notcurses/USAGE.md

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# Usage
As of version 2.0.0, the Notcurses API is stable, and the project is committed
to backwards compatibility.
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* [Direct Mode](#direct-mode)
* [Alignment](#alignment)
* [Input](#input)
* [Planes](#planes) ([Plane Channels API](#plane-channels-api))
* [Cells](#cells) ([Cell Channels API](#cell-channels-api))
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* [Reels](#reels) ([ncreel Examples](#ncreel-examples))
* [Widgets](#widgets) ([Plots](#plots)) ([Readers](#readers)) ([Progbars](#progbars))
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* [Channels](#channels)
* [Visuals](#visuals) ([QR codes](#qrcodes)) ([Multimedia](#multimedia)) ([Pixels](#pixels))
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* [Stats](#stats)
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* [C++](#c++)
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A full API reference [is available](https://nick-black.com/notcurses/) in the
form of manual pages; these ought have been installed along with Notcurses. This document is a
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secondary reference, and should not be considered authoritative. For a more
unified commentary, consider the [paperback](https://www.amazon.com/dp/B086PNVNC9)
(also available as a [free PDF](https://nick-black.com/dankwiki/index.php?title=Hacking_The_Planet!_with_Notcurses)).
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A program wishing to use Notcurses will need to link it, ideally using the
output of `pkg-config --libs notcurses`. It is advised to compile with the
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output of `pkg-config --cflags notcurses`. If using CMake, a support file is
provided, and can be accessed as `Notcurses`.
If your program makes no use of multimedia, you might want to link with only
the core Notcurses, and thus incur far fewer dependencies. To use the minimal
core Notcurses, use `pkg-config --libs notcurses-core` etc. In place of
`notcurses_init()` and/or `ncdirect_init()` (see below), you must also use
`notcurses_core_init()` and/or `ncdirect_core_init()`, or linking will fail.
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Before calling into Notcurses—and usually as one of the first calls of the
program—be sure to call `setlocale(3)` with an appropriate UTF-8 locale. It is
usually appropriate to use `setlocale(LC_ALL, "")`, relying on the user to
properly set the `LANG` environment variable. Notcurses will refuse to start if
`nl_langinfo(3)` doesn't indicate `ANSI_X3.4-1968` or `UTF-8`. In addition, it
is wise to mask most signals early in the program, before any threads are
spawned (this is particularly critical for `SIGWINCH`).
Notcurses requires an available `terminfo(5)` definition appropriate for the
terminal. It is usually appropriate to pass `NULL` in the `termtype` field of a
`notcurses_options` struct, relying on the user to properly set the `TERM`
environment variable. This variable is usually set by the terminal itself. It
might be necessary to manually select a higher-quality definition for your
terminal, i.e. `xterm-direct` as opposed to `xterm` or `xterm-256color`.
Each terminal can be prepared via a call to `notcurses_init()`, which is
supplied a struct of type `notcurses_options`:
```c
// Get a human-readable string describing the running Notcurses version.
const char* notcurses_version(void);
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// Cannot be inline, as we want to get the versions of the actual Notcurses
// library we loaded, not what we compile against.
void notcurses_version_components(int* major, int* minor, int* patch, int* tweak);
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struct nccell; // a coordinate on an ncplane: an EGC plus styling
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struct ncplane; // a drawable Notcurses surface, composed of cells
struct notcurses; // Notcurses state for a given terminal, composed of ncplanes
// These log levels consciously map cleanly to those of libav; Notcurses itself
// does not use this full granularity. The log level does not affect the opening
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// and closing banners, which can be disabled via the Notcurses_option struct's
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// 'suppress_banner'. Note that if stderr is connected to the same terminal on
// which we're rendering, any kind of logging will disrupt the output.
typedef enum {
NCLOGLEVEL_SILENT, // default. print nothing once fullscreen service begins
NCLOGLEVEL_PANIC, // print diagnostics immediately related to crashing
NCLOGLEVEL_FATAL, // we're hanging around, but we've had a horrible fault
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NCLOGLEVEL_ERROR, // we can't keep doing this, but we can do other things
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NCLOGLEVEL_WARNING, // you probably don't want what's happening to happen
NCLOGLEVEL_INFO, // "standard information"
NCLOGLEVEL_VERBOSE, // "detailed information"
NCLOGLEVEL_DEBUG, // this is honestly a bit much
NCLOGLEVEL_TRACE, // there's probably a better way to do what you want
} ncloglevel_e;
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// Bits for notcurses_options->flags
// notcurses_init() will call setlocale() to inspect the current locale. If
// that locale is "C" or "POSIX", it will call setlocale(LC_ALL, "") to set
// the locale according to the LANG environment variable. Ideally, this will
// result in UTF8 being enabled, even if the client app didn't call
// setlocale() itself. Unless you're certain that you're invoking setlocale()
// prior to notcurses_init(), you should not set this bit. Even if you are
// invoking setlocale(), this behavior shouldn't be an issue unless you're
// doing something weird (setting a locale not based on LANG).
#define NCOPTION_INHIBIT_SETLOCALE 0x0001
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// We typically install a signal handler for SIGWINCH that generates a resize
// event in the notcurses_getc() queue. Set to inhibit this handler.
#define NCOPTION_NO_WINCH_SIGHANDLER 0x0004
// We typically install a signal handler for SIG{INT, SEGV, ABRT, QUIT} that
// restores the screen, and then calls the old signal handler. Set to inhibit
// registration of these signal handlers.
#define NCOPTION_NO_QUIT_SIGHANDLERS 0x0008
// Notcurses typically prints version info in notcurses_init() and performance
// info in notcurses_stop(). This inhibits that output.
#define NCOPTION_SUPPRESS_BANNERS 0x0020
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// If smcup/rmcup capabilities are indicated, Notcurses defaults to making use
// of the "alternate screen". This flag inhibits use of smcup/rmcup.
#define NCOPTION_NO_ALTERNATE_SCREEN 0x0040
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// Configuration for notcurses_init().
typedef struct notcurses_options {
// The name of the terminfo database entry describing this terminal. If NULL,
// the environment variable TERM is used. Failure to open the terminal
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// definition will result in failure to initialize Notcurses.
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const char* termtype;
// If non-NULL, notcurses_render() will write each rendered frame to this
// FILE* in addition to outfp. This is used primarily for debugging.
FILE* renderfp;
// Progressively higher log levels result in more logging to stderr. By
// default, nothing is printed to stderr once fullscreen service begins.
ncloglevel_e loglevel;
// Desirable margins. If all are 0 (default), we will render to the entirety
// of the screen. If the screen is too small, we do what we can--this is
// strictly best-effort. Absolute coordinates are relative to the rendering
// area ((0, 0) is always the origin of the rendering area).
int margin_t, margin_r, margin_b, margin_l;
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// General flags; see NCOPTION_*. This is expressed as a bitfield so that
// future options can be added without reshaping the struct. Undefined bits
// must be set to 0.
uint64_t flags;
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} notcurses_options;
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// Lex a margin argument according to the standard Notcurses definition. There
// can be either a single number, which will define all margins equally, or
// there can be four numbers separated by commas.
int notcurses_lex_margins(const char* op, notcurses_options* opts);
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// Initialize a Notcurses context on the connected terminal at 'fp'. 'fp' must
// be a tty. You'll usually want stdout. NULL can be supplied for 'fp', in
// which case /dev/tty will be opened. Returns NULL on error, including any
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// failure initializing terminfo.
struct notcurses* notcurses_init(const notcurses_options* opts, FILE* fp);
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// The same as notcurses_init(), but without any multimedia functionality,
// allowing for a svelter binary. Link with notcurses-core if this is used.
struct notcurses* notcurses_core_init(const notcurses_options* opts, FILE* fp);
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// Destroy a Notcurses context.
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int notcurses_stop(struct notcurses* nc);
```
`notcurses_stop` should be called before exiting your program to restore the
terminal settings and free resources.
notcurses does not typically generate diagnostics (aside from the intro banner
and outro performance summary). When `stderr` is connected to the same terminal
to which graphics are being printed, printing to stderr will corrupt the output.
Setting `loglevel` to a value higher than `NCLOGLEVEL_SILENT` will cause
diagnostics to be printed to `stderr`: you could ensure `stderr` is redirected
if you make use of this functionality.
It's probably wise to export `NCOPTION_NO_ALTERNATE_SCREEN` to the user (e.g. via
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command line option or environment variable). Developers and motivated users
might appreciate the ability to manipulate `loglevel` and `renderfp`. The
remaining options are typically of use only to application authors.
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The Notcurses API draws almost entirely into the virtual buffers of `ncplane`s.
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Only upon a call to `notcurses_render` will the visible terminal display be
updated to reflect the changes:
```c
// Renders the pile of which 'n' is a part. Rendering this pile again will blow
// away the render. To actually write out the render, call ncpile_rasterize().
int ncpile_render(struct ncplane* n);
// Make the physical screen match the last rendered frame from the pile of
// which 'n' is a part. This is a blocking call. Don't call this before the
// pile has been rendered (doing so will likely result in a blank screen).
int ncpile_rasterize(struct ncplane* n);
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// Make the physical screen match the virtual screen. Changes made to the
// virtual screen (i.e. most other calls) will not be visible until after a
// successful call to notcurses_render().
int notcurses_render(struct notcurses* nc);
// Perform the rendering and rasterization portion of notcurses_render(), but
// do not write the resulting buffer out to the terminal. Using this function,
// the user can control the writeout process, and render a second frame while
// writing another. The returned buffer must be freed by the caller.
int notcurses_render_to_buffer(struct notcurses* nc, char** buf, size_t* buflen);
// Write the last rendered frame, in its entirety, to 'fp'. If
// notcurses_render() has not yet been called, nothing will be written.
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int notcurses_render_to_file(struct notcurses* nc, FILE* fp);
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// Retrieve the contents of the specified cell as last rendered. The EGC is
// returned, or NULL on error. This EGC must be free()d by the caller. The
// styles and channels are written to 'attrword' and 'channels', respectively.
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char* notcurses_at_yx(struct notcurses* nc, int yoff, int xoff,
uint16_t* styles, uint64_t* channels);
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```
One `ncplane` is guaranteed to exist: the "standard plane". The user cannot
move, resize, reparent, or destroy the standard plane (it *can* be erased).
Its dimensions always match notcurses's conception of the visible terminal. A
handle on the standard plane can be acquired with two top-level functions:
```c
// Get a reference to the standard plane (one matching our current idea of the
// terminal size) for this terminal. The standard plane always exists, and its
// origin is always at the uppermost, leftmost cell of the screen.
struct ncplane* notcurses_stdplane(struct notcurses* nc);
const struct ncplane* notcurses_stdplane_const(const struct notcurses* nc);
// notcurses_stdplane(), plus free bonus dimensions written to non-NULL y/x!
static inline struct ncplane*
notcurses_stddim_yx(struct notcurses* nc, int* restrict y, int* restrict x){
struct ncplane* s = notcurses_stdplane(nc); // can't fail
ncplane_dim_yx(s, y, x); // accepts NULL
return s;
}
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static inline const struct ncplane*
notcurses_stddim_yx_const(const struct notcurses* nc, int* restrict y, int* restrict x){
const struct ncplane* s = notcurses_stdplane_const(nc); // can't fail
ncplane_dim_yx(s, y, x); // accepts NULL
return s;
}
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```
A reference to the standard plane *is* persistent across a screen resize, as are
any indexes into its egcpool, but its framebuffer *is not* necessarily
persistent across a screen resize. Thankfully, you shouldn't have a reference
to its framebuffer, and thus only the change to its dimensions can really catch
you off guard.
Utility functions operating on the toplevel `notcurses` object include:
```c
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// Return the topmost ncplane of the standard pile.
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struct ncplane* notcurses_top(struct notcurses* n);
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// Return the bottommost ncplane of the standard pile.
struct ncplane* notcurses_bottom(struct notcurses* n);
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// Return our current idea of the terminal dimensions in rows and cols.
static inline void
notcurses_term_dim_yx(const struct notcurses* n, int* restrict rows,
int* restrict cols){
ncplane_dim_yx(notcurses_stdplane_const(n), rows, cols);
}
// Refresh the physical screen to match what was last rendered (i.e., without
// reflecting any changes since the last call to notcurses_render()). This is
// primarily useful if the screen is externally corrupted, or if an
// NCKEY_RESIZE event has been read and you're not ready to render.
int notcurses_refresh(struct notcurses* n, int* restrict y, int* restrict x);
// Enable or disable the terminal's cursor, if supported. Immediate effect.
// It is an error to supply coordinates outside of the standard plane.
void notcurses_cursor_enable(struct notcurses* nc, int y, int x);
void notcurses_cursor_disable(struct notcurses* nc);
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// Returns a 16-bit bitmask in the LSBs of supported curses-style attributes
// (NCSTYLE_UNDERLINE, NCSTYLE_BOLD, etc.) The attribute is only
// indicated as supported if the terminal can support it together with color.
// For more information, see the "ncv" capability in terminfo(5).
unsigned notcurses_supported_styles(const struct notcurses* nc);
// Returns the number of simultaneous colors claimed to be supported, or 1 if
// there is no color support. Note that several terminal emulators advertise
// more colors than they actually support, downsampling internally.
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unsigned notcurses_palette_size(const struct notcurses* nc);
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// Can we fade? Fading requires either the "rgb" or "ccc" terminfo capability.
bool notcurses_canfade(const struct notcurses* nc);
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// Can we directly specify RGB values per cell, or only use palettes?
bool notcurses_can_truecolor(const struct notcurses* nc);
// Can we load images? This requires being built against FFmpeg/OIIO.
bool notcurses_canopen_images(const struct notcurses* nc);
// Can we load videos? This requires being built against FFmpeg.
bool notcurses_canopen_videos(const struct notcurses* nc);
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// Can we change colors in the hardware palette? Requires "ccc" and "initc".
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
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bool notcurses_canchangecolor(const struct notcurses* nc);
// Is our encoding UTF-8? Requires LANG being set to a UTF-8 locale.
bool notcurses_canutf8(const struct notcurses* nc);
// Can we blit pixel graphics?
bool notcurses_canpixel(const struct notcurses* nc);
// Can we draw sextants? This requires Unicode 13.
bool notcurses_cansextants(const struct notcurses* nc);
// Can we draw Braille? The Linux console cannot.
bool notcurses_canbraille(const struct notcurses* nc);
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// This function must successfully return before NCBLIT_PIXEL is available.
// Returns -1 on error, 0 for no support, or 1 if pixel output is supported.
// Must not be called concurrently with either input or rasterization.
int notcurses_check_pixel_support(struct notcurses* nc);
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```
## Direct mode
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"Direct mode" makes a limited subset of Notcurses is available for manipulating
typical scrolling or file-backed output. Its functions are exported via
`<notcurses/direct.h>`, and output directly and immediately to the provided
`FILE*`. `notcurses_render()` is neither supported nor necessary for such an
instance. Use `ncdirect_init()` to create a direct mode context:
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```c
struct ncdirect; // minimal state for a terminal
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// Initialize a direct-mode Notcurses context on the connected terminal at 'fp'.
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// 'fp' must be a tty. You'll usually want stdout. Direct mode supports a
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// limited subset of Notcurses routines which directly affect 'fp', and neither
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// supports nor requires notcurses_render(). This can be used to add color and
// styling to text in the standard output paradigm. 'flags' is a bitmask over
// NCDIRECT_OPTION_*.
// Returns NULL on error, including any failure initializing terminfo.
struct ncdirect* ncdirect_init(const char* termtype, FILE* fp, uint64_t flags);
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// The same as ncdirect_init(), but without any multimedia functionality,
// allowing for a svelter binary. Link with notcurses-core if this is used.
struct ncdirect* ncdirect_core_init(const char* termtype, FILE* fp, uint64_t flags);
// ncdirect_init() will call setlocale() to inspect the current locale. If
// that locale is "C" or "POSIX", it will call setlocale(LC_ALL, "") to set
// the locale according to the LANG environment variable. Ideally, this will
// result in UTF8 being enabled, even if the client app didn't call
// setlocale() itself. Unless you're certain that you're invoking setlocale()
// prior to notcurses_init(), you should not set this bit. Even if you are
// invoking setlocale(), this behavior shouldn't be an issue unless you're
// doing something weird (setting a locale not based on LANG).
#define NCDIRECT_OPTION_INHIBIT_SETLOCALE 0x0001ull
// *Don't* place the terminal into cbreak mode (see tcgetattr(3)). By default,
// echo and line buffering are turned off.
#define NCDIRECT_OPTION_INHIBIT_CBREAK 0x0002ull
// We typically install a signal handler for SIG{INT, SEGV, ABRT, QUIT} that
// restores the screen, and then calls the old signal handler. Set to inhibit
// registration of these signal handlers. Chosen to match fullscreen mode.
#define NCDIRECT_OPTION_NO_QUIT_SIGHANDLERS 0x0008ull
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// Release 'nc' and any associated resources. 0 on success, non-0 on failure.
int ncdirect_stop(struct ncdirect* nc);
```
This context must be destroyed using `ncdirect_stop()`. The following functions
are available for direct mode:
```c
// Read a (heap-allocated) line of text using the Readline library Initializes
// Readline the first time it's called. For input to be echoed to the terminal,
// it is necessary that NCDIRECT_OPTION_INHIBIT_CBREAK be provided to
// ncdirect_init(). Returns NULL on error.
