#ifndef __VTERM_H__ #define __VTERM_H__ #ifdef __cplusplus extern "C" { #endif #include #include #include #include "vterm_keycodes.h" #define VTERM_VERSION_MAJOR 0 #define VTERM_VERSION_MINOR 3 #define VTERM_VERSION_PATCH 3 #define VTERM_CHECK_VERSION \ vterm_check_version(VTERM_VERSION_MAJOR, VTERM_VERSION_MINOR) /* Any cell can contain at most one basic printing character and 5 combining * characters. This number could be changed but will be ABI-incompatible if * you do */ #define VTERM_MAX_CHARS_PER_CELL 6 typedef struct VTerm VTerm; typedef struct VTermState VTermState; typedef struct VTermScreen VTermScreen; typedef struct { int row; int col; } VTermPos; /* some small utility functions; we can just keep these static here */ /* order points by on-screen flow order */ static inline int vterm_pos_cmp(VTermPos a, VTermPos b) { return (a.row == b.row) ? a.col - b.col : a.row - b.row; } typedef struct { int start_row; int end_row; int start_col; int end_col; } VTermRect; /* true if the rect contains the point */ static inline int vterm_rect_contains(VTermRect r, VTermPos p) { return p.row >= r.start_row && p.row < r.end_row && p.col >= r.start_col && p.col < r.end_col; } /* move a rect */ static inline void vterm_rect_move(VTermRect *rect, int row_delta, int col_delta) { rect->start_row += row_delta; rect->end_row += row_delta; rect->start_col += col_delta; rect->end_col += col_delta; } /** * Bit-field describing the content of the tagged union `VTermColor`. */ typedef enum { /** * If the lower bit of `type` is not set, the colour is 24-bit RGB. */ VTERM_COLOR_RGB = 0x00, /** * The colour is an index into a palette of 256 colours. */ VTERM_COLOR_INDEXED = 0x01, /** * Mask that can be used to extract the RGB/Indexed bit. */ VTERM_COLOR_TYPE_MASK = 0x01, /** * If set, indicates that this colour should be the default foreground * color, i.e. there was no SGR request for another colour. When * rendering this colour it is possible to ignore "idx" and just use a * colour that is not in the palette. */ VTERM_COLOR_DEFAULT_FG = 0x02, /** * If set, indicates that this colour should be the default background * color, i.e. there was no SGR request for another colour. A common * option when rendering this colour is to not render a background at * all, for example by rendering the window transparently at this spot. */ VTERM_COLOR_DEFAULT_BG = 0x04, /** * Mask that can be used to extract the default foreground/background bit. */ VTERM_COLOR_DEFAULT_MASK = 0x06 } VTermColorType; /** * Returns true if the VTERM_COLOR_RGB `type` flag is set, indicating that the * given VTermColor instance is an indexed colour. */ #define VTERM_COLOR_IS_INDEXED(col) \ (((col)->type & VTERM_COLOR_TYPE_MASK) == VTERM_COLOR_INDEXED) /** * Returns true if the VTERM_COLOR_INDEXED `type` flag is set, indicating that * the given VTermColor instance is an rgb colour. */ #define VTERM_COLOR_IS_RGB(col) \ (((col)->type & VTERM_COLOR_TYPE_MASK) == VTERM_COLOR_RGB) /** * Returns true if the VTERM_COLOR_DEFAULT_FG `type` flag is set, indicating * that the given VTermColor instance corresponds to the default foreground * color. */ #define VTERM_COLOR_IS_DEFAULT_FG(col) \ (!!