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rockbox/apps/plugins/lib/osd.c
William Wilgus 3237ae4a4f LCD core move buf ptr and address look up function viewport struct 
I'm currently running up against the limitations of the lcd_draw functions
I want these functions to be able to be used on any size buffer not
just buffers with a stride matching the underlying device

[DONE] allow the framebuffer to be decoupled from the device framebuffer
[DONE need examples] allow for some simple blit like transformations
[DONE] remove the device framebuffer from the plugin api
[DONE}ditto remote framebuffer
[DONE] remove _viewport_get_framebuffer you can call struct *vp = lcd_set_viewport(NULL) and vp->buffer->fb_ptr

while remote lcds may compile (and work in the sim) its not been tested on targets

[FIXED] backdrops need work to be screen agnostic

[FIXED] screen statusbar is not being combined into the main viewport correctly yet

[FIXED] screen elements are displayed incorrectly  after switch to void*

[FIXED] core didn't restore proper viewport on splash etc.

[NEEDS TESTING] remote lcd garbled data

[FIXED] osd lib garbled screen on bmp_part

[FIXED] grey_set_vp needs to return old viewport like lcd_set_viewport

[FIXED] Viewport update now handles viewports with differing buffers/strides by copying to the main buffer

[FIXED] splash on top of WPS leaves old framebuffer data (doesn't redraw)
[UPDATE] refined this a bit more to have clear_viewport set the clean bit and have skin_render do its own screen clear
scrolling viewports no longer trigger wps refresh
also fixed a bug where guisyncyesno was displaying and then disappearing

[ADDED!] New LCD macros that allow you to create properly size frame buffers in you desired size without wasting bytes
(LCD_ and LCD_REMOTE_)
LCD_STRIDE(w, h) same as STRIDE_MAIN
LCD_FBSTRIDE(w, h) returns target specific stride for a buffer W x H
LCD_NBELEMS(w, h) returns the number of fb_data sized elemenst needed for a buffer W x H
LCD_NATIVE_STRIDE(s) conversion between rockbox native vertical and lcd native stride (2bitH)
test_viewports.c has an example of usage

