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/* Copyright (C) 2007-2008 The Android Open Source Project
**
** This software is licensed under the terms of the GNU General Public
** License version 2, as published by the Free Software Foundation, and
** may be copied, distributed, and modified under those terms.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
*/
#include "android/skin/window.h"
#include "android/skin/image.h"
#include "android/skin/scaler.h"
#include "android/charmap.h"
#include "android/utils/debug.h"
#include "android/utils/system.h"
#include "android/utils/duff.h"
#include "android/protocol/core-commands-api.h"
#include <SDL_syswm.h>
#include "android/user-events.h"
#include <math.h>
#include "android/framebuffer.h"
#include "android/opengles.h"
/* when shrinking, we reduce the pixel ratio by this fixed amount */
#define SHRINK_SCALE 0.6
/* maximum value of LCD brighness */
#define LCD_BRIGHTNESS_MIN 0
#define LCD_BRIGHTNESS_DEFAULT 128
#define LCD_BRIGHTNESS_MAX 255
typedef struct Background {
SkinImage* image;
SkinRect rect;
SkinPos origin;
} Background;
static void
background_done( Background* back )
{
skin_image_unref( &back->image );
}
static void
background_init( Background* back, SkinBackground* sback, SkinLocation* loc, SkinRect* frame )
{
SkinRect r;
back->image = skin_image_rotate( sback->image, loc->rotation );
skin_rect_rotate( &r, &sback->rect, loc->rotation );
r.pos.x += loc->anchor.x;
r.pos.y += loc->anchor.y;
back->origin = r.pos;
skin_rect_intersect( &back->rect, &r, frame );
}
static void
background_redraw( Background* back, SkinRect* rect, SDL_Surface* surface )
{
SkinRect r;
if (skin_rect_intersect( &r, rect, &back->rect ) )
{
SDL_Rect rd, rs;
rd.x = r.pos.x;
rd.y = r.pos.y;
rd.w = r.size.w;
rd.h = r.size.h;
rs.x = r.pos.x - back->origin.x;
rs.y = r.pos.y - back->origin.y;
rs.w = r.size.w;
rs.h = r.size.h;
SDL_BlitSurface( skin_image_surface(back->image), &rs, surface, &rd );
//SDL_UpdateRects( surface, 1, &rd );
}
}
typedef struct ADisplay {
SkinRect rect;
SkinPos origin;
SkinRotation rotation;
SkinSize datasize; /* framebuffer size */
void* data; /* framebuffer pixels */
QFrameBuffer* qfbuff;
SkinImage* onion; /* onion image */
SkinRect onion_rect; /* onion rect, if any */
int brightness;
} ADisplay;
static void
display_done( ADisplay* disp )
{
disp->data = NULL;
disp->qfbuff = NULL;
skin_image_unref( &disp->onion );
}
static int
display_init( ADisplay* disp, SkinDisplay* sdisp, SkinLocation* loc, SkinRect* frame )
{
skin_rect_rotate( &disp->rect, &sdisp->rect, loc->rotation );
disp->rect.pos.x += loc->anchor.x;
disp->rect.pos.y += loc->anchor.y;
disp->rotation = (loc->rotation + sdisp->rotation) & 3;
switch (disp->rotation) {
case SKIN_ROTATION_0:
disp->origin = disp->rect.pos;
break;
case SKIN_ROTATION_90:
disp->origin.x = disp->rect.pos.x + disp->rect.size.w;
disp->origin.y = disp->rect.pos.y;
break;
case SKIN_ROTATION_180:
disp->origin.x = disp->rect.pos.x + disp->rect.size.w;
disp->origin.y = disp->rect.pos.y + disp->rect.size.h;
break;
default:
disp->origin.x = disp->rect.pos.x;
disp->origin.y = disp->rect.pos.y + disp->rect.size.h;
break;
}
skin_size_rotate( &disp->datasize, &sdisp->rect.size, sdisp->rotation );
skin_rect_intersect( &disp->rect, &disp->rect, frame );
#if 0
fprintf(stderr, "... display_init rect.pos(%d,%d) rect.size(%d,%d) datasize(%d,%d)\n",
disp->rect.pos.x, disp->rect.pos.y,
disp->rect.size.w, disp->rect.size.h,
disp->datasize.w, disp->datasize.h);
#endif
disp->qfbuff = sdisp->qfbuff;
disp->data = sdisp->qfbuff->pixels;
disp->onion = NULL;
disp->brightness = LCD_BRIGHTNESS_DEFAULT;
return (disp->data == NULL) ? -1 : 0;
}
static __inline__ uint32_t rgb565_to_rgba32(uint32_t pix,
uint32_t rshift, uint32_t gshift, uint32_t bshift, uint32_t amask)
{
uint32_t r8 = ((pix & 0xf800) >> 8) | ((pix & 0xe000) >> 13);
uint32_t g8 = ((pix & 0x07e0) >> 3) | ((pix & 0x0600) >> 9);
uint32_t b8 = ((pix & 0x001f) << 3) | ((pix & 0x001c) >> 2);
return (r8 << rshift) | (g8 << gshift) | (b8 << bshift) | amask;
}
/* The framebuffer format is R,G,B,X in framebuffer memory, on a
* little-endian system, this translates to XBGR after a load.
