scrcpy/app/src/screen.h

#ifndef SCREEN_H
#define SCREEN_H

#include <SDL2/SDL.h>
#include <libavformat/avformat.h>

#include "common.h"
#include "frames.h"

struct screen {
    SDL_Window *window;
    SDL_Renderer *renderer;
    SDL_Texture *texture;
    struct size frame_size;
    //used only in fullscreen mode to know the windowed window size
    struct size windowed_window_size;
    SDL_bool has_frame;
    SDL_bool fullscreen;
};

#define SCREEN_INITIALIZER {  \
    .window = NULL,           \
    .renderer = NULL,         \
    .texture = NULL,          \
    .frame_size = {           \
        .width = 0,           \
        .height = 0,          \
    },                        \
    .windowed_window_size = { \
        .width = 0,           \
        .height = 0,          \
    },                        \
    .has_frame = SDL_FALSE,   \
    .fullscreen = SDL_FALSE,  \
}

// init SDL and set appropriate hints
SDL_bool sdl_init_and_configure(void);

// initialize default values
void screen_init(struct screen *screen);

// initialize screen, create window, renderer and texture (window is hidden)
SDL_bool screen_init_rendering(struct screen *screen,
                               const char *device_name,
                               struct size frame_size);

// show the window
void screen_show_window(struct screen *screen);

// destroy window, renderer and texture (if any)
void screen_destroy(struct screen *screen);

// resize if necessary and write the rendered frame into the texture
SDL_bool screen_update_frame(struct screen *screen, struct frames *frames);

// render the texture to the renderer
void screen_render(struct screen *screen);

// switch the fullscreen mode
void screen_switch_fullscreen(struct screen *screen);

// resize window to optimal size (remove black borders)
void screen_resize_to_fit(struct screen *screen);

// resize window to 1:1 (pixel-perfect)
void screen_resize_to_pixel_perfect(struct screen *screen);

#endif
Move screen-related code to screen.c The file scrcpy.c contains too many different things in addition to the main logic, so move the screen code to a separate file, screen.c. 6 years ago			`#ifndef SCREEN_H`
			`#define SCREEN_H`

			`#include <SDL2/SDL.h>`
			`#include <libavformat/avformat.h>`

			`#include "common.h"`
Move frame updating to screen.c Replace screen_update() by a higher-level screen_update_frame() handling the whole frame updating, so that scrcpy.c just call it without managing implementation details. 6 years ago			`#include "frames.h"`
Move screen-related code to screen.c The file scrcpy.c contains too many different things in addition to the main logic, so move the screen code to a separate file, screen.c. 6 years ago
			`struct screen {`
			`SDL_Window *window;`
			`SDL_Renderer *renderer;`
			`SDL_Texture *texture;`
			`struct size frame_size;`
			`//used only in fullscreen mode to know the windowed window size`
			`struct size windowed_window_size;`
Improve startup time On startup, the client has to: 1. listen on a port 2. push and start the server to the device 3. wait for the server to connect (accept) 4. read device name and size 5. initialize SDL 6. initialize the window and renderer 7. show the window From the execution of the app_process command to start the server on the device, to the execution of the java main method, it takes ~800ms. As a consequence, step 3 also takes ~800ms on the client. Once complete, the client initializes SDL, which takes ~500ms. These two expensive actions are executed sequentially: HOST DEVICE listen on port \| \| push/start the server \|----------------->\|\| app_process loads the jar accept the connection . ^ \|\| . \| \|\| . \| WASTE \|\| . \| OF \|\| . \| TIME \|\| . \| \|\| . \| \|\| . v X execution of our java main connection accepted \|<-----------------\| connect to the host init SDL \|\| \| \|\| ,----------------\| send frames \|\| \|,---------------\| \|\| \|\|,--------------\| \|\| \|\|\|,-------------\| \|\| \|\|\|\|,------------\| init window/renderer \| \|\|\|\|\|,-----------\| display frames \|<++++++-----------\| (many frames skipped) The rationale for step 3 occuring before step 5 is that initializing SDL replaces the SIGTERM handler to receive the event in the event loop, so pressing Ctrl+C during step 5 would not work (since it blocks the event loop). But this is not so important; let's parallelize the SDL initialization with the app_process execution (we'll just add a timeout to the connection): HOST DEVICE listen on port \| \| push/start the server \|----------------->\|\|app_process loads the jar init SDL \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| accept the connection . \|\| . X execution of our java main connection accepted \|<-----------------\| connect to the host init window/renderer \| \| display frames \|<-----------------\| send frames \|<-----------------\| In addition, show the window only once the first frame is available to avoid flickering (opening a black window for 100~200ms). Note: the window and renderer are initialized after the connection is accepted because they use the device information received from the device. 6 years ago			`SDL_bool has_frame;`
Move screen-related code to screen.c The file scrcpy.c contains too many different things in addition to the main logic, so move the screen code to a separate file, screen.c. 6 years ago			`SDL_bool fullscreen;`
			`};`

