kiss-mfavila-small/ports/xterm/xterm-359/graphics_regis.c

7521 lines
214 KiB
C

/* $XTermId: graphics_regis.c,v 1.121 2020/08/04 00:46:08 tom Exp $ */
/*
* Copyright 2014-2019,2020 by Ross Combs
* Copyright 2014-2019,2020 by Thomas E. Dickey
*
* 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 <xterm.h>
#include <stdio.h>
#include <ctype.h>
#include <math.h>
#include <stdlib.h>
#include <fontutils.h>
#include <ptyx.h>
#include <assert.h>
#include <graphics.h>
#include <graphics_regis.h>
/* get rid of shadowing warnings (we will not draw Bessel functions) */
#define y1 my_y1
#define y0 my_y0
#define SCALE_FIXED_POINT 16U
#undef DEBUG_PARSING
#undef DEBUG_ALPHABET_LOOKUP
#undef DEBUG_ALPHABETS
#undef DEBUG_BEZIER
#undef DEBUG_SPLINE_SEGMENTS
#undef DEBUG_SPLINE_POINTS
#undef DEBUG_SPLINE_WITH_ROTATION
#undef DEBUG_SPLINE_WITH_OVERDRAW
#undef DEBUG_ARC_POINTS
#undef DEBUG_ARC_CENTER
#undef DEBUG_ARC_START
#undef DEBUG_ARC_END
#undef DEBUG_SPECIFIC_CHAR_METRICS
#define IS_DEBUG_CHAR(CH) ((CH) == 'W') /* glyphs to dump to terminal */
#undef DEBUG_COMPUTED_FONT_METRICS
#undef DEBUG_FONT_NAME
#undef DEBUG_FONT_SIZE_SEARCH
#undef DEBUG_XFT_GLYPH
#undef DEBUG_USER_GLYPH
#undef DEBUG_LOAD
/* controls for extensions over VT3x0 limitations */
#define ENABLE_RGB_COLORSPECS
#undef ENABLE_FREE_ROTATION
#undef ENABLE_DISTORTIONLESS_ROTATION
#define ENABLE_UPLOAD_ALPHABET_FROM_FONT
#define ENABLE_UPLOAD_ALPHABET_ZERO
#define ENABLE_USER_FONT_SIZE
#define ENABLE_VARIABLE_ITALICS
#define MIN_ITERATIONS_BEFORE_REFRESH 10U
#define MIN_MS_BEFORE_REFRESH 33
/* *INDENT-OFF* */
typedef struct RegisPoint {
int x, y;
} RegisPoint;
typedef struct RegisWriteControls {
unsigned pv_multiplier;
unsigned pattern;
unsigned pattern_multiplier;
unsigned invert_pattern;
unsigned plane_mask;
unsigned write_style;
RegisterNum foreground;
unsigned shading_enabled;
char shading_character;
int shading_reference;
unsigned shading_reference_dim;
unsigned line_width;
} RegisWriteControls;
typedef struct RegisTextControls {
unsigned alphabet_num;
unsigned character_set_l; /* default: "(B" (ASCII) */
unsigned character_set_r; /* default: "-@" (Latin-1) */
unsigned character_display_w;
unsigned character_display_h;
unsigned character_unit_cell_w;
unsigned character_unit_cell_h;
int character_inc_x;
int character_inc_y;
int string_rotation;
int character_rotation;
int slant; /* for italic/oblique */
} RegisTextControls;
#define FixedCopy(dst, src, len) strncpy(dst, src, len - 1)[len - 1] = '\0'
#define CopyFontname(dst, src) FixedCopy(dst, src, (size_t) REGIS_FONTNAME_LEN)
#define MAX_REGIS_PAGES 8U
#define MAX_REGIS_ALPHABETS 8U
#define REGIS_ALPHABET_NAME_LEN 11U
#define REGIS_FONTNAME_LEN 256U
/* enough for a 16x24 font (about 100KB) */
#define MAX_REGIS_ALPHABET_BYTES (256U * 16U * 24U)
#define MAX_GLYPH_PIXELS 8192U
#define MAX_GLYPHS 256U
#define INVALID_ALPHABET_NUM ~0U
typedef struct RegisAlphabet {
unsigned alphabet_num;
unsigned pixw, pixh;
char name[REGIS_ALPHABET_NAME_LEN];
char fontname[REGIS_FONTNAME_LEN];
int use_font;
int loaded[MAX_GLYPHS];
Char *bytes;
} RegisAlphabet;
typedef struct RegisDataFragment {
char const *start;
unsigned pos;
unsigned len;
} RegisDataFragment;
/* *INDENT-ON* */
#define POSITION_STACK_SIZE 16U
#define DUMMY_STACK_X -32768
#define DUMMY_STACK_Y -32768
#define CURVE_POSITION_ARC_EDGE 0U
#define CURVE_POSITION_ARC_CENTER 1U
#define CURVE_POSITION_OPEN_CURVE 2U
#define CURVE_POSITION_CLOSED_CURVE 3U
#define MAX_INPUT_CURVE_POINTS 16U
#define MAX_CURVE_POINTS (MAX_INPUT_CURVE_POINTS + 4U)
#define MAX_FILL_POINTS 2048U
typedef struct RegisParseState {
RegisDataFragment input;
char *temp;
unsigned templen;
char command;
char option;
/* position stack */
int stack_x[POSITION_STACK_SIZE];
int stack_y[POSITION_STACK_SIZE];
unsigned stack_next; /* next empty position */
/* curve options */
int curve_mode;
int arclen;
int x_points[MAX_CURVE_POINTS];
int y_points[MAX_CURVE_POINTS];
unsigned num_points;
/* load options */
char load_name[REGIS_ALPHABET_NAME_LEN];
unsigned load_alphabet;
unsigned load_w, load_h;
unsigned load_index;
unsigned load_glyph;
unsigned load_row;
/* text options */
unsigned text_tilt_state;
} RegisParseState;
#define TEXT_TILT_STATE_READY 0U
#define TEXT_TILT_STATE_GOT_D 1U
#define TEXT_TILT_STATE_GOT_DS 2U
#define TEXT_TILT_STATE_GOT_DSD 3U
typedef struct RegisGraphicsContext {
XtermWidget current_widget;
Graphic *destination_graphic;
Graphic *display_graphic;
int graphics_id;
int x_off, y_off;
int x_div, y_div;
int width, height;
unsigned all_planes;
RegisterNum background;
char const *builtin_font;
RegisAlphabet alphabets[MAX_REGIS_ALPHABETS];
RegisWriteControls persistent_write_controls;
RegisWriteControls temporary_write_controls;
RegisTextControls persistent_text_controls;
RegisTextControls temporary_text_controls;
RegisTextControls *current_text_controls;
int multi_input_mode;
int graphics_output_cursor_x;
int graphics_output_cursor_y;
unsigned pattern_count;
unsigned pattern_bit;
int fill_mode;
RegisPoint fill_points[MAX_FILL_POINTS];
unsigned fill_point_count;
unsigned destination_page;
unsigned display_page;
int force_refresh;
} RegisGraphicsContext;
static RegisGraphicsContext persistent_context;
static RegisParseState persistent_state;
#define MAX_PATTERN_BITS 8U
#define WRITE_STYLE_OVERLAY 1U
#define WRITE_STYLE_REPLACE 2U
#define WRITE_STYLE_COMPLEMENT 3U
#define WRITE_STYLE_ERASE 4U
#define WRITE_SHADING_REF_Y 0U
#define WRITE_SHADING_REF_X 1U
#define WRITE_SHADING_REF_NONE 2U
/* keypress event example: http://iraf.net/forum/viewtopic.php?showtopic=61692 */
#define MIN2(X, Y) ( (X) < (Y) ? (X) : (Y) )
#define MIN3(X, Y, Z) ( MIN2(MIN2((X), (Y)), MIN2((Y), (Z))) )
#define MAX2(X, Y) ( (X) > (Y) ? (X) : (Y) )
#define MAX3(X, Y, Z) ( MAX2(MAX2((X), (Y)), MAX2((Y), (Z))) )
#define ROT_LEFT_N(V, N) ( (((V) << ((N) & 3U )) & 255U) | \
((V) >> (8U - ((N) & 3U))) )
#define ROT_LEFT(V) ( (((V) << 1U) & 255U) | ((V) >> 7U) )
/* convert user coordinates to absolute pixel coordinates */
#define SCALE_XCOORD(C, X, S) ( ( (X) * ((C)->width - 1) ) / ( (C)->x_div * (S) ) )
#define SCALE_YCOORD(C, Y, S) ( ( (Y) * ((C)->height - 1) ) / ( (C)->y_div * (S) ) )
#define TRANSLATE_XCOORD(C, X, S) SCALE_XCOORD((C), (X) - (C)->x_off * (S), (S) )
#define TRANSLATE_YCOORD(C, Y, S) SCALE_YCOORD((C), (Y) - (C)->y_off * (S), (S) )
#if 0
/* convert absolute pixel coordinate to user coordinates */
#define SCALE_XPIX(C, X, S) ( ( (X) * ((C)->x_div * (S) ) ) / ((C)->width - 1) )
#define SCALE_YPIX(C, Y, S) ( ( (Y) * ((C)->y_div * (S) ) ) / ((C)->height - 1) )
#define TRANSLATE_XPIX(C, X, S) ( SCALE_XPIX((C), (X), (S) ) + (C)->x_off * (S) )
#define TRANSLATE_YPIX(C, Y, S) ( SCALE_YPIX((C), (Y), (S) ) + (C)->y_off * (S) )
#endif
#define READ_PIXEL(C, X, Y) read_pixel((C)->destination_graphic, (X), (Y))
#define DRAW_PIXEL(C, X, Y, COL) draw_solid_pixel((C)->destination_graphic, (X), (Y), (COL))
#define DRAW_ALL(C, COL) \
draw_solid_rectangle((C)->destination_graphic, 0, 0, (C)->width, (C)->height, (COL))
static unsigned get_shade_character_pixel(Char const *pixels,
unsigned w, unsigned h,
unsigned smaxf, unsigned scale,
int slant_dx, int px, int py);
static void get_bitmap_of_character(RegisGraphicsContext const *context,
int ch, unsigned maxw, unsigned maxh,
Char *pixels,
unsigned *w, unsigned *h,
unsigned max_pixels);
static void
init_regis_load_state(RegisParseState *state)
{
state->load_index = MAX_REGIS_ALPHABETS;
state->load_w = 8U;
state->load_h = 10U;
state->load_alphabet = 1U; /* FIXME: is this the correct default */
state->load_name[0] = '\0';
state->load_glyph = (unsigned) (Char) '\0';
state->load_row = 0U;
}
static void
init_regis_parse_state(RegisParseState *state)
{
state->command = '_';
state->option = '_';
state->stack_next = 0U;
state->load_index = MAX_REGIS_ALPHABETS;
init_regis_load_state(state);
}
static int
ifloor(double d)
{
double dl = floor(d);
return (int) dl;
}
static int
isqrt(double d)
{
double dl = sqrt(d);
return (int) dl;
}
static void
draw_regis_pixel(RegisGraphicsContext *context, int x, int y,
unsigned value)
{
unsigned color = 0;
switch (context->temporary_write_controls.write_style) {
case WRITE_STYLE_OVERLAY:
/*
* Update pixels with foreground when pattern is 1,
* don't change when pattern is 0.
*/
if (!value) {
return;
}
if (context->temporary_write_controls.invert_pattern) {
color = context->background;
} else {
color = context->temporary_write_controls.foreground;
}
break;
case WRITE_STYLE_REPLACE:
/*
* Update pixels with foreground when pattern is 1,
* set to background when pattern is 0.
*/
{
unsigned fg, bg;
if (context->temporary_write_controls.invert_pattern) {
fg = context->background;
bg = context->temporary_write_controls.foreground;
} else {
fg = context->temporary_write_controls.foreground;
bg = context->background;
}
color = value ? fg : bg;
}
break;
case WRITE_STYLE_COMPLEMENT:
/*
* Update pixels with background when pattern is 1,
* don't change when pattern is 0.
*/
if (!value) {
return;
}
color = READ_PIXEL(context, x, y);
if (color == COLOR_HOLE)
color = context->background;
color = color ^ context->all_planes;
break;
case WRITE_STYLE_ERASE:
/* Update pixels to foreground. */
if (context->temporary_write_controls.invert_pattern) {
color = context->temporary_write_controls.foreground;
} else {
color = context->background;
}
break;
}
if (context->temporary_write_controls.plane_mask != context->all_planes) {
unsigned old_color = READ_PIXEL(context, x, y);
if (old_color == COLOR_HOLE)
old_color = context->background;
color = (color & context->temporary_write_controls.plane_mask) |
(old_color & ~context->temporary_write_controls.plane_mask);
}
DRAW_PIXEL(context, x, y, color);
}
static void
shade_pattern_to_pixel(RegisGraphicsContext *context, unsigned dim, int ref,
int x, int y)
{
unsigned value;
if (dim == WRITE_SHADING_REF_X) {
int delta = x > ref ? 1 : -1;
int curr_x;
context->pattern_bit = 1U << (((unsigned) y) & 7U);
for (curr_x = ref; curr_x != x + delta; curr_x += delta) {
value = context->temporary_write_controls.pattern &
context->pattern_bit;
draw_regis_pixel(context, curr_x, y, value);
}
} else if (dim == WRITE_SHADING_REF_Y) {
int delta = y > ref ? 1 : -1;
int curr_y;
for (curr_y = ref; curr_y != y + delta; curr_y += delta) {
context->pattern_bit = 1U << (((unsigned) curr_y) & 7U);
value = context->temporary_write_controls.pattern &
context->pattern_bit;
draw_regis_pixel(context, x, curr_y, value);
}
} else {
TRACE(("ERROR: shading requested, but there is no reference axis\n"));
}
}
static void
shade_char_to_pixel(RegisGraphicsContext *context, Char const *pixels,
unsigned w, unsigned h, unsigned dim, int ref, int x, int y)
{
unsigned xmaxf = context->current_text_controls->character_unit_cell_w;
unsigned ymaxf = context->current_text_controls->character_unit_cell_h;
unsigned smaxf;
unsigned s;
unsigned scale;
unsigned value;
if (xmaxf > ymaxf) {
smaxf = ymaxf;
s = h;
} else {
smaxf = xmaxf;
s = w;
}
scale = (s << SCALE_FIXED_POINT) / smaxf;
if (dim == WRITE_SHADING_REF_X) {
int delta = x > ref ? 1 : -1;
int curr_x;
for (curr_x = ref; curr_x != x + delta; curr_x += delta) {
value = get_shade_character_pixel(pixels, w, h, smaxf, scale, 0,
curr_x, y);
draw_regis_pixel(context, curr_x, y, value);
}
} else if (dim == WRITE_SHADING_REF_Y) {
int delta = y > ref ? 1 : -1;
int curr_y;
for (curr_y = ref; curr_y != y + delta; curr_y += delta) {
value = get_shade_character_pixel(pixels, w, h, smaxf, scale, 0, x,
curr_y);
draw_regis_pixel(context, x, curr_y, value);
}
} else {
TRACE(("ERROR: shading requested, but there is no reference axis\n"));
}
}
static void
draw_patterned_pixel(RegisGraphicsContext *context, int x, int y)
{
if (context->pattern_count >=
context->temporary_write_controls.pattern_multiplier) {
context->pattern_count = 0U;
context->pattern_bit = ROT_LEFT(context->pattern_bit);
}
context->pattern_count++;
draw_regis_pixel(context, x, y,
context->temporary_write_controls.pattern &
context->pattern_bit);
}
static void
shade_to_pixel(RegisGraphicsContext *context, unsigned dim, int ref,
int x, int y)
{
if (context->temporary_write_controls.shading_character != '\0') {
unsigned xmaxf = context->current_text_controls->character_unit_cell_w;
unsigned ymaxf = context->current_text_controls->character_unit_cell_h;
char ch = context->temporary_write_controls.shading_character;
Char pixels[MAX_GLYPH_PIXELS];
unsigned w, h;
get_bitmap_of_character(context, ch, xmaxf, ymaxf, pixels, &w, &h,
MAX_GLYPH_PIXELS);
if (w > 0 && h > 0) {
shade_char_to_pixel(context, pixels, w, h, dim, ref, x, y);
}
} else {
shade_pattern_to_pixel(context, dim, ref, x, y);
}
}
static void
draw_or_save_patterned_pixel(RegisGraphicsContext *context, int x, int y)
{
if (context->fill_mode == 1) {
if (context->fill_point_count >= MAX_FILL_POINTS) {
TRACE(("point %d,%d can not be added to filled polygon\n",
x, y));
return;
}
if (context->fill_point_count > 0U &&
context->fill_points[context->fill_point_count - 1U].x == x &&
context->fill_points[context->fill_point_count - 1U].y == y) {
return;
}
context->fill_points[context->fill_point_count].x = x;
context->fill_points[context->fill_point_count].y = y;
context->fill_point_count++;
return;
}
if (context->temporary_write_controls.shading_enabled) {
unsigned dim = context->temporary_write_controls.shading_reference_dim;
int ref = context->temporary_write_controls.shading_reference;
shade_to_pixel(context, dim, ref, x, y);
return;
}
draw_patterned_pixel(context, x, y);
}
static int
sort_points(void const *l, void const *r)
{
RegisPoint const *const lp = l;
RegisPoint const *const rp = r;
if (lp->y < rp->y)
return -1;
if (lp->y > rp->y)
return +1;
if (lp->x < rp->x)
return -1;
if (lp->x > rp->x)
return +1;
return 0;
}
static void
draw_shaded_polygon(RegisGraphicsContext *context)
{
unsigned p;
int old_x, old_y;
int inside;
Char pixels[MAX_GLYPH_PIXELS];
unsigned w = 1, h = 1;
char ch = context->temporary_write_controls.shading_character;
unsigned xmaxf = context->current_text_controls->character_unit_cell_w;
unsigned ymaxf = context->current_text_controls->character_unit_cell_h;
get_bitmap_of_character(context, ch, xmaxf, ymaxf, pixels, &w, &h,
MAX_GLYPH_PIXELS);
if (w < 1U || h < 1U) {
return;
}
qsort(context->fill_points, (size_t) context->fill_point_count,
sizeof(context->fill_points[0]), sort_points);
old_x = DUMMY_STACK_X;
old_y = DUMMY_STACK_Y;
inside = 0;
for (p = 0U; p < context->fill_point_count; p++) {
int new_x = context->fill_points[p].x;
int new_y = context->fill_points[p].y;
#if 0
printf("got %d,%d (%d,%d) inside=%d\n", new_x, new_y, old_x, old_y, inside);
#endif
/*
* FIXME: This is using pixels to represent lines which loses
* information about exact slope and how many lines are present which
* causes misbehavior with some inputs (especially complex polygons).
* It also takes more room than remembering vertices, but I'd rather
* not have to implement line segments for arcs. Maybe store a count
* at each vertex instead (doesn't fix the slope problem).
*/
/*
* FIXME: Change this to only draw inside of polygons, and round
* points in a uniform direction to avoid overlapping drawing. As an
* option we could continue to support drawing the outline.
*/
if (new_y != old_y) {
if (inside) {
/*
* Just draw the vertical line when there is not a matching
* edge on the right side.
*/
shade_char_to_pixel(context, pixels, w, h,
WRITE_SHADING_REF_X,
old_x, old_x, old_y);
}
inside = 1;
} else {
if (inside) {
shade_char_to_pixel(context, pixels, w, h,
WRITE_SHADING_REF_X,
old_x, new_x, new_y);
}
if (new_x > old_x + 1) {
inside = !inside;
}
}
old_x = new_x;
old_y = new_y;
}
context->destination_graphic->dirty = 1;
}
static void
draw_filled_polygon(RegisGraphicsContext *context)
{
unsigned p;
int old_x, old_y;
int inside;
qsort(context->fill_points, (size_t) context->fill_point_count,
sizeof(context->fill_points[0]), sort_points);
old_x = DUMMY_STACK_X;
old_y = DUMMY_STACK_Y;
inside = 0;
for (p = 0U; p < context->fill_point_count; p++) {
int new_x = context->fill_points[p].x;
int new_y = context->fill_points[p].y;
#if 0
printf("got %d,%d (%d,%d) inside=%d\n", new_x, new_y, old_x, old_y, inside);
#endif
/*
* FIXME: This is using pixels to represent lines which loses
* information about exact slope and how many lines are present which
* causes misbehavior with some inputs (especially complex polygons).
* It also takes more room than remembering vertices, but I'd rather
* not have to implement line segments for arcs. Maybe store a count
* at each vertex instead (doesn't fix the slope problem).
*/
/*
* FIXME: Change this to only draw inside of polygons, and round
* points in a uniform direction to avoid overlapping drawing. As an
* option we could continue to support drawing the outline.
*/
if (new_y != old_y) {
if (inside) {
/*
* Just draw the vertical line when there is not a matching
* edge on the right side.
*/
shade_pattern_to_pixel(context, WRITE_SHADING_REF_X,
old_x, old_x, old_y);
}
inside = 1;
} else {
if (inside) {
shade_pattern_to_pixel(context, WRITE_SHADING_REF_X,
old_x, new_x, new_y);
}
if (new_x > old_x + 1) {
inside = !inside;
}
}
old_x = new_x;
old_y = new_y;
}
context->destination_graphic->dirty = 1;
}
static void
draw_patterned_line(RegisGraphicsContext *context, int x1, int y1,
int x2, int y2)
{
int x, y;
int dx, dy;
int dir, diff;
dx = abs(x1 - x2);
dy = abs(y1 - y2);
if (dx > dy) {
if (x1 > x2) {
int tmp;
EXCHANGE(x1, x2, tmp);
EXCHANGE(y1, y2, tmp);
}
if (y1 < y2)
dir = 1;
else if (y1 > y2)
dir = -1;
else
dir = 0;
diff = 0;
y = y1;
for (x = x1; x <= x2; x++) {
if (diff >= dx) {
diff -= dx;
y += dir;
}
diff += dy;
draw_or_save_patterned_pixel(context, x, y);
}
} else {
if (y1 > y2) {
int tmp;
EXCHANGE(y1, y2, tmp);
EXCHANGE(x1, x2, tmp);
}
if (x1 < x2)
dir = 1;
else if (x1 > x2)
dir = -1;
else
dir = 0;
diff = 0;
x = x1;
for (y = y1; y <= y2; y++) {
if (diff >= dy) {
diff -= dy;
x += dir;
}
diff += dx;
draw_or_save_patterned_pixel(context, x, y);
}
}
context->destination_graphic->dirty = 1;
}
typedef struct {
int dxx;
int dxy;
int dyx;
int dyy;
} quadmap_coords;
static void
draw_patterned_arc(RegisGraphicsContext *context,
int cx, int cy,
int ex, int ey,
int a_start, int a_length,
int *ex_final, int *ey_final)
{
const double third = hypot((double) (cx - ex), (double) (cy - ey));
const int radius = (int) third;
const int ra = radius;
const int rb = radius;
const quadmap_coords neg_quadmap[4] =
{
{-1, 0, 0, +1},
{0, -1, -1, 0},
{+1, 0, 0, -1},
{0, +1, +1, 0},
};
const quadmap_coords pos_quadmap[4] =
{
{-1, 0, 0, -1},
{0, -1, +1, 0},
{+1, 0, 0, +1},
{0, +1, -1, 0},
};
const quadmap_coords *quadmap;
int total_points;
int half_degree;
int points_start, points_stop;
int points;
unsigned iterations;
long rx, ry;
long dx, dy;
int x, y;
long e2;
long error;
TRACE(("orig a_length=%d a_start=%d\n", a_length, a_start));
if (a_length == 0)
return;
if (a_length > 0) {
quadmap = pos_quadmap;
} else {
quadmap = neg_quadmap;
if (a_start != 0)
a_start = 3600 - a_start;
a_length = abs(a_length);
}
TRACE(("positive a_length=%d a_start=%d\n", a_length, a_start));
rx = -ra;
ry = 0;
e2 = rb;
dx = (2 * rx + 1) * e2 * e2;
dy = rx * rx;
error = dx + dy;
total_points = 0;
do {
total_points += 4;
e2 = 2 * error;
if (e2 >= dx) {
rx++;
dx += 2 * rb * rb;
error += dx;
}
if (e2 <= dy) {
ry++;
dy += 2 * ra * ra;
error += dy;
}
}
while (rx <= 0);
/* FIXME: This is apparently not accurate enough because some arcs start or
* end a few pixels off. Maybe compare line slopes in the loop below
* instead?
*/
half_degree = total_points * 5;
points_start = (total_points * a_start - half_degree) / 3600;
points_stop = (total_points * a_start +
total_points * a_length + half_degree) / 3600;
TRACE(("drawing arc with %d points clockwise from %g degrees for %g degrees (from point %d to %d out of %d)\n",
total_points, a_start / 10.0, a_length / 10.0, points_start, points_stop,
total_points));
/* FIXME: The four pixels at the cardinal directions are double-drawn. */
points = 0;
for (iterations = 0U; iterations < 8U; iterations++) {
int q2 = iterations & 0x3;
rx = -ra;
ry = 0;
e2 = rb;
dx = (2 * rx + 1) * e2 * e2;
dy = rx * rx;
error = dx + dy;
do {
#ifdef DEBUG_ARC_POINTS
double rad = atan2(
(double) (quadmap[q2].dyx * rx +
quadmap[q2].dyy * ry),
(double) (quadmap[q2].dxx * rx +
quadmap[q2].dxy * ry));
double deg = (360.0 * rad / (2.0 * M_PI));
if (deg < 0.0)
deg += 360.0;
#endif
if (points >= points_start && points <= points_stop) {
x = (int) (cx +
quadmap[q2].dxx * rx +
quadmap[q2].dxy * ry);
y = (int) (cy +
quadmap[q2].dyx * rx +
quadmap[q2].dyy * ry);
#ifdef DEBUG_ARC_POINTS
TRACE(("drawing point %u at %d,%d (%.5g deg)\n",
points, x, y, deg));
#endif
draw_or_save_patterned_pixel(context, x, y);
if (ex_final)
*ex_final = x;
if (ey_final)
*ey_final = y;
} else {
#ifdef DEBUG_ARC_POINTS
x = (int) (cx + quadmap[q2].dxx * rx + quadmap[q2].dxy * ry);
y = (int) (cy + quadmap[q2].dyx * rx + quadmap[q2].dyy * ry);
TRACE(("skipping point %u at %d,%d which is outside of range (%.5g deg)\n",
points, x, y, deg));
#endif
}
points++;
e2 = 2 * error;
if (e2 >= dx) {
rx++;
dx += 2 * rb * rb;
error += dx;
}
if (e2 <= dy) {
ry++;
dy += 2 * ra * ra;
error += dy;
}
}
while (rx <= 0);
}
context->destination_graphic->dirty = 1;
}
/*
* The plot* functions are based on optimized rasterization primitives written
* by Zingl Alois.
* See http://members.chello.at/easyfilter/bresenham.html
*/
/*
* FIXME:
* This is a terrible temporary hack. The plot functions below can be adapted
* to work like the other rasterization functions but there's no point in doing
* that until we know we don't have to write something completely different.