*/
static __inline__ uint32_t xbgr_to_rgba32(uint32_t pix,
uint32_t rshift, uint32_t gshift, uint32_t bshift, uint32_t amask)
{
uint32_t r8 = (pix & 0x00ff0000) >> 16;
uint32_t g8 = (pix & 0x0000ff00) >> 8;
uint32_t b8 = (pix & 0x000000ff) >> 0;
return (r8 << rshift) | (g8 << gshift) | (b8 << bshift) | amask;
}
static void
display_set_onion( ADisplay* disp, SkinImage* onion, SkinRotation rotation, int blend )
{
int onion_w, onion_h;
SkinRect* rect = &disp->rect;
SkinRect* orect = &disp->onion_rect;
rotation = (rotation + disp->rotation) & 3;
skin_image_unref( &disp->onion );
disp->onion = skin_image_clone_full( onion, rotation, blend );
onion_w = skin_image_w(disp->onion);
onion_h = skin_image_h(disp->onion);
switch (rotation) {
case SKIN_ROTATION_0:
orect->pos = rect->pos;
break;
case SKIN_ROTATION_90:
orect->pos.x = rect->pos.x + rect->size.w - onion_w;
orect->pos.y = rect->pos.y;
break;
case SKIN_ROTATION_180:
orect->pos.x = rect->pos.x + rect->size.w - onion_w;
orect->pos.y = rect->pos.y + rect->size.h - onion_h;
break;
default:
orect->pos.x = rect->pos.x;
orect->pos.y = rect->pos.y + rect->size.h - onion_h;
}
orect->size.w = onion_w;
orect->size.h = onion_h;
}
#define DOT_MATRIX 0
#if DOT_MATRIX
static void
dotmatrix_dither_argb32( unsigned char* pixels, int x, int y, int w, int h, int pitch )
{
static const unsigned dotmatrix_argb32[16] = {
0x003f00, 0x00003f, 0x3f0000, 0x000000,
0x3f3f3f, 0x000000, 0x3f3f3f, 0x000000,
0x3f0000, 0x000000, 0x003f00, 0x00003f,
0x3f3f3f, 0x000000, 0x3f3f3f, 0x000000
};
int yy = y & 3;
pixels += 4*x + y*pitch;
for ( ; h > 0; h-- ) {
unsigned* line = (unsigned*) pixels;
int nn, xx = x & 3;
for (nn = 0; nn < w; nn++) {
unsigned c = line[nn];
c = c - ((c >> 2) & dotmatrix_argb32[(yy << 2)|xx]);
xx = (xx + 1) & 3;
line[nn] = c;
}
yy = (yy + 1) & 3;
pixels += pitch;
}
}
#endif /* DOT_MATRIX */
/* technical note about the lightness emulation
*
* we try to emulate something that looks like the Dream's
* non-linear LCD lightness, without going too dark or bright.
*
* the default lightness is around 105 (about 40%) and we prefer
* to keep full RGB colors at that setting, to not alleviate
* developers who will not understand why the emulator's colors
* look slightly too dark.
*
* we also want to implement a 'bright' mode by de-saturating
* colors towards bright white.
*
* All of this leads to the implementation below that looks like
* the following:
*
* if (level == MIN)
* screen is off
*
* if (level > MIN && level < LOW)
* interpolate towards black, with
* MINALPHA = 0.2
* alpha = MINALPHA + (1-MINALPHA)*(level-MIN)/(LOW-MIN)
*
* if (level >= LOW && level <= HIGH)
* keep full RGB colors
*
* if (level > HIGH)
* interpolate towards bright white, with
* MAXALPHA = 0.6
* alpha = MAXALPHA*(level-HIGH)/(MAX-HIGH)
*
* we probably want some sort of power law instead of interpolating
* linearly, but frankly, this is sufficient for most uses.
*/
#define LCD_BRIGHTNESS_LOW 80
#define LCD_BRIGHTNESS_HIGH 180
#define LCD_ALPHA_LOW_MIN 0.2
#define LCD_ALPHA_HIGH_MAX 0.6
/* treat as special value to turn screen off */
#define LCD_BRIGHTNESS_OFF LCD_BRIGHTNESS_MIN
static void
lcd_brightness_argb32( unsigned char* pixels, SkinRect* r, int pitch, int brightness )
{
const unsigned b_min = LCD_BRIGHTNESS_MIN;
const unsigned b_max = LCD_BRIGHTNESS_MAX;
const unsigned b_low = LCD_BRIGHTNESS_LOW;
const unsigned b_high = LCD_BRIGHTNESS_HIGH;
unsigned alpha = brightness;
int w = r->size.w;
int h = r->size.h;
if (alpha <= b_min)
alpha = b_min;
else if (alpha > b_max)
alpha = b_max;
pixels += 4*r->pos.x + r->pos.y*pitch;
if (alpha < b_low)
{
const unsigned alpha_min = (255*LCD_ALPHA_LOW_MIN);
const unsigned alpha_range = (255 - alpha_min);
alpha = alpha_min + ((alpha - b_min)*alpha_range) / (b_low - b_min);
for ( ; h > 0; h-- ) {
unsigned* line = (unsigned*) pixels;
int nn = 0;
DUFF4(w, {
unsigned c = line[nn];
unsigned ag = (c >> 8) & 0x00ff00ff;
unsigned rb = (c) & 0x00ff00ff;
ag = (ag*alpha) & 0xff00ff00;
rb = ((rb*alpha) >> 8) & 0x00ff00ff;
line[nn] = (unsigned)(ag | rb);
nn++;
});
pixels += pitch;
}
}
else if (alpha > LCD_BRIGHTNESS_HIGH) /* 'superluminous' mode */
{
const unsigned alpha_max = (255*LCD_ALPHA_HIGH_MAX);
const unsigned alpha_range = (255-alpha_max);
unsigned ialpha;
alpha = ((alpha - b_high)*alpha_range) / (b_max - b_high);
ialpha = 255-alpha;
for ( ; h > 0; h-- ) {
unsigned* line = (unsigned*) pixels;
int nn = 0;
DUFF4(w, {
unsigned c = line[nn];
unsigned ag = (c >> 8) & 0x00ff00ff;
unsigned rb = (c) & 0x00ff00ff;
/* interpolate towards bright white, i.e. 0x00ffffff */
ag = ((ag*ialpha + 0x00ff00ff*alpha)) & 0xff00ff00;
rb = ((rb*ialpha + 0x00ff00ff*alpha) >> 8) & 0x00ff00ff;
line[nn] = (unsigned)(ag | rb);
nn++;
});
pixels += pitch;
}
}
}
/* this is called when the LCD framebuffer is off */
static void
lcd_off_argb32( unsigned char* pixels, SkinRect* r, int pitch )
{
int x = r->pos.x;
int y = r->pos.y;
int w = r->size.w;
int h = r->size.h;
pixels += 4*x + y*pitch;
for ( ; h > 0; h-- ) {
memset( pixels, 0, w*4 );
pixels += pitch;
