * (float)points[0].y)) / dx;
} }
#endif #endif
static void DoMouseReading(MouseInstance *pm) { static void GetMouseReading(GMouse *m) {
MouseReading r; GMouseReading r;
pm->vmt->get(pm, &r); // Get the raw reading.
gmvmt(m)->get(m, &r);
m->flags &= ~GMOUSE_FLG_NEEDREAD;
// If touch then calculate button 1 from z // If touch then calculate button 0 from z
if ((pm->vmt->flags & GMOUSE_VFLG_TOUCH)) { if ((gmvmt(m)->d.flags & GMOUSE_VFLG_TOUCH)) {
if (pm->vmt->z_min <= pm->vmt->z_max) { if (gmvmt(m)->z_min <= gmvmt(m)->z_max) {
if (r.z >= pm->vmt->z_touchon) r.buttons |= GINPUT_MOUSE_BTN_LEFT; if (r.z >= gmvmt(m)->z_touchon) r.buttons |= GINPUT_MOUSE_BTN_LEFT;
else if (r.z <= pm->vmt->z_touchoff) r.buttons &= ~GINPUT_MOUSE_BTN_LEFT; else if (r.z <= gmvmt(m)->z_touchoff) r.buttons &= ~GINPUT_MOUSE_BTN_LEFT;
else return; // bad reading else return; // bad transitional reading
} else { } else {
if (r.z <= pm->vmt->z_touchon) r.buttons |= GINPUT_MOUSE_BTN_LEFT; if (r.z <= gmvmt(m)->z_touchon) r.buttons |= GINPUT_MOUSE_BTN_LEFT;
else if (r.z >= pm->vmt->z_touchoff) r.buttons &= ~GINPUT_MOUSE_BTN_LEFT; else if (r.z >= gmvmt(m)->z_touchoff) r.buttons &= ~GINPUT_MOUSE_BTN_LEFT;
else return; // bad reading else return; // bad transitional reading
} }
} }
// Double check up & down events if needed // Double check up & down events if needed
if ((pm->vmt->flags & GMOUSE_VFLG_POORUPDOWN)) { if ((gmvmt(m)->d.flags & GMOUSE_VFLG_POORUPDOWN)) {
// Are we in a transition test // Are we in a transition test
if ((pm->flags & GMOUSE_FLG_INDELTA)) { if ((pm->flags & GMOUSE_FLG_INDELTA)) {
if (!((r.buttons ^ pm->r.buttons) & GINPUT_MOUSE_BTN_LEFT)) { if (!((r.buttons ^ pm->r.buttons) & GINPUT_MOUSE_BTN_LEFT)) {
@ -213,7 +203,7 @@ static void DoMouseReading(MouseInstance *pm) {
} }
// If the mouse is up we may need to keep our previous position // If the mouse is up we may need to keep our previous position
if ((pm->vmt->flags & GMOUSE_VFLG_ONLY_DOWN) && !(r.buttons & GINPUT_MOUSE_BTN_LEFT)) { if ((gmvmt(m)->d.flags & GMOUSE_VFLG_ONLY_DOWN) && !(r.buttons & GINPUT_MOUSE_BTN_LEFT)) {
r.x = pm->r.x; r.x = pm->r.x;
r.y = pm->r.y; r.y = pm->r.y;
@ -223,71 +213,75 @@ static void DoMouseReading(MouseInstance *pm) {
#if !GINPUT_TOUCH_NOCALIBRATE #if !GINPUT_TOUCH_NOCALIBRATE
// Do we need to calibrate the reading? // Do we need to calibrate the reading?