API char* ncdirect_readline(struct ncdirect* nc, const char* prompt);
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int ncdirect_fg_rgb(struct ncdirect* nc, unsigned rgb);
int ncdirect_bg_rgb(struct ncdirect* nc, unsigned rgb);
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static inline int
ncdirect_bg_rgb8(struct ncdirect* nc, unsigned r, unsigned g, unsigned b){
if(r > 255 || g > 255 || b > 255){
return -1;
}
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return ncdirect_bg_rgb(nc, (r << 16u) + (g << 8u) + b);
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}
static inline int
ncdirect_fg_rgb8(struct ncdirect* nc, unsigned r, unsigned g, unsigned b){
if(r > 255 || g > 255 || b > 255){
return -1;
}
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return ncdirect_fg_rgb(nc, (r << 16u) + (g << 8u) + b);
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}
// Get the current number of columns/rows.
int ncdirect_dim_x(const struct ncdirect* nc);
int ncdirect_dim_y(const struct ncdirect* nc);
int ncdirect_fg_default(struct ncdirect* nc);
int ncdirect_bg_default(struct ncdirect* nc);
int ncdirect_styles_set(struct ncdirect* n, unsigned stylebits);
int ncdirect_styles_on(struct ncdirect* n, unsigned stylebits);
int ncdirect_styles_off(struct ncdirect* n, unsigned stylebits);
int ncdirect_clear(struct ncdirect* nc); // clear the screen
// Move the cursor in direct mode. -1 to retain current location on that axis.
int ncdirect_cursor_move_yx(struct ncdirect* n, int y, int x);
int ncdirect_cursor_enable(struct ncdirect* nc);
int ncdirect_cursor_disable(struct ncdirect* nc);
// Relative moves. num < 0 is an error.
int ncdirect_cursor_up(struct ncdirect* nc, int num);
int ncdirect_cursor_left(struct ncdirect* nc, int num);
int ncdirect_cursor_right(struct ncdirect* nc, int num);
int ncdirect_cursor_down(struct ncdirect* nc, int num);
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// Get the cursor position, when supported. This requires writing to the
// terminal, and then reading from it. If the terminal doesn't reply, or
// doesn't reply in a way we understand, the results might be deleterious.
int ncdirect_cursor_yx(struct ncdirect* n, int* y, int* x);
// Push or pop the cursor location to the terminal's stack. The depth of this
// stack, and indeed its existence, is terminal-dependent.
int ncdirect_cursor_push(struct ncdirect* n);
int ncdirect_cursor_pop(struct ncdirect* n);
// Formatted printing (plus alignment relative to the terminal).
int ncdirect_printf_aligned(struct ncdirect* n, int y, ncalign_e align,
const char* fmt, ...)
__attribute__ ((format (printf, 4, 5)));
// Draw horizontal/vertical lines using the specified channels, interpolating
// between them as we go. The EGC may not use more than one column. For a
// horizontal line, |len| cannot exceed the screen width minus the cursor's
// offset. For a vertical line, it may be as long as you'd like; the screen
// will scroll as necessary. All lines start at the current cursor position.
int ncdirect_hline_interp(struct ncdirect* n, const char* egc, int len,
uint64_t h1, uint64_t h2);
int ncdirect_vline_interp(struct ncdirect* n, const char* egc, int len,
uint64_t h1, uint64_t h2);
// Draw a box with its upper-left corner at the current cursor position, having
// dimensions |ylen|x|xlen|. See ncplane_box() for more information. The
// minimum box size is 2x2, and it cannot be drawn off-screen. |wchars| is an
// array of 6 wide characters: UL, UR, LL, LR, HL, VL.
int ncdirect_box(struct ncdirect* n, uint64_t ul, uint64_t ur,
uint64_t ll, uint64_t lr, const wchar_t* wchars,
int ylen, int xlen, unsigned ctlword);
// ncdirect_box() with the rounded box-drawing characters
int ncdirect_rounded_box(struct ncdirect* n, uint64_t ul, uint64_t ur,
uint64_t ll, uint64_t lr,
int ylen, int xlen, unsigned ctlword);
// ncdirect_box() with the double box-drawing characters
int ncdirect_double_box(struct ncdirect* n, uint64_t ul, uint64_t ur,
uint64_t ll, uint64_t lr,
int ylen, int xlen, unsigned ctlword);
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// Display an image using the specified blitter and scaling. The image may
// be arbitrarily many rows -- the output will scroll -- but will only occupy
// the column of the cursor, and those to the right.
int ncdirect_render_image(struct ncdirect* nc, const char* filename,
ncblitter_e blitter, ncscale_e scale);
// Render an image using the specified blitter and scaling, but do not write
// the result. The image may be arbitrarily many rows -- the output will scroll
// -- but will only occupy the column of the cursor, and those to the right.
// To actually write (and free) this, invoke ncdirect_raster_frame(). 'maxx'
// and 'maxy', if greater than 0, are used for scaling; the terminal's geometry
// is otherwise used.
ncdirectv* ncdirect_render_frame(struct ncdirect* n, const char* filename,
ncblitter_e blitter, ncscale_e scale,
int maxy, int maxx);
// Takes the result of ncdirect_render_frame() and writes it to the output.
int ncdirect_raster_frame(struct ncdirect* n, ncdirectv* ncdv, ncalign_e align);
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```
Several of the Notcurses capability predicates have `ncdirect` analogues:
```c
bool ncdirect_canopen_images(const struct ncdirect* n);
bool ncdirect_canutf8(const struct ncdirect* n);
```
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## Alignment
Most functions that generate output can be aligned relative to an ncplane.
Alignment currently comes in three forms: `NCALIGN_LEFT`, `NCALIGN_CENTER`, and
`NCALIGN_RIGHT`.
```c
// Alignment within the ncplane. Left/right-justified, or centered.
typedef enum {
NCALIGN_LEFT,
NCALIGN_CENTER,
NCALIGN_RIGHT,
} ncalign_e;
// Return the column at which 'c' cols ought start in order to be aligned
// according to 'align' within ncplane 'n'. Returns INT_MAX on invalid 'align'.
// Undefined behavior on negative 'c'.
static inline int
ncplane_align(const struct ncplane* n, ncalign_e align, int c){
if(align == NCALIGN_LEFT){
return 0;
}
int cols;
ncplane_dim_yx(n, NULL, &cols);
if(align == NCALIGN_CENTER){
return (cols - c) / 2;
}else if(align == NCALIGN_RIGHT){
return cols - c;
}
return INT_MAX;
}
```
## Input
Input can currently be taken only from `stdin`, but on the plus side, stdin
needn't be a terminal device (unlike the ttyfp `FILE*` passed to `notcurses_init()`).
Generalized input ought happen soon. There is only one input queue per `struct
notcurses`.
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Like NCURSES, Notcurses will watch for escape sequences, check them against the
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terminfo database, and return them as special keys (we hijack the Private Use
Area for special keys, specifically Supplementary Private Use Area B (u100000
through u10ffffd). Unlike NCURSES, the fundamental unit of input is the
UTF8-encoded Unicode codepoint. Note, however, that only one codepoint is
returned at a time (as opposed to an entire EGC).
It is generally possible for a false positive to occur, wherein keypresses
intended to be distinct are combined into an escape sequence. False negatives
where an intended escape sequence are read as an ESC key followed by distinct
keystrokes are also possible. NCURSES provides the `ESCDELAY` variable to
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control timing. Notcurses brooks no delay; all characters of an escape sequence
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must be readable without delay for it to be interpreted as such.
```c
// All input is currently taken from stdin, though this will likely change. We
// attempt to read a single UTF8-encoded Unicode codepoint, *not* an entire
// Extended Grapheme Cluster. It is also possible that we will read a special
// keypress, i.e. anything that doesn't correspond to a Unicode codepoint (e.g.
// arrow keys, function keys, screen resize events, etc.). These are mapped
// into Unicode's Supplementary Private Use Area-B, starting at U+100000.
//
// notcurses_getc() and notcurses_getc_nblock() are both nonblocking.
// notcurses_getc_blocking() blocks until a codepoint or special key is read,
// or until interrupted by a signal.
//
// In the case of a valid read, a 32-bit Unicode codepoint is returned. 0 is
// returned to indicate that no input was available, but only by
// notcurses_getc(). Otherwise (including on EOF) (char32_t)-1 is returned.
#define suppuabize(w) ((w) + 0x100000)
// Special composed key definitions. These values are added to 0x100000.
#define NCKEY_INVALID suppuabize(0)
#define NCKEY_RESIZE suppuabize(1) // generated internally in response to SIGWINCH
#define NCKEY_UP suppuabize(2)
#define NCKEY_RIGHT suppuabize(3)
#define NCKEY_DOWN suppuabize(4)
#define NCKEY_LEFT suppuabize(5)
#define NCKEY_INS suppuabize(6)
#define NCKEY_DEL suppuabize(7)
#define NCKEY_BACKSPACE suppuabize(8) // backspace (sometimes)
#define NCKEY_PGDOWN suppuabize(9)
#define NCKEY_PGUP suppuabize(10)
#define NCKEY_HOME suppuabize(11)
#define NCKEY_END suppuabize(12)
#define NCKEY_F00 suppuabize(20)
#define NCKEY_F01 suppuabize(21)
#define NCKEY_F02 suppuabize(22)
#define NCKEY_F03 suppuabize(23)
#define NCKEY_F04 suppuabize(24)
// ... up to 100 function keys, egads
#define NCKEY_ENTER suppuabize(121)
#define NCKEY_CLS suppuabize(122) // "clear-screen or erase"
#define NCKEY_DLEFT suppuabize(123) // down + left on keypad
#define NCKEY_DRIGHT suppuabize(124)
#define NCKEY_ULEFT suppuabize(125) // up + left on keypad
#define NCKEY_URIGHT suppuabize(126)
#define NCKEY_CENTER suppuabize(127) // the most truly neutral of keypresses
#define NCKEY_BEGIN suppuabize(128)
#define NCKEY_CANCEL suppuabize(129)
#define NCKEY_CLOSE suppuabize(130)
#define NCKEY_COMMAND suppuabize(131)
#define NCKEY_COPY suppuabize(132)
#define NCKEY_EXIT suppuabize(133)
#define NCKEY_PRINT suppuabize(134)
#define NCKEY_REFRESH suppuabize(135)
// Mouse events. We try to encode some details into the char32_t (i.e. which
// button was pressed), but some is embedded in the ncinput event. The release
// event is generic across buttons; callers must maintain state, if they care.
#define NCKEY_BUTTON1 suppuabize(201)
#define NCKEY_BUTTON2 suppuabize(202)
#define NCKEY_BUTTON3 suppuabize(203)
// ... up to 11 mouse buttons
#define NCKEY_RELEASE suppuabize(212)
// Is this char32_t a Supplementary Private Use Area-B codepoint?
static inline bool
nckey_supppuab_p(char32_t w){
return w >= 0x100000 && w <= 0x10fffd;
}
// An input event. Cell coordinates are currently defined only for mouse events.
typedef struct ncinput {
char32_t id; // identifier. Unicode codepoint or synthesized NCKEY event
int y; // y cell coordinate of event, -1 for undefined
int x; // x cell coordinate of event, -1 for undefined
bool alt; // was alt held?
bool shift; // was shift held?
bool ctrl; // was ctrl held?
uint64_t seqnum; // input event number
} ncinput;
// See ppoll(2) for more detail. Provide a NULL 'ts' to block at length, a 'ts'
// of 0 for non-blocking operation, and otherwise a timespec to bound blocking.
// Signals in sigmask (less several we handle internally) will be atomically
// masked and unmasked per ppoll(2). It should generally contain all signals.
// Returns a single Unicode code point, or (char32_t)-1 on error. 'sigmask' may
// be NULL. Returns 0 on a timeout. If an event is processed, the return value
// is the 'id' field from that event. 'ni' may be NULL.
char32_t notcurses_getc(struct notcurses* n, const struct timespec* ts,
sigset_t* sigmask, ncinput* ni);
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// 'ni' may be NULL if the caller is uninterested in event details. If no event
// is ready, returns 0.
static inline char32_t
notcurses_getc_nblock(struct notcurses* n, ncinput* ni){
sigset_t sigmask;
sigfillset(&sigmask);
struct timespec ts = { .tv_sec = 0, .tv_nsec = 0 };
return notcurses_getc(n, &ts, &sigmask, ni);
}
// 'ni' may be NULL if the caller is uninterested in event details. Blocks
// until an event is processed or a signal is received.
static inline char32_t
notcurses_getc_blocking(struct notcurses* n, ncinput* ni){
sigset_t sigmask;
sigemptyset(&sigmask);
return notcurses_getc(n, NULL, &sigmask, ni);
}
```
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By default, certain keys are mapped to signals by the terminal's line
discipline. This can be disabled with `notcurses_linesigs_disable()`, and
reenabled with `notcurses_linesigs_enable()`.
```
// Disable signals originating from the terminal's line discipline, i.e.
// SIGINT (^C), SIGQUIT (^\), and SIGTSTP (^Z). They are enabled by default.
int notcurses_linesigs_disable(struct notcurses* n);
// Restore signals originating from the terminal's line discipline, i.e.
// SIGINT (^C), SIGQUIT (^\), and SIGTSTP (^Z), if disabled.
int notcurses_linesigs_enable(struct notcurses* n);
```
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## Mice
notcurses supports mice, though only through brokers such as X or
[GPM](https://www.nico.schottelius.org/software/gpm/). It does not speak
directly to hardware. Mouse events must be explicitly enabled with a
successful call to `notcurses_mouse_enable()`, and can later be disabled.
```c
// Enable the mouse in "button-event tracking" mode with focus detection and
// UTF8-style extended coordinates. On failure, -1 is returned. On success, 0
// is returned, and mouse events will be published to notcurses_getc().
int notcurses_mouse_enable(struct notcurses* n);
// Disable mouse events. Any events in the input queue can still be delivered.
int notcurses_mouse_disable(struct notcurses* n);
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// Is the event a synthesized mouse event?
static inline bool
nckey_mouse_p(char32_t r){
return r >= NCKEY_BUTTON1 && r <= NCKEY_RELEASE;
}
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```
"Button-event tracking mode" implies the ability to detect mouse button
presses, and also mouse movement while holding down a mouse button (i.e. to
effect drag-and-drop). Mouse events are returned via the `NCKEY_MOUSE*` values,
with coordinate information in the `ncinput` struct.
## Planes
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Fundamental to Notcurses is a z-buffer of rectilinear virtual screens, known
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as `ncplane`s. An `ncplane` can be larger than the physical screen, or smaller,
or the same size; it can be entirely contained within the physical screen, or
overlap in part, or lie wholly beyond the boundaries, never to be rendered.
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In addition to its framebuffer--a rectilinear matrix of `nccell`s
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(see [Cells](#cells))--an `ncplane` is defined by:
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* a base `nccell`, used for any cell on the plane without a glyph,
* the egcpool backing its `nccell`s,
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* a current cursor location,
* a current style, foreground channel, and background channel,
* its geometry,
* a configured user curry (a `void*`),
* its position relative to the visible plane,
* its z-index, and
* an optional resize callback,
* a name (used only for debugging).
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If opaque, a `nccell` on a higher `ncplane` completely obstructs a corresponding
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`cell` from a lower `ncplane` from being seen. An `ncplane` corresponds loosely
to an [NCURSES Panel](https://invisible-island.net/ncurses/ncurses-intro.html#panels),
but is the primary drawing surface of notcurses—there is no object
corresponding to a bare NCURSES `WINDOW`.
An `ncplane` can be created aligned relative to an existing `ncplane`
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(including the standard plane) using `NCPLANE_OPTION_HORALIGNED`.
When an `ncplane` is no longer needed, free it with
`ncplane_destroy()`. To quickly reset the `ncplane`, use `ncplane_erase()`.
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```c
#define NCPLANE_OPTION_HORALIGNED 0x0001ull
typedef struct ncplane_options {
int y; // vertical placement relative to parent plane
int x; // horizontal placement relative to parent plane
int rows; // number of rows, must be positive
int cols; // number of columns, must be positive
void* userptr; // user curry, may be NULL
const char* name; // name (used only for debugging), may be NULL
int (*resizecb)(struct ncplane*); // callback when parent is resized
uint64_t flags; // closure over NCPLANE_OPTION_*
} ncplane_options;
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// Create a new ncplane bound to plane 'n', at the offset 'y'x'x' (relative to
// the origin of 'n') and the specified size. The number of 'rows' and 'cols'
// must both be positive. This plane is initially at the top of the z-buffer,
// as if ncplane_move_top() had been called on it. The void* 'userptr' can be
// retrieved (and reset) later. A 'name' can be set, used in debugging.
struct ncplane* ncplane_create(struct ncplane* n, const ncplane_options* nopts);
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// Plane 'n' will be unbound from its parent plane, and will be made a bound
// child of 'newparent'. It is an error if 'n' or 'newparent' are NULL. If
// 'newparent' is equal to 'n', 'n' becomes the root of a new pile, unless 'n'
// is already the root of a pile, in which case this is a no-op. Returns 'n'.
