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confluent/confluent_vtbufferd/tmt.c

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/* Copyright (c) 2017 Rob King
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of the copyright holder nor the
* names of contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS,
* COPYRIGHT HOLDERS, OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
* USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <limits.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "tmt.h"
#define BUF_MAX 100
#define PAR_MAX 8
#define TAB 8
#define MAX(x, y) (((size_t)(x) > (size_t)(y)) ? (size_t)(x) : (size_t)(y))
#define MIN(x, y) (((size_t)(x) < (size_t)(y)) ? (size_t)(x) : (size_t)(y))
#define CLINE(vt) (vt)->screen.lines[MIN((vt)->curs.r, (vt)->screen.nline - 1)]
#define P0(x) (vt->pars[x])
#define P1(x) (vt->pars[x]? vt->pars[x] : 1)
#define CB(vt, m, a) ((vt)->cb? (vt)->cb(m, vt, a, (vt)->p) : (void)0)
#define INESC ((vt)->state)
#define COMMON_VARS \
TMTSCREEN *s = &vt->screen; \
TMTPOINT *c = &vt->curs; \
TMTLINE *l = CLINE(vt); \
TMTCHAR *t = vt->tabs->chars
#define HANDLER(name) static void name (TMT *vt) { COMMON_VARS;
struct TMT{
TMTPOINT curs, oldcurs;
TMTATTRS attrs, oldattrs;
bool dirty, acs, decdraw, ignored;
TMTSCREEN screen;
TMTLINE *tabs;
TMTCALLBACK cb;
void *p;
const wchar_t *acschars;
const wchar_t *decchars;
mbstate_t ms;
size_t nmb;
char mb[BUF_MAX + 1];
size_t pars[PAR_MAX];
size_t npar;
size_t arg;
enum {S_NUL, S_ESC, S_ARG, S_SCS} state;
};
static TMTATTRS defattrs = {.fg = TMT_COLOR_DEFAULT, .bg = TMT_COLOR_DEFAULT};
static void writecharatcurs(TMT *vt, wchar_t w);
static wchar_t
decchar(const TMT *vt, unsigned char c)
{
if (c > 94 && c < 127)
return vt->decchars[c - 95];
return (wchar_t)c;
}
static wchar_t
tacs(const TMT *vt, unsigned char c)
{
/* The terminfo alternate character set for ANSI. */
static unsigned char map[] = {0020U, 0021U, 0030U, 0031U, 0333U, 0004U,
0261U, 0370U, 0361U, 0260U, 0331U, 0277U,
0332U, 0300U, 0305U, 0176U, 0304U, 0304U,
0304U, 0137U, 0303U, 0264U, 0301U, 0302U,
0263U, 0363U, 0362U, 0343U, 0330U, 0234U,
0376U};
for (size_t i = 0; i < sizeof(map); i++) if (map[i] == c)
return vt->acschars[i];
return (wchar_t)c;
}
static void
dirtylines(TMT *vt, size_t s, size_t e)
{
vt->dirty = true;
for (size_t i = s; i < e; i++)
vt->screen.lines[i]->dirty = true;
}
static void
clearline(TMT *vt, TMTLINE *l, size_t s, size_t e)
{
vt->dirty = l->dirty = true;
for (size_t i = s; i < e && i < vt->screen.ncol; i++){
l->chars[i].a = defattrs;
l->chars[i].c = L' ';
}