[FIXED!!] 2bit targets don't respect non-native strides
[FIXED] Few define snags

Change-Id: I0d04c3834e464eca84a5a715743a297a0cefd0af
2020-10-26 12:28:48 -04:00

880 lines
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/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Floating on-screen display
*
* Copyright (C) 2012 Michael Sevakis
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#include "plugin.h"
#include "grey.h"
#include "osd.h"
#if 1
#undef DEBUGF
#define DEBUGF(...)
#endif
#if defined(SIMULATOR) && LCD_DEPTH < 4
/* Sim isn't using --ffunction-sections thus greylib references will happen
here even if not using this with greylib on a grayscale display, which
demands that a struct _grey_info exist. */
#ifndef _WIN32
__attribute__((weak))
#endif /* _WIN32 */
struct _grey_info _grey_info;
#endif /* defined(SIMULATOR) && LCD_DEPTH < 4 */
/* At this time: assumes use of the default viewport for normal drawing */
/* If multiple OSD's are wanted, could convert to caller-allocated */
struct osd
{
enum osd_status
{
OSD_DISABLED = 0, /* Disabled entirely */
OSD_HIDDEN, /* Hidden from view */
OSD_VISIBLE, /* Visible on screen */
OSD_ERASED, /* Erased in preparation for regular drawing */
} status; /* View status */
struct viewport vp; /* Clipping viewport */
struct frame_buffer_t framebuf; /* Holds framebuffer reference */
int lcd_bitmap_stride; /* Stride of LCD bitmap */
void *lcd_bitmap_data; /* Backbuffer framebuffer data */
int back_bitmap_stride; /* Stride of backbuffer bitmap */
void *back_bitmap_data; /* LCD framebuffer data */
int maxwidth; /* How wide may it be at most? */
int maxheight; /* How high may it be at most? */
long timeout; /* Current popup stay duration */
long hide_tick; /* Tick when it should be hidden */
osd_draw_cb_fn_t draw_cb; /* Draw update callback */
/* Functions to factilitate interface compatibility of OSD types */
void * (*init_buffers)(struct osd *osd, unsigned flags, void *buf,
size_t *bufsize);
void (*set_viewport_pos)(struct viewport *vp, int x, int y, int width,
int height);
void (*lcd_update)(void);
void (*lcd_update_rect)(int x, int y, int width, int height);
struct viewport *(*lcd_set_viewport)(struct viewport *vp);
void (*lcd_set_framebuffer)(void *buf);
void (*lcd_framebuffer_set_pos)(int x, int y, int width, int height);
void (*lcd_bitmap_part)(const void *src, int src_x, int src_y,
int stride, int x, int y, int width, int height);
};
static struct osd native_osd;
#if LCD_DEPTH < 4
static struct osd grey_osd;
#endif
/* Framebuffer allocation macros */
#if LCD_DEPTH == 1
# if LCD_PIXELFORMAT == HORIZONTAL_PACKING
# define _OSD_WIDTH2BYTES(w) (((w)+7)/8)
# define _OSD_BYTES2WIDTH(b) ((b)*8)
# elif LCD_PIXELFORMAT == VERTICAL_PACKING
# define _OSD_HEIGHT2BYTES(h) (((h)+7)/8)
# define _OSD_BYTES2HEIGHT(b) ((b)*8)
# else
# error Unknown 1-bit format; please define macros
# endif /* LCD_PIXELFORMAT */
#elif LCD_DEPTH == 2
# if LCD_PIXELFORMAT == HORIZONTAL_PACKING
# define _OSD_WIDTH2BYTES(w) (((w)+3)/4)
# define _OSD_BYTES2WIDTH(b) ((b)*4)
# elif LCD_PIXELFORMAT == VERTICAL_PACKING
# define _OSD_HEIGHT2BYTES(h) (((h)+3)/4)
# define _OSD_BYTES2HEIGHT(b) ((b)*4)
# elif LCD_PIXELFORMAT == VERTICAL_INTERLEAVED
# define _OSD_HEIGHT2BYTES(h) (((h)+7)/8*2)
# define _OSD_BYTES2HEIGHT(b) ((b)/2*8)
# else
# error Unknown 2-bit format; please define macros
# endif /* LCD_PIXELFORMAT */
#elif LCD_DEPTH == 16