// The standard plane cannot be reparented. Any planes bound to 'n' are
// reparented to the previous parent of 'n'.
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struct ncplane* ncplane_reparent(struct ncplane* n, struct ncplane* newparent);
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// The same as ncplane_reparent(), except any planes bound to 'n' come along
// with it to its new destination. Their z-order is maintained.
struct ncplane* ncplane_reparent_family(struct ncplane* n, struct ncplane* newparent);
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// Replace the ncplane's existing resizecb with 'resizecb' (which may be NULL).
void ncplane_set_resizecb(struct ncplane* n, int(*resizecb)(struct ncplane*));
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// Returns the ncplane's current resize callback.
int (*ncplane_resizecb(const struct ncplane* n))(struct ncplane*);
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// Suitable for use as a 'resizecb'. This will realign the plane 'n' against its
// parent, using the alignment specified at ncplane_create()-time.
int ncplane_resize_realign(struct ncplane* n);
// Get the plane to which the plane 'n' is bound, if any.
struct ncplane* ncplane_parent(struct ncplane* n);
const struct ncplane* ncplane_parent_const(const struct ncplane* n);
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// Duplicate an existing ncplane. The new plane will have the same geometry,
// will duplicate all content, and will start with the same rendering state.
struct ncplane* ncplane_dup(struct ncplane* n, void* opaque);
// Merge the ncplane 'src' down onto the ncplane 'dst'. This is most rigorously
// defined as "write to 'dst' the frame that would be rendered were the entire
// stack made up only of 'src' and, below it, 'dst', and 'dst' was the entire
// rendering region." Merging is independent of the position of 'src' viz 'dst'
// on the z-axis. If 'src' does not intersect with 'dst', 'dst' will not be
// changed, but it is not an error. The source plane still exists following
// this operation. Do not supply the same plane for both 'src' and 'dst'.
int ncplane_mergedown(struct ncplane* restrict src, struct ncplane* restrict dst);
// Erase every cell in the ncplane, resetting all attributes to normal, all
// colors to the default color, and all cells to undrawn. All cells associated
// with this ncplane are invalidated, and must not be used after the call,
// excluding the base cell. The cursor is homed.
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void ncplane_erase(struct ncplane* n);
```
All planes, including the standard plane, are created with scrolling disabled.
Attempting to print past the end of a line will stop at the plane boundary,
and indicate an error. On a plane 10 columns wide and two rows high, printing
"0123456789" at the origin should succeed, but printing "01234567890" will by
default fail at the eleventh character. In either case, the cursor will be left
at location 0x10; it must be moved before further printing can take place. If
scrolling is enabled, the first row will be filled with 01234546789, the second
row will have 0 written to its first column, and the cursor will end up at 1x1.
Note that it is still an error to manually attempt to move the cursor off-plane,
or to specify off-plane output. Boxes do not scroll; attempting to draw a 2x11
box on our 2x10 plane will result in an error and no output. When scrolling is
enabled, and output takes place while the cursor is past the end of the last
row, the first row is discarded, all other rows are moved up, the last row is
cleared, and output begins at the beginning of the last row. This does not take
place until output is generated (i.e. it is possible to fill a plane when
scrolling is enabled).
```c
// All planes are created with scrolling disabled. Scrolling can be dynamically
// controlled with ncplane_set_scrolling(). Returns true if scrolling was
// previously enabled, or false if it was disabled.
bool ncplane_set_scrolling(struct ncplane* n, bool scrollp);
```
Planes can be freely resized, though they must retain a positive size in
both dimensions. The powerful `ncplane_resize()` allows resizing an `ncplane`,
retaining all or a portion of the plane's existing content, and translating
the plane in one step. The helper function `ncplane_resize_simple()` allows
resizing an `ncplane` without movement, retaining all possible data. To move
the plane without resizing it or changing its content, use `ncplane_move_yx()`.
It is an error to invoke these functions on the standard plane.
```c
// Resize the specified ncplane. The four parameters 'keepy', 'keepx',
// 'keepleny', and 'keeplenx' define a subset of the ncplane to keep,
// unchanged. This may be a section of size 0, though none of these four
// parameters may be negative. 'keepx' and 'keepy' are relative to the ncplane.
// They must specify a coordinate within the ncplane's totality. 'yoff' and
// 'xoff' are relative to 'keepy' and 'keepx', and place the upper-left corner
// of the resized ncplane. Finally, 'ylen' and 'xlen' are the dimensions of the
// ncplane after resizing. 'ylen' must be greater than or equal to 'keepleny',
// and 'xlen' must be greater than or equal to 'keeplenx'. It is an error to
// attempt to resize the standard plane. If either of 'keepleny' or 'keeplenx'
// is non-zero, both must be non-zero.
//
// Essentially, the kept material does not move. It serves to anchor the
// resized plane. If there is no kept material, the plane can move freely.
int ncplane_resize(struct ncplane* n, int keepy, int keepx, int keepleny,
int keeplenx, int yoff, int xoff, int ylen, int xlen);
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// Resize the plane, retaining what data we can (everything, unless we're
// shrinking in some dimension). Keep the origin where it is.
static inline int
ncplane_resize_simple(struct ncplane* n, int ylen, int xlen){
int oldy, oldx;
ncplane_dim_yx(n, &oldy, &oldx); // current dimensions of 'n'
int keepleny = oldy > ylen ? ylen : oldy;
int keeplenx = oldx > xlen ? xlen : oldx;
return ncplane_resize(n, 0, 0, keepleny, keeplenx, 0, 0, ylen, xlen);
}
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// Move this plane relative to the standard plane, or the plane to which it is
// bound (if it is bound to a plane). It is an error to attempt to move the
// standard plane.
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int ncplane_move_yx(struct ncplane* n, int y, int x);
// Get the origin of plane 'n' relative to its bound plane, or its pile (if
// 'n' is a root plane).
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void ncplane_yx(const struct ncplane* n, int* restrict y, int* restrict x);
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int ncplane_y(const struct ncplane* n);
int ncplane_x(const struct ncplane* n);
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// Get the origin of plane 'n' relative to its pile. Either or both of 'x' and
// 'y' may be NULL.
void ncplane_abs_yx(const struct ncplane* n, int* y, int* x);
int ncplane_abs_y(const struct ncplane* n);
int ncplane_abs_x(const struct ncplane* n);
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// Return the dimensions of this ncplane.
void ncplane_dim_yx(struct ncplane* n, int* restrict rows, int* restrict cols);
static inline int
ncplane_dim_y(const struct ncplane* n){
int dimy;
ncplane_dim_yx(n, &dimy, NULL);
return dimy;
}
static inline int
ncplane_dim_x(const struct ncplane* n){
int dimx;
ncplane_dim_yx(n, NULL, &dimx);
return dimx;
}
// provided a coordinate relative to the origin of 'src', map it to the same
// absolute coordinate relative to the origin of 'dst'. either or both of 'y'
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// and 'x' may be NULL. if 'dst' is NULL, it is taken to be the standard plane.
void ncplane_translate(const struct ncplane* src, const struct ncplane* dst,
int* restrict y, int* restrict x);
// Fed absolute 'y'/'x' coordinates, determine whether that coordinate is
// within the ncplane 'n'. If not, return false. If so, return true. Either
// way, translate the absolute coordinates relative to 'n'. If the point is not
// within 'n', these coordinates will not be within the dimensions of the plane.
bool ncplane_translate_abs(const struct ncplane* n, int* restrict y, int* restrict x);
```
If a given cell's glyph is zero, or its foreground channel is fully transparent,
it is considered to have no foreground. A _default_ cell can be chosen for the
`ncplane`, to be consulted in this case. If the base cell's glyph is likewise
zero (or its foreground channel fully transparent), the plane's foreground is
not rendered. Note that the base cell, like every other cell, has its own
foreground and background channels.
```c
uint16_t ncplane_styles(const struct ncplane* n);**
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// Set the specified style bits for the ncplane 'n', whether they're actively
// supported or not.
void ncplane_set_styles(struct ncplane* n, unsigned stylebits);
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// Add the specified styles to the ncplane's existing spec.
void ncplane_on_styles(struct ncplane* n, unsigned stylebits);
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// Remove the specified styles from the ncplane's existing spec.
void ncplane_off_styles(struct ncplane* n, unsigned stylebits);
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// Set the ncplane's base nccell to 'c'. The base cell is used for purposes of
// rendering anywhere that the ncplane's gcluster is 0. Note that the base cell
// is not affected by ncplane_erase(). 'c' must not be a secondary cell from a
// multicolumn EGC.
int ncplane_set_base_cell(struct ncplane* n, const nccell* c);
// Set the ncplane's base nccell. It will be used for purposes of rendering
// anywhere that the ncplane's gcluster is 0. Note that the base cell is not
// affected by ncplane_erase(). 'egc' must be an extended grapheme cluster.
int ncplane_set_base(struct ncplane* n, const char* egc,
uint32_t stylemask, uint64_t channels);
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// Extract the ncplane's base cell into 'c'. The reference is invalidated if
// 'ncp' is destroyed.
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int ncplane_base(struct ncplane* ncp, nccell* c);
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```
`ncplane`s are completely ordered along an imaginary z-axis. Newly-created
`ncplane`s are on the top of the stack. They can be freely reordered.
```c
// Splice ncplane 'n' out of the z-buffer, and reinsert it at the top or bottom.
void ncplane_move_top(struct ncplane* n);
void ncplane_move_bottom(struct ncplane* n);
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// Splice ncplane 'n' out of the z-buffer, and reinsert it below 'below'.
// Returns non-zero if 'n' is already in the desired location. 'n' and
// 'below' must not be the same plane.
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int ncplane_move_below(struct ncplane* restrict n, struct ncplane* restrict below);
// Splice ncplane 'n' out of the z-buffer, and reinsert it above 'above'.
// Returns non-zero if 'n' is already in the desired location. 'n' and
// 'above' must not be the same plane.
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int ncplane_move_above(struct ncplane* restrict n, struct ncplane* restrict above);
// Return the ncplane below this one, or NULL if this is at the stack's bottom.
struct ncplane* ncplane_below(struct ncplane* n);
// Return the ncplane above this one, or NULL if this is at the stack's top.
struct ncplane* ncplane_above(struct ncplane* n);
// Return the topmost plane of the pile containing 'n'.
struct ncplane* ncpile_top(struct ncplane* n);
// Return the bottommost plane of the pile containing 'n'.
struct ncplane* ncpile_bottom(struct ncplane* n);
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```
Each plane holds a user pointer which can be retrieved and set (or ignored). In
addition, the plane's virtual framebuffer can be accessed (note that this does
not necessarily reflect anything on the actual screen).
```c
// Retrieve the current contents of the cell under the cursor. The EGC is
// returned, or NULL on error. This EGC must be free()d by the caller. The
// styles and channels are written to 'styles' and 'channels', respectively.
char* ncplane_at_cursor(struct ncplane* n, uint16_t* styles, uint64_t* channels);
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// Retrieve the current contents of the cell under the cursor into 'c'. This
// cell is invalidated if the associated plane is destroyed.
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int ncplane_at_cursor_cell(struct ncplane* n, nccell* c);
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// Retrieve the current contents of the specified cell. The EGC is returned, or
// NULL on error. This EGC must be free()d by the caller. The styles and
// channels are written to 'styles' and 'channels', respectively.
char* ncplane_at_yx(const struct ncplane* n, int y, int x,
uint16_t* styles, uint64_t* channels);
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// Retrieve the current contents of the specified cell into 'c'. This cell is
// invalidated if the associated plane is destroyed.
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int ncplane_at_yx_cell(struct ncplane* n, int y, int x, nccell* c);
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2020-05-07 01:40:24 +00:00
// Create an RGBA flat array from the selected region of the ncplane 'nc'.
// Start at the plane's 'begy'x'begx' coordinate (which must lie on the
// plane), continuing for 'leny'x'lenx' cells. Either or both of 'leny' and
// 'lenx' can be specified as -1 to go through the boundary of the plane.
2020-06-06 09:11:45 +00:00
// Only glyphs from the specified blitset may be present.
uint32_t* ncplane_rgba(const struct ncplane* nc, ncblitter_e blit,
int begy, int begx, int leny, int lenx);
2020-05-07 01:40:24 +00:00
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// return a nul-terminated, heap copy of the current (UTF-8) contents.
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
char* ncplane_contents(const struct ncplane* nc, int begy, int begx,
2020-05-08 23:45:47 +00:00
int leny, int lenx);
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// Manipulate the opaque user pointer associated with this plane.
// ncplane_set_userptr() returns the previous userptr after replacing
// it with 'opaque'. the others simply return the userptr.
void* ncplane_set_userptr(struct ncplane* n, void* opaque);
void* ncplane_userptr(struct ncplane* n);
```
All output is to `ncplane`s. There is no cost in moving the cursor around the
virtual framebuffer. Output that's never rendered still has some memory transfer
cost as the virtual framebuffer is prepared, but new data overwrites it in
memory.
```c
// Move the cursor to the specified position (the cursor needn't be visible).
// Returns -1 on error, including negative parameters, or ones exceeding the
// plane's dimensions.
int ncplane_cursor_move_yx(struct ncplane* n, int y, int x);
// Get the current position of the cursor within n. y and/or x may be NULL.
void ncplane_cursor_yx(const struct ncplane* n, int* restrict y, int* restrict x);
// Replace the cell at the specified coordinates with the provided cell 'c',
// and advance the cursor by the width of the cell (but not past the end of the
// plane). On success, returns the number of columns the cursor was advanced.
// On failure, -1 is returned.
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int ncplane_putc_yx(struct ncplane* n, int y, int x, const nccell* c);
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// Call ncplane_putc_yx() for the current cursor location.
static inline int
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ncplane_putc(struct ncplane* n, const nccell* c){
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return ncplane_putc_yx(n, -1, -1, c);
}
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// Replace the nccell at the specified coordinates with the provided 7-bit char
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// 'c'. Advance the cursor by 1. On success, returns 1. On failure, returns -1.
// This works whether the underlying char is signed or unsigned.
static inline int
ncplane_putchar_yx(struct ncplane* n, int y, int x, char c){
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nccell ce = CELL_INITIALIZER(c, ncplane_attr(n), ncplane_channels(n));
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return ncplane_putc_yx(n, y, x, &ce);
}
// Call ncplane_putchar_yx() at the current cursor location.
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static inline int
ncplane_putchar(struct ncplane* n, char c){
return ncplane_putchar_yx(n, -1, -1, c);
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}
// Replace the EGC underneath us, but retain the styling. The current styling
// of the plane will not be changed.
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int ncplane_putchar_stained(struct ncplane* n, char c);
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// Replace the nccell at the specified coordinates with the provided wide char
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// 'w'. Advance the cursor by the character's width as reported by wcwidth().
2021-01-08 09:59:24 +00:00
// On success, returns the number of columns written. On failure, returns -1.
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static inline int
ncplane_putwc_yx(struct ncplane* n, int y, int x, wchar_t w){
wchar_t warr[2] = { w, L'\0' };
return ncplane_putwstr_yx(n, y, x, warr);
}
// Call ncplane_putwc() at the current cursor position.
static inline int
ncplane_putwc(struct ncplane* n, wchar_t w){
return ncplane_putwc_yx(n, -1, -1, w);
}
// Replace the cell at the specified coordinates with the provided EGC, and
// advance the cursor by the width of the cluster (but not past the end of the
// plane). On success, returns the number of columns the cursor was advanced.
// On failure, -1 is returned. The number of bytes converted from gclust is
// written to 'sbytes' if non-NULL.
int ncplane_putegc_yx(struct ncplane* n, int y, int x, const char* gclust, int* sbytes);
// Call ncplane_putegc() at the current cursor location.
static inline int
ncplane_putegc(struct ncplane* n, const char* gclust, int* sbytes){
return ncplane_putegc_yx(n, -1, -1, gclust, sbytes);
}
// Replace the EGC underneath us, but retain the styling. The current styling
// of the plane will not be changed.
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int ncplane_putegc_stained(struct ncplane* n, const char* gclust, int* sbytes);
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#define WCHAR_MAX_UTF8BYTES 6
// ncplane_putegc(), but following a conversion from wchar_t to UTF-8 multibyte.
static inline int
ncplane_putwegc(struct ncplane* n, const wchar_t* gclust, int* sbytes){
// maximum of six UTF8-encoded bytes per wchar_t
const size_t mbytes = (wcslen(gclust) * WCHAR_MAX_UTF8BYTES) + 1;
char* mbstr = (char*)malloc(mbytes); // need cast for c++ callers
if(mbstr == NULL){
return -1;
}
size_t s = wcstombs(mbstr, gclust, mbytes);
if(s == (size_t)-1){
free(mbstr);
return -1;
}
int ret = ncplane_putegc(n, mbstr, sbytes);
free(mbstr);
return ret;
}
// Call ncplane_putwegc() after successfully moving to y, x.
static inline int
ncplane_putwegc_yx(struct ncplane* n, int y, int x, const wchar_t* gclust,
int* sbytes){
if(ncplane_cursor_move_yx(n, y, x)){
return -1;
}
return ncplane_putwegc(n, gclust, sbytes);
}
// Replace the EGC underneath us, but retain the styling. The current styling
// of the plane will not be changed.