*/
static RegisGraphicsContext *global_context;
static void
setPixel(int x, int y)
{
draw_or_save_patterned_pixel(global_context, x, y);
}
static void
plotLine(int x0, int y0, int x1, int y1)
{
int dx = abs(x1 - x0), sx = x0 < x1 ? 1 : -1;
int dy = -abs(y1 - y0), sy = y0 < y1 ? 1 : -1;
int err = dx + dy; /* error value e_xy */
for (;;) { /* loop */
int e2;
setPixel(x0, y0);
e2 = 2 * err;
if (e2 >= dy) { /* e_xy+e_x > 0 */
if (x0 == x1)
break;
err += dy;
x0 += sx;
}
if (e2 <= dx) { /* e_xy+e_y < 0 */
if (y0 == y1)
break;
err += dx;
y0 += sy;
}
}
}
static void
plotQuadBezierSeg(int x0, int y0, int x1, int y1, int x2, int y2)
{ /* plot a limited quadratic Bezier segment */
int sx = x2 - x1;
int sy = y2 - y1;
long xx = (x0 - x1); /* relative values for checks */
long yy = (y0 - y1);
double cur = (double) (xx * sy - yy * sx); /* curvature */
assert(xx * sx <= 0 && yy * sy <= 0); /* sign of gradient must not change */
if (sx * (long) sx + sy * (long) sy > xx * xx + yy * yy) { /* begin with longer part */
x2 = x0;
x0 = sx + x1;
y2 = y0;
y0 = sy + y1;
cur = -cur; /* swap P0 P2 */
}
if (cur != 0.0) { /* no straight line */
long xy;
double dx, dy, err;
xx += sx;
xx *= (sx = (x0 < x2) ? 1 : -1); /* x step direction */
yy += sy;
yy *= (sy = (y0 < y2) ? 1 : -1); /* y step direction */
xy = 2 * xx * yy;
xx *= xx;
yy *= yy; /* differences 2nd degree */
if (cur * sx * sy < 0) { /* negated curvature? */
xx = -xx;
yy = -yy;
xy = -xy;
cur = -cur;
}
/* differences 1st degree */
dx = ((4.0 * sy * cur * (x1 - x0)) + (double) xx) - (double) xy;
dy = ((4.0 * sx * cur * (y0 - y1)) + (double) yy) - (double) xy;
xx += xx;
yy += yy;
err = dx + dy + (double) xy; /* error 1st step */
do {
setPixel(x0, y0); /* plot curve */
if (x0 == x2 && y0 == y2)
return; /* last pixel -> curve finished */
y1 = (2 * err) < dx; /* save value for test of y step */
if ((2 * err) > dy) {
x0 += sx;
dx -= (double) xy;
dy += (double) yy;
err += dy;
} /* x step */
if (y1) {
y0 += sy;
dy -= (double) xy;
dx += (double) xx;
err += dx;
} /* y step */
} while (dy < 0 && dx > 0); /* gradient negates -> algorithm fails */
}
plotLine(x0, y0, x2, y2); /* plot remaining part to end */
}
#if 0
static void
plotQuadBezier(int x0, int y0, int x1, int y1, int x2, int y2)
{ /* plot any quadratic Bezier curve */
int x = x0 - x1;
int y = y0 - y1;
double t = x0 - 2 * x1 + x2;
double r;
if ((long) x * (x2 - x1) > 0) { /* horizontal cut at P4? */
if ((long) y * (y2 - y1) > 0) /* vertical cut at P6 too? */
if (fabs((y0 - 2 * y1 + y2) / t * x) > abs(y)) { /* which first? */
x0 = x2;
x2 = x + x1;
y0 = y2;
y2 = y + y1; /* swap points */
} /* now horizontal cut at P4 comes first */
t = (x0 - x1) / t;
r = (1 - t) * ((1 - t) * y0 + 2.0 * t * y1) + t * t * y2; /* By(t=P4) */
t = (x0 * x2 - x1 * x1) * t / (x0 - x1); /* gradient dP4/dx=0 */
x = ifloor(t + 0.5);
y = ifloor(r + 0.5);
r = (y1 - y0) * (t - x0) / (x1 - x0) + y0; /* intersect P3 | P0 P1 */
plotQuadBezierSeg(x0, y0, x, ifloor(r + 0.5), x, y);
r = (y1 - y2) * (t - x2) / (x1 - x2) + y2; /* intersect P4 | P1 P2 */
x0 = x1 = x;
y0 = y;
y1 = ifloor(r + 0.5); /* P0 = P4, P1 = P8 */
}
if ((long) (y0 - y1) * (y2 - y1) > 0) { /* vertical cut at P6? */
t = y0 - 2 * y1 + y2;
t = (y0 - y1) / t;
r = (1 - t) * ((1 - t) * x0 + 2.0 * t * x1) + t * t * x2; /* Bx(t=P6) */
t = (y0 * y2 - y1 * y1) * t / (y0 - y1); /* gradient dP6/dy=0 */
x = ifloor(r + 0.5);
y = ifloor(t + 0.5);
r = (x1 - x0) * (t - y0) / (y1 - y0) + x0; /* intersect P6 | P0 P1 */
plotQuadBezierSeg(x0, y0, ifloor(r + 0.5), y, x, y);
r = (x1 - x2) * (t - y2) / (y1 - y2) + x2; /* intersect P7 | P1 P2 */
x0 = x;
x1 = ifloor(r + 0.5);
y0 = y1 = y; /* P0 = P6, P1 = P7 */
}
plotQuadBezierSeg(x0, y0, x1, y1, x2, y2); /* remaining part */
}
#endif
static void
plotCubicBezierSeg(int x0, int y0,
double x1, double y1,
double x2, double y2,
int x3, int y3)
{ /* plot limited cubic Bezier segment */
int f, fx, fy, tt;
int leg = 1;
int sx = x0 < x3 ? 1 : -1;
int sy = y0 < y3 ? 1 : -1; /* step direction */
double xc = -fabs(x0 + x1 - x2 - x3);
double xa = xc - 4 * sx * (x1 - x2);
double xb = sx * (x0 - x1 - x2 + x3);
double yc = -fabs(y0 + y1 - y2 - y3);
double ya = yc - 4 * sy * (y1 - y2);
double yb = sy * (y0 - y1 - y2 + y3);
double ab, ac, bc, cb, xx, xy, yy, dx, dy, ex, *pxy;
double EP = 0.01;
/* check for curve restrains */
/* slope P0-P1 == P2-P3 and (P0-P3 == P1-P2 or no slope change) */
assert((x1 - x0) * (x2 - x3) < EP &&
((x3 - x0) * (x1 - x2) < EP || xb * xb < xa * xc + EP));
assert((y1 - y0) * (y2 - y3) < EP &&
((y3 - y0) * (y1 - y2) < EP || yb * yb < ya * yc + EP));
if (xa == 0.0 && ya == 0.0) { /* quadratic Bezier */
sx = ifloor((3 * x1 - x0 + 1) / 2);
sy = ifloor((3 * y1 - y0 + 1) / 2); /* new midpoint */
plotQuadBezierSeg(x0, y0, sx, sy, x3, y3);
return;
}
x1 = (x1 - x0) * (x1 - x0) + (y1 - y0) * (y1 - y0) + 1; /* line lengths */
x2 = (x2 - x3) * (x2 - x3) + (y2 - y3) * (y2 - y3) + 1;
do { /* loop over both ends */
ab = xa * yb - xb * ya;
ac = xa * yc - xc * ya;
bc = xb * yc - xc * yb;
ex = ab * (ab + ac - 3 * bc) + ac * ac; /* P0 part of self-intersection loop? */
f = ((ex > 0.0)
? 1
: isqrt(1 + 1024 / x1)); /* calculate resolution */
ab *= f;
ac *= f;
bc *= f;
ex *= f * f; /* increase resolution */
xy = 9 * (ab + ac + bc) / 8;
cb = 8 * (xa - ya); /* init differences of 1st degree */
dx = 27 * (8 * ab * (yb * yb - ya * yc) +
ex * (ya + 2 * yb + yc)) / 64 - ya * ya * (xy - ya);
dy = 27 * (8 * ab * (xb * xb - xa * xc) -
ex * (xa + 2 * xb + xc)) / 64 - xa * xa * (xy + xa);
/* init differences of 2nd degree */
xx = 3 * (3 * ab * (3 * yb * yb - ya * ya - 2 * ya * yc) -
ya * (3 * ac * (ya + yb) + ya * cb)) / 4;
yy = 3 * (3 * ab * (3 * xb * xb - xa * xa - 2 * xa * xc) -
xa * (3 * ac * (xa + xb) + xa * cb)) / 4;
xy = xa * ya * (6 * ab + 6 * ac - 3 * bc + cb);
ac = ya * ya;
cb = xa * xa;
xy = 3 * (xy + 9 * f * (cb * yb * yc - xb * xc * ac) -
18 * xb * yb * ab) / 8;
if (ex < 0) { /* negate values if inside self-intersection loop */
dx = -dx;
dy = -dy;
xx = -xx;
yy = -yy;
xy = -xy;
ac = -ac;
cb = -cb;
} /* init differences of 3rd degree */
ab = 6 * ya * ac;
ac = -6 * xa * ac;
bc = 6 * ya * cb;
cb = -6 * xa * cb;
dx += xy;
ex = dx + dy;
dy += xy; /* error of 1st step */
for (pxy = &xy, fx = fy = f; x0 != x3 && y0 != y3;) {
setPixel(x0, y0); /* plot curve */
do { /* move sub-steps of one pixel */
if (dx > *pxy || dy < *pxy)
goto exit; /* confusing values */
y1 = 2 * ex - dy; /* save value for test of y step */
if (2 * ex >= dx) { /* x sub-step */
fx--;
ex += dx += xx;
dy += xy += ac;
yy += bc;
xx += ab;
}
if (y1 <= 0) { /* y sub-step */
fy--;
ex += dy += yy;
dx += xy += bc;
xx += ac;
yy += cb;
}
} while (fx > 0 && fy > 0); /* pixel complete? */
if (2 * fx <= f) {
x0 += sx;
fx += f;
} /* x step */
if (2 * fy <= f) {
y0 += sy;
fy += f;
} /* y step */
if (pxy == &xy && dx < 0 && dy > 0)
pxy = &EP; /* pixel ahead valid */
}
exit:
EXCHANGE(x0, x3, tt);
sx = -sx;
xb = -xb; /* swap legs */
EXCHANGE(y0, y3, tt);
sy = -sy;
yb = -yb;
x1 = x2;
} while (leg--); /* try other end */
plotLine(x0, y0, x3, y3); /* remaining part in case of cusp or crunode */
}
static void
plotCubicBezier(int x0, int y0, int x1, int y1,
int x2, int y2, int x3, int y3)
{ /* plot any cubic Bezier curve */
int n = 0, i = 0;
long xc = x0 + x1 - x2 - x3;
long xa = xc - 4 * (x1 - x2);
long xb = x0 - x1 - x2 + x3;
long xd = xb + 4 * (x1 + x2);
long yc = y0 + y1 - y2 - y3;
long ya = yc - 4 * (y1 - y2);
long yb = y0 - y1 - y2 + y3;
long yd = yb + 4 * (y1 + y2);
double fx0 = x0;
double fy0 = y0;
double t1 = (double) (xb * xb - xa * xc), t2, t[5];
#ifdef DEBUG_BEZIER
printf("plotCubicBezier(%d,%d, %d,%d, %d,%d, %d,%d\n",
x0, y0, x1, y1, x2, y2, x3, y3);
#endif
/* sub-divide curve at gradient sign changes */
if (xa == 0) { /* horizontal */
if (labs(xc) < 2 * labs(xb))
t[n++] = (double) xc / (2.0 * (double) xb); /* one change */
} else if (t1 > 0.0) { /* two changes */
t2 = sqrt(t1);
t1 = ((double) xb - t2) / (double) xa;
if (fabs(t1) < 1.0)
t[n++] = t1;
t1 = ((double) xb + t2) / (double) xa;
if (fabs(t1) < 1.0)
t[n++] = t1;
}
t1 = (double) (yb * yb - ya * yc);
if (ya == 0) { /* vertical */
if (labs(yc) < 2 * labs(yb))
t[n++] = (double) yc / (2.0 * (double) yb); /* one change */
} else if (t1 > 0.0) { /* two changes */
t2 = sqrt(t1);
t1 = ((double) yb - t2) / (double) ya;
if (fabs(t1) < 1.0)
t[n++] = t1;
t1 = ((double) yb + t2) / (double) ya;
if (fabs(t1) < 1.0)
t[n++] = t1;
}
for (i = 1; i < n; i++) /* bubble sort of 4 points */
if ((t1 = t[i - 1]) > t[i]) {
t[i - 1] = t[i];
t[i] = t1;
i = 0;
}
t1 = -1.0;
t[n] = 1.0; /* begin / end point */
for (i = 0; i <= n; i++) { /* plot each segment separately */
double fx1, fx2, fx3;
double fy1, fy2, fy3;
t2 = t[i]; /* sub-divide at t[i-1], t[i] */
fx1 = (t1 * (t1 * (double) xb - (double) (2 * xc)) -
t2 * (t1 * (t1 * (double) xa - (double) (2 * xb)) + (double)
xc) + (double) xd) / 8 - fx0;
fy1 = (t1 * (t1 * (double) yb - (double) (2 * yc)) -
t2 * (t1 * (t1 * (double) ya - (double) (2 * yb)) + (double)
yc) + (double) yd) / 8 - fy0;
fx2 = (t2 * (t2 * (double) xb - (double) (2 * xc)) -
t1 * (t2 * (t2 * (double) xa - (double) (2 * xb)) + (double)
xc) + (double) xd) / 8 - fx0;
fy2 = (t2 * (t2 * (double) yb - (double) (2 * yc)) -
t1 * (t2 * (t2 * (double) ya - (double) (2 * yb)) + (double)
yc) + (double) yd) / 8 - fy0;
fx0 -= fx3 = (t2 * (t2 * ((double) (3 * xb) - t2 * (double) xa) -
(double) (3 * xc)) + (double) xd) / 8;
fy0 -= fy3 = (t2 * (t2 * ((double) (3 * yb) - t2 * (double) ya) -
(double) (3 * yc)) + (double) yd) / 8;
x3 = ifloor(fx3 + 0.5);
y3 = ifloor(fy3 + 0.5); /* scale bounds to int */
if (fx0 != 0.0) {
fx1 *= fx0 = (x0 - x3) / fx0;
fx2 *= fx0;
}
if (fy0 != 0.0) {
fy1 *= fy0 = (y0 - y3) / fy0;
fy2 *= fy0;
}
if (x0 != x3 || y0 != y3) /* segment t1 - t2 */
plotCubicBezierSeg(x0, y0,
x0 + fx1, y0 + fy1,
x0 + fx2, y0 + fy2,
x3, y3);
x0 = x3;
y0 = y3;
fx0 = fx3;
fy0 = fy3;
t1 = t2;
}
}
#if 0
static void
plotQuadSpline(int n, int x[], int y[], int skip_segments)
{ /* plot quadratic spline, destroys input arrays x,y */
#define M_MAX 12
double mi = 1, m[M_MAX]; /* diagonal constants of matrix */
int i, x0, y0, x1, y1, x2, y2;
#ifdef DEBUG_SPLINE_SEGMENTS
int color = 0;
#endif
assert(n > 1); /* need at least 3 points P[0]..P[n] */
#ifdef DEBUG_SPLINE_POINTS
{
int save_pattern;
i = 0;
global_context->temporary_write_controls.foreground = 11;
save_pattern = global_context->temporary_write_controls.pattern;
global_context->temporary_write_controls.pattern = 0xff;
draw_patterned_arc(global_context, x[i], y[i], x[i] + 2, y[i], 0,
3600, NULL, NULL);
i++;
global_context->temporary_write_controls.foreground = 15;
for (; i < n; i++) {
draw_patterned_arc(global_context,
x[i], y[i],
x[i] + 2, y[i],
0, 3600, NULL, NULL);
}
global_context->temporary_write_controls.foreground = 10;
draw_patterned_arc(global_context, x[i], y[n], x[i] + 2, y[i], 0,
3600, NULL, NULL);
global_context->temporary_write_controls.pattern = save_pattern;
}
#endif
x2 = x[n];
y2 = y[n];
x[1] = x0 = 8 * x[1] - 2 * x[0]; /* first row of matrix */
y[1] = y0 = 8 * y[1] - 2 * y[0];
for (i = 2; i < n; i++) { /* forward sweep */
if (i - 2 < M_MAX)
m[i - 2] = mi = 1.0 / (6.0 - mi);
x[i] = x0 = ifloor(8 * x[i] - x0 * mi + 0.5); /* store yi */
y[i] = y0 = ifloor(8 * y[i] - y0 * mi + 0.5);
}
x1 = ifloor((x0 - 2 * x2) / (5.0 - mi) + 0.5); /* correction last row */
y1 = ifloor((y0 - 2 * y2) / (5.0 - mi) + 0.5);
for (i = n - 2; i > 0; i--) { /* back substitution */
if (i <= M_MAX)
mi = m[i - 1];
x0 = ifloor((x[i] - x1) * mi + 0.5); /* next corner */
y0 = ifloor((y[i] - y1) * mi + 0.5);
#ifdef DEBUG_SPLINE_SEGMENTS
color++;
global_context->temporary_write_controls.foreground = color;
#endif
if ((n - 2) - i < skip_segments)
plotQuadBezier((x0 + x1) / 2, (y0 + y1) / 2, x1, y1, x2, y2);
x2 = (x0 + x1) / 2;
x1 = x0;
y2 = (y0 + y1) / 2;
y1 = y0;
}
#ifdef DEBUG_SPLINE_SEGMENTS
color++;
global_context->temporary_write_controls.foreground = color;
#endif
if (skip_segments > 0)
plotQuadBezier(x[0], y[0], x1, y1, x2, y2);
}
#endif
static void
plotCubicSpline(int n, int x[], int y[], int skip_first_last)
{
#define M_MAX 12
double mi = 0.25, m[M_MAX]; /* diagonal constants of matrix */
int x3, y3, x4, y4;
int i, x0, y0, x1, y1, x2, y2;
#ifdef DEBUG_SPLINE_SEGMENTS
RegisterNum color = 0;
#endif
assert(n > 2); /* need at least 4 points P[0]..P[n] */
#ifdef DEBUG_SPLINE_POINTS
{
unsigned save_pattern;
i = 0;
global_context->temporary_write_controls.foreground = 11;
save_pattern = global_context->temporary_write_controls.pattern;
global_context->temporary_write_controls.pattern = 0xff;
draw_patterned_arc(global_context, x[i], y[i], x[i] + 2, y[i], 0,
3600, NULL, NULL);
i++;
global_context->temporary_write_controls.foreground = 15;
for (; i < n; i++) {
draw_patterned_arc(global_context,
x[i], y[i],
x[i] + 2, y[i],
0, 3600, NULL, NULL);
}
global_context->temporary_write_controls.foreground = 10;
draw_patterned_arc(global_context, x[i], y[i], x[i] + 2, y[i], 0,
3600, NULL, NULL);
global_context->temporary_write_controls.pattern = save_pattern;
}
#endif
x3 = x[n - 1];
y3 = y[n - 1];
x4 = x[n];
y4 = y[n];
x[1] = x0 = 12 * x[1] - 3 * x[0]; /* first row of matrix */
y[1] = y0 = 12 * y[1] - 3 * y[0];
for (i = 2; i < n; i++) { /* forward sweep */
if (i - 2 < M_MAX)
m[i - 2] = mi = 0.25 / (2.0 - mi);
x[i] = x0 = ifloor(12 * x[i] - 2 * x0 * mi + 0.5);
y[i] = y0 = ifloor(12 * y[i] - 2 * y0 * mi + 0.5);
}
x2 = ifloor((x0 - 3 * x4) / (7 - 4 * mi) + 0.5); /* correct last row */
/* printf("y0=%d, y4=%d mi=%g\n", y0, y4, mi); */
y2 = ifloor((y0 - 3 * y4) / (7 - 4 * mi) + 0.5);
/* printf("y2=%d, y3=%d, y4=%d\n", y2, y3, y4); */
#ifdef DEBUG_SPLINE_SEGMENTS
color++;
global_context->temporary_write_controls.foreground = color;
#endif
if (!skip_first_last)
plotCubicBezier(x3, y3, (x2 + x4) / 2, (y2 + y4) / 2, x4, y4, x4, y4);
if (n - 3 < M_MAX)
mi = m[n - 3];
x1 = ifloor((x[n - 2] - 2 * x2) * mi + 0.5);
y1 = ifloor((y[n - 2] - 2 * y2) * mi + 0.5);
for (i = n - 3; i > 0; i--) { /* back substitution */
if (i <= M_MAX)
mi = m[i - 1];
x0 = ifloor((x[i] - 2 * x1) * mi + 0.5);
y0 = ifloor((y[i] - 2 * y1) * mi + 0.5);
x4 = ifloor((x0 + 4 * x1 + x2 + 3) / 6.0); /* reconstruct P[i] */
y4 = ifloor((y0 + 4 * y1 + y2 + 3) / 6.0);
#ifdef DEBUG_SPLINE_SEGMENTS
color++;
global_context->temporary_write_controls.foreground = color;
#endif
#define CB_PARM(num) ifloor((num) / 3.0 + 0.5)
plotCubicBezier(x4, y4,
CB_PARM(2 * x1 + x2),
CB_PARM(2 * y1 + y2),
CB_PARM(x1 + 2 * x2),
CB_PARM(y1 + 2 * y2),
x3, y3);
x3 = x4;
y3 = y4;
x2 = x1;
y2 = y1;
x1 = x0;
y1 = y0;
}
x0 = x[0];
x4 = ifloor((3 * x0 + 7 * x1 + 2 * x2 + 6) / 12.0); /* reconstruct P[1] */
y0 = y[0];
y4 = ifloor((3 * y0 + 7 * y1 + 2 * y2 + 6) / 12.0);
#ifdef DEBUG_SPLINE_SEGMENTS
global_context->temporary_write_controls.foreground = 4;
#endif
plotCubicBezier(x4, y4,
CB_PARM(2 * x1 + x2),
CB_PARM(2 * y1 + y2),
CB_PARM(x1 + 2 * x2),
CB_PARM(y1 + 2 * y2),
x3, y3);
#ifdef DEBUG_SPLINE_SEGMENTS
color++;
global_context->temporary_write_controls.foreground = color;
#endif
if (!skip_first_last)
plotCubicBezier(x0, y0, x0, y0, (x0 + x1) / 2, (y0 + y1) / 2, x4, y4);
}
static unsigned
find_free_alphabet_index(RegisGraphicsContext *context, unsigned alphabet,
unsigned pixw, unsigned pixh)
{
unsigned ii, jj;
/* try an exact match */
for (ii = 0U; ii < MAX_REGIS_ALPHABETS; ii++) {
if (context->alphabets[ii].alphabet_num == alphabet &&
context->alphabets[ii].pixw == pixw &&
context->alphabets[ii].pixh == pixh) {
return ii;
}
}
/* otherwise use any empty slot */
for (ii = 0U; ii < MAX_REGIS_ALPHABETS; ii++) {
if (context->alphabets[ii].alphabet_num == INVALID_ALPHABET_NUM) {
context->alphabets[ii].alphabet_num = alphabet;
context->alphabets[ii].pixw = pixw;
context->alphabets[ii].pixh = pixh;
return ii;
}
}
/* otherwise recycle a slot with a different font size */
for (ii = 0U; ii < MAX_REGIS_ALPHABETS; ii++) {
if (context->alphabets[ii].alphabet_num == alphabet) {
context->alphabets[ii].pixw = pixw;
context->alphabets[ii].pixh = pixh;
context->alphabets[ii].name[0] = '\0';
context->alphabets[ii].fontname[0] = '\0';
context->alphabets[ii].use_font = 0;
if (context->alphabets[ii].bytes != NULL) {
free(context->alphabets[ii].bytes);
context->alphabets[ii].bytes = NULL;
}
for (jj = 0U; jj < MAX_GLYPHS; jj++) {
context->alphabets[ii].loaded[jj] = 0;
}
return ii;
}
}
/* finally just recycle this arbitrary slot */
context->alphabets[0U].alphabet_num = alphabet;
context->alphabets[0U].pixw = pixw;
context->alphabets[0U].pixh = pixh;
context->alphabets[0U].name[0] = '\0';
context->alphabets[0U].fontname[0] = '\0';
context->alphabets[0U].use_font = 0;
if (context->alphabets[0U].bytes != NULL) {
free(context->alphabets[0U].bytes);
context->alphabets[0U].bytes = NULL;
}
for (jj = 0U; jj < MAX_GLYPHS; jj++) {
context->alphabets[0U].loaded[jj] = 0;
}
return 0U;
}
#ifdef DEBUG_SPECIFIC_CHAR_METRICS
static void
dump_bitmap_pixels(Char const *pixels, unsigned w, unsigned h)
{
unsigned yy, xx;
for (yy = 0U; yy < h; yy++) {
printf(" ");
for (xx = 0U; xx < w; xx++) {
if (pixels[yy * w + xx]) {
printf("#");
} else {
printf("_");
}
}
printf("\n");
}
}
#endif
#if OPT_RENDERFONT && defined(HAVE_TYPE_FCCHAR32)
static int
copy_bitmap_from_xft_font(Display *display, XftFont *font, FcChar32 ch,
Char *pixels, unsigned w, unsigned h,
unsigned xmin, unsigned ymin)
{
/*
* FIXME: cache:
* - the bitmap for the last M characters and target dimensions
* - reuse the pixmap object where possible
*/
XftColor bg, fg;
Pixmap bitmap;
XftDraw *draw;
XImage *image;
unsigned bmw, bmh;
unsigned xx, yy;
bg.pixel = 0UL;
bg.color.red = 0;
bg.color.green = 0;
bg.color.blue = 0;
bg.color.alpha = 0x0;
fg.pixel = 1UL;
fg.color.red = 0xffff;
fg.color.green = 0xffff;
fg.color.blue = 0xffff;
fg.color.alpha = 0xffff;
bmw = w + xmin;
bmh = h;
bitmap = XCreatePixmap(display,
DefaultRootWindow(display),
bmw, bmh,
1);
if (bitmap == None) {
TRACE(("Unable to create Pixmap\n"));
return 0;
}
draw = XftDrawCreateBitmap(display, bitmap);
if (!draw) {
TRACE(("Unable to create XftDraw\n"));
XFreePixmap(display, bitmap);
return 0;
}
XftDrawRect(draw, &bg, 0, 0, bmw, bmh);
XftDrawString32(draw, &fg, font, 0, font->ascent - (int) ymin,
&ch, 1);
image = XGetImage(display, bitmap, (int) xmin, 0, w, h, 1UL, XYPixmap);
if (!image) {
TRACE(("Unable to create XImage\n"));
XftDrawDestroy(draw);
XFreePixmap(display, bitmap);
return 0;
}
for (yy = 0U; yy < h; yy++) {
for (xx = 0U; xx < w; xx++) {
pixels[yy * w + xx] = (XGetPixel(image, (int) xx, (int) yy) != 0);
}
}
XDestroyImage(image);
XftDrawDestroy(draw);
XFreePixmap(display, bitmap);
return 1;
}
static void
get_xft_glyph_dimensions(Display *display, XftFont *font, unsigned *w,
unsigned *h, unsigned *xmin, unsigned *ymin)
{
unsigned workw, workh;
FcChar32 ch;
Char *pixels;
Char *pixelp;
unsigned yy, xx;
unsigned char_count, pixel_count;
unsigned real_minx, real_maxx, real_miny, real_maxy;
unsigned char_minx, char_maxx, char_miny, char_maxy;
/*
* For each ASCII or ISO-8859-1 printable code, find out what its
* dimensions are.
*
* We actually render the glyphs and determine the extents ourselves
* because the font library can lie by several pixels, and since we are
* doing manual character placement in fixed areas the glyph boundary needs
* to be accurate.
*
* Ignore control characters and spaces - their extent information is
* misleading.
*/
/* Our "work area" is just a buffer which should be big enough to hold the
* largest glyph even if its size is under-reported by a couple of pixels
* in each dimension.