}
static void
clearlines(TMT *vt, size_t r, size_t n)
{
for (size_t i = r; i < r + n && i < vt->screen.nline; i++)
clearline(vt, vt->screen.lines[i], 0, vt->screen.ncol);
}
static void
scrup(TMT *vt, size_t r, size_t n)
{
n = MIN(n, vt->screen.nline - 1 - r);
if (n){
TMTLINE *buf[n];
memcpy(buf, vt->screen.lines + r, n * sizeof(TMTLINE *));
memmove(vt->screen.lines + r, vt->screen.lines + r + n,
(vt->screen.nline - n - r) * sizeof(TMTLINE *));
memcpy(vt->screen.lines + (vt->screen.nline - n),
buf, n * sizeof(TMTLINE *));
clearlines(vt, vt->screen.nline - n, n);
dirtylines(vt, r, vt->screen.nline);
}
}
static void
scrdn(TMT *vt, size_t r, size_t n)
{
n = MIN(n, vt->screen.nline - 1 - r);
if (n){
TMTLINE *buf[n];
memcpy(buf, vt->screen.lines + (vt->screen.nline - n),
n * sizeof(TMTLINE *));
memmove(vt->screen.lines + r + n, vt->screen.lines + r,
(vt->screen.nline - n - r) * sizeof(TMTLINE *));
memcpy(vt->screen.lines + r, buf, n * sizeof(TMTLINE *));
clearlines(vt, r, n);
dirtylines(vt, r, vt->screen.nline);
}
}
HANDLER(ed)
size_t b = 0;
size_t e = s->nline;
switch (P0(0)){
case 0: b = c->r + 1; clearline(vt, l, c->c, vt->screen.ncol); break;
case 1: e = c->r - 1; clearline(vt, l, 0, c->c); break;
case 2: /* use defaults */ break;
default: /* do nothing */ return;
}
clearlines(vt, b, e - b);
}
HANDLER(ich)
size_t n = P1(0); /* XXX use MAX */
if (n > s->ncol - c->c - 1) n = s->ncol - c->c - 1;
memmove(l->chars + c->c + n, l->chars + c->c,
MIN(s->ncol - 1 - c->c,
(s->ncol - c->c - n - 1)) * sizeof(TMTCHAR));
clearline(vt, l, c->c, n);
}
HANDLER(dch)
size_t n = P1(0); /* XXX use MAX */
if (n > s->ncol - c->c) n = s->ncol - c->c;
else if (n == 0) return;
memmove(l->chars + c->c, l->chars + c->c + n,
(s->ncol - c->c - n) * sizeof(TMTCHAR));
clearline(vt, l, s->ncol - n, s->ncol);
/* VT102 manual says the attribute for the newly empty characters
* should be the same as the last character moved left, which isn't
* what clearline() currently does.
*/
}
HANDLER(el)
switch (P0(0)){
case 0: clearline(vt, l, c->c, vt->screen.ncol); break;
case 1: clearline(vt, l, 0, MIN(c->c + 1, s->ncol - 1)); break;
case 2: clearline(vt, l, 0, vt->screen.ncol); break;
}
}
HANDLER(sgr)
#define FGBG(c) *(P0(i) < 40? &vt->attrs.fg : &vt->attrs.bg) = c
for (size_t i = 0; i < vt->npar; i++) switch (P0(i)){
case 0: vt->attrs = defattrs; break;
case 1: case 22: vt->attrs.bold = P0(i) < 20; break;
case 2: case 23: vt->attrs.dim = P0(i) < 20; break;
case 4: case 24: vt->attrs.underline = P0(i) < 20; break;
case 5: case 25: vt->attrs.blink = P0(i) < 20; break;