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int ncplane_putwegc_stained(struct ncplane* n, const wchar_t* gclust, int* sbytes);
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// Write a series of EGCs to the current location, using the current style.
// They will be interpreted as a series of columns (according to the definition
// of ncplane_putc()). Advances the cursor by some positive number of columns
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// (though not beyond the end of the plane); this number is returned on success.
// On error, a non-positive number is returned, indicating the number of columns
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// which were written before the error.
int ncplane_putstr_yx(struct ncplane* n, int y, int x, const char* gclusters);
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static inline int
ncplane_putstr(struct ncplane* n, const char* gclustarr){
return ncplane_putstr_yx(n, -1, -1, gclustarr);
}
int ncplane_putstr_aligned(struct ncplane* n, int y, ncalign_e align, const char* s);
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// Replace a string's worth of glyphs at the current cursor location, but
// retain the styling. The current styling of the plane will not be changed.
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int ncplane_putstr_stained(struct ncplane* n, const char* s);
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// ncplane_putstr(), but following a conversion from wchar_t to UTF-8 multibyte.
static inline int
ncplane_putwstr_yx(struct ncplane* n, int y, int x, const wchar_t* gclustarr){
// maximum of six UTF8-encoded bytes per wchar_t
const size_t mbytes = (wcslen(gclustarr) * WCHAR_MAX_UTF8BYTES) + 1;
char* mbstr = (char*)malloc(mbytes); // need cast for c++ callers
if(mbstr == NULL){
return -1;
}
size_t s = wcstombs(mbstr, gclustarr, mbytes);
if(s == (size_t)-1){
free(mbstr);
return -1;
}
int ret = ncplane_putstr_yx(n, y, x, mbstr);
free(mbstr);
return ret;
}
// Write a series of EGCs to the current location, using the current style.
// They will be interpreted as a series of columns (according to the definition
// of ncplane_putc()). Advances the cursor by some positive number of columns
// (though not beyond the end of the plane); this number is returned on success.
// On error, a non-positive number is returned, indicating the number of columns
// which were written before the error. No more than 's' bytes will be written.
int ncplane_putnstr_yx(struct ncplane* n, int y, int x, size_t s, const char* gclusters);
static inline int
ncplane_putnstr(struct ncplane* n, size_t s, const char* gclustarr){
return ncplane_putnstr_yx(n, -1, -1, s, gclustarr);
}
int ncplane_putnstr_aligned(struct ncplane* n, int y, ncalign_e align,
size_t s, const char* s);
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static inline int
ncplane_putwstr_aligned(struct ncplane* n, int y, ncalign_e align,
const wchar_t* gclustarr){
int width = wcswidth(gclustarr, INT_MAX);
int xpos = ncplane_align(n, align, width);
return ncplane_putwstr_yx(n, y, xpos, gclustarr);
}
static inline int
ncplane_putwstr(struct ncplane* n, const wchar_t* gclustarr){
return ncplane_putwstr_yx(n, -1, -1, gclustarr);
}
// The ncplane equivalents of printf(3) and vprintf(3).
int ncplane_vprintf_aligned(struct ncplane* n, int y, ncalign_e align,
const char* format, va_list ap);
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int ncplane_vprintf_yx(struct ncplane* n, int y, int x,
const char* format, va_list ap);
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static inline int
ncplane_vprintf(struct ncplane* n, const char* format, va_list ap){
return ncplane_vprintf_yx(n, -1, -1, format, ap);
}
static inline int
ncplane_printf(struct ncplane* n, const char* format, ...)
__attribute__ ((format (printf, 2, 3)));
static inline int
ncplane_printf(struct ncplane* n, const char* format, ...){
va_list va;
va_start(va, format);
int ret = ncplane_vprintf(n, format, va);
va_end(va);
return ret;
}
static inline int
ncplane_printf_aligned(struct ncplane* n, int y, ncalign_e align,
const char* format, ...)
__attribute__ ((format (printf, 4, 5)));
static inline int
ncplane_printf_yx(struct ncplane* n, int y, int x, const char* format, ...){
va_list va;
va_start(va, format);
int ret = ncplane_vprintf_yx(n, y, x, format, va);
va_end(va);
return ret;
}
static inline int
ncplane_printf_yx(struct ncplane* n, int y, int x, const char* format, ...)
__attribute__ ((format (printf, 4, 5)));
static inline int
ncplane_printf_aligned(struct ncplane* n, int y, ncalign_e align, const char* format, ...){
va_list va;
va_start(va, format);
int ret = ncplane_vprintf_aligned(n, y, align, format, va);
va_end(va);
return ret;
}
```
Multiline chunks of human-readable text can be written with
`ncplane_puttext()` even if the plane does not have scrolling enabled. Such
text will be broken up across lines using the Unicode line-breaking algorithm
of [Unicode Annex #14](http://www.unicode.org/reports/tr14/tr14-34.html).
```c
// Write the specified text to the plane, breaking lines sensibly, beginning at
// the specified line. Returns the number of columns written. When breaking a
// line, the line will be cleared to the end of the plane (the last line will
// *not* be so cleared). The number of bytes written from the input is written
// to '*bytes' if it is not NULL. Cleared columns are included in the return
// value, but *not* included in the number of bytes written. Leaves the cursor
// at the end of output. A partial write will be accomplished as far as it can;
// determine whether the write completed by inspecting '*bytes'.
int ncplane_puttext(struct ncplane* n, int y, ncalign_e align,
const char* text, size_t* bytes);
```
2020-04-24 05:18:48 +00:00
Lines and boxes can be drawn, interpolating their colors between their two
endpoints. For a line of a single color, be sure to specify the same channels
on both sides. Boxes allow fairly detailed specification of how they're drawn.
```c
// Draw horizontal or vertical lines using the specified cell, starting at the
// current cursor position. The cursor will end at the cell following the last
// cell output (even, perhaps counter-intuitively, when drawing vertical
// lines), just as if ncplane_putc() was called at that spot. Return the
// number of cells drawn on success. On error, return the negative number of
// cells drawn.
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int ncplane_hline_interp(struct ncplane* n, const nccell* c, int len,
uint64_t c1, uint64_t c2);
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static inline int
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ncplane_hline(struct ncplane* n, const nccell* c, int len){
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return ncplane_hline_interp(n, c, len, c->channels, c->channels);
}
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int ncplane_vline_interp(struct ncplane* n, const nccell* c, int len,
uint64_t c1, uint64_t c2);
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static inline int
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ncplane_vline(struct ncplane* n, const nccell* c, int len){
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return ncplane_vline_interp(n, c, len, c->channels, c->channels);
}
// Draw a box with its upper-left corner at the current cursor position, and its
// lower-right corner at 'ystop'x'xstop'. The 6 cells provided are used to draw the
// upper-left, ur, ll, and lr corners, then the horizontal and vertical lines.
// 'ctlword' is defined in the least significant byte, where bits [7, 4] are a
// gradient mask, and [3, 0] are a border mask:
// * 7, 3: top
// * 6, 2: right
// * 5, 1: bottom
// * 4, 0: left
// If the gradient bit is not set, the styling from the hl/vl cells is used for
// the horizontal and vertical lines, respectively. If the gradient bit is set,
// the color is linearly interpolated between the two relevant corner cells.
//
// By default, vertexes are drawn whether their connecting edges are drawn or
// not. The value of the bits corresponding to NCBOXCORNER_MASK control this,
// and are interpreted as the number of connecting edges necessary to draw a
// given corner. At 0 (the default), corners are always drawn. At 3, corners
// are never drawn (as at most 2 edges can touch a box's corner).
#define NCBOXMASK_TOP 0x0001
#define NCBOXMASK_RIGHT 0x0002
#define NCBOXMASK_BOTTOM 0x0004
#define NCBOXMASK_LEFT 0x0008
#define NCBOXGRAD_TOP 0x0010
#define NCBOXGRAD_RIGHT 0x0020
#define NCBOXGRAD_BOTTOM 0x0040
#define NCBOXGRAD_LEFT 0x0080
#define NCBOXCORNER_MASK 0x0300
#define NCBOXCORNER_SHIFT 8u
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int ncplane_box(struct ncplane* n, const nccell* ul, const nccell* ur,
const nccell* ll, const nccell* lr, const nccell* hline,
const cell* vline, int ystop, int xstop, unsigned ctlword);
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// Draw a box with its upper-left corner at the current cursor position, having
// dimensions 'ylen'x'xlen'. See ncplane_box() for more information. The
// minimum box size is 2x2, and it cannot be drawn off-screen.
static inline int
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ncplane_box_sized(struct ncplane* n, const nccell* ul, const nccell* ur,
const nccell* ll, const nccell* lr, const nccell* hline,
const nccell* vline, int ylen, int xlen, unsigned ctlword){
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int y, x;
ncplane_cursor_yx(n, &y, &x);
return ncplane_box(n, ul, ur, ll, lr, hline, vline, y + ylen - 1,
x + xlen - 1, ctlword);
}
static inline int
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ncplane_perimeter(struct ncplane* n, const nccell* ul, const nccell* ur,
const nccell* ll, const nccell* lr, const nccell* hline,
const nccell* vline, unsigned ctlword){
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if(ncplane_cursor_move_yx(n, 0, 0)){
return -1;
}
int dimy, dimx;
ncplane_dim_yx(n, &dimy, &dimx);
return ncplane_box_sized(n, ul, ur, ll, lr, hline, vline, dimy, dimx, ctlword);
}
static inline int
ncplane_rounded_box(struct ncplane* n, uint32_t attr, uint64_t channels,
int ystop, int xstop, unsigned ctlword){
int ret = 0;
2020-12-13 05:19:24 +00:00
nccell ul = CELL_TRIVIAL_INITIALIZER, ur = CELL_TRIVIAL_INITIALIZER;
nccell ll = CELL_TRIVIAL_INITIALIZER, lr = CELL_TRIVIAL_INITIALIZER;
nccell hl = CELL_TRIVIAL_INITIALIZER, vl = CELL_TRIVIAL_INITIALIZER;
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if((ret = cells_rounded_box(n, attr, channels, &ul, &ur, &ll, &lr, &hl, &vl)) == 0){
ret = ncplane_box(n, &ul, &ur, &ll, &lr, &hl, &vl, ystop, xstop, ctlword);
}
cell_release(n, &ul); cell_release(n, &ur);
cell_release(n, &ll); cell_release(n, &lr);
cell_release(n, &hl); cell_release(n, &vl);
return ret;
}
static inline int
ncplane_rounded_box_sized(struct ncplane* n, uint32_t attr, uint64_t channels,
int ylen, int xlen, unsigned ctlword){
int y, x;
ncplane_cursor_yx(n, &y, &x);
return ncplane_rounded_box(n, attr, channels, y + ylen - 1,
x + xlen - 1, ctlword);
}
static inline int
ncplane_double_box(struct ncplane* n, uint32_t attr, uint64_t channels,
int ystop, int xstop, unsigned ctlword){
int ret = 0;
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nccell ul = CELL_TRIVIAL_INITIALIZER, ur = CELL_TRIVIAL_INITIALIZER;
nccell ll = CELL_TRIVIAL_INITIALIZER, lr = CELL_TRIVIAL_INITIALIZER;
nccell hl = CELL_TRIVIAL_INITIALIZER, vl = CELL_TRIVIAL_INITIALIZER;
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if((ret = cells_double_box(n, attr, channels, &ul, &ur, &ll, &lr, &hl, &vl)) == 0){
ret = ncplane_box(n, &ul, &ur, &ll, &lr, &hl, &vl, ystop, xstop, ctlword);
}
cell_release(n, &ul); cell_release(n, &ur);
cell_release(n, &ll); cell_release(n, &lr);
cell_release(n, &hl); cell_release(n, &vl);
return ret;
}
static inline int
ncplane_double_box_sized(struct ncplane* n, uint32_t attr, uint64_t channels,
int ylen, int xlen, unsigned ctlword){
int y, x;
ncplane_cursor_yx(n, &y, &x);
return ncplane_double_box(n, attr, channels, y + ylen - 1,
x + xlen - 1, ctlword);
}
```
Similarly, areas can be filled with a cell.
```c
2020-06-05 19:14:07 +00:00
// Starting at the specified coordinate, if its glyph is different from that of
// 'c', 'c' is copied into it, and the original glyph is considered the fill
// target. We do the same to all cardinally-connected cells having this same
// fill target. Returns the number of cells polyfilled. An invalid initial y, x
// is an error. Returns the number of cells filled, or -1 on error.
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int ncplane_polyfill_yx(struct ncplane* n, int y, int x, const nccell* c);
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// Draw a gradient with its upper-left corner at the current cursor position,
// stopping at 'ystop'x'xstop'. The glyph composed of 'egc' and 'styles' is
2020-04-24 05:18:48 +00:00
// used for all cells. The channels specified by 'ul', 'ur', 'll', and 'lr'
// are composed into foreground and background gradients. To do a vertical
// gradient, 'ul' ought equal 'ur' and 'll' ought equal 'lr'. To do a
// horizontal gradient, 'ul' ought equal 'll' and 'ur' ought equal 'ul'. To
// color everything the same, all four channels should be equivalent. The
// resulting alpha values are equal to incoming alpha values. Returns the
// number of cells filled on success, or -1 on failure.
int ncplane_gradient(struct ncplane* n, const char* egc, uint32_t styles,
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uint64_t ul, uint64_t ur, uint64_t ll, uint64_t lr,
int ystop, int xstop);
// Draw a gradient with its upper-left corner at the current cursor position,
// having dimensions 'ylen'x'xlen'. See ncplane_gradient for more information.
static inline int
ncplane_gradient_sized(struct ncplane* n, const char* egc, uint32_t styles,
2020-04-24 05:18:48 +00:00
uint64_t ul, uint64_t ur, uint64_t ll, uint64_t lr,
int ylen, int xlen){
int y, x;
ncplane_cursor_yx(n, &y, &x);
return ncplane_gradient(n, egc, styles, ul, ur, ll, lr, y + ylen - 1, x + xlen - 1);
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}
// Do a high-resolution gradient using upper blocks and synced backgrounds.
// This doubles the number of vertical gradations, but restricts you to
// half blocks (appearing to be full blocks). Returns the number of cells
// filled on success, or -1 on error.
int ncplane_highgradient(struct ncplane* n, uint32_t ul, uint32_t ur,
uint32_t ll, uint32_t lr, int ystop, int xstop);
// ncplane_gradent_sized() meets ncplane_highgradient().
int ncplane_highgradient_sized(struct ncplane* n, uint32_t ul, uint32_t ur,
uint32_t ll, uint32_t lr, int ylen, int xlen);
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// Set the given style throughout the specified region, keeping content and
// channels unchanged. Returns the number of cells set, or -1 on failure.
int ncplane_format(struct ncplane* n, int ystop, int xstop, uint32_t styles);
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// Set the given channels throughout the specified region, keeping content and
// attributes unchanged. Returns the number of cells set, or -1 on failure.
int ncplane_stain(struct ncplane* n, int ystop, int xstop,
uint64_t ul, uint64_t ur, uint64_t ll, uint64_t lr);
```
My 14 year-old self would never forgive me if we didn't have sweet palette
fades. The simple fade API runs the operation over a time interval, adapting
to the actual runtime, invoking a callback at each iteration.
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```c
// Called for each fade iteration on 'ncp'. If anything but 0 is returned,
// the fading operation ceases immediately, and that value is propagated out.
// The recommended absolute display time target is passed in 'tspec'.
typedef int (*fadecb)(struct notcurses* nc, struct ncplane* ncp,
const struct timespec*, void* curry);
// Fade the ncplane out over the provided time, calling 'fader' at each
// iteration. Requires a terminal which supports truecolor, or at least palette
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// modification (if the terminal uses a palette, our ability to fade planes is
// limited, and affected by the complexity of the rest of the screen).
int ncplane_fadeout(struct ncplane* n, const struct timespec* ts,
fadecb fader, void* curry);
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// Fade the ncplane in over the specified time. Load the ncplane with the
// target cells without rendering, then call this function. When it's done, the
// ncplane will have reached the target levels, starting from zeroes.
int ncplane_fadein(struct ncplane* n, const struct timespec* ts,
fadecb fader, void* curry);
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// Rather than the simple ncplane_fade{in/out}(), ncfadectx_setup() can be
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// Pulse the plane in and out until the callback returns non-zero, relying on
// the callback 'fader' to initiate rendering. 'ts' defines the half-period
// (i.e. the transition from black to full brightness, or back again). Proper
// use involves preparing (but not rendering) an ncplane, then calling
// ncplane_pulse(), which will fade in from black to the specified colors.
int ncplane_pulse(struct ncplane* n, const struct timespec* ts, fadecb fader, void* curry);
```
The more flexible fade API allows for fine control of the process.