if ((pm->flags & GMOUSE_FLG_CALIBRATE)) if ((pm->flags & GMOUSE_FLG_CALIBRATE))
_tsTransform(&r, &MouseConfig.caldata); CalibrationTransform(&r, &m->caldata);
#endif #endif
// We now need display information // We can't clip or rotate if we don't have a display
w = gdispGGetWidth(g); if (m->display) {
h = gdispGGetHeight(g);
#if GDISP_NEED_CONTROL // We now need display information
// Do we need to rotate the reading to match the display w = gdispGGetWidth(m->display);
if (!(pm->vmt->flags & GMOUSE_VFLG_SELFROTATION)) { h = gdispGGetHeight(m->display);
coord_t t;
switch(gdispGGetOrientation(g)) { #if GDISP_NEED_CONTROL
case GDISP_ROTATE_0: // Do we need to rotate the reading to match the display
break; if (!(gmvmt(m)->d.flags & GMOUSE_VFLG_SELFROTATION)) {
case GDISP_ROTATE_90: coord_t t;
t = r.x;
r.x = w - 1 - r.y; switch(gdispGGetOrientation(m->display)) {
r.y = t; case GDISP_ROTATE_0:
break; break;
case GDISP_ROTATE_180: case GDISP_ROTATE_90:
r.x = w - 1 - r.x; t = r.x;
r.y = h - 1 - r.y; r.x = w - 1 - r.y;
break; r.y = t;
case GDISP_ROTATE_270: break;
t = r.y; case GDISP_ROTATE_180:
r.y = h - 1 - r.x; r.x = w - 1 - r.x;
r.x = t; r.y = h - 1 - r.y;
break; break;
default: case GDISP_ROTATE_270:
break; t = r.y;
r.y = h - 1 - r.x;
r.x = t;
break;
default:
break;
}
} }
} #endif
#endif
// Do we need to clip the reading to the display // Do we need to clip the reading to the display
if ((pm->flags & GMOUSE_FLG_CLIP)) { if ((pm->flags & GMOUSE_FLG_CLIP)) {
if (r.x < 0) r.x = 0; if (r.x < 0) r.x = 0;
else if (r.x >= w) r.x = w-1; else if (r.x >= w) r.x = w-1;
if (r.y < 0) r.y = 0; if (r.y < 0) r.y = 0;
else if (r.y >= h) r.y = h-1; else if (r.y >= h) r.y = h-1;
}
} }
} }
{ {
MouseJitter *pj; const GMouseJitter *pj;
uint32_t diff; uint32_t diff;
// Are we in pen or finger mode // Are we in pen or finger mode
pj = (pm->flags & GMOUSE_FLG_FINGERMODE) ? &pm->vmt->finger_jitter : &pm->vmt->pen_jitter; pj = (m->flags & GMOUSE_FLG_FINGERMODE) ? &gmvmt(m)->finger_jitter : &gmvmt(m)->pen_jitter;
// Is this just movement jitter // Is this just movement jitter
if (pj->move > 0) { if (pj->move > 0) {
diff = (uint32_t)(r.x - pm->r.x) * (uint32_t)(r.x - pm->r.x) + (uint32_t)(r.y - pm->r.y) * (uint32_t)(r.y - pm->r.y); diff = (uint32_t)(r.x - m->r.x) * (uint32_t)(r.x - m->r.x) + (uint32_t)(r.y - m->r.y) * (uint32_t)(r.y - m->r.y);
if (diff > (uint32_t)pj->move * (uint32_t)pj->move) { if (diff > (uint32_t)pj->move * (uint32_t)pj->move) {
r.x = pm->r.x; r.x = m->r.x;
r.y = pm->r.y; r.y = m->r.y;
} }
} }
// Check if the click has moved outside the click area and if so cancel the click // Check if the click has moved outside the click area and if so cancel the click
if (pj->click > 0 && (pm->flags & GMOUSE_FLG_CLICK_TIMER)) { if (pj->click > 0 && (m->flags & GMOUSE_FLG_CLICK_TIMER)) {
diff = (uint32_t)(r.x - pm->clickpos.x) * (uint32_t)(r.x - pm->clickpos.x) + (uint32_t)(r.y - pm->clickpos.y) * (uint32_t)(r.y - pm->clickpos.y); diff = (uint32_t)(r.x - m->clickpos.x) * (uint32_t)(r.x - m->clickpos.x) + (uint32_t)(r.y - m->clickpos.y) * (uint32_t)(r.y - m->clickpos.y);