*/
workw = (unsigned) font->max_advance_width + 2U;
if (font->ascent + font->descent > font->height) {
workh = (unsigned) (font->ascent + font->descent) + 2U;
} else {
workh = (unsigned) font->height + 2U;
}
if (!(pixels = malloc((size_t) (workw * workh)))) {
*w = 0U;
*h = 0U;
return;
}
/* FIXME: ch is in UCS32 -- try to support non-ASCII characters */
char_count = 0U;
real_minx = workw - 1U;
real_maxx = 0U;
real_miny = workh - 1U;
real_maxy = 0U;
for (ch = 33; ch < 256; ++ch) {
if (ch >= 127 && ch <= 160)
continue;
if (!FcCharSetHasChar(font->charset, ch))
continue;
if (!copy_bitmap_from_xft_font(display, font, ch, pixels,
workw, workh, 0U, 0U))
continue;
pixel_count = 0U;
char_minx = workh - 1U;
char_maxx = 0U;
char_miny = workh - 1U;
char_maxy = 0U;
pixelp = pixels;
for (yy = 0U; yy < workh; yy++) {
for (xx = 0U; xx < workw; xx++) {
if (*pixelp++) {
if (xx < char_minx)
char_minx = xx;
else if (xx > char_maxx)
char_maxx = xx;
if (yy < char_miny)
char_miny = yy;
else if (yy > char_maxy)
char_maxy = yy;
pixel_count++;
}
}
}
if (pixel_count < 1U)
continue;
#ifdef DEBUG_SPECIFIC_CHAR_METRICS
if (IS_DEBUG_CHAR(ch)) {
printf("char: '%c' (%d)\n", (char) ch, ch);
printf(" minx: %u\n", char_minx);
printf(" maxx: %u\n", char_maxx);
printf(" miny: %u\n", char_miny);
printf(" maxy: %u\n", char_maxy);
dump_bitmap_pixels(pixels, workw, workh);
printf("\n");
}
#endif
if (char_minx < real_minx)
real_minx = char_minx;
if (char_maxx > real_maxx)
real_maxx = char_maxx;
if (char_miny < real_miny)
real_miny = char_miny;
if (char_maxy > real_maxy)
real_maxy = char_maxy;
char_count++;
}
free(pixels);
if (char_count < 1U) {
*w = 0U;
*h = 0U;
return;
}
*w = (unsigned) (1 + real_maxx - real_minx);
*h = (unsigned) (1 + real_maxy - real_miny);
*xmin = real_minx;
*ymin = real_miny;
#ifdef DEBUG_COMPUTED_FONT_METRICS
printf("reported metrics:\n");
printf(" %ux%u ascent=%u descent=%u\n", font->max_advance_width,
font->height, font->ascent, font->descent);
printf("computed metrics:\n");
printf(" real_minx=%u real_maxx=%u real_miny=%u real_maxy=%u\n",
real_minx, real_maxx, real_miny, real_maxy);
printf(" final: %ux%u xmin=%u ymin=%u\n", *w, *h, *xmin, *ymin);
#endif
}
#define FONT_SIZE_CACHE_SIZE 32U
/* Find the font pixel size which returns the font which is closest to the given
* maxw and maxh without overstepping either dimension.
*/
static XftFont *
find_best_xft_font_size(XtermWidget xw,
char const *fontname,
unsigned maxw, unsigned maxh, unsigned max_pixels,
unsigned *w, unsigned *h,
unsigned *xmin, unsigned *ymin)
{
Display *display = XtDisplay(xw);
Screen *screen = XtScreen(xw);
XftFont *font;
unsigned targeth;
unsigned ii, cacheindex;
static struct {
char fontname[REGIS_FONTNAME_LEN];
unsigned maxw, maxh, max_pixels;
unsigned targeth;
unsigned w, h;
unsigned xmin;
unsigned ymin;
} cache[FONT_SIZE_CACHE_SIZE];
assert(display);
assert(screen);
assert(fontname);
assert(w);
assert(h);
assert(xmin);
assert(ymin);
cacheindex = FONT_SIZE_CACHE_SIZE;
for (ii = 0U; ii < FONT_SIZE_CACHE_SIZE; ii++) {
if (cache[ii].maxw == maxw && cache[ii].maxh == maxh &&
cache[ii].max_pixels == max_pixels &&
strcmp(cache[ii].fontname, fontname) == 0) {
cacheindex = ii;
break;
}
}
if (cacheindex < FONT_SIZE_CACHE_SIZE) {
targeth = cache[cacheindex].targeth;
} else {
targeth = maxh * 10U + 5U;
}
for (;;) {
if (targeth <= 5U) {
TRACE(("Giving up finding suitable Xft font size for %ux%u.\n",
maxw, maxh));
return NULL;
}
/*
* Xft does a bad job at:
* - two-color low-resolution anti-aliased fonts
* - non-anti-aliased fonts at low resolution unless a font size is
* given (pixel size does not help, and the value of the font size
* doesn't appear to matter).
*
* In those two cases it literally drops pixels, sometimes whole
* columns, making the glyphs unreadable and ugly even when readable.
*/
/*
* FIXME:
* Also, we need to scale the width and height separately. The
* CHAR_WIDTH and CHAR_HEIGHT attributes would seem to be ideal, but
* don't appear to have any effect if set. Instead we will manually
* scale the bitmap later, which may be very ugly because we won't try
* to identify different parts of glyphs or preserve density.
*/
{
XftPattern *pat;
XftPattern *match;
XftResult status;
font = NULL;
if ((pat = XftNameParse(fontname))) {
XftPatternBuild(pat,
/* arbitrary value */
XFT_SIZE, XftTypeDouble, 12.0,
XFT_PIXEL_SIZE, XftTypeDouble, (double)
targeth / 10.0,
#if 0
XFT_CHAR_WIDTH, XftTypeInteger, (int) maxw,
XFT_CHAR_HEIGHT, XftTypeInteger, (int)
(targeth / 10U),
#endif
XFT_SPACING, XftTypeInteger, XFT_MONO,
XFT_SLANT, XftTypeInteger, 0,
XFT_ANTIALIAS, XftTypeBool, False,
NULL);
if ((match = XftFontMatch(display,
XScreenNumberOfScreen(screen),
pat, &status))) {
font = XftFontOpenPattern(display, match);
maybeXftCache(xw, font);
}
XftPatternDestroy(pat);
}
}
if (!font) {
TRACE(("Unable to open a monospaced Xft font.\n"));
return NULL;
}
#ifdef DEBUG_FONT_SIZE_SEARCH
{
char buffer[1024];
if (XftNameUnparse(font->pattern, buffer, (int) sizeof(buffer))) {
printf("Testing font named \"%s\"\n", buffer);
} else {
printf("Testing unknown font\n");
}
}
#endif
if (cacheindex < FONT_SIZE_CACHE_SIZE &&
targeth == cache[cacheindex].targeth) {
*w = cache[cacheindex].w;
*h = cache[cacheindex].h;
*xmin = cache[cacheindex].xmin;
*ymin = cache[cacheindex].ymin;
} else {
get_xft_glyph_dimensions(display, font, w, h, xmin, ymin);
}
#ifdef DEBUG_FONT_SIZE_SEARCH
printf("checking max=%ux%u targeth=%u.%u\n", maxw, maxh, targeth /
10U, targeth % 10U);
#endif
if (*h > maxh) {
XftFontClose(display, font);
#ifdef DEBUG_FONT_SIZE_SEARCH
printf("got %ux%u glyph; too tall; reducing target size\n", *w, *h);
#endif
if (*h > 2U * maxh) {
targeth /= (*h / maxh);
} else if (targeth > 10U && *h > maxh + 1U) {
targeth -= 10U;
} else {
targeth--;
}
continue;
}
if (*w > maxw) {
XftFontClose(display, font);
#ifdef DEBUG_FONT_SIZE_SEARCH
printf("got %ux%u glyph; too wide; reducing target size\n", *w, *h);
#endif
if (*w > 2U * maxw) {
targeth /= (*w / maxw);
} else if (targeth > 10U && *w > maxw + 1U) {
targeth -= 10U;
} else {
targeth--;
}
continue;
}
if (*w * *h > max_pixels) {
XftFontClose(display, font);
#ifdef DEBUG_FONT_SIZE_SEARCH
printf("got %ux%u glyph; too many pixels; reducing target size\n",
*w, *h);
#endif
if (*w * *h > 2U * max_pixels) {
unsigned min = *w < *h ? *w : *h;
unsigned divisor = (*w * *h) / (max_pixels * min);
if (divisor > 1U) {
targeth /= divisor;
} else if (targeth > 10U) {
targeth -= 10U;
} else {
targeth--;
}
} else {
targeth--;
}
continue;
}
#ifdef DEBUG_FONT_NAME
{
char buffer[1024];
if (XftNameUnparse(font->pattern, buffer, (int) sizeof(buffer))) {
printf("Final font for \"%s\" max %dx%d is \"%s\"\n",
fontname, maxw, maxh, buffer);
} else {
printf("Final font for \"%s\" max %dx%d is unknown\n",
fontname, maxw, maxh);
}
}
#endif
if (cacheindex == FONT_SIZE_CACHE_SIZE) {
for (ii = 0U; ii < FONT_SIZE_CACHE_SIZE; ii++) {
if (cache[ii].maxw == 0U || cache[ii].maxh == 0U ||
cache[ii].max_pixels == 0U) {
CopyFontname(cache[ii].fontname, fontname);
cache[ii].maxw = maxw;
cache[ii].maxh = maxh;
cache[ii].max_pixels = max_pixels;
cache[ii].targeth = targeth;
cache[ii].w = *w;
cache[ii].h = *h;
cache[ii].xmin = *xmin;
cache[ii].ymin = *ymin;
break;
}
}
if (ii == FONT_SIZE_CACHE_SIZE) {
ii = targeth % FONT_SIZE_CACHE_SIZE;
CopyFontname(cache[ii].fontname, fontname);
cache[ii].maxw = maxw;
cache[ii].maxh = maxh;
cache[ii].max_pixels = max_pixels;
cache[ii].targeth = targeth;
cache[ii].w = *w;
cache[ii].h = *h;
cache[ii].xmin = *xmin;
cache[ii].ymin = *ymin;
}
}
return font;
}
}
#endif
static int
get_xft_bitmap_of_character(RegisGraphicsContext const *context,
char const *fontname, int ch,
unsigned maxw, unsigned maxh, Char *pixels,
unsigned max_pixels, unsigned *w, unsigned *h)
{
/*
* See Xft / RENDERFONT stuff in fontutils.c and used in utils.c
* Add a separate configuration for ReGIS.
*/
/*
* FIXME: cache:
* - reuse the font where possible
*/
#ifdef XRENDERFONT
XtermWidget xw = context->destination_graphic->xw;
Display *display = XtDisplay(xw);
XftFont *font;
unsigned xmin = 0U, ymin = 0U;
if (!(font = find_best_xft_font_size(xw, fontname, maxw, maxh,
max_pixels, w, h, &xmin, &ymin))) {
TRACE(("Unable to find suitable Xft font\n"));
return 0;
}
if (!copy_bitmap_from_xft_font(display, font, CharOf(ch), pixels, *w, *h,
xmin, ymin)) {
TRACE(("Unable to create bitmap for '%c'\n", ch));
XftFontClose(display, font);
return 0;
}
XftFontClose(display, font);
return 1;
#else
(void) context;
(void) fontname;
(void) ch;
(void) maxw;
(void) maxh;
(void) pixels;
(void) max_pixels;
(void) w;
(void) h;
return 0;
#endif
}
static unsigned
find_best_alphabet_index(RegisGraphicsContext const *context,
unsigned minw, unsigned minh,
unsigned maxw, unsigned maxh,
unsigned max_pixels)
{
unsigned ii;
unsigned bestmatch;
unsigned bestw, besth;
assert(context);
assert(maxw);
assert(maxh);
bestmatch = MAX_REGIS_ALPHABETS;
bestw = 0U;
besth = 0U;
for (ii = 0U; ii < MAX_REGIS_ALPHABETS; ii++) {
if (context->alphabets[ii].alphabet_num ==
context->current_text_controls->alphabet_num &&
context->alphabets[ii].pixw >= minw &&
context->alphabets[ii].pixh >= minh &&
context->alphabets[ii].pixw <= maxw &&
context->alphabets[ii].pixh <= maxh &&
context->alphabets[ii].pixw > bestw &&
context->alphabets[ii].pixh > besth &&
context->alphabets[ii].pixw *
context->alphabets[ii].pixh <= max_pixels) {
bestmatch = ii;
bestw = context->alphabets[ii].pixw;
besth = context->alphabets[ii].pixh;
}
}
#ifdef DEBUG_ALPHABET_LOOKUP
if (bestmatch < MAX_REGIS_ALPHABETS) {
TRACE(("found alphabet %u at index %u size %ux%u font=%s\n",
context->current_text_controls->alphabet_num, bestmatch,
bestw, besth,
context->alphabets[bestmatch].use_font ?
context->alphabets[bestmatch].fontname : "(none)"));
}
#endif
return bestmatch;
}
#define GLYPH_WIDTH_BYTES(PIXW) ( ((PIXW) + 7U) >> 3U )
static int
get_user_bitmap_of_character(RegisGraphicsContext const *context,
int ch,
unsigned alphabet_index,
Char *pixels)
{
const Char *glyph;
unsigned w, h;
unsigned xx, yy;
unsigned byte, bit;
assert(context);
assert(pixels);
if (!context->alphabets[alphabet_index].loaded[(Char) ch]) {
TRACE(("in alphabet %u with alphabet index %u user glyph for '%c' not loaded\n",
context->current_text_controls->alphabet_num, alphabet_index,
ch));
return 0;
}
assert(context->alphabets[alphabet_index].bytes);
w = context->alphabets[alphabet_index].pixw;
h = context->alphabets[alphabet_index].pixh;
glyph = &context->alphabets[alphabet_index]
.bytes[(Char) ch * GLYPH_WIDTH_BYTES(w) * h];
for (yy = 0U; yy < h; yy++) {
for (xx = 0U; xx < w; xx++) {
byte = yy * GLYPH_WIDTH_BYTES(w) + (xx >> 3U);
bit = xx & 7U;
pixels[yy * w + xx] = ((unsigned) glyph[byte] >> (7U - bit)) & 1U;
}
}
return 1;
}
/*
* alphabets
* 0 built-in
* 1-N custom (max is 3 on VT3X0 -- up to MAX_REGIS_ALPHABETS with xterm)
*
* built-in 7-bit charsets
* (B ASCII
* (0 DEC special graphics
* (> DEC technical
* (A NCR British
* (4 NCR Dutch
* (5 NCR Finnish
* (R NCR French
* (9 NCR French Canadian
* (K NCR German
* (Y NCR Italian
* (' NCR Norwegian/Danish
* (!6 NCR Portuguese
* (Z NCR Spanish
* (7 NCR Swedish
* (- NCR Swiss
*
* -@ ???
*
* built-in 8-bit charsets
* )%5 DEC supplemental graphics
* -A ISO Latin-1 supplemental
* )< user-preferred supplemental (94 chars)
*
* defaults
* terminal char cell size charsets angle
* VT3x0 S1 0:ASCII(94) 0 (positive)
*
*/
static void
get_bitmap_of_character(RegisGraphicsContext const *context, int ch,
unsigned maxw, unsigned maxh, Char *pixels,
unsigned *w, unsigned *h, unsigned max_pixels)
{
unsigned bestmatch;
char const *fontname = NULL;
assert(context);
assert(w);
assert(h);
if (context->current_text_controls->alphabet_num == 0)
fontname = context->builtin_font;
*w = 0U;
*h = 0U;
bestmatch = find_best_alphabet_index(context, 1U, 1U, maxw, maxh,
max_pixels);
if (bestmatch < MAX_REGIS_ALPHABETS) {
RegisAlphabet const *alpha = &context->alphabets[bestmatch];
if (!alpha->use_font &&
get_user_bitmap_of_character(context, ch, bestmatch, pixels)) {
#ifdef DEBUG_USER_GLYPH
TRACE(("found user glyph for alphabet number %d (index %u)\n\n",
context->current_text_controls->alphabet_num, bestmatch));
#endif
*w = alpha->pixw;
*h = alpha->pixh;
return;
}
if (alpha->use_font)
fontname = alpha->fontname;
}
if (fontname) {
if (get_xft_bitmap_of_character(context, fontname, ch,
maxw, maxh, pixels,
max_pixels, w, h)) {
if (*w > maxw) {
TRACE(("BUG: Xft glyph is too wide: %ux%u but max is %ux%u\n",
*w, *h, maxw, maxh));
} else if (*h > maxh) {
TRACE(("BUG: Xft glyph is too tall: %ux%u but max is %ux%u\n",
*w, *h, maxw, maxh));
} else if (*w * *h > max_pixels) {
TRACE(("BUG: Xft glyph has too many pixels: %u but max is %u\n",
*w * *h, max_pixels));
} else {
TRACE(("got glyph from \"%s\" for alphabet number %d\n",
fontname, context->current_text_controls->alphabet_num));
#ifdef DEBUG_SPECIFIC_CHAR_METRICS
if (IS_DEBUG_CHAR(ch)) {
printf("got %ux%u Xft bitmap for '%c' target size %ux%u:\n",
*w, *h,
ch, maxw, maxh);
dump_bitmap_pixels(pixels, *w, *h);
printf("\n");
}
#endif
return;
}
}
}
TRACE(("unable to load any bitmap for character '%c' in alphabet number %u at %ux%u\n",
ch, context->current_text_controls->alphabet_num, maxw, maxh));
/*
* The VT3x0 series (and probably earlier ReGIS implementations) use a solid
* block glyph for unknown glyphs.
*/
{
unsigned xx, yy;
*w = MIN2(8U, maxh);
*h = MIN2(10U, maxw);
for (yy = 0U; yy < *h; yy++)
for (xx = 0U; xx < *w; xx++)
pixels[yy * *w + xx] = '\1';
}
}
#define ROT_SHEAR_SCALE 8192
#define SIGNED_UNSIGNED_MOD(VAL, BASE) ( (((VAL) % (int) (BASE)) + (int) (BASE)) % (int) (BASE) )
static unsigned
get_shade_character_pixel(Char const *pixels, unsigned w, unsigned h,
unsigned smaxf, unsigned scale, int slant_dx,
int px, int py)
{
unsigned wx, wy;
unsigned fx, fy;
wx = (unsigned) SIGNED_UNSIGNED_MOD(px -
(slant_dx * SIGNED_UNSIGNED_MOD(py, smaxf))
/ ROT_SHEAR_SCALE, smaxf);
wy = (unsigned) SIGNED_UNSIGNED_MOD(py, smaxf);
fx = (wx * scale) >> SCALE_FIXED_POINT;
fy = (wy * scale) >> SCALE_FIXED_POINT;
if (fx < w && fy < h) {
return (unsigned) pixels[fy * w + fx];
}
return 0U;
}
static void
draw_character(RegisGraphicsContext *context, int ch,
int slant_dx, int rot_shear_x,
int rot_shear_y, int x_sign_x, int x_sign_y,
int y_sign_x, int y_sign_y)
{
const unsigned xmaxd = context->current_text_controls->character_display_w;
const unsigned ymaxd = context->current_text_controls->character_display_h;
const unsigned xmaxf = context->current_text_controls->character_unit_cell_w;
const unsigned ymaxf = context->current_text_controls->character_unit_cell_h;
unsigned w, h;
unsigned xscale, yscale;
unsigned fx, fy;
unsigned px, py;
int sx;
int rx, ry;
int ox, oy;
unsigned pad_left, pad_right;
unsigned pad_top, pad_bottom;
Char pixels[MAX_GLYPH_PIXELS];
unsigned value;
get_bitmap_of_character(context, ch, xmaxf, ymaxf, pixels, &w, &h,
MAX_GLYPH_PIXELS);
if (w < 1 || h < 1) {
return;
}
if (xmaxd > xmaxf) {
pad_left = (xmaxd - xmaxf) / 2U;
pad_right = (xmaxd - xmaxf) - pad_left;
} else {
pad_left = 0U;
pad_right = 0U;
}
if (ymaxd > ymaxf) {
pad_top = (ymaxd - ymaxf) / 2U;
pad_bottom = (ymaxd - ymaxf) - pad_top;
} else {
pad_top = 0U;
pad_bottom = 0U;
}
xscale = (w << SCALE_FIXED_POINT) / xmaxf;
yscale = (h << SCALE_FIXED_POINT) / ymaxf;
for (py = 0U; py < ymaxd; py++) {
for (px = 0U; px < xmaxd; px++) {
if (py < pad_top || px < pad_left ||
py >= ymaxd - pad_bottom || px >= xmaxd - pad_right) {
value = 0U;
} else {
fx = ((px - pad_left) * xscale) >> SCALE_FIXED_POINT;
fy = ((py - pad_top) * yscale) >> SCALE_FIXED_POINT;
if (fx < w && fy < h) {
value = (unsigned) pixels[fy * w + fx];
} else {
value = 0U;
}
}
sx = (int) px + (slant_dx * (int) py) / ROT_SHEAR_SCALE;
rx = x_sign_x * sx + x_sign_y * (int) py;
ry = y_sign_x * sx + y_sign_y * (int) py;
ox = rx + (rot_shear_x * ry) / ROT_SHEAR_SCALE;
oy = ry + (rot_shear_y * ox) / ROT_SHEAR_SCALE;
ox += (rot_shear_x * oy) / ROT_SHEAR_SCALE;
draw_regis_pixel(context,
(int) context->graphics_output_cursor_x + ox,
(int) context->graphics_output_cursor_y + oy,
value);
}
}
}
static void
move_text(RegisGraphicsContext *context, int dx, int dy)
{
double total_rotation;
int str_invert;
int str_shear_x, str_shear_y;
int ox, oy;
total_rotation = 2.0 * M_PI *
context->current_text_controls->string_rotation / 360.0;
while (total_rotation > 1.5 * M_PI) {
total_rotation -= 2.0 * M_PI;
}
if (total_rotation > 0.5 * M_PI) {
total_rotation -= M_PI;
str_invert = -1;
} else {
str_invert = 1;
}
str_shear_x = (int) (ROT_SHEAR_SCALE * -tan(0.5 * -total_rotation));
str_shear_y = (int) (ROT_SHEAR_SCALE * sin(-total_rotation));
total_rotation = 2.0 * M_PI *
context->current_text_controls->character_rotation / 360.0;
while (total_rotation > 1.5 * M_PI) {
total_rotation -= 2.0 * M_PI;
}
TRACE(("str_shear: %.5f, %.5f (sign=%d)\n",
str_shear_x / (double) ROT_SHEAR_SCALE,
str_shear_y / (double) ROT_SHEAR_SCALE,
str_invert));
ox = str_invert * dx + (str_shear_x * dy) / ROT_SHEAR_SCALE;
oy = str_invert * dy + (str_shear_y * ox) / ROT_SHEAR_SCALE;
ox += (str_shear_x * oy) / ROT_SHEAR_SCALE;
TRACE(("after pv output updating position %+d,%+d\n", ox, oy));
context->graphics_output_cursor_x += ox;
context->graphics_output_cursor_y += oy;
return;
}
#define UPSCALE_TEXT_DIMENSION(D) do { \
*(D) = (unsigned)((double)(*(D)) * M_SQRT2); \
} while (0)
static void
draw_text(RegisGraphicsContext *context, char const *str)
{
#ifndef ENABLE_DISTORTIONLESS_ROTATION
RegisTextControls *old_text_controls = NULL;
static RegisTextControls scratch_text_controls;
#endif
double total_rotation;
size_t ii;
int str_invert;
int str_shear_x, str_shear_y;
int slant_dx;
int chr_x_sign_x, chr_x_sign_y;
int chr_y_sign_x, chr_y_sign_y;
int chr_shear_x, chr_shear_y;
int begin_x, begin_y;
int rx, ry;
int ox, oy;
#ifdef DEBUG_ALPHABETS
{
unsigned n;
for (n = 0U; n < MAX_REGIS_ALPHABETS; n++) {
printf("alphabet index %u\n", n);
if (context->alphabets[n].alphabet_num != INVALID_ALPHABET_NUM) {
printf(" alphabet_num=%u\n", context->alphabets[n].alphabet_num);
printf(" pixw=%d\n", context->alphabets[n].pixw);
printf(" pixh=%d\n", context->alphabets[n].pixh);
printf(" name=\"%s\"\n", context->alphabets[n].name);
printf(" use_font=%d\n", context->alphabets[n].use_font);
printf(" fontname=\"%s\"\n", context->alphabets[n].fontname);
printf(" bytes=%p\n", context->alphabets[n].bytes);
}
}
}
#endif
if (context->current_text_controls->slant <= -75 ||
context->current_text_controls->slant >= +75) {
TRACE(("ERROR: unsupported character slant angle %d\n",
context->current_text_controls->slant));
return;
}
/* FIXME: grab when first entering command */
begin_x = context->graphics_output_cursor_x;
begin_y = context->graphics_output_cursor_y;
#ifndef ENABLE_DISTORTIONLESS_ROTATION
if (context->current_text_controls->character_rotation != 0 &&
context->current_text_controls->character_rotation != 90 &&
context->current_text_controls->character_rotation != 180 &&
context->current_text_controls->character_rotation != 270) {
old_text_controls = context->current_text_controls;
scratch_text_controls = *context->current_text_controls;
UPSCALE_TEXT_DIMENSION(&scratch_text_controls.character_display_w);
UPSCALE_TEXT_DIMENSION(&scratch_text_controls.character_display_h);
/* FIXME: Not sure if this is really scaled. The increment seems to
* _not_ be scaled.