```c
// paired with a loop over ncplane_fade{in/out}_iteration() + ncfadectx_free().
struct ncfadectx* ncfadectx_setup(struct ncplane* n);
// Return the number of iterations through which 'nctx' will fade.
int ncfadectx_iterations(const struct ncfadectx* nctx);
// Fade out through 'iter' iterations, where
// 'iter' < 'ncfadectx_iterations(nctx)'.
int ncplane_fadeout_iteration(struct ncplane* n, struct ncfadectx* nctx,
int iter, fadecb fader, void* curry);
// Fade in through 'iter' iterations, where
// 'iter' < 'ncfadectx_iterations(nctx)'.
int ncplane_fadein_iteration(struct ncplane* n, struct ncfadectx* nctx,
int iter, fadecb fader, void* curry);
// Release the resources associated with 'nctx'.
void ncfadectx_free(struct ncfadectx* nctx);
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```
Raw streams of RGBA or BGRx data can be blitted directly to an ncplane:
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```c
// Blit a flat array 'data' of RGBA 32-bit values to the ncplane 'vopts->n',
// which mustn't be NULL. the blit begins at 'vopts->y' and 'vopts->x' relative
// to the specified plane. Each source row ought occupy 'linesize' bytes (this
// might be greater than 'vopts->lenx' * 4 due to padding or partial blits). A
// subregion of the input can be specified with the 'begy'x'begx' and
// 'leny'x'lenx' fields from 'vopts'. Returns the number of pixels blitted, or
// -1 on error.
int ncblit_rgba(const void* data, int linesize,
const struct ncvisual_options* vopts);
// Same as ncblit_rgba(), but for BGRx.
int ncblit_bgrx(const void* data, int linesize,
const struct ncvisual_options* vopts);
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```
### Plane channels API
Helpers are provided to manipulate an `ncplane`'s `channels` member. They are
all implemented in terms of the lower-level [Channels API](#channels).
```c
// Get the current channels or attribute word for ncplane 'n'.
uint64_t ncplane_channels(const struct ncplane* n);
uint16_t ncplane_attr(const struct ncplane* n);
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// Set an entire 32-bit channel of the plane 'n'
int ncplane_set_fchannel(struct ncplane* n, uint32_t channel);
int ncplane_set_bchannel(struct ncplane* n, uint32_t channel);
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// Extract the 32-bit working background channel from an ncplane.
static inline unsigned
ncplane_bchannel(const struct ncplane* nc){
return channels_bchannel(ncplane_channels(nc));
}
// Extract the 32-bit working foreground channel from an ncplane.
static inline unsigned
ncplane_fchannel(const struct ncplane* nc){
return channels_fchannel(ncplane_channels(nc));
}
// Extract 24 bits of working foreground RGB from an ncplane, shifted to LSBs.
static inline unsigned
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ncplane_fg_rgb(const struct ncplane* nc){
return channels_fg_rgb(ncplane_channels(nc));
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}
// Extract 24 bits of working background RGB from an ncplane, shifted to LSBs.
static inline unsigned
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ncplane_bg_rgb(const struct ncplane* nc){
return channels_bg_rgb(ncplane_channels(nc));
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}
// Extract 2 bits of foreground alpha from 'struct ncplane', shifted to LSBs.
static inline unsigned
ncplane_fg_alpha(const struct ncplane* nc){
return channels_fg_alpha(ncplane_channels(nc));
}
// Extract 2 bits of background alpha from 'struct ncplane', shifted to LSBs.
static inline unsigned
ncplane_bg_alpha(const struct ncplane* nc){
return channels_bg_alpha(ncplane_channels(nc));
}
// Set the alpha parameters for ncplane 'n'.
int ncplane_set_fg_alpha(struct ncplane* n, unsigned alpha);
int ncplane_set_bg_alpha(struct ncplane* n, unsigned alpha);
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// Extract 24 bits of foreground RGB from 'n', split into subcomponents.
static inline unsigned
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ncplane_fg_rgb8(const struct ncplane* n, unsigned* r, unsigned* g, unsigned*
return channels_fg_rgb8(ncplane_channels(n), r, g, b);
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}
// Extract 24 bits of background RGB from 'n', split into subcomponents.
static inline unsigned
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ncplane_bg_rgb8(const struct ncplane* n, unsigned* r, unsigned* g, unsigned*
return channels_bg_rgb8(ncplane_channels(n), r, g, b);
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}
// Set the current fore/background color using RGB specifications. If the
// terminal does not support directly-specified 3x8b cells (24-bit "TrueColor",
// indicated by the "RGB" terminfo capability), the provided values will be
// interpreted in some lossy fashion. None of r, g, or b may exceed 255.
// "HP-like" terminals require setting foreground and background at the same
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// time using "color pairs"; Notcurses will manage color pairs transparently.
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int ncplane_set_fg_rgb8(struct ncplane* n, int r, int g, int b);
int ncplane_set_bg_rgb8(struct ncplane* n, int r, int g, int b);
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// Same, but clipped to [0..255].
void ncplane_set_bg_rgb8_clipped(struct ncplane* n, int r, int g, int b);
void ncplane_set_fg_rgb8_clipped(struct ncplane* n, int r, int g, int b);
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// Same, but with rgb assembled into a channel (i.e. lower 24 bits).
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int ncplane_set_fg_rgb(struct ncplane* n, uint32_t channel);
int ncplane_set_bg_rgb(struct ncplane* n, uint32_t channel);
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// Use the default color for the foreground/background.
void ncplane_set_fg_default(struct ncplane* n);
void ncplane_set_bg_default(struct ncplane* n);
int ncplane_set_fg_palindex(struct ncplane* n, int idx);
int ncplane_set_bg_palindex(struct ncplane* n, int idx);
```
## Cells
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Unlike the `notcurses` or `ncplane` objects, the definition of `nccell` is
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available to the user. It is somewhat ironic, then, that the user typically
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needn't (and shouldn't) use `nccell`s directly. Use an `nccell` when the EGC
being output is used several times. In this case, time otherwise spent running
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`cell_load()` (which tokenizes and verifies EGCs) can be saved. It can also be
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useful to use an `ncell` when the same styling is used in a discontinuous
manner.
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```c
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// An nccell corresponds to a single character cell on some plane, which can be
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// occupied by a single grapheme cluster (some root spacing glyph, along with
// possible combining characters, which might span multiple columns). At any
// cell, we can have a theoretically arbitrarily long UTF-8 string, a foreground
// color, a background color, and an attribute set. Valid grapheme cluster
// contents include:
//
// * A NUL terminator,
// * A single control character, followed by a NUL terminator,
// * At most one spacing character, followed by zero or more nonspacing
// characters, followed by a NUL terminator.
//
// Multi-column characters can only have a single style/color throughout.
// Existence is suffering, and thus wcwidth() is not reliable. It's just
// quoting whether or not the EGC contains a "Wide Asian" double-width
// character. This is set for some things, like most emoji, and not set for
// other things, like cuneiform. True display width is a *function of the
// font and terminal*. Among the longest Unicode codepoints is
//
// U+FDFD ARABIC LIGATURE BISMILLAH AR-RAHMAN AR-RAHEEM ﷽
//
// wcwidth() rather optimistically claims this most exalted glyph to occupy
// a single column. BiDi text is too complicated for me to even get into here.
// Be assured there are no easy answers; ours is indeed a disturbing Universe.
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//
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// Each nccell occupies 16 static bytes (128 bits). The surface is thus ~1.6MB
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// for a (pretty large) 500x200 terminal. At 80x43, it's less than 64KB.
// Dynamic requirements (the egcpool) can add up to 16MB to an ncplane, but
// such large pools are unlikely in common use.
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//
// We implement some small alpha compositing. Foreground and background both
// have two bits of inverted alpha. The actual grapheme written to a cell is
// the topmost non-zero grapheme. If its alpha is 00, its foreground color is
// used unchanged. If its alpha is 10, its foreground color is derived entirely
// from cells underneath it. Otherwise, the result will be a composite.
// Likewise for the background. If the bottom of a coordinate's zbuffer is
// reached with a cumulative alpha of zero, the default is used. In this way,
// a terminal configured with transparent background can be supported through
// multiple occluding ncplanes. A foreground alpha of 11 requests high-contrast
// text (relative to the computed background). A background alpha of 11 is
// currently forbidden.
//
// Default color takes precedence over palette or RGB, and cannot be used with
// transparency. Indexed palette takes precedence over RGB. It cannot
// meaningfully set transparency, but it can be mixed into a cascading color.
// RGB is used if neither default terminal colors nor palette indexing are in
// play, and fully supports all transparency options.
//
// This structure is exposed only so that most functions can be inlined. Do not
// directly modify or access the fields of this structure; use the API.
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typedef struct nccell {
// These 32 bits, together with the associated plane's associated egcpool,
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// completely define this cell's EGC. Unless the EGC requires more than four
// bytes to encode as UTF-8, it will be inlined here. If more than four bytes
// are required, it will be spilled into the egcpool. In either case, there's
// a NUL-terminated string available without copying, because (1) the egcpool
// is all NUL-terminated sequences and (2) the fifth byte of this struct (the
// gcluster_backstop field, see below) is guaranteed to be zero, as are any
// unused bytes in gcluster.
//
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// The gcluster + gcluster_backstop thus form a valid C string of between 0
// and 4 non-NUL bytes. Interpreting them in this fashion requires that
// gcluster be stored as a little-endian number (strings have no byte order).
// This gives rise to three simple rules:
//
// * when storing to gcluster from a numeric, always use htole()
// * when loading from gcluster for numeric use, always use htole()
// * when referencing gcluster as a string, always use a pointer cast
//
// Uses of gcluster ought thus always have exactly one htole() or pointer
// cast associated with them, and we otherwise always work as host-endian.
//
// A spilled EGC is indicated by the value 0x01XXXXXX. This cannot alias a
// true supra-ASCII EGC, because UTF-8 only encodes bytes <= 0x80 when they
// are single-byte ASCII-derived values. The XXXXXX is interpreted as a 24-bit
// index into the egcpool. These pools may thus be up to 16MB.
//
// The cost of this scheme is that the character 0x01 (SOH) cannot be encoded
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// in a nccell, which is absolutely fine because what 70s horseshit is SOH?
// It must not be allowed through the API, or havoc will result.
uint32_t gcluster; // 4B → 4B little endian EGC
uint8_t gcluster_backstop; // 1B → 5B (8 bits of zero)
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// we store the column width in this field. for a multicolumn EGC of N
// columns, there will be N nccells, and each has a width of N...for now.
// eventually, such an EGC will set more than one subsequent cell to
// WIDE_RIGHT, and this won't be necessary. it can then be used as a
// bytecount. see #1203. FIXME iff width >= 2, the cell is part of a
// multicolumn glyph. whether a cell is the left or right side of the glyph
// can be determined by checking whether ->gcluster is zero.
uint8_t width; // 1B → 6B (8 bits of EGC column width)
uint16_t stylemask; // 2B → 8B (16 bits of NCSTYLE_* attributes)
// (channels & 0x8000000000000000ull): blitted to upper-left quadrant
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// (channels & 0x4000000000000000ull): foreground is *not* "default color"
// (channels & 0x3000000000000000ull): foreground alpha (2 bits)
// (channels & 0x0800000000000000ull): foreground uses palette index
// (channels & 0x0400000000000000ull): blitted to upper-right quadrant
// (channels & 0x0200000000000000ull): blitted to lower-left quadrant
// (channels & 0x0100000000000000ull): blitted to lower-right quadrant
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// (channels & 0x00ffffff00000000ull): foreground in 3x8 RGB (rrggbb)
// (channels & 0x0000000080000000ull): reserved, must be 0
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// (channels & 0x0000000040000000ull): background is *not* "default color"
// (channels & 0x0000000030000000ull): background alpha (2 bits)
// (channels & 0x0000000008000000ull): background uses palette index
// (channels & 0x0000000007000000ull): reserved, must be 0
// (channels & 0x0000000000ffffffull): background in 3x8 RGB (rrggbb)
// At render time, these 24-bit values are quantized down to terminal
// capabilities, if necessary. There's a clear path to 10-bit support should
// we one day need it, but keep things cagey for now. "default color" is
// best explained by color(3NCURSES). ours is the same concept. until the
// "not default color" bit is set, any color you load will be ignored.
uint64_t channels; // + 8B == 16B
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} nccell;
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#define CELL_BGDEFAULT_MASK 0x0000000040000000ull
#define CELL_FGDEFAULT_MASK (CELL_BGDEFAULT_MASK << 32u)
#define CELL_BG_RGB_MASK 0x0000000000ffffffull
#define CELL_FG_RGB_MASK (CELL_BG_MASK << 32u)
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#define CELL_BG_PALETTE 0x0000000008000000ull
#define CELL_FG_PALETTE (CELL_BG_PALETTE << 32u)
#define NCCHANNEL_ALPHA_MASK 0x30000000ull
#define CELL_ALPHA_HIGHCONTRAST 0x30000000ull
#define CELL_ALPHA_TRANSPARENT 0x20000000ull
#define CELL_ALPHA_BLEND 0x10000000ull
#define CELL_ALPHA_OPAQUE 0x00000000ull
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```
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`nccell`s must be initialized with an initialization macro or `cell_init()`
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before any other use. `cell_init()` and `CELL_TRIVIAL_INITIALIZER` both
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simply zero out the `nccell`.
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```c
#define CELL_TRIVIAL_INITIALIZER { }
#define CELL_CHAR_INITIALIZER(c) { .gcluster = (c), .gcluster_backstop = 0, .reserved = 0, .stylemask = 0, .channels = 0, }
#define CELL_INITIALIZER(c, s, chan) { .gcluster = (c), .gcluster_backstop = 0, .reserved = 0, .stylemask = (s), .channels = (chan), }
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static inline void
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cell_init(nccell* c){
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memset(c, 0, sizeof(*c));
}
```
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An `nccell` has three fundamental elements:
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* The EGC displayed at this coordinate, encoded in UTF-8. If the EGC is a
single ASCII character (value less than 0x80), it is stored inline in
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the `nccell`'s `gcluster` field. Otherwise, `gcluster`'s top 24 bits
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are a 128-biased offset into the associated `ncplane`'s egcpool. This
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implies that `nccell`s are associated with `ncplane`s once prepared.
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* The Curses-style attributes of the text.
* The 52 bits of foreground and background RGBA (2x8/8/8/2), plus a few flags.
The EGC should be loaded using `cell_load()`. Either a single NUL-terminated
EGC can be provided, or a string composed of multiple EGCs. In the latter case,
the first EGC from the string is loaded. Remember, backing storage for the EGC
is provided by the `ncplane` passed to `cell_load()`; if this `ncplane` is
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destroyed (or even erased), the `nccell` cannot safely be used. If you're done
using the `nccell` before being done with the `ncplane`, call `cell_release()`
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to free up the EGC resources.
```c
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// Breaks the UTF-8 string in 'gcluster' down, setting up the nccell 'c'.
// Returns the number of bytes copied out of 'gcluster', or -1 on failure. The
// styling of the cell is left untouched, but any resources are released.
int cell_load(struct ncplane* n, nccell* c, const char* gcluster);
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// cell_load(), plus blast the styling with 'attr' and 'channels'.
static inline int
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cell_prime(struct ncplane* n, nccell* c, const char* gcluster,
uint32_t stylemask, uint64_t channels){
c->stylemask = stylemask;
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c->channels = channels;
int ret = cell_load(n, c, gcluster);
return ret;
}
// Duplicate 'c' into 'targ'. Not intended for external use; exposed for the
// benefit of unit tests.
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int cell_duplicate(struct ncplane* n, nccell* targ, const cell* c);
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// Release resources held by the cell 'c'.
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void cell_release(struct ncplane* n, nccell* c);
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#define NCSTYLE_MASK 0x03fful
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#define NCSTYLE_STANDOUT 0x0080ul
#define NCSTYLE_UNDERLINE 0x0040ul
#define NCSTYLE_REVERSE 0x0020ul
#define NCSTYLE_BLINK 0x0010ul
#define NCSTYLE_DIM 0x0008ul
#define NCSTYLE_BOLD 0x0004ul
#define NCSTYLE_INVIS 0x0002ul
#define NCSTYLE_PROTECT 0x0001ul
#define NCSTYLE_ITALIC 0x0100ul
#define NCSTYLE_STRUCK 0x0200ul
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// copy the UTF8-encoded EGC out of the cell, whether simple or complex. the
// result is not tied to the ncplane, and persists across erases / destruction.
static inline char*
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cell_strdup(const struct ncplane* n, const nccell* c){
return strdup(cell_extended_gcluster(n, c));
}
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// Set the specified style bits for the cell 'c', whether they're actively
// supported or not. Only the lower 16 bits are meaningful.
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static inline void
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cell_styles_set(nccell* c, unsigned stylebits){
c->stylemask = stylebits & NCSTYLE_MASK;
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}
// Extract the style bits from the cell.
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static inline unsigned
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cell_styles(const nccell* c){
return c->stylemask;
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}
// Add the specified styles (in the LSBs) to the cell's existing spec, whether
// they're actively supported or not.
static inline void
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cell_on_styles(nccell* c, unsigned stylebits){
c->stylemask |= (stylebits & NCSTYLE_MASK);
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}
// Remove the specified styles (in the LSBs) from the cell's existing spec.
static inline void
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cell_off_styles(nccell* c, unsigned stylebits){
c->stylemask &= ~(stylebits & NCSTYLE_MASK);
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}
// Is the cell part of a multicolumn element?
