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Merge pull request #214 from nanochess/main

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Ported TARGET to Javascript
This commit is contained in:
Jeff Atwood
2021-03-07 19:27:53 -08:00
committed by GitHub
parent 986e30abad d6d7123bb3
commit c1db94178f
6 changed files with 602 additions and 0 deletions
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9
80 Slots/javascript/slots.html Normal file
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<html>
<head>
<title>SLOTS</title>
</head>
<body>
<pre id="output" style="font-size: 12pt;"></pre>
<script src="slots.js"></script>
</body>
</html>

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// SLOTS
//
// Converted from BASIC to Javascript by Oscar Toledo G. (nanochess)
//
function print(str)
{
document.getElementById("output").appendChild(document.createTextNode(str));
}
function input()
{
var input_element;
var input_str;
return new Promise(function (resolve) {
input_element = document.createElement("INPUT");
print("? ");
input_element.setAttribute("type", "text");
input_element.setAttribute("length", "50");
document.getElementById("output").appendChild(input_element);
input_element.focus();
input_str = undefined;
input_element.addEventListener("keydown", function (event) {
if (event.keyCode == 13) {
input_str = input_element.value;
document.getElementById("output").removeChild(input_element);
print(input_str);
print("\n");
resolve(input_str);
}
});
});
}
function tab(space)
{
var str = "";
while (space-- > 0)
str += " ";
return str;
}
var figures = [, "BAR", "BELL", "ORANGE", "LEMON", "PLUM", "CHERRY"];
// Main program
async function main()
{
print(tab(30) + "SLOTS\n");
print(tab(15) + "CREATIVE COMPUTING MORRISTOWN, NEW JERSEY\n");
print("\n");
print("\n");
print("\n");
// Produced by Fred Mirabelle and Bob Harper on Jan 29, 1973
// It simulates the slot machine.
print("YOU ARE IN THE H&M CASINO,IN FRONT ON ONE OF OUR\n");
print("ONE-ARM BANDITS. BET FROM $1 TO $100.\n");
print("TO PULL THE ARM, PUNCH THE RETURN KEY AFTER MAKING YOUR BET.\n");
p = 0;
while (1) {
while (1) {
print("\n");
print("YOUR BET");
m = parseInt(await input());
if (m > 100) {
print("HOUSE LIMITS ARE $100\n");
} else if (m < 1) {
print("MINIMUM BET IS $1\n");
} else {
break;
}
}
// Not implemented: GOSUB 1270 ten chimes
print("\n");
x = Math.floor(6 * Math.random() + 1);
y = Math.floor(6 * Math.random() + 1);
z = Math.floor(6 * Math.random() + 1);
print("\n");
// Not implemented: GOSUB 1310 seven chimes after figure x and y
print(figures[x] + " " + figures[y] + " " + figures[z] + "\n");
lost = false;
if (x == y && y == z) { // Three figure
print("\n");
if (z != 1) {
print("**TOP DOLLAR**\n");
p += ((10 * m) + m);
} else {
print("***JACKPOT***\n");
p += ((100 * m) + m);
}
print("YOU WON!\n");
} else if (x == y || y == z || x == z) {
if (x == y)
c = x;
else
c = z;
if (c == 1) {