*/
UPSCALE_TEXT_DIMENSION(&scratch_text_controls.character_unit_cell_w);
UPSCALE_TEXT_DIMENSION(&scratch_text_controls.character_unit_cell_h);
context->current_text_controls = &scratch_text_controls;
TRACE(("scaled up text to %dx%d\n",
scratch_text_controls.character_display_w,
scratch_text_controls.character_display_h));
}
#endif
total_rotation = 2.0 * M_PI *
context->current_text_controls->string_rotation / 360.0;
while (total_rotation > 1.5 * M_PI) {
total_rotation -= 2.0 * M_PI;
}
if (total_rotation > 0.5 * M_PI) {
total_rotation -= M_PI;
str_invert = -1;
} else {
str_invert = 1;
}
str_shear_x = (int) (ROT_SHEAR_SCALE * -tan(0.5 * -total_rotation));
str_shear_y = (int) (ROT_SHEAR_SCALE * sin(-total_rotation));
total_rotation = 2.0 * M_PI *
context->current_text_controls->character_rotation / 360.0;
while (total_rotation > 1.5 * M_PI) {
total_rotation -= 2.0 * M_PI;
}
if (total_rotation > 0.5 * M_PI) {
total_rotation -= M_PI;
chr_x_sign_x = -1;
chr_x_sign_y = 0;
chr_y_sign_x = 0;
chr_y_sign_y = -1;
} else {
chr_x_sign_x = 1;
chr_x_sign_y = 0;
chr_y_sign_x = 0;
chr_y_sign_y = 1;
}
chr_shear_x = (int) (ROT_SHEAR_SCALE * -tan(0.5 * -total_rotation));
chr_shear_y = (int) (ROT_SHEAR_SCALE * sin(-total_rotation));
{
const int slant = context->current_text_controls->slant;
TRACE(("float version: %.5f\n", tan(2.0 * M_PI * abs(slant) / 360.0)));
/* The slant is negative for forward-leaning characters. */
if (slant > 0) {
slant_dx = (int) +(tan(2.0 * M_PI * abs(slant) / 360.0) * ROT_SHEAR_SCALE);
} else if (slant < 0) {
slant_dx = (int) -(tan(2.0 * M_PI * abs(slant) / 360.0) * ROT_SHEAR_SCALE);
} else {
slant_dx = 0;
}
TRACE(("string rotation: %d\n",
context->current_text_controls->string_rotation));
TRACE(("character rotation: %d\n",
context->current_text_controls->character_rotation));
TRACE(("character slant: %d (%.5f pixels per line)\n",
slant, slant_dx / (double) ROT_SHEAR_SCALE));
}
TRACE(("str_shear: %.5f, %.5f (sign=%d)\n",
str_shear_x / (double) ROT_SHEAR_SCALE,
str_shear_y / (double) ROT_SHEAR_SCALE,
str_invert));
TRACE(("chr_shear: %.5f, %.5f (xsign=%d,%d, ysign=%d,%d)\n",
chr_shear_x / (double) ROT_SHEAR_SCALE,
chr_shear_y / (double) ROT_SHEAR_SCALE,
chr_x_sign_x, chr_x_sign_y,
chr_y_sign_x, chr_y_sign_y));
TRACE(("character_inc: %d,%d\n",
context->current_text_controls->character_inc_x, context->current_text_controls->character_inc_y));
rx = 0;
ry = 0;
for (ii = 0U; ii < strlen(str); ii++) {
switch (str[ii]) {
case '\r':
rx = 0;
break;
case '\n':
ry += (int) context->current_text_controls->character_display_h;
break;
case '\b':
rx -= context->current_text_controls->character_inc_x;
ry -= context->current_text_controls->character_inc_y;
break;
case '\t':
rx += context->current_text_controls->character_inc_x;
ry += context->current_text_controls->character_inc_y;
break;
default:
ox = str_invert * rx + (str_shear_x * ry) / ROT_SHEAR_SCALE;
oy = str_invert * ry + (str_shear_y * ox) / ROT_SHEAR_SCALE;
ox += (str_shear_x * oy) / ROT_SHEAR_SCALE;
TRACE(("during text output updating position to %d,%d + %+d,%+d for '%c'\n",
begin_x, begin_y, ox, oy, str[ii]));
context->graphics_output_cursor_x = begin_x + ox;
context->graphics_output_cursor_y = begin_y + oy;
draw_character(context, str[ii], slant_dx,
chr_shear_x, chr_shear_y,
chr_x_sign_x, chr_x_sign_y,
chr_y_sign_x, chr_y_sign_y);
rx += context->current_text_controls->character_inc_x;
ry += context->current_text_controls->character_inc_y;
}
}
ox = str_invert * rx + (str_shear_x * ry) / ROT_SHEAR_SCALE;
oy = str_invert * ry + (str_shear_y * ox) / ROT_SHEAR_SCALE;
ox += (str_shear_x * oy) / ROT_SHEAR_SCALE;
TRACE(("after text output updating position to %d,%d + %+d,%+d\n",
begin_x, begin_y, ox, oy));
context->graphics_output_cursor_x = begin_x + ox;
context->graphics_output_cursor_y = begin_y + oy;
#ifndef ENABLE_DISTORTIONLESS_ROTATION
if (context->current_text_controls->character_rotation != 0 &&
context->current_text_controls->character_rotation != 90 &&
context->current_text_controls->character_rotation != 180 &&
context->current_text_controls->character_rotation != 270) {
context->current_text_controls = old_text_controls;
}
#endif
context->destination_graphic->dirty = 1;
return;
}
/*
* standard character cell sizes
* number disp cell unit cell offset
* S0 [ 9, 10] [ 8, disp_h] [disp_w, 0]
* S1 [ 9, 20] [ 8, disp_h] [disp_w, 0]
* S2 [ 18, 30] [ 16, disp_h] [disp_w, 0]
* S3 [ 27, 45] [ 24, disp_h] [disp_w, 0]
* S4 [ 36, 60] [ 32, disp_h] [disp_w, 0]
* S5 [ 45, 75] [ 40, disp_h] [disp_w, 0]
* S6 [ 54, 90] [ 48, disp_h] [disp_w, 0]
* S7 [ 63,105] [ 56, disp_h] [disp_w, 0]
* S8 [ 72,120] [ 64, disp_h] [disp_w, 0]
* S9 [ 81,135] [ 72, disp_h] [disp_w, 0]
* S10 [ 90,150] [ 80, disp_h] [disp_w, 0]
* S11 [ 99,165] [ 88, disp_h] [disp_w, 0]
* S12 [108,180] [ 96, disp_h] [disp_w, 0]
* S13 [117,195] [104, disp_h] [disp_w, 0]
* S14 [126,210] [112, disp_h] [disp_w, 0]
* S15 [135,225] [120, disp_h] [disp_w, 0]
* S16 [144,240] [128, disp_h] [disp_w, 0]
*/
static int
get_standard_character_size(int standard, unsigned *disp_w, unsigned
*disp_h, unsigned *unit_w, unsigned *unit_h,
int *off_x, int *off_y)
{
switch (standard) {
case 0:
*disp_w = 9U;
*disp_h = 10U;
*unit_w = 8U;
break;
case 1:
*disp_w = 9U;
*disp_h = 20U;
*unit_w = 8U;
break;
case 2:
*disp_w = 18U;
*disp_h = 30U;
*unit_w = 16U;
break;
case 3:
*disp_w = 27U;
*disp_h = 45U;
*unit_w = 24U;
break;
case 4:
*disp_w = 36U;
*disp_h = 60U;
*unit_w = 32U;
break;
case 5:
*disp_w = 45U;
*disp_h = 75U;
*unit_w = 40U;
break;
case 6:
*disp_w = 54U;
*disp_h = 90U;
*unit_w = 48U;
break;
case 7:
*disp_w = 63U;
*disp_h = 105U;
*unit_w = 56U;
break;
case 8:
*disp_w = 72U;
*disp_h = 120U;
*unit_w = 64U;
break;
case 9:
*disp_w = 81U;
*disp_h = 135U;
*unit_w = 72U;
break;
case 10:
*disp_w = 90U;
*disp_h = 150U;
*unit_w = 80U;
break;
case 11:
*disp_w = 99U;
*disp_h = 165U;
*unit_w = 88U;
break;
case 12:
*disp_w = 108U;
*disp_h = 180U;
*unit_w = 96U;
break;
case 13:
*disp_w = 117U;
*disp_h = 195U;
*unit_w = 104U;
break;
case 14:
*disp_w = 126U;
*disp_h = 210U;
*unit_w = 112U;
break;
case 15:
*disp_w = 135U;
*disp_h = 225U;
*unit_w = 120U;
break;
case 16:
*disp_w = 144U;
*disp_h = 240U;
*unit_w = 128U;
break;
default:
return 1;
}
*unit_h = *disp_h;
*off_x = (int) *disp_w;
*off_y = 0;
return 0;
}
static void
init_fragment(RegisDataFragment *fragment, char const *str)
{
assert(fragment);
assert(str);
fragment->start = str;
fragment->len = (unsigned) strlen(str);
fragment->pos = 0U;
}
static void
copy_fragment(RegisDataFragment *dst, RegisDataFragment const *src)
{
assert(dst);
assert(src);
dst->start = src->start;
dst->len = src->len;
dst->pos = src->pos;
}
static char
peek_fragment(RegisDataFragment const *fragment)
{
assert(fragment);
if (fragment->pos < fragment->len) {
return fragment->start[fragment->pos];
}
return '\0';
}
static char
pop_fragment(RegisDataFragment *fragment)
{
assert(fragment);
if (fragment->pos < fragment->len) {
return fragment->start[fragment->pos++];
}
return '\0';
}
static char
get_fragment(RegisDataFragment const *fragment, unsigned pos)
{
assert(fragment);
if (fragment->pos + pos < fragment->len) {
return fragment->start[fragment->pos + pos];
}
return '\0';
}
#define fragment_length(f) (f)->len
static unsigned
fragment_remaining(RegisDataFragment const *fragment)
{
assert(fragment);
if (fragment->pos > fragment->len)
return 0U;
return fragment->len - fragment->pos;
}
static int
fragment_consumed(RegisDataFragment const *fragment)
{
assert(fragment);
return fragment->pos >= fragment->len;
}
static void
fragment_to_string(RegisDataFragment const *fragment, char *out,
unsigned outlen)
{
unsigned remaininglen;
unsigned endpos;
assert(fragment);
assert(out);
if (!outlen)
return;
remaininglen = fragment->len - fragment->pos;
if (remaininglen < outlen - 1U) {
endpos = remaininglen;
} else {
endpos = outlen - 1U;
}
strncpy(out, &fragment->start[fragment->pos], (size_t) endpos);
out[endpos] = '\0';
}
#define MAX_FRAG 1024
static char const *
fragment_to_tempstr(RegisDataFragment const *fragment)
{
static char tempstr[MAX_FRAG];
assert(fragment);
fragment_to_string(fragment, tempstr, MAX_FRAG);
return tempstr;
}
static int
skip_regis_whitespace(RegisDataFragment *input)
{
int skipped = 0;
assert(input);
while (!fragment_consumed(input)) {
char ch = peek_fragment(input);
if (ch != ',' && !IsSpace(ch)) {
break;
}
if (ch == '\n') {
TRACE(("end of input line\n\n"));
}
skipped = 1;
pop_fragment(input);
}
if (skipped)
return 1;
return 0;
}
static int
extract_regis_extent(RegisDataFragment *input, RegisDataFragment *output)
{
char ch;
assert(input);
assert(output);
output->start = &input->start[input->pos];
output->len = 0U;
output->pos = 0U;
if (input->pos >= input->len)
return 0;
ch = input->start[input->pos];
if (ch != '[')
return 0;
input->pos++;
output->start++;
/* FIXME: truncate to 16 bit signed integers */
for (; input->pos < input->len; input->pos++, output->len++) {
ch = input->start[input->pos];
if (ch == ';') {
TRACE(("DATA_ERROR: end of input before closing bracket\n"));
break;
}
if (ch == ']')
break;
}
if (ch == ']')
input->pos++;
return 1;
}
static int
extract_regis_num(RegisDataFragment *input, RegisDataFragment *output)
{
char ch = 0;
int has_digits = 0;
assert(input);
assert(output);
output->start = &input->start[input->pos];
output->len = 0U;
output->pos = 0U;
if (input->start[input->pos] == '-' ||
input->start[input->pos] == '+') {
input->pos++;
output->len++;
}
for (; input->pos < input->len; input->pos++, output->len++) {
ch = input->start[input->pos];
if (ch != '0' && ch != '1' && ch != '2' && ch != '3' &&
ch != '4' && ch != '5' && ch != '6' && ch != '7' &&
ch != '8' && ch != '9') {
break;
}
has_digits = 1;
}
/* FIXME: what degenerate forms should be accepted ("E10" "1E" "1e" "1." "1ee10")? */
/* FIXME: the terminal is said to support "floating point values", truncating to int... what do these look like? */
if (has_digits && ch == 'E') {
input->pos++;
output->len++;
for (; input->pos < input->len; input->pos++, output->len++) {
ch = input->start[input->pos];
if (ch != '0' && ch != '1' && ch != '2' && ch != '3' &&
ch != '4' && ch != '5' && ch != '6' && ch != '7' &&
ch != '8' && ch != '9') {
break;
}
}
}
return has_digits;
}
static int
extract_regis_pixelvector(RegisDataFragment *input, RegisDataFragment *output)
{
char ch;
int has_digits;
assert(input);
assert(output);
output->start = &input->start[input->pos];
output->len = 0U;
output->pos = 0U;
if (input->pos < input->len) {
ch = input->start[input->pos];
if (ch == '+' || ch == '-') {
input->pos++;
output->len++;
}
}
has_digits = 0;
for (; input->pos < input->len; input->pos++, output->len++) {
ch = input->start[input->pos];
if (ch != '0' && ch != '1' && ch != '2' && ch != '3' &&
ch != '4' && ch != '5' && ch != '6' && ch != '7') {
break;
}
has_digits = 1;
}
return has_digits;
}
static int
extract_regis_command(RegisDataFragment *input, char *command)
{
char ch;
assert(input);
assert(command);
if (input->pos >= input->len)
return 0;
ch = input->start[input->pos];
if (ch == '\0' || ch == ';') {
return 0;
}
if (!islower(CharOf(ch)) && !isupper(CharOf(ch)) && ch != '@') {
return 0;
}
*command = ch;
input->pos++;
return 1;
}
static int
extract_regis_string(RegisDataFragment *input, char *out, unsigned maxlen)
{
char open_quote_ch;
char ch;
unsigned outlen;
assert(input);
assert(out);
assert(maxlen > 0U);
if (input->pos >= input->len)
return 0;
ch = peek_fragment(input);
if (ch != '\'' && ch != '"')
return 0;
open_quote_ch = ch;
outlen = 0U;
pop_fragment(input);
ch = '\0';
while (!fragment_consumed(input)) {
char prev_ch = ch;
ch = peek_fragment(input);
/* ';' (resync) and '@' (macrograph) are not recognized in strings */
if (prev_ch == open_quote_ch) {
if (ch == open_quote_ch) {
if (outlen < maxlen) {
out[outlen] = ch;
}
outlen++;
pop_fragment(input);
ch = '\0';
continue;
}
if (outlen < maxlen)
out[outlen] = '\0';
else
out[maxlen] = '\0';
return 1;
}
if (ch == '\0')
break;
if (ch != open_quote_ch) {
if (outlen < maxlen)
out[outlen] = ch;
outlen++;
}
pop_fragment(input);
}
if (ch == open_quote_ch) {
pop_fragment(input);
if (outlen < maxlen)
out[outlen] = '\0';
else
out[maxlen] = '\0';
return 1;
}
/* FIXME: handle multiple strings concatenated with commas */
TRACE(("DATA_ERROR: end of input before closing quote\n"));
return 0;
}
static int
extract_regis_parenthesized_data(RegisDataFragment *input,
RegisDataFragment *output)
{
char ch;
char open_quote_ch;
int nesting;
assert(input);
assert(output);
output->start = &input->start[input->pos];
output->len = 0U;
output->pos = 0U;
if (input->pos >= input->len)
return 0;
ch = input->start[input->pos];
if (ch != '(')
return 0;
input->pos++;
output->start++;
nesting = 1;
open_quote_ch = '\0';
ch = '\0';
for (; input->pos < input->len; input->pos++, output->len++) {
char prev_ch = ch;
ch = input->start[input->pos];
if (ch == '\'' || ch == '"') {
if (open_quote_ch == '\0') {
open_quote_ch = ch;
} else {
if (ch == prev_ch && prev_ch == open_quote_ch) {
ch = '\0';
} else if (ch == open_quote_ch) {
open_quote_ch = '\0';
}
}
continue;
}
if (open_quote_ch != '\0')
continue;
if (ch == ';') {
TRACE(("leaving parenthesized data nested %d levels deep due to command termination character\n",
nesting));
break;
}
if (ch == '(')
nesting++;
if (ch == ')') {
nesting--;
if (nesting == 0) {
input->pos++;
return 1;
}
}
}
TRACE(("DATA_ERROR: end of input before closing paren (%d levels deep)\n",
nesting));
return 0;
}
static int
extract_regis_option(RegisDataFragment *input,
char *option,
RegisDataFragment *output)
{
char ch;
int paren_level, bracket_level;
char open_quote_ch;
assert(input);
assert(option);
assert(output);
/* LETTER suboptions* value? */
/*
* FIXME: what are the rules for using separate parens vs. sharing between
* options?
*/
output->start = &input->start[input->pos];
output->len = 0U;
output->pos = 0U;
if (input->pos >= input->len) {
return 0;
}
ch = input->start[input->pos];
/* FIXME: are options always letters or are some special characters ok? */
if (ch == ';' || ch == ',' ||
ch == '(' || ch == ')' ||
ch == '[' || ch == ']' ||
ch == '"' || ch == '\'' ||
isdigit(CharOf(ch))) {
return 0;
}
*option = ch;
input->pos++;
output->start++;
paren_level = 0;
bracket_level = 0;
open_quote_ch = '\0';
for (; input->pos < input->len; input->pos++, output->len++) {
ch = input->start[input->pos];
TRACE(("looking at char '%c' in option '%c'\n", ch, *option));
/* FIXME: any special rules for commas? */
/* FIXME: handle escaped quotes */
if (ch == '\'' || ch == '"') {
if (open_quote_ch == ch) {
open_quote_ch = '\0';
} else {
open_quote_ch = ch;
}
continue;
}
if (open_quote_ch != '\0')
continue;
if (ch == '(') {
paren_level++;
}
if (ch == ')') {
paren_level--;
if (paren_level < 0) {
TRACE(("DATA_ERROR: found ReGIS option has value with too many close parens \"%c\"\n",
*option));
return 0;
}
}
if (ch == '[') {
bracket_level++;
}
if (ch == ']') {
bracket_level--;
if (bracket_level < 0) {
TRACE(("DATA_ERROR: found ReGIS option has value with too many close brackets \"%c\"\n",
*option));
return 0;
}
}
if (paren_level == 0 && bracket_level == 0) {
/*
* Top-level commas indicate the end of this option and the start of
* another.
*/
if (ch == ',')
break;
/*
* Top-level command/option/suboption names also indicate the end of
* this option. "E" is valid as the exponent indicator in a numeric
* parameter.
*/
if (ch != 'E' && ch != 'e' &&
((ch >= 'A' && ch <= 'Z') || (ch >= 'a' && ch <= 'z')))
break;
}
if (ch == ';')
break;
}
if (paren_level != 0) {
TRACE(("DATA_ERROR: mismatched parens in argument to ReGIS option \"%c\"\n",
*option));
return 0;
}
if (bracket_level != 0) {
TRACE(("DATA_ERROR: mismatched brackets in argument to ReGIS option \"%c\"\n",
*option));
return 0;
}
TRACE(("found ReGIS option and value \"%c\" \"%s\"\n",
*option,
fragment_to_tempstr(output)));
return 1;
}
static int
regis_num_to_int(RegisDataFragment const *input, int *out)
{
char ch;
assert(input);
assert(out);
/* FIXME: handle exponential notation and rounding */
/* FIXME: check for junk after the number */
ch = peek_fragment(input);
if (!isdigit(CharOf(ch)) &&
ch != '+' &&
ch != '-') {
*out = 0;
return 0;
}
TRACE(("converting \"%s\" to an int\n", fragment_to_tempstr(input)));
*out = atoi(fragment_to_tempstr(input));
return 1;
}
static int
load_regis_colorspec(RegisGraphicsContext const *context,
RegisDataFragment const *input,
short *r_out, short *g_out, short *b_out)
{
RegisDataFragment colorspec;
short r = -1, g = -1, b = -1;
short l = -1;
int simple;
assert(context);
assert(input);
assert(r_out);
assert(g_out);
assert(b_out);
copy_fragment(&colorspec, input);
TRACE(("colorspec option: \"%s\"\n", fragment_to_tempstr(&colorspec)));
skip_regis_whitespace(&colorspec);
simple = 0;
if (fragment_remaining(&colorspec) == 1U) {
simple = 1;
} else if (fragment_remaining(&colorspec) > 1U) {
char after = get_fragment(&colorspec, 1U);
if (IsSpace(after))
simple = 1;
}
if (simple) {
char ch = pop_fragment(&colorspec);
TRACE(("got ReGIS RGB colorspec pattern '%c' with arguments: \"%s\"\n",
ch, fragment_to_tempstr(&colorspec)));
switch (ch) {
case 'D':
case 'd':
r = 0;
g = 0;
b = 0;
l = 0;
break;
case 'R':
case 'r':
r = 100;
g = 0;
b = 0;
l = 46;
break;
case 'G':
case 'g':
r = 0;
g = 100;
b = 0;
l = 50;
break;
case 'B':
case 'b':
r = 0;
g = 0;
b = 100;
l = 50;
break;
case 'C':
case 'c':
r = 0;
g = 100;
b = 100;
l = 50;
break;
case 'Y':
case 'y':
r = 100;
g = 100;
b = 0;
l = 50;
break;
case 'M':
case 'm':
r = 100;
g = 0;
b = 100;
l = 50;
break;
case 'W':
case 'w':
r = 100;
g = 100;
b = 100;
l = 100;
break;
default:
TRACE(("DATA_ERROR: unknown RGB color name: \"%c\"\n", ch));
return 0;
}
} else {
RegisDataFragment num;
int max, val;
char comp;
short h = -1;
short s = -1;
while (!fragment_consumed(&colorspec)) {
if (skip_regis_whitespace(&colorspec))
continue;
comp = pop_fragment(&colorspec);
switch (comp) {
case ',':
/* not sure if this is valid, but it is easy to handle */
continue;
case 'H':
case 'h':
max = 360;
comp = 'H';
break;
case 'L':
case 'l':
max = 100;
comp = 'L';
break;
case 'S':
case 's':
max = 100;
comp = 'S';
break;
#ifdef ENABLE_RGB_COLORSPECS
case 'R': /* RLogin extension */
case 'r':
max = 100;
comp = 'R';
break;
case 'G': /* RLogin extension */
case 'g':
max = 100;
comp = 'G';
break;
case 'B': /* RLogin extension */
case 'b':
max = 100;
comp = 'B';
break;
#endif
default:
TRACE(("DATA_ERROR: unrecognized component in colorspec: '%c'\n",
comp));
return 0;
}
skip_regis_whitespace(&colorspec);
if (!extract_regis_num(&colorspec, &num)) {
TRACE(("DATA_ERROR: expected int after '%c' component in colorspec: \"%s\"\n",
comp, fragment_to_tempstr(&colorspec)));
return 0;
}
if (!regis_num_to_int(&num, &val)) {
TRACE(("DATA_ERROR: component value %s is not a number\n",
fragment_to_tempstr(&num)));
return 0;
}
/* FIXME: error, truncate, wrap, ...? */
if (val < 0 || val > max) {
TRACE(("DATA_ERROR: component value %d out of range\n", val));
return 0;
}
switch (comp) {
case 'H':
h = (short) val;
break;
case 'L':
l = (short) val;
break;
case 'S':
s = (short) val;
break;
case 'R':
r = (short) val;
break;
case 'G':
g = (short) val;
break;
case 'B':
b = (short) val;
break;
}
}
if (h >= 0 && l >= 0 && s >= 0 && r < 0 && g < 0 && b < 0) {
TRACE(("found HLS colorspec to be converted: %hd,%hd,%hd\n",
h, l, s));
hls2rgb(h, l, s, &r, &g, &b);
TRACE(("converted to RGB: %hd,%hd,%hd\n", r, g, b));
} else if (h < 0 && l < 0 && s < 0 && r >= 0 && g >= 0 && b >= 0) {
TRACE(("found RGB colorspec: %hd,%hd,%hd\n", r, g, b));
l = (short) ((MIN3(r, g, b) + MAX3(r, g, b)) / 2);
TRACE(("calculated L: %d\n", l));
} else if (h < 0 && l >= 0 && s < 0 && r < 0 && g < 0 && b < 0) {
TRACE(("found L colorspec to be converted: %hd,%hd,%hd\n",
h, l, s));
hls2rgb(0, l, 0, &r, &g, &b);
TRACE(("converted to RGB: %hd,%hd,%hd\n", r, g, b));
} else {
TRACE(("DATA_ERROR: unrecognized colorspec format\n"));
return 0;
}
}
/*
* The VT240 and VT330 models convert to the closest grayscale value.