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static inline bool
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cell_double_wide_p(const nccell* c){
return (c->width >= 2);
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}
// Load a 7-bit char 'ch' into the nccell 'c'. Returns the number of bytes
// used, or -1 on error.
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static inline int
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cell_load_char(struct ncplane* n, nccell* c, char ch){
char gcluster[2];
gcluster[0] = ch;
gcluster[1] = '\0';
return cell_load(n, c, gcluster);
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}
// Load a UTF-8 encoded EGC of up to 4 bytes into the nccell 'c'. Returns the
// number of bytes used, or -1 on error.
static inline int
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cell_load_egc32(struct ncplane* n, nccell* c, uint32_t egc){
char gcluster[sizeof(egc) + 1];
egc = htole(egc);
memcpy(gcluster, &egc, sizeof(egc));
gcluster[4] = '\0';
return cell_load(n, c, gcluster);
}
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// return a pointer to the NUL-terminated EGC referenced by 'c'. this pointer
// is invalidated by any further operation on the plane 'n', so...watch out!
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const char* cell_extended_gcluster(const struct ncplane* n, const nccell* c);
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// load up six cells with the EGCs necessary to draw a box. returns 0 on
// success, -1 on error. on error, any cells this function might
// have loaded before the error are cell_release()d. There must be at least
// six EGCs in gcluster.
static inline int
cells_load_box(struct ncplane* n, uint32_t style, uint64_t channels,
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nccell* ul, nccell* ur, nccell* ll, nccell* lr,
nccell* hl, nccell* vl, const char* gclusters){
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int ulen;
if((ulen = cell_prime(n, ul, gclusters, style, channels)) > 0){
if((ulen = cell_prime(n, ur, gclusters += ulen, style, channels)) > 0){
if((ulen = cell_prime(n, ll, gclusters += ulen, style, channels)) > 0){
if((ulen = cell_prime(n, lr, gclusters += ulen, style, channels)) > 0){
if((ulen = cell_prime(n, hl, gclusters += ulen, style, channels)) > 0){
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if(cell_prime(n, vl, gclusters + ulen, style, channels) > 0){
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return 0;
}
cell_release(n, hl);
}
cell_release(n, lr);
}
cell_release(n, ll);
}
cell_release(n, ur);
}
cell_release(n, ul);
}
return -1;
}
static inline int
cells_rounded_box(struct ncplane* n, uint32_t attr, uint64_t channels,
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nccell* ul, nccell* ur, nccell* ll, nccell* lr, nccell* hl, nccell* vl){
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return cells_load_box(n, attr, channels, ul, ur, ll, lr, hl, vl, "╭╮╰╯─│");
}
static inline int
cells_double_box(struct ncplane* n, uint32_t attr, uint64_t channels,
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nccell* ul, nccell* ur, nccell* ll, nccell* lr, nccell* hl, nccell* vl){
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return cells_load_box(n, attr, channels, ul, ur, ll, lr, hl, vl, "╔╗╚╝═║");
}
```
### Cell channels API
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Helpers are provided to manipulate an `nccell`'s `channels` member. They are
all implemented in terms of the lower-level [Channels API](#channels).
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```c
// Extract the 32-bit background channel from a cell.
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static inline uint32_t
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cell_bchannel(const nccell* cl){
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return channels_bchannel(cl->channels);
}
// Extract the 32-bit foreground channel from a cell.
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static inline uint32_t
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cell_fchannel(const nccell* cl){
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return channels_fchannel(cl->channels);
}
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// Extract 24 bits of foreground RGB from 'cl', shifted to LSBs.
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static inline uint32_t
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cell_fg_rgb(const nccell* cl){
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return channels_fg_rgb(cl->channels);
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}
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// Extract 24 bits of background RGB from 'cl', shifted to LSBs.
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static inline uint32_t
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cell_bg_rgb(const nccell* cl){
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return channels_bg_rgb(cl->channels);
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}
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// Extract 2 bits of foreground alpha from 'cl', shifted to LSBs.
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static inline unsigned
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cell_fg_alpha(const nccell* cl){
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return channels_fg_alpha(cl->channels);
}
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// Extract 2 bits of background alpha from 'cl', shifted to LSBs.
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static inline unsigned
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cell_bg_alpha(const nccell* cl){
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return channels_bg_alpha(cl->channels);
}
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// Extract 24 bits of foreground RGB from 'cl', split into subcell.
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static inline uint32_t
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cell_fg_rgb8(const nccell* cl, unsigned* r, unsigned* g, unsigned* b){
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return channels_fg_rgb8(cl->channels, r, g, b);
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}
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// Extract 24 bits of background RGB from 'cl', split into subcell.
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static inline uint32_t
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cell_bg_rgb8(const nccell* cl, unsigned* r, unsigned* g, unsigned* b){
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return channels_bg_rgb8(cl->channels, r, g, b);
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}
// Set the r, g, and b cell for the foreground component of this 64-bit
// 'cell' variable, and mark it as not using the default color.
static inline int
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cell_set_fg_rgb8(nccell* cl, int r, int g, int b){
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return channels_set_fg_rgb8(&cl->channels, r, g, b);
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}
// Same, but clipped to [0..255].
static inline void
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cell_set_fg_rgb8_clipped(nccell* cl, int r, int g, int b){
channels_set_fg_rgb8_clipped(&cl->channels, r, g, b);
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}
// Same, but with an assembled 24-bit RGB value.
static inline int
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cell_set_fg_rgb(nccell* c, uint32_t channel){
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return channels_set_fg_rgb(&c->channels, channel);
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}
// Set the r, g, and b cell for the background component of this 64-bit
// 'cell' variable, and mark it as not using the default color.
static inline int
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cell_set_bg_rgb8(nccell* cl, int r, int g, int b){
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return channels_set_bg_rgb8(&cl->channels, r, g, b);
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}
// Same, but clipped to [0..255].
static inline void
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cell_set_bg_rgb8_clipped(nccell* cl, int r, int g, int b){
channels_set_bg_rgb8_clipped(&cl->channels, r, g, b);
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}
// Same, but with an assembled 24-bit RGB value.
static inline int
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cell_set_bg_rgb(nccell* c, uint32_t channel){
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return channels_set_bg_rgb(&c->channels, channel);
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}
static inline int
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cell_set_fg_alpha(nccell* c, unsigned alpha){
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return channels_set_fg_alpha(&c->channels, alpha);
}
static inline int
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cell_set_bg_alpha(nccell* c, unsigned alpha){
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return channels_set_bg_alpha(&c->channels, alpha);
}
// Is the foreground using the "default foreground color"?
static inline bool
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cell_fg_default_p(const nccell* cl){
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return channels_fg_default_p(cl->channels);
}
// Is the background using the "default background color"? The "default
// background color" must generally be used to take advantage of
// terminal-effected transparency.
static inline bool
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cell_bg_default_p(const nccell* cl){
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return channels_bg_default_p(cl->channels);
}
// Use the default color for the foreground.
static inline void
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cell_set_fg_default(nccell* c){
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channels_set_fg_default(&c->channels);
}
// Use the default color for the background.
static inline void
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cell_set_bg_default(nccell* c){
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channels_set_bg_default(&c->channels);
}
```
## Reels
ncreels are a complex UI abstraction offered by notcurses, derived from my
similar work in [outcurses](https://github.com/dankamongmen/ncreels#ncreels).
2020-10-12 13:44:03 +00:00
The ncreel is a UI abstraction supported by Notcurses in which
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dynamically-created and -destroyed toplevel entities (referred to as tablets)
are arranged as if on a cylinder, allowing for infinite scrolling
(infinite scrolling can be disabled, resulting in a rectangle rather than a
cylinder). This works naturally with keyboard navigation, mouse scrolling wheels,
and touchpads (including the capacitive touchscreens of modern cell phones).
The term "reel" derives from slot machines. An ncreel initially has
no tablets; at any given time thereafter, it has zero or more tablets, and if
there is at least one tablet, one tablet is focused (and on-screen). If the
last tablet is removed, no tablet is focused. A tablet can support navigation
within the tablet, in which case there is an in-tablet focus for the focused
tablet, which can also move among elements within the tablet.
The ncreel object tracks the size of the screen, the size, number,
information depth, and order of tablets, and the foci. It also draws the
optional borders around tablets and the optional border of the reel itself. It
knows nothing about the actual content of a tablet, save the number of lines it
occupies at each information depth. The typical control flow is that an
application receives events (from the UI or other event sources), and calls
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into Notcurses saying e.g. "Tablet 2 now has 40 valid lines of information".
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notcurses might then call back into the application, asking it to draw some
line(s) from some tablet(s) at some particular coordinate of that tablet's
plane. Finally, control returns to the application, and the cycle starts anew.
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Each tablet might be wholly, partially, or not on-screen. Notcurses always
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places as much of the focused tablet as is possible on-screen (if the focused
tablet has more lines than the actual reel does, it cannot be wholly on-screen.
In this case, the focused subelements of the tablet are always on-screen). The
placement of the focused tablet depends on how it was reached (when moving to
the next tablet, offscreen tablets are brought onscreen at the bottom. When
moving to the previous tablet, offscreen tablets are brought onscreen at the
top. When moving to an arbitrary tablet which is neither the next nor previous
tablet, it will be placed in the center).
The controlling application can, at any time,
* Insert a new tablet somewhere in the reel (possibly off-screen)
* Delete a (possibly off-screen) tablet from the reel
* Change focus to the next or previous tablet, bringing it on-screen if it is off
* Change focus to some arbitrary other tablet, bringing it on-screen if it is off
* Expand or collapse the information depth of a tablet
* Change the content of a tablet, updating it if it is on-screen
* Remove content from a tablet, possibly resizing it, and possibly changing focus within the tablet
* Add content to the tablet, possibly resizing it, and possibly creating focus within the tablet
* Navigate within the focused tablet
* Create or destroy new planes atop the ncreel
* Indicate that the screen has been resized or needs be redrawn
A special case arises when moving among the tablets of a reel having multiple
tablets, all of which fit entirely on-screen, and infinite scrolling is in use.
Normally, upon moving to the next tablet from the bottommost tablet, the
(offscreen) next tablet is pulled up into the bottom of the reel (the reverse
is true when moving to the previous tablet from the topmost). When all tablets
are onscreen with infinite scrolling, there are two possibilities: either the
focus scrolls (moving from the bottom tablet to the top tablet, for instance),
or the reel scrolls (preserving order among the tablets, but changing their
order on-screen). In this latter case, moving to the next tablet from the
bottommost tablet results in the tablet which is gaining focus being brought to
the bottom of the screen from the top, and all other tablets moving up on the
screen. Moving to the previous tablet from the topmost tablet results in the
bottommost tablet moving to the top of the screen, and all other tablets moving
down. This behavior matches the typical behavior precisely, and avoids a rude
UI discontinuity when the tablets grow to fill the entire screen (or shrink to
not fill it). If it is not desired, however, scrolling of focus can be
configured instead.
```c
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// An ncreel is a Notcurses region devoted to displaying zero or more
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// line-oriented, contained tablets between which the user may navigate. If at
// least one tablets exists, there is a "focused tablet". As much of the focused
// tablet as is possible is always displayed. If there is space left over, other
// tablets are included in the display. Tablets can come and go at any time, and
// can grow or shrink at any time.
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//
// This structure is amenable to line- and page-based navigation via keystrokes,
// scrolling gestures, trackballs, scrollwheels, touchpads, and verbal commands.
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// is scrolling infinite (can one move down or up forever, or is an end
// reached?). if true, 'circular' specifies how to handle the special case of
// an incompletely-filled reel.
#define NCREEL_OPTION_INFINITESCROLL 0x0001ull
// is navigation circular (does moving down from the last tablet move to the
// first, and vice versa)? only meaningful when infinitescroll is true. if
// infinitescroll is false, this must be false.
#define NCREEL_OPTION_CIRCULAR 0x0002ull
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typedef struct ncreel_options {
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// Notcurses can draw a border around the ncreel, and also around the
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// component tablets. inhibit borders by setting all valid bits in the masks.
// partially inhibit borders by setting individual bits in the masks. the
// appropriate attr and pair values will be used to style the borders.
// focused and non-focused tablets can have different styles. you can instead
// draw your own borders, or forgo borders entirely.
unsigned bordermask; // bitfield; 1s will not be drawn (see bordermaskbits)
uint64_t borderchan; // attributes used for ncreel border
unsigned tabletmask; // bitfield; same as bordermask but for tablet borders
uint64_t tabletchan; // tablet border styling channel
uint64_t focusedchan;// focused tablet border styling channel
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uint64_t flags; // bitfield over NCREEL_OPTION_*
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} ncreel_options;
struct nctablet;
struct ncreel;
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// Take over the ncplane 'nc' and use it to draw a reel according to 'popts'.
// The plane will be destroyed by ncreel_destroy(); this transfers ownership.
struct ncreel* ncreel_create(struct ncplane* n, const ncreel_options* popts)
__attribute__ ((nonnull (1)));
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// Returns the ncplane on which this ncreel lives.
struct ncplane* ncreel_plane(struct ncreel* pr);
// Tablet draw callback, provided a tablet (from which the ncplane and userptr
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// may be extracted), and a bool indicating whether output ought be drawn from
// the top (true) or bottom (false). Returns non-negative count of output lines,
// which must be less than or equal to ncplane_dim_y(nctablet_plane(t)).
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typedef int (*tabletcb)(struct nctablet* t, bool drawfromtop);
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// Add a new nctablet to the provided ncreel 'nr', having the callback object
// 'opaque'. Neither, either, or both of 'after' and 'before' may be specified.
// If neither is specified, the new tablet can be added anywhere on the reel.
// If one or the other is specified, the tablet will be added before or after
// the specified tablet. If both are specified, the tablet will be added to the
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// resulting location, assuming it is valid (after->next == before->prev); if
// it is not valid, or there is any other error, NULL will be returned.
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struct nctablet* ncreel_add(struct ncreel* nr, struct nctablet* after,
struct nctablet* before, tabletcb cb, void* opaque);
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// Return the number of nctablets in the ncreel 'nr'.
int ncreel_tabletcount(const struct ncreel* nr);
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// Delete the tablet specified by t from the ncreel 'nr'. Returns -1 if the
// tablet cannot be found.
int ncreel_del(struct ncreel* nr, struct nctablet* t);
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// Redraw the ncreel 'nr' in its entirety. The reel will be cleared, and
// tablets will be lain out, using the focused tablet as a fulcrum. Tablet
// drawing callbacks will be invoked for each visible tablet.
int ncreel_redraw(struct ncreel* nr);
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// Offer input 'ni' to the ncreel 'nr'. If it's relevant, this function returns
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// true, and the input ought not be processed further. If it's irrelevant to
// the reel, false is returned. Relevant inputs include:
// * a mouse click on a tablet (focuses tablet)
// * a mouse scrollwheel event (rolls reel)
// * up, down, pgup, or pgdown (navigates among items)
2021-02-12 05:19:17 +00:00
bool ncreel_offer_input(struct ncreel* nr, const ncinput* ni);
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// Return the focused tablet, if any tablets are present. This is not a copy;
// be careful to use it only for the duration of a critical section.
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struct nctablet* ncreel_focused(struct ncreel* nr);
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// Change focus to the next tablet, if one exists
struct nctablet* ncreel_next(struct ncreel* nr);
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// Change focus to the previous tablet, if one exists
struct nctablet* ncreel_prev(struct ncreel* nr);
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// Destroy an ncreel allocated with ncreel_create().
void ncreel_destroy(struct ncreel* nr);
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// Returns a pointer to a user pointer associated with this nctablet.
void* nctablet_userptr(struct nctablet* t);
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// Access the ncplane associated with nctablet 't', if one exists.
struct ncplane* nctablet_plane(struct nctablet* t);
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```
### ncreel examples
Let's say we have a screen of 11 lines, and 3 tablets of one line each. Both
a screen border and tablet borders are in use. The tablets are A, B, and C.
No gap is in use between tablets. Xs indicate focus. If B currently has focus,
and the next tablet is selected, the result would be something like:
```
------------- -------------
| --------- | | --------- |
| | A | | | | A | |
| --------- | | --------- |
| --------- | ---- "next tablet" ---> | --------- |
| |XX B XX| | | | B | |
| --------- | | --------- |
| --------- | | --------- |
| | C | | | |XX C XX| |
| --------- | | --------- |
------------- -------------
```
If instead the previous tablet had been selected, we would of course get:
```
------------- -------------
| --------- | | --------- |
| | A | | | |XX A XX| |
| --------- | | --------- |
| --------- | ---- "prev tablet" ---> | --------- |
| |XX B XX| | | | B | |
| --------- | | --------- |
| --------- | | --------- |
| | C | | | | C | |
| --------- | | --------- |
------------- -------------
```
If A instead has the focus, choosing the "next tablet" is trivial: the tablets
do not change, and focus shifts to B. If we choose the "previous tablet", there
are three possibilities:
* Finite scrolling: No change. The tablets stay in place. A remains focused.
