/* $XTermId: graphics_sixel.c,v 1.57 2024/05/16 20:03:50 tom Exp $ */ /* * Copyright 2014-2023,2024 by Thomas E. Dickey * Copyright 2024 by Benjamin A. Wong * Copyright 2014-2022,2023 by Ross Combs * * All Rights Reserved * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL THE ABOVE LISTED COPYRIGHT HOLDER(S) BE LIABLE FOR ANY * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * Except as contained in this notice, the name(s) of the above copyright * holders shall not be used in advertising or otherwise to promote the * sale, use or other dealings in this Software without prior written * authorization. */ #include #include #include #include #include #include #include #include #include #include /***====================================================================***/ typedef struct { RegisterNum current_register; RegisterNum background; /* current background color register or hole */ int aspect_vertical; int aspect_horizontal; int declared_width; /* size as reported by the application */ int declared_height; /* size as reported by the application */ int row; /* context used during parsing */ int col; /* context used during parsing */ } SixelContext; /* Saved state for the parse_sixel_char() state machine */ static XtermWidget s_xw; static TScreen *s_screen; static Graphic *s_graphic; static SixelContext s_context; static int s_prev_row; /* Dirty graphic cursor last location for screen updating */ static int s_prev_col; static int s_accumulator; /* Accumulation of decimal digits. (-1 for no digits, use default) */ static Boolean s_repeating; /* true if gathering digits for '!' (repeat) */ /* * States for gathering params for '#' (color) */ static enum { s_NOTCOLORING ,s_GETTINGREGISTER ,s_GETTINGCOLORSPACE ,s_GETTINGPC1 ,s_GETTINGPC2 ,s_GETTINGPC3 ,s_COLORINGDONE } s_color_state; static int s_color_params[s_COLORINGDONE + 1]; static RegisterNum s_Pregister; /* * States for gathering params from DECGRA ('"' set raster attributes) * Refer to EK-PPLV2-PM, page 5-24. */ static enum { s_NOTRASTER ,s_GETTINGPAN /* Pixel aspect ratio numerator */ ,s_GETTINGPAD /* Pixel aspect ratio denominator */ ,s_GETTINGV /* Pixel vertical extent */ ,s_GETTINGH /* Pixel horizontal extent */ ,s_RASTERDONE } s_raster_state; static int s_raster_params[s_RASTERDONE + 1]; /* SIXEL SCROLLING, which is on by default in VT3xx terminals, can be * turned off to better emulate VT2xx terminals by setting Sixel * Display Mode (DECSDM) * * SIXEL DISPLAY MODE SIXEL SCROLLING * VT125 Always on Unsupported * VT240 Always on Unsupported * VT241 Always on Unsupported * VT330 Available via DECSDM Default mode * VT382 Available via DECSDM Default mode * VT340 Available via DECSDM Default mode * VK100/GIGI No sixel support No sixel support * * dxterm (DECterm) emulated a VT100 series terminal, and supported sixels * according to 1995 posting to comp.os.vms: * https://groups.google.com/g/comp.os.vms/c/XAUMmLtC8Yk * though not DRCS according to * http://odl.sysworks.biz/disk$axpdocdec023/office/dwmot126/vmsdw126/relnotes/6470pro_004.html */ static void init_sixel_background(Graphic *graphic, SixelContext const *context) { RegisterNum *source; RegisterNum *target; size_t length; int r, c; TRACE(("initializing sixel background to size=%dx%d bgcolor=%hu\n", context->declared_width, context->declared_height, context->background)); if (context->background == COLOR_HOLE) return; source = graphic->pixels; for (c = 