*/
if (context->graphics_id == 240 || context->graphics_id == 330) {
hls2rgb(0, l, 0, &r, &g, &b);
TRACE(("converted to grayscale: %hd,%hd,%hd\n", r, g, b));
}
*r_out = r;
*g_out = g;
*b_out = b;
skip_regis_whitespace(&colorspec);
if (!fragment_consumed(&colorspec)) {
char skip;
skip = pop_fragment(&colorspec);
(void) skip; /* variable needed only if tracing */
TRACE(("DATA_ERROR: ignoring unexpected character in ReGIS colorspec \"%c\"\n",
skip));
}
return 1;
}
static int
load_regis_regnum_or_colorspec(RegisGraphicsContext const *context,
RegisDataFragment const *input,
RegisterNum *out)
{
int val;
RegisDataFragment colorspec;
RegisDataFragment num;
RegisDataFragment coloroption;
copy_fragment(&colorspec, input);
TRACE(("looking at colorspec pattern: \"%s\"\n",
fragment_to_tempstr(&colorspec)));
skip_regis_whitespace(&colorspec);
if (extract_regis_num(&colorspec, &num)) {
if (!regis_num_to_int(&num, &val)) {
TRACE(("DATA_ERROR: colorspec value %s is not a valid register\n",
fragment_to_tempstr(&num)));
return 0;
}
if (val < 0) {
/* FIXME: error, truncate, wrap, ...? */
TRACE(("DATA_ERROR: ignoring negative colorspec value: %d\n", val));
return 0;
}
if (val >= (int) context->destination_graphic->valid_registers) {
/* FIXME: error, truncate, wrap, ...? */
TRACE(("DATA_ERROR: colorspec value %d is too big; wrapping\n",
val));
val %= (int) context->destination_graphic->valid_registers;
}
TRACE(("colorspec contains index for register %u\n", val));
*out = (RegisterNum) val;
skip_regis_whitespace(&colorspec);
if (!fragment_consumed(&colorspec)) {
char skip;
skip = pop_fragment(&colorspec);
(void) skip; /* variable needed only if tracing */
TRACE(("DATA_ERROR: unexpected character after register \"%c\"\n",
skip));
return 0;
}
return 1;
}
if (extract_regis_parenthesized_data(&colorspec, &coloroption)) {
short r, g, b;
if (!load_regis_colorspec(context, &coloroption, &r, &g, &b)) {
TRACE(("unable to parse colorspec\n"));
return 0;
}
*out = find_color_register(context->destination_graphic->color_registers,
r, g, b);
TRACE(("colorspec maps to closest register %u\n", *out));
return 1;
}
TRACE(("expected register number or colorspec, but found: \"%s\"\n",
fragment_to_tempstr(&colorspec)));
return 0;
}
static int
to_scaled_int(char const *num, int scale, int *value)
{
unsigned long whole, frac;
char *end;
/* FIXME: handle whitespace? how about trailing junk? */
whole = strtoul(num, &end, 10);
if (end[0] == '.') {
char temp[5] = "0000";
if (end[1] != '\0') {
temp[0] = end[1];
if (end[2] != '\0') {
temp[1] = end[2];
if (end[3] != '\0') {
temp[2] = end[3];
if (end[4] != '\0') {
temp[3] = end[4];
}
}
}
}
frac = strtoul(temp, NULL, 10);
} else if (end[0] == '\0' || end[0] == ',' || IsSpace(end[0])) {
frac = 0;
} else {
TRACE(("unexpected character %c in number %s\n", end[0], num));
return 0;
}
*value = (int) (whole * (unsigned) scale +
(frac * (unsigned) scale) / 10000);
return 1;
}
static int
load_regis_raw_extent(char const *extent, int *relx, int *rely,
int *xloc, int *yloc, int scale)
{
int xsign, ysign;
char const *xpart;
char const *ypart;
xpart = extent;
if ((ypart = strchr(extent, ','))) {
ypart++;
} else {
ypart = "";
}
while (IsSpace(xpart[0]))
xpart++;
while (IsSpace(ypart[0]))
ypart++;
if (xpart[0] == '-') {
xsign = -1;
xpart++;
} else if (xpart[0] == '+') {
xsign = +1;
xpart++;
} else {
xsign = 0;
}
if (ypart[0] == '-') {
ysign = -1;
ypart++;
} else if (ypart[0] == '+') {
ysign = +1;
ypart++;
} else {
ysign = 0;
}
if (xpart[0] == '\0' || xpart[0] == ',') {
*relx = 1;
*xloc = 0;
} else if (xsign == 0) {
int val;
if (!to_scaled_int(xpart, scale, &val))
return 0;
*relx = 0;
*xloc = val;
} else {
int val;
if (!to_scaled_int(xpart, scale, &val))
return 0;
*relx = 1;
*xloc = xsign * val;
}
if (ypart[0] == '\0') {
*rely = 1;
*yloc = 0;
} else if (ysign == 0) {
int val;
if (!to_scaled_int(ypart, scale, &val))
return 0;
*rely = 0;
*yloc = val;
} else {
int val;
if (!to_scaled_int(ypart, scale, &val))
return 0;
*rely = 1;
*yloc = ysign * val;
}
return 1;
}
static int
load_regis_mult_extent(char const *extent, int *w, int *h)
{
int relx, rely;
int px, py;
if (!load_regis_raw_extent(extent, &relx, &rely, &px, &py, 1)) {
TRACE(("invalid coordinates in extent %s\n", extent));
return 0;
}
if (relx | rely) {
TRACE(("invalid relative value in multiplier extent %s\n", extent));
return 0;
}
*w = px;
*h = py;
return 1;
}
static int
load_regis_pixel_extent(char const *extent, int origx, int origy,
int *xloc, int *yloc)
{
int relx, rely;
int px, py;
if (!load_regis_raw_extent(extent, &relx, &rely, &px, &py, 1)) {
TRACE(("invalid coordinates in extent %s\n", extent));
return 0;
}
*xloc = px;
*yloc = py;
if (relx)
*xloc += origx;
if (rely)
*yloc += origy;
return 1;
}
#define COORD_SCALE 1000
static int
load_regis_coord_extent(RegisGraphicsContext const *context, char const *extent,
int origx, int origy, int *xloc, int *yloc)
{
int relx, rely;
int ux, uy;
if (!load_regis_raw_extent(extent, &relx, &rely, &ux, &uy, COORD_SCALE)) {
TRACE(("invalid coordinates in extent %s\n", extent));
return 0;
}
if (relx) {
const int px = SCALE_XCOORD(context, ux, COORD_SCALE);
TRACE(("converted relative user X coord %.03f to relative pixel X coord %d (width=%d xoff=%d xdiv=%d)\n",
ux / (double) COORD_SCALE, px, context->width,
context->x_off, context->x_div));
*xloc = origx + px;
} else {
const int px = TRANSLATE_XCOORD(context, ux, COORD_SCALE);
TRACE(("converted absolute user X coord %.03f to absolute pixel X coord %d\n",
ux / (double) COORD_SCALE, px));
*xloc = px;
}
if (rely) {
const int py = SCALE_YCOORD(context, uy, COORD_SCALE);
TRACE(("converted relative user Y coord %.03f to relative pixel Y coord %d (height=%d yoff=%d ydiv=%d)\n",
uy / (double) COORD_SCALE, py, context->height,
context->y_off, context->y_div));
*yloc = origy + py;
} else {
const int py = TRANSLATE_YCOORD(context, uy, COORD_SCALE);
TRACE(("converted absolute user Y coord %.03f to absolute pixel Y coord %d\n",
uy / (double) COORD_SCALE, py));
*yloc = py;
}
return 1;
}
static int
load_regis_raw_pixelvector_digit(char const *pixelvector,
unsigned *offset,
int *dx, int *dy, int mul)
{
switch (pixelvector[*offset]) {
case '0':
*dx += mul;
break;
case '1':
*dx += mul;
*dy -= mul;
break;
case '2':
*dy -= mul;
break;
case '3':
*dx -= mul;
*dy -= mul;
break;
case '4':
*dx -= mul;
break;
case '5':
*dx -= mul;
*dy += mul;
break;
case '6':
*dy += mul;
break;
case '7':
*dx += mul;
*dy += mul;
break;
default:
return 0;
}
(*offset)++;
return 1;
}
static int
load_regis_pixel_pixelvector(char const *pixelvector,
int mul,
int origx, int origy,
int *xloc, int *yloc)
{
int found = 0;
int px = 0, py = 0;
unsigned offset = 0U;
while (load_regis_raw_pixelvector_digit(pixelvector, &offset,
&px, &py,
mul))
found = 1;
if (pixelvector[offset] != '\0') {
TRACE(("DATA_ERROR: ignoring unknown pixel vector digits: \"%s\"\n",
&pixelvector[offset]));
}
*xloc = origx + px;
*yloc = origy + py;
return found;
}
static int
load_regis_coord_pixelvector(RegisGraphicsContext const *context,
char const *pixelvector,
int origx, int origy,
int *xloc, int *yloc)
{
const int mul = (int) (context->temporary_write_controls.pv_multiplier
* COORD_SCALE);
int found = 0;
int ux = 0, uy = 0;
unsigned offset = 0U;
while (load_regis_raw_pixelvector_digit(pixelvector, &offset,
&ux, &uy,
mul))
found = 1;
if (pixelvector[offset] != '\0') {
TRACE(("DATA_ERROR: ignoring unknown pixel vector digits: \"%s\"\n",
&pixelvector[offset]));
} {
const int px = SCALE_XCOORD(context, ux, COORD_SCALE);
const int py = SCALE_YCOORD(context, uy, COORD_SCALE);
TRACE(("converted relative X coord %.03f to relative pixel X coord %d (width=%d xoff=%d xdiv=%d)\n",
ux / (double) COORD_SCALE, px, context->width,
context->x_off, context->x_div));
*xloc = origx + px;
TRACE(("converted relative Y coord %.03f to relative pixel Y coord %d (height=%d yoff=%d ydiv=%d)\n",
uy / (double) COORD_SCALE, py, context->height,
context->y_off, context->y_div));
*yloc = origy + py;
}
return found;
}
static int
load_regis_coord_pixelvector_step(RegisGraphicsContext const *context,
char const *pixelvector,
unsigned *offset,
int origx, int origy,
int *xloc, int *yloc)
{
const int mul = (int) (context->temporary_write_controls.pv_multiplier
* COORD_SCALE);
int found = 0;
int ux = 0, uy = 0;
if (load_regis_raw_pixelvector_digit(pixelvector, offset, &ux, &uy, mul))
found = 1;
if (!found && pixelvector[*offset] != '\0') {
TRACE(("DATA_ERROR: ignoring unknown pixel vector digits: \"%s\"\n",
&pixelvector[*offset]));
} {
const int px = SCALE_XCOORD(context, ux, COORD_SCALE);
const int py = SCALE_YCOORD(context, uy, COORD_SCALE);
TRACE(("converted relative X coord %.03f to relative pixel X coord %d (width=%d xoff=%d xdiv=%d)\n",
ux / (double) COORD_SCALE, px, context->width,
context->x_off, context->x_div));
*xloc = origx + px;
TRACE(("converted relative Y coord %.03f to relative pixel Y coord %d (height=%d yoff=%d ydiv=%d)\n",
uy / (double) COORD_SCALE, py, context->height,
context->y_off, context->y_div));
*yloc = origy + py;
}
return found;
}
static int
load_regis_write_control(RegisParseState *state,
RegisGraphicsContext const *context,
int cur_x, int cur_y,
int option,
RegisDataFragment *arg,
RegisWriteControls *out)
{
TRACE(("checking write control option \"%c\" with arg \"%s\"\n",
option, fragment_to_tempstr(arg)));
switch (option) {
case 'A':
case 'a':
TRACE(("write control alternate display method \"%s\"\n",
fragment_to_tempstr(arg)));
{
int val;
if (!regis_num_to_int(arg, &val) || val < 0 || val >= 1) {
TRACE(("DATA_ERROR: interpreting out of range value as 0 FIXME\n"));
break;
}
if (val == 1) {
TRACE(("ERROR: blink display method not supported FIXME\n"));
}
}
break;
case 'C':
case 'c':
TRACE(("write control compliment writing mode \"%s\"\n",
fragment_to_tempstr(arg)));
out->write_style = WRITE_STYLE_COMPLEMENT;
break;
case 'E':
case 'e':
TRACE(("write control erase writing mode \"%s\"\n",
fragment_to_tempstr(arg)));
out->write_style = WRITE_STYLE_ERASE;
break;
case 'F':
case 'f':
TRACE(("write control plane write mask \"%s\"\n",
fragment_to_tempstr(arg)));
{
int val;
if (!regis_num_to_int(arg, &val) ||
val < 0 || val >= (int) context->destination_graphic->valid_registers) {
TRACE(("DATA_ERROR: interpreting out of range value as 0 FIXME\n"));
out->plane_mask = 0U;
} else {
out->plane_mask = (unsigned) val;
}
}
break;
case 'I':
case 'i':
TRACE(("write control foreground color \"%s\"\n",
fragment_to_tempstr(arg)));
if (!load_regis_regnum_or_colorspec(context, arg, &out->foreground)) {
TRACE(("DATA_ERROR: write control foreground color specifier not recognized: \"%s\"\n",
fragment_to_tempstr(arg)));
return 0;
}
break;
case 'L':
case 'l':
TRACE(("write control line width \"%s\" (FIXME: currently ignored)\n",
fragment_to_tempstr(arg)));
{
int val;
if (!regis_num_to_int(arg, &val) ||
val < 0 || val >= (int) 9) {
TRACE(("interpreting out of range value as 1 FIXME\n"));
out->line_width = 1U;
} else {
out->line_width = (unsigned) val;
}
}
break;
case 'M':
case 'm':
TRACE(("write control found pixel multiplication factor \"%s\"\n",
fragment_to_tempstr(arg)));
{
int val;
if (!regis_num_to_int(arg, &val) || val <= 0) {
TRACE(("interpreting out of range value %d as 1 FIXME\n", val));
out->pv_multiplier = 1U;
} else {
out->pv_multiplier = (unsigned) val;
}
}
break;
case 'N':
case 'n':
TRACE(("write control negative pattern control \"%s\"\n",
fragment_to_tempstr(arg)));
{
int val;
if (!regis_num_to_int(arg, &val)) {
val = -1;
}
switch (val) {
default:
TRACE(("interpreting out of range value %d as 0 FIXME\n", val));
out->invert_pattern = 0U;
break;
case 0:
out->invert_pattern = 0U;
break;
case 1:
out->invert_pattern = 1U;
break;
}
}
break;
case 'P':
case 'p':
TRACE(("write control found pattern control \"%s\"\n",
fragment_to_tempstr(arg)));
{
RegisDataFragment suboptionset;
RegisDataFragment suboptionarg;
RegisDataFragment item;
char suboption;
while (!fragment_consumed(arg)) {
if (skip_regis_whitespace(arg))
continue;
TRACE(("looking for option in \"%s\"\n",
fragment_to_tempstr(arg)));
if (extract_regis_parenthesized_data(arg, &suboptionset)) {
TRACE(("got write pattern suboptionset: \"%s\"\n",
fragment_to_tempstr(&suboptionset)));
while (!fragment_consumed(&suboptionset)) {
skip_regis_whitespace(&suboptionset);
if (extract_regis_option(&suboptionset, &suboption,
&suboptionarg)) {
skip_regis_whitespace(&suboptionarg);
TRACE(("inspecting write pattern suboption \"%c\" with value \"%s\"\n",
suboption,
fragment_to_tempstr(&suboptionarg)));
switch (suboption) {
case 'M':
case 'm':
TRACE(("found pattern multiplier \"%s\"\n",
fragment_to_tempstr(&suboptionarg)));
{
RegisDataFragment num;
int val;
if (extract_regis_num(&suboptionarg,
&num)) {
if (!regis_num_to_int(&num, &val)
|| val < 1) {
TRACE(("interpreting out of range pattern multiplier \"%s\" as 2 FIXME\n",
fragment_to_tempstr(&num)));
out->pattern_multiplier = 2U;
} else {
out->pattern_multiplier =
(unsigned) val;
}
skip_regis_whitespace(&suboptionarg);
}
if (!fragment_consumed(&suboptionarg)) {
TRACE(("DATA_ERROR: unknown content after pattern multiplier \"%s\"\n",
fragment_to_tempstr(&suboptionarg)));
return 0;
}
}
break;
default:
TRACE(("DATA_ERROR: unknown ReGIS write pattern suboption '%c' arg \"%s\"\n",
suboption,
fragment_to_tempstr(&suboptionarg)));
return 0;
}
continue;
}
TRACE(("DATA_ERROR: skipping unknown token in pattern control suboptionset (expecting option): \"%s\"\n",
fragment_to_tempstr(&suboptionset)));
pop_fragment(&suboptionset);
}
continue;
}
TRACE(("looking for int in \"%s\"\n",
fragment_to_tempstr(arg)));
if (extract_regis_num(arg, &item)) {
if (peek_fragment(&item) == '0' ||
peek_fragment(&item) == '1') {
unsigned pattern = 0U;
unsigned bitcount;
TRACE(("converting pattern bits \"%s\"\n",
fragment_to_tempstr(&item)));
for (bitcount = 0;; bitcount++) {
char ch = pop_fragment(&item);
if (ch == '\0')
break;
switch (ch) {
case '0':
if (bitcount < MAX_PATTERN_BITS) {
pattern <<= 1U;
}
break;
case '1':
if (bitcount < MAX_PATTERN_BITS) {
pattern <<= 1U;
pattern |= 1U;
}
break;
default:
TRACE(("DATA_ERROR: unknown ReGIS write pattern bit value \"%c\"\n",
ch));
return 0;
}
}
if (bitcount > 0U) {
unsigned extrabits;
for (extrabits = 0;
bitcount + extrabits < MAX_PATTERN_BITS;
extrabits++) {
if (pattern & (1U << (bitcount - 1U))) {
pattern <<= 1U;
pattern |= 1U;
} else {
pattern <<= 1U;
}
}
}
out->pattern = pattern;
} else {
int val;
TRACE(("converting pattern id \"%s\"\n",
fragment_to_tempstr(&item)));
if (!regis_num_to_int(&item, &val))
val = -1;
switch (val) { /* FIXME: exponential allowed? */
case 0:
out->pattern = 0x00; /* solid bg */
break;
case 1:
out->pattern = 0xff; /* solid fg */
break;
case 2:
out->pattern = 0xf0; /* dash */
break;
case 3:
out->pattern = 0xe4; /* dash dot */
break;
case 4:
out->pattern = 0xaa; /* dot */
break;
case 5:
out->pattern = 0xea; /* dash dot dot */
break;
case 6:
out->pattern = 0x88; /* sparse dot */
break;
case 7:
out->pattern = 0x84; /* asymmetric sparse dot */
break;
case 8:
out->pattern = 0xc8; /* sparse dash dot */
break;
case 9:
out->pattern = 0x86; /* sparse dot dash */
break;
default:
TRACE(("DATA_ERROR: unknown ReGIS standard write pattern \"%d\"\n",
val));
return 0;
}
}
TRACE(("final pattern is %02x\n", out->pattern));
continue;
}
skip_regis_whitespace(arg);
TRACE(("DATA_ERROR: skipping unknown token in pattern suboption: \"%s\"\n",
fragment_to_tempstr(arg)));
pop_fragment(arg);
}
}
break;
case 'R':
case 'r':
TRACE(("write control switch to replacement writing mode \"%s\"\n",
fragment_to_tempstr(arg)));
out->write_style = WRITE_STYLE_REPLACE;
break;
case 'S':
case 's':
TRACE(("write control shading control \"%s\"\n",
fragment_to_tempstr(arg)));
{
RegisDataFragment suboptionset;
RegisDataFragment suboptionarg;
RegisDataFragment item;
char suboption;
char shading_character = '\0';
unsigned reference_dim = WRITE_SHADING_REF_Y;
/* FIXME: are relative offsets additive? */
int ref_x = cur_x, ref_y = cur_y;
int shading_enabled = 0;
while (!fragment_consumed(arg)) {
if (skip_regis_whitespace(arg))
continue;
if (extract_regis_string(arg, state->temp, state->templen)) {
TRACE(("found fill char \"%s\"\n", state->temp));
/* FIXME: allow longer strings, ignore extra chars, or treat as error? */
if (strlen(state->temp) != 1) {
TRACE(("DATA_ERROR: expected exactly one char in fill string FIXME\n"));
return 0;
}
shading_character = state->temp[0];
shading_enabled = 1;
TRACE(("shading character is: '%c' (%d)\n",
shading_character, (int) shading_character));
continue;
}
if (extract_regis_parenthesized_data(arg, &suboptionset)) {
skip_regis_whitespace(&suboptionset);
TRACE(("got shading control suboptionset: \"%s\"\n",
fragment_to_tempstr(&suboptionset)));
while (!fragment_consumed(&suboptionset)) {
if (skip_regis_whitespace(&suboptionset))
continue;
if (extract_regis_option(&suboptionset, &suboption,
&suboptionarg)) {
TRACE(("inspecting write shading suboption \"%c\" with value \"%s\"\n",
suboption,
fragment_to_tempstr(&suboptionarg)));
switch (suboption) {
case 'X':
case 'x':
TRACE(("found horizontal shading suboption \"%s\"\n",
fragment_to_tempstr(&suboptionarg)));
if (!fragment_consumed(&suboptionarg)) {
TRACE(("DATA_ERROR: unexpected value to horizontal shading suboption FIXME\n"));
return 0;
}
reference_dim = WRITE_SHADING_REF_X;
shading_enabled = 1;
break;
default:
TRACE(("DATA_ERROR: unknown ReGIS write pattern suboption '%c' arg \"%s\"\n",
suboption,
fragment_to_tempstr(&suboptionarg)));
return 0;
}
continue;
}
TRACE(("DATA_ERROR: skipping unknown token in shading control suboptionset (expecting option): \"%s\"\n",
fragment_to_tempstr(&suboptionset)));
pop_fragment(&suboptionset);
}
continue;
}
if (extract_regis_extent(arg, &item)) {
TRACE(("found extent in shading option curr=%d,%d ref=%d,%d\n",
cur_x, cur_y, ref_x, ref_y));
if (!load_regis_coord_extent(context,
fragment_to_tempstr(&item),
ref_x, ref_y,
&ref_x, &ref_y)) {
TRACE(("DATA_ERROR: unable to parse extent in write shading option '%c': \"%s\"\n",
option, fragment_to_tempstr(&item)));
return 0;
}
TRACE(("shading reference = %d,%d (%s)\n", ref_x, ref_y,
((reference_dim == WRITE_SHADING_REF_X)
? "X"
: "Y")));
continue;
}
if (extract_regis_num(arg, &item)) {
if (!regis_num_to_int(&item, &shading_enabled)) {
TRACE(("DATA_ERROR: unable to parse int in write shading option '%c': \"%s\"\n",
option, fragment_to_tempstr(&item)));
return 0;
}
if (shading_enabled < 0 || shading_enabled > 1) {
TRACE(("interpreting out of range value %d as 0 FIXME\n",
shading_enabled));
shading_enabled = 0;
}
TRACE(("shading enabled = %d\n", shading_enabled));
continue;
}
if (skip_regis_whitespace(arg)) {
continue;
}
TRACE(("DATA_ERROR: skipping unknown token in shade suboption: \"%s\"\n",
fragment_to_tempstr(arg)));
pop_fragment(arg);
}
if (shading_enabled) {
out->shading_enabled = 1U;
out->shading_reference_dim = reference_dim;
out->shading_reference = ((reference_dim == WRITE_SHADING_REF_X)
? ref_x
: ref_y);
out->shading_character = shading_character;
TRACE(("final shading state: enabled, dim=%d ref=%d, char=%c\n",
out->shading_reference_dim, out->shading_reference,
out->shading_character));
} else {
/* FIXME: confirm there is no effect if shading isn't enabled
* in the same command
*/
out->shading_enabled = 0U;
TRACE(("final shading state: shading disabled\n"));
}
}
break;
case 'V':
case 'v':
TRACE(("write control switch to overlay writing mode \"%s\"\n",
fragment_to_tempstr(arg)));
out->write_style = WRITE_STYLE_OVERLAY;
break;
default:
TRACE(("DATA_ERROR: ignoring unknown ReGIS write option \"%c\" arg \"%s\"\n",
option, fragment_to_tempstr(arg)));
return 0;
}
return 1;
}
static int
load_regis_write_control_set(RegisParseState *state,
RegisGraphicsContext const *context,
int cur_x, int cur_y,
RegisDataFragment *controls,
RegisWriteControls *out)
{
RegisDataFragment optionset;
RegisDataFragment arg;
char option;
while (!fragment_consumed(controls)) {
if (skip_regis_whitespace(controls))
continue;
if (extract_regis_parenthesized_data(controls, &optionset)) {
TRACE(("got write control optionset: \"%s\"\n",
fragment_to_tempstr(&optionset)));
while (!fragment_consumed(&optionset)) {
skip_regis_whitespace(&optionset);
if (extract_regis_option(&optionset, &option, &arg)) {
skip_regis_whitespace(&arg);
TRACE(("got write control option and value: \"%c\" \"%s\"\n",
option, fragment_to_tempstr(&arg)));
if (!load_regis_write_control(state, context,
cur_x, cur_y,
option, &arg, out)) {
return 0;
}
continue;
}
TRACE(("DATA_ERROR: skipping unknown token in write control optionset (expecting option): \"%s\"\n",
fragment_to_tempstr(&optionset)));
pop_fragment(&optionset);
}
continue;
}
TRACE(("DATA_ERROR: skipping unknown token in write controls (expecting optionset): \"%s\"\n",
fragment_to_tempstr(controls)));
pop_fragment(controls);
}
return 1;
}
static void
init_regis_write_controls(int graphics_id, unsigned all_planes,
RegisWriteControls *controls)
{
controls->pv_multiplier = 1U;
controls->pattern = 0xff; /* solid */
controls->pattern_multiplier = 2U;
controls->invert_pattern = 0U;
controls->plane_mask = all_planes;
controls->write_style = WRITE_STYLE_OVERLAY;
switch (graphics_id) {
case 125: /* FIXME: verify */
case 240: /* FIXME: verify */
case 241: /* FIXME: verify */
case 330:
controls->foreground = 3U;
break;
case 340:
default:
controls->foreground = 7U;
break;
case 382:
controls->foreground = 1U; /* FIXME: verify */
break;
}
controls->shading_enabled = 0U;
controls->shading_character = '\0';
controls->shading_reference = 0; /* no meaning if shading is disabled */
controls->shading_reference_dim = WRITE_SHADING_REF_NONE;
controls->line_width = 1U;
/* FIXME: add the rest */
}
static void
map_regis_graphics_pages(XtermWidget xw, RegisGraphicsContext *context)
{
const int charrow = 0;
const int charcol = 0;
unsigned old_display_id = ~0U;
if (context->destination_graphic)
context->destination_graphic->hidden = 1;
if (context->display_graphic) {
context->display_graphic->hidden = 1;
old_display_id = context->display_graphic->id;
}
context->destination_graphic =
get_new_or_matching_graphic(xw,
charrow, charcol,
context->width,
context->height,
context->destination_page);
if (context->destination_graphic) {
context->destination_graphic->hidden = 1;
context->destination_graphic->valid = 1;
}
context->display_graphic =
get_new_or_matching_graphic(xw,
charrow, charcol,
context->width,
context->height,
context->display_page);
if (context->display_graphic) {
context->display_graphic->hidden = 0;
if (old_display_id != context->display_graphic->id) {
if (!context->display_graphic->valid) {
draw_solid_rectangle(context->display_graphic, 0, 0,
context->width, context->height,
context->background);
}
context->display_graphic->dirty = 1;
context->force_refresh = 1;
/* FIXME: This isn't really enough. If there are holes in the new
* graphic they should be cleared and set to the text from the same
* page. But we don't have pages for text in xterm (the alt buffer
* is similar though).
*/
}
context->display_graphic->valid = 1;
}
TRACE(("using graphics destination=[%d -> %u] display=[%d -> %u]\n",
context->destination_page,
(context->destination_graphic
? context->destination_graphic->id
: 0U),
context->display_page,
(context->display_graphic
? context->display_graphic->id
: 0U)));
}
static void
copy_regis_write_controls(RegisWriteControls const *src,
RegisWriteControls *dst)
{
dst->pv_multiplier = src->pv_multiplier;
dst->pattern = src->pattern;
dst->pattern_multiplier = src->pattern_multiplier;
dst->invert_pattern = src->invert_pattern;
dst->foreground = src->foreground;
dst->plane_mask = src->plane_mask;
dst->write_style = src->write_style;
dst->shading_enabled = src->shading_enabled;
dst->shading_character = src->shading_character;
dst->shading_reference = src->shading_reference;
dst->shading_reference_dim = src->shading_reference_dim;
dst->line_width = src->line_width;
}
static void
init_regis_text_controls(RegisTextControls *controls)
{
controls->alphabet_num = 0U; /* built-in */
controls->character_set_l = 0U; /* ASCII */
controls->character_set_r = 0U; /* Latin-1 */
get_standard_character_size(1, &controls->character_display_w,
&controls->character_display_h,
&controls->character_unit_cell_w,
&controls->character_unit_cell_h,
&controls->character_inc_x,
&controls->character_inc_y);
controls->string_rotation = 0;
controls->character_rotation = 0;
controls->slant = 0;
}
static void
copy_regis_text_controls(RegisTextControls const *src, RegisTextControls *dst)
{
dst->alphabet_num = src->alphabet_num;
dst->character_set_l = src->character_set_l;
dst->character_set_r = src->character_set_r;
dst->character_display_w = src->character_display_w;
dst->character_display_h = src->character_display_h;
dst->character_unit_cell_w = src->character_unit_cell_w;
dst->character_unit_cell_h = src->character_unit_cell_h;
dst->character_inc_x = src->character_inc_x;
dst->character_inc_y = src->character_inc_y;
dst->string_rotation = src->string_rotation;
dst->character_rotation = src->character_rotation;
dst->slant = src->slant;
}
static void
init_regis_alphabets(RegisGraphicsContext *context)
{
unsigned alphabet_index;
for (alphabet_index = 0U; alphabet_index < MAX_REGIS_ALPHABETS;
alphabet_index++) {
context->alphabets[alphabet_index].alphabet_num = INVALID_ALPHABET_NUM;
context->alphabets[alphabet_index].pixw = 0U;
context->alphabets[alphabet_index].pixh = 0U;
context->alphabets[alphabet_index].name[0] = '\0';
context->alphabets[alphabet_index].fontname[0] = '\0';
context->alphabets[alphabet_index].use_font = 0;
context->alphabets[alphabet_index].bytes = NULL;
}
}
static void
init_regis_graphics_context(int graphics_id, int width, int height,
unsigned max_colors, const char *builtin_font,
RegisGraphicsContext *context)
{
context->destination_graphic = NULL;
context->display_graphic = NULL;
context->display_page = 0U;
context->destination_page = 0U;
context->graphics_id = graphics_id;
/* reset addressing / clear user coordinates */
context->width = width;
context->height = height;
context->x_off = 0;
context->y_off = 0;
context->x_div = width - 1;
context->y_div = height - 1;
/*
* Generate a mask covering all valid color register address bits
* (but don't bother past 2**16).
