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|
/* Copyright (C) 2018 June McEnroe <june@causal.agency>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#define _XOPEN_SOURCE_EXTENDED
#include <assert.h>
#include <curses.h>
#include <err.h>
#include <errno.h>
#include <locale.h>
#include <poll.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <sysexits.h>
#include <unistd.h>
#include <wchar.h>
#ifdef __FreeBSD__
#include <sys/capsicum.h>
#endif
#include "torus.h"
#include "help.h"
#define err(...) do { endwin(); err(__VA_ARGS__); } while(0)
#define errx(...) do { endwin(); errx(__VA_ARGS__); } while (0)
#define DIV_ROUND(a, b) (((a) + (b) / 2) / (b))
#define CTRL(ch) ((ch) ^ 0x40)
enum {
Esc = 0x1B,
Del = 0x7F,
};
static uint32_t log2(uint32_t n) {
assert(n > 0);
return 32 - __builtin_clz(n) - 1;
}
static void curse(void) {
setlocale(LC_CTYPE, "");
initscr();
start_color();
if (!has_colors() || COLOR_PAIRS < 64) {
endwin();
fprintf(stderr, "Sorry, your terminal doesn't support colors!\n");
fprintf(stderr, "If you think it should, check TERM.\n");
exit(EX_CONFIG);
}
if (LINES < CellRows || COLS < CellCols) {
endwin();
fprintf(
stderr,
"Sorry, your terminal is too small!\n"
"It must be at least %ux%u characters.\n",
CellCols, CellRows
);
exit(EX_CONFIG);
}
assume_default_colors(0, 0);
if (COLORS >= 16) {
for (short pair = 1; pair < 0x80; ++pair) {
init_pair(pair, pair & 0x0F, (pair & 0xF0) >> 4);
}
} else {
for (short pair = 1; pair < 0100; ++pair) {
init_pair(pair, pair & 007, (pair & 070) >> 3);
}
}
color_set(ColorWhite, NULL);
bool hline = (LINES > CellRows);
bool vline = (COLS > CellCols);
if (hline) mvhline(CellRows, 0, 0, CellCols);
if (vline) mvvline(0, CellCols, 0, CellRows);
if (hline && vline) mvaddch(CellRows, CellCols, ACS_LRCORNER);
color_set(0, NULL);
cbreak();
noecho();
keypad(stdscr, true);
set_escdelay(100);
}
static attr_t colorAttr(uint8_t color) {
if (COLORS >= 16) return A_NORMAL;
return (color & ColorBright) ? A_BOLD : A_NORMAL;
}
static short colorPair(uint8_t color) {
if (COLORS >= 16) return color;
return (color & 0x70) >> 1 | (color & 0x07);
}
static void drawCell(
const struct Tile *tile, uint8_t cellX, uint8_t cellY, attr_t attr
) {
uint8_t color = tile->colors[cellY][cellX];
uint8_t cell = tile->cells[cellY][cellX];
cchar_t cch;
wchar_t wch[] = { CP437[cell], L'\0' };
setcchar(&cch, wch, attr | colorAttr(color), colorPair(color), NULL);
mvadd_wch(cellY, cellX, &cch);
}
static void drawTile(const struct Tile *tile) {
for (uint8_t cellY = 0; cellY < CellRows; ++cellY) {
for (uint8_t cellX = 0; cellX < CellCols; ++cellX) {
drawCell(tile, cellX, cellY, A_NORMAL);
}
}
}
static int client;
static uint8_t cellX;
static uint8_t cellY;
static struct Tile tile;
static void serverTile(void) {
ssize_t size = recv(client, &tile, sizeof(tile), 0);
if (size < 0) err(EX_IOERR, "recv");
if ((size_t)size < sizeof(tile)) errx(EX_PROTOCOL, "truncated tile");
drawTile(&tile);
}
static void serverMove(struct ServerMessage msg) {
cellX = msg.move.cellX;
cellY = msg.move.cellY;
}
static void serverPut(struct ServerMessage msg) {
tile.colors[msg.put.cellY][msg.put.cellX] = msg.put.color;
tile.cells[msg.put.cellY][msg.put.cellX] = msg.put.cell;
drawCell(&tile, msg.put.cellX, msg.put.cellY, A_NORMAL);
}
static void serverCursor(struct ServerMessage msg) {
if (msg.cursor.oldCellX != CursorNone) {
drawCell(&tile, msg.cursor.oldCellX, msg.cursor.oldCellY, A_NORMAL);
}
if (msg.cursor.newCellX != CursorNone) {