```
------------- -------------
| --------- | | --------- |
| |XX A XX| | | |XX A XX| |
| --------- | | --------- |
| --------- | ---- "prev tablet" ---> | --------- |
| | B | | (finite scroll) | | B | |
| --------- | | --------- |
| --------- | | --------- |
| | C | | | | C | |
| --------- | | --------- |
------------- -------------
```
* Infinite scrolling with rotation: Focus shifts to C, which moves to the top:
```
------------- -------------
| --------- | | --------- |
| |XX A XX| | | |XX C XX| |
| --------- | | --------- |
| --------- | ---- "prev tablet" ---> | --------- |
| | B | | (infinite scroll with | | A | |
| --------- | rotation) | --------- |
| --------- | | --------- |
| | C | | | | B | |
| --------- | | --------- |
------------- -------------
```
* Infinite scrolling with focus rotation: Focus shifts to C, and moves to the bottom:
```
------------- -------------
| --------- | | --------- |
| |XX A XX| | | | A | |
| --------- | | --------- |
| --------- | ---- "prev tablet" ---> | --------- |
| | B | | (infinite scroll with | | B | |
| --------- | focus rotation) | --------- |
| --------- | | --------- |
| | C | | | |XX C XX| |
| --------- | | --------- |
------------- -------------
```
Now imagine us to have the same 3 tablets, but each is now 4 lines. It is
impossible to have two of these tablets wholly onscreen at once, let alone all
three. If we started with A focused and at the top, the result after all three
tablets have grown will be:
```
------------- -------------
| --------- | | --------- | A remains at the top, and
| |XX A XX| | | |XXXXXXX| | is wholly on-screen. B is
| --------- | | |XX A XX| | below it, but we can show
| --------- | ---- "grow tablet" ---> | |XXXXXXX| | only the first two lines.
| | B | | A (focused) | |XXXXXXX| | C has been pushed
| --------- | | --------- | off-screen.
| --------- | | --------- |
| | C | | | | | |
| --------- | | | B | |
------------- -------------
```
When a tablet is enlarged, it grows towards the nearest boundary, unless that
would result in the focused tablet being moved, in which case the growing
tablet instead grows in the other direction (if the tablet is in the middle
of the screen exactly, it grows down). There is one exception to this rule: if
the tablets are not making full use of the screen, growth is always down (the
screen is always filled from the top), even if it moves the focused tablet.
A 12-line screen has three tablets: A (2 lines), B (1 line), C (1 line), filling
the screen exactly. B is focused, and grows two lines:
```
------------- -------------
| --------- | | --------- | B grows down, since it is
| | A | | | | A | | closer to the bottom (3
| | | | | | | | lines) than the top (4
| --------- | ---- "grow tablet" ---> | --------- | lines). C is pushed almost
| --------- | B (focused) | --------- | entirely off-screen. A is
| |XX B XX| | | |XXXXXXX| | untouched.
| --------- | | |XX B XX| |
| --------- | | |XXXXXXX| |
| | C | | | --------- |
| --------- | | --------- |
------------- -------------
```
Starting with the same situation, A grows by 2 lines instead:
```
------------- -------------
| --------- | | | | | A grows up. It would have
| | A | | | | A | | grown down, but that would
| | | | | | | | have moved B, which has
| --------- | ---- "grow tablet" ---> | --------- | the focus. B and C remain
| --------- | A (not focused) | --------- | where they are; A moves
| |XX B XX| | | |XX B XX| | partially off-screen.
| --------- | | --------- |
| --------- | | --------- |
| | C | | | | C | |
| --------- | | --------- |
------------- -------------
```
If we started with the same situation, and B grew by 7 lines, it would first
push C entirely off-screen (B would then have four lines of text), and then
push A off-screen. B would then have eight lines of text, the maximum on a
12-line screen with both types of borders.
## Widgets
Selectors:
```
╭──────────────────────────╮
│This is the primary header│
╭──────────────────────this is the secondary header──────╮
│ ↑ │
│ option1 Long text #1
│ option2 Long text #2
│ option3 Long text #3
│ option4 Long text #4
│ option5 Long text #5
│ option6 Long text #6
│ ↓ │
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╰────────────────────────────────────here's the footer───╯
```
Multiselectors:
```
╭───────────────────╮
│ short round title │
╭now this secondary is also very, very, very outlandishly long, you see┤
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│ ↑ │
│ ☐ Pa231 Protactinium-231 (162kg) │
│ ☐ U233 Uranium-233 (15kg) │
│ ☐ U235 Uranium-235 (50kg) │
│ ☒ Np236 Neptunium-236 (7kg) │
│ ☐ Np237 Neptunium-237 (60kg) │
│ ☐ Pu238 Plutonium-238 (10kg) │
│ ☐ Pu239 Plutonium-239 (10kg) │
│ ☒ Pu240 Plutonium-240 (40kg) │
│ ☐ Pu241 Plutonium-241 (13kg) │
│ ☐ Am241 Americium-241 (100kg) │
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│ ↓ │
╰────────────────────────press q to exit (there is sartrev("no exit"))─╯
2020-04-24 05:18:48 +00:00
```
Menus:
```
Schwarzgerät File Help
xxxxxxxxxxxxxxxx╭─────────────╮xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
xxxxxxxxxxxxxxxx│New Ctrl+n│xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
xxxxxxxxxxxxxxxx│Open Ctrl+o│xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
xxxxxxxxxxxxxxxx│Close Ctrl+c│xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
xxxxxxxxxxxxxxxx├─────────────┤xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
xxxxxxxxxxxxxxxx│Quit Ctrl+q│xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
xxxxxxxxxxxxxxxx╰─────────────╯xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
```
2020-12-06 11:33:54 +00:00
### Plots
**FIXME**
2020-05-08 23:04:27 +00:00
### Readers
ncreaders provide freeform input in a (possibly multiline) region, supporting
optional readline keybindings.
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```c
typedef struct ncreader_options {
uint64_t tchannels; // channels used for input
uint32_t tattrword; // attributes used for input
bool scroll; // allow more than the physical area's worth of input
} ncreader_options;
// takes ownership of 'n', destroying it on any error (ncreader_destroy()
// otherwise destroys the ncplane).
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struct ncreader* ncreader_create(struct ncplane* n, const ncreader_options* opts);
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// empty the ncreader of any user input, and home the cursor.
int ncreader_clear(struct ncreader* n);
struct ncplane* ncreader_plane(struct ncreader* n);
// Offer the input to the ncreader. If it's relevant, this function returns
// true, and the input ought not be processed further. Almost all inputs
// are relevant to an ncreader, save synthesized ones.
2021-02-12 05:19:17 +00:00
bool ncreader_offer_input(struct ncreader* n, const ncinput* ni);
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// return a nul-terminated heap copy of the current (UTF-8) contents.
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char* ncreader_contents(const struct ncreader* n);
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// destroy the reader and its bound plane(s). if 'contents' is not NULL, the
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// UTF-8 input will be heap-duplicated and written to 'contents'.
void ncreader_destroy(struct ncreader* n, char** contents);
```
### Progbars
Progress bars proceed linearly in any of four directions. The entirety of the
provided plane will be used -- any border should be provided by the caller on
another plane. The plane will not be erased; text preloaded into the plane
will be consumed by the progress indicator. The bar is redrawn for each
provided progress report (a double between 0 and 1), and can regress with
lower values. The procession will take place along the longer dimension (at
the time of each redraw), with the horizontal length scaled by 2 for
purposes of comparison. I.e. for a plane of 20 rows and 50 columns, the
progress will be to the right (50 > 40) or left with `OPTION_RETROGRADE`.
```
// Takes ownership of the ncplane 'n', which will be destroyed by
// ncprogbar_destroy(). The progress bar is initially at 0%.
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struct ncprogbar* ncprogbar_create(struct ncplane* n, const ncprogbar_options* opts);
// Return a reference to the ncprogbar's underlying ncplane.
#define NCPROGBAR_OPTION_RETROGRADE 0x0001u // proceed left/down
typedef struct ncprogbar_options {
// channels for the maximum and minimum points. linear interpolation will be
// applied across the domain between these two.
uint64_t maxchannels;
uint64_t minchannels;
uint64_t flags;
} ncprogbar_options;
2020-12-13 12:50:16 +00:00
struct ncplane* ncprogbar_plane(struct ncprogbar* n);
// Set the progress bar's completion, a double 0 <= 'p' <= 1.
int ncprogbar_set_progress(struct ncprogbar* n, double p);
// Get the progress bar's completion, a double on [0, 1].
double ncprogbar_progress(const struct ncprogbar* n);
// Destroy the progress bar and its underlying ncplane.
void ncprogbar_destroy(struct ncprogbar* n);
```
2020-04-24 05:18:48 +00:00
## Channels
A channel encodes 24 bits of RGB color, using 8 bits for each component. It
additionally provides 2 bits of alpha channel, a bit for selecting terminal
default colors, and a bit to indicate whether it describes a Wide East Asian
character. The remaining four bits are reserved. Typically two channels are
bound together in a 64-bit unsigned integer (`uint64_t`), with eight bits
2020-12-13 05:19:24 +00:00
currently going unused. There is such a double-channel in every `nccell` and
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`ncplane` object.
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Usually, the higher-level `ncplane` and `nccell` functionality ought be used. It
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will sometimes be necessary, however, to muck with channels at their lowest
level. The channel API facilitates such muckery. All channel-related `ncplane`
2020-12-13 05:19:24 +00:00
and `nccell` functionality is implemented in terms of this API.
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```c
// Extract the 8-bit red component from a 32-bit channel.
static inline unsigned
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channel_r(uint32_t channel){
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return (channel & 0xff0000u) >> 16u;
}
// Extract the 8-bit green component from a 32-bit channel.
static inline unsigned
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channel_g(uint32_t channel){
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return (channel & 0x00ff00u) >> 8u;
}
// Extract the 8-bit blue component from a 32-bit channel.
static inline unsigned
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channel_b(uint32_t channel){
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return (channel & 0x0000ffu);
}
// Extract the three 8-bit R/G/B components from a 32-bit channel.
static inline unsigned
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channel_rgb8(uint32_t channel, unsigned* r, unsigned* g, unsigned* b){
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*r = channel_r(channel);
*g = channel_g(channel);
*b = channel_b(channel);
return channel;
}
// Set the three 8-bit components of a 32-bit channel, and mark it as not using
// the default color. Retain the other bits unchanged.
static inline int
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channel_set_rgb8(unsigned* channel, int r, int g, int b){
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if(r >= 256 || g >= 256 || b >= 256){
return -1;
}
if(r < 0 || g < 0 || b < 0){
return -1;
}
unsigned c = (r << 16u) | (g << 8u) | b;
c |= CELL_BGDEFAULT_MASK;
const uint64_t mask = CELL_BGDEFAULT_MASK | CELL_BG_MASK;
*channel = (*channel & ~mask) | c;
return 0;
}
// Same, but provide an assembled, packed 24 bits of rgb.
static inline int
channel_set(unsigned* channel, unsigned rgb){
if(rgb > 0xffffffu){
return -1;
}
*channel = (*channel & ~CELL_BG_MASK) | CELL_BGDEFAULT_MASK | rgb;
return 0;
}
// Extract the 2-bit alpha component from a 32-bit channel.
static inline unsigned
channel_alpha(unsigned channel){
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return channel & CELL_BG_ALPHA_MASK;
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}
// Set the 2-bit alpha component of the 32-bit channel.
static inline int
channel_set_alpha(unsigned* channel, unsigned alpha){
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if(alpha & ~CELL_BG_ALPHA_MASK){
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return -1;
}
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*channel = alpha | (*channel & ~CHANNEL_ALPHA_MASK);
if(alpha != CELL_ALPHA_OPAQUE){
*channel |= CELL_BGDEFAULT_MASK;
}
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return 0;
}
// Is this channel using the "default color" rather than its RGB?
static inline bool
channel_default_p(unsigned channel){
return !(channel & CELL_BGDEFAULT_MASK);
}
// Mark the channel as using its default color.
static inline unsigned
channel_set_default(unsigned* channel){
return *channel &= ~CELL_BGDEFAULT_MASK;
}
// Extract the 32-bit background channel from a channel pair.
static inline unsigned
channels_bchannel(uint64_t channels){
return channels & 0xfffffffflu;
}
// Extract the 32-bit foreground channel from a channel pair.
static inline unsigned
channels_fchannel(uint64_t channels){
return channels_bchannel(channels >> 32u);
}
// Extract 24 bits of foreground RGB from 'channels', shifted to LSBs.
static inline unsigned
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channels_fg_rgb(uint64_t channels){
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return channels_fchannel(channels) & CELL_BG_MASK;
}
// Extract 24 bits of background RGB from 'channels', shifted to LSBs.
static inline unsigned
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channels_bg_rgb(uint64_t channels){
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return channels_bchannel(channels) & CELL_BG_MASK;
}
// Extract 2 bits of foreground alpha from 'channels', shifted to LSBs.
static inline unsigned
channels_fg_alpha(uint64_t channels){
return channel_alpha(channels_fchannel(channels));
}
// Extract 2 bits of background alpha from 'channels', shifted to LSBs.
static inline unsigned
channels_bg_alpha(uint64_t channels){
return channel_alpha(channels_bchannel(channels));
}
// Extract 24 bits of foreground RGB from 'channels', split into subchannels.
static inline unsigned
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channels_fg_rgb8(uint64_t channels, unsigned* r, unsigned* g, unsigned* b){
return channel_rgb8(channels_fchannel(channels), r, g, b);
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}
// Extract 24 bits of background RGB from 'channels', split into subchannels.
static inline unsigned
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channels_bg_rgb8(uint64_t channels, unsigned* r, unsigned* g, unsigned* b){
return channel_rgb8(channels_bchannel(channels), r, g, b);
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}
// Set the r, g, and b channels for the foreground component of this 64-bit
// 'channels' variable, and mark it as not using the default color.
static inline int
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channels_set_fg_rgb8(uint64_t* channels, int r, int g, int b){
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unsigned channel = channels_fchannel(*channels);
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if(channel_set_rgb8(&channel, r, g, b) < 0){
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return -1;
}
*channels = ((uint64_t)channel << 32llu) | (*channels & 0xffffffffllu);
return 0;
}
// Set the r, g, and b channels for the background component of this 64-bit
// 'channels' variable, and mark it as not using the default color.
static inline int
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channels_set_bg_rgb8(uint64_t* channels, int r, int g, int b){
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unsigned channel = channels_bchannel(*channels);
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if(channel_set_rgb8(&channel, r, g, b) < 0){
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return -1;
}
*channels = (*channels & 0xffffffff00000000llu) | channel;
return 0;
}
// Same, but set an assembled 32 bit channel at once.
static inline int
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channels_set_fg_rgb(uint64_t* channels, unsigned rgb){
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unsigned channel = channels_fchannel(*channels);
if(channel_set(&channel, rgb) < 0){
return -1;
}
*channels = ((uint64_t)channel << 32llu) | (*channels & 0xffffffffllu);
return 0;
}
static inline int
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channels_set_bg_rgb(uint64_t* channels, unsigned rgb){
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unsigned channel = channels_bchannel(*channels);
if(channel_set(&channel, rgb) < 0){
return -1;
}
*channels = (*channels & 0xffffffff00000000llu) | channel;
return 0;
}
// Set the 2-bit alpha component of the foreground channel.
static inline int
channels_set_fg_alpha(uint64_t* channels, unsigned alpha){
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unsigned channel = channels_fchannel(*channels);
if(channel_set_alpha(&channel, alpha) < 0){
return -1;
}
*channels = ((uint64_t)channel << 32llu) | (*channels & 0xffffffffllu);
return 0;
}
// Set the 2-bit alpha component of the background channel.
static inline int
channels_set_bg_alpha(uint64_t* channels, unsigned alpha){
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if(alpha == CELL_ALPHA_HIGHCONTRAST){ // forbidden for background alpha
return -1;
}
unsigned channel = channels_bchannel(*channels);
if(channel_set_alpha(&channel, alpha) < 0){
return -1;
}
*channels = (*channels & 0xffffffff00000000llu) | channel;
return 0;
}
// Is the foreground using the "default foreground color"?
static inline bool
channels_fg_default_p(uint64_t channels){
return channel_default_p(channels_fchannel(channels));
}
// Is the background using the "default background color"? The "default
// background color" must generally be used to take advantage of
// terminal-effected transparency.
static inline bool
channels_bg_default_p(uint64_t channels){
return channel_default_p(channels_bchannel(channels));
}
// Mark the foreground channel as using its default color.
static inline uint64_t
channels_set_fg_default(uint64_t* channels){
unsigned channel = channels_fchannel(*channels);
channel_set_default(&channel);
*channels = ((uint64_t)channel << 32llu) | (*channels & 0xffffffffllu);
return *channels;
}
// Mark the foreground channel as using its default color.
static inline uint64_t
channels_set_bg_default(uint64_t* channels){
unsigned channel = channels_bchannel(*channels);
channel_set_default(&channel);
*channels = (*channels & 0xffffffff00000000llu) | channel;
return *channels;
}
```
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
## Visuals
2020-05-04 04:51:58 +00:00
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
`ncvisual`s are virtual pixel framebuffers. They can be operated upon using
familiar pixel graphics routines, and then rendered to a (character-
graphics) plane using a variety of blitting methods:
* Space with background color -- the only blitter that works in ASCII
mode. 1:1 pixels map losslessly to 2:1 cells.