print("\n");
print("*DOUBLE BAR*\n");
print("YOU WON\n");
p += ((5 * m) + m);
} else if (x != z) {
print("\n");
print("DOUBLE!!\n");
print("YOU WON!\n");
p += ((2 * m) + m);
} else {
lost = true;
}
} else {
lost = true;
}
if (lost) {
print("\n");
print("YOU LOST.\n");
p -= m;
}
print("YOUR STANDINGS ARE $" + p + "\n");
print("AGAIN");
str = await input();
if (str.substr(0, 1) != "Y")
break;
}
print("\n");
if (p < 0) {
print("PAY UP! PLEASE LEAVE YOUR MONEY ON THE TERMINAL.\n");
} else if (p == 0) {
print("HEY, YOU BROKE EVEN.\n");
} else {
print("COLLECT YOUR WINNINGS FROM THE H&M CASHIER.\n");
}
}
main();

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81 Splat/javascript/splat.html Normal file
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<html>
<head>
<title>SPLAT</title>
</head>
<body>
<pre id="output" style="font-size: 12pt;"></pre>
<script src="splat.js"></script>
</body>
</html>

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// SPLAT
//
// Converted from BASIC to Javascript by Oscar Toledo G. (nanochess)
//
function print(str)
{
document.getElementById("output").appendChild(document.createTextNode(str));
}
function input()
{
var input_element;
var input_str;
return new Promise(function (resolve) {
input_element = document.createElement("INPUT");
print("? ");
input_element.setAttribute("type", "text");
input_element.setAttribute("length", "50");
document.getElementById("output").appendChild(input_element);
input_element.focus();
input_str = undefined;
input_element.addEventListener("keydown", function (event) {
if (event.keyCode == 13) {
input_str = input_element.value;
document.getElementById("output").removeChild(input_element);
print(input_str);
print("\n");
resolve(input_str);
}
});
});
}
function tab(space)
{
var str = "";
while (space-- > 0)
str += " ";
return str;
}
var aa = [];
// Main program
async function main()
{
print(tab(33) + "SPLAT\n");
print(tab(15) + "CREATIVE COMPUTING MORRISTOWN, NEW JERSEY\n");
print("\n");
print("\n");
print("\n");
for (i = 0; i <= 42; i++)
aa[i] = 0;
print("WELCOME TO 'SPLAT' -- THE GAME THAT SIMULATES A PARACHUTE\n");
print("JUMP. TRY TO OPEN YOUR CHUTE AT THE LAST POSSIBLE\n");
print("MOMENT WITHOUT GOING SPLAT.\n");
while (1) {
print("\n");
print("\n");
d1 = 0;
v = 0;
a = 0;
n = 0;
m = 0;
d1 = Math.floor(9001 * Math.random() + 1000);
print("SELECT YOUR OWN TERMINAL VELOCITY (YES OR NO)");
while (1) {
a1s = await input();
if (a1s == "YES" || a1s == "NO")
break;
print("YES OR NO");
}
if (a1s == "YES") {
print("WHAT TERMINAL VELOCITY (MI/HR)");
v1 = parseFloat(await input());
v1 = v1 * (5280 / 3600);
} else {
v1 = Math.floor(1000 * Math.random());
print("OK. TERMINAL VELOCITY = " + v1 + " MI/HR\n");
}
v = v1 + ((v1 * Math.random()) / 20) - ((v1 * Math.random()) / 20);
print("WANT TO SELECT ACCELERATION DUE TO GRAVITY (YES OR NO)");
while (1) {
b1s = await input();
if (b1s == "YES" || b1s == "NO")
break;
print("YES OR NO");