drawCell(&tile, msg.cursor.newCellX, msg.cursor.newCellY, A_REVERSE);
}
}
static const uint8_t MapX = (CellCols / 2) - (3 * MapCols / 2);
static const uint8_t MapY = (CellRows / 2) - (MapRows / 2);
static const wchar_t MapCells[5] = L" ░▒▓█";
static const uint8_t MapColors[] = {
ColorBlue, ColorCyan, ColorGreen, ColorYellow, ColorRed,
};
static void serverMap(void) {
int t = MapY - 1;
int l = MapX - 1;
int b = MapY + MapRows;
int r = MapX + 3 * MapCols;
color_set(colorPair(ColorWhite), NULL);
mvhline(t, MapX, ACS_HLINE, 3 * MapCols);
mvhline(b, MapX, ACS_HLINE, 3 * MapCols);
mvvline(MapY, l, ACS_VLINE, MapRows);
mvvline(MapY, r, ACS_VLINE, MapRows);
mvaddch(t, l, ACS_ULCORNER);
mvaddch(t, r, ACS_URCORNER);
mvaddch(b, l, ACS_LLCORNER);
mvaddch(b, r, ACS_LRCORNER);
color_set(0, NULL);
struct Map map;
ssize_t size = recv(client, &map, sizeof(map), 0);
if (size < 0) err(EX_IOERR, "recv");
if ((size_t)size < sizeof(map)) errx(EX_PROTOCOL, "truncated map");
if (0 == map.max.modifyCount) return;
if (0 == map.now - map.min.createTime) return;
for (uint8_t y = 0; y < MapRows; ++y) {
for (uint8_t x = 0; x < MapCols; ++x) {
struct Meta meta = map.meta[y][x];
uint32_t count = 0;
if (meta.modifyCount && log2(map.max.modifyCount)) {
count = DIV_ROUND(
(ARRAY_LEN(MapCells) - 1) * log2(meta.modifyCount),
log2(map.max.modifyCount)
);
}
uint32_t time = 0;
if (meta.modifyTime) {
uint32_t modify = meta.modifyTime - map.min.createTime;
time = DIV_ROUND(
(ARRAY_LEN(MapColors) - 1) * modify,
map.now - map.min.createTime
);
}
wchar_t cell = MapCells[count];
uint8_t color = MapColors[time];
wchar_t tile[] = { cell, cell, cell, L'\0' };
attr_set(colorAttr(color), colorPair(color), NULL);
mvaddwstr(MapY + y, MapX + 3 * x, tile);
}
}
attr_set(A_NORMAL, 0, NULL);
}
static void readMessage(void) {
struct ServerMessage msg;
ssize_t size = recv(client, &msg, sizeof(msg), 0);
if (size < 0) err(EX_IOERR, "recv");
if ((size_t)size < sizeof(msg)) errx(EX_PROTOCOL, "truncated message");
switch (msg.type) {
break; case ServerTile: serverTile();
break; case ServerMove: serverMove(msg);
break; case ServerPut: serverPut(msg);
break; case ServerCursor: serverCursor(msg);
break; case ServerMap: serverMap();
break; default: errx(EX_PROTOCOL, "unknown message type %d", msg.type);
}
move(cellY, cellX);
}
static void clientMessage(struct ClientMessage msg) {
ssize_t size = send(client, &msg, sizeof(msg), 0);
if (size < 0) err(EX_IOERR, "send");
}
static void clientMove(int8_t dx, int8_t dy) {
struct ClientMessage msg = {
.type = ClientMove,
.move = { .dx = dx, .dy = dy },
};
clientMessage(msg);
}
static void clientFlip(void) {
struct ClientMessage msg = { .type = ClientFlip };
clientMessage(msg);
}
static void clientPut(uint8_t color, uint8_t cell) {
struct ClientMessage msg = {
.type = ClientPut,
.put = { .color = color, .cell = cell },
};
clientMessage(msg);
}
static void clientMap(void) {
struct ClientMessage msg = { .type = ClientMap };
clientMessage(msg);
}
static struct {
enum {
ModeNormal,
ModeHelp,
ModeMap,
ModeDirection,
ModeInsert,
ModeReplace,
ModeDraw,
ModeLine,
} mode;
uint8_t color;
uint8_t shift;
uint8_t draw;
} input = {
.color = ColorWhite,
};
static struct {
uint8_t color;
uint8_t cell;
} copy;
static struct {
int8_t dx;
int8_t dy;
uint8_t len;
} insert;
static void modeNormal(void) {
curs_set(1);
move(cellY, cellX);
input.mode = ModeNormal;
}
static void modeHelp(void) {
curs_set(0);
drawTile(Help);
input.mode = ModeHelp;
}
static void modeMap(void) {