# if defined(LCD_STRIDEFORMAT) && LCD_STRIDEFORMAT == VERTICAL_STRIDE
# define _OSD_HEIGHT2BYTES(h) ((h)*2)
# define _OSD_BYTES2HEIGHT(b) ((b)/2)
# else /* !defined(LCD_STRIDEFORMAT) || LCD_STRIDEFORMAT != VERTICAL_STRIDE */
# define _OSD_WIDTH2BYTES(w) ((w)*2)
# define _OSD_BYTES2WIDTH(b) ((b)/2)
# endif /* end stride type selection */
#elif LCD_DEPTH == 24
# define _OSD_WIDTH2BYTES(w) ((w)*3)
# define _OSD_BYTES2WIDTH(b) ((b)/3)
#elif LCD_DEPTH == 32
# define _OSD_WIDTH2BYTES(w) ((w)*4)
# define _OSD_BYTES2WIDTH(b) ((b)/4)
#else /* other LCD depth */
# error Unknown LCD depth; please define macros
#endif /* LCD_DEPTH */
/* Set defaults if not defined differently */
#ifndef _OSD_WIDTH2BYTES
# define _OSD_WIDTH2BYTES(w) (w)
#endif
#ifndef _OSD_BYTES2WIDTH
# define _OSD_BYTES2WIDTH(b) (b)
#endif
#ifndef _OSD_HEIGHT2BYTES
# define _OSD_HEIGHT2BYTES(h) (h)
#endif
#ifndef _OSD_BYTES2HEIGHT
# define _OSD_BYTES2HEIGHT(b) (b)
#endif
#ifndef _OSD_BUFSIZE
# define _OSD_BUFSIZE(w, h) (_OSD_WIDTH2BYTES(w)*_OSD_HEIGHT2BYTES(h))
#endif
static void _osd_destroy(struct osd *osd);
static bool _osd_show(struct osd *osd, unsigned flags);
/** Native LCD routines **/
/* Create a bitmap framebuffer from a buffer */
static void * _osd_lcd_init_buffers(struct osd *osd, unsigned flags,
void *buf, size_t *bufsize)
{
/* Used as dest, the LCD functions cannot deal with alternate
strides as of now - the stride guides the calulations. If
that is no longer the case, then width or height can be
used instead (and less memory needed for a small surface!).
IOW: crappiness means one dimension is non-negotiable.
*/
DEBUGF("OSD: in(buf=%p bufsize=%lu)\n", buf,
(unsigned long)*bufsize);
rb->viewport_set_fullscreen(&osd->vp, SCREEN_MAIN);
#if defined(LCD_STRIDEFORMAT) && LCD_STRIDEFORMAT == VERTICAL_STRIDE
int colbytes = _OSD_HEIGHT2BYTES(LCD_HEIGHT);
int bytecols = *bufsize / colbytes;
int w = _OSD_BYTES2WIDTH(bytecols);
int h = _OSD_BYTES2HEIGHT(colbytes);
if (flags & OSD_INIT_MAJOR_HEIGHT)
{
if (w == 0 || ((flags & OSD_INIT_MINOR_MIN) && w < osd->maxwidth))
{
DEBUGF("OSD: not enough buffer\n");
return NULL; /* not enough buffer */
}
if ((flags & OSD_INIT_MINOR_MAX) && w > osd->maxwidth)
w = osd->maxwidth;
}
else /* OSD_INIT_MAJOR_WIDTH implied */
{
if (w == 0 || w < osd->maxwidth)
{
DEBUGF("OSD: not enough buffer\n");
return NULL; /* not enough buffer */
}
else if (w > osd->maxwidth)
{
w = osd->maxwidth;
}
}
w = _OSD_BYTES2WIDTH(_OSD_WIDTH2BYTES(w));
osd->lcd_bitmap_stride = _OSD_BYTES2HEIGHT(_OSD_HEIGHT2BYTES(LCD_HEIGHT));
osd->back_bitmap_stride = h;
#else /* !defined(LCD_STRIDEFORMAT) || LCD_STRIDEFORMAT != VERTICAL_STRIDE */
int rowbytes = _OSD_WIDTH2BYTES(LCD_WIDTH);
int byterows = *bufsize / rowbytes;
int w = _OSD_BYTES2WIDTH(rowbytes);
int h = _OSD_BYTES2HEIGHT(byterows);
if (flags & OSD_INIT_MAJOR_HEIGHT)
{
if (h == 0 || h < osd->maxheight)
{
DEBUGF("OSD: not enough buffer\n");
return NULL;
}
else if (h > osd->maxheight)
{
h = osd->maxheight;
}
}
else /* OSD_INIT_MAJOR_WIDTH implied */
{
if (h == 0 || ((flags & OSD_INIT_MINOR_MIN) && h < osd->maxheight))
{
DEBUGF("OSD: not enough buffer\n");
return NULL;
}
if ((flags & OSD_INIT_MINOR_MAX) && h > osd->maxheight)
h = osd->maxheight;
}
h = _OSD_BYTES2HEIGHT(_OSD_HEIGHT2BYTES(h));
osd->lcd_bitmap_stride = _OSD_BYTES2WIDTH(_OSD_WIDTH2BYTES(LCD_WIDTH));
osd->back_bitmap_stride = w;
#endif /* end stride type selection */