0; c < graphic->actual_width; c++) { source[c] = context->background; } target = source; length = (size_t) graphic->actual_width * sizeof(*target); for (r = 1; r < graphic->actual_height; r++) { target += graphic->max_width; memcpy(target, source, length); } graphic->color_registers_used[context->background] = True; } #define ValidColumn(graphic, context) \ ((context)->col >= 0 && \ (context)->col < (graphic)->max_width) static Boolean set_sixel(Graphic *graphic, SixelContext const *context, int sixel) { const int mh = graphic->max_height; const int mw = graphic->max_width; const RegisterNum color = context->current_register; int pix; int pix_row = context->row; int pix_col = context->col + (pix_row * mw); TRACE2(("drawing sixel at pos=%d,%d color=%hu (hole=%d, [%d,%d,%d])\n", context->col, context->row, color, color == COLOR_HOLE, ((color != COLOR_HOLE) ? (unsigned) graphic->color_registers[color].r : 0U), ((color != COLOR_HOLE) ? (unsigned) graphic->color_registers[color].g : 0U), ((color != COLOR_HOLE) ? (unsigned) graphic->color_registers[color].b : 0U))); for (pix = 0; pix < 6; pix++, pix_row++, pix_col += mw) { if (pix_row >= 0 && pix_row < mh) { if (sixel & (1 << pix)) { if (context->col >= graphic->actual_width) { graphic->actual_width = context->col + 1; } if (pix_row >= graphic->actual_height) { graphic->actual_height = pix_row + 1; } SetSpixel(graphic, pix_col, color); } } else { TRACE(("sixel pixel %d out of bounds\n", pix)); return False; } } return True; } static void update_sixel_aspect(SixelContext * context, Graphic *graphic) { int limit; int best; int gcd; /* We want to keep the ratio accurate but would like every pixel to have * the same size so keep these as whole numbers. */ /* FIXME: The VT340 repeats pixels instead of spreading them out. */ /* FIXME: A single sixel DCS string can have multiple aspect ratios on the VT340, but PPLv2 does not allow it. We currently neither implement it nor explicitly ignore DECGRA after sixels have started. We probably should allow for it as that is how genuine DEC hardware behaved. */ TRACE(("sixel updating pixel aspect (v:h): %d:%d\n", context->aspect_vertical, context->aspect_horizontal)); /* * Reduce to the lowest possible format, * to handle ratios such as 2:3 and 16:9 */ limit = Min(context->aspect_vertical, context->aspect_horizontal); TRACE(("sixel aspect limit: %d\n", limit)); best = 1; for (gcd = 2; gcd <= limit; ++gcd) { if ((context->aspect_vertical % gcd) == 0 && (context->aspect_horizontal % gcd) == 0) { best = gcd; } } TRACE(("sixel aspect gcd: %d\n", best)); context->aspect_vertical /= best; context->aspect_horizontal /= best; /* EK-PPLV2-PM-B01 says the range along either axis is no more than 10, * which is good advice for programs creating images for generic "Level 2 * Sixel" devices. * * FIXME: The converse is true when implementing a sixel rendering * engine. As a *minimum* requirement, xterm must allow either axis to * range from 1 to 10, but, just like the hardware it emulates, it may * exceed specifications. * * The VT340 appears to have no practical limit. Even ratios over 480:1 * -- where each pixel would exceed the screen height -- are allowed. */ if (context->aspect_vertical > (10 * context->aspect_horizontal)) context->aspect_vertical = (10 * context->aspect_horizontal); if (context->aspect_horizontal > (10 * context->aspect_vertical)) context->aspect_horizontal = (10 * context->aspect_vertical); /* in