curs_set(0);
clientMap();
input.mode = ModeMap;
}
static void modeDirection(void) {
input.mode = ModeDirection;
}
static void modeInsert(int8_t dx, int8_t dy) {
insert.dx = dx;
insert.dy = dy;
insert.len = 0;
input.mode = ModeInsert;
}
static void modeReplace(void) {
input.mode = ModeReplace;
}
static void modeDraw(void) {
input.draw = 0;
input.mode = ModeDraw;
}
static void modeLine(void) {
input.mode = ModeLine;
}
static void colorFg(uint8_t fg) {
input.color = (input.color & 0x78) | (fg & 0x07);
}
static void colorBg(uint8_t bg) {
input.color = (input.color & 0x0F) | (bg & 0x07) << 4;
}
static uint8_t colorInvert(uint8_t color) {
return (color & 0x08)
| (color & 0x70) >> 4
| (color & 0x07) << 4;
}
static void cellCopy(void) {
copy.color = tile.colors[cellY][cellX];
copy.cell = tile.cells[cellY][cellX];
}
static void cellSwap(int8_t dx, int8_t dy) {
if ((uint8_t)(cellX + dx) >= CellCols) return;
if ((uint8_t)(cellY + dy) >= CellRows) return;
uint8_t aColor = tile.colors[cellY][cellX];
uint8_t aCell = tile.cells[cellY][cellX];
uint8_t bColor = tile.colors[cellY + dy][cellX + dx];
uint8_t bCell = tile.cells[cellY + dy][cellX + dx];
clientPut(bColor, bCell);
clientMove(dx, dy);
clientPut(aColor, aCell);
}
static uint8_t inputCell(wchar_t ch) {
if (ch == ' ') return ' ';
if (ch < 0x80) return (uint8_t)ch + input.shift;
for (size_t i = 0; i < ARRAY_LEN(CP437); ++i) {
if (ch == CP437[i]) return i;
}
return 0;
}
static void inputNormal(bool keyCode, wchar_t ch) {
if (keyCode) {
switch (ch) {
break; case KEY_LEFT: clientMove(-1, 0);
break; case KEY_RIGHT: clientMove( 1, 0);
break; case KEY_UP: clientMove( 0, -1);
break; case KEY_DOWN: clientMove( 0, 1);
break; case KEY_F(1): input.shift = 0x00;
break; case KEY_F(2): input.shift = 0xC0;
break; case KEY_F(3): input.shift = 0xA0;
break; case KEY_F(4): input.shift = 0x70;
break; case KEY_F(5): input.shift = 0x40;
}
return;
}
switch (ch) {
break; case CTRL('L'): clearok(curscr, true);
break; case Esc: modeNormal(); input.shift = 0;
break; case 'q': endwin(); exit(EX_OK);
break; case 'g': clientFlip();
break; case 'h': clientMove(-1, 0);
break; case 'l': clientMove( 1, 0);
break; case 'k': clientMove( 0, -1);
break; case 'j': clientMove( 0, 1);
break; case 'y': clientMove(-1, -1);
break; case 'u': clientMove( 1, -1);
break; case 'b': clientMove(-1, 1);
break; case 'n': clientMove( 1, 1);
break; case '0': colorFg(ColorBlack);
break; case '1': colorFg(ColorRed);
break; case '2': colorFg(ColorGreen);
break; case '3': colorFg(ColorYellow);
break; case '4': colorFg(ColorBlue);
break; case '5': colorFg(ColorMagenta);
break; case '6': colorFg(ColorCyan);
break; case '7': colorFg(ColorWhite);
break; case ')': colorBg(ColorBlack);
break; case '!': colorBg(ColorRed);
break; case '@': colorBg(ColorGreen);
break; case '#': colorBg(ColorYellow);
break; case '$': colorBg(ColorBlue);
break; case '%': colorBg(ColorMagenta);
break; case '^': colorBg(ColorCyan);
break; case '&': colorBg(ColorWhite);
break; case '8': input.color ^= ColorBright;
break; case '9': input.color = colorInvert(input.color);
break; case '`': input.color = tile.colors[cellY][cellX];
break; case 'H': cellSwap(-1, 0);
break; case 'L': cellSwap( 1, 0);
break; case 'K': cellSwap( 0, -1);
break; case 'J': cellSwap( 0, 1);
break; case 'Y': cellSwap(-1, -1);
break; case 'U': cellSwap( 1, -1);
break; case 'B': cellSwap(-1, 1);
break; case 'N': cellSwap( 1, 1);
break; case 's': cellCopy();
break; case 'x': cellCopy(); clientPut(copy.color, ' ');
