/* Generated with cbindgen:0.26.0 */ #include #include #include #include #include /** * pixel count on whole screen */ #define SP_PIXEL_COUNT (SP_PIXEL_WIDTH * SP_PIXEL_HEIGHT) /** * Display height in pixels */ #define SP_PIXEL_HEIGHT (SP_TILE_HEIGHT * SP_TILE_SIZE) /** * Display width in pixels */ #define SP_PIXEL_WIDTH (SP_TILE_WIDTH * SP_TILE_SIZE) /** * Display tile count in the y-direction */ #define SP_TILE_HEIGHT 20 /** * size of a single tile in one dimension */ #define SP_TILE_SIZE 8 /** * Display tile count in the x-direction */ #define SP_TILE_WIDTH 56 /** * Specifies the kind of compression to use. */ enum SPCompressionCode #ifdef __cplusplus : uint16_t #endif // __cplusplus { /** * no compression */ Uncompressed = 0, /** * compress using flate2 with zlib header */ Zlib = 26490, /** * compress using bzip2 */ Bzip2 = 25210, /** * compress using lzma */ Lzma = 27770, /** * compress using Zstandard */ Zstd = 31347, }; #ifndef __cplusplus typedef uint16_t SPCompressionCode; #endif // __cplusplus /** * A vector of bits * * # Examples * ```C * SPBitVec vec = sp_bit_vec_new(8); * sp_bit_vec_set(vec, 5, true); * sp_bit_vec_dealloc(vec); * ``` */ typedef struct SPBitVec SPBitVec; /** * A grid containing brightness values. * * # Examples * ```C * SPConnection connection = sp_connection_open("127.0.0.1:2342"); * if (connection == NULL) * return 1; * * SPBrightnessGrid grid = sp_brightness_grid_new(2, 2); * sp_brightness_grid_set(grid, 0, 0, 0); * sp_brightness_grid_set(grid, 1, 1, 10); * * SPCommand command = sp_command_char_brightness(grid); * sp_connection_dealloc(connection); * ``` */ typedef struct SPBrightnessGrid SPBrightnessGrid; /** * A low-level display command. * * This struct and associated functions implement the UDP protocol for the display. * * To send a `SPCommand`, use a `SPConnection`. * * # Examples * * ```C * sp_connection_send(connection, sp_command_clear()); * sp_connection_send(connection, sp_command_brightness(5)); * ``` */ typedef struct SPCommand SPCommand; /** * A connection to the display. * * # Examples * * ```C * CConnection connection = sp_connection_open("172.23.42.29:2342"); * if (connection != NULL) * sp_connection_send(connection, sp_command_clear()); * ``` */ typedef struct SPConnection SPConnection; /** * A C-wrapper for grid containing codepage 437 characters. * * The encoding is currently not enforced. * * # Examples * * ```C * Cp437Grid grid = sp_cp437_grid_new(4, 3); * sp_cp437_grid_fill(grid, '?'); * sp_cp437_grid_set(grid, 0, 0, '!'); * sp_cp437_grid_dealloc(grid); * ``` */ typedef struct SPCp437Grid SPCp437Grid; /** * The raw packet */ typedef struct SPPacket SPPacket; /** * A grid of pixels. * * # Examples * * ```C * Cp437Grid grid = sp_pixel_grid_new(8, 3); * sp_pixel_grid_fill(grid, true); * sp_pixel_grid_set(grid, 0, 0, false); * sp_pixel_grid_dealloc(grid); * ``` */ typedef struct SPPixelGrid SPPixelGrid; /** * Represents a span of memory (`&mut [u8]` ) as a struct usable by C code. * * You should not create an instance of this type in your C code. * * # Safety * * The caller has to make sure that: * * - accesses to the memory pointed to with `start` is never accessed outside `length` * - the lifetime of the `CByteSlice` does not outlive the memory it points to, as described in * the function returning this type. * - an instance of this created from C is never passed to a consuming function, as the rust code * will try to free the memory of a potentially separate allocator. */ typedef struct SPByteSlice { /** * The start address of the memory */ uint8_t *start; /** * The amount of memory in bytes */ size_t length; } SPByteSlice; #ifdef __cplusplus extern "C" { #endif // __cplusplus /** * Clones a `BitVec`. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BitVec` * - `this` is not written to concurrently * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_bit_vec_dealloc`. */ struct SPBitVec *sp_bit_vec_clone(const struct SPBitVec *this_); /** * Deallocates a `BitVec`. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BitVec` * - `this` is not used concurrently or after this call * - `this` was not passed to another consuming function, e.g. to create a `Command` */ void sp_bit_vec_dealloc(struct SPBitVec *this_); /** * Sets the value of all bits in the `BitVec`. * * # Arguments * * - `value`: the value to set all bits to * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BitVec` * - `this` is not written to or read from concurrently */ void sp_bit_vec_fill(struct SPBitVec *this_, bool value); /** * Gets the value of a bit from the `BitVec`. * * # Arguments * * - `this`: instance to read from * - `index`: the bit index to read * * returns: value of the bit * * # Panics * * When accessing `index` out of bounds. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BitVec` * - `this` is not written to concurrently */ bool sp_bit_vec_get(const struct SPBitVec *this_, size_t index); /** * Returns true if length is 0. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BitVec` */ bool sp_bit_vec_is_empty(const struct SPBitVec *this_); /** * Gets the length of the `BitVec` in bits. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BitVec` */ size_t sp_bit_vec_len(const struct SPBitVec *this_); /** * Interpret the data as a series of bits and load then into a new `BitVec` instance. * * # Safety * * The caller has to make sure that: * * - `data` points to a valid memory location of at least `data_length` * bytes in size. * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_bit_vec_dealloc`. */ struct SPBitVec *sp_bit_vec_load(const uint8_t *data, size_t data_length); /** * Creates a new `BitVec` instance. * * # Arguments * * - `size`: size in bits. * * returns: `BitVec` with all bits set to false. * * # Panics * * When `size` is not divisible by 8. * * # Safety * * The caller has to make sure that: * * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_bit_vec_dealloc`. */ struct SPBitVec *sp_bit_vec_new(size_t size); /** * Sets the value of a bit in the `BitVec`. * * # Arguments * * - `this`: instance to write to * - `index`: the bit index to edit * - `value`: the value to set the bit to * * returns: old value of the bit * * # Panics * * When accessing `index` out of bounds. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BitVec` * - `this` is not written to or read from concurrently */ void sp_bit_vec_set(struct SPBitVec *this_, size_t index, bool value); /** * Gets an unsafe reference to the data of the `BitVec` instance. * * ## Safety * * The caller has to make sure that: * * - `this` points to a valid `BitVec` * - the returned memory range is never accessed after the passed `BitVec` has been freed * - the returned memory range is never accessed concurrently, either via the `BitVec` or directly */ struct SPByteSlice sp_bit_vec_unsafe_data_ref(struct SPBitVec *this_); /** * Clones a `BrightnessGrid`. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BrightnessGrid` * - `this` is not written to concurrently * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_brightness_grid_dealloc`. */ struct SPBrightnessGrid *sp_brightness_grid_clone(const struct SPBrightnessGrid *this_); /** * Deallocates a `BrightnessGrid`. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BrightnessGrid` * - `this` is not used concurrently or after this call * - `this` was not passed to another consuming function, e.g. to create a `Command` */ void sp_brightness_grid_dealloc(struct SPBrightnessGrid *this_); /** * Sets the value of all cells in the `BrightnessGrid`. * * # Arguments * * - `this`: instance to write to * - `value`: the value to set all cells to * * # Panics * * - When providing an invalid brightness value * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BrightnessGrid` * - `this` is not written to or read from concurrently */ void sp_brightness_grid_fill(struct SPBrightnessGrid *this_, uint8_t value); /** * Gets the current value at the specified position. * * # Arguments * * - `this`: instance to read from * - `x` and `y`: position of the cell to read * * # Panics * * When accessing `x` or `y` out of bounds. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BrightnessGrid` * - `this` is not written to concurrently */ uint8_t sp_brightness_grid_get(const struct SPBrightnessGrid *this_, size_t x, size_t y); /** * Gets the height of the `BrightnessGrid` instance. * * # Arguments * * - `this`: instance to read from * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BrightnessGrid` */ size_t sp_brightness_grid_height(const struct SPBrightnessGrid *this_); /** * Loads a `BrightnessGrid` with the specified dimensions from the provided data. * * # Panics * * When the provided `data_length` is not sufficient for the `height` and `width` * * # Safety * * The caller has to make sure that: * * - `data` points to a valid memory location of at least `data_length` * bytes in size. * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_brightness_grid_dealloc`. */ struct SPBrightnessGrid *sp_brightness_grid_load(size_t width, size_t height, const uint8_t *data, size_t data_length); /** * Creates a new `BrightnessGrid` with the specified dimensions. * * returns: `BrightnessGrid` initialized to 0. * * # Safety * * The caller has to make sure that: * * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_brightness_grid_dealloc`. */ struct SPBrightnessGrid *sp_brightness_grid_new(size_t width, size_t height); /** * Sets the value of the specified position in the `BrightnessGrid`. * * # Arguments * * - `this`: instance to write to * - `x` and `y`: position of the cell * - `value`: the value to write to the cell * * returns: old value of the cell * * # Panics * * - When accessing `x` or `y` out of bounds. * - When providing an invalid brightness value * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BitVec` * - `this` is not written to or read from concurrently */ void sp_brightness_grid_set(struct SPBrightnessGrid *this_, size_t x, size_t y, uint8_t value); /** * Gets an unsafe reference to the data of the `BrightnessGrid` instance. * * ## Safety * * The caller has to make sure that: * * - `this` points to a valid `BrightnessGrid` * - the returned memory range is never accessed after the passed `BrightnessGrid` has been freed * - the returned memory range is never accessed concurrently, either via the `BrightnessGrid` or directly */ struct SPByteSlice sp_brightness_grid_unsafe_data_ref(struct SPBrightnessGrid *this_); /** * Gets the width of the `BrightnessGrid` instance. * * # Arguments * * - `this`: instance to read from * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BrightnessGrid` */ size_t sp_brightness_grid_width(const struct SPBrightnessGrid *this_); /** * Allocates a new `Command::BitmapLinear` instance. * The passed `BitVec` gets consumed. * * Set pixel data starting at the pixel offset on screen. * * The screen will continuously overwrite more pixel data without regarding the offset, meaning * once the starting row is full, overwriting will continue on column 0. * * The contained `BitVec` is always uncompressed. * * # Safety * * The caller has to make sure that: * * - `bit_vec` points to a valid instance of `BitVec` * - `bit_vec` is not used concurrently or after this call * - `compression` matches one of the allowed enum values * - the returned `Command` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_command_dealloc`. */ struct SPCommand *sp_command_bitmap_linear(size_t offset, struct SPBitVec *bit_vec, SPCompressionCode compression); /** * Allocates a new `Command::BitmapLinearAnd` instance. * The passed `BitVec` gets consumed. * * Set pixel data according to an and-mask starting at the offset. * * The screen will continuously overwrite more pixel data without regarding the offset, meaning * once the starting row is full, overwriting will continue on column 0. * * The contained `BitVec` is always uncompressed. * * # Safety * * The caller has to make sure that: * * - `bit_vec` points to a valid instance of `BitVec` * - `bit_vec` is not used concurrently or after this call * - `compression` matches one of the allowed enum values * - the returned `Command` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_command_dealloc`. */ struct SPCommand *sp_command_bitmap_linear_and(size_t offset, struct SPBitVec *bit_vec, SPCompressionCode compression); /** * Allocates a new `Command::BitmapLinearOr` instance. * The passed `BitVec` gets consumed. * * Set pixel data according to an or-mask starting at the offset. * * The screen will continuously overwrite more pixel data without regarding the offset, meaning * once the starting row is full, overwriting will continue on column 0. * * The contained `BitVec` is always uncompressed. * * # Safety * * The caller has to make sure that: * * - `bit_vec` points to a valid instance of `BitVec` * - `bit_vec` is not used concurrently or after this call * - `compression` matches one of the allowed enum values * - the returned `Command` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_command_dealloc`. */ struct SPCommand *sp_command_bitmap_linear_or(size_t offset, struct SPBitVec *bit_vec, SPCompressionCode compression); /** * Allocates a new `Command::BitmapLinearWin` instance. * The passed `PixelGrid` gets consumed. * * Sets a window of pixels to the specified values * * # Safety * * The caller has to make sure that: * * - `pixel_grid` points to a valid instance of `PixelGrid` * - `pixel_grid` is not used concurrently or after this call * - `compression` matches one of the allowed enum values * - the returned `Command` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_command_dealloc`. */ struct SPCommand *sp_command_bitmap_linear_win(size_t x, size_t y, struct SPPixelGrid *pixel_grid, SPCompressionCode compression_code); /** * Allocates a new `Command::BitmapLinearXor` instance. * The passed `BitVec` gets consumed. * * Set pixel data according to a xor-mask starting at the offset. * * The screen will continuously overwrite more pixel data without regarding the offset, meaning * once the starting row is full, overwriting will continue on column 0. * * The contained `BitVec` is always uncompressed. * * # Safety * * The caller has to make sure that: * * - `bit_vec` points