((col)->type & VTERM_COLOR_DEFAULT_FG)) /** * Returns true if the VTERM_COLOR_DEFAULT_BG `type` flag is set, indicating * that the given VTermColor instance corresponds to the default background * color. */ #define VTERM_COLOR_IS_DEFAULT_BG(col) \ (!!((col)->type & VTERM_COLOR_DEFAULT_BG)) /** * Tagged union storing either an RGB color or an index into a colour palette. * In order to convert indexed colours to RGB, you may use the * vterm_state_convert_color_to_rgb() or vterm_screen_convert_color_to_rgb() * functions which lookup the RGB colour from the palette maintained by a * VTermState or VTermScreen instance. */ typedef union { /** * Tag indicating which union member is actually valid. This variable * coincides with the `type` member of the `rgb` and the `indexed` struct * in memory. Please use the `VTERM_COLOR_IS_*` test macros to check whether * a particular type flag is set. */ uint8_t type; /** * Valid if `VTERM_COLOR_IS_RGB(type)` is true. Holds the RGB colour values. */ struct { /** * Same as the top-level `type` member stored in VTermColor. */ uint8_t type; /** * The actual 8-bit red, green, blue colour values. */ uint8_t red, green, blue; } rgb; /** * If `VTERM_COLOR_IS_INDEXED(type)` is true, this member holds the index into * the colour palette. */ struct { /** * Same as the top-level `type` member stored in VTermColor. */ uint8_t type; /** * Index into the colour map. */ uint8_t idx; } indexed; } VTermColor; /** * Constructs a new VTermColor instance representing the given RGB values. */ static inline void vterm_color_rgb(VTermColor *col, uint8_t red, uint8_t green, uint8_t blue) { col->type = VTERM_COLOR_RGB; col->rgb.red = red; col->rgb.green = green; col->rgb.blue = blue; } /** * Construct a new VTermColor instance representing an indexed color with the * given index. */ static inline void vterm_color_indexed(VTermColor *col, uint8_t idx) { col->type = VTERM_COLOR_INDEXED; col->indexed.idx = idx; } /** * Compares two colours. Returns true if the colors are equal, false otherwise. */ int vterm_color_is_equal(const VTermColor *a, const VTermColor *b); typedef enum { /* VTERM_VALUETYPE_NONE = 0 */ VTERM_VALUETYPE_BOOL = 1, VTERM_VALUETYPE_INT, VTERM_VALUETYPE_STRING, VTERM_VALUETYPE_COLOR, VTERM_N_VALUETYPES } VTermValueType; typedef struct { const char *str; size_t len : 30; bool initial : 1; bool final : 1; } VTermStringFragment; typedef union { int boolean; int number; VTermStringFragment string; VTermColor color; } VTermValue; typedef enum { /* VTERM_ATTR_NONE = 0 */ VTERM_ATTR_BOLD = 1, // bool: 1, 22 VTERM_ATTR_UNDERLINE, // number: 4, 21, 24 VTERM_ATTR_ITALIC, // bool: 3, 23 VTERM_ATTR_BLINK, // bool: 5, 25 VTERM_ATTR_REVERSE, // bool: 7, 27 VTERM_ATTR_CONCEAL, // bool: 8, 28 VTERM_ATTR_STRIKE, // bool: 9, 29 VTERM_ATTR_FONT, // number: 10-19 VTERM_ATTR_FOREGROUND, // color: 30-39 90-97 VTERM_ATTR_BACKGROUND, // color: 40-49 100-107 VTERM_ATTR_SMALL, // bool: 73, 74, 75 VTERM_ATTR_BASELINE, // number: 73, 74, 75 VTERM_N_ATTRS } VTermAttr; typedef enum { /* VTERM_PROP_NONE = 0 */ VTERM_PROP_CURSORVISIBLE = 1, // bool VTERM_PROP_CURSORBLINK, // bool VTERM_PROP_ALTSCREEN, // bool VTERM_PROP_TITLE, // string VTERM_PROP_ICONNAME, // string VTERM_PROP_REVERSE, // bool VTERM_PROP_CURSORSHAPE, // number VTERM_PROP_MOUSE, // number VTERM_PROP_FOCUSREPORT, // bool VTERM_N_PROPS } VTermProp; enum { VTERM_PROP_CURSORSHAPE_BLOCK = 