}
}
static void
display_redraw_rect16( ADisplay* disp, SkinRect* rect, SDL_Surface* surface)
{
int x = rect->pos.x - disp->rect.pos.x;
int y = rect->pos.y - disp->rect.pos.y;
int w = rect->size.w;
int h = rect->size.h;
int disp_w = disp->rect.size.w;
int disp_h = disp->rect.size.h;
int dst_pitch = surface->pitch;
uint8_t* dst_line = (uint8_t*)surface->pixels + rect->pos.x*4 + rect->pos.y*dst_pitch;
int src_pitch = disp->datasize.w*2;
uint8_t* src_line = (uint8_t*)disp->data;
int yy, xx;
uint32_t rshift = surface->format->Rshift;
uint32_t gshift = surface->format->Gshift;
uint32_t bshift = surface->format->Bshift;
uint32_t amask = surface->format->Amask; // may be 0x00 for non-alpha format
switch ( disp->rotation & 3 )
{
case ANDROID_ROTATION_0:
src_line += x*2 + y*src_pitch;
for (yy = h; yy > 0; yy--)
{
uint32_t* dst = (uint32_t*)dst_line;
uint16_t* src = (uint16_t*)src_line;
xx = 0;
DUFF4(w, {
dst[xx] = rgb565_to_rgba32(src[xx], rshift, gshift, bshift, amask);
xx++;
});
src_line += src_pitch;
dst_line += dst_pitch;
}
break;
case ANDROID_ROTATION_90:
src_line += y*2 + (disp_w - x - 1)*src_pitch;
for (yy = h; yy > 0; yy--)
{
uint32_t* dst = (uint32_t*)dst_line;
uint8_t* src = src_line;
DUFF4(w, {
dst[0] = rgb565_to_rgba32(((uint16_t*)src)[0], rshift, gshift, bshift, amask);
src -= src_pitch;
dst += 1;
});
src_line += 2;
dst_line += dst_pitch;
}
break;
case ANDROID_ROTATION_180:
src_line += (disp_w -1 - x)*2 + (disp_h-1-y)*src_pitch;
for (yy = h; yy > 0; yy--)
{
uint16_t* src = (uint16_t*)src_line;
uint32_t* dst = (uint32_t*)dst_line;
DUFF4(w, {
dst[0] = rgb565_to_rgba32(src[0], rshift, gshift, bshift, amask);
src -= 1;
dst += 1;
});
src_line -= src_pitch;
dst_line += dst_pitch;
}
break;
default: /* ANDROID_ROTATION_270 */
src_line += (disp_h-1-y)*2 + x*src_pitch;
for (yy = h; yy > 0; yy--)
{
uint32_t* dst = (uint32_t*)dst_line;
uint8_t* src = src_line;
DUFF4(w, {
dst[0] = rgb565_to_rgba32(((uint16_t*)src)[0], rshift, gshift, bshift, amask);
dst += 1;
src += src_pitch;
});
src_line -= 2;
dst_line += dst_pitch;
}
}
}
static void
display_redraw_rect32( ADisplay* disp, SkinRect* rect,SDL_Surface* surface)
{
int x = rect->pos.x - disp->rect.pos.x;
int y = rect->pos.y - disp->rect.pos.y;
int w = rect->size.w;
int h = rect->size.h;
int disp_w = disp->rect.size.w;
int disp_h = disp->rect.size.h;
int dst_pitch = surface->pitch;
uint8_t* dst_line = (uint8_t*)surface->pixels + rect->pos.x*4 + rect->pos.y*dst_pitch;
int src_pitch = disp->datasize.w*4;
uint8_t* src_line = (uint8_t*)disp->data;
int yy;
uint32_t rshift = surface->format->Rshift;
uint32_t gshift = surface->format->Gshift;
uint32_t bshift = surface->format->Bshift;
uint32_t amask = surface->format->Amask; // may be 0x00 for non-alpha format
switch ( disp->rotation & 3 )
{
case ANDROID_ROTATION_0:
src_line += x*4 + y*src_pitch;
for (yy = h; yy > 0; yy--) {
uint32_t* src = (uint32_t*)src_line;
uint32_t* dst = (uint32_t*)dst_line;
DUFF4(w, {
dst[0] = xbgr_to_rgba32(src[0], rshift, gshift, bshift, amask);
dst++;
src++;
});
src_line += src_pitch;
dst_line += dst_pitch;
}
break;
case ANDROID_ROTATION_90:
src_line += y*4 + (disp_w - x - 1)*src_pitch;
for (yy = h; yy > 0; yy--)
{
uint32_t* dst = (uint32_t*)dst_line;
uint8_t* src = src_line;
DUFF4(w, {
dst[0] = xbgr_to_rgba32(*(uint32_t*)src, rshift, gshift, bshift, amask);
src -= src_pitch;
dst += 1;
});
src_line += 4;
dst_line += dst_pitch;
}
break;
case ANDROID_ROTATION_180:
src_line += (disp_w -1 - x)*4 + (disp_h-1-y)*src_pitch;
for (yy = h; yy > 0; yy--)
{
uint32_t* src = (uint32_t*)src_line;
uint32_t* dst = (uint32_t*)dst_line;
DUFF4(w, {
dst[0] = xbgr_to_rgba32(src[0], rshift, gshift, bshift, amask);
src -= 1;
dst += 1;
});
src_line -= src_pitch;
dst_line += dst_pitch;
}
break;
default: /* ANDROID_ROTATION_270 */
src_line += (disp_h-1-y)*4 + x*src_pitch;
for (yy = h; yy > 0; yy--)
{
uint32_t* dst = (uint32_t*)dst_line;
uint8_t* src = src_line;
DUFF4(w, {
dst[0] = xbgr_to_rgba32(*(uint32_t*)src, rshift, gshift, bshift, amask);
dst += 1;
src += src_pitch;
});
src_line -= 4;
dst_line += dst_pitch;
}
}
}
static void
display_redraw( ADisplay* disp, SkinRect* rect, SDL_Surface* surface )
{
SkinRect r;
if (skin_rect_intersect( &r, rect, &disp->rect ))
{
#if 0
fprintf(stderr, "--- display redraw r.pos(%d,%d) r.size(%d,%d) "
"disp.pos(%d,%d) disp.size(%d,%d) datasize(%d,%d) rect.pos(%d,%d) rect.size(%d,%d)\n",
r.pos.x - disp->rect.pos.x, r.pos.y - disp->rect.pos.y,
r.size.w, r.size.h, disp->rect.pos.x, disp->rect.pos.y,
disp->rect.size.w, disp->rect.size.h, disp->datasize.w, disp->datasize.h,
rect->pos.x, rect->pos.y, rect->size.w, rect->size.h );
#endif
SDL_LockSurface( surface );
if (disp->brightness == LCD_BRIGHTNESS_OFF)
{
lcd_off_argb32( surface->pixels, &r, surface->pitch );
}
else
{
if (disp->qfbuff->bits_per_pixel == 32)
display_redraw_rect32(disp, &r, surface);
else
display_redraw_rect16(disp, &r, surface);
#if DOT_MATRIX
dotmatrix_dither_argb32( surface->pixels, r.pos.x, r.pos.y, r.size.w, r.size.h, surface->pitch );
#endif
/* apply lightness */