}
if (b1s == "YES") {
print("WHAT ACCELERATION (FT/SEC/SEC)");
a2 = parseFloat(await input());
} else {
switch (Math.floor(1 + (10 * Math.random()))) {
case 1:
print("FINE. YOU'RE ON MERCURY. ACCELERATION=12.2 FT/SEC/SEC.\n");
a2 = 12.2;
break;
case 2:
print("ALL RIGHT. YOU'RE ON VENUS. ACCELERATION=28.3 FT/SEC/SEC.\n");
a2 = 28.3;
break;
case 3:
print("THEN YOU'RE ON EARTH. ACCELERATION=32.16 FT/SEC/SEC.\n");
a2 = 32.16;
break;
case 4:
print("FINE. YOU'RE ON THE MOON. ACCELERATION=5.15 FT/SEC/SEC.\n");
a2 = 5.15;
break;
case 5:
print("ALL RIGHT. YOU'RE ON MARS. ACCELERATION=12.5 FT/SEC/SEC.\n");
a2 = 12.5;
break;
case 6:
print("THEN YOU'RE ON JUPITER. ACCELERATION=85.2 FT/SEC/SEC.\n");
a2 = 85.2;
break;
case 7:
print("FINE. YOU'RE ON SATURN. ACCELERATION=37.6 FT/SEC/SEC.\n");
a2 = 37.6;
break;
case 8:
print("ALL RIGHT. YOU'RE ON URANUS. ACCELERATION=33.8 FT/SEC/SEC.\n");
a2 = 33.8;
break;
case 9:
print("THEN YOU'RE ON NEPTUNE. ACCELERATION=39.6 FT/SEC/SEC.\n");
a2 = 39.6;
break;
case 10:
print("FINE. YOU'RE ON THE SUN. ACCELERATION=896 FT/SEC/SEC.\n");
a2 = 896;
break;
}
}
a = a2 + ((a2 * Math.random()) / 20) - ((a2 * Math.random()) / 20);
print("\n");
print(" ALTITUDE = " + d1 + " FT\n");
print(" TERM. VELOCITY = " + v1 + " FT/SEC +/-5%\n");
print(" ACCELERATION = " + a2 + " FT/SEC/SEC +/-5%\n");
print("SET THE TIMER FOR YOUR FREEFALL.\n");
print("HOW MANY SECONDS");
t = parseFloat(await input());
print("HERE WE GO.\n");
print("\n");
print("TIME (SEC)\tDIST TO FALL (FT)\n");
print("==========\t=================\n");
terminal = false;
crash = false;
for (i = 0; i <= t; i += t / 8) {
if (i > v / a) {
terminal = true;
break;
}
d = d1 - ((a / 2) * Math.pow(i, 2));
if (d <= 0) {
print(Math.sqrt(2 * d1 / a) + "\tSPLAT\n");
crash = true;
break;
}
print(i + "\t" + d + "\n");
}
if (terminal) {
print("TERMINAL VELOCITY REACHED AT T PLUS " + v/a + " SECONDS.\n");
for (; i <= t; i += t / 8) {
d = d1 - ((Math.pow(v, 2) / (2 * a)) + (v * (i - (v / a))));
if (d <= 0) {
print(((v / a) + ((d1 - (Math.pow(v, 2) / (2 * a))) / v)) + "\tSPLAT\n");
crash = true;
break;
}
print(i + "\t" + d + "\n");
}
}
if (!crash) {
print("CHUTE OPEN\n");
k = 0;
k1 = 0;
for (j = 0; j <= 42; j++) {
if (aa[j] == 0)
break;
k++;
if (d < aa[j])
k1++;
}
// In original jumps to line 540 (undefined) when table is full
aa[j] = d;
if (j <= 2) {
print("AMAZING!!! NOT BAD FOR YOUR ");
if (j == 0)
print("1ST ");
else if (j == 1)
print("2ND ");
else
print("3RD ");
print("SUCCESSFUL JUMP!!!\n");
} else {
if (k - k1 <= 0.1 * k) {
print("WOW! THAT'S SOME JUMPING. OF THE " + k + " SUCCESSFUL JUMPS\n");
print("BEFORE YOURS, ONLY " + (k - k1) + " OPENED THEIR CHUTES LOWER THAN\n");
print("YOU DID.\n");
} else if (k - k1 <= 0.25 * k) {
print("PRETTY GOOD! " + k + " SUCCESSFUL JUMPS PRECEDED YOURS AND ONLY\n");
print((k - k1) + " OF THEM GOT LOWER THAN YOU DID BEFORE THEIR CHUTES\n");
print("OPENED.\n");
} else if (k - k1 <= 0.5 * k) {