any case, limit "pixel" size if both are large */ #define by10(n) n = (n + 5) / 10 while (context->aspect_vertical >= 10 && context->aspect_horizontal >= 10) { by10(context->aspect_vertical); by10(context->aspect_horizontal); } graphic->pixw = context->aspect_horizontal; graphic->pixh = context->aspect_vertical; TRACE(("sixel aspect ratio: an=%d ad=%d -> pixw=%d pixh=%d\n", context->aspect_vertical, context->aspect_horizontal, graphic->pixw, graphic->pixh)); #if 1 /* FIXME: Aspect Ratio is buggy, so we'll just force it off */ graphic->pixw = 1; graphic->pixh = 1; #endif } static int finished_parsing(XtermWidget xw, Graphic *graphic) { TScreen *screen = TScreenOf(xw); /* Update the screen scrolling and do a refresh. * The refresh may not cover the whole graphic. */ if (screen->scroll_amt) FlushScroll(xw); if (SixelScrolling(xw)) { int new_row, new_col; /* Note: XTerm follows the VT340 behavior in text cursor placement * for nearly all sixel images. It differs in the few places where * TWO newlines would have been necessary for subsequent text to not * overwrite an image. XTerm always requires only a single newline. * * Emulating the VT340's quirky and undocumented behavior is of * dubious value. The heuristic DEC used has nice properties, but * only applies if the font is exactly 20 pixels high. */ new_row = (graphic->charrow - 1 + (((graphic->actual_height * graphic->pixh) + FontHeight(screen) - 1) / FontHeight(screen))); if (screen->sixel_scrolls_right) { new_col = (graphic->charcol + (((graphic->actual_width * graphic->pixw) + FontWidth(screen) - 1) / FontWidth(screen))); } else { new_col = graphic->charcol; } TRACE(("setting text position after %dx%d\t%.1f start (%d %d): cursor (%d,%d)\n", graphic->actual_width * graphic->pixw, graphic->actual_height * graphic->pixh, ((double) graphic->charrow + ((double) (graphic->actual_height * graphic->pixh) / (double) FontHeight(screen))), graphic->charrow, graphic->charcol, new_row, new_col)); if (new_col > screen->rgt_marg) { new_col = screen->lft_marg; new_row++; TRACE(("column past left margin, overriding to row=%d col=%d\n", new_row, new_col)); } while (new_row > screen->bot_marg) { xtermScroll(xw, 1); new_row--; TRACE(("bottom row was past screen. new start row=%d, cursor row=%d\n", graphic->charrow, new_row)); } if (new_row < 0) { /* FIXME: this was triggering, now it isn't */ TRACE(("new row is going to be negative (%d); skipping position update!", new_row)); } else { set_cur_row(screen, new_row); set_cur_col(screen, new_col <= screen->rgt_marg ? new_col : screen->rgt_marg); } } graphic->dirty = True; refresh_modified_displayed_graphics(xw); dump_graphic(graphic); return 0; } /* * Handle Sixel protocol selector: Ps1 ; Ps2 ; Ps3 q * Refer to EK-PPLV2-PM, Table 5-1 "Macro Parameter Selections" */ int parse_sixel_init(XtermWidget xw, ANSI *params) { s_xw = xw; s_screen = TScreenOf(xw); s_repeating = False; s_accumulator = -1; /* No digits accumulated */ s_context.aspect_horizontal = 1; s_context.aspect_vertical = 2; switch (s_screen->terminal_id) { case 240: case 241: case 330: case 340: s_context.aspect_vertical = 2; s_context.aspect_horizontal = 1; break; case 382: s_context.aspect_vertical = 1; s_context.aspect_horizontal = 1; break; default: s_context.aspect_vertical = 2; s_context.aspect_horizontal = 1; break; } s_context.declared_width = 0; s_context.declared_height = 0; s_context.row = 0; s_context.col = 