case 7: case 27: vt->attrs.reverse = P0(i) < 20; break;
case 8: case 28: vt->attrs.invisible = P0(i) < 20; break;
case 10: case 11: vt->acs = P0(i) > 10; break;
case 30: case 40: FGBG(TMT_COLOR_BLACK); break;
case 31: case 41: FGBG(TMT_COLOR_RED); break;
case 32: case 42: FGBG(TMT_COLOR_GREEN); break;
case 33: case 43: FGBG(TMT_COLOR_YELLOW); break;
case 34: case 44: FGBG(TMT_COLOR_BLUE); break;
case 35: case 45: FGBG(TMT_COLOR_MAGENTA); break;
case 36: case 46: FGBG(TMT_COLOR_CYAN); break;
case 37: case 47: FGBG(TMT_COLOR_WHITE); break;
case 39: case 49: FGBG(TMT_COLOR_DEFAULT); break;
}
}
HANDLER(rep)
if (!c->c) return;
wchar_t r = l->chars[c->c - 1].c;
for (size_t i = 0; i < P1(0); i++)
writecharatcurs(vt, r);
}
HANDLER(dsr)
char r[BUF_MAX + 1] = {0};
snprintf(r, BUF_MAX, "\033[%zd;%zdR", c->r + 1, c->c + 1);
CB(vt, TMT_MSG_ANSWER, (const char *)r);
}
HANDLER(resetparser)
memset(vt->pars, 0, sizeof(vt->pars));
vt->state = vt->npar = vt->arg = vt->ignored = (bool)0;
}
HANDLER(consumearg)
if (vt->npar < PAR_MAX)
vt->pars[vt->npar++] = vt->arg;
vt->arg = 0;
}
HANDLER(fixcursor)
c->r = MIN(c->r, s->nline - 1);
c->c = MIN(c->c, s->ncol - 1);
}
static bool
handlechar(TMT *vt, char i)
{
COMMON_VARS;
char cs[] = {i, 0};
#define ON(S, C, A) if (vt->state == (S) && strchr(C, i)){ A; return true;}
#define DO(S, C, A) ON(S, C, consumearg(vt); if (!vt->ignored) {A;} \
fixcursor(vt); resetparser(vt););
DO(S_NUL, "\x07", CB(vt, TMT_MSG_BELL, NULL))
DO(S_NUL, "\x08", if (c->c) c->c--)
DO(S_NUL, "\x09", while (++c->c < s->ncol - 1 && t[c->c].c != L'*'))
DO(S_NUL, "\x0a", c->r < s->nline - 1? (void)c->r++ : scrup(vt, 0, 1))
DO(S_NUL, "\x0d", c->c = 0)
ON(S_NUL, "\x1b", vt->state = S_ESC)
ON(S_ESC, "\x1b", vt->state = S_ESC)
DO(S_ESC, "H", t[c->c].c = L'*')
DO(S_ESC, "7", vt->oldcurs = vt->curs; vt->oldattrs = vt->attrs)
DO(S_ESC, "8", vt->curs = vt->oldcurs; vt->attrs = vt->oldattrs)
ON(S_ESC, "+*)", vt->ignored = true; vt->state = S_ARG)
ON(S_ESC, "(", vt->state = S_SCS)
DO(S_SCS, "0", vt->decdraw = true)
DO(S_SCS, "B", vt->decdraw = false)
DO(S_ESC, "c", tmt_reset(vt))
DO(S_ESC, "M", if (c->r) c->r--)
ON(S_ESC, "[", vt->state = S_ARG)
ON(S_ARG, "\x1b", vt->state = S_ESC)
ON(S_ARG, ";", consumearg(vt))
ON(S_ARG, "?", (void)0)
ON(S_ARG, "0123456789", vt->arg = vt->arg * 10 + atoi(cs))
DO(S_ARG, "A", c->r = MAX(c->r - P1(0), 0))
DO(S_ARG, "B", c->r = MIN(c->r + P1(0), s->nline - 1))
DO(S_ARG, "C", c->c = MIN(c->c + P1(0), s->ncol - 1))
DO(S_ARG, "D", c->c = MIN(c->c - P1(0), c->c))
DO(S_ARG, "E", c->c = 0; c->r = MIN(c->r + P1(0), s->nline - 1))
DO(S_ARG, "F", c->c = 0; c->r = MAX(c->r - P1(0), 0))