/* vp is currently initialized to the default framebuffer */
osd->lcd_bitmap_data = osd->vp.buffer->data;
osd->back_bitmap_data = buf;
osd->maxwidth = w;
osd->maxheight = h;
*bufsize = _OSD_BUFSIZE(w, h);
DEBUGF("OSD: addr(fb=%p bb=%p)\n", osd->lcd_bitmap_data,
osd->back_bitmap_data);
DEBUGF("OSD: w=%d h=%d bufsz=%lu\n", w, h, (unsigned long)*bufsize);
return buf;
}
/* Set viewport coordinates */
static void _osd_lcd_viewport_set_pos(
struct viewport *vp, int x, int y, int width, int height)
{
vp->x = x;
vp->y = y;
vp->width = width;
vp->height = height;
}
#if LCD_DEPTH < 4
/** Greylib LCD routines **/
/* Create a greylib bitmap framebuffer from a buffer */
static void * _osd_grey_init_buffers(struct osd *osd, unsigned flags,
void *buf, size_t *bufsize)
{
int w, h;
DEBUGF("OSD (grey): in(buf=%p bufsize=%lu)\n", buf,
(unsigned long)*bufsize);
grey_viewport_set_fullscreen(&osd->vp, SCREEN_MAIN);
if (flags & OSD_INIT_MAJOR_HEIGHT)
{
h = osd->maxheight;
w = *bufsize / h;
if (w == 0 || ((flags & OSD_INIT_MINOR_MIN) && w < osd->maxwidth))
{
DEBUGF("OSD (grey): Not enough buffer\n");
return NULL;
}
if ((flags & OSD_INIT_MINOR_MAX) && w > osd->maxwidth)
w = osd->maxwidth;
}
else /* OSD_INIT_MAJOR_WIDTH implied */
{
w = osd->maxwidth;
h = *bufsize / w;
if (h == 0 || ((flags & OSD_INIT_MINOR_MIN) && h < osd->maxheight))
{
DEBUGF("OSD (grey): Not enough buffer\n");
return NULL;
}
if ((flags & OSD_INIT_MINOR_MAX) && h > osd->maxheight)
h = osd->maxheight;
}
/* Have to peek into _grey_info a bit */
osd->lcd_bitmap_stride = _grey_info.width;
osd->lcd_bitmap_data = _grey_info.buffer;
osd->back_bitmap_stride = w;
osd->back_bitmap_data = buf;
osd->maxwidth = w;
osd->maxheight = h;
*bufsize = w * h;
DEBUGF("OSD (grey): addr(fb=%p bb=%p)\n", osd->lcd_bitmap_data,
osd->back_bitmap_data);
DEBUGF("OSD (grey): w=%d h=%d bufsz=%lu\n", w, h, (unsigned long)*bufsize);
return buf;
}
#endif /* LCD_DEPTH < 4*/
/** Common LCD routines **/
/* Draw the OSD image portion using the callback */
static void _osd_draw_osd_rect(struct osd *osd, int x, int y,
int width, int height)
{
osd->lcd_set_viewport(&osd->vp);
osd->draw_cb(x, y, width, height);
osd->lcd_set_viewport(NULL);
}
/* Draw the OSD image using the callback */
static void _osd_draw_osd(struct osd *osd)
{
_osd_draw_osd_rect(osd, 0, 0, osd->vp.width, osd->vp.height);
}
static void _osd_update_viewport(struct osd *osd)
{
osd->lcd_update_rect(osd->vp.x, osd->vp.y, osd->vp.width,
osd->vp.height);
}
/* Sync the backbuffer to the framebuffer image */
static void _osd_update_back_buffer(struct osd *osd)
{
/* Assume it's starting with default viewport for now */
osd->lcd_set_framebuffer(osd->back_bitmap_data);
#if LCD_DEPTH < 4
if (osd->lcd_framebuffer_set_pos)
osd->lcd_framebuffer_set_pos(0, 0, osd->maxwidth, osd->maxheight);
#endif /* LCD_DEPTH < 4 */
osd->lcd_bitmap_part(osd->lcd_bitmap_data, osd->vp.x, osd->vp.y,
osd->lcd_bitmap_stride, 0, 0, osd->vp.width,
osd->vp.height);
/* Assume it was on default framebuffer for now */
osd->lcd_set_framebuffer(NULL);
}
/* Erase the OSD to restore the framebuffer image */
static void _osd_erase_osd(struct osd *osd)
{
osd->lcd_bitmap_part(osd->back_bitmap_data, 0, 0, osd->back_bitmap_stride,
osd->vp.x, osd->vp.y, osd->vp.width, osd->vp.height);
}
/* Initialized the OSD and set its backbuffer */
static bool _osd_init(struct osd *osd, unsigned flags, void *backbuf,
size_t backbuf_size, osd_draw_cb_fn_t draw_cb,