lcd_brightness_argb32( surface->pixels, &r, surface->pitch, disp->brightness );
}
SDL_UnlockSurface( surface );
/* Apply onion skin */
if (disp->onion != NULL) {
SkinRect r2;
if ( skin_rect_intersect( &r2, &r, &disp->onion_rect ) ) {
SDL_Rect rs, rd;
rd.x = r2.pos.x;
rd.y = r2.pos.y;
rd.w = r2.size.w;
rd.h = r2.size.h;
rs.x = rd.x - disp->onion_rect.pos.x;
rs.y = rd.y - disp->onion_rect.pos.y;
rs.w = rd.w;
rs.h = rd.h;
SDL_BlitSurface( skin_image_surface(disp->onion), &rs, surface, &rd );
}
}
SDL_UpdateRect( surface, r.pos.x, r.pos.y, r.size.w, r.size.h );
}
}
typedef struct Button {
SkinImage* image;
SkinRect rect;
SkinPos origin;
Background* background;
unsigned keycode;
int down;
} Button;
static void
button_done( Button* button )
{
skin_image_unref( &button->image );
button->background = NULL;
}
static void
button_init( Button* button, SkinButton* sbutton, SkinLocation* loc, Background* back, SkinRect* frame, SkinLayout* slayout )
{
SkinRect r;
button->image = skin_image_rotate( sbutton->image, loc->rotation );
button->background = back;
button->keycode = sbutton->keycode;
button->down = 0;
if (slayout->has_dpad_rotation) {
/* Dpad keys must be rotated if the skin provides a 'dpad-rotation' field.
* this is used as a counter-measure to the fact that the framework always assumes
* that the physical D-Pad has been rotated when in landscape mode.
*/
button->keycode = android_keycode_rotate( button->keycode, -slayout->dpad_rotation );
}
skin_rect_rotate( &r, &sbutton->rect, loc->rotation );
r.pos.x += loc->anchor.x;
r.pos.y += loc->anchor.y;
button->origin = r.pos;
skin_rect_intersect( &button->rect, &r, frame );
}
static void
button_redraw( Button* button, SkinRect* rect, SDL_Surface* surface )
{
SkinRect r;
if (skin_rect_intersect( &r, rect, &button->rect ))
{
if ( button->down && button->image != SKIN_IMAGE_NONE )
{
SDL_Rect rs, rd;
rs.x = r.pos.x - button->origin.x;
rs.y = r.pos.y - button->origin.y;
rs.w = r.size.w;
rs.h = r.size.h;
rd.x = r.pos.x;
rd.y = r.pos.y;
rd.w = r.size.w;
rd.h = r.size.h;
if (button->image != SKIN_IMAGE_NONE) {
SDL_BlitSurface( skin_image_surface(button->image), &rs, surface, &rd );
if (button->down > 1)
SDL_BlitSurface( skin_image_surface(button->image), &rs, surface, &rd );
}
}
}
}
typedef struct {
char tracking;
char inside;
SkinPos pos;
ADisplay* display;
} FingerState;
static void
finger_state_reset( FingerState* finger )
{
finger->tracking = 0;
finger->inside = 0;
}
typedef struct {
Button* pressed;
Button* hover;
} ButtonState;
static void
button_state_reset( ButtonState* button )
{
button->pressed = NULL;
button->hover = NULL;
}
typedef struct {
char tracking;
SkinTrackBall* ball;
SkinRect rect;
SkinWindow* window;
} BallState;
static void
ball_state_reset( BallState* state, SkinWindow* window )
{
state->tracking = 0;
state->ball = NULL;
state->rect.pos.x = 0;
state->rect.pos.y = 0;
state->rect.size.w = 0;
state->rect.size.h = 0;
state->window = window;
}
static void
ball_state_redraw( BallState* state, SkinRect* rect, SDL_Surface* surface )
{
SkinRect r;
if (skin_rect_intersect( &r, rect, &state->rect ))
skin_trackball_draw( state->ball, 0, 0, surface );
}
static void
ball_state_show( BallState* state, int enable )
{
if (enable) {
if ( !state->tracking ) {
state->tracking = 1;
SDL_ShowCursor(0);
SDL_WM_GrabInput( SDL_GRAB_ON );
skin_trackball_refresh( state->ball );
skin_window_redraw( state->window, &state->rect );
}
} else {
if ( state->tracking ) {
state->tracking = 0;
SDL_WM_GrabInput( SDL_GRAB_OFF );
SDL_ShowCursor(1);
skin_window_redraw( state->window, &state->rect );
}
}
}
static void
ball_state_set( BallState* state, SkinTrackBall* ball )
{
ball_state_show( state, 0 );
state->ball = ball;
if (ball != NULL) {
SDL_Rect sr;
skin_trackball_rect( ball, &sr );
state->rect.pos.x = sr.x;
state->rect.pos.y = sr.y;
state->rect.size.w = sr.w;
state->rect.size.h = sr.h;
}
}
typedef struct Layout {
int num_buttons;
int num_backgrounds;
int num_displays;
unsigned color;
Button* buttons;
Background* backgrounds;
ADisplay* displays;
SkinRect rect;
SkinLayout* slayout;
} Layout;
#define LAYOUT_LOOP_BUTTONS(layout,button) \
do { \
Button* __button = (layout)->buttons; \
Button* __button_end = __button + (layout)->num_buttons; \
for ( ; __button < __button_end; __button ++ ) { \
Button* button = __button;
#define LAYOUT_LOOP_END_BUTTONS \
} \
} while (0);
#define LAYOUT_LOOP_DISPLAYS(layout,display) \
do { \
ADisplay* __display = (layout)->displays; \
ADisplay* __display_end = __display + (layout)->num_displays; \
for ( ; __display < __display_end; __display ++ ) { \
ADisplay* display = __display;
#define LAYOUT_LOOP_END_DISPLAYS \
} \
} while (0);
static void
layout_done( Layout* layout )
{
int nn;
for (nn = 0; nn < layout->num_buttons; nn++)
button_done( &layout->buttons[nn] );
for (nn = 0; nn < layout->num_backgrounds; nn++)
background_done( &layout->backgrounds[nn] );
for (nn = 0; nn < layout->num_displays; nn++)
display_done( &layout->displays[nn] );
AFREE( layout->buttons );
layout->buttons = NULL;