break; case 'p': clientPut(copy.color, copy.cell);
break; case '~': {
cellCopy();
clientPut(input.color, tile.cells[cellY][cellX]);
clientMove(1, 0);
}
break; case '*': {
clientPut(
tile.colors[cellY][cellX] ^ ColorBright,
tile.cells[cellY][cellX]
);
clientMove(1, 0);
}
break; case '(': {
clientPut(
colorInvert(tile.colors[cellY][cellX]),
tile.cells[cellY][cellX]
);
clientMove(1, 0);
}
break; case CTRL('A'): {
clientPut(tile.colors[cellY][cellX], tile.cells[cellY][cellX] + 1);
}
break; case CTRL('X'): {
clientPut(tile.colors[cellY][cellX], tile.cells[cellY][cellX] - 1);
}
break; case '?': modeHelp();
break; case 'm': modeMap();
break; case 'I': modeDirection();
break; case 'i': modeInsert(1, 0);
break; case 'a': modeInsert(1, 0); clientMove(1, 0);
break; case 'r': modeReplace(); cellCopy();
break; case 'R': modeDraw();
break; case '.': modeLine();
}
}
static void inputHelp(bool keyCode, wchar_t ch) {
(void)keyCode;
(void)ch;
if (tileMeta(&tile).createTime) drawTile(&tile);
modeNormal();
}
static void inputMap(bool keyCode, wchar_t ch) {
(void)keyCode;
(void)ch;
drawTile(&tile);
modeNormal();
}
static void inputDirection(bool keyCode, wchar_t ch) {
if (keyCode) return;
switch (ch) {
break; case Esc: modeNormal();
break; case 'h': modeInsert(-1, 0);
break; case 'l': modeInsert( 1, 0);
break; case 'k': modeInsert( 0, -1);
break; case 'j': modeInsert( 0, 1);
break; case 'y': modeInsert(-1, -1);
break; case 'u': modeInsert( 1, -1);
break; case 'b': modeInsert(-1, 1);
break; case 'n': modeInsert( 1, 1);
}
}
static void inputInsert(bool keyCode, wchar_t ch) {
if (keyCode) {
inputNormal(keyCode, ch);
return;
}
switch (ch) {
break; case Esc: {
clientMove(-insert.dx, -insert.dy);
modeNormal();
}
break; case '\b': case Del: {
clientMove(-insert.dx, -insert.dy);
clientPut(input.color, ' ');
insert.len--;
}
break; case '\n': {
clientMove(insert.dy, insert.dx);
clientMove(insert.len * -insert.dx, insert.len * -insert.dy);
insert.len = 0;
}
break; default: {
uint8_t cell = inputCell(ch);
if (!cell) break;
clientPut(input.color, cell);
clientMove(insert.dx, insert.dy);
insert.len++;
}
}
}
static void inputReplace(bool keyCode, wchar_t ch) {
if (keyCode) {
inputNormal(keyCode, ch);
return;
}
if (ch != Esc) {
uint8_t cell = inputCell(ch);
if (!cell) return;
clientPut(tile.colors[cellY][cellX], cell);
}
modeNormal();
}
static void inputDraw(bool keyCode, wchar_t ch) {
if (!keyCode && ch == Esc) {
modeNormal();
return;
}
if (input.draw) {
inputNormal(keyCode, ch);
} else {
if (keyCode) {
inputNormal(keyCode, ch);
return;
}
input.draw = inputCell(ch);
}
clientPut(input.color, input.draw);
}
static uint8_t lineCell(uint8_t cell, int8_t dx, int8_t dy) {
if (dx < 0) {
switch (CP437[cell]) {
default: return inputCell(L'→');
case L'←': return inputCell(L'─'); case L'─': return 0;
case L'↑': return inputCell(L'┐'); case L'┐': return 0;
case L'↓': return inputCell(L'┘'); case L'┘': return 0;
case L'│': return inputCell(L'┤'); case L'┤': return 0;
case L'└': return inputCell(L'┴'); case L'┴': return 0;
case L'┌': return inputCell(L'┬'); case L'┬': return 0;
case L'├': return inputCell(L'┼'); case L'┼': return 0;
}
} else if (dx > 0) {
switch (CP437[cell]) {
default: return inputCell(L'←');
case L'→': return inputCell(L'─'); case L'─': return 0;
case L'↑': return inputCell(L'┌'); case L'┌': return 0;
case L'↓': return inputCell(L'└'); case L'└': return 0;
case L'│': return inputCell(L'├'); case L'├': return 0;