int *width, int *height, size_t *bufused)
{
_osd_destroy(osd);
if (!draw_cb)
return false;
if (!backbuf)
return false;
void *backbuf_orig = backbuf; /* Save in case of ptr advance */
ALIGN_BUFFER(backbuf, backbuf_size, MAX(FB_DATA_SZ, 4));
if (!backbuf_size)
return false;
if (flags & OSD_INIT_MAJOR_HEIGHT)
{
if (!height || *height <= 0)
return false;
if ((flags & (OSD_INIT_MINOR_MIN | OSD_INIT_MINOR_MAX)) &&
(!width || *width <= 0))
{
return false;
}
}
else
{
if (!width || *width <= 0)
return false;
if ((flags & (OSD_INIT_MINOR_MIN | OSD_INIT_MINOR_MAX)) &&
(!height || *height <= 0))
{
return false;
}
}
/* Store requested sizes in max(width|height) */
if (width)
osd->maxwidth = *width;
else
osd->maxwidth = LCD_WIDTH;
if (height)
osd->maxheight = *height;
else
osd->maxheight = LCD_HEIGHT;
if (!osd->init_buffers(osd, flags, backbuf, &backbuf_size))
{
osd->maxwidth = osd->maxheight = 0;
return false;
}
osd->draw_cb = draw_cb;
if (bufused)
*bufused = backbuf_size + (backbuf_orig - backbuf);
if (width)
*width = osd->maxwidth;
if (height)
*height = osd->maxheight;
/* Set the default position to the whole thing */
osd->set_viewport_pos(&osd->vp, 0, 0, osd->maxwidth, osd->maxheight);
osd->status = OSD_HIDDEN; /* Ready when you are */
return true;
}
static void _osd_destroy(struct osd *osd)
{
_osd_show(osd, OSD_HIDE);
/* Set to essential defaults */
osd->status = OSD_DISABLED;
osd->set_viewport_pos(&osd->vp, 0, 0, 0, 0);
osd->maxwidth = osd->maxheight = 0;
osd->timeout = 0;
}
/* Redraw the entire OSD */
static bool _osd_update(struct osd *osd)
{
if (osd->status != OSD_VISIBLE)
return false;
_osd_draw_osd(osd);
_osd_update_viewport(osd);
return true;
}
/* Show/Hide the OSD on screen */
static bool _osd_show(struct osd *osd, unsigned flags)
{
if (flags & OSD_SHOW)
{
switch (osd->status)
{
case OSD_DISABLED:
break; /* No change */
case OSD_HIDDEN:
_osd_update_back_buffer(osd);
osd->status = OSD_VISIBLE;
_osd_update(osd);
osd->hide_tick = *rb->current_tick + osd->timeout;
break;
case OSD_VISIBLE:
if (flags & OSD_UPDATENOW)
_osd_update(osd);
/* Fall-through */
case OSD_ERASED:
osd->hide_tick = *rb->current_tick + osd->timeout;
return true;
}
}
else
{
switch (osd->status)
{
case OSD_DISABLED:
case OSD_HIDDEN:
break;
case OSD_VISIBLE:
_osd_erase_osd(osd);
_osd_update_viewport(osd);
/* Fall-through */
case OSD_ERASED:
osd->status = OSD_HIDDEN;
return true;
}
}
return false;
}
/* Redraw part of the OSD (viewport-relative coordinates) */
static bool _osd_update_rect(struct osd *osd, int x, int y, int width,
int height)
{
if (osd->status != OSD_VISIBLE)
return false;
_osd_draw_osd_rect(osd, x, y, width, height);
int vp_x = osd->vp.x;
int vp_w = osd->vp.width;
if (x + width > vp_w)
width = vp_w - x;
if (x < 0)
{
width += x;
x = 0;
}
if (width <= 0)
return false;
int vp_y = osd->vp.y;
int vp_h = osd->vp.height;
if (y + height > vp_h)
height = vp_h - y;
if (y < 0)
{
height += y;
y = 0;
}
if (height <= 0)
return false;
osd->lcd_update_rect(vp_x + x, vp_y + y, width, height);
return true;
}
/* Set a new screen location and size (screen coordinates) */
static bool _osd_update_pos(struct osd *osd, int x, int y, int width,
int height)
{
if (osd->status == OSD_DISABLED)
return false;
if (width < 0)
width = 0;
else if (width > osd->maxwidth)
width = osd->maxwidth;
if (height < 0)
height = 0;
else if (height > osd->maxheight)
height = osd->maxheight;
int vp_x = osd->vp.x;
int vp_y = osd->vp.y;