1, VTERM_PROP_CURSORSHAPE_UNDERLINE, VTERM_PROP_CURSORSHAPE_BAR_LEFT, VTERM_N_PROP_CURSORSHAPES }; enum { VTERM_PROP_MOUSE_NONE = 0, VTERM_PROP_MOUSE_CLICK, VTERM_PROP_MOUSE_DRAG, VTERM_PROP_MOUSE_MOVE, VTERM_N_PROP_MOUSES }; typedef enum { VTERM_SELECTION_CLIPBOARD = (1<<0), VTERM_SELECTION_PRIMARY = (1<<1), VTERM_SELECTION_SECONDARY = (1<<2), VTERM_SELECTION_SELECT = (1<<3), VTERM_SELECTION_CUT0 = (1<<4), /* also CUT1 .. CUT7 by bitshifting */ } VTermSelectionMask; typedef struct { const uint32_t *chars; int width; unsigned int protected_cell:1; /* DECSCA-protected against DECSEL/DECSED */ unsigned int dwl:1; /* DECDWL or DECDHL double-width line */ unsigned int dhl:2; /* DECDHL double-height line (1=top 2=bottom) */ } VTermGlyphInfo; typedef struct { unsigned int doublewidth:1; /* DECDWL or DECDHL line */ unsigned int doubleheight:2; /* DECDHL line (1=top 2=bottom) */ unsigned int continuation:1; /* Line is a flow continuation of the previous */ } VTermLineInfo; /* Copies of VTermState fields that the 'resize' callback might have reason to * edit. 'resize' callback gets total control of these fields and may * free-and-reallocate them if required. They will be copied back from the * struct after the callback has returned. */ typedef struct { VTermPos pos; /* current cursor position */ VTermLineInfo *lineinfos[2]; /* [1] may be NULL */ } VTermStateFields; typedef struct { /* libvterm relies on this memory to be zeroed out before it is returned * by the allocator. */ void *(*malloc)(size_t size, void *allocdata); void (*free)(void *ptr, void *allocdata); } VTermAllocatorFunctions; void vterm_check_version(int major, int minor); struct VTermBuilder { int ver; /* currently unused but reserved for some sort of ABI version flag */ int rows, cols; const VTermAllocatorFunctions *allocator; void *allocdata; /* Override default sizes for various structures */ size_t outbuffer_len; /* default: 4096 */ size_t tmpbuffer_len; /* default: 4096 */ }; VTerm *vterm_build(const struct VTermBuilder *builder); /* A convenient shortcut for default cases */ VTerm *vterm_new(int rows, int cols); /* This shortcuts are generally discouraged in favour of just using vterm_build() */ VTerm *vterm_new_with_allocator(int rows, int cols, VTermAllocatorFunctions *funcs, void *allocdata); void vterm_free(VTerm* vt); void vterm_get_size(const VTerm *vt, int *rowsp, int *colsp); void vterm_set_size(VTerm *vt, int rows, int cols); int vterm_get_utf8(const VTerm *vt); void vterm_set_utf8(VTerm *vt, int is_utf8); size_t vterm_input_write(VTerm *vt, const char *bytes, size_t len); /* Setting output callback will override the buffer logic */ typedef void VTermOutputCallback(const char *s, size_t len, void *user); void vterm_output_set_callback(VTerm *vt, VTermOutputCallback *func, void *user); /* These buffer functions only work if output callback is NOT set * These are deprecated and will be removed in a later version */ size_t vterm_output_get_buffer_size(const VTerm *vt); size_t vterm_output_get_buffer_current(const VTerm *vt); size_t vterm_output_get_buffer_remaining(const VTerm *vt); /* This too */ size_t vterm_output_read(VTerm *vt, char *buffer, size_t len); void vterm_keyboard_unichar(VTerm *vt, uint32_t c, VTermModifier mod); void vterm_keyboard_key(VTerm *vt, VTermKey