print("NOT BAD. THERE HAVE BEEN " + k + " SUCCESSFUL JUMPS BEFORE YOURS.\n");
print("YOU WERE BEATEN OUT BY " + (k - k1) + " OF THEM.\n");
} else if (k - k1 <= 0.75 * k) {
print("CONSERVATIVE, AREN'T YOU? YOU RANKED ONLY " + (k - k1) + " IN THE\n");
print(k + " SUCCESSFUL JUMPS BEFORE YOURS.\n");
} else if (k - k1 <= 0.9 * k) {
print("HUMPH! DON'T YOU HAVE ANY SPORTING BLOOD? THERE WERE\n");
print(k + " SUCCESSFUL JUMPS BEFORE YOURS AND YOU CAME IN " + k1 + "JUMPS\n");
print("BETTER THAN THE WORST. SHAPE UP!!!\n");
} else {
print("HEY! YOU PULLED THE RIP CORD MUCH TOO SOON. " + k + " SUCCESSFUL\n");
print("JUMPS BEFORE YOURS AND YOU CAME IN NUMBER " + (k - k1) + "! GET WITH IT!\n");
}
}
} else {
switch (Math.floor(1 + 10 * Math.random())) {
case 1:
print("REQUIESCAT IN PACE.\n");
break;
case 2:
print("MAY THE ANGEL OF HEAVEN LEAD YOU INTO PARADISE.\n");
break;
case 3:
print("REST IN PEACE.\n");
break;
case 4:
print("SON-OF-A-GUN.\n");
break;
case 5:
print("#%&&%!$\n");
break;
case 6:
print("A KICK IN THE PANTS IS A BOOST IF YOU'RE HEADED RIGHT.\n");
break;
case 7:
print("HMMM. SHOULD HAVE PICKED A SHORTER TIME.\n");
break;
case 8:
print("MUTTER. MUTTER. MUTTER.\n");
break;
case 9:
print("PUSHING UP DAISIES.\n");
break;
case 10:
print("EASY COME, EASY GO.\n");
break;
}
print("I'LL GIVE YOU ANOTHER CHANCE.\n");
}
while (1) {
print("DO YOU WANT TO PLAY AGAIN");
str = await input();
if (str == "YES" || str == "NO")
break;
print("YES OR NO\n");
}
if (str == "YES")
continue;
print("PLEASE");
while (1) {
str = await input();
if (str == "YES" || str == "NO")
break;
print("YES OR NO");
}
if (str == "YES")
continue;
break;
}
print("SSSSSSSSSS.\n");
print("\n");
}
main();

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<html>
<head>
<title>TARGET</title>
</head>
<body>
<pre id="output" style="font-size: 12pt;"></pre>
<script src="target.js"></script>
</body>
</html>

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// TARGET
//
// Converted from BASIC to Javascript by Oscar Toledo G. (nanochess)
//
function print(str)
{
document.getElementById("output").appendChild(document.createTextNode(str));
}
function input()
{
var input_element;
var input_str;
return new Promise(function (resolve) {
input_element = document.createElement("INPUT");
print("? ");
input_element.setAttribute("type", "text");
input_element.setAttribute("length", "50");
document.getElementById("output").appendChild(input_element);
input_element.focus();
input_str = undefined;
input_element.addEventListener("keydown", function (event) {
if (event.keyCode == 13) {
input_str = input_element.value;
document.getElementById("output").removeChild(input_element);
print(input_str);
print("\n");
resolve(input_str);
}
});
});
}
function tab(space)
{
var str = "";
while (space-- > 0)
str += " ";
return str;
}
// Main program
async function main()
{
print(tab(33) + "TARGET\n");
print(tab(15) + "CREATIVE COMPUTING MORRISTOWN, NEW JERSEY\n");