Improve startup time On startup, the client has to: 1. listen on a port 2. push and start the server to the device 3. wait for the server to connect (accept) 4. read device name and size 5. initialize SDL 6. initialize the window and renderer 7. show the window From the execution of the app_process command to start the server on the device, to the execution of the java main method, it takes ~800ms. As a consequence, step 3 also takes ~800ms on the client. Once complete, the client initializes SDL, which takes ~500ms. These two expensive actions are executed sequentially: HOST DEVICE listen on port \| \| push/start the server \|----------------->\|\| app_process loads the jar accept the connection . ^ \|\| . \| \|\| . \| WASTE \|\| . \| OF \|\| . \| TIME \|\| . \| \|\| . \| \|\| . v X execution of our java main connection accepted \|<-----------------\| connect to the host init SDL \|\| \| \|\| ,----------------\| send frames \|\| \|,---------------\| \|\| \|\|,--------------\| \|\| \|\|\|,-------------\| \|\| \|\|\|\|,------------\| init window/renderer \| \|\|\|\|\|,-----------\| display frames \|<++++++-----------\| (many frames skipped) The rationale for step 3 occuring before step 5 is that initializing SDL replaces the SIGTERM handler to receive the event in the event loop, so pressing Ctrl+C during step 5 would not work (since it blocks the event loop). But this is not so important; let's parallelize the SDL initialization with the app_process execution (we'll just add a timeout to the connection): HOST DEVICE listen on port \| \| push/start the server \|----------------->\|\|app_process loads the jar init SDL \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| accept the connection . \|\| . X execution of our java main connection accepted \|<-----------------\| connect to the host init window/renderer \| \| display frames \|<-----------------\| send frames \|<-----------------\| In addition, show the window only once the first frame is available to avoid flickering (opening a black window for 100~200ms). Note: the window and renderer are initialized after the connection is accepted because they use the device information received from the device. 6 years ago			`#define SCREEN_INITIALIZER { \`
			`.window = NULL, \`
			`.renderer = NULL, \`
			`.texture = NULL, \`
			`.frame_size = { \`
			`.width = 0, \`
			`.height = 0, \`
			`}, \`
			`.windowed_window_size = { \`
			`.width = 0, \`
			`.height = 0, \`
			`}, \`
			`.has_frame = SDL_FALSE, \`
			`.fullscreen = SDL_FALSE, \`
Move screen-related code to screen.c The file scrcpy.c contains too many different things in addition to the main logic, so move the screen code to a separate file, screen.c. 6 years ago			`}`

			`// init SDL and set appropriate hints`
			`SDL_bool sdl_init_and_configure(void);`