int vp_w = osd->vp.width;
int vp_h = osd->vp.height;
if (x == vp_x && y == vp_y && width == vp_w && height == vp_h)
return false; /* No change */
if (osd->status != OSD_VISIBLE)
{
/* Not visible - just update pos */
osd->set_viewport_pos(&osd->vp, x, y, width, height);
return false;
}
/* Visible area has changed */
_osd_erase_osd(osd);
/* Update the smallest rectangle that encloses both the old and new
regions to make the change free of flicker (they may overlap) */
int xu = MIN(vp_x, x);
int yu = MIN(vp_y, y);
int wu = MAX(vp_x + vp_w, x + width) - xu;
int hu = MAX(vp_y + vp_h, y + height) - yu;
osd->set_viewport_pos(&osd->vp, x, y, width, height);
_osd_update_back_buffer(osd);
_osd_draw_osd(osd);
osd->lcd_update_rect(xu, yu, wu, hu);
return true;
}
/* Call periodically to have the OSD timeout and hide itself */
static void _osd_monitor_timeout(struct osd *osd)
{
if (osd->status <= OSD_HIDDEN)
return; /* Already hidden/disabled */
if (osd->timeout > 0 && TIME_AFTER(*rb->current_tick, osd->hide_tick))
_osd_show(osd, OSD_HIDE);
}
/* Set the OSD timeout value. <= 0 = never timeout */
static void _osd_set_timeout(struct osd *osd, long timeout)
{
if (osd->status == OSD_DISABLED)
return;
osd->timeout = timeout;
_osd_monitor_timeout(osd);
}
/* Use the OSD viewport context */
static inline struct viewport * _osd_get_viewport(struct osd *osd)
{
return &osd->vp;
}
/* Get the maximum dimensions calculated by osd_init() */
static void _osd_get_max_dims(struct osd *osd,
int *maxwidth, int *maxheight)
{
if (maxwidth)
*maxwidth = osd->maxwidth;
if (maxheight)
*maxheight = osd->maxheight;
}
/* Is the OSD enabled? */
static inline bool _osd_enabled(struct osd *osd)
{
return osd->status != OSD_DISABLED;
}
/** LCD update substitutes **/
/* Prepare LCD framebuffer for regular drawing */
static inline void _osd_lcd_update_prepare(struct osd *osd)
{
if (osd->status == OSD_VISIBLE)
{
osd->status = OSD_ERASED;
_osd_erase_osd(osd);
}
}
/* Update the whole screen */
static inline void _osd_lcd_update(struct osd *osd)
{
if (osd->status == OSD_ERASED)
{
/* Save the screen image underneath and restore the OSD image */
osd->status = OSD_VISIBLE;
_osd_update_back_buffer(osd);
_osd_draw_osd(osd);
}
osd->lcd_update();
}
/* Update a part of the screen */
static void _osd_lcd_update_rect(struct osd *osd,
int x, int y, int width, int height)
{
if (osd->status == OSD_ERASED)
{
/* Save the screen image underneath and restore the OSD image */
osd->status = OSD_VISIBLE;
_osd_update_back_buffer(osd);
_osd_draw_osd(osd);
}
osd->lcd_update_rect(x, y, width, height);
}
static void _osd_lcd_viewport_set_buffer(void *buffer)
{
if (buffer)
{
native_osd.framebuf.data = buffer;
native_osd.framebuf.elems = native_osd.maxheight * native_osd.maxwidth;
native_osd.framebuf.get_address_fn = NULL; /*Default iterator*/
if (buffer == native_osd.back_bitmap_data)
native_osd.framebuf.stride = (native_osd.back_bitmap_stride);
else
native_osd.framebuf.stride = (native_osd.lcd_bitmap_stride);
rb->viewport_set_buffer(NULL, &native_osd.framebuf, SCREEN_MAIN);
}
else
rb->viewport_set_buffer(NULL, NULL, SCREEN_MAIN);
}
/* Native LCD, public */
bool osd_init(unsigned flags, void *backbuf, size_t backbuf_size,
osd_draw_cb_fn_t draw_cb, int *width, int *height,
size_t *bufused)
{
native_osd.init_buffers = _osd_lcd_init_buffers;
native_osd.set_viewport_pos = _osd_lcd_viewport_set_pos;
native_osd.lcd_update = rb->lcd_update;