DO(S_ARG, "G", c->c = MIN(P1(0) - 1, s->ncol - 1))
DO(S_ARG, "d", c->r = MIN(P1(0) - 1, s->nline - 1))
DO(S_ARG, "Hf", c->r = P1(0) - 1; c->c = P1(1) - 1)
DO(S_ARG, "I", while (++c->c < s->ncol - 1 && t[c->c].c != L'*'))
DO(S_ARG, "J", ed(vt))
DO(S_ARG, "K", el(vt))
DO(S_ARG, "L", scrdn(vt, c->r, P1(0)))
DO(S_ARG, "M", scrup(vt, c->r, P1(0)))
DO(S_ARG, "P", dch(vt))
DO(S_ARG, "S", scrup(vt, 0, P1(0)))
DO(S_ARG, "T", scrdn(vt, 0, P1(0)))
DO(S_ARG, "X", clearline(vt, l, c->c, P1(0) + c->c))
DO(S_ARG, "Z", while (c->c && t[--c->c].c != L'*'))
DO(S_ARG, "b", rep(vt));
DO(S_ARG, "c", CB(vt, TMT_MSG_ANSWER, "\033[?6c"))
DO(S_ARG, "g", if (P0(0) == 3) clearline(vt, vt->tabs, 0, s->ncol))
DO(S_ARG, "m", sgr(vt))
DO(S_ARG, "n", if (P0(0) == 6) dsr(vt))
DO(S_ARG, "h", if (P0(0) == 25) CB(vt, TMT_MSG_CURSOR, "t"))
DO(S_ARG, "i", (void)0)
DO(S_ARG, "l", if (P0(0) == 25) CB(vt, TMT_MSG_CURSOR, "f"))
DO(S_ARG, "s", vt->oldcurs = vt->curs; vt->oldattrs = vt->attrs)
DO(S_ARG, "u", vt->curs = vt->oldcurs; vt->attrs = vt->oldattrs)
DO(S_ARG, "@", ich(vt))
return resetparser(vt), false;
}
static void
notify(TMT *vt, bool update, bool moved)
{
if (update) CB(vt, TMT_MSG_UPDATE, &vt->screen);
if (moved) CB(vt, TMT_MSG_MOVED, &vt->curs);
}
static TMTLINE *
allocline(TMT *vt, TMTLINE *o, size_t n, size_t pc)
{
TMTLINE *l = realloc(o, sizeof(TMTLINE) + n * sizeof(TMTCHAR));
if (!l) return NULL;
clearline(vt, l, pc, n);
return l;
}
static void
freelines(TMT *vt, size_t s, size_t n, bool screen)
{
for (size_t i = s; vt->screen.lines && i < s + n; i++){
free(vt->screen.lines[i]);
vt->screen.lines[i] = NULL;
}
if (screen) free(vt->screen.lines);
}
TMT *
tmt_open(size_t nline, size_t ncol, TMTCALLBACK cb, void *p,
const wchar_t *acs)
{
TMT *vt = calloc(1, sizeof(TMT));
if (!nline || !ncol || !vt) return free(vt), NULL;
/* ASCII-safe defaults for box-drawing characters. */
vt->acschars = acs? acs : L"→←↑↓■◆▒°±▒┘┐┌└┼⎺───⎽├┤┴┬│≤≥π≠£•"; //L"><^v#+:o##+++++~---_++++|<>*!fo";
vt->decchars = L" ◆▒\t\f\r\n°±\n\v┘┐┌└┼⎺⎻─⎼⎽├┤┴┬│≤≥π≠£•";
vt->cb = cb;
vt->p = p;
vt->attrs = vt->oldattrs = defattrs;
if (!tmt_resize(vt, nline, ncol)) return tmt_close(vt), NULL;
return vt;
}
void
tmt_close(TMT *vt)
{
free(vt->tabs);
freelines(vt, 0, vt->screen.nline, true);
free(vt);
}
bool
tmt_resize(TMT *vt, size_t nline, size_t ncol)
{
if (nline < 2 || ncol < 2) return false;
if (nline < vt->screen.nline)
freelines(vt, nline, vt->screen.nline - nline, false);
TMTLINE **l = realloc(vt->screen.lines, nline * sizeof(TMTLINE *));
if (!l) return false;
size_t pc = vt->screen.ncol;