0; s_prev_row = 0; s_prev_col = 0; /* default isn't white on the VT240, but not sure what it is */ s_context.current_register = 3; /* FIXME: using green, but not sure what it should be */ /* allocate s_graphic if needs be */ if (SixelScrolling(s_xw)) { TRACE(("sixel scrolling enabled: inline positioning for graphic at %d,%d\n", s_screen->cur_row, s_screen->cur_col)); s_graphic = get_new_graphic(s_xw, s_screen->cur_row, s_screen->cur_col, 0U); } else { TRACE(("sixel scrolling disabled: inline positioning for graphic at %d,%d\n", 0, 0)); s_graphic = get_new_graphic(s_xw, 0, 0, 0U); } { static const int vertical[] = { /* 0 1 2 3 4 5 6 7 8 9 */ 200, 200, 450, 300, 250, 183, 150, 130, 112, 100 }; int Pmacro = UParmOf(params->a_param[0]); int Pbgmode = UParmOf(params->a_param[1]); int Phgrid = UParmOf(params->a_param[2]); TRACE(("sixel bitmap graphics sequence: params=%d (Pmacro=%d Pbgmode=%d Phgrid=%d) scroll_amt=%d\n", params->a_nparam, Pmacro, Pbgmode, Phgrid, s_screen->scroll_amt)); /* Ps1: "Macro" Aspect ratio and default grid size */ /* * Note: Macro is often left at 0 since its horizontal grid size can be * overridden by Ps3 and its aspect ratio can be overridden by DECGRA. */ if (Pmacro > 9 || Pmacro < 0) { Pmacro = 0; } s_context.aspect_vertical = vertical[Pmacro]; s_context.aspect_horizontal = 100; /* Ps2: Background 0 or 2 = opaque, 1 = transparent */ if (Pbgmode == 1) { s_context.background = COLOR_HOLE; } else { /* The default background register is always zero (including in * light background mode) on the VT340. */ s_context.background = 0; } /* Ps3: horizontal grid size in decipoints (1/720 inch) */ /* * Note: The CRT of the VT340 had a grid (distance between pixels) * of 10/720th of an inch (0.0195 cm). */ if (Phgrid <= 0) { Phgrid = 50; /* Default is 50 decipoints (144dpi) */ } } update_sixel_aspect(&s_context, s_graphic); return 0; } #if defined(HAVE_CLOCK_GETTIME) && defined(CLOCK_MONOTONIC) #define TS_NANOSEC 1L #define TS_MICROSEC 1000L * TS_NANOSEC #define TS_MILLISEC 1000L * TS_MICROSEC #define TS_SEC 1000L * TS_MILLISEC /* Returns True if the system's monotonic clock has reached or exceeded _when_. * If _increment_ is not NULL, _when_ will be set to now + _increment_. */ static Boolean times_up(struct timespec *when, struct timespec *increment) { struct timespec now; clock_gettime(CLOCK_MONOTONIC, &now); if (when->tv_sec < now.tv_sec || (when->tv_sec == now.tv_sec && when->tv_nsec < now.tv_nsec)) { return False; } if (increment) { when->tv_sec += now.tv_sec + increment->tv_sec; when->tv_nsec += now.tv_nsec + increment->tv_nsec; while (when->tv_nsec >= TS_SEC) { when->tv_sec += 1; when->tv_nsec -= TS_SEC; } } return True; } #endif static void parse_sixel_incremental_display(void) { /* Watch sixels appear just like a VT340! */ int dirty_row = ((s_context.row * s_graphic->pixh) + (s_graphic->charrow * FontHeight(s_screen))); int dirty_col = ((s_context.col * s_graphic->pixw) + (s_graphic->charcol * FontWidth(s_screen))); #if defined(HAVE_CLOCK_GETTIME) && defined(CLOCK_MONOTONIC) static struct timespec next_refresh = { 0, 0 }; static struct timespec refresh_delay = { 0, TS_MILLISEC }; /* Bundle up incremental refreshes that happen faster than visually * perceptible. */ if (!times_up(&next_refresh, &refresh_delay)) { return; } #endif if (dirty_row != s_prev_row) { s_prev_row = dirty_row; s_prev_col = 0; } /* FIXME: Image should be cropped to the text cells when