* Unicode upper- and lower-half blocks (▀ and ▄, respectively). 2:1 pixels
map losslessly to 2:1 cells. The default blitting mode.
* Unicode half blocks plus quadrants. 2x2 pixels map to 2:1 cells.
2020-12-13 05:19:24 +00:00
* Unicode sextants. 3x2 pixels map to 2:1 cells.
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
* Braille. 4:2 pixels map to 2:1 cells. Useful when only two colors are needed
in a small area, due to high resolution.
It is most typicaly to prepare `ncvisual`s from files on disk (see
[Multimedia](#multimedia) below); this requires Notcurses to be built against
a multimedia engine. Even without such an engine, `ncvisual`s can be
constructed directly from RGBA or BGRA 8bpc memory:
2020-05-04 04:51:58 +00:00
```c
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
// Prepare an ncvisual, and its underlying plane, based off RGBA content in
// memory at 'rgba'. 'rgba' must be a flat array of 32-bit 8bpc RGBA pixels.
// These must be arranged in 'rowstride' lines, where the first 'cols' * 4b
// are actual data. There must be 'rows' lines. The total size of 'rgba'
// must thus be at least (rows * rowstride) bytes, of which (rows * cols * 4)
// bytes are actual data. The resulting plane will be ceil('rows'/2)x'cols'.
struct ncvisual* ncvisual_from_rgba(struct notcurses* nc, const void* rgba,
int rows, int rowstride, int cols);
// ncvisual_from_rgba(), but for BGRA.
struct ncvisual* ncvisual_from_bgra(struct notcurses* nc, const void* bgra,
int rows, int rowstride, int cols);
```
`ncvisual`s can also be loaded from the contents of a plane:
```c
// Promote an ncplane 'n' to an ncvisual. The plane may contain only spaces,
// half blocks, and full blocks. The latter will be checked, and any other
// glyph will result in a NULL being returned. This function exists so that
// planes can be subjected to ncvisual transformations. If possible, it's
// better to create the ncvisual from memory using ncvisual_from_rgba().
struct ncvisual* ncvisual_from_plane(const struct ncplane* n, ncblitter_e blit,
int begy, int begx, int leny, int lenx);
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
```
Various transformations can be applied to an `ncvisual`, regardless of how
it was built up:
```c
// Get the size and ratio of ncvisual pixels to output cells along the y
// ('toy') and x ('tox') axes. A ncvisual of '*y'X'*x' pixels will require
// ('*y' * '*toy')X('x' * 'tox') cells for full output. Returns non-zero
// for an invalid 'vopts->blitter'. Scaling is taken into account.
int ncvisual_geom(const struct notcurses* nc, const struct ncvisual* n,
const struct ncvisual_options* vopts,
int* y, int* x, int* toy, int* tox);
// Rotate the visual 'rads' radians. Only M_PI/2 and -M_PI/2 are
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
// supported at the moment, but this will change FIXME.
int ncvisual_rotate(struct ncvisual* n, double rads);
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
// Resize the visual so that it is 'rows' X 'columns'. This is a lossy
// transformation, unless the size is unchanged.
int ncvisual_resize(struct ncvisual* n, int rows, int cols);
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
2020-06-06 09:11:45 +00:00
// Polyfill at the specified location within the ncvisual 'n', using 'rgba'.
int ncvisual_polyfill_yx(struct ncvisual* n, int y, int x, uint32_t rgba);
// Get the specified pixel from the specified ncvisual.
int ncvisual_at_yx(const struct ncvisual* n, int y, int x, uint32_t* pixel);
2020-06-07 01:38:05 +00:00
// Set the specified pixel in the specified ncvisual.
int ncvisual_set_yx(const struct ncvisual* n, int y, int x, uint32_t pixel);
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
// If a subtitle ought be displayed at this time, return a heap-allocated copy
// of the UTF8 text.
char* ncvisual_subtitle(const struct ncvisual* ncv);
```
And finally, the `ncvisual` can be blitted to one or more `ncplane`s:
```c
// Render the decoded frame to the specified ncplane (if one is not provided,
// one will be created, having the exact size necessary to display the visual.
// In this case, 'style' must be NCSTYLE_NONE). A subregion of the visual can
// be rendered using 'begx', 'begy', 'lenx', and 'leny'. Negative values for
// 'begy' or 'begx' are an error. It is an error to specify any region beyond
// the boundaries of the frame. Returns the plane to which we drew (if ncv->n
// is NULL, a new plane will be created).
struct ncplane* ncvisual_render(struct notcurses* nc, struct ncvisual* ncv,
const struct ncvisual_options* vopts);
2020-10-20 23:35:16 +00:00
// decode the next frame ala ncvisual_decode(), but if we have reached the end,
2020-10-19 22:42:09 +00:00
// rewind to the first frame of the ncvisual. a subsequent `ncvisual_render()`
// will render the first frame, as if the ncvisual had been closed and reopened.
2020-10-20 23:35:16 +00:00
// the return values remain the same as those of ncvisual_decode().
int ncvisual_decode_loop(struct ncvisual* nc);
2020-10-19 22:42:09 +00:00
// we never blit full blocks, but instead spaces (more efficient) with the
// background set to the desired foreground.
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
typedef enum {
NCBLIT_DEFAULT, // let the ncvisual pick
NCBLIT_1x1, // space, compatible with ASCII
NCBLIT_2x1, // halves + 1x1 (space) ▄▀
NCBLIT_2x2, // quadrants + 2x1 ▗▐ ▖▀▟▌▙
NCBLIT_3x2, // sextants (*NOT* 2x2) 🬀🬁🬂🬃🬄🬅🬆🬇🬈🬉🬊🬋🬌🬍🬎🬏🬐🬑🬒🬓🬔🬕🬖🬗🬘🬙🬚🬛🬜🬝🬞
NCBLIT_BRAILLE, // 4 rows, 2 cols (braille) ⡀⡄⡆⡇⢀⣀⣄⣆⣇⢠⣠⣤⣦⣧⢰⣰⣴⣶⣷⢸⣸⣼⣾⣿
NCBLIT_PIXEL, // pixel graphics
NCBLIT_4x1, // four vertical levels █▆▄▂ (plots only)
NCBLIT_8x1, // eight vertical levels █▇▆▅▄▃▂▁ (plots only)
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
} ncblitter_e;
2020-07-20 01:53:01 +00:00
// Lex a blitter.
int notcurses_lex_blitter(const char* op, ncblitter_e* blitter);
// Get the name of a blitter.
const char* notcurses_str_blitter(ncblitter_e blitter);
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
struct ncvisual_options {
// if no ncplane is provided, one will be created using the exact size
// necessary to render the source with perfect fidelity (this might be
// smaller or larger than the rendering area). if provided, style is
// taken into account, relative to the provided ncplane.
struct ncplane* n;
// the style is ignored if no ncplane is provided (it ought be NCSCALE_NONE
// in this case). otherwise, the source is stretched/scaled relative to the
// provided ncplane.
ncscale_e scaling;
// if an ncplane is provided, y and x specify where the visual will be
// rendered on that plane. otherwise, they specify where the created ncplane
// will be placed.
int y, x;
// the section of the visual that ought be rendered. for the entire visual,
// pass an origin of 0, 0 and a size of 0, 0 (or the true height and width).
// these numbers are all in terms of ncvisual pixels.
int begy, begx; // origin of rendered section
int leny, lenx; // size of rendered section
ncblitter_e blitter; // glyph set to use (maps input to output cells)
uint64_t flags; // currently all zero
};
2020-05-04 04:51:58 +00:00
typedef enum {
NCSCALE_NONE,
NCSCALE_SCALE,
NCSCALE_STRETCH,
} ncscale_e;
2021-02-26 06:52:44 +00:00
// Lex a scaling mode (one of "none", "stretch", "scale", "hires", or "scalehi").
2020-07-20 01:53:01 +00:00
int notcurses_lex_scalemode(const char* op, ncscale_e* scalemode);
// Get the name of a scaling mode.
const char* notcurses_str_scalemode(ncscale_e scalemode);
2020-05-04 04:57:07 +00:00
// the streaming operation ceases immediately, and that value is propagated out.
// The recommended absolute display time target is passed in 'tspec'.
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
typedef int (*streamcb)(struct ncplane*, struct ncvisual*,
const struct timespec*, void*);
2020-05-04 04:51:58 +00:00
2020-05-04 04:57:07 +00:00
// Shut up and display my frames! Provide as an argument to ncvisual_stream().
// If you'd like subtitles to be decoded, provide an ncplane as the curry. If the
// curry is NULL, subtitles will not be displayed.
static inline int
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
ncvisual_simple_streamer(struct ncplane* n, struct ncvisual* ncv,
const struct timespec* tspec, void* curry){
if(notcurses_render(ncplane_notcurses(n))){
2020-05-04 04:57:07 +00:00
return -1;
}
int ret = 0;
if(curry){
// need a cast for C++ callers
struct ncplane* subncp = (struct ncplane*)curry;
char* subtitle = ncvisual_subtitle(ncv);
if(subtitle){
if(ncplane_putstr_yx(subncp, 0, 0, subtitle) < 0){
ret = -1;
}
free(subtitle);
}
}
clock_nanosleep(CLOCK_MONOTONIC, TIMER_ABSTIME, tspec, NULL);
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return ret;
}
2020-05-04 04:51:58 +00:00
2020-05-04 04:57:07 +00:00
// Stream the entirety of the media, according to its own timing. Blocking,
// obviously. streamer may be NULL; it is otherwise called for each frame, and
// its return value handled as outlined for stream cb. If streamer() returns
// non-zero, the stream is aborted, and that value is returned. By convention,
// return a positive number to indicate intentional abort from within
// streamer(). 'timescale' allows the frame duration time to be scaled. For a
// visual naturally running at 30FPS, a 'timescale' of 0.1 will result in
// 300FPS, and a 'timescale' of 10 will result in 3FPS. It is an error to
// supply 'timescale' less than or equal to 0.
int ncvisual_stream(struct notcurses* nc, struct ncvisual* ncv, float timescale,
streamcb streamer, const struct ncvisual_options* vopts,
void* curry);
2020-05-04 04:51:58 +00:00
```
### QR codes
If built with libqrcodegen support, `ncplane_qrcode()` can be used to draw
a QR code for arbitrary data.
```c
// Draw a QR code at the current position on the plane. If there is insufficient
// room to draw the code here, or there is any other error, non-zero will be
// returned. Otherwise, the QR code "version" (size) is returned. The QR code
// is (version * 4 + 17) columns wide, and ⌈version * 4 + 17⌉ rows tall (the
// properly-scaled values are written back to '*ymax' and '*xmax').
int ncplane_qrcode(struct ncplane* n, int* ymax, int* xmax, const void* data, size_t len);
```
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
### Multimedia
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
When compiled against a suitable engine (FFmpeg and OpenImageIO are both
currently supported), Notcurses can populate a visual with pixels decoded
from an image or video using `ncvisual_from_file()`. Once opened,
`ncvisual_decode()` should be used to extract each frame (an image will
have only one frame), until it returns `NCERR_EOF`:
```c
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
// Open a visual at 'file', extracting a codec and parameters.
struct ncvisual* ncvisual_from_file(const char* file);
Fully general ncvisual layer (#647) This represents an essentially complete rewrite of ncvisual and associated code. It had two major goals: Improve the ncvisual API based off lessons learned, pursuant to the upcoming API freeze. In particular, I wanted to: decouple ncvisuals from ncplanes. It should be possible to render a ncvisual to multiple planes, with different scaling each time. It should be possible to create an ncvisual without a plane, etc. normalize the various ways of constructing an ncvisual -- file, memory, plane, etc. Support multiple blitters, from 7-bit ASCII to Sixel. This required writing the blitters in several cases, and they're not yet in their final implementations (but the API is fine) I have not yet unified Plots and Visuals, and might not, given that the Plot code works fine. We could at this point implement Plots in terms of Visuals, though -- the blitter backend range has been unified. Sixel is not yet implemented, though it is listed. There is a new POC tool, blitter. It renders its arguments using all possible blitter+scaling combinations. Another new POC, resize, displays its argument, then resizes it to the screen size and displays that, explicitly making use of ncvisual_resize() rather than a scaling parameter to ncvisual_render(). This also eliminates some memory leaks and bugs we were seeing in trunk, and brings in Sixel scaffolding. The C++ wrapper will also need patching back up; I cut most of it down while wrestling with this crap, urk. Closes #638, #562, and #622.
2020-05-29 01:16:58 +00:00
// extract the next frame from an ncvisual. returns NCERR_EOF on end of file,
// and NCERR_SUCCESS on success, otherwise some other NCERR.
int ncvisual_decode(struct ncvisual* nc);
```
2020-05-20 03:25:10 +00:00
2020-06-06 23:34:48 +00:00
### Pixels
It is sometimes desirable to modify the pixels of an `ncvisual` directly.
```c
static inline int
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ncpixel_set_r(uint32_t* pixel, int r){
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if(r > 255 || r < 0){
return -1;
}
*pixel = (*pixel & 0xffffff00ul) | (r);
return 0;
}
static inline int
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ncpixel_set_g(uint32_t* pixel, int g){
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if(g > 255 || g < 0){
return -1;
}
*pixel = (*pixel & 0xff00fffful) | (g << 16u);
return 0;
}
static inline int
2020-06-07 03:39:52 +00:00
ncpixel_set_b(uint32_t* pixel, int b){
2020-06-06 23:34:48 +00:00
if(b > 255 || b < 0){
return -1;
}
*pixel = (*pixel & 0xffff00fful) | (b << 8u);
return 0;
}
// set the RGB values of an RGB pixel
static inline int
2020-09-17 18:08:12 +00:00
ncpixel_set_rgb8(uint32_t* pixel, int r, int g, int b){
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if(pixel_set_r(pixel, r) || pixel_set_g(pixel, g) || pixel_set_b(pixel, b)){
return -1;
}
return 0;
}
```
2020-10-04 10:30:22 +00:00
## Stats
Notcurses supplies a number of stats related to performance and state.
Cumulative stats can be reset at any time.
```c
typedef struct ncstats {
// purely increasing stats
uint64_t renders; // successful ncpile_render() runs
uint64_t writeouts; // successful ncpile_rasterize() runs
uint64_t failed_renders; // aborted renders, should be 0
uint64_t failed_writeouts; // aborted writes
2020-10-04 10:30:22 +00:00
uint64_t render_bytes; // bytes emitted to ttyfp
int64_t render_max_bytes; // max bytes emitted for a frame
int64_t render_min_bytes; // min bytes emitted for a frame
2021-02-03 02:59:29 +00:00
uint64_t render_ns; // nanoseconds spent rendering
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int64_t render_max_ns; // max ns spent in render+raster for a frame
int64_t render_min_ns; // min ns spent in render+raster for a frame
2021-02-03 02:59:29 +00:00
uint64_t raster_ns; // nanoseconds spent rasterizing
int64_t raster_max_ns; // max ns spent in raster for a frame
int64_t raster_min_ns; // min ns spent in raster for a frame
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uint64_t writeout_ns; // nanoseconds spent writing frames to terminal
int64_t writeout_max_ns; // max ns spent writing out a frame
int64_t writeout_min_ns; // min ns spent writing out a frame
uint64_t cellelisions; // cells we elided entirely thanks to damage maps
uint64_t cellemissions; // total number of cells emitted to terminal
uint64_t fgelisions; // RGB fg elision count
uint64_t fgemissions; // RGB fg emissions
uint64_t bgelisions; // RGB bg elision count
uint64_t bgemissions; // RGB bg emissions
uint64_t defaultelisions; // default color was emitted
uint64_t defaultemissions; // default color was elided
uint64_t refreshes; // refresh requests (non-optimized redraw)
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// current state -- these can decrease
uint64_t fbbytes; // total bytes devoted to all active framebuffers
unsigned planes; // number of planes currently in existence
} ncstats;
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// Allocate an ncstats object. Use this rather than allocating your own, since
// future versions of Notcurses might enlarge this structure.
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ncstats* notcurses_stats_alloc(const struct notcurses* nc);
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// Acquire an atomic snapshot of the Notcurses object's stats.
void notcurses_stats(struct notcurses* nc, ncstats* stats);
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// Reset all cumulative stats (immediate ones, such as fbbytes, are not reset),
// first copying them into |*stats| (if |stats| is not NULL).
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void notcurses_stats_reset(struct notcurses* nc, ncstats* stats);
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```
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## C++
Marek Habersack has contributed (and maintains) C++ wrappers installed to
`include/ncpp/`, `libnotcurses++.so`, and `libnotcurses++.a`.
In their default mode, these wrappers throw exceptions only from the type
constructors (RAII). If `NCPP_EXCEPTIONS_PLEASE` is defined prior to including
any NCPP headers, they will throw exceptions.