key, VTermModifier mod); void vterm_keyboard_start_paste(VTerm *vt); void vterm_keyboard_end_paste(VTerm *vt); void vterm_mouse_move(VTerm *vt, int row, int col, VTermModifier mod); void vterm_mouse_button(VTerm *vt, int button, bool pressed, VTermModifier mod); // ------------ // Parser layer // ------------ /* Flag to indicate non-final subparameters in a single CSI parameter. * Consider * CSI 1;2:3:4;5a * 1 4 and 5 are final. * 2 and 3 are non-final and will have this bit set * * Don't confuse this with the final byte of the CSI escape; 'a' in this case. */ #define CSI_ARG_FLAG_MORE (1U<<31) #define CSI_ARG_MASK (~(1U<<31)) #define CSI_ARG_HAS_MORE(a) ((a) & CSI_ARG_FLAG_MORE) #define CSI_ARG(a) ((a) & CSI_ARG_MASK) /* Can't use -1 to indicate a missing argument; use this instead */ #define CSI_ARG_MISSING ((1UL<<31)-1) #define CSI_ARG_IS_MISSING(a) (CSI_ARG(a) == CSI_ARG_MISSING) #define CSI_ARG_OR(a,def) (CSI_ARG(a) == CSI_ARG_MISSING ? (def) : CSI_ARG(a)) #define CSI_ARG_COUNT(a) (CSI_ARG(a) == CSI_ARG_MISSING || CSI_ARG(a) == 0 ? 1 : CSI_ARG(a)) typedef struct { int (*text)(const char *bytes, size_t len, void *user); int (*control)(unsigned char control, void *user); int (*escape)(const char *bytes, size_t len, void *user); int (*csi)(const char *leader, const long args[], int argcount, const char *intermed, char command, void *user); int (*osc)(int command, VTermStringFragment frag, void *user); int (*dcs)(const char *command, size_t commandlen, VTermStringFragment frag, void *user); int (*apc)(VTermStringFragment frag, void *user); int (*pm)(VTermStringFragment frag, void *user); int (*sos)(VTermStringFragment frag, void *user); int (*resize)(int rows, int cols, void *user); } VTermParserCallbacks; void vterm_parser_set_callbacks(VTerm *vt, const VTermParserCallbacks *callbacks, void *user); void *vterm_parser_get_cbdata(VTerm *vt); /* Normally NUL, CAN, SUB and DEL are ignored. Setting this true causes them * to be emitted by the 'control' callback */ void vterm_parser_set_emit_nul(VTerm *vt, bool emit); // ----------- // State layer // ----------- typedef struct { int (*putglyph)(VTermGlyphInfo *info, VTermPos pos, void *user); int (*movecursor)(VTermPos pos, VTermPos oldpos, int visible, void *user); int (*scrollrect)(VTermRect rect, int downward, int rightward, void *user); int (*moverect)(VTermRect dest, VTermRect src, void *user); int (*erase)(VTermRect rect, int selective, void *user); int (*initpen)(void *user); int (*setpenattr)(VTermAttr attr, VTermValue *val, void *user); int (*settermprop)(VTermProp prop, VTermValue *val, void *user); int (*bell)(void *user); int (*resize)(int rows, int cols, VTermStateFields *fields, void *user); int (*setlineinfo)(int row, const VTermLineInfo *newinfo, const VTermLineInfo *oldinfo, void *user); int (*sb_clear)(void *user); } VTermStateCallbacks; typedef struct { int (*control)(unsigned char control, void *user); int (*csi)(const char *leader, const long args[], int argcount, const char *intermed, char command, void *user); int (*osc)(int command, VTermStringFragment frag, void *user); int (*dcs)(const char *command, size_t commandlen, VTermStringFragment frag, void *user); int (*apc)(VTermStringFragment frag, void *user); int (*pm)(VTermStringFragment frag, void *user); int (*sos)(VTermStringFragment frag, void *user); } VTermStateFallbacks; typedef struct { int (*set)(VTermSelectionMask mask, VTermStringFragment frag, void *user); int (*query)(VTermSelectionMask mask, void *user); } VTermSelectionCallbacks; VTermState *vterm_obtain_state(VTerm *vt); void vterm_state_set_callbacks(VTermState *state, const VTermStateCallbacks *callbacks, void *user); void *vterm_state_get_cbdata(VTermState *state); void vterm_state_set_unrecognised_fallbacks(VTermState *state, const VTermStateFallbacks *fallbacks, void *user); void *vterm_state_get_unrecognised_fbdata(VTermState *state); void vterm_state_reset(VTermState *state, int hard); void vterm_state_get_cursorpos(const VTermState *state, VTermPos *cursorpos); void vterm_state_get_default_colors(const VTermState *state, VTermColor *default_fg, VTermColor *default_bg); void vterm_state_get_palette_color(const VTermState *state, int index, VTermColor *col); void vterm_state_set_default_colors(VTermState *state, const VTermColor *default_fg, const VTermColor *default_bg); void vterm_state_set_palette_color(VTermState *state, int index, const VTermColor *col); void vterm_state_set_bold_highbright(VTermState *state, int bold_is_highbright); int vterm_state_get_penattr(const VTermState *state, VTermAttr attr, VTermValue *val); int vterm_state_set_termprop(VTermState *state, VTermProp prop, VTermValue *val); void vterm_state_focus_in(VTermState *state); void vterm_state_focus_out(VTermState *state); const VTermLineInfo *vterm_state_get_lineinfo(const VTermState *state, int row); /** * Makes sure that the given color `col` is indeed an RGB colour. After this * function returns, VTERM_COLOR_IS_RGB(col) will return true, while all other * flags stored in `col->type` will have been reset. * * @param state is the VTermState instance from which the colour palette should * be extracted. * @param col is a pointer at the VTermColor instance that should be converted * to an RGB colour. */ void vterm_state_convert_color_to_rgb(const VTermState *state, VTermColor *col); void vterm_state_set_selection_callbacks(VTermState *state, const VTermSelectionCallbacks *callbacks, void *user, char *buffer, size_t buflen); void vterm_state_send_selection(VTermState *state, VTermSelectionMask mask, VTermStringFragment frag); // ------------ // Screen layer // ------------ typedef struct { unsigned int bold : 1; unsigned int underline : 2; unsigned int italic : 1; unsigned int blink : 1; unsigned int reverse : 1; unsigned int conceal : 1; unsigned int strike : 1; unsigned int font : 4; /* 0 to 9 */ unsigned int dwl : 1; /* On a DECDWL or DECDHL line */ unsigned int dhl : 2; /* On a DECDHL line (1=top 2=bottom) */ unsigned int small : 1; unsigned int baseline : 2; } VTermScreenCellAttrs; enum { VTERM_UNDERLINE_OFF, VTERM_UNDERLINE_SINGLE, VTERM_UNDERLINE_DOUBLE, VTERM_UNDERLINE_CURLY, }; enum { VTERM_BASELINE_NORMAL, VTERM_BASELINE_RAISE, VTERM_BASELINE_LOWER, }; typedef struct { uint32_t chars[VTERM_MAX_CHARS_PER_CELL]; char width; VTermScreenCellAttrs attrs; VTermColor fg, bg; } VTermScreenCell; typedef struct { int (*damage)(VTermRect rect, void *user); int (*moverect)(VTermRect dest, VTermRect src, void *user); int (*movecursor)(VTermPos pos, VTermPos oldpos, int visible, void *user); int (*settermprop)(VTermProp prop, VTermValue *val, void *user); int (*bell)(void *user); int (*resize)(int rows, int cols, void *user); int (*sb_pushline)(int cols, const VTermScreenCell *cells, void *user); int (*sb_popline)(int cols, VTermScreenCell *cells, void *user); int (*sb_clear)(void* user); } VTermScreenCallbacks; VTermScreen *vterm_obtain_screen(VTerm *vt); void vterm_screen_set_callbacks(VTermScreen *screen, const VTermScreenCallbacks *callbacks, void *user); void *vterm_screen_get_cbdata(VTermScreen *screen); void vterm_screen_set_unrecognised_fallbacks(VTermScreen *screen, const VTermStateFallbacks *fallbacks, void *user); void *vterm_screen_get_unrecognised_fbdata(VTermScreen *screen); void vterm_screen_enable_reflow(VTermScreen *screen, bool reflow); // Back-compat alias for the brief time it was in 0.3-RC1 #define vterm_screen_set_reflow vterm_screen_enable_reflow void vterm_screen_enable_altscreen(VTermScreen *screen, int altscreen); typedef enum { VTERM_DAMAGE_CELL, /* every cell */ VTERM_DAMAGE_ROW, /* entire rows */ VTERM_DAMAGE_SCREEN, /* entire screen */ VTERM_DAMAGE_SCROLL, /* entire screen + scrollrect */ VTERM_N_DAMAGES } VTermDamageSize; void vterm_screen_flush_damage(VTermScreen *screen); void vterm_screen_set_damage_merge(VTermScreen *screen, VTermDamageSize size); void vterm_screen_reset(VTermScreen *screen, int hard); /* Neither of these functions NUL-terminate the buffer */ size_t vterm_screen_get_chars(const VTermScreen *screen, uint32_t *chars, size_t len, const VTermRect rect); size_t vterm_screen_get_text(const VTermScreen *screen, char *str, size_t len, const VTermRect rect); typedef enum { VTERM_ATTR_BOLD_MASK = 1 << 0, VTERM_ATTR_UNDERLINE_MASK = 1 << 1, VTERM_ATTR_ITALIC_MASK = 1 << 2, VTERM_ATTR_BLINK_MASK = 1 << 3, VTERM_ATTR_REVERSE_MASK = 1 << 4, VTERM_ATTR_STRIKE_MASK = 1 << 5, VTERM_ATTR_FONT_MASK = 1 << 6, VTERM_ATTR_FOREGROUND_MASK = 1 << 7, VTERM_ATTR_BACKGROUND_MASK = 1 << 8, VTERM_ATTR_CONCEAL_MASK = 1 << 9, VTERM_ATTR_SMALL_MASK = 1 << 10, VTERM_ATTR_BASELINE_MASK = 1 << 11, VTERM_ALL_ATTRS_MASK = (1 << 12) - 1 } VTermAttrMask; int vterm_screen_get_attrs_extent(const VTermScreen *screen, VTermRect *extent, VTermPos pos, VTermAttrMask attrs); int vterm_screen_get_cell(const VTermScreen *screen, VTermPos pos, VTermScreenCell *cell); int vterm_screen_is_eol(const VTermScreen *screen, VTermPos pos); /** * Same as vterm_state_convert_color_to_rgb(), but takes a `screen` instead of a `state` * instance. */ void vterm_screen_convert_color_to_rgb(const VTermScreen *screen, VTermColor *col); /** * Similar to vterm_state_set_default_colors(), but also resets colours in the * screen buffer(s) */ void vterm_screen_set_default_colors(VTermScreen *screen, const VTermColor *default_fg, const VTermColor *default_bg); // --------- // Utilities // --------- VTermValueType vterm_get_attr_type(VTermAttr attr); VTermValueType vterm_get_prop_type(VTermProp prop); void vterm_scroll_rect(VTermRect rect, int downward, int rightward, int (*moverect)(VTermRect src, VTermRect dest, void *user), int (*eraserect)(VTermRect rect, int selective, void *user), void *user); void vterm_copy_cells(VTermRect dest, VTermRect src, void (*copycell)(VTermPos dest, VTermPos src, void *user), void *user); #ifdef __cplusplus } #endif #endif