notcurses_visual - Man Page

notcurses multimedia

Synopsis

#include <notcurses/notcurses.h>

typedef enum {
  NCSCALE_NONE,
  NCSCALE_SCALE,
  NCSCALE_STRETCH,
  NCSCALE_NONE_HIRES,
  NCSCALE_SCALE_HIRES,
} ncscale_e;

typedef enum {
  NCBLIT_DEFAULT, // let the ncvisual pick
  NCBLIT_1x1,     // spaces only
  NCBLIT_2x1,     // halves + 1x1
  NCBLIT_2x2,     // quadrants + 2x1
  NCBLIT_3x2,     // sextants + 1x1
  NCBLIT_4x1,     // four vertical levels
  NCBLIT_BRAILLE, // 4 rows, 2 cols (braille)
  NCBLIT_8x1,     // eight vertical levels
  NCBLIT_SIXEL,   // not yet implemented
} ncblitter_e;

#define NCVISUAL_OPTION_NODEGRADE 0x0001
#define NCVISUAL_OPTION_BLEND     0x0002

struct ncvisual_options {
  struct ncplane* n;
  ncscale_e scaling;
  int y, x;
  int begy, begx; // origin of rendered section
  int leny, lenx; // size of rendered section
  ncblitter_e blitter; // glyph set to use
  uint64_t flags; // bitmask over NCVISUAL_OPTION_*
};

typedef int (*streamcb)(struct notcurses*, struct ncvisual*, void*);

bool notcurses_canopen_images(const struct notcurses* nc);

bool notcurses_canopen_videos(const struct notcurses* nc);

bool notcurses_cansixel(const struct notcurses* nc);

struct ncvisual* ncvisual_from_file(const char* file);

struct ncvisual* ncvisual_from_rgba(const void* rgba, int rows, int rowstride, int cols);

struct ncvisual* ncvisual_from_bgra(const void* bgra, int rows, int rowstride, int cols);

struct ncvisual* ncvisual_from_plane(struct ncplane* n, ncblitter_e blit, int begy, int begx, int leny, int lenx);

int ncvisual_geom(const struct notcurses* nc, const struct ncvisual* n, const struct ncvisual_options* vopts, int* y, int* x, int* toy, int* tox);

void ncvisual_destroy(struct ncvisual* ncv);

int ncvisual_decode(struct ncvisual* ncv);

int ncvisual_decode_loop(struct ncvisual* ncv);

struct ncplane* ncvisual_render(struct notcurses* nc, struct ncvisual* ncv, const struct ncvisual_options* vopts);

int ncvisual_simple_streamer(struct ncplane* n, struct ncvisual* ncv, const struct timespec* disptime, void* curry);

int ncvisual_stream(struct notcurses* nc, struct ncvisual* ncv, float timescale, streamcb streamer, const struct ncvisual_options* vopts, void* curry);

int ncvisual_rotate(struct ncvisual* n, double rads);

int ncvisual_resize(struct ncvisual* n, int rows, int cols);

int ncvisual_polyfill_yx(struct ncvisual* n, int y, int x, uint32_t rgba);

int ncvisual_at_yx(const struct ncvisual* n, int y, int x, uint32_t* pixel);

int ncvisual_set_yx(const struct ncvisual* n, int y, int x, uint32_t pixel);

char* ncvisual_subtitle(const struct ncvisual* ncv);

int notcurses_lex_scalemode(const char* op, ncscale_e* scaling);

const char* notcurses_str_scalemode(ncscale_e scaling);

int notcurses_lex_blitter(const char* op, ncblitter_e* blitter);

const char* notcurses_str_blitter(ncblitter_e blitter);

ncblitter_e ncvisual_media_defblitter(const struct notcurses nc, ncscale_e scaling);

int ncplane_qrcode(struct ncplane* n, int* ymax, int* xmax, const void* data, size_t len)

Description

An ncvisual is a virtual pixel framebuffer. They can be created from RGBA/BGRA data in memory (ncvisual_from_rgba/ncvisual_from_bgra), or from the content of a suitable ncplane (ncvisual_from_ncplane). If Notcurses was built against a multimedia engine (FFMpeg or OpenImageIO), image and video files can be loaded into visuals using ncvisual_from_file. ncvisual_from_file discovers the container and codecs, but does not verify that the entire file is well-formed. ncvisual_decode ought be invoked to recover subsequent frames, once per frame. ncvisual_decode_loop will return to the first frame, as if ncvisual_decode had never been called.

Once the visual is loaded, it can be transformed using ncvisual_rotate and ncvisual_resize. These are persistent operations, unlike any scaling that takes place at render time. If a subtitle is associated with the frame, it can be acquired with ncvisual_subtitle.

ncvisual_from_rgba and ncvisual_from_bgra both require a number of rows, a number of image columns cols, and a virtual row length of rowstride / 4 columns. The input data must provide 32 bits per pixel, and thus must be at least rowstride * rows bytes, of which a cols * rows * 4-byte subset is used. It is not possible to mmap(2) an image file and use it directly--decompressed, decoded data is necessary. The resulting plane will be ceil(rows/2) rows, and cols columns. ncvisual_from_plane requires specification of a rectangle via begy, begx, leny, and lenx. The only valid characters within this region are those used by the NCBLIT_2x2 blitter, though this may change in the future.