xtermmargin>0 */ s_graphic->dirty = True; refresh_displayed_graphics(s_xw, s_prev_col / FontWidth(s_screen), s_prev_row / FontHeight(s_screen), 1 + 1 + (dirty_col - s_prev_col) / FontWidth(s_screen), 1); s_prev_row = dirty_row; s_prev_col = dirty_col; } int parse_sixel_char(char cp) { /* s_* variables are static state, defined above */ if (cp == '\0' || isspace(cp)) { if (s_repeating && cp == '\0') { TRACE(("DATA_ERROR: sixel data string terminated in the middle of a repeat operator\n")); s_repeating = False; return finished_parsing(s_xw, s_graphic); } return 0; } if (isdigit(cp)) { if (s_accumulator == -1) s_accumulator = 0; s_accumulator *= 10; s_accumulator += cp - '0'; return 0; } if (s_repeating) { /* '!' ... */ /* Not space or digit, so it must be the sixel to show */ if (cp >= 0x3F && cp <= 0x7E) { int sixel = cp - 0x3f; TRACE(("sixel repeat operator: sixel=%d (%c), count=%d\n", sixel, (char) cp, s_accumulator)); if (s_accumulator <= 0) { /* If the repeat count is zero or omitted, it is treated as 1 */ s_accumulator = 1; } if (!s_graphic->valid) { init_sixel_background(s_graphic, &s_context); s_graphic->valid = True; } if (sixel) { int i; for (i = 0; i < s_accumulator; i++) { if (ValidColumn(s_graphic, &s_context) && set_sixel(s_graphic, &s_context, sixel)) { s_context.col++; } else { s_context.col = 0; break; } } } else { s_context.col += s_accumulator; } } else { TRACE(("DATA_ERROR: sixel data string ignoring repeat operator followed by control: %c (%d)\n", cp, cp)); s_repeating = False; } s_accumulator = -1; s_repeating = False; if (s_screen->incremental_graphics) parse_sixel_incremental_display(); return 0; } /* FIXME: Raster attributes (") can occur repeatedly and at any time. */ /* Parse the Raster Attributes ( " Pn1 ; Pn2 ; Pn3 ; Pn4 ) */ if (s_raster_state > s_NOTRASTER) { TRACE(("sixel DECGRA raster argument found %d, followed by '%c'\n", s_accumulator, cp)); /* cp is not a digit or space, so save the accumulator */ if (s_accumulator != -1) { s_raster_params[s_raster_state] = s_accumulator; } switch (s_raster_state) { #define GetAspect(state) \ case state: \ if (s_raster_params[state] <= 0) { \ s_raster_params[state] = 1; \ } else if (s_raster_params[state] > MaxSParm) { \ s_raster_params[state] = MaxSParm; \ } \ break GetAspect(s_GETTINGPAN); GetAspect(s_GETTINGPAD); #define GetExtent(state, field) \ case state: \ if (s_raster_params[state] <= 0) { \ s_raster_params[state] = 1; \ } \ if (s_raster_params[state] > s_graphic->max_ ## field) { \ TRACE(("DATA_ERROR: raster " #field " %d > max %d\n", \ s_raster_params[state], s_graphic->max_ ## field)); \ s_raster_state = s_NOTRASTER; \ return finished_parsing(s_xw, s_graphic); \ } \ s_context.declared_ ## field = s_raster_params[state]; \ break GetExtent(s_GETTINGV, height); GetExtent(s_GETTINGH, width); case s_NOTCOLORING: case s_RASTERDONE: /* ignore unreachable states */ break; default: TRACE(("DATA_ERROR: raster operator ('\"') with too many parameters (%d)\n, next char %c (%d)\n", s_raster_state, cp, cp)); s_raster_state = s_NOTRASTER; return finished_parsing(s_xw, s_graphic); } /* Save data from Raster Attributes */ /* *INDENT-EQLS* */ s_context.aspect_vertical = s_raster_params[s_GETTINGPAN]; s_context.aspect_horizontal = s_raster_params[s_GETTINGPAD]; update_sixel_aspect(&s_context, s_graphic); s_context.declared_width = s_raster_params[s_GETTINGV]; s_context.declared_height = s_raster_params[s_GETTINGH]; s_accumulator = -1; s_raster_state++; if (cp == ';') { return 0; } /* cp (next character to consume) is not digit, space, or semicolon, so finish up with raster */ s_raster_state = s_NOTRASTER; /* FIXME: Declared size should clear & scroll rectangle when no raster attributes */ if (s_context.declared_width > s_graphic->actual_width) { s_graphic->actual_width = s_context.declared_width; } if (s_context.declared_height > s_graphic->actual_height) { s_graphic->actual_height = s_context.declared_height; } /* FALLTHRU TO PROCESS cp */ } if (s_color_state > s_NOTCOLORING) { /* cp is not a digit or space, so process the accumulator */ if (s_accumulator != -1) { s_color_params[s_color_state] = s_accumulator; } switch (s_color_state) { case s_GETTINGREGISTER: if (s_accumulator == -1) { /* FIXME: What does VT340 do with default register? */ TRACE(("DATA_ERROR: sixel data string uses default color register, next char %c (%d)\n", cp, cp)); return finished_parsing(s_xw, s_graphic); } s_Pregister = (RegisterNum) s_color_params[s_GETTINGREGISTER]; /* The DEC terminals wrapped register indices. */ s_Pregister %= (RegisterNum) s_graphic->valid_registers; TRACE(("sixel switch to color register=%u\n", s_Pregister)); s_context.current_register = s_Pregister; break; case s_GETTINGCOLORSPACE: if (s_accumulator == -1) { /* FIXME: Default VT340 colorspace is HSL, right? */ TRACE(("DATA_ERROR: sixel data string uses default colorspace \n")); s_color_state = s_NOTCOLORING; return finished_parsing(s_xw, s_graphic); } break; case s_GETTINGPC1: if (s_accumulator == -1) { /* FIXME: Does VT340 sixel do the same as ReGIS and use the previous value for unspecified color components? */ TRACE(("DATA_ERROR: sixel data string uses default color component 1 \n")); s_color_state = s_NOTCOLORING; return finished_parsing(s_xw, s_graphic); } break; case s_GETTINGPC2: if (s_accumulator == -1) { /* FIXME: unspecified color components? */ TRACE(("DATA_ERROR: sixel data string uses default color component 2 \n")); s_color_state = s_NOTCOLORING; return finished_parsing(s_xw, s_graphic); } break; case s_GETTINGPC3: if (s_accumulator == -1) { /* FIXME: unspecified color components? */ TRACE(("DATA_ERROR: sixel data string uses default color component 3 \n")); s_color_state = s_NOTCOLORING; return finished_parsing(s_xw, s_graphic); } break; case s_COLORINGDONE: case s_NOTCOLORING: /* ignore unreachable states */ break; default: /* FIXME: Why abort if too many parameters? Doesn't DEC ignore unknown parameters? */ TRACE(("DATA_ERROR: sixel switch color operator ('#') with too many parameters\n, next char %c (%d)\n", cp, cp)); s_color_state = s_NOTCOLORING; return finished_parsing(s_xw, s_graphic); } s_accumulator = -1; s_color_state++; if (cp == ';') { return 0; } else { /* cp (next character to consume) is not digit, space, or semicolon, so finish up with color */ if (s_color_state != s_COLORINGDONE && s_color_state != s_GETTINGCOLORSPACE) { TRACE(("DATA_ERROR: sixel switch color operator with wrong number of parameters (%d)\n", s_color_state)); s_color_state = s_NOTCOLORING; return finished_parsing(s_xw, s_graphic); } if (s_color_state == s_COLORINGDONE) { /* We've got all components, so set the color register */ int Pspace = s_color_params[s_GETTINGCOLORSPACE]; int Pc1 = s_color_params[s_GETTINGPC1]; int Pc2 = s_color_params[s_GETTINGPC2]; int Pc3 = s_color_params[s_GETTINGPC3]; short r, g, b; s_color_state = s_NOTCOLORING; TRACE(("sixel set color register=%u space=%d color=[%d,%d,%d]\n", s_Pregister, Pspace, Pc1, Pc2, Pc3)); switch (Pspace) { case 1: /* HLS */ if (Pc1 > 360 || Pc2 > 100 || Pc3 > 100) { TRACE(("DATA_ERROR: sixel set color operator uses out-of-range HLS color coordinates %d,%d,%d\n", Pc1, Pc2, Pc3)); s_color_state = s_NOTCOLORING; return finished_parsing(s_xw, s_graphic); } hls2rgb(Pc1, Pc2, Pc3, &r, &g, &b); break; case 2: /* RGB */ if (Pc1 > 100 || Pc2 > 100 || Pc3 > 100) { TRACE(("DATA_ERROR: sixel set color operator uses out-of-range RGB color coordinates %d,%d,%d\n", Pc1, Pc2, Pc3)); s_color_state = s_NOTCOLORING; return finished_parsing(s_xw, s_graphic); } r = (short) Pc1; g = (short) Pc2; b = (short) Pc3; break; default: /* unknown */ TRACE(("DATA_ERROR: sixel set color operator uses unknown color space %d\n", Pspace)); s_color_state = s_NOTCOLORING; return finished_parsing(s_xw, s_graphic); } update_color_register(s_graphic, s_Pregister, r, g, b); } s_color_state = s_NOTCOLORING; /* FALLTHRU TO PROCESS cp */ } } if (cp >= 0x3f && cp <= 0x7e) { int sixel = cp - 0x3f; TRACE(("sixel=%x (%c)\n", sixel, (char) cp)); if (!s_graphic->valid) { init_sixel_background(s_graphic, &s_context); s_graphic->valid = True; } if (sixel) { if (!ValidColumn(s_graphic, &s_context) || !set_sixel(s_graphic, &s_context, sixel)) { s_context.col = 0; return 0; } } s_context.col++; if (s_screen->incremental_graphics) parse_sixel_incremental_display(); } else if (cp == '$') { /* DECGCR */ /* ignore DECCRNLM in sixel mode */ TRACE(("sixel CR\n")); s_context.col = 0; } else if (cp == '-') { /* DECGNL */ int scroll_lines; TRACE(("sixel NL: ")); scroll_lines = 0; while (s_graphic->charrow - scroll_lines + (((s_context.row + Min(6, s_graphic->actual_height - s_context.row)) * s_graphic->pixh + FontHeight(s_screen) - 1) / FontHeight(s_screen)) > s_screen->bot_marg) { scroll_lines++; } s_context.col = 0; s_context.row += 6; TRACE2(("new row location is %u\n", s_context.row)); /* If we hit the bottom margin on the graphics page (well, we just use * the text margin for now), the behavior is to either scroll or to * discard the remainder of the graphic depending on this setting. */ if (scroll_lines > 0) { if (SixelScrolling(s_xw)) { xtermScroll(s_xw, scroll_lines); if (s_screen->incremental_graphics) { FlushScroll(s_xw); XSync(s_screen->display, False); s_graphic->dirty = True; refresh_modified_displayed_graphics(s_xw); } TRACE(("graphic scrolled the screen %d lines. s_screen->scroll_amt=%d s_screen->topline=%d, now starting row is %d\n", scroll_lines, s_screen->scroll_amt, s_screen->topline, s_graphic->charrow)); } } } else if (cp == '!') { /* DECGRI */ s_repeating = True; s_accumulator = -1; } else if (cp == '#') { /* DECGCI */ s_color_state = s_GETTINGREGISTER; s_accumulator = -1; } else if (cp == '"') { /* DECGRA */ s_raster_state = s_GETTINGPAN; s_accumulator = -1; s_raster_params[s_GETTINGPAN] = 1; /* Default if not specified */ s_raster_params[s_GETTINGPAD] = 1; /* Default if not specified */ s_raster_params[s_GETTINGH] = 0; /* Default if not specified */ s_raster_params[s_GETTINGV] = 0; /* Default if not specified */ } else { TRACE(("DATA_ERROR: skipping unknown sixel command %04x (%c)\n", (int) cp, cp)); } return 0; } /* Just like finished_parsing, but called from do_dcs in misc.c */ int parse_sixel_finished(XtermWidget xw) { /* FIXME: should use s_xw */ return finished_parsing(xw, s_graphic); }