			`// initialize default values`
			`void screen_init(struct screen *screen);`

Improve startup time On startup, the client has to: 1. listen on a port 2. push and start the server to the device 3. wait for the server to connect (accept) 4. read device name and size 5. initialize SDL 6. initialize the window and renderer 7. show the window From the execution of the app_process command to start the server on the device, to the execution of the java main method, it takes ~800ms. As a consequence, step 3 also takes ~800ms on the client. Once complete, the client initializes SDL, which takes ~500ms. These two expensive actions are executed sequentially: HOST DEVICE listen on port \| \| push/start the server \|----------------->\|\| app_process loads the jar accept the connection . ^ \|\| . \| \|\| . \| WASTE \|\| . \| OF \|\| . \| TIME \|\| . \| \|\| . \| \|\| . v X execution of our java main connection accepted \|<-----------------\| connect to the host init SDL \|\| \| \|\| ,----------------\| send frames \|\| \|,---------------\| \|\| \|\|,--------------\| \|\| \|\|\|,-------------\| \|\| \|\|\|\|,------------\| init window/renderer \| \|\|\|\|\|,-----------\| display frames \|<++++++-----------\| (many frames skipped) The rationale for step 3 occuring before step 5 is that initializing SDL replaces the SIGTERM handler to receive the event in the event loop, so pressing Ctrl+C during step 5 would not work (since it blocks the event loop). But this is not so important; let's parallelize the SDL initialization with the app_process execution (we'll just add a timeout to the connection): HOST DEVICE listen on port \| \| push/start the server \|----------------->\|\|app_process loads the jar init SDL \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| accept the connection . \|\| . X execution of our java main connection accepted \|<-----------------\| connect to the host init window/renderer \| \| display frames \|<-----------------\| send frames \|<-----------------\| In addition, show the window only once the first frame is available to avoid flickering (opening a black window for 100~200ms). Note: the window and renderer are initialized after the connection is accepted because they use the device information received from the device. 6 years ago			`// initialize screen, create window, renderer and texture (window is hidden)`
Move screen-related code to screen.c The file scrcpy.c contains too many different things in addition to the main logic, so move the screen code to a separate file, screen.c. 6 years ago			`SDL_bool screen_init_rendering(struct screen *screen,`
			`const char *device_name,`
			`struct size frame_size);`

Improve startup time On startup, the client has to: 1. listen on a port 2. push and start the server to the device 3. wait for the server to connect (accept) 4. read device name and size 5. initialize SDL 6. initialize the window and renderer 7. show the window From the execution of the app_process command to start the server on the device, to the execution of the java main method, it takes ~800ms. As a consequence, step 3 also takes ~800ms on the client. Once complete, the client initializes SDL, which takes ~500ms. These two expensive actions are executed sequentially: HOST DEVICE listen on port \| \| push/start the server \|----------------->\|\| app_process loads the jar accept the connection . ^ \|\| . \| \|\| . \| WASTE \|\| . \| OF \|\| . \| TIME \|\| . \| \|\| . \| \|\| . v X execution of our java main connection accepted \|<-----------------\| connect to the host init SDL \|\| \| \|\| ,----------------\| send frames \|\| \|,---------------\| \|\| \|\|,--------------\| \|\| \|\|\|,-------------\| \|\| \|\|\|\|,------------\| init window/renderer \| \|\|\|\|\|,-----------\| display frames \|<++++++-----------\| (many frames skipped) The rationale for step 3 occuring before step 5 is that initializing SDL replaces the SIGTERM handler to receive the event in the event loop, so pressing Ctrl+C during step 5 would not work (since it blocks the event loop). But this is not so important; let's parallelize the SDL initialization with the app_process execution (we'll just add a timeout to the connection): HOST DEVICE listen on port \| \| push/start the server \|----------------->\|\|app_process loads the jar init SDL \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| \|\| accept the connection . \|\| . X execution of our java main connection accepted \|<-----------------\| connect to the host init window/renderer \| \| display frames \|<-----------------\| send frames \|<-----------------\| In addition, show the window only once the first frame is available to avoid flickering (opening a black window for 100~200ms). Note: the window and renderer are initialized after the connection is accepted because they use the device information received from the device. 6 years ago			`// show the window`
			`void screen_show_window(struct screen *screen);`

Move screen-related code to screen.c The file scrcpy.c contains too many different things in addition to the main logic, so move the screen code to a separate file, screen.c. 6 years ago			`// destroy window, renderer and texture (if any)`
			`void screen_destroy(struct screen *screen);`

Move frame updating to screen.c Replace screen_update() by a higher-level screen_update_frame() handling the whole frame updating, so that scrcpy.c just call it without managing implementation details. 6 years ago			`// resize if necessary and write the rendered frame into the texture`
			`SDL_bool screen_update_frame(struct screen screen, struct frames frames);`
Move screen-related code to screen.c The file scrcpy.c contains too many different things in addition to the main logic, so move the screen code to a separate file, screen.c. 6 years ago
			`// render the texture to the renderer`
			`void screen_render(struct screen *screen);`

			`// switch the fullscreen mode`
			`void screen_switch_fullscreen(struct screen *screen);`

			`// resize window to optimal size (remove black borders)`
			`void screen_resize_to_fit(struct screen *screen);`

			`// resize window to 1:1 (pixel-perfect)`
			`void screen_resize_to_pixel_perfect(struct screen *screen);`

			`#endif`