ncvisual_rotate executes a rotation of rads radians, in the clockwise (positive) or counterclockwise (negative) direction.

ncvisual_subtitle will return a UTF-8-encoded subtitle corresponding to the current frame if such a subtitle was decoded. Note that a subtitle might be returned for multiple frames, or might not.

ncvisual_render blits the visual to an ncplane, based on the contents of its struct ncvisual_options. If n is not NULL, it specifies the plane on which to render, and y/x specify a location within that plane. Otherwise, a new plane will be created, and placed at y/x relative to the rendering area. begy/begx specify the upper left corner of a subsection of the ncvisual to render, while leny/lenx specify the geometry of same. flags is a bitfield over:

ncplane_qrcode draws an ISO/IEC 18004:2015 QR Code for the len bytes of data using NCBLIT_2x1 (this is the only blitter that will work with QR Code scanners, due to its 1:1 aspect ratio).

Blitters

The different ncblitter_e values select from among available glyph sets:

NCBLIT_4x1 and NCBLIT_8x1 are intended for use with plots, and are not really applicable for general visuals. NCBLIT_BRAILLE doesn't tend to work out very well for images, but (depending on the font) can be very good for plots.

In the absence of scaling, for a given set of pixels, more rows and columns in the blitter will result in a smaller output image. An image rendered with NCBLIT_1x1 will be twice as tall as the same image rendered with NCBLIT_2x1, which will be twice as wide as the same image rendered with NCBLIT_2x2. The same image rendered with NCBLIT_3x2 will be one-third as tall and one-half as wide as the original NCBLIT_1x1 render (again, this depends on NCSCALE_NONE). If the output size is held constant (using for instance NCSCALE_SCALE_HIRES and a large image), more rows and columns will result in more effective resolution.

Assuming a cell is twice as tall as it is wide, NCBLIT_1x1 (and indeed any NxN blitter) will stretch an image by a factor of 2 in the vertical dimension. NCBLIT_2x1 will not distort the image whatsoever, as it maps a vector two pixels high and one pixel wide to a single cell. NCBLIT_3x2 will stretch an image by a factor of 1.5.

The cell's dimension in pixels is ideally evenly divisible by the blitter geometry. If NCBLIT_3x2 is used together with a cell 8 pixels wide and 14 pixels tall, two of the vertical segments will be 5 pixels tall, while one will be 4 pixels tall. Such unequal distributions are more likely with larger blitter geometries. Likewise, there are only ever two colors available to us in a given cell. NCBLIT_1x1 and NCBLIT_2x2 can be perfectly represented with two colors per cell. Blitters of higher geometry are increasingly likely to require some degree of interpolation. Transparency is always honored with complete fidelity.

Finally, rendering operates slightly differently when two planes have both been blitted, and one lies atop the other. See notcurses_render(3) for more information.

Return Values

notcurses_canopen_images and notcurses_canopen_videos returns true if images and videos, respecitvely, can be decoded, or false if Notcurses was built with insufficient multimedia support.

ncvisual_from_file returns an ncvisual object on success, or NULL on failure. Success indicates that the specified file was opened, and enough data was read to make a firm codec identification. It does not imply that the entire file is properly-formed.

ncvisual_decode returns 0 on success, or 1 on end of file, or -1 on failure. It is only necessary for multimedia-based visuals. It advances one frame for each call. ncvisual_decode_loop has the same return values: when called following decoding of the last frame, it will return 1, but a subsequent ncvisual_render will return the first frame.

ncvisual_from_plane returns NULL if the ncvisual cannot be created and bound. This is usually due to illegal content in the source ncplane.

ncvisual_render returns NULL on error, and otherwise the plane to which the visual was rendered. If opts->n is provided, this will be opts->n. Otherwise, a plane will be created, perfectly sized for the visual and the specified blitter.

ncvisual_geom returns non-zero if the blitter is invalid.

ncvisual_media_defblitter returns the blitter selected by NCBLIT_DEFAULT in the specified configuration. If UTF8 is not enabled, this will always be NCBLIT_1x1. If scale is NCSCALE_NONE or NCSCALE_SCALE, the aspect-preserving NCBLIT_2x1 will be returned. If sextants are available (see notcurses_cansextant), this will be NCBLIT_3x2, or otherwise NCBLIT_2x2.

Notes

Multimedia decoding requires that Notcurses be built with either FFmpeg or OpenImageIO support. What formats can be decoded is totally dependent on the linked library. OpenImageIO does not support subtitles.

Bugs

ncvisual_rotate currently supports only M_PI/2 and -M_PI/2 radians for rads, but this will change soon.

NCBLIT_SIXEL is not yet implemented, and is only infrequently supported among terminals.

Bad font support can ruin NCBLIT_2x2, NCBLIT_3x2, NCBLIT_4x1, NCBLIT_BRAILLE, and NCBLIT_8x1. Braille glyphs ought ideally draw only the raised dots, rather than drawing all eight dots with two different styles. It's often best for the emulator to draw these glyphs itself.

See Also

notcurses(3), notcurses_capabilities(3), notcurses_plane(3), notcurses_render(3), utf-8(7)

Authors

nick black <nickblack@linux.com>.

Referenced By

ncls(1), ncplayer(1), notcurses(3), notcurses_plot(3), notcurses_progbar(3), notcurses_render(3).

v2.2.2