*/
context->all_planes = max_colors;
context->all_planes--;
context->all_planes |= 1U;
context->all_planes |= context->all_planes >> 1U;
context->all_planes |= context->all_planes >> 2U;
context->all_planes |= context->all_planes >> 4U;
context->all_planes |= context->all_planes >> 8U;
context->builtin_font = builtin_font;
init_regis_write_controls(graphics_id, context->all_planes,
&context->persistent_write_controls);
copy_regis_write_controls(&context->persistent_write_controls,
&context->temporary_write_controls);
init_regis_text_controls(&context->persistent_text_controls);
context->current_text_controls = &context->persistent_text_controls;
init_regis_alphabets(context);
context->multi_input_mode = 0;
/* FIXME: coordinates */
/* FIXME: scrolling */
context->background = 0U;
/* FIXME: input cursor location */
/* FIXME: input cursor style */
context->graphics_output_cursor_x = 0;
context->graphics_output_cursor_y = 0;
/* FIXME: output cursor style */
context->force_refresh = 0;
}
static int
parse_regis_command(RegisParseState *state)
{
char ch;
if (!extract_regis_command(&state->input, &ch))
return 0;
switch (ch) {
case 'C':
case 'c':
/* Curve
* C
* (A) # set the arc length in degrees (+ or nothing for
* # counter-clockwise, - for clockwise, rounded to the
* # closest integer degree)
* (B) # begin closed curve sequence (must have at least two
* # values; this option can not be nested)
* (C) # position is the center, current location is the
* # circumference (stays in effect until next command)
* (E) # end curve sequence (drawing is performed here)
* (S) # begin open curve sequence
* (W) # temporary write options (see write command)
* [<center, circumference position>] # center if (C), otherwise point on circumference
* [<point in curve sequence>]... # if between (B) and (E)
* <pv>... # if between (B) and (E)
*/
TRACE(("found ReGIS command \"%c\" (curve)\n", ch));
state->command = 'c';
state->curve_mode = CURVE_POSITION_ARC_EDGE;
state->arclen = 360;
state->num_points = 0U;
break;
case 'F':
case 'f':
/* Fill
* F
* (V) # polygon (see vector command)
* (C) # curve (see curve command)
* (W) # temporary write options (see write command)
*/
TRACE(("found ReGIS command \"%c\" (filled polygon)\n", ch));
state->command = 'f';
break;
case 'L':
case 'l':
/* Load
* L
* (A) # set alphabet number or name
* (F)"fontname" # load from font (xterm extension)
* (S)[w,h] # set glyph size (xterm extension)
* "ascii"xx,xx,xx,xx,xx,xx,xx,xx # pixel values
*/
TRACE(("found ReGIS command \"%c\" (load charset)\n", ch));
state->command = 'l';
break;
case 'P':
case 'p':
/* Position
* P
* (B) # begin bounded position stack (last point returns to first)
* (E) # end position stack
* (P) # select graphics page for the input and output cursors
* (S) # begin unbounded position stack
* (W) # temporary write options (see write command)
* <pv> # move: 0 == right, 1 == upper right, ..., 7 == lower right
* [<position>] # move to position (X, Y, or both)
*
* Note the stack does not need to be ended before the next command
* Note: maximum depth is 16 levels
*/
TRACE(("found ReGIS command \"%c\" (position)\n", ch));
state->command = 'p';
break;
case 'R':
case 'r':
/* Report
* R
* (E) # parse error
* (I<val>) # set input mode (0 == one-shot, 1 == multiple) (always returns CR)
* (L) # current alphabet number and name
* (M(<name>) # macrograph contents
* (M(=) # macrograph storage (free bytes of total bytes)
* (P) # absolute output cursor position
* (P(I)) # interactive locator mode (in one-shot or multiple mode)
* (P(I[xmul,ymul])) # interactive locator mode with arrow key movement multipliers
*/
TRACE(("found ReGIS command \"%c\" (report status)\n", ch));
state->command = 'r';
break;
case 'S':
case 's':
/* Screen
* S
* (A[<upper left>][<lower right>]) # adjust screen coordinates
* (C<setting> # 0 (cursor output off), 1 (cursor output on)
* (E) # erase to background color, resets shades, curves, and stacks
* (F) # print the graphic and erase the screen (DECprint extension)
* (H(P<printer offset>)[<print area cornet>][<print area corner>)
* (I<color register>) # set the background to a specific register
* (I(<rgbcode>)) # set the background to the register closest to an "RGB" color
* (I(R<r>G<g>B<b>)) # set the background to the register closest to an RGB triplet (RLogin extension)
* (I(H<h>L<l>S<s>)) # set the background to the register closest to an HLS triplet
* (I(L<l>)) # set the background to the register closest to a grayscale value
* (M<color index to set>(<rgbcode>)...) # codes are D (black), R (red), G (green), B (blue), C (cyan), Y (yellow), M (magenta), W (white) (sets color and grayscale registers)
* (M<color index to set>(A<rgbcode>)...) # codes are D (black), R (red), G (green), B (blue), C (cyan), Y (yellow), M (magenta), W (white) (sets color registers only)
* (M<color index to set>(R<red>G<green>B<blue>)...) # 0..100, 0..100, 0..100 (sets color and grayscale registers) (RLogin extension)
* (M<color index to set>(AR<red>G<green>B<blue>)...) # 0..100, 0..100, 0..100 (sets color registers only) (RLogin extension)
* (M<color index to set>(H<hue>L<lightness>S<saturation>)...) # 0..360, 0..100, 0..100 (sets color and grayscale registers)
* (M<color index to set>(AH<hue>L<lightness>S<saturation>)...) # 0..360, 0..100, 0..100 (sets color registers only)
* (M<color index to set>(L<mono level>)...) # level is 0 ... 100 (sets grayscale registers only)
* (P<graphics page number>) # 0 (default) or 1
* (S(<scale>) # scale screen output by scale (default 1, VT125:max=2, VT3x0:unsupported) FIXME
* (S(X<scale>) # scale screen output horizontally by scale (default 1, VT125:max=2, VT3x0:unsupported) FIXME
* (S(Y<scale>) # scale screen output vertically by scale (default 1, VT125:max=2, VT3x0:unsupported) FIXME
* (T(<time delay ticks>) # delay (60 ticks is one second, up to 32767 ticks)
* (N<setting>) # 0 == normal video, 1 == negative/reverse video (not supported on VT3x0)
* (W(M<factor>) # PV multiplier
* <PV scroll offset> # scroll data so given coordinate is at the upper-left
* [scroll offset] # scroll data so given coordinate is at the upper-left
*/
TRACE(("found ReGIS command \"%c\" (screen)\n", ch));
state->command = 's';
break;
case 'T':
case 't':
/* Text
* T
* (A) # specify which alphabet/font to select glyphs from (0==builtin)
* (A0L"<designator>")) # specify a built-in set for GL via two-char designator
* (A0R"<designator>")) # specify a built-in set for GR via two-char or three-char designator
* (A<num>R"<designator>")) # specify a user-loaded (1-3) set for GR via two-char or three-char designator
* (B) # begin temporary text control
* (D<char angle>) # specify a character tilt
* (D<str angle>S<size id>) # specify a string tilt
* (D<str angle>S<size id>D<char angle>) # specify a string and character tilt
* (E) # end temporary text control
* (H<factor>) # select a height multiplier (GIGI:1-16, VT340:1-256)
* (I<angle>) # italic/oblique: no slant (0), lean forward (-1 though -45), lean back (+1 through +45)
* (M[width factor,height factor]) # select size multipliers (width 1-16) (height 1-256)
* (S<size id>) # select one of the 17 standard character sizes
* (S[dimensions]) # set a custom display cell size (char with border)
* (U[dimensions]) # set a custom unit cell size (char size)
* (W<write command>) # temporary write options (see write command)
* [<char offset>] # optional manual offset between characters
* <PV spacing> # move half-increments for subscripts and superscripts
* '<text>' # optional
* "<text>" # optional
*/
TRACE(("found ReGIS command \"%c\" (text)\n", ch));
state->command = 't';
state->text_tilt_state = TEXT_TILT_STATE_READY;
break;
case 'V':
case 'v':
/* Vector
* V
* (B) # begin bounded position stack (last point returns to first)
* (E) # end position stack
* (S) # begin unbounded position stack
* (W) # temporary write options (see write command)
* <pv> # draw a line to the pixel vector
* [] # draw a dot at the current location
* [<position>] # draw a line to position
*/
TRACE(("found ReGIS command \"%c\" (vector)\n", ch));
state->command = 'v';
break;
case 'W':
case 'w':
/* Write
* W
* (A<setting>) # 0 == disable alternate, 1 == enable alternate/blink FIXME
* (C) # complement writing mode
* (E) # erase writing mode
* (F<plane>) # set the plane mask to control which pixel bits are updated
* (I<color register>) # set the foreground to a specific register
* (I(<rgbcode>)) # set the foreground to the register closest to an "RGB" color
* (I(R<r>G<g>B<b>)) # set the foreground to the register closest to an RGB triplet (RLogin extension)
* (I(H<h>L<l>S<s>)) # set the foreground to the register closest to an HLS triplet
* (I(L<l>)) # set the foreground to the register closest to a grayscale value
* (L<width>) # set the line width (RLogin extension) FIXME
* (M<pixel vector multiplier>) # set the multiplication factor
* (N<setting>) # 0 == negative patterns disabled, 1 == negative patterns enabled
* (P<pattern number>) # 0..9: 0 == none, 1 == solid, 2 == 50% dash, 3 == dash-dot
* (P<pattern bits>) # 2 to 8 bits represented as a 0/1 sequence
* (P<(M<pattern multiplier>)) # set the pattern multiplier
* (R) # replacement writing mode
* (S'<character>') # set shading character
* (S<setting>) # 0 == disable shading, 1 == enable shading
* (S[reference point]) # set a horizontal reference line including this point (X ignored)
* (S(X)[reference point]) # set a vertical reference line including this point
* (V) # overlay writing mode
*/
TRACE(("found ReGIS command \"%c\" (write parameters)\n", ch));
state->command = 'w';
break;
case '@':
/* Macrograph
* . # clear all macrographs
* :<letter> ...@; # define macrograph for letter
* <letter> # expand macrograph for letter
*/
TRACE(("found ReGIS macrograph command\n"));
state->command = '@';
break;
default:
TRACE(("DATA_ERROR: unknown ReGIS command %04x (%c), setting to '_'\n",
(int) ch, ch));
state->command = '_';
state->option = '_';
return 0;
}
state->option = '_';
return 1;
}
static int
parse_regis_option(RegisParseState *state, RegisGraphicsContext *context)
{
RegisDataFragment optionarg;
if (!extract_regis_option(&state->input, &state->option, &optionarg))
return 0;
skip_regis_whitespace(&optionarg);
TRACE(("found ReGIS option '%c', parsing argument \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
switch (state->command) {
case 'c':
TRACE(("inspecting curve option \"%c\" with value \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
switch (state->option) {
case 'A':
case 'a':
TRACE(("found arc length \"%s\"\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment arclen;
if (!extract_regis_num(&optionarg, &arclen)) {
TRACE(("DATA_ERROR: expected int in curve arclen option: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
TRACE(("arc length string %s\n",
fragment_to_tempstr(&arclen)));
if (!regis_num_to_int(&arclen, &state->arclen)) {
TRACE(("DATA_ERROR: unable to parse int in curve arclen option: \"%s\"\n",
fragment_to_tempstr(&arclen)));
break;
}
TRACE(("value of arc length is %d\n", state->arclen));
while (state->arclen < -360)
state->arclen += 360;
while (state->arclen > 360)
state->arclen -= 360;
TRACE(("using final arc length %d\n", state->arclen));
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring trailing junk in arc length option \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
}
break;
case 'B':
case 'b':
TRACE(("begin closed curve \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: invalid closed curve option \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
state->curve_mode = CURVE_POSITION_CLOSED_CURVE;
state->num_points = 0U;
state->x_points[state->num_points] =
context->graphics_output_cursor_x;
state->y_points[state->num_points] =
context->graphics_output_cursor_y;
state->num_points++;
break;
case 'C':
case 'c':
TRACE(("found center position mode \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: invalid center position option \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
state->curve_mode = CURVE_POSITION_ARC_CENTER;
break;
case 'E':
case 'e':
TRACE(("found end curve \"%s\"\n", fragment_to_tempstr(&optionarg)));
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring unexpected arguments to curve option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
}
switch (state->curve_mode) {
case CURVE_POSITION_CLOSED_CURVE:
{
unsigned i;
#ifdef DEBUG_SPLINE_POINTS
printf("points: \n");
for (i = 0; i < state->num_points; i++)
printf(" %d,%d\n",
state->x_points[i], state->y_points[i]);
#endif
#ifdef DEBUG_SPLINE_WITH_ROTATION
{
static unsigned shift = 0;
int temp_x[MAX_CURVE_POINTS], temp_y[MAX_CURVE_POINTS];
shift++;
shift = shift % state->num_points;
for (i = 0; i < state->num_points; i++) {
temp_x[i] = state->x_points[i];
temp_y[i] = state->y_points[i];
}
for (i = 0; i < state->num_points; i++) {
state->x_points[i] =
temp_x[(i + shift) % state->num_points];
state->y_points[i] =
temp_y[(i + shift) % state->num_points];
}
#ifdef DEBUG_SPLINE_POINTS
printf("after shift %d: \n", shift);
for (i = 0; i < state->num_points; i++)
printf(" %d,%d\n",
state->x_points[i], state->y_points[i]);
#endif
}
#endif
for (i = state->num_points; i > 0; i--) {
state->x_points[i] = state->x_points[i - 1];
state->y_points[i] = state->y_points[i - 1];
}
state->x_points[0] = state->x_points[state->num_points];
state->y_points[0] = state->y_points[state->num_points];
state->num_points++;
for (i = state->num_points; i != 0; i--) {
state->x_points[i] = state->x_points[i - 1];
state->y_points[i] = state->y_points[i - 1];
}
state->x_points[0] = state->x_points[state->num_points - 1];
state->y_points[0] = state->y_points[state->num_points - 1];
state->num_points++;
state->x_points[state->num_points] = state->x_points[2];
state->y_points[state->num_points] = state->y_points[2];
state->num_points++;
#ifdef DEBUG_SPLINE_WITH_OVERDRAW
state->x_points[state->num_points] = state->x_points[3];
state->y_points[state->num_points] = state->y_points[3];
state->num_points++;
state->x_points[state->num_points] = state->x_points[4];
state->y_points[state->num_points] = state->y_points[4];
state->num_points++;
#endif
#ifdef DEBUG_SPLINE_POINTS
printf("after points added: \n");
for (i = 0; i < state->num_points; i++)
printf(" %d,%d\n",
state->x_points[i], state->y_points[i]);
#endif
}
TRACE(("drawing closed spline\n"));
TRACE(("output location was: %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
global_context = context; /* FIXME: remove after updating spline code */
plotCubicSpline((int) state->num_points - 1,
state->x_points, state->y_points,
1);
TRACE(("output location now: %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
TRACE(("output location finally: %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
state->num_points = 0U;
break;
case CURVE_POSITION_OPEN_CURVE:
#ifdef DEBUG_SPLINE_POINTS
{
unsigned i;
printf("points: \n");
for (i = 0U; i < state->num_points; i++)
printf(" %d,%d\n",
state->x_points[i], state->y_points[i]);
}
#endif
TRACE(("drawing open spline\n"));
TRACE(("output location was: %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
global_context = context; /* FIXME: remove after updating spline code */
plotCubicSpline((int) state->num_points - 1,
state->x_points, state->y_points,
1);
TRACE(("output location now: %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
context->graphics_output_cursor_x =
state->x_points[state->num_points - 1];
context->graphics_output_cursor_y =
state->y_points[state->num_points - 1];
TRACE(("output location finally: %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
state->num_points = 0U;
break;
default:
TRACE(("DATA_ERROR: end curve option unexpected \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
break;
case 'S':
case 's':
TRACE(("begin open curve \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: invalid open curve option \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
state->curve_mode = CURVE_POSITION_OPEN_CURVE;
state->num_points = 0U;
state->x_points[state->num_points] =
context->graphics_output_cursor_x;
state->y_points[state->num_points] =
context->graphics_output_cursor_y;
state->num_points++;
TRACE(("first point on curve with location %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
break;
case 'W':
case 'w':
TRACE(("found temporary write options \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (!load_regis_write_control_set(state, context,
context->graphics_output_cursor_x,
context->graphics_output_cursor_y,
&optionarg,
&context->temporary_write_controls)) {
TRACE(("DATA_ERROR: invalid temporary write options \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
break;
default:
TRACE(("DATA_ERROR: ignoring unknown ReGIS curve command option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
break;
}
break;
case 'f':
TRACE(("ERROR: fill commands should not be handled here\n"));
break;
case 'l':
TRACE(("inspecting load option \"%c\" with value \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
switch (state->option) {
case 'A':
case 'a':
TRACE(("found alphabet specifier option \"%s\"\n",
fragment_to_tempstr(&optionarg)));
for (;;) {
RegisDataFragment alphabetarg;
if (extract_regis_num(&optionarg, &alphabetarg)) {
int alphabet;
TRACE(("alphabet number: %s\n",
fragment_to_tempstr(&alphabetarg)));
if (!regis_num_to_int(&alphabetarg, &alphabet)) {
TRACE(("DATA_ERROR: unable to parse int in load alphabet option: \"%s\"\n",
fragment_to_tempstr(&alphabetarg)));
break;
}
if (alphabet < 0 ||
(unsigned) alphabet >= MAX_REGIS_ALPHABETS) {
TRACE(("DATA_ERROR: invalid alphabet: \"%d\"\n",
alphabet));
break;
}
#ifndef ENABLE_UPLOAD_ALPHABET_ZERO
if (alphabet == 0) {
TRACE(("DATA_ERROR: alphabet 0 can not be modified\n"));
break;
}
#endif
TRACE(("setting load alphabet: %d\n", alphabet));
init_regis_load_state(state);
state->load_alphabet = (unsigned) alphabet;
} else if (extract_regis_string(&optionarg, state->temp,
state->templen)) {
TRACE(("alphabet name: %s\n", state->temp));
if (strlen(state->temp) == 0U ||
strlen(state->temp) >= REGIS_ALPHABET_NAME_LEN) {
TRACE(("DATA_ERROR: alphabet names must be between 1 and %u characters long: \"%s\" FIXME\n",
REGIS_ALPHABET_NAME_LEN - 1U, state->temp));
break;
}
strcpy(state->load_name, state->temp);
TRACE(("using name for alphabet %u: %s\n",
state->load_alphabet, state->load_name));
} else if (skip_regis_whitespace(&optionarg)) {
;
} else if (fragment_consumed(&optionarg)) {
break;
} else {
TRACE(("DATA_ERROR: expected int or string in load alphabet option: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
}
break;
#ifdef ENABLE_UPLOAD_ALPHABET_FROM_FONT
case 'F':
case 'f':
TRACE(("found font option \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (state->load_index == MAX_REGIS_ALPHABETS) {
state->load_index = find_free_alphabet_index(context,
state->load_alphabet,
state->load_w,
state->load_h);
TRACE(("current alphabet is %u and size is %ux%u; assigning alphabet index %u\n",
state->load_alphabet, state->load_w,
state->load_h, state->load_index));
}
for (;;) {
RegisDataFragment fontarg;
if (skip_regis_whitespace(&optionarg))
continue;
if (extract_regis_num(&optionarg, &fontarg)) {
int enabled;
TRACE(("fontname enabled: %s\n",
fragment_to_tempstr(&fontarg)));
if (!regis_num_to_int(&fontarg, &enabled)) {
TRACE(("DATA_ERROR: unable to parse int in load fontname option: \"%s\"\n",
fragment_to_tempstr(&fontarg)));
break;
}
if (enabled != 0U && enabled != 1U) {
TRACE(("DATA_ERROR: invalid fontname enable state: \"%d\"\n", enabled));
break;
}
TRACE(("fontname enabled: %d\n", enabled));
context->alphabets[state->load_index].use_font = enabled;
continue;
}
if (extract_regis_string(&optionarg, state->temp,
state->templen)) {
if (strlen(state->temp) == 0U ||
strlen(state->temp) >= REGIS_FONTNAME_LEN) {
TRACE(("DATA_ERROR: font names must be between 1 and %u characters long: \"%s\"\n",
REGIS_FONTNAME_LEN - 1U, state->temp));
break;
}
strcpy(context->alphabets[state->load_index].fontname,
state->temp);
context->alphabets[state->load_index].use_font = 1;
TRACE(("using backing font: %s\n",
context->alphabets[state->load_index].fontname));
}
if (fragment_consumed(&optionarg)) {
break;
} else {
TRACE(("DATA_ERROR: unexpected text in load fontname option: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
}
break;
#endif
#ifdef ENABLE_USER_FONT_SIZE
case 'S':
case 's':
TRACE(("found glyph size option \"%s\"\n",
fragment_to_tempstr(&optionarg)));
while (!fragment_consumed(&optionarg)) {
RegisDataFragment sizearg;
if (skip_regis_whitespace(&optionarg))
continue;
if (extract_regis_extent(&optionarg, &sizearg)) {
int w, h;
unsigned size;
TRACE(("glyph size: %s\n", fragment_to_tempstr(&sizearg)));
/* FIXME: verify that relative values don't work */
if (!load_regis_mult_extent(fragment_to_tempstr(&sizearg),
&w, &h)) {
TRACE(("DATA_ERROR: unable to parse extent in glyph size option: \"%s\"\n",
fragment_to_tempstr(&sizearg)));
break;
}
if (w < 1 || h < 1) {
TRACE(("DATA_ERROR: glyph dimensions must not be negative or zero: %dx%d\n",
w, h));
break;
}
size = GLYPH_WIDTH_BYTES((unsigned) w) * (unsigned) h;
if (size > MAX_REGIS_ALPHABET_BYTES) {
TRACE(("DATA_ERROR: glyph is too large (%u bytes, limit is %u bytes)\n",
size, MAX_REGIS_ALPHABET_BYTES));
break;
}
if (state->load_index != MAX_REGIS_ALPHABETS) {
TRACE(("DATA_ERROR: glyph size can not be changed after any data is loaded\n"));
break;
}
TRACE(("using glyph size: %dx%d\n", w, h));
state->load_w = (unsigned) w;
state->load_h = (unsigned) h;
continue;
}
TRACE(("DATA_ERROR: expected extent in glyph size option: \"%s\"\n",
fragment_to_tempstr(&sizearg)));
break;
}
break;
#endif
default:
TRACE(("DATA_ERROR: ignoring unknown ReGIS load command option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
break;
}
break;
case 'p':
TRACE(("inspecting position option \"%c\" with value \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
switch (state->option) {
case 'B':
case 'b':
TRACE(("found begin bounded position stack \"%s\"\n",
fragment_to_tempstr(&optionarg)));
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring unexpected arguments to position option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
}
if (state->stack_next >= POSITION_STACK_SIZE) {
/* FIXME: ignore, error, update counter? */
TRACE(("unable to push position to full stack\n"));
break;
}
TRACE(("pushing location: %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
state->stack_x[state->stack_next] =
context->graphics_output_cursor_x;
state->stack_y[state->stack_next] =
context->graphics_output_cursor_y;
state->stack_next++;
break;
case 'E':
case 'e':
TRACE(("found end position stack \"%s\"\n",
fragment_to_tempstr(&optionarg)));
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring unexpected arguments to position option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
}
if (state->stack_next == 0U) {
TRACE(("DATA_ERROR: unable to pop position from empty stack\n"));
break;
}
state->stack_next--;
if (state->stack_x[state->stack_next] != DUMMY_STACK_X ||
state->stack_y[state->stack_next] != DUMMY_STACK_Y) {
context->graphics_output_cursor_x =
state->stack_x[state->stack_next];
context->graphics_output_cursor_y =
state->stack_y[state->stack_next];
TRACE(("popped location: %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
} else {
TRACE(("not popping location\n"));
}
break;
case 'P':
case 'p':
TRACE(("found graphics page destination option \"%s\"\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment pagearg;
int page;
if (!extract_regis_num(&optionarg, &pagearg)) {
TRACE(("DATA_ERROR: expected int in page destination option: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
TRACE(("page option arg: %s\n", fragment_to_tempstr(&pagearg)));
if (!regis_num_to_int(&pagearg, &page)) {
TRACE(("DATA_ERROR: unable to parse int in page destination option: \"%s\"\n",
fragment_to_tempstr(&pagearg)));
break;
}
if (page < 0 || (unsigned) page >= MAX_REGIS_PAGES) {
TRACE(("DATA_ERROR: invalid page: \"%d\"\n", page));
break;
}
TRACE(("using destination page number: %d\n", page));
context->destination_page = (unsigned) page;
map_regis_graphics_pages(context->destination_graphic->xw,
context);
}
break;
case 'S':
case 's':
TRACE(("found begin unbounded position stack \"%s\"\n",
fragment_to_tempstr(&optionarg)));
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring unexpected arguments to end position option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
}
if (state->stack_next >= POSITION_STACK_SIZE) {
/* FIXME: ignore, error, update counter? */
TRACE(("unable to push dummy position to full stack\n"));
break;
}
TRACE(("pushing dummy positions instead of %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
state->stack_x[state->stack_next] = DUMMY_STACK_X;
state->stack_y[state->stack_next] = DUMMY_STACK_Y;
state->stack_next++;
break;
case 'W':
case 'w':
TRACE(("found temporary write options \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (!load_regis_write_control_set(state, context,
context->graphics_output_cursor_x,
context->graphics_output_cursor_y,
&optionarg,
&context->temporary_write_controls)) {
TRACE(("DATA_ERROR: invalid temporary write options \"%s\"\n",
fragment_to_tempstr(&optionarg)));
}
break;
default:
TRACE(("DATA_ERROR: ignoring unknown ReGIS position command option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
break;
}
break;
case 'r':
TRACE(("inspecting report option \"%c\" with value \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
switch (state->option) {
case 'E':
case 'e':
TRACE(("found parse error report \"%s\" FIXME\n",
fragment_to_tempstr(&optionarg)));
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: unexpected arguments to ReGIS report command option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
break;
} {
char reply[64];
TRACE(("got report last error condition\n"));
/* FIXME: implement after adding error tracking */
sprintf(reply, "\"%u,%u\"\r", 0U, 0U);
unparseputs(context->display_graphic->xw, reply);
unparse_end(context->display_graphic->xw);
}
break;
case 'I':
case 'i':
TRACE(("found set input mode \"%s\"\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment modearg;
int mode;
if (!extract_regis_num(&optionarg, &modearg)) {
TRACE(("DATA_ERROR: expected int in report input mode option: \"%s\"\n",
fragment_to_tempstr(&modearg)));
break;
}
TRACE(("input mode: %s\n", fragment_to_tempstr(&modearg)));
if (!regis_num_to_int(&modearg, &mode)) {
TRACE(("DATA_ERROR: unable to parse int in report input mode option: \"%s\"\n",
fragment_to_tempstr(&modearg)));
break;
}
if (mode != 0 && mode != 1) {
TRACE(("DATA_ERROR: ignoring invalid input mode: \"%d\"\n",
mode));
break;
}
TRACE(("using input mode: %d (%s)\n", mode,
(mode == 0)
? "one-shot"
: "multiple"));
context->multi_input_mode = mode;
if (context->multi_input_mode) {
TRACE(("ERROR: multi-mode input not implemented FIXME\n"));
/* FIXME: enable input cursor, send location on mouse clicks or non-arrowkey keypresses */
} else {
/* FIXME: if in multi-mode, disable input cursor, stop tracking mouse clicks and keypresses */
/* FIXME: enable input cursor and disable drawing until location report request command is received */
/* FIXME: upon mouse click or keypress respond with location report */
}
/* FIXME: implement input cursor */
/* FIXME: implement mouse tracking */
/* FIXME: implement arrow key movement */
/* FIXME: implement button/key collection */
unparseputs(context->display_graphic->xw, "\r");
unparse_end(context->display_graphic->xw);
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: unexpected arguments to ReGIS report command option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
}
/* FIXME: buffer commands until report request received */
}
break;
case 'L':
case 'l':
TRACE(("found character set load report \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: unexpected arguments to ReGIS report command option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
break;
} {
char buffer[32];
if (state->load_index == MAX_REGIS_ALPHABETS) {
/* If this happens something went wrong elsewhere. */
TRACE(("DATA_ERROR: unable to report current load alphabet\n"));
unparseputs(context->display_graphic->xw, "A0\"\"\r");
unparse_end(context->display_graphic->xw);
break;
}
unparseputs(context->display_graphic->xw, "A");
sprintf(buffer, "%u", state->load_alphabet);
unparseputs(context->display_graphic->xw, buffer);
unparseputs(context->display_graphic->xw, "\"");
unparseputs(context->display_graphic->xw, state->load_name);
unparseputs(context->display_graphic->xw, "\"\r");
unparse_end(context->display_graphic->xw);
}
break;
case 'M':
case 'm':
TRACE(("found macrograph report \"%s\" request\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment suboptionarg;
char name = '\0';
if (extract_regis_parenthesized_data(&optionarg,
&suboptionarg)) {
skip_regis_whitespace(&suboptionarg);
TRACE(("got macrograph report character request: \"%s\"\n",
fragment_to_tempstr(&suboptionarg)));
if (!fragment_consumed(&suboptionarg)) {
name = pop_fragment(&suboptionarg);
if (islower(CharOf(name)))
name = (char) toupper(CharOf(name));
skip_regis_whitespace(&suboptionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: unexpected content in ReGIS macrograph report suboptions: \"%s\"\n",
fragment_to_tempstr(&suboptionarg)));
break;
}
}
}
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: unexpected arguments to ReGIS report command option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
break;
}
if (name == '\0') {
TRACE(("DATA_ERROR: no macro name given to ReGIS macrograph report command\n"));
break;
}
if (name == '=') {
char reply[64];
TRACE(("got report macrograph storage request\n"));
/* FIXME: Implement when macrographs are supported. */
sprintf(reply, "\"%u,%u\"\r", 1000U, 1000U);
unparseputs(context->display_graphic->xw, reply);
unparse_end(context->display_graphic->xw);
} else if (name < 'A' || name > 'Z') {
TRACE(("DATA_ERROR: invalid macrograph name: \"%c\"\n", name));
/* FIXME: what should happen? */
break;
} else {
char temp[8];
TRACE(("got report macrograph request for name '%c'\n", name));
sprintf(temp, "@=%c", name);
unparseputs(context->display_graphic->xw, temp);
/* FIXME: Allow this to be disabled for security reasons. */
/* FIXME: implement when macrographs are supported. */
unparseputs(context->display_graphic->xw, "@;\r");
unparse_end(context->display_graphic->xw);
}
}
break;
case 'P':
case 'p':
TRACE(("found cursor position report \"%s\"\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment suboptionarg;
int output = 1;
if (extract_regis_parenthesized_data(&optionarg,
&suboptionarg)) {
skip_regis_whitespace(&suboptionarg);
TRACE(("got cursor position report suboption: \"%s\"\n",
fragment_to_tempstr(&suboptionarg)));
if (!fragment_consumed(&suboptionarg)) {
char suboption;
/* FIXME: handle cursor movement multipliers */
suboption = pop_fragment(&suboptionarg);
if (suboption == 'i' || suboption == 'I') {
output = 0; /* input location report */
} else {
TRACE(("DATA_ERROR: unknown ReGIS position report suboption '%c'\n",
suboption));
break;
}
skip_regis_whitespace(&suboptionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: unexpected content in ReGIS position report suboptions: \"%s\"\n",
fragment_to_tempstr(&suboptionarg)));
break;
}
}
}
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: unexpected arguments to ReGIS report command option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
break;
}
TRACE(("got report cursor position (output=%d)\n", output));
/* FIXME: look into supporting ANSI locator reports (DECLRP) */
if (output == 1) {
char reply[64];
/* FIXME: verify in absolute, not user, coordinates */
sprintf(reply, "[%d,%d]\r",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y);
unparseputs(context->display_graphic->xw, reply);
unparse_end(context->display_graphic->xw);
} else {
char reply[64];
int x, y;
if (context->multi_input_mode) {
/* FIXME: track input coordinates */
x = y = 0; /* placeholders */
/* send CSI240~[x,y]\r with current input cursor location */
/* FIXME: verify no leading char or button sequence */
/* FIXME: should we ever send an eight-bit CSI? */
/* FIXME: verify in absolute, not user, coordinates */
TRACE(("sending multi-mode input report at %d,%d\n",
x, y));
sprintf(reply, "[%d,%d]\r", x, y);
unparseputs(context->display_graphic->xw, reply);
unparse_end(context->display_graphic->xw);
break;
} else {
char ch;
/* FIXME: wait for first non-arrow keypress or mouse click, and don't update graphics while waiting */
ch = ' '; /* placeholder */
x = y = 0; /* placeholders */
/* send <key or button>[x,y]\r to report input cursor location */
/* null button: CSI240~ */
/* left button: CSI241~ */
/* middle button: CSI243~ */
/* right button: CSI245~ */
/* extra button: CSI247~ */
/* FIXME: support DECLBD to change button assignments */
/* FIXME: verify no leading char or button sequence */
TRACE(("sending one-shot input report with %c at %d,%d\n",
ch, x, y));
#if 0 /* FIXME - dead code */
if (ch == '\r') {
/* Return only reports the location. */
sprintf(reply, "[%d,%d]\r", x, y);
} else if (ch == '\177') {
/* DEL exits locator mode reporting nothing. */
sprintf(reply, "\r");
} else
#endif
{
sprintf(reply, "%c[%d,%d]\r", ch, x, y);
}
unparseputs(context->display_graphic->xw, reply);
unparse_end(context->display_graphic->xw);
/* FIXME: exit one-shot mode and disable input cursor */
break;
}
}
}
break;
default:
TRACE(("DATA_ERROR: sending empty report for unknown ReGIS report command option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
/* Unknown report request types must receive empty reports. */
unparseputs(context->display_graphic->xw, "\r");
unparse_end(context->display_graphic->xw);
break;
}
break;
case 's':
TRACE(("inspecting screen option \"%c\" with value \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
switch (state->option) {
case 'A':
case 'a':
TRACE(("found address definition \"%s\"\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment address_extent;
int got_ul = 0;
int got_lr = 0;
int ulx = 0, uly = 0, lrx = 0, lry = 0;
while (!fragment_consumed(&optionarg)) {
if (skip_regis_whitespace(&optionarg))
continue;
if (extract_regis_extent(&optionarg, &address_extent)) {
int x, y;
/* FIXME: are relative values supposed to be handled? */
if (!load_regis_pixel_extent(fragment_to_tempstr(&address_extent),
0, 0, &x, &y)) {
TRACE(("DATA_ERROR: unable to parse extent in address definition: \"%s\"\n",
fragment_to_tempstr(&address_extent)));
break;
}
if (!got_ul) {
ulx = x;
uly = y;
got_ul = 1;
} else if (!got_lr) {
lrx = x;
lry = y;
got_lr = 1;
} else {
TRACE(("DATA_ERROR: ignoring extra extent argument in address definition: \"%s\"\n",
fragment_to_tempstr(&address_extent)));
}
continue;
}
TRACE(("DATA_ERROR: ignoring malformed ReGIS screen address definition: expected extent argument but found: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
return 1;
}
if (!got_ul || !got_lr) {
TRACE(("DATA_ERROR: ignoring malformed ReGIS screen address definition: one or both locations missing in definition\n"));
return 1;
}
if (ulx == lrx || uly == lry) {
TRACE(("DATA_ERROR: ignoring malformed ReGIS screen address definition: one or both dimensions are zero: ul=%d,%d lr=%d,%d\n",
ulx, uly, lrx, lry));
return 1;
} {
const int cw = abs(ulx - lrx) + 1;
const int ch = abs(uly - lry) + 1;
int width, height;
/*
* FIXME: Should we attempt to resize existing contents?