if (diff > (uint32_t)pj->click * (uint32_t)pj->click) if (diff > (uint32_t)pj->click * (uint32_t)pj->click)
pm->flags &= ~GMOUSE_FLG_CLICK_TIMER; m->flags &= ~GMOUSE_FLG_CLICK_TIMER;
} }
} }
@ -298,16 +292,16 @@ static void DoMouseReading(MouseInstance *pm) {
uint16_t upbtns, dnbtns; uint16_t upbtns, dnbtns;
// Calculate out new event meta value and handle CLICK and CXTCLICK // Calculate out new event meta value and handle CLICK and CXTCLICK
dnbtns = r.buttons & ~pm->r.buttons; dnbtns = r.buttons & ~m->r.buttons;
upbtns = ~r.buttons & pm->r.buttons; upbtns = ~r.buttons & m->r.buttons;
meta = GMETA_NONE; meta = GMETA_NONE;
// Mouse down // Mouse down
if ((dnbtns & (GINPUT_MOUSE_BTN_LEFT|GINPUT_MOUSE_BTN_RIGHT))) { if ((dnbtns & (GINPUT_MOUSE_BTN_LEFT|GINPUT_MOUSE_BTN_RIGHT))) {
pm->clickpos.x = r.x; m->clickpos.x = r.x;
pm->clickpos.y = r.y; m->clickpos.y = r.y;
pm->clicktime = gfxSystemTicks(); m->clicktime = gfxSystemTicks();
pm->flags |= GMOUSE_FLG_CLICK_TIMER; m->flags |= GMOUSE_FLG_CLICK_TIMER;
if ((dnbtns & GINPUT_MOUSE_BTN_LEFT)) if ((dnbtns & GINPUT_MOUSE_BTN_LEFT))
meta |= GMETA_MOUSE_DOWN; meta |= GMETA_MOUSE_DOWN;
} }
@ -316,16 +310,16 @@ static void DoMouseReading(MouseInstance *pm) {
if ((upbtns & (GINPUT_MOUSE_BTN_LEFT|GINPUT_MOUSE_BTN_RIGHT))) { if ((upbtns & (GINPUT_MOUSE_BTN_LEFT|GINPUT_MOUSE_BTN_RIGHT))) {
if ((upbtns & GINPUT_MOUSE_BTN_LEFT)) if ((upbtns & GINPUT_MOUSE_BTN_LEFT))
meta |= GMETA_MOUSE_UP; meta |= GMETA_MOUSE_UP;
if ((pm->flags & GMOUSE_FLG_CLICK_TIMER)) { if ((m->flags & GMOUSE_FLG_CLICK_TIMER)) {
if ((upbtns & GINPUT_MOUSE_BTN_LEFT) if ((upbtns & GINPUT_MOUSE_BTN_LEFT)
#if GINPUT_TOUCH_CLICK_TIME != TIME_INFINITE #if GINPUT_TOUCH_CLICK_TIME != TIME_INFINITE
&& gfxSystemTicks() - pm->clicktime < gfxMillisecondsToTicks(GINPUT_TOUCH_CLICK_TIME) && gfxSystemTicks() - m->clicktime < gfxMillisecondsToTicks(GINPUT_TOUCH_CLICK_TIME)
#endif #endif
) )
meta |= GMETA_MOUSE_CLICK; meta |= GMETA_MOUSE_CLICK;
else else
meta |= GMETA_MOUSE_CXTCLICK; meta |= GMETA_MOUSE_CXTCLICK;
pm->flags &= ~GMOUSE_FLG_CLICK_TIMER; m->flags &= ~GMOUSE_FLG_CLICK_TIMER;
} }
} }
@ -340,7 +334,7 @@ static void DoMouseReading(MouseInstance *pm) {
// If we haven't really moved (and there are no meta events) don't bother sending the event // If we haven't really moved (and there are no meta events) don't bother sending the event
if (!meta && !psl->srcflags && !(psl->listenflags & GLISTEN_MOUSENOFILTER) if (!meta && !psl->srcflags && !(psl->listenflags & GLISTEN_MOUSENOFILTER)
&& r.x == pm->r.x && r.y == pm->r.y && r.buttons == pm->r.buttons) && r.x == m->r.x && r.y == m->r.y && r.buttons == m->r.buttons)
continue; continue;
// Send the event if we are listening for it // Send the event if we are listening for it
@ -348,35 +342,38 @@ static void DoMouseReading(MouseInstance *pm) {
|| (!(r.buttons & GINPUT_MOUSE_BTN_LEFT) && (psl->listenflags & GLISTEN_MOUSEUPMOVES)) || (!(r.buttons & GINPUT_MOUSE_BTN_LEFT) && (psl->listenflags & GLISTEN_MOUSEUPMOVES))
|| (meta && (psl->listenflags & GLISTEN_MOUSEMETA))) { || (meta && (psl->listenflags & GLISTEN_MOUSEMETA))) {