AFREE( layout->backgrounds );
layout->backgrounds = NULL;
AFREE( layout->displays );
layout->displays = NULL;
layout->num_buttons = 0;
layout->num_backgrounds = 0;
layout->num_displays = 0;
}
static int
layout_init( Layout* layout, SkinLayout* slayout )
{
int n_buttons, n_backgrounds, n_displays;
/* first, count the number of elements of each kind */
n_buttons = 0;
n_backgrounds = 0;
n_displays = 0;
layout->color = slayout->color;
layout->slayout = slayout;
SKIN_LAYOUT_LOOP_LOCS(slayout,loc)
SkinPart* part = loc->part;
if ( part->background->valid )
n_backgrounds += 1;
if ( part->display->valid )
n_displays += 1;
SKIN_PART_LOOP_BUTTONS(part, sbutton)
n_buttons += 1;
sbutton=sbutton;
SKIN_PART_LOOP_END
SKIN_LAYOUT_LOOP_END
layout->num_buttons = n_buttons;
layout->num_backgrounds = n_backgrounds;
layout->num_displays = n_displays;
/* now allocate arrays, then populate them */
AARRAY_NEW0(layout->buttons, n_buttons);
AARRAY_NEW0(layout->backgrounds, n_backgrounds);
AARRAY_NEW0(layout->displays, n_displays);
if (layout->buttons == NULL && n_buttons > 0) goto Fail;
if (layout->backgrounds == NULL && n_backgrounds > 0) goto Fail;
if (layout->displays == NULL && n_displays > 0) goto Fail;
n_buttons = 0;
n_backgrounds = 0;
n_displays = 0;
layout->rect.pos.x = 0;
layout->rect.pos.y = 0;
layout->rect.size = slayout->size;
SKIN_LAYOUT_LOOP_LOCS(slayout,loc)
SkinPart* part = loc->part;
Background* back = NULL;
if ( part->background->valid ) {
back = layout->backgrounds + n_backgrounds;
background_init( back, part->background, loc, &layout->rect );
n_backgrounds += 1;
}
if ( part->display->valid ) {
ADisplay* disp = layout->displays + n_displays;
display_init( disp, part->display, loc, &layout->rect );
n_displays += 1;
}
SKIN_PART_LOOP_BUTTONS(part, sbutton)
Button* button = layout->buttons + n_buttons;
button_init( button, sbutton, loc, back, &layout->rect, slayout );
n_buttons += 1;
SKIN_PART_LOOP_END
SKIN_LAYOUT_LOOP_END
return 0;
Fail:
layout_done(layout);
return -1;
}
struct SkinWindow {
SDL_Surface* surface;
Layout layout;
SkinPos pos;
FingerState finger;
ButtonState button;
BallState ball;
char enabled;
char fullscreen;
char no_display;
char enable_touch;
char enable_trackball;
char enable_dpad;
char enable_qwerty;
SkinImage* onion;
SkinRotation onion_rotation;
int onion_alpha;
int x_pos;
int y_pos;
SkinScaler* scaler;
int shrink;
double shrink_scale;
unsigned* shrink_pixels;
SDL_Surface* shrink_surface;
double effective_scale;
double effective_x;
double effective_y;
};
static void
add_finger_event(unsigned x, unsigned y, unsigned state)
{
//fprintf(stderr, "::: finger %d,%d %d\n", x, y, state);
/* NOTE: the 0 is used in hw/android/goldfish/events_device.c to
* differentiate between a touch-screen and a trackball event
*/
user_event_mouse(x, y, 0, state);
}
static void
skin_window_find_finger( SkinWindow* window,
int x,
int y )
{
FingerState* finger = &window->finger;
/* find the display that contains this movement */
finger->display = NULL;
finger->inside = 0;
if (!window->enable_touch)
return;
LAYOUT_LOOP_DISPLAYS(&window->layout,disp)
if ( skin_rect_contains( &disp->rect, x, y ) ) {
finger->inside = 1;
finger->display = disp;
finger->pos.x = x - disp->origin.x;
finger->pos.y = y - disp->origin.y;
skin_pos_rotate( &finger->pos, &finger->pos, -disp->rotation );
break;
}
LAYOUT_LOOP_END_DISPLAYS
}
static void
skin_window_move_mouse( SkinWindow* window,
int x,
int y )
{
FingerState* finger = &window->finger;
ButtonState* button = &window->button;
if (finger->tracking) {
ADisplay* disp = finger->display;
char inside = 1;
int dx = x - disp->rect.pos.x;
int dy = y - disp->rect.pos.y;
if (dx < 0) {
dx = 0;
inside = 0;
}
else if (dx >= disp->rect.size.w) {
dx = disp->rect.size.w - 1;
inside = 0;
}
if (dy < 0) {
dy = 0;
inside = 0;
} else if (dy >= disp->rect.size.h) {
dy = disp->rect.size.h-1;
inside = 0;
}
finger->inside = inside;
finger->pos.x = dx + (disp->rect.pos.x - disp->origin.x);
finger->pos.y = dy + (disp->rect.pos.y - disp->origin.y);
skin_pos_rotate( &finger->pos, &finger->pos, -disp->rotation );
}
{
Button* hover = button->hover;
if (hover) {
if ( skin_rect_contains( &hover->rect, x, y ) )
return;
hover->down = 0;
skin_window_redraw( window, &hover->rect );
button->hover = NULL;
}
hover = NULL;
LAYOUT_LOOP_BUTTONS( &window->layout, butt )
if ( skin_rect_contains( &butt->rect, x, y ) ) {
hover = butt;
break;
}
LAYOUT_LOOP_END_BUTTONS
/* filter DPAD and QWERTY buttons right here */
if (hover != NULL) {
switch (hover->keycode) {
/* these correspond to the DPad */
case kKeyCodeDpadUp:
case kKeyCodeDpadDown:
case kKeyCodeDpadLeft:
case kKeyCodeDpadRight:
case kKeyCodeDpadCenter:
if (!window->enable_dpad)
hover = NULL;
break;
/* these correspond to non-qwerty buttons */
case kKeyCodeSoftLeft:
case kKeyCodeSoftRight:
case kKeyCodeVolumeUp:
case kKeyCodeVolumeDown:
case kKeyCodePower:
case kKeyCodeHome:
case kKeyCodeBack:
case kKeyCodeCall:
case kKeyCodeEndCall:
case kKeyCodeTV:
case kKeyCodeEPG:
case kKeyCodeDVR:
case kKeyCodePrevious:
case kKeyCodeNext:
case kKeyCodePlay:
case kKeyCodePause:
case kKeyCodeStop:
case kKeyCodeRewind:
case kKeyCodeFastForward:
case kKeyCodeBookmarks:
case kKeyCodeCycleWindows:
case kKeyCodeChannelUp:
case kKeyCodeChannelDown:
break;
/* all the rest is assumed to be qwerty */
default:
if (!window->enable_qwerty)
hover = NULL;
}
}
if (hover != NULL) {
hover->down = 1;
skin_window_redraw( window, &hover->rect );
button->hover = hover;
}
}
}
static void
skin_window_trackball_press( SkinWindow* window, int down )
{
user_event_key( BTN_MOUSE, down );
}
static void
skin_window_trackball_move( SkinWindow* window, int xrel, int yrel )
{
BallState* state = &window->ball;
if ( skin_trackball_move( state->ball, xrel, yrel ) ) {
skin_trackball_refresh( state->ball );
skin_window_redraw( window, &state->rect );
}
}
void
skin_window_set_trackball( SkinWindow* window, SkinTrackBall* ball )
{
BallState* state = &window->ball;
ball_state_set( state, ball );
}
void
skin_window_show_trackball( SkinWindow* window, int enable )
{
BallState* state = &window->ball;
if (state->ball != NULL && window->enable_trackball) {
ball_state_show(state, enable);
}
}
/* Hide the OpenGL ES framebuffer */
static void
skin_window_hide_opengles( SkinWindow* window )
{
android_hideOpenglesWindow();
}
/* Show the OpenGL ES framebuffer window */
static void
skin_window_show_opengles( SkinWindow* window )
{
{
SDL_SysWMinfo wminfo;
void* winhandle;
ADisplay* disp = window->layout.displays;
SkinRect drect = disp->rect;
memset(&wminfo, 0, sizeof(wminfo));
SDL_GetWMInfo(&wminfo);
#ifdef _WIN32
winhandle = (void*)wminfo.window;
#elif defined(CONFIG_DARWIN)
winhandle = (void*)wminfo.nsWindowPtr;
#else
winhandle = (void*)wminfo.info.x11.window;
#endif
skin_scaler_get_scaled_rect(window->scaler, &drect, &drect);
android_showOpenglesWindow(winhandle, drect.pos.x, drect.pos.y,
drect.size.w, drect.size.h, disp->rotation * -90.);
}
}
static void
skin_window_redraw_opengles( SkinWindow* window )
{
android_redrawOpenglesWindow();
}
static int skin_window_reset_internal (SkinWindow*, SkinLayout*);
SkinWindow*
skin_window_create( SkinLayout* slayout, int x, int y, double scale, int no_display )
{
SkinWindow* window;
/* If scale is <= 0, we want to check that the window's default size if
* not larger than the current screen. Otherwise, we need to compute
* a new scale to ensure it is.
*/
if (scale <= 0) {
SDL_Rect monitor;
int screen_w, screen_h;
int win_w = slayout->size.w;
int win_h = slayout->size.h;
double scale_w, scale_h;
/* To account for things like menu bars, window decorations etc..
* We only compute 95% of the real screen size. */
SDL_WM_GetMonitorRect(&monitor);
screen_w = monitor.w * 0.95;
screen_h = monitor.h * 0.95;
scale_w = 1.0;
scale_h = 1.0;
if (screen_w < win_w && win_w > 1.)
scale_w = 1.0 * screen_w / win_w;
if (screen_h < win_h && win_h > 1.)
scale_h = 1.0 * screen_h / win_h;
scale = (scale_w <= scale_h) ? scale_w : scale_h;
VERBOSE_PRINT(init,"autoconfig: -scale %g", scale);
}
ANEW0(window);
window->shrink_scale = scale;
window->shrink = (scale != 1.0);
window->scaler = skin_scaler_create();
window->no_display = no_display;
/* enable everything by default */
window->enable_touch = 1;
window->enable_trackball = 1;
window->enable_dpad = 1;
window->enable_qwerty = 1;
window->x_pos = x;
window->y_pos = y;
if (skin_window_reset_internal(window, slayout) < 0) {
skin_window_free(window);
return NULL;
}
SDL_WM_SetPos( x, y );
/* Check that the window is fully visible */
if ( !window->no_display && !SDL_WM_IsFullyVisible(0) ) {
SDL_Rect monitor;
int win_x, win_y, win_w, win_h;
int new_x, new_y;
SDL_WM_GetMonitorRect(&monitor);
SDL_WM_GetPos(&win_x, &win_y);
win_w = window->surface->w;
win_h = window->surface->h;
/* First, we recenter the window */
new_x = (monitor.w - win_w)/2;
new_y = (monitor.h - win_h)/2;
/* If it is still too large, we ensure the top-border is visible */
if (new_y < 0)
new_y = 0;
/* Done */
SDL_WM_SetPos(new_x, new_y);
dprint( "emulator window was out of view and was recentered\n" );
}
skin_window_show_opengles(window);
return window;
}
void
skin_window_enable_touch( SkinWindow* window, int enabled )
{
window->enable_touch = !!enabled;
}
void
skin_window_enable_trackball( SkinWindow* window, int enabled )
{
window->enable_trackball = !!enabled;
}
void
skin_window_enable_dpad( SkinWindow* window, int enabled )
{
window->enable_dpad = !!enabled;
}
void
skin_window_enable_qwerty( SkinWindow* window, int enabled )
{
window->enable_qwerty = !!enabled;
}
void
skin_window_set_title( SkinWindow* window, const char* title )
{
if (window && title)
SDL_WM_SetCaption( title, title );
}
static void
skin_window_resize( SkinWindow* window )
{
if ( !window->no_display )
skin_window_hide_opengles(window);
/* now resize window */
if (window->surface) {
SDL_FreeSurface(window->surface);
window->surface = NULL;
}
if (window->shrink_surface) {
SDL_FreeSurface(window->shrink_surface);
window->shrink_surface = NULL;
}
if (window->shrink_pixels) {
AFREE(window->shrink_pixels);
window->shrink_pixels = NULL;
}
if ( !window->no_display ) {