to a valid instance of `BitVec` * - `bit_vec` is not used concurrently or after this call * - `compression` matches one of the allowed enum values * - the returned `Command` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_command_dealloc`. */ struct SPCommand *sp_command_bitmap_linear_xor(size_t offset, struct SPBitVec *bit_vec, SPCompressionCode compression); /** * Allocates a new `Command::Brightness` instance for setting the brightness of all tiles to the * same value. * * # Panics * * - When the provided brightness value is out of range (0-11). * * # Safety * * The caller has to make sure that: * * - the returned `SPCommand` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_command_dealloc`. */ struct SPCommand *sp_command_brightness(uint8_t brightness); /** * Allocates a new `Command::CharBrightness` instance. * The passed `SPBrightnessGrid` gets consumed. * * Set the brightness of individual tiles in a rectangular area of the display. * * # Safety * * The caller has to make sure that: * * - `grid` points to a valid instance of `SPBrightnessGrid` * - `grid` is not used concurrently or after this call * - the returned `Command` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_command_dealloc`. */ struct SPCommand *sp_command_char_brightness(size_t x, size_t y, struct SPBrightnessGrid *grid); /** * Allocates a new `Command::Clear` instance. * * Set all pixels to the off state. Does not affect brightness. * * # Examples * * ```C * sp_connection_send(connection, sp_command_clear()); * ``` * * # Safety * * The caller has to make sure that: * * - the returned `Command` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_command_dealloc`. */ struct SPCommand *sp_command_clear(void); /** * Clones a `SPCommand` instance. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid instance of `Command` * - `this` is not written to concurrently * - the returned `Command` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_command_dealloc`. */ struct SPCommand *sp_command_clone(const struct SPCommand *original); /** * Allocates a new `Command::Cp437Data` instance. * The passed `ByteGrid` gets consumed. * * Show text on the screen. * *
* The library does not currently convert between UTF-8 and CP-437. * Because Rust expects UTF-8 strings, it might be necessary to only send ASCII for now. *
* * # Safety * * The caller has to make sure that: * * - `byte_grid` points to a valid instance of `ByteGrid` * - `byte_grid` is not used concurrently or after this call * - the returned `Command` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_command_dealloc`. */ struct SPCommand *sp_command_cp437_data(size_t x, size_t y, struct SPCp437Grid *byte_grid); /** * Deallocates a `Command`. * * # Examples * * ```C * SPCommand c = sp_command_clear(); * sp_command_dealloc(c); * ``` * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `Command` * - `this` is not used concurrently or after this call * - `this` was not passed to another consuming function, e.g. to create a `Packet` */ void sp_command_dealloc(struct SPCommand *ptr); /** * Allocates a new `Command::FadeOut` instance. * * # Safety * * The caller has to make sure that: * * - the returned `Command` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_command_dealloc`. */ struct SPCommand *sp_command_fade_out(void); /** * Allocates a new `Command::HardReset` instance. * * Kills the udp daemon on the display, which usually results in a restart. * Please do not send this in your normal program flow. * * # Safety * * The caller has to make sure that: * * - the returned `Command` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_command_dealloc`. */ struct SPCommand *sp_command_hard_reset(void); /** * Tries to turn a `SPPacket` into a `SPCommand`. The packet is deallocated in the process. * * Returns: pointer to new `SPCommand` instance or NULL * * # Safety * * The caller has to make sure that: * * - `packet` points to a valid instance of `SPPacket` * - `packet` is not used concurrently or after this call * - the result is checked for NULL * - the returned `SPCommand` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_command_dealloc`. */ struct SPCommand *sp_command_try_from_packet(struct SPPacket *packet); /** * Closes and deallocates a `Connection`. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `Connection` * - `this` is not used concurrently or after this call */ void sp_connection_dealloc(struct SPConnection *ptr); /** * Creates a new instance of `Connection`. * * returns: NULL if connection fails, or connected instance * * # Panics * * Bad string encoding * * # Safety * * The caller has to make sure that: * * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_connection_dealloc`. */ struct SPConnection *sp_connection_open(const char *host); /** * Sends a `Packet` to the display using the `Connection`. * The passed `Packet` gets consumed. * * returns: true in case of success * * # Safety * * The caller has to make sure that: * * - `connection` points to a valid instance of `Connection` * - `packet` points to a valid instance of `Packet` * - `packet` is not used concurrently or after this call */ bool sp_connection_send(const struct SPConnection *connection, struct SPPacket *packet); /** * Clones a `Cp437Grid`. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `Cp437Grid` * - `this` is not written to concurrently * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_cp437_grid_dealloc`. */ struct SPCp437Grid *sp_cp437_grid_clone(const struct SPCp437Grid *this_); /** * Deallocates a `Cp437Grid`. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `Cp437Grid` * - `this` is not used concurrently or after this call * - `this` was not passed to another consuming function, e.g. to create a `Command` */ void sp_cp437_grid_dealloc(struct SPCp437Grid *this_); /** * Sets the value of all cells in the `Cp437Grid`. * * # Arguments * * - `this`: instance to write to * - `value`: the value to set all cells to * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `Cp437Grid` * - `this` is not written to or read from concurrently */ void sp_cp437_grid_fill(struct SPCp437Grid *this_, uint8_t value); /** * Gets the current value at the specified position. * * # Arguments * * - `this`: instance to read from * - `x` and `y`: position of the cell to read * * # Panics * * When accessing `x` or `y` out of bounds. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `Cp437Grid` * - `this` is not written to concurrently */ uint8_t sp_cp437_grid_get(const struct SPCp437Grid *this_, size_t x, size_t y); /** * Gets the height of the `Cp437Grid` instance. * * # Arguments * * - `this`: instance to read from * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `Cp437Grid` */ size_t sp_cp437_grid_height(const struct SPCp437Grid *this_); /** * Loads a `Cp437Grid` with the specified dimensions from the provided data. * * # Panics * * When the provided `data_length` is not sufficient for the `height` and `width` * * # Safety * * The caller has to make sure that: * * - `data` points to a valid memory location of at least `data_length` * bytes in size. * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_cp437_grid_dealloc`. */ struct SPCp437Grid *sp_cp437_grid_load(size_t width, size_t height, const uint8_t *data, size_t data_length); /** * Creates a new `Cp437Grid` with the specified dimensions. * * returns: `Cp437Grid` initialized to 0. * * # Safety * * The caller has to make sure that: * * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_cp437_grid_dealloc`. */ struct SPCp437Grid *sp_cp437_grid_new(size_t width, size_t height); /** * Sets the value of the specified position in the `Cp437Grid`. * * # Arguments * * - `this`: instance to write to * - `x` and `y`: position of the cell * - `value`: the value to write to the cell * * returns: old value of the cell * * # Panics * * When accessing `x` or `y` out of bounds. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `BitVec` * - `this` is not written to or read from concurrently */ void sp_cp437_grid_set(struct SPCp437Grid *this_, size_t x, size_t y, uint8_t value); /** * Gets an unsafe reference to the data of the `Cp437Grid` instance. * * ## Safety * * The caller has to make sure that: * * - `this` points to a valid `Cp437Grid` * - the returned memory range is never accessed after the passed `Cp437Grid` has been freed * - the returned memory range is never accessed concurrently, either via the `Cp437Grid` or directly */ struct SPByteSlice sp_cp437_grid_unsafe_data_ref(struct SPCp437Grid *this_); /** * Gets the width of the `Cp437Grid` instance. * * # Arguments * * - `this`: instance to read from * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `Cp437Grid` */ size_t sp_cp437_grid_width(const struct SPCp437Grid *this_); /** * Clones a `Packet`. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `Packet` * - `this` is not written to concurrently * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_packet_dealloc`. */ struct SPPacket *sp_packet_clone(const struct SPPacket *this_); /** * Deallocates a `Packet`. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `Packet` * - `this` is not used concurrently or after this call */ void sp_packet_dealloc(struct SPPacket *this_); /** * Turns a `Command` into a `Packet`. * The `Command` gets consumed. * * # Safety * * The caller has to make sure that: * * - `command` points to a valid instance of `Command` * - `command` is not used concurrently or after this call * - the returned `Packet` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_packet_dealloc`. */ struct SPPacket *sp_packet_from_command(struct SPCommand *command); /** * Tries to load a `Packet` from the passed array with the specified length. * * returns: NULL in case of an error, pointer to the allocated packet otherwise * * # Safety * * The caller has to make sure that: * * - `data` points to a valid memory region of at least `length` bytes * - `data` is not written to concurrently * - the returned `Packet` instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_packet_dealloc`. */ struct SPPacket *sp_packet_try_load(const uint8_t *data, size_t length); /** * Clones a `PixelGrid`. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `PixelGrid` * - `this` is not written to concurrently * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_pixel_grid_dealloc`. */ struct SPPixelGrid *sp_pixel_grid_clone(const struct SPPixelGrid *this_); /** * Deallocates a `PixelGrid`. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `PixelGrid` * - `this` is not used concurrently or after this call * - `this` was not passed to another consuming function, e.g. to create a `Command` */ void sp_pixel_grid_dealloc(struct SPPixelGrid *this_); /** * Sets the state of all pixels in the `PixelGrid`. * * # Arguments * * - `this`: instance to write to * - `value`: the value to set all pixels to * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `PixelGrid` * - `this` is not written to or read from concurrently */ void sp_pixel_grid_fill(struct SPPixelGrid *this_, bool value); /** * Gets the current value at the specified position in the `PixelGrid`. * * # Arguments * * - `this`: instance to read from * - `x` and `y`: position of the cell to read * * # Panics * * When accessing `x` or `y` out of bounds. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `PixelGrid` * - `this` is not written to concurrently */ bool sp_pixel_grid_get(const struct SPPixelGrid *this_, size_t x, size_t y); /** * Gets the height in pixels of the `PixelGrid` instance. * * # Arguments * * - `this`: instance to read from * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `PixelGrid` */ size_t sp_pixel_grid_height(const struct SPPixelGrid *this_); /** * Loads a `PixelGrid` with the specified dimensions from the provided data. * * # Arguments * * - `width`: size in pixels in x-direction * - `height`: size in pixels in y-direction * * returns: `PixelGrid` that contains a copy of the provided data * * # Panics * * - when the dimensions and data size do not match exactly. * - when the width is not dividable by 8 * * # Safety * * The caller has to make sure that: * * - `data` points to a valid memory location of at least `data_length` bytes in size. * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_pixel_grid_dealloc`. */ struct SPPixelGrid *sp_pixel_grid_load(size_t width, size_t height, const uint8_t *data, size_t data_length); /** * Creates a new `PixelGrid` with the specified dimensions. * * # Arguments * * - `width`: size in pixels in x-direction * - `height`: size in pixels in y-direction * * returns: `PixelGrid` initialized to all pixels off * * # Panics * * - when the width is not dividable by 8 * * # Safety * * The caller has to make sure that: * * - the returned instance is freed in some way, either by using a consuming function or * by explicitly calling `sp_pixel_grid_dealloc`. */ struct SPPixelGrid *sp_pixel_grid_new(size_t width, size_t height); /** * Sets the value of the specified position in the `PixelGrid`. * * # Arguments * * - `this`: instance to write to * - `x` and `y`: position of the cell * - `value`: the value to write to the cell * * returns: old value of the cell * * # Panics * * When accessing `x` or `y` out of bounds. * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `PixelGrid` * - `this` is not written to or read from concurrently */ void sp_pixel_grid_set(struct SPPixelGrid *this_, size_t x, size_t y, bool value); /** * Gets an unsafe reference to the data of the `PixelGrid` instance. * * ## Safety * * The caller has to make sure that: * * - `this` points to a valid `PixelGrid` * - the returned memory range is never accessed after the passed `PixelGrid` has been freed * - the returned memory range is never accessed concurrently, either via the `PixelGrid` or directly */ struct SPByteSlice sp_pixel_grid_unsafe_data_ref(struct SPPixelGrid *this_); /** * Gets the width in pixels of the `PixelGrid` instance. * * # Arguments * * - `this`: instance to read from * * # Safety * * The caller has to make sure that: * * - `this` points to a valid `PixelGrid` */ size_t sp_pixel_grid_width(const struct SPPixelGrid *this_); #ifdef __cplusplus } // extern "C" #endif // __cplusplus