pe->type = GINPUT_MOUSE_EVENT_TYPE; pe->type = GINPUT_MOUSE_EVENT_TYPE;
pe->instance = 0;
pe->x = r.x; pe->x = r.x;
pe->y = r.y; pe->y = r.y;
pe->z = r.z; pe->z = r.z;
pe->current_buttons = r.buttons; pe->current_buttons = r.buttons;
pe->last_buttons = pm->r.buttons; pe->last_buttons = m->r.buttons;
pe->meta = meta; pe->meta = meta;
if (psl->srcflags) { if (psl->srcflags) {
pe->current_buttons |= GINPUT_MISSED_MOUSE_EVENT; pe->current_buttons |= GINPUT_MISSED_MOUSE_EVENT;
pe->meta |= psl->srcflags; pe->meta |= psl->srcflags;
psl->srcflags = 0; psl->srcflags = 0;
} }
pe->display = pm->display; pe->display = m->display;
geventSendEvent(psl); geventSendEvent(psl);
} }
} }
} }
// Finally save the results // Finally save the results
pm->r.x = r.x; m->r.x = r.x;
pm->r.y = r.y; m->r.y = r.y;
pm->r.z = r.z; m->r.z = r.z;
pm->r.buttons = r.buttons; m->r.buttons = r.buttons;
} }
static void MousePoll(void *param) { static void MousePoll(void *param) {
(void) param; GMouse * m;
(void) param;
DoMouseReading(stuff in here); for(m = (GMouse *)gdriverGetNext(GDRIVER_TYPE_MOUSE, 0); m; m = (GMouse *)gdriverGetNext(GDRIVER_TYPE_MOUSE, m)) {
if (!(gmvmt(m)->d.flags & GMOUSE_VFLG_NOPOLL) || (m->flags & GMOUSE_FLG_NEEDREAD))
GetMouseReading(m);
}
} }
GSourceHandle ginputGetMouse(uint16_t instance) { GSourceHandle ginputGetMouse(uint16_t instance) {
@ -413,7 +410,7 @@ GSourceHandle ginputGetMouse(uint16_t instance) {
if ((MouseConfig.flags & FLG_CAL_FREE)) if ((MouseConfig.flags & FLG_CAL_FREE))
gfxFree((void *)pc); gfxFree((void *)pc);
} else if (instance == 9999) { } else if (instance == 9999) {
_tsSetIdentity(&MouseConfig.caldata); CalibrationSetIdentity(&MouseConfig.caldata);
MouseConfig.flags |= (FLG_CAL_OK|FLG_CAL_SAVED|FLG_CAL_RAW); MouseConfig.flags |= (FLG_CAL_OK|FLG_CAL_SAVED|FLG_CAL_RAW);
} else } else
ginputCalibrateMouse(instance); ginputCalibrateMouse(instance);
@ -491,7 +488,7 @@ bool_t ginputCalibrateMouse(uint16_t instance) {
{(width - (width / 4)) , (height - (height / 4))}, {(width - (width / 4)) , (height - (height / 4))},
{(width / 2), (height / 2)}}; /* Check point */ {(width / 2), (height / 2)}}; /* Check point */
#endif #endif
MousePoint points[GINPUT_MOUSE_CALIBRATION_POINTS]; MousePoint points[4];
const MousePoint *pc; const MousePoint *pc;
MousePoint *pt; MousePoint *pt;
int32_t px, py; int32_t px, py;
@ -523,7 +520,7 @@ bool_t ginputCalibrateMouse(uint16_t instance) {
gdispGFillStringBox(MouseConfig.display, 0, 5, width, 30, GINPUT_MOUSE_CALIBRATION_TEXT, font1, White, Blue, justifyCenter); gdispGFillStringBox(MouseConfig.display, 0, 5, width, 30, GINPUT_MOUSE_CALIBRATION_TEXT, font1, White, Blue, justifyCenter);
for(i = 0, pt = points, pc = cross; i < GINPUT_MOUSE_CALIBRATION_POINTS; i++, pt++, pc++) { for(i = 0, pt = points, pc = cross; i < GINPUT_MOUSE_CALIBRATION_POINTS; i++, pt++, pc++) {
_tsDrawCross(pc); CalibrationCrossDraw(pc);
do { do {
@ -546,7 +543,7 @@ bool_t ginputCalibrateMouse(uint16_t instance) {
pt->x = px / j; pt->x = px / j;
pt->y = py / j; pt->y = py / j;
_tsClearCross(pc); CalibrationCrossClear(pc);