int layout_w = window->layout.rect.size.w;
int layout_h = window->layout.rect.size.h;
int window_w = layout_w;
int window_h = layout_h;
int window_x = window->x_pos;
int window_y = window->y_pos;
int flags;
SDL_Surface* surface;
double scale = 1.0;
int fullscreen = window->fullscreen;
if (fullscreen) {
SDL_Rect r;
if (SDL_WM_GetMonitorRect(&r) < 0) {
fullscreen = 0;
} else {
double x_scale, y_scale;
window_x = r.x;
window_y = r.y;
window_w = r.w;
window_h = r.h;
x_scale = window_w * 1.0 / layout_w;
y_scale = window_h * 1.0 / layout_h;
scale = (x_scale <= y_scale) ? x_scale : y_scale;
}
}
else if (window->shrink) {
scale = window->shrink_scale;
window_w = (int) ceil(layout_w*scale);
window_h = (int) ceil(layout_h*scale);
}
{
char temp[32];
sprintf(temp, "%d,%d", window_x, window_y);
setenv("SDL_VIDEO_WINDOW_POS", temp, 1);
setenv("SDL_VIDEO_WINDOW_FORCE_VISIBLE", "1", 1);
}
flags = SDL_SWSURFACE;
if (fullscreen) {
flags |= SDL_FULLSCREEN;
}
surface = SDL_SetVideoMode( window_w, window_h, 32, flags );
if (surface == NULL) {
fprintf(stderr, "### Error: could not create or resize SDL window: %s\n", SDL_GetError() );
exit(1);
}
SDL_WM_SetPos( window_x, window_y );
window->effective_scale = scale;
window->effective_x = 0;
window->effective_y = 0;
if (fullscreen) {
window->effective_x = (window_w - layout_w*scale)*0.5;
window->effective_y = (window_h - layout_h*scale)*0.5;
}
if (scale == 1.0)
{
window->surface = surface;
skin_scaler_set( window->scaler, 1.0, 0, 0 );
}
else
{
window_w = (int) ceil(window_w / scale );
window_h = (int) ceil(window_h / scale );
window->shrink_surface = surface;
AARRAY_NEW0(window->shrink_pixels, window_w * window_h * 4);
if (window->shrink_pixels == NULL) {
fprintf(stderr, "### Error: could not allocate memory for rescaling surface\n");
exit(1);
}
window->surface = sdl_surface_from_argb32( window->shrink_pixels, window_w, window_h );
if (window->surface == NULL) {
fprintf(stderr, "### Error: could not create or resize SDL window: %s\n", SDL_GetError() );
exit(1);
}
skin_scaler_set( window->scaler, scale, window->effective_x, window->effective_y );
}
skin_window_show_opengles(window);
}
}
static int
skin_window_reset_internal ( SkinWindow* window, SkinLayout* slayout )
{
Layout layout;
ADisplay* disp;
if ( layout_init( &layout, slayout ) < 0 )
return -1;
layout_done( &window->layout );
window->layout = layout;
disp = window->layout.displays;
if (disp != NULL) {
if (slayout->onion_image) {
// Onion was specified in layout file.
display_set_onion( disp,
slayout->onion_image,
slayout->onion_rotation,
slayout->onion_alpha );
} else if (window->onion) {
// Onion was specified via command line.
display_set_onion( disp,
window->onion,
window->onion_rotation,
window->onion_alpha );
}
}
skin_window_resize(window);
finger_state_reset( &window->finger );
button_state_reset( &window->button );
ball_state_reset( &window->ball, window );
skin_window_redraw( window, NULL );
if (slayout->event_type != 0) {
user_event_generic( slayout->event_type, slayout->event_code, slayout->event_value );
/* XXX: hack, replace by better code here */
if (slayout->event_value != 0)
corecmd_set_coarse_orientation( ANDROID_COARSE_PORTRAIT );
else
corecmd_set_coarse_orientation( ANDROID_COARSE_LANDSCAPE );
}
return 0;
}
int
skin_window_reset ( SkinWindow* window, SkinLayout* slayout )
{
if (!window->fullscreen) {
SDL_WM_GetPos(&window->x_pos, &window->y_pos);
}
if (skin_window_reset_internal( window, slayout ) < 0)
return -1;
return 0;
}
void
skin_window_set_lcd_brightness( SkinWindow* window, int brightness )
{
ADisplay* disp = window->layout.displays;
if (disp != NULL) {
disp->brightness = brightness;
skin_window_redraw( window, NULL );
}
}
void
skin_window_free ( SkinWindow* window )
{
if (window) {
if (window->surface) {
SDL_FreeSurface(window->surface);
window->surface = NULL;
}
if (window->shrink_surface) {
SDL_FreeSurface(window->shrink_surface);
window->shrink_surface = NULL;
}
if (window->shrink_pixels) {
AFREE(window->shrink_pixels);
window->shrink_pixels = NULL;
}
if (window->onion) {
skin_image_unref( &window->onion );
window->onion_rotation = SKIN_ROTATION_0;
}
if (window->scaler) {
skin_scaler_free(window->scaler);
window->scaler = NULL;
}
layout_done( &window->layout );
AFREE(window);
}
}
void
skin_window_set_onion( SkinWindow* window,
SkinImage* onion,
SkinRotation onion_rotation,
int onion_alpha )
{
ADisplay* disp;
SkinImage* old = window->onion;
window->onion = skin_image_ref(onion);
window->onion_rotation = onion_rotation;
window->onion_alpha = onion_alpha;
skin_image_unref( &old );
disp = window->layout.displays;
if (disp != NULL)
display_set_onion( disp, window->onion, onion_rotation, onion_alpha );
}
static void
skin_window_update_shrink( SkinWindow* window, SkinRect* rect )
{
skin_scaler_scale( window->scaler, window->shrink_surface, window->surface,
rect->pos.x, rect->pos.y, rect->size.w, rect->size.h );
}
void
skin_window_set_scale( SkinWindow* window, double scale )
{
window->shrink = (scale != 1.0);
window->shrink_scale = scale;