* We are actually changing the output size, but terminals
* just changed coordinates.
*/
#if 1
int scale;
const int mw = context->destination_graphic->max_width;
const int mh = context->destination_graphic->max_height;
TRACE(("custom screen size pre scaling: %dx%d\n", cw, ch));
width = cw;
height = ch;
scale = 1;
while (width * scale < 200 || height * scale < 200) {
scale++;
}
width *= scale;
height *= scale;
scale = 1;
while (width / scale > mw || height / scale > mh) {
scale++;
}
width /= scale;
height /= scale;
#else
width = context->width;
height = context->height;
#endif
TRACE(("custom screen address: ul=%d,%d lr=%d,%d\n",
ulx, uly, lrx, lry));
context->x_off = ulx;
context->y_off = uly;
context->x_div = lrx - ulx;
context->y_div = lry - uly;
context->width = width;
context->height = height;
context->destination_graphic->actual_width = width;
context->destination_graphic->actual_height = height;
context->destination_graphic->dirty = 1;
TRACE(("conversion factors: off=%+d,%+d div=%+d,%+d width=%d, height=%d\n",
context->x_off, context->y_off,
context->x_div, context->y_div,
context->width, context->height));
}
}
break;
case 'C':
case 'c':
TRACE(("found cursor control \"%s\" FIXME\n",
fragment_to_tempstr(&optionarg)));
/* FIXME: handle */
/* C0 == output cursor off, C1 == output cursor on */
/* C(H0) == output cursor diamond (default), C(H1) == output cursor diamond, C(H2) == output cursor crosshair */
/* C(I) == input cursor crosshair (default), C(I0) == input cursor crosshair, C(I1) == input cursor diamond, C(I2) == input cursor crosshair, C(I3) == input cursor rubber band line, C(I4) == input cursor rubber band rectangle */
/* C(I[X,Y]"FB")) == set input cursor to F in foreground B in background with hotspot at X,Y (using current text settings, trimmed to 16x24 max) */
if (fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring malformed ReGIS screen cursor control option value \"%s\"\n",
fragment_to_tempstr(&optionarg)));
return 1;
}
break;
case 'E':
case 'e':
TRACE(("found erase request \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring unexpected argument to ReGIS erase request \"%s\"\n",
fragment_to_tempstr(&optionarg)));
return 1;
}
DRAW_ALL(context, context->background);
/* FIXME: also set origin to 0,0 (presumably upper-left address, or maybe addressing is reset) */
context->fill_point_count = 0U;
context->fill_mode = 0;
state->num_points = 0U;
state->stack_next = 0U;
context->destination_graphic->dirty = 1;
context->force_refresh = 1;
break;
case 'F':
case 'f':
TRACE(("found page eject request \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring unexpected argument to ReGIS page eject request \"%s\"\n",
fragment_to_tempstr(&optionarg)));
return 1;
}
/* We aren't going to print anything so no need to deduplicate. */
DRAW_ALL(context, context->background);
context->destination_graphic->dirty = 1;
context->force_refresh = 1;
break;
case 'H':
case 'h':
TRACE(("found hardcopy control \"%s\" FIXME\n",
fragment_to_tempstr(&optionarg)));
/* FIXME: handle */
/* screen S(H), area to (input?/output?) cursor S(H[X,Y]), or area S(H[X,Y][X,Y]) */
if (fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring malformed ReGIS screen hardcopy control option value \"%s\"\n",
fragment_to_tempstr(&optionarg)));
return 1;
}
break;
case 'I':
case 'i':
TRACE(("found screen background color index \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (!load_regis_regnum_or_colorspec(context, &optionarg,
&context->background)) {
TRACE(("DATA_ERROR: screen background color specifier not recognized: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
return 1;
}
break;
case 'M':
case 'm':
TRACE(("found screen color register mapping \"%s\"\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment regnum;
RegisDataFragment colorspec;
while (!fragment_consumed(&optionarg)) {
if (skip_regis_whitespace(&optionarg))
continue;
if (extract_regis_num(&optionarg, &regnum)) {
int register_num;
int color_only;
short r, g, b;
if (!regis_num_to_int(&regnum, &register_num)) {
TRACE(("DATA_ERROR: unable to parse int in screen color register mapping option: \"%s\"\n",
fragment_to_tempstr(&regnum)));
return 1;
}
if (register_num < 0 ||
register_num > (int) context->destination_graphic->valid_registers) {
TRACE(("interpreting out of range register number %d as 0 FIXME\n",
register_num));
register_num = 0;
}
skip_regis_whitespace(&optionarg);
if (!extract_regis_parenthesized_data(&optionarg,
&colorspec)) {
TRACE(("DATA_ERROR: expected to find parentheses after register number: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
return 1;
}
skip_regis_whitespace(&colorspec);
switch (peek_fragment(&colorspec)) {
case 'A':
case 'a':
pop_fragment(&colorspec);
color_only = 1;
break;
default:
color_only = 0;
break;
}
TRACE(("mapping register %d to color spec: \"%s\"\n",
register_num, fragment_to_tempstr(&colorspec)));
if (!load_regis_colorspec(context, &colorspec,
&r, &g, &b)) {
TRACE(("DATA_ERROR: unable to use colorspec for mapping of register %d\n",
register_num));
return 1;
}
if (color_only &&
(context->graphics_id == 240 ||
context->graphics_id == 330)) {
TRACE(("NOT setting color register %d to %hd,%hd,%hd\n",
register_num, r, g, b));
} else {
TRACE(("setting color register %d to %hd,%hd,%hd\n",
register_num, r, g, b));
update_color_register(context->destination_graphic,
(RegisterNum) register_num,
r, g, b);
}
continue;
} {
char skip;
skip_regis_whitespace(&optionarg);
skip = pop_fragment(&optionarg);
(void) skip; /* variable needed only if tracing */
TRACE(("DATA_ERROR: ignoring mapping request with unexpected character \"%c\"\n",
skip));
return 1;
}
}
}
break;
case 'P':
case 'p':
TRACE(("found graphics page display option \"%s\"\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment pagearg;
int page;
if (!extract_regis_num(&optionarg, &pagearg)) {
TRACE(("DATA_ERROR: expected int in page display option: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
TRACE(("page option arg: %s\n", fragment_to_tempstr(&pagearg)));
if (!regis_num_to_int(&pagearg, &page)) {
TRACE(("DATA_ERROR: unable to parse int in page display option: \"%s\"\n",
fragment_to_tempstr(&pagearg)));
break;
}
if (page < 0 || (unsigned) page >= MAX_REGIS_PAGES) {
TRACE(("DATA_ERROR: invalid page: \"%d\"\n", page));
break;
}
TRACE(("using display page number: %d\n", page));
context->display_page = (unsigned) page;
map_regis_graphics_pages(context->display_graphic->xw, context);
}
break;
case 'T':
case 't':
TRACE(("found time delay \"%s\" FIXME\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment delayarg;
int delay;
if (!extract_regis_num(&optionarg, &delayarg)) {
TRACE(("DATA_ERROR: expected int in delay display option: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
TRACE(("delay option arg: %s\n",
fragment_to_tempstr(&delayarg)));
if (!regis_num_to_int(&delayarg, &delay)) {
TRACE(("DATA_ERROR: unable to parse int in delay display option: \"%s\"\n",
fragment_to_tempstr(&delayarg)));
break;
}
if (delay < 0 || delay > 32767) {
TRACE(("DATA_ERROR: delay out of range: \"%d\"\n", delay));
break;
}
/* FIXME: terminals allow much larger values, but this is an easy DoS vector */
if (delay > 60)
delay = 60;
TRACE(("using delay for %d ticks\n", delay));
refresh_modified_displayed_graphics(context->current_widget);
usleep((useconds_t) delay * 10000U);
}
break;
case 'W':
case 'w':
/* Only M (pixel vector multiplier) is useful -- for the scrolling multiplier. */
TRACE(("found temporary write options \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (!load_regis_write_control_set(state, context,
context->graphics_output_cursor_x,
context->graphics_output_cursor_y,
&optionarg,
&context->temporary_write_controls)) {
TRACE(("DATA_ERROR: invalid temporary write options \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
break;
default:
TRACE(("DATA_ERROR: ignoring unknown ReGIS screen command option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
break;
}
break;
case 't':
TRACE(("inspecting text option \"%c\" with value \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
switch (state->option) {
case 'A':
case 'a':
TRACE(("found alphabet specifier option \"%s\"\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment alphabetarg;
int alphabet;
if (!extract_regis_num(&optionarg, &alphabetarg)) {
TRACE(("DATA_ERROR: expected int in text alphabet option: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
TRACE(("alphabet: %s\n", fragment_to_tempstr(&alphabetarg)));
if (!regis_num_to_int(&alphabetarg, &alphabet)) {
TRACE(("DATA_ERROR: unable to parse int in text alphabet option: \"%s\"\n",
fragment_to_tempstr(&alphabetarg)));
break;
}
if (alphabet < 0 ||
(unsigned) alphabet >= MAX_REGIS_ALPHABETS) {
TRACE(("DATA_ERROR: invalid alphabet: \"%d\"\n", alphabet));
break;
}
TRACE(("using alphabet number: %d\n", alphabet));
context->current_text_controls->alphabet_num =
(unsigned) alphabet;
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring trailing junk in text alphabet option \"%s\"\n",
fragment_to_tempstr(&alphabetarg)));
break;
}
}
break;
case 'B':
case 'b':
TRACE(("found beginning of temporary text control \"%s\"\n",
fragment_to_tempstr(&optionarg)));
copy_regis_text_controls(&context->persistent_text_controls,
&context->temporary_text_controls);
context->current_text_controls = &context->temporary_text_controls;
break;
case 'D':
case 'd':
TRACE(("found text tilt control \"%s\"\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment rotationarg;
int rotation;
if (!extract_regis_num(&optionarg, &rotationarg)) {
TRACE(("DATA_ERROR: expected int in text tilt option: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
TRACE(("tilt: %s\n", fragment_to_tempstr(&rotationarg)));
if (!regis_num_to_int(&rotationarg, &rotation)) {
TRACE(("DATA_ERROR: unable to parse int in text tilt option: \"%s\"\n",
fragment_to_tempstr(&rotationarg)));
break;
}
while (rotation < 0) {
rotation += 360;
}
while (rotation >= 360) {
rotation -= 360;
}
/* FIXME: we don't have to be this restrictive, though the
* VT3x0 apparently was. What might depend on this?
*/
#ifndef ENABLE_FREE_ROTATION
/* Use closest value which is a multiple of 45 degrees. */
rotation = 45 * ((rotation + 22) / 45);
#endif
/* For some reason ReGIS reused the "D" option for the text
* command to represent two different attributes. String tilt
* can only be modified if an "S" option is given after the
* "D" option. In that case a second "D" option changes the
* character tilt. But complicating things further, if no "S"
* or second "D" option is given, the "D" option refers to the
* character tilt.
*/
switch (state->text_tilt_state) {
case TEXT_TILT_STATE_READY:
/* Setting a tilt after a cell size only affects the
* character tilt and not the string tilt.
*/
TRACE(("character rotation (direction): %d\n", rotation));
context->current_text_controls->character_rotation
= rotation;
state->text_tilt_state = TEXT_TILT_STATE_GOT_D;
break;
case TEXT_TILT_STATE_GOT_D:
/* If there are multiple angles with no size only the last
* value is used.
*/
TRACE(("character rotation (direction): %d\n", rotation));
context->current_text_controls->character_rotation
= rotation;
break;
case TEXT_TILT_STATE_GOT_DS:
TRACE(("changing character rotation (direction): %d\n",
rotation));
context->current_text_controls->character_rotation
= rotation;
state->text_tilt_state = TEXT_TILT_STATE_GOT_DSD;
break;
case TEXT_TILT_STATE_GOT_DSD:
default:
/* If there are multiple angles with no size only the last
* value is used.
*/
TRACE(("changing character rotation (direction): %d\n",
rotation));
context->current_text_controls->character_rotation
= rotation;
break;
}
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring trailing junk in text tilt option \"%s\"\n",
fragment_to_tempstr(&rotationarg)));
break;
}
}
break;
case 'E':
case 'e':
TRACE(("found end of temporary text control \"%s\"\n",
fragment_to_tempstr(&optionarg)));
context->current_text_controls = &context->persistent_text_controls;
break;
case 'H':
case 'h':
TRACE(("found height multiplier \"%s\"\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment multiarg;
int multiplier;
unsigned height;
if (!extract_regis_num(&optionarg, &multiarg)) {
TRACE(("DATA_ERROR: expected int in text height multiplier option: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
TRACE(("multiplier: %s\n", fragment_to_tempstr(&multiarg)));
if (!regis_num_to_int(&multiarg, &multiplier)) {
TRACE(("DATA_ERROR: unable to parse int in text height multiplier option: \"%s\"\n",
fragment_to_tempstr(&multiarg)));
break;
}
if (multiplier < 0) {
TRACE(("DATA_ERROR: out of range height multiplier: \"%d\", using 0 FIXME\n",
multiplier));
multiplier = 0; /* FIXME: verify zero is accepted */
}
if (multiplier > 256) {
TRACE(("DATA_ERROR: out of range height multiplier: \"%d\", using 256 FIXME\n",
multiplier));
multiplier = 256;
}
TRACE(("using height multiplier: %d\n", multiplier));
height = (unsigned) multiplier *10U; /* base character height */
context->current_text_controls->character_display_h
= height;
context->current_text_controls->character_unit_cell_h
= height;
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring trailing junk in text multiplier option \"%s\"\n",
fragment_to_tempstr(&multiarg)));
break;
}
}
break;
case 'I':
case 'i':
TRACE(("found italic control \"%s\"\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment italicarg;
int italic;
if (!extract_regis_num(&optionarg, &italicarg)) {
TRACE(("DATA_ERROR: expected int in text italic option: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
TRACE(("italic angle: %s\n", fragment_to_tempstr(&italicarg)));
if (!regis_num_to_int(&italicarg, &italic)) {
TRACE(("DATA_ERROR: unable to parse int in text italic option: \"%s\"\n",
fragment_to_tempstr(&italicarg)));
break;
}
/*
* This is overly-restrictive but matches what the docs say
* should happen. Add an option to allow exact angles?
*/
#ifndef ENABLE_VARIABLE_ITALICS
if (italic <= -31) {
italic = -45;
} else if (italic < 0) {
italic = -27; /* docs say 22, but that gives .404 x:y ratio */
} else if (italic >= 31) {
italic = 45;
} else if (italic > 0) {
italic = 27; /* docs say 22, but that gives .404 x:y ratio */
}
#else
if (italic <= -72) {
italic = -72;
} else if (italic >= 72) {
italic = 72;
}
#endif
TRACE(("using italic angle: %d\n", italic));
context->current_text_controls->slant = italic;
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring trailing junk in text italic option \"%s\"\n",
fragment_to_tempstr(&italicarg)));
break;
}
}
break;
case 'M':
case 'm':
TRACE(("found text command unit size multiplier \"%s\"\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment sizemultiplierarg;
int sizemultiplier;
int ww, hh;
if (!extract_regis_extent(&optionarg, &sizemultiplierarg)) {
TRACE(("DATA_ERROR: expected extent in unit size multiplier option: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
TRACE(("size multiplier: %s\n",
fragment_to_tempstr(&sizemultiplierarg)));
/* FIXME: verify that relative values don't work */
if (!load_regis_mult_extent(fragment_to_tempstr(&sizemultiplierarg),
&ww, &hh)) {
TRACE(("DATA_ERROR: unable to parse extent in '%c' command: \"%s\"\n",
state->option, fragment_to_tempstr(&sizemultiplierarg)));
break;
}
/* FIXME: support fractional values */
if (!regis_num_to_int(&sizemultiplierarg, &sizemultiplier)) {
TRACE(("DATA_ERROR: unable to parse extent in size multiplier option: \"%s\"\n",
fragment_to_tempstr(&sizemultiplierarg)));
break;
}
if (ww < 1 || hh < 1) {
TRACE(("DATA_ERROR: invalid size multiplier: %d,%d FIXME\n",
ww, hh));
break;
}
if (ww > 16) {
ww = 16;
}
if (hh > 16) {
hh = 16;
}
TRACE(("using unit size multiplier: %d,%d\n", ww, hh));
/* Times the base character unit cell dimensions (the VT3x0
* manual says this is with the height multiplier, but that
* seems to be incorrect).
*/
context->current_text_controls->character_unit_cell_w =
(unsigned) ww *8U;
context->current_text_controls->character_unit_cell_h =
(unsigned) hh *10U;
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring trailing junk in text unit cell size option \"%s\"\n",
fragment_to_tempstr(&sizemultiplierarg)));
break;
}
}
break;
case 'S':
case 's':
TRACE(("found display size or standard character cell size \"%s\"\n",
fragment_to_tempstr(&optionarg)));
for (;;) {
RegisDataFragment displaysizearg;
skip_regis_whitespace(&optionarg);
if (extract_regis_extent(&optionarg, &displaysizearg)) {
int disp_w, disp_h;
TRACE(("custom display size: %s\n",
fragment_to_tempstr(&displaysizearg)));
/* FIXME: verify that relative values don't work */
if (!load_regis_mult_extent(fragment_to_tempstr(&displaysizearg),
&disp_w, &disp_h)) {
TRACE(("DATA_ERROR: unable to parse extent in text display size option: \"%s\"\n",
fragment_to_tempstr(&displaysizearg)));
break;
}
if (disp_w < 1 || disp_h < 1) {
TRACE(("DATA_ERROR: invalid text display size: %dx%d FIXME\n",
disp_w, disp_h));
break;
}
TRACE(("using display cell size: %d,%d\n", disp_w, disp_h));
context->current_text_controls->character_display_w =
(unsigned) disp_w;
context->current_text_controls->character_display_h =
(unsigned) disp_h;
TRACE(("using offset: %d,%d\n", disp_w, 0));
context->current_text_controls->character_inc_x = disp_w;
context->current_text_controls->character_inc_y = 0;
continue;
}
if (extract_regis_num(&optionarg, &displaysizearg)) {
int standard;
unsigned disp_w, disp_h, unit_w, unit_h;
int off_x, off_y;
TRACE(("standard display cell size: %s\n",
fragment_to_tempstr(&displaysizearg)));
if (!regis_num_to_int(&displaysizearg, &standard)) {
TRACE(("DATA_ERROR: unable to parse int in text standard cell size option: \"%s\"\n",
fragment_to_tempstr(&displaysizearg)));
break;
}
if (get_standard_character_size(standard,
&disp_w, &disp_h,
&unit_w, &unit_h,
&off_x, &off_y)) {
TRACE(("DATA_ERROR: unrecognized standard cell size: \"%d\"\n",
standard));
break;
}
TRACE(("using display cell size: %u,%u\n", disp_w, disp_h));
context->current_text_controls->character_display_w
= disp_w;
context->current_text_controls->character_display_h
= disp_h;
TRACE(("using offset: %d,%d\n", off_x, off_y));
context->current_text_controls->character_inc_x = off_x;
context->current_text_controls->character_inc_y = off_y;
/*
* Some ReGIS documentation implies that the "S" option only
* affects character spacing after a rotation option ("ReGIS
* uses the spacing value associated with the cell size to
* space the characters in the tilted string"). The 7-13
* example in the VT330/VT340 Programmer Reference Manual
* vol 2 appears to say otherwise. FIXME: verify
*/
if (1) { /* forced for now */
TRACE(("using unit cell size: %u,%u\n", unit_w, unit_h));
context->current_text_controls->character_unit_cell_w =
unit_w;
context->current_text_controls->character_unit_cell_h =
unit_h;
}
switch (state->text_tilt_state) {
case TEXT_TILT_STATE_READY:
/* Nothing to do. */
break;
case TEXT_TILT_STATE_GOT_D:
TRACE(("upgrading character rotation to string and character rotation: %d\n", context->current_text_controls->character_rotation));
context->current_text_controls->string_rotation
= context->current_text_controls->character_rotation;
state->text_tilt_state = TEXT_TILT_STATE_GOT_DS;
break;
case TEXT_TILT_STATE_GOT_DS:
/* FIXME: It isn't clear what to do if there are two
* size options in a row after a tilt option.
*/
TRACE(("DATA_ERROR: unexpected duplicate size option: \"%s\" (state=%d)\n",
fragment_to_tempstr(&displaysizearg),
state->text_tilt_state));
break;
case TEXT_TILT_STATE_GOT_DSD:
default:
/* FIXME: It isn't clear what to do if there is a size
* option after both types of tilt angle have been set.