vt->screen.lines = l;
vt->screen.ncol = ncol;
for (size_t i = 0; i < nline; i++){
TMTLINE *nl = NULL;
if (i >= vt->screen.nline)
nl = vt->screen.lines[i] = allocline(vt, NULL, ncol, 0);
else
nl = allocline(vt, vt->screen.lines[i], ncol, pc);
if (!nl) return false;
vt->screen.lines[i] = nl;
}
vt->screen.nline = nline;
vt->tabs = allocline(vt, vt->tabs, ncol, 0);
if (!vt->tabs) return free(l), false;
vt->tabs->chars[0].c = vt->tabs->chars[ncol - 1].c = L'*';
for (size_t i = 0; i < ncol; i++) if (i % TAB == 0)
vt->tabs->chars[i].c = L'*';
fixcursor(vt);
dirtylines(vt, 0, nline);
notify(vt, true, true);
return true;
}
static void
writecharatcurs(TMT *vt, wchar_t w)
{
COMMON_VARS;
#ifdef TMT_HAS_WCWIDTH
extern int wcwidth(wchar_t c);
if (wcwidth(w) > 1) w = TMT_INVALID_CHAR;
if (wcwidth(w) < 0) return;
#endif
CLINE(vt)->chars[vt->curs.c].c = w;
CLINE(vt)->chars[vt->curs.c].a = vt->attrs;
CLINE(vt)->dirty = vt->dirty = true;
if (c->c < s->ncol - 1)
c->c++;
else{
c->c = 0;
c->r++;
}
if (c->r >= s->nline){
c->r = s->nline - 1;
scrup(vt, 0, 1);
}
}
static inline size_t
testmbchar(TMT *vt)
{
mbstate_t ts = vt->ms;
return vt->nmb? mbrtowc(NULL, vt->mb, vt->nmb, &ts) : (size_t)-2;
}
static inline wchar_t
getmbchar(TMT *vt)
{
wchar_t c = 0;
size_t n = mbrtowc(&c, vt->mb, vt->nmb, &vt->ms);
vt->nmb = 0;
return (n == (size_t)-1 || n == (size_t)-2)? TMT_INVALID_CHAR : c;
}
void
tmt_write(TMT *vt, const char *s, size_t n)
{
TMTPOINT oc = vt->curs;
n = n? n : strlen(s);
for (size_t p = 0; p < n; p++){
if (handlechar(vt, s[p]))
continue;
else if (vt->acs)
writecharatcurs(vt, tacs(vt, (unsigned char)s[p]));
else if (vt->decdraw)
writecharatcurs(vt, decchar(vt, (unsigned char)s[p]));
else if (vt->nmb >= BUF_MAX)
writecharatcurs(vt, getmbchar(vt));
else{
switch (testmbchar(vt)){
case (size_t)-1: writecharatcurs(vt, getmbchar(vt)); break;
case (size_t)-2: vt->mb[vt->nmb++] = s[p]; break;
}
if (testmbchar(vt) <= MB_LEN_MAX)
writecharatcurs(vt, getmbchar(vt));
}
}
notify(vt, vt->dirty, memcmp(&oc, &vt->curs, sizeof(oc)) != 0);
}
const TMTSCREEN *
tmt_screen(const TMT *vt)
{
return &vt->screen;
}
const TMTPOINT *
tmt_cursor(const TMT *vt)
{
return &vt->curs;
}
void
tmt_clean(TMT *vt)
{
for (size_t i = 0; i < vt->screen.nline; i++)
vt->dirty = vt->screen.lines[i]->dirty = false;
}
void
tmt_reset(TMT *vt)
{
vt->curs.r = vt->curs.c = vt->oldcurs.r = vt->oldcurs.c = vt->acs = (bool)0;
resetparser(vt);
vt->attrs = vt->oldattrs = defattrs;
memset(&vt->ms, 0, sizeof(vt->ms));
clearlines(vt, 0, vt->screen.nline);
CB(vt, TMT_MSG_CURSOR, "t");
notify(vt, true, true);
}