skin_window_resize( window );
skin_window_redraw( window, NULL );
}
static uint32_t
sdl_surface_map_argb( SDL_Surface* s, uint32_t c )
{
if (s != NULL) {
return SDL_MapRGBA( s->format,
((c) >> 16) & 255,
((c) >> 8) & 255,
((c) & 255),
((c) >> 24) & 255 );
}
return 0x00000000;
}
void
skin_window_redraw( SkinWindow* window, SkinRect* rect )
{
if (window != NULL && window->surface != NULL) {
Layout* layout = &window->layout;
if (rect == NULL)
rect = &layout->rect;
{
SkinRect r;
if ( skin_rect_intersect( &r, rect, &layout->rect ) ) {
SDL_Rect rd;
rd.x = r.pos.x;
rd.y = r.pos.y;
rd.w = r.size.w;
rd.h = r.size.h;
SDL_FillRect( window->surface, &rd,
sdl_surface_map_argb( window->surface, layout->color ));
}
}
{
Background* back = layout->backgrounds;
Background* end = back + layout->num_backgrounds;
for ( ; back < end; back++ )
background_redraw( back, rect, window->surface );
}
{
ADisplay* disp = layout->displays;
ADisplay* end = disp + layout->num_displays;
for ( ; disp < end; disp++ )
display_redraw( disp, rect, window->surface );
}
{
Button* button = layout->buttons;
Button* end = button + layout->num_buttons;
for ( ; button < end; button++ )
button_redraw( button, rect, window->surface );
}
if ( window->ball.tracking )
ball_state_redraw( &window->ball, rect, window->surface );
if (window->effective_scale != 1.0)
skin_window_update_shrink( window, rect );
else
{
SDL_Rect rd;
rd.x = rect->pos.x;
rd.y = rect->pos.y;
rd.w = rect->size.w;
rd.h = rect->size.h;
SDL_UpdateRects( window->surface, 1, &rd );
}
skin_window_redraw_opengles( window );
}
}
void
skin_window_toggle_fullscreen( SkinWindow* window )
{
if (window && window->surface) {
if (!window->fullscreen)
SDL_WM_GetPos( &window->x_pos, &window->y_pos );
window->fullscreen = !window->fullscreen;
skin_window_resize( window );
skin_window_redraw( window, NULL );
}
}
void
skin_window_get_display( SkinWindow* window, ADisplayInfo *info )
{
ADisplay* disp = window->layout.displays;
if (disp != NULL) {
info->width = disp->datasize.w;
info->height = disp->datasize.h;
info->rotation = disp->rotation;
info->data = disp->data;
} else {
info->width = 0;
info->height = 0;
info->rotation = SKIN_ROTATION_0;
info->data = NULL;
}
}
static void
skin_window_map_to_scale( SkinWindow* window, int *x, int *y )
{
*x = (*x - window->effective_x) / window->effective_scale;
*y = (*y - window->effective_y) / window->effective_scale;
}
void
skin_window_process_event( SkinWindow* window, SDL_Event* ev )
{
Button* button;
int mx, my;
if (!window->surface)
return;
switch (ev->type) {
case SDL_MOUSEBUTTONDOWN:
if ( window->ball.tracking ) {
skin_window_trackball_press( window, 1 );
break;
}
mx = ev->button.x;
my = ev->button.y;
skin_window_map_to_scale( window, &mx, &my );
skin_window_move_mouse( window, mx, my );
skin_window_find_finger( window, mx, my );
#if 0
printf("down: x=%d y=%d fx=%d fy=%d fis=%d\n",
ev->button.x, ev->button.y, window->finger.pos.x,
window->finger.pos.y, window->finger.inside);
#endif
if (window->finger.inside) {
window->finger.tracking = 1;
add_finger_event(window->finger.pos.x, window->finger.pos.y, 1);
} else {
window->button.pressed = NULL;
button = window->button.hover;
if(button) {
button->down += 1;
skin_window_redraw( window, &button->rect );
window->button.pressed = button;
if(button->keycode) {
user_event_key(button->keycode, 1);
}
}
}
break;
case SDL_MOUSEBUTTONUP:
if ( window->ball.tracking ) {
skin_window_trackball_press( window, 0 );
break;
}
button = window->button.pressed;
mx = ev->button.x;
my = ev->button.y;
skin_window_map_to_scale( window, &mx, &my );
if (button)
{
button->down = 0;
skin_window_redraw( window, &button->rect );
if(button->keycode) {
user_event_key(button->keycode, 0);
}
window->button.pressed = NULL;
window->button.hover = NULL;
skin_window_move_mouse( window, mx, my );
}
else if (window->finger.tracking)
{
skin_window_move_mouse( window, mx, my );
window->finger.tracking = 0;
add_finger_event( window->finger.pos.x, window->finger.pos.y, 0);
}
break;
case SDL_MOUSEMOTION:
if ( window->ball.tracking ) {
skin_window_trackball_move( window, ev->motion.xrel, ev->motion.yrel );
break;
}
mx = ev->button.x;
my = ev->button.y;
skin_window_map_to_scale( window, &mx, &my );
if ( !window->button.pressed )
{
skin_window_move_mouse( window, mx, my );
if ( window->finger.tracking ) {
add_finger_event( window->finger.pos.x, window->finger.pos.y, 1 );
}
}
break;
case SDL_VIDEOEXPOSE:
skin_window_redraw_opengles(window);
break;
}
}
static ADisplay*
skin_window_display( SkinWindow* window )
{
return window->layout.displays;
}
void
skin_window_update_display( SkinWindow* window, int x, int y, int w, int h )
{
ADisplay* disp = skin_window_display(window);
if ( !window->surface )
return;
if (disp != NULL) {
SkinRect r;
r.pos.x = x;
r.pos.y = y;
r.size.w = w;
r.size.h = h;
skin_rect_rotate( &r, &r, disp->rotation );
r.pos.x += disp->origin.x;
r.pos.y += disp->origin.y;
if (window->effective_scale != 1.0)
skin_window_redraw( window, &r );
else
display_redraw( disp, &r, window->surface );
}
}