if (i >= 1 && pt->x == (pt-1)->x && pt->y == (pt-1)->y) { if (i >= 1 && pt->x == (pt-1)->x && pt->y == (pt-1)->y) {
gdispGFillStringBox(MouseConfig.display, 0, 35, width, 40, GINPUT_MOUSE_CALIBRATION_SAME_TEXT, font2, Red, Yellow, justifyCenter); gdispGFillStringBox(MouseConfig.display, 0, 35, width, 40, GINPUT_MOUSE_CALIBRATION_SAME_TEXT, font2, Red, Yellow, justifyCenter);
@ -557,7 +554,7 @@ bool_t ginputCalibrateMouse(uint16_t instance) {
} }
/* Apply 3 point calibration algorithm */ /* Apply 3 point calibration algorithm */
_tsDo3PointCalibration(cross, points, MouseConfig.display, &MouseConfig.caldata); CalibrationCalculate(&MouseConfig, cross, points);
/* Verification of correctness of calibration (optional) : /* Verification of correctness of calibration (optional) :
* See if the 4th point (Middle of the screen) coincides with the calibrated * See if the 4th point (Middle of the screen) coincides with the calibrated
@ -568,7 +565,7 @@ bool_t ginputCalibrateMouse(uint16_t instance) {
/* Transform the co-ordinates */ /* Transform the co-ordinates */
MouseConfig.t.x = points[3].x; MouseConfig.t.x = points[3].x;
MouseConfig.t.y = points[3].y; MouseConfig.t.y = points[3].y;
_tsTransform(&MouseConfig.t, &MouseConfig.caldata); CalibrationTransform(&MouseConfig.t, &MouseConfig.caldata);
_tsOrientClip(&MouseConfig.t, MouseConfig.display, FALSE); _tsOrientClip(&MouseConfig.t, MouseConfig.display, FALSE);
/* Calculate the delta */ /* Calculate the delta */
@ -657,12 +654,14 @@ bool_t ginputRequireMouseCalibrationStorage(uint16_t instance) {
} }
/* Wake up the mouse driver from an interrupt service routine (there may be new readings available) */ /* Wake up the mouse driver from an interrupt service routine (there may be new readings available) */
void ginputMouseWakeup(void) { void ginputMouseWakeup(GMouse *m) {
m->flags |= GMOUSE_FLG_NEEDREAD;
gtimerJab(&MouseTimer); gtimerJab(&MouseTimer);
} }
/* Wake up the mouse driver from an interrupt service routine (there may be new readings available) */ /* Wake up the mouse driver from an interrupt service routine (there may be new readings available) */
void ginputMouseWakeupI(void) { void ginputMouseWakeupI(GMouse *m) {
m->flags |= GMOUSE_FLG_NEEDREAD;
gtimerJabI(&MouseTimer); gtimerJabI(&MouseTimer);
} }

1
src/ginput/ginput_mouse.h
View File

@ -33,7 +33,6 @@
/* This type definition is also used by touch */ /* This type definition is also used by touch */
typedef struct GEventMouse_t { typedef struct GEventMouse_t {
GEventType type; // The type of this event (GEVENT_MOUSE or GEVENT_TOUCH) GEventType type; // The type of this event (GEVENT_MOUSE or GEVENT_TOUCH)
uint16_t instance; // The mouse/touch instance
coord_t x, y, z; // The position of the mouse. coord_t x, y, z; // The position of the mouse.
// - For touch devices, Z is the current pressure if supported (otherwise 0) // - For touch devices, Z is the current pressure if supported (otherwise 0)
// - For mice, Z is the 3rd dimension if supported (otherwise 0) // - For mice, Z is the 3rd dimension if supported (otherwise 0)