case L'┘': return inputCell(L'┴'); case L'┴': return 0;
case L'┐': return inputCell(L'┬'); case L'┬': return 0;
case L'┤': return inputCell(L'┼'); case L'┼': return 0;
}
} else if (dy < 0) {
switch (CP437[cell]) {
default: return inputCell(L'↓');
case L'↑': return inputCell(L'│'); case L'│': return 0;
case L'←': return inputCell(L'└'); case L'└': return 0;
case L'→': return inputCell(L'┘'); case L'┘': return 0;
case L'─': return inputCell(L'┴'); case L'┴': return 0;
case L'┌': return inputCell(L'├'); case L'├': return 0;
case L'┐': return inputCell(L'┤'); case L'┤': return 0;
case L'┬': return inputCell(L'┼'); case L'┼': return 0;
}
} else if (dy > 0) {
switch (CP437[cell]) {
default: return inputCell(L'↑');
case L'↓': return inputCell(L'│'); case L'│': return 0;
case L'←': return inputCell(L'┌'); case L'┌': return 0;
case L'→': return inputCell(L'┐'); case L'┐': return 0;
case L'─': return inputCell(L'┬'); case L'┬': return 0;
case L'└': return inputCell(L'├'); case L'├': return 0;
case L'┘': return inputCell(L'┤'); case L'┤': return 0;
case L'┴': return inputCell(L'┼'); case L'┼': return 0;
}
}
return 0;
}
static void inputLine(bool keyCode, wchar_t ch) {
int8_t dx = 0;
int8_t dy = 0;
if (keyCode) {
switch (ch) {
break; case KEY_LEFT: dx = -1;
break; case KEY_RIGHT: dx = 1;
break; case KEY_UP: dy = -1;
break; case KEY_DOWN: dy = 1;
break; default: return;
}
} else {
switch (ch) {
break; case Esc: case '.': modeNormal(); return;
break; case 'h': dx = -1;
break; case 'l': dx = 1;
break; case 'k': dy = -1;
break; case 'j': dy = 1;
break; default: return;
}
}
if ((uint8_t)(cellX + dx) >= CellCols) return;
if ((uint8_t)(cellY + dy) >= CellRows) return;
uint8_t leave = lineCell(tile.cells[cellY][cellX], dx, dy);
uint8_t enter = lineCell(tile.cells[cellY + dy][cellX + dx], -dx, -dy);
if (leave) clientPut(input.color, leave);
clientMove(dx, dy);
if (enter) clientPut(input.color, enter);
}
static void readInput(void) {
wint_t ch;
bool keyCode = (KEY_CODE_YES == get_wch(&ch));
switch (input.mode) {
break; case ModeNormal: inputNormal(keyCode, ch);
break; case ModeHelp: inputHelp(keyCode, ch);
break; case ModeMap: inputMap(keyCode, ch);
break; case ModeDirection: inputDirection(keyCode, ch);
break; case ModeInsert: inputInsert(keyCode, ch);
break; case ModeReplace: inputReplace(keyCode, ch);
break; case ModeDraw: inputDraw(keyCode, ch);
break; case ModeLine: inputLine(keyCode, ch);
}
}
int main(int argc, char *argv[]) {
const char *sockPath = "torus.sock";
int opt;
while (0 < (opt = getopt(argc, argv, "hs:"))) {
switch (opt) {
break; case 'h': {
fwrite(HelpData, sizeof(HelpData), 1, stdout);
return EX_OK;
}
break; case 's': sockPath = optarg;
break; default: return EX_USAGE;
}
}
curse();
modeHelp();
readInput();
client = socket(PF_LOCAL, SOCK_STREAM, 0);
if (client < 0) err(EX_OSERR, "socket");
struct sockaddr_un addr = { .sun_family = AF_LOCAL };
strlcpy(addr.sun_path, sockPath, sizeof(addr.sun_path));
int error = connect(client, (struct sockaddr *)&addr, SUN_LEN(&addr));
if (error) err(EX_NOINPUT, "%s", sockPath);
#ifdef __FreeBSD__
error = cap_enter();
if (error) err(EX_OSERR, "cap_enter");
#endif
struct pollfd fds[2] = {
{ .fd = STDIN_FILENO, .events = POLLIN },
{ .fd = client, .events = POLLIN },
};
for (;;) {
int nfds = poll(fds, 2, -1);
if (nfds < 0 && errno == EINTR) continue;
if (nfds < 0) err(EX_IOERR, "poll");
if (fds[0].revents) readInput();
if (fds[1].revents) readMessage();
refresh();
}
}
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