native_osd.lcd_update_rect = rb->lcd_update_rect;
native_osd.lcd_set_viewport = rb->lcd_set_viewport;
native_osd.lcd_set_framebuffer = (void *)_osd_lcd_viewport_set_buffer;
#if LCD_DEPTH < 4
native_osd.lcd_framebuffer_set_pos = NULL;
#endif /* LCD_DEPTH < 4 */
native_osd.lcd_bitmap_part = (void *)rb->lcd_bitmap_part;
return _osd_init(&native_osd, flags, backbuf, backbuf_size, draw_cb,
width, height, bufused);
}
void osd_destroy(void)
{
return _osd_destroy(&native_osd);
}
bool osd_show(unsigned flags)
{
return _osd_show(&native_osd, flags);
}
bool osd_update(void)
{
return _osd_update(&native_osd);
}
bool osd_update_rect(int x, int y, int width, int height)
{
return _osd_update_rect(&native_osd, x, y, width, height);
}
bool osd_update_pos(int x, int y, int width, int height)
{
return _osd_update_pos(&native_osd, x, y, width, height);
}
void osd_monitor_timeout(void)
{
_osd_monitor_timeout(&native_osd);
}
void osd_set_timeout(long timeout)
{
_osd_set_timeout(&native_osd, timeout);
}
struct viewport * osd_get_viewport(void)
{
return _osd_get_viewport(&native_osd);
}
void osd_get_max_dims(int *maxwidth, int *maxheight)
{
_osd_get_max_dims(&native_osd, maxwidth, maxheight);
}
bool osd_enabled(void)
{
return _osd_enabled(&native_osd);
}
void osd_lcd_update_prepare(void)
{
_osd_lcd_update_prepare(&native_osd);
}
void osd_lcd_update(void)
{
_osd_lcd_update(&native_osd);
}
void osd_lcd_update_rect(int x, int y, int width, int height)
{
_osd_lcd_update_rect(&native_osd, x, y, width, height);
}
#if LCD_DEPTH < 4
/* Greylib LCD, public */
bool osd_grey_init(unsigned flags, void *backbuf, size_t backbuf_size,
osd_draw_cb_fn_t draw_cb, int *width, int *height,
size_t *bufused)
{
grey_osd.init_buffers = _osd_grey_init_buffers;
grey_osd.set_viewport_pos = grey_viewport_set_pos;
grey_osd.lcd_update = grey_update;
grey_osd.lcd_update_rect = grey_update_rect;
grey_osd.lcd_set_viewport = grey_set_viewport;
grey_osd.lcd_set_framebuffer = (void *)grey_set_framebuffer;
grey_osd.lcd_framebuffer_set_pos = grey_framebuffer_set_pos;
grey_osd.lcd_bitmap_part = (void *)grey_gray_bitmap_part;
return _osd_init(&grey_osd, flags, backbuf, backbuf_size, draw_cb,
width, height, bufused);
}
void osd_grey_destroy(void)
{
return _osd_destroy(&grey_osd);
}
bool osd_grey_show(unsigned flags)
{
return _osd_show(&grey_osd, flags);
}
bool osd_grey_update(void)
{
return _osd_update(&grey_osd);
}
bool osd_grey_update_rect(int x, int y, int width, int height)
{
return _osd_update_rect(&grey_osd, x, y, width, height);
}
bool osd_grey_update_pos(int x, int y, int width, int height)
{
return _osd_update_pos(&grey_osd, x, y, width, height);
}
void osd_grey_monitor_timeout(void)
{
_osd_monitor_timeout(&grey_osd);
}
void osd_grey_set_timeout(long timeout)
{
_osd_set_timeout(&grey_osd, timeout);
}
struct viewport * osd_grey_get_viewport(void)
{
return _osd_get_viewport(&grey_osd);
}
void osd_grey_get_max_dims(int *maxwidth, int *maxheight)
{
_osd_get_max_dims(&grey_osd, maxwidth, maxheight);
}
bool osd_grey_enabled(void)
{
return _osd_enabled(&grey_osd);
}
void osd_grey_lcd_update_prepare(void)
{
_osd_lcd_update_prepare(&grey_osd);
}
void osd_grey_lcd_update(void)
{
_osd_lcd_update(&grey_osd);
}
void osd_grey_lcd_update_rect(int x, int y, int width, int height)
{
_osd_lcd_update_rect(&grey_osd, x, y, width, height);
}
#endif /* LCD_DEPTH < 4 */
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