print("\n");
print("\n");
print("\n");
r = 0; // 1 in original
r1 = 57.296;
p = Math.PI;
print("YOU ARE THE WEAPONS OFFICER ON THE STARSHIP ENTERPRISE\n");
print("AND THIS IS A TEST TO SEE HOW ACCURATE A SHOT YOU\n");
print("ARE IN A THREE-DIMENSIONAL RANGE. YOU WILL BE TOLD\n");
print("THE RADIAN OFFSET FOR THE X AND Z AXES, THE LOCATION\n");
print("OF THE TARGET IN THREE DIMENSIONAL RECTANGULAR COORDINATES,\n");
print("THE APPROXIMATE NUMBER OF DEGREES FROM THE X AND Z\n");
print("AXES, AND THE APPROXIMATE DISTANCE TO THE TARGET.\n");
print("YOU WILL THEN PROCEEED TO SHOOT AT THE TARGET UNTIL IT IS\n");
print("DESTROYED!\n");
print("\n");
print("GOOD LUCK!!\n");
print("\n");
print("\n");
while (1) {
a = Math.random() * 2 * p;
b = Math.random() * 2 * p;
q = Math.floor(a * r1);
w = Math.floor(b * r1);
print("RADIANS FROM X AXIS = " + a + " FROM Z AXIS = " + b + "\n");
p1 = 100000 * Math.random() + Math.random();
x = Math.sin(b) * Math.cos(a) * p1;
y = Math.sin(b) * Math.sin(a) * p1;
z = Math.cos(b) * p1;
print("TARGET SIGHTED: APPROXIMATE COORDINATES: X=" + x + " Y=" + y + " Z=" + z + "\n");
while (1) {
r++;
switch (r) {
case 1:
p3 = Math.floor(p1 * 0.05) * 20;
break;
case 2:
p3 = Math.floor(p1 * 0.1) * 10;
break;
case 3:
p3 = Math.floor(p1 * 0.5) * 2;
break;
case 4:
p3 = Math.floor(p1);
break;
case 5:
p3 = p1;
break;
}
print(" ESTIMATED DISTANCE: " + p3 + "\n");
print("\n");
print("INPUT ANGLE DEVIATION FROM X, DEVIATION FROM Z, DISTANCE");
str = await input();
a1 = parseInt(str);
b1 = parseInt(str.substr(str.indexOf(",") + 1));
p2 = parseInt(str.substr(str.lastIndexOf(",") + 1));
print("\n");
if (p2 < 20) {
print("YOU BLEW YOURSELF UP!!\n");
break;
}
a1 /= r1;
b1 /= r1;
print("RADIANS FROM X AXIS = " + a1 + " ");
print("FROM Z AXIS = " + b1 + "\n");
x1 = p2 * Math.sin(b1) * Math.cos(a1);
y1 = p2 * Math.sin(b1) * Math.sin(a1);
z1 = p2 * Math.cos(b1);
d = Math.sqrt((x1 - x) * (x1 - x) + (y1 - y) * (y1 - y) + (z1 - z) * (z1 - z));
if (d <= 20) {
print("\n");
print(" * * * HIT * * * TARGET IS NON-FUNCTIONAL\n");
print("\n");
print("DISTANCE OF EXPLOSION FROM TARGET WAS " + d + " KILOMETERS.");
print("\n");
print("MISSION ACCOMPLISHED IN " + r + " SHOTS.\n");
r = 0;
for (i = 1; i <= 5; i++)
print("\n");
print("NEXT TARGET...\n");
print("\n");
break;
}
x2 = x1 - x;
y2 = y1 - y;
z2 = z1 - z;
if (x2 >= 0)
print("SHOT IN FRONT OF TARGET " + x2 + " KILOMETERS.\n");
else
print("SHOT BEHIND TARGET " + -x2 + " KILOMETERS.\n");
if (y2 >= 0)
print("SHOT TO LEFT OF TARGET " + y2 + " KILOMETERS.\n");
else
print("SHOT TO RIGHT OF TARGET " + -y2 + " KILOMETERS.\n");
if (z2 >= 0)
print("SHOT ABOVE TARGET " + z2 + " KILOMETERS.\n");
else
print("SHOT BELOW TARGET " + -z2 + " KILOMETERS.\n");
print("APPROX POSITION OF EXPLOSION: X=" + x1 + " Y=" + y1 + " Z=" + z1 + "\n");
print(" DISTANCE FROM TARGET = " + d + "\n");
print("\n");
print("\n");
print("\n");
}
}
}
main();