*/
TRACE(("DATA_ERROR: unexpected duplicate size option: \"%s\" (state=%d)\n",
fragment_to_tempstr(&displaysizearg),
state->text_tilt_state));
break;
}
continue;
}
if (skip_regis_whitespace(&optionarg)) {
continue;
}
if (fragment_consumed(&optionarg)) {
break;
}
TRACE(("DATA_ERROR: expected int or extent in text display size option: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
break;
case 'U':
case 'u':
TRACE(("found text command custom unit cell size \"%s\"\n",
fragment_to_tempstr(&optionarg)));
{
RegisDataFragment unitsizearg;
int unitsize;
int unit_w, unit_h;
if (!extract_regis_extent(&optionarg, &unitsizearg)) {
TRACE(("DATA_ERROR: expected extent in text unit cell size option: \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
TRACE(("unitsize cell size: %s\n",
fragment_to_tempstr(&unitsizearg)));
/* FIXME: verify that relative values don't work */
if (!load_regis_mult_extent(fragment_to_tempstr(&unitsizearg),
&unit_w, &unit_h)) {
TRACE(("DATA_ERROR: unable to parse extent in '%c' command: \"%s\"\n",
state->option, fragment_to_tempstr(&unitsizearg)));
break;
}
if (!regis_num_to_int(&unitsizearg, &unitsize)) {
TRACE(("DATA_ERROR: unable to parse extent in text unit cell size option: \"%s\"\n",
fragment_to_tempstr(&unitsizearg)));
break;
}
if (unit_w < 1 || unit_h < 1) {
TRACE(("DATA_ERROR: invalid text unit cell size: %dx%d FIXME\n",
unit_w, unit_h));
break;
}
TRACE(("using unit cell size: %d,%d\n", unit_w, unit_h));
context->current_text_controls->character_unit_cell_w =
(unsigned) unit_w;
context->current_text_controls->character_unit_cell_h =
(unsigned) unit_h;
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring trailing junk in text unit cell size option \"%s\"\n",
fragment_to_tempstr(&unitsizearg)));
break;
}
}
break;
case 'W':
case 'w':
TRACE(("found temporary write options \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (!load_regis_write_control_set(state, context,
context->graphics_output_cursor_x,
context->graphics_output_cursor_y,
&optionarg,
&context->temporary_write_controls)) {
TRACE(("DATA_ERROR: invalid temporary write options \"%s\"\n",
fragment_to_tempstr(&optionarg)));
break;
}
break;
default:
TRACE(("DATA_ERROR: ignoring unknown ReGIS text command option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
break;
}
break;
case 'v':
TRACE(("inspecting vector option \"%c\" with value \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
switch (state->option) {
case 'B':
case 'b':
TRACE(("found begin bounded position stack \"%s\"\n",
fragment_to_tempstr(&optionarg)));
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring unexpected arguments to vector option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
}
if (state->stack_next >= POSITION_STACK_SIZE) {
/* FIXME: ignore, error, update counter? */
TRACE(("unable to push position to full stack\n"));
break;
}
TRACE(("pushing location: %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
state->stack_x[state->stack_next] =
context->graphics_output_cursor_x;
state->stack_y[state->stack_next] =
context->graphics_output_cursor_y;
state->stack_next++;
break;
case 'E':
case 'e':
TRACE(("found end vector position stack \"%s\"\n",
fragment_to_tempstr(&optionarg)));
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring unexpected arguments to vector option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
}
if (state->stack_next == 0U) {
TRACE(("DATA_ERROR: unable to pop position from empty stack\n"));
break;
}
state->stack_next--;
if (state->stack_x[state->stack_next] != DUMMY_STACK_X ||
state->stack_y[state->stack_next] != DUMMY_STACK_Y) {
int orig_x, orig_y;
orig_x = context->graphics_output_cursor_x;
orig_y = context->graphics_output_cursor_y;
context->graphics_output_cursor_x =
state->stack_x[state->stack_next];
context->graphics_output_cursor_y =
state->stack_y[state->stack_next];
TRACE(("popped location: %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
TRACE(("drawing line to popped location\n"));
draw_patterned_line(context,
orig_x, orig_y,
context->graphics_output_cursor_x,
context->graphics_output_cursor_y);
} else {
TRACE(("not popping location\n"));
}
break;
case 'S':
case 's':
TRACE(("found begin unbounded position stack \"%s\"\n",
fragment_to_tempstr(&optionarg)));
skip_regis_whitespace(&optionarg);
if (!fragment_consumed(&optionarg)) {
TRACE(("DATA_ERROR: ignoring unexpected arguments to vector option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
}
if (state->stack_next >= POSITION_STACK_SIZE) {
/* FIXME: ignore, error, update counter? */
TRACE(("unable to push dummy position to full stack\n"));
break;
}
TRACE(("pushing dummy vector positions instead of %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
state->stack_x[state->stack_next] = DUMMY_STACK_X;
state->stack_y[state->stack_next] = DUMMY_STACK_Y;
state->stack_next++;
break;
case 'W':
case 'w':
TRACE(("found temporary write options \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (!load_regis_write_control_set(state, context,
context->graphics_output_cursor_x,
context->graphics_output_cursor_y,
&optionarg,
&context->temporary_write_controls)) {
TRACE(("DATA_ERROR: invalid temporary write options \"%s\"\n",
fragment_to_tempstr(&optionarg)));
}
break;
default:
TRACE(("DATA_ERROR: ignoring unknown ReGIS vector command option '%c' arg \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
break;
}
break;
case 'w':
skip_regis_whitespace(&optionarg);
TRACE(("inspecting permanent write option \"%c\" with value \"%s\"\n",
state->option, fragment_to_tempstr(&optionarg)));
if (!load_regis_write_control(state, context,
context->graphics_output_cursor_x,
context->graphics_output_cursor_y,
state->option, &optionarg,
&context->persistent_write_controls)) {
TRACE(("DATA_ERROR: invalid write options\n"));
return 1;
}
break;
default:
TRACE(("DATA_ERROR: unexpected option in \"%c\" command: \"%s\"\n",
state->command, fragment_to_tempstr(&optionarg)));
return 1;
}
return 1;
}
static int
expand_macrographs(RegisDataFragment *input, RegisGraphicsContext const *context)
{
char operator;
char name;
(void) context; /* to be used later */
operator = get_fragment(input, 0U);
if (operator != '@')
return 0;
name = get_fragment(input, 1U);
if (islower(CharOf(name)))
name = (char) toupper(CharOf(name));
if (name < 'A' || name > 'Z')
return 0;
TRACE(("expanding macrograph '%c' with %u characters FIXME\n", name, 0U));
pop_fragment(input);
pop_fragment(input);
/* FIXME: implement */
return 1;
}
static int
parse_regis_items(RegisParseState *state, RegisGraphicsContext *context)
{
RegisDataFragment *const input = &state->input;
RegisDataFragment item;
if (fragment_consumed(input))
return 0;
if (extract_regis_extent(input, &item)) {
TRACE(("found extent \"%s\"\n", fragment_to_tempstr(&item)));
switch (state->command) {
case 'c':
{
int orig_x, orig_y;
int new_x, new_y;
if (state->num_points > 0) {
orig_x = state->x_points[state->num_points - 1];
orig_y = state->y_points[state->num_points - 1];
} else {
orig_x = context->graphics_output_cursor_x;
orig_y = context->graphics_output_cursor_y;
}
if (!load_regis_coord_extent(context,
fragment_to_tempstr(&item),
orig_x, orig_y,
&new_x, &new_y)) {
TRACE(("DATA_ERROR: unable to parse extent in '%c' command: \"%s\"\n",
state->command, fragment_to_tempstr(&item)));
break;
}
switch (state->curve_mode) {
case CURVE_POSITION_ARC_CENTER:
case CURVE_POSITION_ARC_EDGE:
{
double radians;
int tenthdegs;
int c_x, c_y;
int e_x, e_y;
int e_x_final = 0, e_y_final = 0;
TRACE(("drawing arc: curve_mode=%d\n", state->curve_mode));
TRACE(("drawing arc: new=%d,%d orig=%d,%d\n",
new_x, new_y, orig_x, orig_y));
if (state->curve_mode == CURVE_POSITION_ARC_CENTER) {
c_x = new_x;
c_y = new_y;
e_x = orig_x;
e_y = orig_y;
} else {
c_x = orig_x;
c_y = orig_y;
e_x = new_x;
e_y = new_y;
}
radians = atan2((double) (c_y - e_y),
(double) (e_x - c_x));
tenthdegs = (int) (0.5 + 3600.0 * radians / (2.0 * M_PI));
if (tenthdegs < 0)
tenthdegs += 3600;
TRACE(("drawing arc centered at location %d,%d to location %d,%d from %g degrees (%g radians) for %d degrees\n",
c_x, c_y,
e_x, e_y,
tenthdegs / 10., radians, state->arclen));
draw_patterned_arc(context,
c_x, c_y,
e_x, e_y,
tenthdegs, state->arclen * 10,
&e_x_final, &e_y_final);
#ifdef DEBUG_ARC_CENTER
DRAW_PIXEL(context, c_x + 1, c_y, 3U);
DRAW_PIXEL(context, c_x - 1, c_y, 3U);
DRAW_PIXEL(context, c_x, c_y + 1, 3U);
DRAW_PIXEL(context, c_x, c_y - 1, 3U);
DRAW_PIXEL(context, c_x, c_y, 3U);
#endif
#ifdef DEBUG_ARC_START
DRAW_PIXEL(context, e_x + 1, e_y, 2U);
DRAW_PIXEL(context, e_x - 1, e_y, 2U);
DRAW_PIXEL(context, e_x, e_y + 1, 2U);
DRAW_PIXEL(context, e_x, e_y - 1, 2U);
DRAW_PIXEL(context, e_x, e_y, 2U);
#endif
#ifdef DEBUG_ARC_END
DRAW_PIXEL(context, e_x_final + 1, e_y_final + 1, 1U);
DRAW_PIXEL(context, e_x_final + 1, e_y_final - 1, 1U);
DRAW_PIXEL(context, e_x_final - 1, e_y_final + 1, 1U);
DRAW_PIXEL(context, e_x_final - 1, e_y_final - 1, 1U);
DRAW_PIXEL(context, e_x_final, e_y_final, 1U);
#endif
if (state->curve_mode == CURVE_POSITION_ARC_CENTER) {
TRACE(("moving cursor to final point on arc %d,%d\n",
e_x_final, e_y_final));
if (state->num_points > 0) {
state->x_points[state->num_points - 1] =
e_x_final;
state->y_points[state->num_points - 1] =
e_y_final;
}
context->graphics_output_cursor_x = e_x_final;
context->graphics_output_cursor_y = e_y_final;
}
}
break;
case CURVE_POSITION_OPEN_CURVE:
case CURVE_POSITION_CLOSED_CURVE:
if (state->num_points >= MAX_INPUT_CURVE_POINTS) {
TRACE(("DATA_ERROR: got curve point, but already have max points (%d)\n",
state->num_points));
break;
}
state->x_points[state->num_points] = new_x;
state->y_points[state->num_points] = new_y;
state->num_points++;
TRACE(("adding point to curve with location %d,%d\n",
new_x, new_y));
break;
default:
TRACE(("ERROR: got position, but curve mode %d is unknown\n",
state->curve_mode));
break;
}
}
break;
case 'p':
if (!load_regis_coord_extent(context,
fragment_to_tempstr(&item),
context->graphics_output_cursor_x,
context->graphics_output_cursor_y,
&context->graphics_output_cursor_x,
&context->graphics_output_cursor_y)) {
TRACE(("DATA_ERROR: unable to parse extent in '%c' command: \"%s\"\n",
state->command, fragment_to_tempstr(&item)));
break;
}
TRACE(("moving pen to location %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
break;
case 's':
TRACE(("extent scroll argument to screen command: \"%s\"\n",
fragment_to_tempstr(&item)));
{
int old_ul_x, old_ul_y;
int new_ul_x, new_ul_y;
int copy_w, copy_h;
old_ul_x = 0;
old_ul_y = 0;
TRACE(("current upper-left coordinate in pixel coordinates: %d,%d\n",
old_ul_x, old_ul_y));
/* FIXME: verify this is in user coordinates, not pixels */
if (!load_regis_coord_extent(context,
fragment_to_tempstr(&item),
old_ul_x, old_ul_y,
&new_ul_x, &new_ul_y)) {
TRACE(("DATA_ERROR: unable to parse extent in '%c' command: \"%s\"\n",
state->command, fragment_to_tempstr(&item)));
break;
}
TRACE(("scrolling image to updated upper-left coordinate in pixel coordinates: %d,%d\n",
new_ul_x, new_ul_y));
/* FIXME: does any write mode affect revealed background? */
if (new_ul_x > 0)
copy_w = context->width - new_ul_x;
else
copy_w = context->width;
if (new_ul_y > 0)
copy_h = context->height - new_ul_y;
else
copy_h = context->height;
/* FIXME: verify this applies to write page, not display page */
copy_overlapping_area(context->destination_graphic,
new_ul_x, new_ul_y,
0, 0,
(unsigned) copy_w, (unsigned) copy_h,
context->background);
context->destination_graphic->dirty = 1;
context->force_refresh = 1;
}
break;
case 't':
/* FIXME: verify this is in pixels, not user coordinates */
if (!load_regis_pixel_extent(fragment_to_tempstr(&item),
0, 0,
&context->current_text_controls->character_inc_x,
&context->current_text_controls->character_inc_y)) {
TRACE(("DATA_ERROR: unable to parse extent in '%c' command: \"%s\"\n",
state->command, fragment_to_tempstr(&item)));
break;
}
TRACE(("setting character spacing to %d,%d\n",
context->current_text_controls->character_inc_x,
context->current_text_controls->character_inc_y));
break;
case 'v':
{
int orig_x, orig_y;
orig_x = context->graphics_output_cursor_x;
orig_y = context->graphics_output_cursor_y;
if (!load_regis_coord_extent(context,
fragment_to_tempstr(&item),
orig_x, orig_y,
&context->graphics_output_cursor_x,
&context->graphics_output_cursor_y)) {
TRACE(("DATA_ERROR: unable to parse extent in '%c' command: \"%s\"\n",
state->command, fragment_to_tempstr(&item)));
break;
}
TRACE(("drawing line to location %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
draw_patterned_line(context,
orig_x, orig_y,
context->graphics_output_cursor_x,
context->graphics_output_cursor_y);
}
break;
default:
TRACE(("DATA_ERROR: unexpected extent in \"%c\" command: \"%s\"\n",
state->command, fragment_to_tempstr(&item)));
break;
}
return 1;
}
if (state->command != 'l' && extract_regis_pixelvector(input, &item)) {
TRACE(("found pixel vector \"%s\"\n", fragment_to_tempstr(&item)));
switch (state->command) {
case 'c':
/* FIXME: parse, handle */
TRACE(("pixelvector in curve command FIXME\n"));
break;
/* FIXME: not sure if 'f' supports PVs */
case 'p':
/* FIXME: error checking */
if (!load_regis_coord_pixelvector(context,
fragment_to_tempstr(&item),
context->graphics_output_cursor_x,
context->graphics_output_cursor_y,
&context->graphics_output_cursor_x,
&context->graphics_output_cursor_y)) {
TRACE(("DATA_ERROR: unable to parse pixel vector in '%c' command: \"%s\"\n",
state->command, fragment_to_tempstr(&item)));
break;
}
TRACE(("moving pen to location %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
break;
case 's':
TRACE(("pixelvector scroll argument to screen command: \"%s\"\n",
fragment_to_tempstr(&item)));
{
int old_ul_x, old_ul_y;
int new_ul_x, new_ul_y;
int copy_w, copy_h;
old_ul_x = 0;
old_ul_y = 0;
TRACE(("current upper-left coordinate in pixel coordinates: %d,%d\n",
old_ul_x, old_ul_y));
/* FIXME: verify this is in user coordinates, not pixels */
/* FIXME: verify that multiple PV digits result in a single
* copy (this changes the contents of any exposed edge)
*/
if (!load_regis_coord_pixelvector(context,
fragment_to_tempstr(&item),
old_ul_x, old_ul_y,
&new_ul_x, &new_ul_y)) {
TRACE(("DATA_ERROR: unable to parse pixel vector in '%c' command: \"%s\"\n",
state->command, fragment_to_tempstr(&item)));
break;
}
TRACE(("scrolling image to updated upper-left coordinate in pixel coordinates: %d,%d\n",
new_ul_x, new_ul_y));
/* FIXME: does any write mode affect revealed background? */
if (new_ul_x > 0)
copy_w = context->width - new_ul_x;
else
copy_w = context->width;
if (new_ul_y > 0)
copy_h = context->height - new_ul_y;
else
copy_h = context->height;
/* FIXME: verify this applies to write page, not display page */
copy_overlapping_area(context->destination_graphic,
new_ul_x, new_ul_y,
0, 0,
(unsigned) copy_w, (unsigned) copy_h,
context->background);
context->destination_graphic->dirty = 1;
context->force_refresh = 1;
}
break;
case 't':
{
int dx, dy;
/* FIXME: verify this does not use user coordinates */
if (!load_regis_pixel_pixelvector(fragment_to_tempstr(&item),
1, 0, 0, &dx, &dy)) {
TRACE(("DATA_ERROR: unable to parse pixel vector in '%c' command: \"%s\"\n",
state->command, fragment_to_tempstr(&item)));
break;
}
dx *= (int) (context->current_text_controls->character_display_w
>> 1U);
dy *= (int) (context->current_text_controls->character_display_h
>> 1U);
TRACE(("adding character offset %d,%d\n (ds=%dx%d)", dx, dy,
context->current_text_controls->character_display_w,
context->current_text_controls->character_display_h));
move_text(context, dx, dy);
}
break;
case 'v':
{
char const *const pixelvector = fragment_to_tempstr(&item);
unsigned offset;
for (offset = 0U; pixelvector[offset] != '\0';) {
int orig_x = context->graphics_output_cursor_x;
int orig_y = context->graphics_output_cursor_y;
if (!load_regis_coord_pixelvector_step(context, pixelvector,
&offset,
orig_x, orig_y,
&context->graphics_output_cursor_x,
&context->graphics_output_cursor_y)) {
TRACE(("DATA_ERROR: unable to parse pixel vector in '%c' command: \"%s\"\n",
state->command, fragment_to_tempstr(&item)));
break;
}
TRACE(("drawing line to location %d,%d\n",
context->graphics_output_cursor_x,
context->graphics_output_cursor_y));
draw_patterned_line(context, orig_x, orig_y,
context->graphics_output_cursor_x,
context->graphics_output_cursor_y);
}
}
break;
default:
TRACE(("DATA_ERROR: unexpected pixel vector in \"%c\" command: \"%s\"\n",
state->command, fragment_to_tempstr(&item)));
break;
}
return 1;
}
if (extract_regis_string(input, state->temp, state->templen)) {
switch (state->command) {
case 'l':
/* FIXME: confirm that extra characters are ignored */
TRACE(("found character to load: \"%s\"\n", state->temp));
state->load_glyph = (unsigned) (Char) state->temp[0];
state->load_row = 0U;
break;
case 't':
TRACE(("found string to draw: \"%s\"\n", state->temp));
draw_text(context, state->temp);
break;
case '_':
TRACE(("found comment: \"%s\"\n", state->temp));
break;
default:
TRACE(("DATA_ERROR: unexpected string argument to \"%c\" command: \"%s\"\n",
state->command, state->temp));
break;
}
return 1;
}
/* hex values */
if (state->command == 'l') {
unsigned digit;
for (digit = 0U; digit < (state->load_w + 3U) >> 2U; digit++) {
char ch = peek_fragment(input);
if (!isxdigit(CharOf(ch))) {
if (ch != ',' && ch != ';' &&
ch != ' ' && ch != '\r' &&
ch != '\n') {
TRACE(("found end of hexadecimal string witch '%c' on digit %u\n",
ch, digit));
/* FIXME: need to unput the digits up to this point */
/*
* Report success since we ate some characters,
* and the new char needs to be compared with commands
* and other top-level things.
*/
if (digit != 0U)
return 1;
return 0;
}
pop_fragment(input);
break;
}
state->temp[digit] = ch;
pop_fragment(input);
}
state->temp[digit] = '\0';
if (strlen(state->temp) > 0) {
unsigned long val;
unsigned glyph_size;
val = strtoul(state->temp, NULL, 16);
TRACE(("found row %u for glyph %u: \"%s\" value %02lx (%lu)\n",
state->load_row, state->load_glyph, state->temp, val, val));
if (state->load_row >= state->load_h) {
TRACE(("DATA_ERROR: ignoring extra row for glyph %u\n",
state->load_glyph));
return 0;
}
if (state->load_index == MAX_REGIS_ALPHABETS) {
state->load_index = find_free_alphabet_index(context,
state->load_alphabet,
state->load_w,
state->load_h);
TRACE(("current alphabet is %u and size is %ux%u; assigning alphabet index %u\n",
state->load_alphabet, state->load_w,
state->load_h, state->load_index));
}
glyph_size =
GLYPH_WIDTH_BYTES(context->alphabets[state->load_index].pixw)
* context->alphabets[state->load_index].pixh;
if (context->alphabets[state->load_index].bytes == NULL) {
if (!(context->alphabets[state->load_index].bytes =
calloc((size_t) (MAX_GLYPHS * glyph_size), sizeof(Char)))) {
TRACE(("ERROR: unable to allocate %u bytes for glyph storage\n",
MAX_GLYPHS * glyph_size));
return 0;
}
} {
Char *glyph;
unsigned bytew;
unsigned byte;
unsigned unused_bits;
glyph = &context->alphabets[state->load_index]
.bytes[state->load_glyph * glyph_size];
bytew = GLYPH_WIDTH_BYTES(context->alphabets[state->load_index]
.pixw);
unused_bits = 8U - (context->alphabets[state->load_index].pixw
& 3U);
if (unused_bits == 8U) {
unused_bits = 0U;
}
for (byte = 0U; byte < bytew; byte++) {
glyph[state->load_row * bytew + byte] =
(Char) (((val << unused_bits) >>
((bytew - (byte + 1U)) << 3U))
& 255U);
#ifdef DEBUG_LOAD
TRACE(("bytew=%u val=%lx byte=%u output=%x\n",
bytew, val,
byte,
(unsigned) glyph[state->load_row * bytew + byte]));
#endif
}
state->load_row++;
context->alphabets[state->load_index]
.loaded[state->load_glyph] = 1;
#ifdef DEBUG_LOAD
TRACE(("marking alphabet %u at index %u glyph %u as loaded\n",
state->load_alphabet, state->load_index,
state->load_glyph));
#endif
return 1;
}
}
}
/* special symbols */
if (state->command == '@') {
char ch = peek_fragment(input);
TRACE(("inspecting macrograph character \"%c\"\n", ch));
switch (ch) {
case '.':
pop_fragment(input);
TRACE(("clearing all macrographs\n"));
/* FIXME: implement when macrographs are supported. */
return 1;
case ':':
pop_fragment(input);
TRACE(("defining macrograph\n"));
/* FIXME: what about whitespace before the name? */
if (fragment_consumed(input)) {
TRACE(("DATA_ERROR: macrograph definition without name, ignoring\n"));
return 1;
} {
#define MAX_MACROGRAPH_LEN 1024
char temp[MAX_MACROGRAPH_LEN];
char name;
char prev = '\0';
int len = 0;
name = pop_fragment(input);
if (islower(CharOf(name)))
name = (char) toupper(CharOf(name));
TRACE(("defining macrograph for \"%c\"\n", name));
if (name < 'A' || name > 'Z') {
TRACE(("DATA_ERROR: invalid macrograph name\n"));
/* FIXME: what should happen? */
return 1;
}
for (;;) {
char next = peek_fragment(input);
if (prev == '@' && next == ';') {
/* FIXME: parse, handle :<name><definition>; */
pop_fragment(input);
len--;
break;
} else if (next == '\0') {
TRACE(("DATA_ERROR: macrograph definition ends before semicolon\n"));
/* FIXME: what should happen? */
return 1;
}
pop_fragment(input);
if (len < MAX_MACROGRAPH_LEN) {
temp[len++] = next;
}
prev = next;
}
if (len == MAX_MACROGRAPH_LEN) {
TRACE(("DATA_ERROR: macrograph definition too long\n"));
/* FIXME: what should happen? */
return 1;
}
temp[len] = '\0';
(void) temp; /* variable needed only if tracing */
/* FIXME: implement when macrographs are supported. */
TRACE(("ERROR: would have saved macrograph: \"%s\"\n", temp));
}
return 1;
case ';':
pop_fragment(input);
TRACE(("DATA_ERROR: found extraneous terminator for macrograph definition\n"));
return 1;
default:
pop_fragment(input);
TRACE(("DATA_ERROR: unknown macrograph command '%c'\n", ch));
return 1;
}
}
return 0;
}
static int
parse_regis_toplevel(RegisParseState *state, RegisGraphicsContext *context)
{
RegisDataFragment parenthesized;
char ch;
#if 0
TRACE(("reference line: shading=%d ref=%u loc=%d\n",
context->temporary_write_controls.shading_enabled,
context->temporary_write_controls.shading_reference_dim,
context->temporary_write_controls.shading_reference));
#endif
#ifdef DEBUG_PARSING
TRACE(("parsing top level: char %u of %u (next char '%c')\n",
state->input.pos,
fragment_length(&state->input),
peek_fragment(&state->input)));
#endif
if (skip_regis_whitespace(&state->input))
return 0;
if (expand_macrographs(&state->input, context))
return 0;
/* FIXME: the semicolon terminates the current command even if inside of an optionset or extent */
if (peek_fragment(&state->input) == ';') {
pop_fragment(&state->input);
TRACE(("ending '%c' command\n", state->command));
state->command = '_';
state->option = '_';
return 1;
}
/* Load statements contain hex values which may look like commands. */
ch = peek_fragment(&state->input);
if (state->command != 'l' || !isxdigit(CharOf(ch))) {
#ifdef DEBUG_PARSING
TRACE(("checking for top level command...\n"));
#endif
if (parse_regis_command(state)) {
/* FIXME: verify that these are the things reset on a new command */
TRACE(("resetting temporary write controls and pattern state before handling command\n"));
copy_regis_write_controls(&context->persistent_write_controls,
&context->temporary_write_controls);
context->pattern_count = 0U;
context->pattern_bit = 1U;
/* FIXME: what happens if temporary text controls aren't closed? */
/* FIXME: what if temporary text controls are nested? */
context->current_text_controls = &context->persistent_text_controls;
return 1;
}
}
#ifdef DEBUG_PARSING
TRACE(("checking for top level parentheses...\n"));
#endif
if (extract_regis_parenthesized_data(&state->input, &parenthesized)) {
RegisDataFragment keep;
if (state->command == 'f') { /* Fill */
TRACE(("found commands in fill mode \"%s\"\n",
fragment_to_tempstr(&parenthesized)));
copy_fragment(&keep, &state->input);
copy_fragment(&state->input, &parenthesized);
state->command = '_';
state->option = '_';
context->fill_mode = 1;
context->fill_point_count = 0U;
while (!fragment_consumed(&state->input))
parse_regis_toplevel(state, context);
if (context->temporary_write_controls.shading_character != '\0') {
draw_shaded_polygon(context);
} else {
draw_filled_polygon(context);
}
context->fill_point_count = 0U;
context->fill_mode = 0;
state->command = 'f';
copy_fragment(&state->input, &keep);
return 1;
} else {
TRACE(("parsing optionset \"%s\"\n",
fragment_to_tempstr(&parenthesized)));
copy_fragment(&keep, &state->input);
copy_fragment(&state->input, &parenthesized);
state->option = '_';
TRACE(("parsing at optionset level (char %u of %u)\n",
state->input.pos,
fragment_length(&state->input)));
for (;;) {
if (fragment_consumed(&state->input))
break;
TRACE(("looking at optionset character %u: \"%c\"\n",
state->input.pos, peek_fragment(&state->input)));
if (skip_regis_whitespace(&state->input))
continue;
if (parse_regis_option(state, context))
continue;
if (parse_regis_items(state, context))
continue;
if (fragment_consumed(&state->input))
break;
{
char skip;
skip = pop_fragment(&state->input);
(void) skip; /* variable needed only if tracing */
TRACE(("DATA_ERROR: skipping unexpected character in optionset: \"%c\"\n",
skip));
}
/* FIXME: suboptions */
}
state->option = '_';
copy_fragment(&state->input, &keep);
return 1;
}
}
if (state->command == 'f') { /* Fill */
RegisDataFragment optionarg;
if (extract_regis_option(&state->input, &state->option, &optionarg)) {
skip_regis_whitespace(&optionarg);
TRACE(("found temporary write options \"%s\"\n",
fragment_to_tempstr(&optionarg)));
if (!load_regis_write_control_set(state, context,
context->graphics_output_cursor_x,
context->graphics_output_cursor_y,
&optionarg,
&context->temporary_write_controls)) {
TRACE(("DATA_ERROR: invalid temporary write options \"%s\"\n",
fragment_to_tempstr(&optionarg)));
}
return 1;
}
TRACE(("checking for top level items (though none should be present)...\n"));
if (parse_regis_items(state, context))
return 1;
} else {
#ifdef DEBUG_PARSING
TRACE(("checking for top level items...\n"));
#endif
if (parse_regis_items(state, context))
return 1;
}
if (!fragment_consumed(&state->input)) {
char skip;
skip = pop_fragment(&state->input);
(void) skip; /* variable needed only if tracing */
TRACE(("DATA_ERROR: skipping unexpected character at top level: \"%c\"\n", ch));
}
return 0;
}
void
parse_regis(XtermWidget xw, ANSI *params, char const *string)
{
TScreen *screen = TScreenOf(xw);
RegisGraphicsContext *const context = &persistent_context;
RegisParseState *const state = &persistent_state;
struct timeval prev_tv;
struct timeval curr_tv;
unsigned iterations;
int Pmode;
assert(params);
assert(string);
if (params->a_nparam > 0)
Pmode = params->a_param[0];
else
Pmode = 0;
TRACE(("ReGIS vector graphics mode, param_count=%d mode=%d\n",
params->a_nparam, Pmode));
init_fragment(&state->input, string);
state->templen = (unsigned) strlen(string) + 1U;
if (!(state->temp = malloc((size_t) state->templen))) {
TRACE(("Unable to allocate temporary buffer of size %u\n",
state->templen));
return;
}
context->current_widget = xw;
/* Update the screen scrolling and do a refresh.
* The refresh may not cover the whole graphic.
*/
if (screen->scroll_amt)
FlushScroll(xw);
/* Only reset on the first ReGIS image unless it is being requested. */
if (context->width == 0 || context->height == 0 ||
Pmode == 1 || Pmode == 3) {
init_regis_parse_state(state);
init_regis_graphics_context(GraphicsId(screen),
screen->graphics_regis_def_wide,
screen->graphics_regis_def_high,
get_color_register_count(screen),
screen->graphics_regis_default_font,
context);
}
map_regis_graphics_pages(xw, context);
X_GETTIMEOFDAY(&prev_tv);
iterations = 0U;
refresh_modified_displayed_graphics(xw);
for (;;) {
if (skip_regis_whitespace(&state->input))
continue;
if (parse_regis_toplevel(state, context)) {
int need_refresh = 0;
/* FIXME: Move refresh logic out of the top level so that long
* sequences of filled drawing commands can be refreshed before the
* end of the fill command.
*/
iterations++;
memset(&curr_tv, 0, sizeof(curr_tv));
if (context->force_refresh) {
X_GETTIMEOFDAY(&curr_tv);
need_refresh = 1;
} else if (iterations > MIN_ITERATIONS_BEFORE_REFRESH) {
X_GETTIMEOFDAY(&curr_tv);
if ((Time) curr_tv.tv_sec > (Time) prev_tv.tv_sec + 1UL) {
need_refresh = 1;
} else {
#define DiffTime(TV) (TV.tv_sec * 1000L + TV.tv_usec / 1000L)
long diff = (long) (DiffTime(curr_tv) - DiffTime(prev_tv));
if (diff > MIN_MS_BEFORE_REFRESH)
need_refresh = 1;
}
}
if (need_refresh) {
TRACE(("refreshing after %u iterations and %ldms\n",
iterations,
(long) (DiffTime(curr_tv) - DiffTime(prev_tv))));
context->force_refresh = 0;
prev_tv = curr_tv;
iterations = 0U;
refresh_modified_displayed_graphics(xw);
xtermFlushDbe(xw);
}
continue;
}
if (fragment_consumed(&state->input))
break;
}
free(state->temp);
refresh_modified_displayed_graphics(xw);
TRACE(("DONE! Successfully parsed ReGIS data.\n"));
}